Power Focus XC (3.11)

Software

Introduction

In this section, you can find the basic information about the product and also the formatting conventions used in the topics.

General Description

PFXC is the most robust power source for electrical nutrunners out in the field for tougher applications, with high power outputs. With a unique design with a metal frame, it's crafted perfectly to suit operations in the field. The pack is also equipped with QR codes, allowing you to log on to the PFXC to see; tightening results, tasks (Psets) and information about the tool. Combined with the Revo HA, it's the most powerful electrical nutrunner on the market.

Conventions

To enhance user understanding, certain formatting conventions are used throughout this document. The formatting conventions used are listed below.

User Guide Conventions
Element	Notation	Description	Output
General emphasis	In the Program workspace.	To make certain text elements stand out, or to highlight.	Text in Bold
Graphical User Interface (GUI) items	Select the Function button.	Any reference to items found on screen in the GUI (for example, command buttons, icon names and field names).	Text in Bold
Graphical User Interface (GUI) Path >	Generally, on the top of the GUI.	Navigation aid which keeps track of the location in the GUI.	For example: Controller > Program > Edit
User input	Enter a Description for the program.	Any text input by the user.	Text in Bold
File names	Enter a File Name for the export.	Files either exported from, or imported into the system.	Text in Bold Italic
Variable and parameter names	Enter a Name for the export.	Variable and parameter names (not values).	Text in Italic
Variable and parameter values	Enter a VALUE for the export.	Variable and parameter values.	Text in BOLD CAPS
System output	Client.Domain.Models.ExportImportConfiguration	Any text output by the system.	Text in Monospace
External links		Links to external sites that have information connected to the document or subject content. These could include: Technical Product Data Dimensional Drawings Accessories Product Specific Information	Selectable text to external sites
Internal documentation links		Relevant Information - links to information which is directly related to the current topic and needs to be considered for certain configurations that are made. In this Section - links to all the topics within the section, which can be useful when understanding a feature, or configuration. If available, these links will be presented below the text.	Selectable text to internal content

General Data Protection Regulation (GDPR)

This product offers the possibility to process personal identifiable information such as system user name, role and IP-address. The purpose of this processing capability could be to enhance quality control through traceability and proper access management.

If you decide to process personal data you need to be aware of and comply with relevant personal data protection rules, including, in the EU the GDPR as well as other applicable laws, directives and regulations. Atlas Copco can in no way be held liable for any use made by you of the product.

Liabilities and Warnings

Liability

Many events in the operating environment may affect the tightening process and shall require a validation of results. In compliance with applicable standards and/or regulations, we hereby require you to check the installed torque and rotational direction after any event that can influence the tightening result. Examples of such events include but are not limited to:

initial installation of the tooling system
change of part batch, bolt, screw batch, tool, software, configuration or environment
change of air- or electrical connections
change in line ergonomics, process, quality procedures or practices
changing of operator
any other change that influences the result of the tightening process

The check should:

Ensure that the joint conditions have not changed due to events of influence.
Be done after initial installation, maintenance or repair of the equipment.
Occur at least once per shift or at another suitable frequency.

Warnings

NOTICE

Changing parameters may lead to a decrease in tool performance and may also slow down the production.

WARNING

Risk of Property Damage or Severe Injury

Ensure that you read, understand and follow all instructions before operating the tool. Failure to follow all the instructions may result in electric shock, fire, property damage and/or severe bodily injury.

Read all Safety Information delivered together with the different parts of the system.
Read all Product Instructions for installation, operation and maintenance of the different parts of the system.
Read all locally legislated safety regulations regarding the system and parts thereof.
Save all Safety Information and instructions for future reference.

About the User Guide

The User Guide describes how to set up and configure the Power Focus XC.

It is intended for anyone operating or servicing the Power Focus XC.

Revision History

Release Number	Revision Date	Revision Description
item	item	none
3.11	01/2024	UPDATED content Event Codes updated NOK Results Listupdated Configuration of the Tool LEDsupdated. Pairing a Wireless Tool to a Controller replaces the section WLAN and Bluetooth for Wireless Tools. General Virtual Stationinformation about enable and disable loosening/tightening changed. Additional information to General Virtual Station updated: Configuring Live Result Presentation Settingsand Configuring the storage of Final Torque and Trace Stepsync replaced with either controller or Synchronized tightening in the whole User guide. REMOVED content The section Configuration of the Wireless Settings removed from Working with the Settings Tab.
3.10	06/2023	NEW content Troubleshooting Matrix added in Troubleshooting and Service UPDATED content Exporting "Logs from Connected Tools" QST-M added PrT - Prevailing Torque Event Codes Battery status added Tool Diagnostics Diagnostic test added Configuring Protocols Window in a Virtual Station Communication timeout value added
3.9	01/2023	NEW content Configuration > Working with the Tool Tab > Tool Diagnostics Configuration > Working with the Tool Tab > Zero Position UPDATED content Configuration > Working with the Tightening Tab > Multistep Programs > Step Monitors Configuration > Working with the Configurations Tab > General Virtual Station
3.8	06/2022	NEW content Configuration > Working with the Controller Tab > Export/Import > Exporting "System Logs and Information" UPDATED content Reference > Input Signals Configuration > Working with the controller tab > StepSync > StepSync Signals > Input Signals: Sub-signals Reference > Output Signals
3.7	01/2022	NEW content: Configurations Tab > Tool Configuration > Configuration of the Open End Settings Tab > Configuration of the Protocol > Configuring the Remote Logging Connection Settings Tab > Configuration of the Extended Logging Settings Tab > Configuration of the Extended Logging > Configuring the Log Groups UPDATED content: Multistep Programs > Step Monitors (C - Current) Multistep Programs > Settings for a Multistep Program (Program Monitor - Time, Program Restriction - Angle, Program Restriction - Time) Multistep Programs > Step Restrictions (C - Current) Event Codes list Input Signals - Power Focus XC Output Signals - Power Focus XC
3.6	06/2021	First official release of the user guide for Power Focus XC.

Relevant Information

Prerequisites

Anyone interested in learning more about Power Focus XC can benefit from reading this User Guide.

For a complete understanding of the technical aspects described in the User Guide, we recommend the following:

Knowledge about tightening techniques
Experience of working with the previous versions of Power Focus

System Overview

Software Structure

Software Structure

Menu Overview

The controller has several menus to perform the following:

configure tightenings and hardware accessories
perform tool maintenance
administer software
view reports.

The menus available differ between the full web GUI and the simplified mobile GUI.

In this Section

Web GUI

Tightening Tab

The Tightening tab lists the Tightening programs stored on the controller that are available for an individual tightening. Tightening configurations are described in the Tightening tab.

Batch Sequence Tab

The Batch sequence tab lists the batch sequences stored in the controller.

A batch sequence consists of one or more repetitive tightening programs in various combinations. Batch sequences are created and configured in the Batch sequence tab.

Sources Tab

The Sources tab lists the available options for controlling the selection of a tightening program, for example, a tightening program or a batch sequence, via digital input from different hardware. Scanner configurations are done in the Sources tab.

Virtual Station Tab

The Virtual station tab configures the Virtual Stations.

The Virtual Station is a software abstraction of a controller system. In the Virtual station tab the different resources, accessories, tools and tasks are assigned to a Virtual Station.

Controller Tab

The Controller tab lists hardware and software components.

The software versions stored and used in the controller are listed and can be updated. The license manager for additional features is handled. It is also possible to import or export settings to and from the controller.

Configurations Tab

A list of accessory configurations is given in the Configurations tab.

Accessories like tool accessories and socket selectors can be configured. Digital I/O signals are mapped to buttons, lamps, switches and connectors.

Reports Tab

In the Reports tab the tightening results and events are listed.

Settings Tab

The Settings tab is used to set up the controller specific settings, such as language, events and wireless network.

License Assignment Tab

The License assignment tab is used to assign licenses and license features to virtual stations.

Help Tab

The Help tab contains useful help sections about the controller. It is possible to download PDF files in different languages through a computer connected to the controller.

Mobile GUI

Task Tab

The Task tab lists the tightening programs stored on the controller that are available for an individual tightening. Tightening configurations are described in the Task tab.

Controller Tab

The Controller tab lists hardware and software components.

Results Tab

In the Results tab the tightening results and events are listed.

Help Tab

The Help tab contains useful help sections about the controller. It is possible to download PDF files in different languages through a computer connected to the controller.

Operating and Handling

The Power Focus XC is set up and configured by using a web GUI by browsing to the controller’s IP address on a connected PC. It is also possible to access the controller interface through a mobile GUI.

In this Section

Web GUI

GUI Buttons and Icons

GUI Buttons and Icons

Button	Name	Description
	Add	Add an additional item.
	Remove	Remove an item.
	Ellipsis	Edit an item.
	Go back	Return to previous view.
	Scroll up Scroll down	Move in a list that is too long for the screen.
	Maximize Minimize	Maximize or minimize a section with parameters.
	Back (to the start) (in a list) Back (in a list)	Move back in pages of a list.
	Forward (to the end) (in a list) Forward (in a list)	Move forward in pages of a list.
	Close	Tap to close the window.
	Notice	Sign showing that a parameter is configured wrong.
	Filter	Tap to filter on items.
	WARNING	Sign leading to a warning about the risk of injury.
	Validate program	Tap to check if a program is valid.
	Download manual	Tap to download a manual.
	Go home	Go to the Home screen.
	Go result	Go to the live results screen.

Mobile GUI

GUI Buttons and Icons

GUI Buttons and Icons

Button	Name	Description
	Add	Add an additional item.
	Remove	Remove an item.
	Ellipsis	Edit an item.
	Back	Return to previous view.
	Maximize Minimize	Maximize or minimize a section with parameters.
	Back (to start of list) Back (one page)	Move back in pages of a list.
	Forward (to end of list) Forward (one page)	Move forward in pages of a list.
	Close	Close the window.
	Notice	Sign showing that a parameter is configured wrong.
	Download manual	Tap to download a manual.
	Home	Go to the Home screen.
	Result	Go to the live results screen.
	Protocol connection	See protocol status.

Quick Start Guide

To provide a better overview of the system, the following instruction touches upon the steps that are required to start using the system.

The instruction does not cover all system features, but focuses on the most basic.

Web GUI

Select the type of tool to use. The tightening strategies available, depend on the type of tool you select.
Set a Tightening program that contains all relevant parameters, for example target angle and target torque. The main purpose of the tool is to perform a tightening.
Create a Virtual station and assign a tool to it. The virtual station acts as an interface between the controller and the tool, so several tools can be connected to a single physical controller. A virtual station is always required, even if only one tool is connected to the controller.
Assign a task to the Virtual station. The task can be either a tightening program, or a specified digital input (from for example a barcode scanner). The tool assigned to the station will now be able to perform the task.

Mobile GUI

Select the type of tool to use.
Create a tightening Task and set the relevant parameters, for example target torque and target angle. The main purpose of the tool is to perform a tightening.
The created task will be assigned to a virtual station. The tool assigned to the station will now be able to perform the task.

License Introduction

Licenses for controller features are managed through the Functionality Management System (FMS). This allows customers to tailor controller functions to their specific needs through a dynamic licensing scheme.

Licenses can be obtained for individual features or collections of features and can be deployed across multiple Virtual Stations. The licenses can be returned to the pool when they are no longer required. Licenses can be obtained through the Atlas Copco License Portal (ACLP). Licenses can be downloaded from the ACLP and managed/distributed through ToolsTalk, or can be stored on a FMS Portable (USB drive) to be inserted into the controller.

Note that the creation and management of a customer account in the ACLP is not covered in this documentation. Contact your local Atlas Copco representative for more information.

Licenses Overview

Configuration of features governed by licenses can be done even in the absence of an installed license. E.g. configuration of tightening programs and configuration of Multistep programs. Assigning these features to a tool or virtual station is also possible. Running the feature without a valid license, however, will require the installation of the appropriate license.

License enforcement is performed at two stages: assignment and runtime (trigger pressed). If a feature for which no license is installed is assigned to a Virtual Station, a red exclamation mark will appear at the Virtual Station View in ToolsTalk 2. The controller GUI will also show a warning triangle at the tool or task section (depending on what is missing). If a feature for which no license is installed is started (i.e. trigger pressed), an event will be presented to the user informing the user of which license is missing. It will not be possible to proceed without a correct license installed.

Running an unlicensed feature will, in most cases, result in a locked tool.

Many features and functions in the controller require a license in order to be assigned and used by a virtual station. There are three types of licenses:

Virtual Station Type

Fixed collection of features bundled together in a single package. The Virtual Station Type determines, among other things, what tools can be run, how many programs and sequences can be used, which tightening strategies are available, and the type of reporting that can be done. The features contained in each Virtual Station Type are features that often are used in conjunction with each other, or which have internal dependencies that require the presence of other features in the package. Virtual Station Types are assigned in their entirety to a virtual station. The virtual station can then make use of all features contained in the Virtual Station Type. In order to be able to perform tightenings, a Virtual Station has to be assigned a Virtual Station Type license. Depending on the license type, various tightening options will be enabled or blocked.

Virtual Station Feature

Individual features which can complement Virtual Station Types. A lot of features can be purchased as a single license.

License Sources

Licenses used on a controller can be pulled from several different sources. The number of simultaneous sources is limited to 10 (either 10 FMS Portable sources, or one License Server (TT2) in addition to 9 FMS Portable sources). If you would like to add licenses from a source when the source limit (10) has been reached, all licenses from one source need to be removed from the controller to make room for licenses from the other source.

Source Overview

The Source Overview tab (License assignment > Source Overview) provides the user with an overview of the licenses installed on the controller, as well as where they were installed from. A maximum number of 10 different sources can be displayed here, and each will be designated with FMS P (for FMS Portable, or dongle), or License Server (TT2).

Clicking on any license source will present that source's detailed license source information. It lists the source name and type, as well as the number and type of licenses in each category (Virtual Station Type, Virtual Station Feature and Controller Feature).

Supported Tools

Tools supported by a Virtual Station may vary depending on the Virtual Station type on the controller.

Supported Tools	BatchControl	JointControl	StationControl	CriticalControl	ProcessControl
BCP / BCV	X	-	-	-	-
TensorSB	-	X	X	-	-
TensorSL	-	-	X	X	X
TBP	-	-	X	X	X
TensorST	-	-	X	X	X
TensorSTR	-	-	X	X	X
SRB	-	-	X	X	X
TensorSTB	-	-	X	X	X
STWrench	-	-	X	X	X
TensorES	-	X	X	-	-
TensorSR	-	-	X	X	X
QST (Fixtured spindle)	-	-	X	X	X
TBPS	-	X	X	-	-
MWR-S (Mechatronic Wrench Signal)	-	-	-	-	-
MWR-T (Mechatronic Wrench Torque)	X	X	X	X	-
MWR-TA (Mechatronic Wrench Torque Angle)	-	-	X	X	X
External tool	X	X	X	X	X
ITB-A	-	-	X	X	X
ICB-A	-	-	X	X	X
ITB-P	-	-	X	X	X

Installation and Upgrade

In this section, you can find information to help with the initial installation of the product, or upgrading from one version to another.

License Installation
- Installing Licenses on the Controller
- Removing Licenses from the Controller

License Installation

Installing Licenses on the Controller

Note that licenses sources are limited to 1 License Server (TT2) and 9 FMS Portables (dongles) simultaneously. Licenses are installed either through the server (ToolsTalk 2) or FMS Portable. If the license source limit is reached, all licenses from one source need to be removed from the controller in order to add licenses from another source.

Before installing licenses through the server (ToolsTalk 2), make sure that the controller time is synced with the server time.

Installing from the Server

Distributing server-based licenses is done through ToolsTalk 2. Please refer to the ToolsTalk 2 User Guide for instructions on installing licenses.

In order to be able to install licenses using ToolsTalk 2, the correct license server needs to be configured:

Select the Settings menu, and select the Server connections tab.
In the Atlas Copco License Manager field, set the switch to On.
Insert the correct Server host IP address (usually the same as the IP address for ToolsTalk 2) and Server Port.
Select Apply.

Installing from FMS Portable (USB)

The Functionality Management System (FMS) uses a special FMS Portable device to transfer functionality to and from a controller. The USB flash drive contains both a general purpose memory area and a trusted storage area that is only accessible by the License manager in a controller. The purchased feature items are downloaded from Atlas Copco to the general purpose area. The first time the FMS Portable is inserted into a controller with a License manager, the file is detected and decoded and the feature items are transferred to the trusted storage area that is only accessible from a License manager.

If you have a USB drive with the licenses installed, perform the following steps to install them on the controller.

Insert the USB into the USB port in the controller
The USB License Management window will pop up in the GUI. The Pool column will show the total license count on the controller from all sources. The Available on FMS P column shows the licenses available on this dongle, while the From this FMS P column shows the number of licenses that have been moved to this controller from this particular FMS P.
Select the left-pointing arrow next to license you want to install on the controller.
The number in the Available on FMS P column will decrease by 1 and the number in the From this FMS P column will increase by 1.

The user will be presented with events on the controller for both license transfer start and end.

Automatic License Assignment

A process control license is assigned automatically to the first created virtual station. The license is assigned if it is available on the controller and no other license is assigned to the virtual station. The automatic license assignment occurs during upstart of the controller.

License sync

Existing licenses are checked against the license server every two hours. If no response from the license server is obtained within a 14 day period, the affected licenses will be revoked. The user will also be warned when licenses are about to expire. When a license is within 7 days of expiration, the user will be presented with a warning once every two hours. If licenses are not renewed, they will expire and the affected functions will no longer be available.

Relevant Information

Removing Licenses from the Controller

One way of removing an FMS Portable-installed licenses are described, for instructions how to remove server-installed licenses, please refer to the ToolsTalk 2 User Guide.

Removing FMS Portable-Installed Licenses

Make sure the FMS Portable is inserted into the USB port in the controller.
[If the USB License Manager window is not visible] Select the License Assignment menu.
Select the USB icon in the top right of the window.
The USB License Manager window pops up.
Select the right-pointing arrow next to the license you want to remove from the controller.
Licenses that are assigned to virtual stations can be removed from the controller. However, the Virtual Station will become unusable as a result.

Relevant Information

Unassigning licenses from a Virtual Station

Configuration

In this section, you can find detailed information about how to create, modify, and verify product settings.

Web GUI

Working with the Tightening Tab

WARNING

Risk of injury

A change in the configuration of the tightening program may cause unexpected torque, rotational direction, or speed in the system(s) where the tightening program is currently in use. This could result in severe bodily injury and/or property damage.

Check the tightening program configurations after adding a new program or after applying changes to an existing program.

Changes made to tightening programs in any section need to be actively applied by clicking the Apply button in the bottom right corner of the GUI. Alternatively, changes can be undone by clicking the Undo button in the same location.

When navigating away from the section where changes have been made (by using the Back, Home or Result button), the user will be presented with a warning pop-up where the changes can also be applied or undone. The user cannot proceed without applying or undoing changes.

Controller features, such as the Low Reaction Tightening Strategies and controller-wide functions among others, require licenses distributed through the Functionality Management System (FMS). Whereas configuration of features is possible without specific licenses, the assignment and use of those features will require the correct license to be installed on the controller. Please refer to Licenses (FMS) for more detailed information on licenses.

The Power Focus XC tightening programs need parameters to be set in order to perform tightening. Selecting a Strategy and either the Target torque or Target angle are mandatory. Other settings are optional, such as Soft start, Selftap, and Torque compensation. It is also possible to monitor the tightening as it progresses by adding limits within which the torque, or angle the nut turns, must remain.

The tightening procedure is divided into four steps: Start, Rundown, Tightening and Stop.

In this Section

Tightening Programs

By selecting the tightening program it is possible to choose the method for applying clamping force (or pre-load) to the joint. Different joints require different strategies for how to apply the desired clamping force and to minimize unwanted in-service effects.Power Focus XC can store up to 1,000 tightening programs.

In the Web HMI, a maximum of 1,000 tightening programs can be created.

In the Mobile HMI, a maximum of 500 tightening programs can be created.

The TurboTight strategy, enables the option to use Manual programming or Quick prog - for more information, see the paragraph TurboTight.
The Quick step, Two step and Three step strategies enable the choice of tightening towards a Target torque or a Target angle value.
The External result strategy, is used when OK tightenings are indicated by an external digital signal - for more information, see the paragraph External result.

All tightening programs require that you at least set the Target torque or Target angle value.

Parameter	Description	Default value
Strategy	Available tightening programs. TurboTight: No additional tightening behavior is used as default. Only target values are used. Quick step: Adds an initial tightening step to reduce pre-load scatter. Two step: Adds a pause between the first and final tightening step to further counteract short-term relaxation effects. Three step: Tightens to a defined First torque value, then loosens the screw and immediately retightens it to Target torque or Target angle. Wrench - production: Tightening strategy to use with an ST Wrench. Wrench - quality: Strategy used for quality test of tightenings with an ST Wrench. Rotate: Rotates the spindle a specified speed and angle. External result: presents a predetermined tightening result instead of measured torque/angle. Multistep: Tightening strategy consisting of multiple configurable steps, with restrictions and monitors.	TurboTight
Target type	Defines the type of the target value in the final step. Target torque: The tightening aims towards the specified target value when performing the final step. Target angle: The tightening aims towards the specified target value when performing the final step.
Target torque	Defines the target torque of the tightening of the final step.
Target angle	Defines the target angle of the tightening of the final step.
Target speed	Activates setting the tool speed for the final step manually or using the default speed. Auto: Uses a value that is calculated based on the Tool max speed. Manual: Specify the tool speed manually.	Auto
<Manual>	Tool speed during tightening or during the final step.

In this Section

TurboTight

TurboTight is the default tightening strategy and it is designed to perform a very fast and ergonomic tightening based on the maximum speed of the tool (Tool max speed). This strategy has two options:

Quick prog, that requires only the Target torque to be set to perform the tightening.
Manual, that allows the user to configure several tightening parameters.

To minimize the risk of unexpected jerk at the end of the tightening when using the TurboTight tightening strategy, make sure to activate Time monitoring.

To minimize the risk of unexpected jerk at the end of the tightening when using the TurboTight tightening strategy, make sure to set the Time Max Limit.

Time Max Limit is enabled by default, but it is necessary to setup the related values. In the tightening stage, set Angle Limit to From Rundown Complete.
Set Time Max as low as possible, without stopping the normal tightening. In the rundown stage, set Rundown Complete Torque so that it is triggered when the torque start to increase.

Depending on the joint properties, for example if the joint is very stiff or very soft, a different tightening strategy than TurboTight might be needed.

TurboTight is not available for Joint Control.

Fine-Tuning the TurboTight Strategy

TurboTight tightening strategy points to the target torque, and the result can be below or above the target. The most important parameter for TurboTight tightening strategy is the speed. It is possible to keep maximum speed for most tightenings, but if all/some of the tightenings overshoot, decrease the speed in small steps. Rundown Complete Torque is not used for controlling of the tightening; it is only used for calculating of limits and results.

Quick Step

Quick step is a tightening strategy used to reduce the joint’s preload scatter by adding an initial step with a given torque and speed, and then reducing the target speed in the final step.

Parameter	Description	Default value
First torque	Target torque for the first step.
First torque	Torque during first step.	80% of Target Torque
First speed	Target speed for the first step.
First speed	Tool speed during first step.	50% of Tool max speed

Two Step

The Two step strategy is very similar to the Quick step strategy except that it adds a small time delay between the first step and the final step, to further counteract short-term relaxation effects in the joint.

Parameter	Description	Default value
First torque	Torque during first step.	80% of Target Torque
First speed	Target speed for the first step.
Pause time	Time between first and second step.	50 ms

Fine-Tuning the Two Step Strategy

When the First target is reached, the tool makes an immediate stop for a specified time before it continues with the final step. The First torque value and the Pause time should be chosen to improve ergonomics for hand-held tools.

Three Step

The Three step strategy adds a loosening step between the first step and the final step, to overcome short-term relaxation effects due to embedment, and reduce preload scatter. This is sometimes used to condition the joint. This can be useful in, for example, joints with many adjoining surfaces and will have a greater effect on new parts than on reused ones, due to the smoothing of surfaces, which reduces embedment.

Conditioning the joint is done by tightening the first step to a given torque, First torque, and then releasing the load by turning the nut a specified Conditioning angle and then retightening the nut to its Target torque or Target angle.

The target torque can be lower than the torque reached during the first step after rundown. In order for the target torque to be lower than the first torque, set target torque (Tightening parameters > Tightening step > Final step > Target torque) to a value lower than First torque (Tightening parameters > Tightening step > First step > First torque).

If Angle is used as a target in the tightening program, the Target angle is measured from the position at the end of the loosening step (conditioning).

Behavior of Measure torque at, and Measure angle to

The Max torque value and Value at peak torque measured under Result evaluation for Measure torque at and Measure angle to, respectively, represent the highest values measured over the entire tightening. This means that if the Target torque is set lower than the First torque, the Result evaluation value will be higher than the end value. In order to view the tightening's final value, both Measure torque at, and Measure angle to should be set to Value at shutoff.

Parameter	Description	Default value
First torque	Torque during first step.	80% of Target Torque
First speed	Tool speed during first step.	50% of Tool max speed
Conditioning speed	Tool speed during the conditioning step.	50% of Tool max speed
Conditioning angle	Angle to turn the socket during the conditioning step.	180°

Fine-Tuning the Three Step Strategy

When the First target is reached and the conditioning step is entered, the tool makes an immediate stop and reverse before it continues with the final step. This conditioning step may need to be fine-tuned to improve ergonomics for hand-held tools.

STwrench

The STwrench is connected to a controller using a wireless connection and is configured through the controller GUI or the web GUI.

The STwrench is configured under the tightening menu in the same way as the other tightening strategies.

The STwrench has a Rapid Backup Unit (RBU). The RBU defines the wrench function and stores the tightening programs. The controller supports currently only the RBU of the type Production.

The STwrench End-fitting tool (socket) contains a RFID TAG with a programmable number. This wrench uses this number to automatically recognize the tool and which program that can be used. The RFID TAG also stores the torque and angle correction coefficients.

The STwrench has several programs both for production tightening and for quality control.

The STwrench can only support tightening programs supported by the tool (Wrench Production and Wrench Quality).

For more information about the STwrench, see the STwrench User Guide (printed matter number 9836 4134 01).

In this Section

STwrench Start Step Parameters

The parameters shown in the tables are available if one of the STwrench strategies are used. There are several combinations of strategies. Some of the parameters are only available for certain strategies and may not be visible in other strategies.

Parameter rules are automatically checked. If a violation occurs, the error indicator is displayed beside the incorrect parameters. Select the error indicator to display more information about the error.

Switching between strategies can result in the error indicator being shown. This indicates that the chosen combination is invalid, and needs to be corrected.

For more information about the STwrench, see the STwrench User Guide (printed matter number 9836 4134 01).

Parameters in the STwrench start step
Parameter name	Condition	Description	Default value
Tag number		On: after enabling TAG Check switch (Configurations > Tool Configuration > TAG Check > On), a correct TAG number is required to run the tightening program. Off: The TAG number is not checked.	Off
Required tag number	Tag number = On	The required TAG number for this tightening program.	1
Rehit detection		The parameter options are: Complete or Off .	Off
Torque correction coefficient		In certain cases extensions may be needed to fit the application. In this case the wrench measurement must be compensated to show a correct value. For more information about to calculate the correction coefficient, see the STwrench User Guide (printed matter number 9836 4134 01). The parameter is stored in the RFID TAG in the End-fitting tool.	1.0
Angle correction		In certain cases extensions may be needed to fit the application. In this case the wrench measurement must be compensated to show a correct value. To calculate the correction coefficient, please refer to the STwrench user guide. The parameter is stored in the RFID TAG in the End-fitting tool.	0°

NOTICE

The correction coefficients alter the STwrench measurement. It may cause an improper reading. Before making any corrections, refer to the latest version of the STwrench User Guide (printed matter number 9836 4134 01).

STwrench Rundown Step Parameters

Switching between strategies can result in the error indicator being shown. This indicates that the chosen combination is invalid, and needs to be corrected.

For more information about the STwrench, see the STwrench User Guide (printed matter number 9836 4134 01).

Rundown complete is in the STwrench documentation defined as Cycle start , this is when the tightening step begins.

Parameters in the STwrench rundown step
Parameter name	Description	Default value
Rundown complete torque	Definition of the Rundown complete point	Depends on the smarthead minload (usually 5% of nominal torque) in Nm
Ratchet time		5000 ms

STwrench Tightening Step Parameters

Switching between strategies can result in the error indicator being shown. This indicates that the chosen combination is invalid, and needs to be corrected.

For more information about the STwrench, see the STwrench User Guide (printed matter number 9836 4134 01).

Parameters in the STwrench tightening step
Parameter name	Condition	Description	Default value
Target		Select the target from the drop-down menu. The parameter options are: Torque, Angle, Torque or Angle.	Torque
Target Torque		Defines the target torque for tightening step.	0 Nm
Target Angle	Target = Angle	Defines the target angle for tightening step.	360°
Torque limits	Target = Torque	Selection made by a switch. Auto or Manually position.
Torque min	Torque limits = Manual	Torque value for the lower limit	0 Nm
Torque max	Torque limits = Manual	Torque value for the upper limit	0 Nm
Angle limits	Target = Angle	Selected from a drop-down menu. The parameter options are: Auto or Manually. Angle values for max and min can be or selected
Angle limits	Target = Torque	Selected from a drop-down menu. The parameter options are: Off: No angle limit monitoring. From rundown complete: The monitoring window is set from when the Rundown complete torque is reached. From torque: The monitoring window is set from when the specific torque value is reached.
Final angle monitoring torque		Torque value from when the angle limits are monitored	18.75 Nm
Angle min	Angle limits = on or manually	Angle value lower limit	324°
Angle max	Angle limits = on or manually	Angle value upper limit	396°
Angle search limit	Angle limits = manually
Measure torque at		Selected from a drop-down menu. The parameter options are: Max torque value Value at peak angle
NOK on final less than target		Selection made by a switch. On or Off position.	Off
Change bolt limit			50 Nm

Parameters in the STwrench tightening step if the strategy is Wrench - Production, and PVT compensate with snug
Parameter name	Condition	Description	Default value
Torque compensation point	Torque compensation = On		0°
PCT distance	Torque compensation = On		360°
PVT interval	Torque compensation = On		180°
Delay monitoring	Torque compensation = On		0°
Torque min	Torque compensation = On	Torque value for the lower limit	1 Nm
Torque max	Torque compensation = On	Torque value for the upper limit	20 Nm
Compensation value	Torque compensation = On	Selected from a drop-down menu. The parameter options are: Average torque Peak torque

STwrench Loosening

Switching between strategies can result in the error indicator being shown. This indicates that the chosen combination is invalid, and needs to be corrected.

For more information about the STwrench, see the STwrench User Guide (printed matter number 9836 4134 01).

Parameters in the STwrench loosening step
Parameter name	Condition	Description	Default value
Loosening limit		If this parameter is set to a value greater than 0, Power Focus checks if a negative torque exceeding this value is applied during the tightening. In that case, the overall status of the tightening is marked as Not OK. This function is started when the wrench reaches the Cycle Start (before starting the tightening, a loosening is allowed and does not produce results). This function is used to detect unwanted loosening at the end of a tightening (for instance, when the wrench is disengaged from the joint).	0 Nm

STwrench Stop Step Parameters

Switching between strategies can result in the error indicator being shown. This indicates that the chosen combination is invalid, and needs to be corrected.

For more information about the STwrench, see the STwrench User Guide (printed matter number 9836 4134 01).

Parameters in the STwrench loosening step
Parameter name	Condition	Description	Default value
End cycle time		It is applied when torque goes below the cycle start and gets to the third percentage value set on the STwrench LEDs.	100 ms

Pulsing Tool Strategies

The strategy can be selected if the controller software version supports the tightening program. Pulsing tools can achieve a higher torque compared to normal rotating tools.

In this Section

Pulse Tightening Program

Start

During the start step, the tool rotates in a speed mode without any pulsing.

Parameter name	Description
Soft start	Enables setting of the tool’s speed, angle and maximum torque to facilitate the bolt entering the thread. Selected by radio buttons. Off: Soft start is turned off. On: Soft start is turned on.
Speed	Defines the speed during the soft start.
Time	Defines the Soft start duration.
Angle	Defines the target angle to turn the spindle for the bolt to enter the thread.
Torque max	Defines the upper torque limit during the soft start. If Torque max is exceeded, the tightening is considered NOK.
Rehit detection	Early: Terminates the tightening immediately when an already tightened screw/bolt is detected. The tightening will be considered as NOK. Requires that Soft start is activated. Complete: Even though an already tightened screw/bolt is detected, the tightening is not terminated until all tightening steps have been executed. The tightening will be considered as NOK. To make a rehit detection when Soft start is not activated, the Rehit detection Complete option must be selected. Rehit detection Complete will not terminate the tightening until all tightening steps have been executed. The tightening will be considered a rehit if the speed fails to reach half the rundown speed, a rehit error is then indicated. Off: No rehit detection will be performed. Combination Soft start = Off and Rehit = Early is not allowed.
Positive	The TrueAngle compensation can detect tool rotation and make angle compensations within the set limits.
Negative	The TrueAngle compensation can detect tool rotation and make angle compensations within the set limits.
Use attachment tuning	Attachment tuning is selected by radio buttons.
Gear ratio	Socket rotation speed = Tool speed / gear ratio.
Efficiency tuning	For example 0.9 means 10% efficiency loss.

Rundown

During rundown, the tool can use either speed mode, with a constant motor speed, or pulse mode. The selection is made depending on the encountered torque and the given torque limits within the configuration.

Parameter name	Description
High-speed rundown	The rundown step can be done in high-speed in order to minimize the time, without overshooting. This is achieved by letting the tool run at a higher speed for a specified angle length. When the angle has been reached, the speed will change to the lower speed specified in Rundown speed parameter. Only available for SRB tools. Length: Default 3600°, max 99999° Speed: Tool max speed must be higher than Rundown speed (rpm).
Rundown speed	Rundown speed can be set to either Max or Manual. If Rundown speed is set to Manual; enter the tool speed in rpm.
Rundown angle limits	Off: Rundown angle limits is turned off. From Trigger: Rundown angle limits is turned On. The system starts to monitor the tightening angle as soon as the tool trigger is pressed and reports if angle limits are violated. From torque: Rundown angle limits is turned On. The system starts to monitor the tightening angle from the specified torque value and reports if angle limits are violated.
Rundown angle monitoring torque	Torque value from where Rundown angle limits are set.
Angle min	Angle value for lower angle limit from starting point.
Angle max	Angle value for upper angle limit from starting point.
Time min	Minimum time for the step.
Time max	Maximum time for the step.
Rundown pulse limits	Selected from a shortcut menu: Off: Rundown pulse limits is turned off. From Trigger: Rundown pulse limits is turned On. The system starts to monitor the pulses as soon as the tool trigger is pressed and reports if the pulse limits are violated. From torque: Rundown pulse limits is turned On. The system starts to monitor the pulses from the specified torque value and reports if the pulse limits are violated.
Rundown pulse monitoring torque	Torque value from where the Rundown pulse limits monitor starts. The value must be set to a value greater than Continuous max torque.
Pulses min	Minimum number of pulses to reach the Rundown complete torque value.
Pulses max	Maximum number of pulses to reach the Rundown complete torque value.
Rundown complete torque	Defines the torque value for when snug is reached and the rundown is completed. The program proceeds with the tightening and starts with pulse mode, if not already done so during rundown.

Tightening

Parameter name	Description
Target torque	Final target torque for the tightening.
Pulse Energy	The Pulse energy delivered in the action pulse expressed in a percentage of the maximum energy that the tool can deliver in each pulse.
Reaction force tuning factor	The energy delivered by the tool expressed in a percentage value. The reaction force tuning factor is based on the action energy and results in a comfortable reaction.
Residual torque correlation factor	The term Residual torque correlation factor is similar to a calibration and adjusts between the dynamic torque, measured in the electrical tool, and the residual torque, measured by a control tool.
Torque limits	Limits can be Automatically or Manually selected.
Torque min	Minimum torque for the step.
Torque max	Maximum torque for the step.
Angle limits	Off:Angle limits is turned off. From Rundown complete: Angle limits is turned On. The system starts to monitor the tightening angle as soon as Rundown complete is reached and reports if angle limits are violated. From torque: Rundown angle limits is turned On. The system starts to monitor the tightening angle from the specified torque value and reports if angle limits are violated.
Rundown angle monitoring torque	Torque value from where Rundown angle limits monitoring starts.
Angle min	Angle value for lower angle limit from the starting point.
Angle max	Angle value for the upper angle limit from starting point.
Time min	Minimum time for the step.
Time max	Maximum time for the step.
Pulse limits	Off: No pulse limit monitoring. From rundown complete: The monitoring starts when the Rundown complete torque is reached. From torque: The monitoring starts when the specific torque value is reached.
Final pulse monitoring torque	Torque value from when the pulse limits are monitored.
Pulses min	Minimum number of pulses to reach the final target.
Pulses max	Maximum number of pulses to reach the final target.
Premature torque loss detection time	A constant increase in torque is assumed when moving from rundown to tightening. A socket slip off, or a broken screw head can cause the torque to decrease. This may be detected in a monitoring window.

Pulse Tightening with Direct Driven Electrical Tools

The principle below is applicable for direct driven electrical tools. It is applicable to the Atlas Copco SRB series of tools.

The pulse tightening uses a technique of pulsing the electrical current in the motor and has two distinct features:

An action current that adds positive torque in the tightening direction.
A reaction current that creates a comfort reaction by applying a reverse torque.

The figure shows the general principle of a current pulse tightening strategy. The detailed curve depends on the tool type and the tightening algorithm.

The pulse period consists of two phases as shown in the figure with an action current and a reaction current. Each action pulse adds torque to the tightening until the final target is reached. Each reaction pulse creates a counterforce that provides a comfortable reaction.

The energy level of the action phase and the reaction phase are configurable parameters. The combination of these two parameters creates an efficient tightening combined with operator comfort.

Tightening using the TensorPulse Program

The principle below is applicable for direct driven electrical tool. It is applicable to the Atlas Copco SRB series of tools.

After each pulse period the resulting torque in the screw is increased. After a series of pulses, the final torque target is reached.

The energy level in the action phase and reaction phase are user configurable parameters. The combination of these two parameters creates an efficient tightening combined with operator comfort. It is possible to set the amount of energy in the two phases as a percentage of the maximum energy that can be delivered in each period:

Pulse energy; The amount of energy that is applied to each positive pulse as a percentage of the maximum energy that can be applied in the pulse period. The value is between 10-100%.
Reaction force retention factor; The amount of energy that is applied to each reactive pulse as a percentage of the maximum energy that can be applied in the pulse period. The value is between 0-75%.

TensorPulse with reduced positive pulse energy

A small Pulse energy (reduced energy) requires more pulses to reach the target torque as the torque is increased in smaller steps. Smaller steps provides better accuracy to terminate the tightening when the target is reached. Smaller pulses decrease tool movement and increases operator comfort.
A correctly tuned Reaction force retention factor will create the desired operator comfort. If the factor is too high the operator feels a clockwise rotation of the tool. If the factor is too low, the operator feels a counter clockwise rotation of the tool.
In an ideal configuration, the reaction energy does not create any loosening force. If the amount of pulses to reach the target value increases, the value is set too high and a small loosening occurs at each pulse.

The optimum values for the Pulse energy and the Reaction force retention factor need to be tuned for optimum performance of the tool and for best operator comfort.

Impulse Single Step Tightening Program

Rundown

Parameter name	Condition	Description	Default value
Rundown speed		Selected by radio buttons. Rundown speed can be selected between Max or Manual.	Max
Rundown speed	Rundown speed = manual	Specifies the tool speed during the rundown step.
Rundown time limits		Selected from a shortcut menu: Off:Rundown time limits is turned off. From Trigger: Rundown time limits is turned On. The system starts to monitor the time as soon as the tool trigger is pressed and reports if the time limits are violated. From torque: Rundown time limits is turned On. The system starts to monitor the time from the specified torque value and reports if the time limits are violated.	Off
Rundown time monitoring torque	Rundown time limits = from torque	Torque value from where Rundown time limits monitor starts.
Time min	Rundown time limits = On	Minimum allowed time for rundown.	10ms
Time max	Rundown time limits = On	Maximum allowed time for rundown.	5000ms
Rundown pulse limits		Selected from a shortcut menu: Off:Rundown pulse limits is turned off. From Trigger: Rundown pulse limits is turned On. The system starts to monitor the pulses as soon as the tool trigger is pressed and reports if the pulse limits are violated. From torque: Rundown pulse limits is turned On. The system starts to monitor the pulses from the specified torque value and reports if the pulse limits are violated.	Off
Rundown pulse monitoring torque	Rundown pulse limits = from torque	Torque value from where the Rundown pulse limits monitor starts.	2.5Nm
Pulses min	Rundown pulse limits = On	Minimum number of pulses to reach the target.	2
Pulses max	Rundown pulse limits = On	Maximum number of pulses to reach the target.	50
Rundown complete torque		Defines the torque value for when snug is reached and rundown is completed.	5Nm

Tightening

Parameter name	Condition	Description	Default value
Target torque		Final target torque for the tightening.
Pulse Energy		The Pulse energy delivered in the action pulse expressed in a percentage of the maximum energy the tool can deliver in each pulse.
Residual torque correlation factor		The term Residual torque correlation factor is similar to a calibration and adjusts between the dynamic torque, measured in the electrical tool, and the residual torque, measured by a control tool.	100%
Torque limits		Selected by radio buttons. Limits can be Automatically or Manually selected
Torque min	Torque limits = manual	Minimum torque for the step.
Torque max	Torque limits = manual	Maximum torque for the step.
Time limits		Selected from a shortcut menu: Off:Time limits is turned off. From rundown complete: Time limits is turned On. The system starts to monitor the time as soon as rundown complete is reached and reports if the time limits are violated. From torque: Time limits is turned On. The system starts to monitor the time from the specified torque value and reports if the time limits are violated.	Off
Time monitoring torque	Time limits = from torque	Torque value from where the Time limits monitor starts.
Time min	Time limits = On	Minimum allowed time for tightening.	10ms
Time max	Time limits = On	Maximum allowed time for tightening.	1000ms
Pulse limits		Selected from a shortcut menu: Off: No pulse limit monitoring. From rundown complete: The monitoring starts when the Rundown complete torque is reached and reports if the number of pulses is outside the limit. From torque: The monitoring starts when the specific torque value is reached and reports if the number of pulses is outside the limit.	Off
Final pulse monitoring torque	Pulse limits = from torque	Torque value from when the pulse limits are monitored.
Pulses min	Pulse limits = on	Minimum number of pulses to reach the final target.	2
Pulses max	Pulse limits = on	Maximum number of pulses to reach the final target.	50
Premature torque loss detection time		A constant increase in torque is assumed when moving from rundown to tightening. A socket slip of, or a broken screw head can cause the torque decrease. This may be detected in a monitoring window.	200 ms

Rotate

The Rotate strategy is primarily a strategy for testing and demonstration purposes. When the tool is allowed to rotate freely, it turns the socket the specified angle using the lowest torque possible.

Parameter	Description	Default value
Target speed	Target speed for the Rotate strategy.
<Target speed>	Manual tool speed during the Rotate strategy.	16.5% of Tool max speed
Target angle	Angle to turn the spindle.	360°

External Result

External result is a strategy used when an OK tightening is indicated by an external digital signal (and not by torque or angle values measured during tightening).

When the signal is sent, the Result view will show the value of the Target parameter provided in the tightening program (specified torque value, angle value, or text string). These (torque and angle) values do not represent actual measured values, but only inserted text.

Parameter	Description	Default value
Torque <Target torque>	Numerical value for desired displayed target torque value	0.00
Angle <Target angle>	Numerical value for desired displayed target angle value	360°
Text	Alphanumerical string for desired displayed text.

In this Section

Running the External Result Tightening Strategy with a Tool Connected

Running the External Result Tightening Strategy with a Tool Connected

On the Home view, select the Tightening Tab. Then, create a tightening program with External Result strategy.
Return to the Home view and select the Virtual Station Tab.
In the Licenses window, the External Result Tightening Strategy with a Tool Connected feature requires a license to be assigned and used by a virtual station.
In the Tool window, select the necessary tool. Then, select the tool configuration.
In the Task window, select the tightening program with an External Result strategy.
Send EXTERNAL_OK signal to the Virtual Station.
Select Go Result button to display the results.
Results are sent from the Tool configuration for the tool connected to the Virtual Station.

Relevant Information

Assigning Licenses to a Virtual Station

Tightening Program and Error Reporting Validation

The tightening program automatically validates with the parameter rules and tool properties as soon as new values are entered or changes are made. If the validation detects any errors they are reported with an error description.

In this Section

Validation Error Reporting

If the validation gives an error, it is displayed with an icon next to the parameter or parameters causing the error. When you tap on the icon, a short description of the error is given.

Example (See image):

Target torque is set to 25 Nm with Final torque limits set to Torque min 23.75 Nm and Torque max 24.5 Nm (this value is hidden by the pop-up window in the image).
When you tap on the validation error icon next to the Torque max parameter, a short description of the error is given, saying that Target torque is greater than Torque max (Torque max <= Target torque).
To fix the error, adjust the Torque max value so that it is greater than Target torque, and the error icon will disappear.

Validate a Tool with a Tightening Program

In the Tightening menu, choose Tightening program library or Multistep program library. If required, select a specific program in the list. Note that validation can be performed both for the entire list of programs, or for individual programs.
Select the validate program icon in the upper-right corner of the screen.
In the pop-up window, choose the tool to validate the tightening program against, and select Validate.
If a tightening program is not compatible with the selected tool, it will be indicated by a red circle with an exclamation point.

Tightening Program Tool Compatibility Table

The availability of tightening strategies depends on the licenses installed on the controller.

Tightening Strategies	ES	ST	STR	SR	SB+	ETT	SL _{(low voltage)}	QST	STB	SRB 2.0 _ETP-SRB31-20	SRB 2.1 _ETP-SRB31-25	SRB-HA	TBP / TBP-S	STW	External tool
Two step	X	X	X	X	X	X	X	X	X	X	-	X	-	-	-
Quick step	X	X	X	X	X	X	X	X	X	X	X	X	-	-	-
Three step	X	X	X	X	X	X	X	X	X	X	-	X	-	-	-
Turbo Tight	X	-	X	X*	-	X	-	-	-	X	X	-	-	-	-
Rotate	X	X	X	X	X	X	X	X	X	X	-	X	-	-	-
External Result	X	X	X	X	X	X	X	X	X	X	X	X	X	-	X
Tensor Pulse	-	-	-	-	-	-	-	-	-	X	X	-	-	-	-
Impulse - single step	-	-	-	-	-	-	-	-	-	-	-	-	X	-	-
Wrench production	-	-	-	-	-	-	-	-	-	-	-	-	-	X	-
Wrench quality	-	-	-	-	-	-	-	-	-	-	-	-	-	X	-

* Available only for SR31.

Tightening Features	ES	ST	STR	SR	SB+	ETT	SL _{(low voltage)}	QST	STB	SRB 2.0 _ETP-SRB31-20	SRB 2.1 _ETP-SRB31-25	TBP / TBP-S	STW	External tool
True Angle	-	-	X	-	-	X	-	-	-	-	-	-	-	-

Tightening Features

STR

SB+

ETT

_{(low voltage)}

QST

STB

SRB 2.0

_ETP-SRB31-20

SRB 2.1

_ETP-SRB31-25

TBP / TBP-S

STW

External tool

True Angle

Multistep Programs

WARNING

Risk of injury

Check the tightening program configurations after adding a new program or after applying changes to an existing program.

A multistep tightening is a tightening done in several steps. The number of steps and the type of steps vary depending on the tightening to be done. A multistep tightening program is highly configurable, including monitoring function and restrictions.

In this Section

Multistep GUI Interface

Multistep tightening programs can only be edited in the web GUI.

The interface for mutistep programs can be divided into three main areas.

On top there is a drop-down menu containing the Properties of the multistep tightening program. Here general properties such as program name, overal program monitor and validation can be filled out.

To the right there are four tabs containing the steps, monitors, restrictions and reporters that can be used to build the multistep program. To use any of the items, click on the appropriate tab, and drag the item in the list to the tightening area. Depending on its funtion, either drop the item between the beginning and the end of the program (for steps), or on top of a particular step (for monitors and restrictions).

The main area of the interface is the tightening area. This is the area that includes all the steps in the tightening program. Scroll the mouse wheel to zoom in and out on the tightening area.

At bottom left of the screen there is a Copy Tightening Program button and a Delete Tightening Program button.

Tightening Steps

The availability of tightening steps, monitors and restrictions depends on the license installed on the controller.

General Parameters

The following step parameters are common for many of the step types. The parameters are set in the step properties window which is displayed when selecting a step in the tightening program.

Parameter	Description
Name	Name of the step.
Rotational direction	Each of the tightening steps can run either forward, that is to make a tightening, or reverse, to loosen the screw slightly. The arrows indicate this direction. Many of the tightening steps have a direction hard-coded to forward, for example Tighten to Angle, or Tighten to Torque. Steps such as Loosen to Angle or Loosen to Torque have their direction automatically set to reverse. The reverse setting is not allowed for tools configured with Gear Front Attachment (GFA) of type open end. The tightening direction of the tightening program must be the same as the tightening direction of the open end tool for a tightening to be allowed to be run. It is possible to assign a loosening program to a tightening program for an open end tool, but if the direction switch is set to run the loosening program, the tool will be locked.
Step category	For each step, there is an option to choose a step category. By selecting step category, the NOK tightenings will be listed in the event result view with related detailed status together with the corresponding multistep error information. If no selection is made, the detailed status will be set to "uncategorized multistep error". The related detailed status can be customized.
Angle window	A joint is considered Hard if the screw is tightened to its full torque and it rotates 30 degrees (or less) after it has been tightened to its snug point. A Soft joint rotates 720 degrees or more after it has been tightened to its snug point. The hardness parameter defines the Angle Window for the gradient calculation. The harder the joint - the smaller the angle window.
Speed Ramp / Acceleration (only available in ToolsTalk 2)	For most of the steps it is possible to specify how the acceleration to the target speed should be achieved. Three different settings are possible; Hard, Soft and Manual. The acceleration defined will be used whenever a step is started. Regardless whether the tool is already running with speed at the beginning of the step, the ramp will be used to accelerate to the target speed of the step. This will be the case even if the speed at the start of the step is higher, or lower than the target speed.
Speed ramp - Hard and Soft mode	Hard: 2000 rpm/s (Speed Ramp between 1000 and 10000 rpm/s is a Hard acceleration.) Soft: 500 rpm/s (Speed Ramp between 200 and 1000 rpm/s is a Soft acceleration.)
Speed ramp - Manual mode	Speed: Default value: 60 rpm Minimum limit: > 0 Maximum limit: ≤ Tool Max Speed Acceleration: Default value: 500 rpm/s Minimum limit: > 0 Maximum limit: ≤ Tool Max Acceleration
Using speed shifts	1−5 angle triggers or torque triggers can be defined during a step, where the speed will shift. Within one step, all the speed shift triggers are based on the same property, that is either torque or angle. They cannot be mixed within one step. The Torque triggers and Angle triggers must be less than the step target, depending on the type of the step and the trigger type. The Torque trigger and Torque speed also validate against the Max torque and Max speed of the tool. A warning or error indicator occurs whenever the Speed Shift settings exceed either the tool max values, or step max values. The Torque triggers and Angle triggers must be less than the step target, depending on the type of the step and the trigger type. The Torque trigger and Torque speed also validate against the Max torque and Max speed of the tool. A warning or error indicator occurs whenever the Speed Shift settings exceed either the tool max values, or step max values. It is possible to push the settings to the tool when a tightening program has a warning, but not when a tightening program has an error (fault) indicator. The speed shifts can be added in the Configuration field. To add a speed shift: In the dialog box of a step that can have speed shifts, select Add speed shift. Then, select an angle range or a torque range. The Speed Shift Angle/Torque fields open. Add values according to the table below: Angle/Torque trigger: Must be > 0 Speed: Must be > 0 Speed ramp type: Hard or soft
Brake type	The braking behavior of a multistep tightening program can be controlled at two possible locations in the program: in a step preceding a reversal of direction of the tightening, and/or at the final step of the tightening program. At other locations in the tightening program, the braking parameters will not be available in the step's general settings. Braking can be set to either Ergo stop or Inertia. Inertia will brake the tool completely, while Ergo stop will allow for a more ergonomic slowing down of the tightening. Inertia has no additional parameters. Ergo stop parameters: Adaptive brake: Set the Adaptive Brake to On or Off Ramp time: Only available when Adaptive Brake is set to Off. Insert time in ms.

The following tightening steps are not supported for tools configured with Gear Front Attachment (GFA) of type open end:

A - Tighten to Angle / Loosen to Angle
TrR - Loosen to Trigger Release
T - Tighten to Torque / Loosen to Torque
E - Engage
SR - Socket Release
DT - Tighten to DynaTork
TPT - TensorPulse Tighten to Torque / Loosen to Torque
IT - Impulse Tighten to Torque / Loosen to Torque

Trace Settings

When the trace configuration is enabled on the program level, the trace resolution can be configured on step level. The setting for Trace Setting defines how the sampling should be done on each specific step.

Parameter	Description
Trace Setting	Program: Use the settings as defined on program level. Manual: The trace sample type from the program level will be used, that is, Time or Angle. Using a different sample rate will override the setting on the program level.
Sample Time	Choose the sample time from the drop-down list (0.25 - 1000 ms)
Sample Angle	Choose the sample angle from the drop-down list (0.25 - 20 degree)

With this trace recording the sample rates will not be the same in all the steps, instead the sample rate depends on the configuration in each step. This means the trace is divided into one trace for each step.

The maximum number of samples in a trace is 4096.

If a tightening produce more than 4096 values a down-sampling will take place. This is done by removing every second trace sample from the whole tightening and when continue the recording with half the resolution. This process will be repeated every time the 4096 sample limit is reached.

If more than 2048 in total was recorded, this process will result in a trace between 2048 and 4096 samples.

If the limit if 4096 samples is reached the configured trace sample times will no longer be followed. Instead the sample times will be doubled or quadrupled etc., depending on how many times the down sampling has taken place. Since all steps are down sampled the relation between the steps will still be the same though. If a step was configured with double sample time compared to another step, this will still be the case in the final trace regardless how many times a down-sampling has occurred.

If more than 4096 samples is recorded, the configured trace sample times will no longer be followed. Instead the sample times will be doubled or quadrupled, etc., depending on how many times the down sampling has taken place. Since all steps are down sampled the relation between the steps will still be the same though. If a step was configured with double sample time compared to another step, this will still be the case in the final trace regardless how many times a down-sampling has occurred.

Trace channel	Note
Torque	Available for all tools equipped with a torque transducer
Angle	Available for all tools
Torque Second	Only available for tools with two torque transducers
Angle Second	Only available for tools with two angle transducers
Current	Available for all tools
Gradient	Available if some step/restriction/monitor produces the gradient values

Available tools for each system type
Power Focus 6000 / Power Focus 8	Power Focus 6000 Synchronized tightening / Power Focus 8 Synchronized tightening	Flex	IxB
ST	ST	QST	IxB
STR	STR
SL	QST
QST
STB
IxB
Power Focus Connect

A – Tighten to Angle / Loosen to Angle

Tools
ES STR SL ST SR QST STB IXB

Tools

STR

QST

STB

IXB

A – Tighten to Angle

This step runs the tool until the target angle is reached. The target angle is measured from the start of the step.

A – Loosen to Angle

This step runs the tool with the speed n in the backward direction until the angle target is reached. The target angle is measured from the start of the step.

This step is not supported for tools configured with Gear Front Attachment (GFA) of type open end.

Parameters

Parameter	Description
Target angle	The angle target. Must be > 0.
Speed	Default: 60 rpm.
Speed ramp type	Hard, soft, or manual. Default: Hard. If you select Manual, the Speed ramp field opens.
Speed ramp	If Speed ramp type is Manual, this field opens. Default: 500 rpm/s.
Brake (Valid only for Power Focus 6000 Synchronized tightening, Power Focus 8 Synchronized tightening and Flex).	If On the tool will be stopped when the target is reached. If Off the program goes directly to the next step without stopping the tool.

Point and click on image to see more information:

A	Target Angle

Microvideo

A - Tighten to Angle / Loosen to Angle

C - Clutch

Tools
BCV BCP

Tools

BCV

BCP

This step will run the tool with the programmed Speed in forward direction until the Clutch has been released. When the tool has reported the release of the Clutch the step will finish with OK status.

A tightening program using the Clutch step cannot have any other step assigned.

This step is only valid for the Clutch tools BCV-RE and BCP-RE.

Parameter	Description
Speed Control	One Speed or Two Speed
Final Speed	Sets the final speed of the program [rpm]
Speed Ramp	Switch where speed ramp can be chosen [Hard, Soft]
Rehit	Rehit detection set to On or Off
Rehit angle	Sets the rehit angle [°]

CL - Clutch Loosening

Tools
BCV BCP

Tools

BCV

BCP

This step will run the tool with the programmed speed in reverse direction until the tool trigger is released.

A loosening program using the Clutch step can not have any other step assigned.

This step is only valid for the Clutch tools BCV-RE and BCP-RE.

Parameter	Description
Final	Sets the speed of the program [rpm]

DI – Run Until Digital Input

Tools
ES STR SL ST SR QST

Tools

STR

QST

This steps runs the tool, in the direction defined by parameter Direction, until the input specified by Digital Input goes high or low depending on the value of Stop Condition.

Parameter	Description
Direction	Forward, or Backward
Digital Input	One of the following local digital inputs on the controller can be selected: Local DI 1 Local DI 2 Local DI 3 Local DI 4
Brake (Valid only for Power Focus 6000 Synchronized tightening, Power Focus 8 Synchronized tightening and Flex).	If On the tool will be stopped when the target is reached. If Off the program goes directly to the next step without stopping the tool.
Stop Condition	Falling edge: The steps runs until a falling edge is detected after step start. Rising edge: The steps runs until a rising edge is detected after step start. Any edge: The step runs until a falling or a rising edge is detected after step start. Low: The step runs until low value is detected. High: The step runs until high value is detected.
Speed (rpm)	Default: 60 rpm.
Speed ramp type	Hard, soft, or manual. Default: Hard. If you select Manual, the Speed ramp field opens.
Speed ramp	Available if Speed ramp type is Manual. Default: 500 rpm/s.

Microvideo

DI - Run Until Digital Input

DT – Tighten to DynaTork

Tools
ES STR SL ST SR QST STB

Tools

STR

QST

STB

This step is not supported for tools configured with Gear Front Attachment (GFA) of type open end.

This step runs the tool with speed n in the forward direction until the Target torque is reached. The tool will then hold the current constant at the DynaTork Percentage of Target torque during the DynaTork time.

To avoid overheating of the tool, it is strongly recommended to never run DynaTork to more than 40% of the maximum torque of the tool.

Parameter	Description
Target torque	The torque target. Must be > 0.
DynaTork Time	The time DynaTork will be active.
DynaTork Percentage	The percentage of Torque target.
Speed ramp type	Hard, soft, or manual. Default: Hard. If you select Manual, the Speed ramp field opens.
Speed ramp	If Speed ramp type is Manual, this field opens. Default: 500 rpm/s.
Speed (rpm)	Default: 60 rpm.
Brake (Valid only for Power Focus 6000 Synchronized tightening, Power Focus 8 Synchronized tightening and Flex).	If On the tool will be stopped when the target is reached. If Off the program goes directly to the next step without stopping the tool.

Point and click on image to see more information:

A	Target Torque
B	Torque level retained during DynaTork Time
C	Percentage of Ts
D	Percentage of Ts
E	Torque level retained during DynaTork Time
F	DynaTork Time

Microvideo

DT - Tighten to DynaTork

E - Engage

Tools
ES STR SL ST SR QST IXB

Tools

STR

QST

IXB

This step is not supported for tools configured with Gear Front Attachment (GFA) of type open end.

This step runs the tool in both directions until the socket engages the screw. The step continues until Target torque or Target angle is reached, provided that Continue if not Engaged is set to Yes. If Target Angle is reached in any direction, the direction is reversed. Limit the search iterations by entering Max Engage Attempts. If Target Torque is reached in any direction the step will finish with OK status.

Microvideo

E- Engage

Ext - External Result

Tools
ES STR SL ST SR QST STB IXB BCP BCV External Tool

Tools

STR

QST

STB

IXB

BCP

BCV

External Tool

External result is a strategy used when an OK tightening is indicated by an external digital signal (and not by torque or angle values measured during tightening). This external signal can be provided through any means that can provide a digital signal into the controller (e.g through the I/O bus).

When the signal is sent, the result view (logged data) will show the value of the Target parameter provided in the tightening program (specified torque value, angle value, or text string). These (torque and angle) values do not represent actual measured values, but only inserted text.

Parameter	Description
Torque <Target torque>	Numerical value for desired displayed target torque value. A signal could for example come from a Click Wrench and display <Target torque>.
Angle <Target angle>	Numerical value for desired displayed target angle value. A signal could for example come from a Click Wrench and display <Target angle>.
Text	Alphanumerical string for desired displayed text. For example: "Oil has been changed".

MWR - Mechatronic Wrench

Tools
MWR

Mechatronic Wrench is a specialized step that can be used only in conjunction with the Mechatronic Wrench (MWR).

This step cannot be used in combination with other steps. No restrictions can be used with this step. By default, the step has three monitors: Peak Torque, Angle, and Click.

Parameter	Description
Loosening limit	Numerical value for negative torque (i.e. torque in the loosening direction) at which point the tightening result is marked as NOK (False direction of tightening (loosen)); in Nm.
Tool Size	Numerical value for the specific length of the end fitting tool installed on the MWR-TA; in mm.
Tool Bend	Numerical value for the end fitting tool installed on the MWR-TA; in °/Nm.
Rehit Angle Window	Numerical value for the angle for determining if the screw was already tightened if the torque is reached; in °.
Max Angular Rate	Numerical value for the max rate at which the screw can be tightened; in °/s.

RD – Rundown

Tools

STR

QST

IXB

Rundown step is the part of the tightening from when the screw enters the thread until just before the screw head touches the underlying surface and snug point is reached. The torque required during rundown does not contribute to any clamping force.

This step runs the tool with the speed in the forward direction, and depending on the Rundown Type, Torque or Snug the step behavior is as follows:

Rundown Type: To Torque: The step stops when the specified target torque is found.

Rundown Type: To Snug: The snug gradient calculation starts at the specified torque trigger level Tt. If no torque trigger is set the gradient calculation is started at the start of the step.

The slope calculation is made between two angle points A_d degrees apart and is calculated as: (Tn – Tn-1) / (An – An-1) and as soon as two slopes after each other are larger than TSLOPE the snug point is found.

Parameter	Description
Rundown type	To Torque or To Snug.
Target torque	Default: "not set". Must be > 0.
Speed	Default: 60 rpm. Must be > 0.
Speed ramp type	Hard, soft, or manual. Default: Hard. If you select Manual, the Speed ramp field opens.
Speed ramp	If Speed ramp type is Manual, this field opens. Default: 500 rpm/s.
Trigger Torque	If Rundown type is To Snug, the Trigger torque field is displayed. Default: "not set". Must be > 0.
Delta Angle	If Rundown type is To Snug, the Delta angle field is displayed. Default: "0". Must be > 0.
Torque Rate	If Rundown type is To Snug, the Torque rate field is displayed. Default: "0". Must be > 0.
Brake (Valid only for Power Focus 6000 Synchronized tightening, Power Focus 8 Synchronized tightening and Flex).	If On the tool will be stopped when the target is reached. If Off the program goes directly to the next step without stopping the tool.

Point and click on image to see more information:

A	Snug Point
B	Angle Delta
C	Torque Slope
D	Torque Target
E	Torque Trigger

SR - Socket Release

Tools

STR

QST

STB

IXB

This step is not supported for tools configured with Gear Front Attachment (GFA) of type open end.

This step runs the tool with speed n in the backward direction until the target angle is reached. The target angle is measured from the start of the step.

This step is only allowed to use as the last step in the tightening path of a multistep tightening program. However, it is possible to add a sync point after this step.

Parameter	Description
Target angle	The angle target. Default: 3 degrees, must be > 0
Speed ramp type	Hard, soft, or manual. Default: Hard. If you select Manual, the Speed ramp field opens.
Speed ramp	If Speed ramp type is Manual, this field opens. Default: 500 rpm/s.
Speed	Default: 60 rpm.

SZP - Set Zero Position

Tools

STR

QST

The step Set Zero Position sends out the signal set zero position to the tool. The position is repeated once every 360 degrees.

With the steps Loosen to Zero Position or Tighten to Zero Position it is possible to return the tool to zero position.

This step does not have any parameters.

The zero position is a specific position stored with either a “Set Zero Position” step or the signal “Set Zero Position”. The position is repeated once every 360 degrees.

T - Tighten to Torque / Loosen to Torque

Tools

STR

QST

STB

IXB

T – Tighten to Torque

This step runs the tool with the programmed speed in forward direction until the target torque is reached.

Parameter	Description
Target torque	The torque target. Must be > 0.
Speed ramp type	Hard, soft, or manual. Default: Hard. If you select Manual, the Speed ramp field opens.
Speed	Default: 60 rpm. Must be > 0.
Speed ramp	If Speed ramp type is Manual, this field opens. Default: 500 rpm/s.
Brake (Valid only for Power Focus 6000 Synchronized tightening, Power Focus 8 Synchronized tightening and Flex).	If On the tool will be stopped when the target is reached. If Off the program goes directly to the next step without stopping the tool.

Microvideo

T - Tighten to Torque

T – Loosen to Torque

This step is not supported for tools configured with Gear Front Attachment (GFA) of type open end.

This step runs the tool with the speed in the backward direction. For the step to be active, the torque must first exceed 110 % of the Target torque. The Target torque should be set to a positive value. After reaching the target torque, the step runs until the torque drops below the target torque.

Parameter	Description
Target torque	The torque target. Must be > 0.
Speed ramp type	Hard, soft, or manual. Default: Hard. If you select Manual, the Speed ramp field opens.
Speed	Default: 60 rpm. Must be > 0.
Speed ramp	If Speed ramp type is Manual, this field opens. Default: 500 rpm/s.
Brake (Valid only for Power Focus 6000 Synchronized tightening, Power Focus 8 Synchronized tightening and Flex).	If On the tool will be stopped when the target is reached. If Off the program goes directly to the next step without stopping the tool.

Point and click on image to see more information:

A	Target Torque

T&A – Tighten to Torque and Angle

Tools

STR

QST

STB

IXB

This tightening step runs the tool with the given speed in the forward direction until both the target torque and the target angle are reached.

The torque measurement starts at the beginning of the step.
If the torque trigger is NOT set, the angle measurement starts at the beginning of the step.
If the torque trigger is set, the angle measurement starts when the torque trigger is reached.

The step ends when:
Measured Torque >= Target Torque (Ts)
AND
(Measured Angle - Angle Measured at Torque Trigger) >= Target Angle (As).

Parameter	Description
Target torque (Ts)	Default value: 0. Must be > 0 and <= Tool Max Torque.
Target angle (As)	Default value: 0. Must be > 0.
Torque Trigger (Tt)	Default value: NOT set. Must be > 0 and < Target torque (Ts).
Speed (n)	Default: 60 rpm. Must be > 0 and <= Tool Max Speed.
Speed ramp type	Hard, soft, or manual. Default: Hard. If you select Manual, Speed ramp type opens automatically.
Brake (Valid only for Power Focus 6000 Synchronized tightening, Power Focus 8 Synchronized tightening and Flex).	If On the tool will be stopped when the target is reached. If Off the program goes directly to the next step without stopping the tool.

Point and click on image to see more information:

Tightening to Torque AND Angle, without Torque Trigger set

A	Target Torque
B	Target Angle

Point and click on image to see more information:

Tightening to Torque AND Angle, with Torque Trigger set

A	Target Torque
B	Torque Trigger
C	Target Angle

T|A – Tighten to Torque or Angle

Tools

STR

QST

STB

IXB

This tightening step runs the tool with the given speed in the forward direction until either the target torque or the target angle is reached.

The step ends when:
Measured Torque >= Target Torque (Ts)
OR
(Measured Angle - Angle Measured at Torque Trigger) >= Target Angle (As).

Parameter	Description
Target torque (Ts)	Default value: 0. Must be > 0 and <= Tool Max Torque.
Target angle (As)	Default value: 0. Must be > 0.
Torque Trigger (Tt)	Default value: NOT set. Must be > 0 and < Target torque (Ts).
Speed (n)	Default: 60 rpm. Must be > 0 and <= Tool Max Speed.
Speed ramp type	Hard, soft, or manual. Default: Hard. If you select Manual, Speed ramp type opens automatically.
Brake (Valid only for Power Focus 6000 Synchronized tightening, Power Focus 8 Synchronized tightening and Flex).	If On the tool will be stopped when the target is reached. If Off the program goes directly to the next step without stopping the tool.

Point and click on image to see more information:

Tightening to Torque OR Angle, without Torque Trigger set

A	Target Torque
B	Target Angle

Point and click on image to see more information:

Tighten to Torque OR Angle, with Torque Trigger set

A	Target Torque
B	Torque Trigger
C	Target Angle

T+A – Tighten to Torque Plus Angle

Tools

STR

QST

STB

IXB

This step runs the tool until the target torque is reached. From this point it continues to run an additional target angle.

Parameter	Description
Target torque	The torque target. Must be > 0.
Target angle	The angle target. Must be > 0.
Speed ramp type	Hard, soft, or manual. Default: Hard. If you select Manual, the Speed ramp field opens.
Speed ramp	If Speed ramp type is Manual, this field opens. Default: 500 rpm/s.
Speed	Default: 60 rpm.
Brake (Valid only for Power Focus 6000 Synchronized tightening, Power Focus 8 Synchronized tightening and Flex).	If On the tool will be stopped when the target is reached. If Off the program goes directly to the next step without stopping the tool.

Point and click on image to see more information:

A	Target Torque
B	Target Angle

TC - Torque Calibration

Tools
QST

This step is only supported for dual transducer tools.

The Torque Calibration step runs the tool with the specified speed in the forward direction until the torque target is reached.

Parameter	Description
Target torque	Must be > 0.
Speed	Must be > 0. Default: 60 rpm.
Transducer	Main or Secondary. Default: Main. Set to Secondary in order to calibrate the front transducer.
Adaptive brake (Valid only for Power Focus 6000 Synchronized tightening, Power Focus 8 Synchronized tightening and Flex).	If On the tool will be stopped when the target is reached. If Off the program goes directly to the next step without stopping the tool.

ThCT – Thread Cutting to Torque

Tools

STR

QST

STB

IXB

The Thread Cutting to Torque function enables tightening where the Rundown torque required is greater than the Rundown complete torque, for example when tightening thin layers of metal using self-threading (or self-tapping) screws. The tool runs in forward direction until the Thread Cutting Angle (Aw) is reached. The thread cutting angle window is measured from when the torque passes Thread Cut Trigger Torque (Ttc) for the first time. From the point where Thread cutting angle is reached, the step continues to run until the Target Torque (Tt) is reached.

Parameter	Description
Target torque	Must be > 0.
Thread Cutting Angle Window	Default: 0. Must be > 0.
Trigger Torque	The angle measurement starts at this trigger.
Speed	Default: 60 rpm. Must be > 0.
Speed ramp type	Hard, soft, or manual. Default: Hard. If you select Manual, the Speed ramp field opens.
Brake (Valid only for Power Focus 6000 Synchronized tightening, Power Focus 8 Synchronized tightening and Flex).	If On the tool will be stopped when the target is reached. If Off the program goes directly to the next step without stopping the tool.

Point and click on image to see more information:

A	Target Torque
B	Torque Trigger
C	Thread Cutting Angle Window

TPT - TensorPulse Tighten to Torque / Loosen to Torque

Tools

STR

IXB

Before using TensorPulse tightening/loosening step, it is mandatory that the following license type is installed on the controller:

Low Reaction Strategies

TensorPulse is valid only for the following tools: ETV-STR61-100-13, ETV-STR61-70-13, ETV-STR61-50-10, ITB-P.

This step is not supported for tools configured with Gear Front Attachment (GFA) of type open end or closed end.

TensorPulse Tighten to Torque

This step generates tightening pulses in the forward direction, until the torque target is reached.

TensorPulse Loosen to Torque

This step generates tightening pulses in the backward direction, until torque is below torque target.

If running TensorPulse tightening/loosening step, use the necessary PulseDrive socket/adapter.
If TensorPulse tightening/loosening step runs without the PulseDrive socket/adapter, all the tightenings are NOK. The step error “PulseDrive socket/adapter not detected” shows for no PulseDrive socket/adapter.

Parameter

Description

Torque Target - Ts

Torque Target must range from 0 through the maximum torque of the tool.

Pulse Energy - Pe

Pulse Energy is used to control the amount of energy/current in each pulse.

Pulse Energy must range from 10% through 100 %.
By default, it is set to 100%.

Reaction Force Tuning Factor

Reaction Force Tuning Factor is used to tune the reaction force when running TensorPulse step. It is the power that moves the tool in the opposite direction after each pulse.
High tuning factor makes high reaction force and high pulse frequency; low tuning factor makes low reaction force and low pulse frequency.

Reaction Force Tuning Factor must range from 0 through 100 %.
By default, it is set to 40%.

In the trace, the angle reversal means that the tool rotates backward to enable pulsing, but the bolt head does not necessarily rotate backward because of the PulseDrive socket/adapter.

TrR – Loosen to Trigger Release

Tools

STR

STB

IXB

This step is not supported for tools configured with Gear Front Attachment (GFA) of type open end.

This step runs in the backward direction until the tool trigger is released (loosen). It can only be used as a last step in a program.

For STB tools, this step is only applicable for loosening programs.

Parameter	Description
Speed	Numerical value for rotation speed; in rpm.
Speed Ramp Type	List of options where speed ramp can be chosen [Hard, Soft, Manual]

TTTR – Tighten to Trigger Release

Tools

STR

STB

IXB

This step runs until the tool trigger is released (tighten). It can only be used as a last step in a tightening program.

Parameter	Description
Speed	Numerical value for rotation speed; in rpm.
Speed Ramp Type	List of options where speed ramp can be chosen [Hard, Soft, Manual]

W – Wait

Tools

STR

QST

STB

IXB

In this step the tool waits until the Wait Type condition is fulfilled. The tool does not rotate while waiting, but Hold condition can be specified.

Parameter	Description
Wait Type	Time: Wait specified time. Signal (valid only for Power Focus 6000 Synchronized tightening): Wait until a rising edge on the signal Continue Step is received.
Wait Time	Number of seconds the tool will stand still - valid only when Time is selected for Wait Type.
Hold Condition	No hold: The tool is waiting without running. Hold torque: While waiting the tool strives to hold the torque it had when entering the step. Hold position: While waiting the tool strives to hold the position it had when entering the step.

WP - Wrench Production

Tools
STwrench

Strategy used for the quality test of the tightening performed with the STwrench.

Parameter

Description

Control Strategy

The Wrench Production step type can be configured with the following control strategies.

Torque: This strategy guides the operator is reaching the desired target torque.
Angle: This strategy guides the operator is reaching the desired target angle.
Torque or Angle: This strategy guides the operator is reaching the desired target angle or desired target torque.
Torque and Angle: This strategy guides the operator in tightening a bolt until both target torque and angle have been reached.
Yield Point: With this strategy, the STwrench detects the yield point automatically. The torque limits specify the range in which the result is OK. Target angle specifies how far beyond the yield point the user may tighten.
Loose: This strategy is used to loosen a tightened screw.
PVT compensate with snug: This strategy guides the operator in reaching the desired target torque for joints with prevailing torque, when the prevailing torque level is higher than the final target.

Based on the control strategy selected, a combination of some of the parameters listed below will be displayed.

Parameters	Description
Target Torque	Defines the target torque for tightening step.
Measure torque at	Specifies where the torque will be measured. Choose between Peak torque or Peak angle. Peak torque: The torque value will be set to the peak torque value. Peak Angle : The torque value will be set to the torque measured at the peak angle.
Angle search limit	This is an offset that is used to the set the torque result value for a tightening. Measure torque at must be set to Peak Angle for this parameter to be available.
Ratchet time	Numerical value for ratchet time which is by default 5000 ms. This allows the operator to release the torque for a while and recharge during the tightening operation. If the Ratchet time is exceeded the result of the tightening is marked as NOK with the reason "Tightening timeout".
End cycle time	Numerical value in ms to indicate the end cycle time. Applied when torque goes below the rundown complete
Torque correction coefficient	The parameter is used to correct the torque reading when using an extension or torque multiplier on the wrench. Default value is 1.
Angle correction	The parameter is used to correct the angle reading when using an extension or torque multiplier on the wrench. Default value is 0.
Target Angle	Defines the target angle for tightening step.
Rehit detection	On or Off. Rehit detection can be used to determine when a tightening is a rehit based on the angle limit setting. Angle limit for rehit is enabled if Rehit direction is set to On.
Linear slope coefficient	Linear slope coefficient characterizes the joint stiffness in the linear part of the curve, as torque/angle slope in the Nm/Deg measurement unit.
Compensate value	Choose between Average torque and Peak torque. The Compensate value specifies how the PVT will be calculated. Average torque - The PVT will be based on an average calculated using the following: Delay monitoring PVT interval PVT distance Prevailing torque min Prevailing torque max Peak torque - The PVT will be based on the peak value measured before snug was detected.
Delay monitoring	PVT calculation will not start before this window has been passed, starts at tightening start.
PVT interval	Sets how many degrees the PVT window shall be calculated for, start from the PVT distance point.
PVT distance	Sets how many degrees prior to snug the system shall start the PVT window.
Prevailing torque min	Prevailing torque minimum limit.
Prevailing torque max	Prevailing torque maximum limit

Microvideo

WP - Wrench Production

WQ - Wrench Quality

Tools
STwrench

Strategy used for the quality test of the tightening performed with the STwrench.

Parameter

Description

Control Strategy

The Wrench Quality strategy can be configured with the following control strategies.

Residual Torque/Time: This strategy analyzes the torque trace as a function of time. The operator shall execute this operation with a single, steady, movement. The wrench automatically recognizes the breakaway and residual point.
Residual Torque/Angle: This strategy evaluates the residual torque on a joint, looking for the residual point of the Torque/Angle trace.
Residual Torque/Peak: This strategy evaluates the residual torque on a joint as the peak torque necessary to rotate the bolt further.
Loose and Retighten: This strategy loosens a bolt and retightens it back to its original position
Yield Point: With this strategy the wrench detects the yield point automatically. Target Angle specifies how far beyond the yield point the user may tighten.

Based on the control strategy selected, a combination of some of the parameters listed below will be displayed.

Parameters	Description
Ratchet time	Numerical value for ratchet time which is by default 5000 ms. This allows the operator to release the torque for a while and recharge during the tightening operation. If the Ratchet time is exceeded the result of the tightening is marked as NOK with the reason "Tightening timeout".
Torque correction coefficient	The parameter is used to correct the torque reading when using an extension or torque multiplier on the wrench. Default value is 1.
Angle correction	The parameter is used to correct the angle reading when using an extension or torque multiplier on the wrench. Default value is 0.
Target Angle	Defines the target angle for tightening step.
Rehit detection	On or Off. Rehit detection can be used to determine when a tightening is a rehit based on the angle limit setting. Angle limit for rehit is enabled if Rehit direction is set to On.
Linear slope coefficient	Linear slope coefficient characterizes the joint stiffness in the linear part of the curve, as torque/angle slope in the Nm/Deg measurement unit.

Y – Tighten to Yield

Tools

STR

QST

IXB

This strategy runs the tool with the speed in the forward direction until the yield point is detected. The yield point is found by monitoring the torque gradient from the point where the torque goes above the Trigger Torque level, calculated based on Torque and Angle distance measurements. The Angle distance parameter is set according to the specified hardness of the joint.

Set the Gradient angle window (for hard joint, for soft joint or for manually setting of the Angle window). If Manual is selected, the Angle Window must be set. A joint is considered Hard if the screw is tightened to its full torque and it rotates 30 degrees or less after it has been tightened to its snug point. A Soft joint rotates 720 degrees or more after it has been tightened to its snug point. The hardness parameter defines the Angle Window for the gradient calculation. The harder the joint - the smaller the angle window.

Parameter	Description
Gradient Angle Window	Specifies Angle Window: For Hard Joint: Angle Window = 1 deg. For Soft Joint: Angle Window = 20 deg. Manual: Manually set Angle Window.
Angle Window	Available when Gradient Angle Window is set to Manual. Must be > 0 and <= 100.
Trigger Torque	The angle measurement starts at this trigger. Must be >= 0 and < Tool MaxTorque.
Damping	Frequency in which the gradient is being calculated. Must be > 0 and < 100 and < Angle window.
Yield Point Percentage	Must be >= 20 %
Speed	Default: 60 rpm. Must be > 0.
Speed ramp type	Hard, soft, or manual. Default: Hard. If you select Manual, the Speed ramp field opens.
Torque Filter Type	The type of the filter: None: No filtering of the torque is used. The raw values are used as-is in the gradient calculation. Five-point: The torque value used in the calculation are filtered using a sliding average filter over 5 torque samples. Low pass: The torque values is filtered with a simple discrete Infinite Impulse Response filter. Sliding Average: The torque values used in the calculation are filtered using a sliding average filter over a Number of Samples specified by the use.
Cut-off Frequency	Needs to be specified when Torque Filter Type is set to Low pass: 20 Hz 40 Hz 90 Hz 200 Hz 600 Hz
Number of Samples	Needs to be specified when Torque Filter Type is set to Sliding Average: 2 4 6 8 16 32
Brake (Valid only for Power Focus 6000 Synchronized tightening, Power Focus 8 Synchronized tightening and Flex).	If On the tool will be stopped when the target is reached. If Off the program goes directly to the next step without stopping the tool.

Point and click on image to see more information:

A	Peak Gradient
B	Yield Point
C	Shut-off Point
D	Angle Distance
E	Torque Trigger

YM2 - Tighten to Yield: Method 2

Tools
QST

This step runs the tool with the specified speed in the forward direction until the yield point is detected.

Search for the yield point starts when the torque has reached Tt. The average of the torque over Af degrees is calculated. This procedure is repeated N rs times.

A reference slope is calculated with linear regression over the N rs points. After that, new average values are continuously calculated over A f degrees.

The actual slope is calculated with linear regression over the last N s average points. The yield point is reached when the slope is less than Py % of the reference slope.

Parameter	Description
Target torque	Must be > 0.
Filter angle	Default: 1. Must be > 0.
Number of samples	Default: 6. Must be >=4.
Number pf samples, reference	Default: 6. Must be >=4.
Yield point percentage	Default: 90%. Must be >20%.
Speed	Default: 60 rpm. Must be > 0.
Speed ramp type	Hard, soft, or manual. Default: Hard. If you select Manual, the Speed ramp field opens.
Speed ramp	If Speed ramp type is Manual, this field opens. Default: 500 rpm/s.
Brake (Valid only for Power Focus 6000 Synchronized tightening, Power Focus 8 Synchronized tightening and Flex).	If On the tool will be stopped when the target is reached. If Off the program goes directly to the next step without stopping the tool.

Point and click on image to see more information:

A	Torque Trigger
B	Number of samples, ref
C	Actual Slope
D	Number of samples
E	Reference Slope
F	Filter Angle

ZP - Loosen to Zero Position

Tools

STR

QST

This step runs the tool with the speed (N) in the backward direction until it reaches the zero position. If the total angle to rotate to reach the zero position is less than the minimum angle (Am) degree the rotation will continue for one more revolution, 360 degrees.

The zero position is a specific position stored with either a “Set Zero Position” step or the signal “Set Zero Position”. The position is repeated once every 360 degrees.

Parameters

Parameter	Description
Minimum Angle	Minimum Angle (Am) [°]
Speed	Rotation speed (N) [rpm]. Default value 60 rpm.

ZP - Tighten to Zero Position

Tools

STR

QST

This step runs the tool with the speed (N) in the forward direction until it reaches the zero position. If the total angle to rotate to reach the zero position is less than the minimum angle (Am) degree the rotation will continue for one more revolution, 360 degrees.

The zero position is a specific position stored with either a “Set Zero Position” step or the signal “Set Zero Position”. The position is repeated once every 360 degrees.

Parameters

Parameter	Description
Minimum Angle	Minimum Angle (Am) [°]
Speed	Rotation speed (N) [rpm]. Default value 60 rpm

Step Monitors

The availability of tightening steps, monitors and restrictions depends on the license installed on the controller.

The step monitors are used to verify that the tightening was achieved according to the specification, for example, angle limits or torque. Each step has mandatory step monitors and optional step monitors. The mandatory monitors are included when dragging a new step to the multistep program. The optional monitors are flexible and can be placed as needed in the multistep program. Every step can have up to eight monitors each.

The following monitors are automatically added to every step that is added to the multistep tightening program.

Default step monitors
Step Monitor	Applicable steps
Angle	All
Peak Torque	All

Available tools for each system type
Power Focus 6000 / Power Focus 8	Power Focus 6000 Synchronized tightening / Power Focus 8 Synchronized tightening	Flex	IxB
ST	ST	QST	IxB
STR	STR
SL	QST
QST
STB
IxB
Power Focus Connect

A - Angle

Tools

STR

QST

STB

IXB

MWR-TA

This step monitor measures the maximum angle reached during the monitor and checks that it is between High limit and Low limit.

The angle measurement starts at the start of the monitor or, if specified, at the point where the torque passes Trigger torque for the first time during the monitor.

Parameter	Description	Default value
Stop condition	It specifies where the angle measurement ends: End End point used: the angle at the end of the monitor. Peak Torque End point used: the angle at the point where the highest torque is reached during the monitor. Shut Off End point used: the angle at the shut off point of the step. Peak End point used: the highest angle reached during the monitor.	Shut Off
Trigger torque	The angle measurement starts at this trigger. Minimum limit: must be >= 0 Maximum limit: must be < Tool Max Torque	Not set
Low Limit	Lowest acceptable angle. Minimum limit: must be >= 0 Maximum limit: must be < 9 999 999 and < High Limit	Not set
High Limit	Highest acceptable angle. Minimum limit: Must be > 0 and > Low Limit Maximum limit: must be < 9 999 999	Not set

Result Values

Angle Measured: the angle measured by the monitor.

Point and click on image to see more information:

Step Monitor Angle - Stop condition End

A	Shut-off point	D	Angle high limit
B	Torque trigger	E	Measured angle
C	Angle low limit	F	Step

Point and click on image to see more information:

Step Monitor Angle - Stop condition Peak Torque

A	Peak torque	E	Angle high limit
B	Shut-off point	F	Measured angle
C	Torque trigger	G	Step
D	Angle low limit

Point and click on image to see more information:

Step Monitor Angle, Stop condition Shut Off

A	Shut-off point	D	Angle high limit
B	Torque trigger	E	Measured angle
C	Angle low limit	F	Step

Point and click on image to see more information:

Step Monitor Angle - without Torque Trigger and with stop condition Peak

A	Shut-off point	D	Measured angle
B	Angle low limit	E	Step n-1
C	Angle high limit	F	Step n

C - Current

Tools

STR

QST

STB

IXB

This monitor measures the actual current at any point after the torque passes Torque Trigger. The result will be the first peak or low value, that made the monitor NOK. In case of OK, the result will be the last measured current value. If the torque trigger is never reached during the monitor it will end with NOK status and no measurement value.

Parameter	Description
Torque Trigger	Must be >= 0 and < Tool Max Torque.
Low limit	Lowest acceptable current.
High limit	Highest acceptable current.

Cl - Click

Tools

MWR-T

MWR-TA

This step monitor is not available for IxB tools.

Monitor to enable click torque and click angle results. This monitor has no settings, and can only be used with the MWR step.

LD - Loosening Detection

Tools
STwrench

This step monitor is only available for STwrench tools

This monitor can be used to check the torque and direction to see if a loosening is attempted when using the Wrench Production step strategy for an STwrench. If the applied torque is above the value set for Loosening Limit in the direction opposite to the configured thread direction of the program, the result shall be reported as NOK.

MT - Mean Torque

Tools

STR

QST

IXB

This monitor measures the average torque during the monitor and checks the calculated value is within the limits.

Parameter	Description
Type	Specifies start condition: Step Start: The measurement starts from step start and ends at the shut-off point. Torque Trigger: The measurement starts at the point where the torque passes Torque Trigger for the first time. It ends at the shut-off point. Angle Trigger: The measurement starts at the point where the angle is Angle Trigger, measured from the optional Trigger Torque, is reached. Without Trigger Torque, the Angle Trigger is measured from the start of the step. It ends at the shut-off point Angle Window: Measures during an Angle Window. The window starts at the point where the torque passes Trigger Torque for the first time plus an angle offset, Angle Trigger. Time Interval: Measures during the last Time Interval seconds of the tightening.
Torque Trigger	Available when Type is set to Trigger Torque, Angle Trigger or Angle Window. Must be >= 0 and < Tool Max Torque.
Angle Trigger	Available when Type is set to Angle Trigger or Angle Window. Must be > 0.
Angle Window	Available when Type is set to Angle Window. Must be > 0.
Time Interval	Available when Type is set to Time Interval. Must be > 0.
Low Limit	Lowest acceptable torque.
High Limit	Highest acceptable torque.

PC - Pulse Count

Tools
STR

This step monitor is only available for the following tools:

ETV-STR61-100-13
ETV-STR61-70-13
ETV-STR61-50-10

Before using the Pulse Count step monitor, the Low Reaction Strategies license must be installed on the controller.

This monitor measures the number of pulses and confirms if it is between the pulse count low limit and pulse count high limit.
If the torque trigger level is set, the check starts as soon as the measured torque is above the torque trigger level.

If running a tightening step with Pulse Count step monitor, use the necessary PulseDrive socket/adapter.
If the tightening step runs without the PulseDrive socket/adapter, all the tightenings are NOK. The step error “PulseDrive socket/adapter not detected” shows for no PulseDrive socket/adapter.

Parameter

Description

Pulse Count High Limit - n+

The Pulse Count limits are used to determine if the measured number of pulses is OK or NOK.
The measured number of pulses is OK if it is between the pulse count low limit and pulse count high limit.
The measured number of pulses is NOK if:

It is higher than the pulse count high limit.
It is lower than the pulse count low limit.
The trigger torque level is not reached.

Pulse count high limit must range from 1 through 9999999. It must be greater than or equal to the pulse count low limit.
Pulse Count High Limit text box can be empty.

Pulse Count Low Limit - n-

It is higher than the pulse count high limit.
It is lower than the pulse count low limit.
The trigger torque level is not reached.

Pulse Count Low Limit must range from 1 through 9999999. It must be lower than or equal to the Pulse Count High Limit.
Pulse Count Low Limit text box can be empty.

Torque Trigger - Tt

Torque Trigger must range from 0 through the maximum torque of the tool.
Torque Trigger text box can be empty.

PrT - Prevailing Torque

Tools

STR

QST

STB

IXB

The monitor calculates the prevailing torque value in the Window Length and checks that it is between the Torque limits. The Angle Window starts at the angle degrees set in Start Angle in reverse direction from the shut-off point. This then spans for the angle degrees set in Angle Window Length in reverse direction. If Start Angle is left blank the angle window starts at the shut-off point. The calculated prevailing torque value is the mean or peak torque value (depending on the parameter set by the user) during the Window Length. The calculated value is saved as result data Prevailing Torque Measured. If Torque compensation is set to On, the Prevailing Torque Measured will be subtracted from all torque result values in consecutive steps. Any previously calculated prevailing torque compensation values will no longer be subtracted from torque result values. If Torque compensation is set to Off, no subtraction will be made in consecutive steps.

If the total angle of the step is less than the Start Angle plus Window Length, then the monitor will report NOK.

Prevailing torque can be measured as an average of measured values, or at peak torque. To choose between these two modes, set the Use Value parameter to either Mean torque (for average values), or Peak torque (for peak value).

Parameter	Description
Torque Compensation	On or off.
Start Angle	Must be > 0
Window length	Must be >= 0
Low Limit	Must be > 0
High Limit	Must be >= 0
Use value	Mean torque (for average values), or Peak torque (for peak value).

PT - Peak Torque

Tools

STR

QST

STB

IXB

MWR-TA

MWR-T

This step monitor measures the maximum torque reached during the monitor, including any over shoot, and checks that it is between High limit and Low limit.

Parameter	Description
Low Limit	Lowest acceptable torque.
High Limit	Highest acceptable torque.

PTCA - Post Thread Cut Angle

Tools

STR

QST

STB

IXB

This step monitor measures the maximum angle reached during the monitor and checks that it is between High limit and Low limit.

The Trigger Torque level is ignored until the end of the Thread cut angle window is reached. After that, the angle measuring starts as soon as the measured torque is above Trigger Torque.

Parameter	Description	Default value
Stop condition	It specifies where the angle measurement ends: End End point used: the angle at the end of the monitor. Peak Torque End point used: the angle at the point where the highest torque was reached during the monitor. Shut Off End point used: the angle at the shut off point of the step. Peak End point used: the highest angle reached during the monitor.	Shut Off
Trigger torque	The angle measurement starts at this trigger. Minimum limit: must be >= 0 Maximum limit: must be < Tool Max Torque	0
Low Limit	Lowest acceptable angle. Minimum limit: must be >= 0 Maximum limit: must be < 9 999 999 and < High Limit	Not set
High Limit	Highest acceptable angle. Minimum limit: Must be > 0 and > Low Limit Maximum limit: must be < 9 999 999	Not set
Thread cut trigger torque	Minimum limit: must be >= 0 Maximum limit: must be < Tool Max Torque	Not set
Thread cut angle window	Minimum limit: must be >= 0 Maximum limit: must be < 9 999 999	0

Result Values

Angle Measured: the angle measured by the monitor.

Point and click on image to see more information:

Step Monitor - Post Thread Cut Angle

A	Shut-off point	E	Angle low limit
B	Torque trigger	F	Angle high limit
C	Torque trigger thread cut	G	Measured angle
D	Thread cut angle window

PTCPT - Post Thread Cut Peak Torque

Tools

STR

QST

STB

IXB

Measures the maximum torque achieved during the monitoring, including any over-shoot, and checks that it is between the Torque limits. All torque values are ignored until the end of the Thread cut angle window has been reached.

Parameter	Description
Thread cut trigger torque	Must be >= 0
Thread cutting angle window	Must be > 0
Low Limit	Must be >= 0
High Limit	Must be > 0 Must be > Low limit

PVTH - Post View Torque High

Tools

STR

QST

STB

IXB

This monitor checks that all torque values in the Angle Window Length are below the High limit.

The Angle Window starts at the angle degrees set in Start Angle in reverse direction from the shut-off point. This then spans for the angle degrees set in Angle Window Length in reverse direction. If Start Angle is left blank, the Angle Window starts at the shut-off point. The torque values used in the monitor are based on the mean torque value, calculated over Number of Samples. If the total angle of the step is less than Start Angle plus Angle Window Length the monitor will report NOK.

Parameter	Description
Start Angle	Must be >= 0
Window length	Must be > 0
Number of samples	Minimum value =1 Maximum value = 80
High Limit	Highest acceptable torque.

PVTL - Post View Torque Low

Tools

STR

QST

STB

IXB

Same as monitor Post View Torque High, but this monitor checks that all torque values in the Angle Window Length are above Low Limit instead.

Parameter	Description
Start Angle	Must be >= 0
Window length	Must be > 0
Number of samples	Minimum value =1 Maximum value = 80
Low Limit	Lowest acceptable torque.

SOC - Shut Off Current

Tools

STR

QST

STB

IXB

The shut off point is the point where the step reaches its target. The current is measured at the shut off point and checked to be between High limit and Low limit .

Parameter	Description
Low Limit	Lowest acceptable current.
High Limit	Highest acceptable current.

SOT - Shut Off Torque

Tools

STR

QST

STB

IXB

The shut off point is the point where the step reaches its target. The torque is measured at the shut off point and checked to be between High limit and Low limit.

Parameter	Description
Low Limit	Lowest acceptable torque.
High Limit	Highest acceptable torque.

SSD - Stick Slip Detection

Tools

STR

QST

IXB

This step monitor detects and reports stick slip effects during a step. The detection is done by counting the number of times the torque falls below the Trigger Level. If the number of times is larger than Maximum Number of Oscillations then the stick slip error is reported. The monitor operates in two different modes, Dynamic or Fixed. The difference between the modes is the way that the Trigger level is calculated.

Dynamic Torque: Trigger Level is dynamically calculated as Peak Torque Percentage of the current max torque, which has been achieved so far during the monitoring. The monitoring is started as soon as the torque passes the Trigger Torque.

Fixed Torque: Trigger Level is the fixed Trigger Torque specified by the user. In this mode the percentage is not needed.

If the torque never reaches the Trigger Torque then the monitoring is not started, this will result in status NOK.

Parameter	Description
Type	Specifies what type of Stick slip detection that will be done in the monitor Stick Slip detection. Default: Dynamic torque.
Peak Torque Percentage	Default: 80%, Must be >=10 and < 100.
Trigger Torque	Default: 5, Must be >= 0 and < Tool max torque.
Maximum Number of Oscillations	Default: 5, Must be >= 3 and <20.

TAW - Torque in Angle Window

Tools

STR

QST

STB

IXB

This monitor checks that all torque values in the angle window are within the torque limits.

Parameter	Description
Trigger Torque	Must be >= 0
Start Angle	Must be > 0
Window Length	Must be <= 0
Low Limit	Must be >= 0
High Limit	Must be > 0 Must be > Low limit
NOK if window is passed	If set to Yes, status of this monitor is NOK if the end of angle window is not reached.

TC - Torque Calibration

Tools
QST

This step monitor is only available for tools equipped with dual transducers.

The Torque Calibration monitor checks if the maximum torque reached is within the torque limits.

Parameter

Description

Transducer type

Main or Secondary

Set to Secondary for the front transducer of the tool.

Low limit

Must be >= 0

High limit

Must be > 0

Must be > Low limit

TG - Torque Gradient

Tools

STR

QST

IXB

This monitor checks that the gradient is within the limit.

Parameter	Description
Gradient Angle Window	Specifies Angle Window: For Hard Joint: Angle Window = 1 deg. For Soft Joint: Angle Window = 20 deg. Manual: Manually set Angle Window.
Angle Window	Available when Gradient Angle Window is set to Manual. Must be > 0 and <= 100.
End Point Check	If set to Yes, only the gradient measured at the shut off point of the step is checked to be within the limits.
Trigger Torque	The angle measurement starts at this trigger. Must be > 0 and < Tool MaxTorque.
Damping	Frequency in which the gradient is being calculated. Must be > 0 and < 100 and < Angle window.
Low Limit	Lowest acceptable torque gradient. Must be >= -100.
High Limit	Highest acceptable torque gradient. Must be > -100 and > Low limit.
Torque Filter Type	The type of the filter: None: No filtering of the torque is used. The raw values are used as-is in the gradient calculation. Five-point: The torque value used in the calculation are filtered using a sliding average filter over 5 torque samples. Low pass: The torque values is filtered with a simple discrete Infinite Impulse Response filter. Sliding Average: The torque values used in the calculation are filtered using a sliding average filter over a Number of Samples specified by the use.
Cut-off Frequency	Needs to be specified when Torque Filter Type is set to Low pass: 20 Hz 40 Hz 90 Hz 200 Hz 600 Hz
Number of Samples	Needs to be specified when Torque Filter Type is set to Sliding Average: 2 4 6 8 16 32
Angle Offset	Available when End Point Check is set to No. Specifies the degrees that the calculation of the gradient start after the trigger torque is passed for the first time.

Ti - Time

Tools

STR

QST

STB

IXB

Measures the elapsed time during the monitor and checks that it is between the time limits. The time measurement starts at the start of the monitor and, if the Trigger Torque is specified, at the point where the torque passes Trigger Torque for the first time during the monitor.

Parameter

Description

Trigger Torque

Must be >= 0 and < Tool max torque.

Low Limit

Must be >= 0

High Limit

Must be > 0

Must be > Low limit

TRD - Torque Rate and Deviation

Tools

STR

QST

IXB

This step monitor measures and checks the torque rate, i.e. the ratio of torque vs. angle. The calculated torque rate is checked if it is within the torque rate limits defined by High Limit and Low Limit.

Parameter	Description
Trigger Torque	Torque of the angle start point.
Start Point Angle	When Start point angle has been measured from Trigger torque the measuring of the torque starts.
End Point Angle	Angle point where the measuring of the torque is stopped.
End Point Torque	Torque where the measuring of the torque is stopped.
Low Limit	Lowest acceptable torque.
High Limit	Highest acceptable torque.
Limit	Must be > 0

YA - Angle from Yield

Tools

STR

QST

IXB

This monitor measures the peak angle reached from the yield point and checks that the peak angle is within the limit.

Parameter	Description
Gradient Angle Window	Specifies Angle Window: For Hard Joint: Angle Window = 1 deg. For Soft Joint: Angle Window = 20 deg. Manual: Manually set Angle Window.
Angle Window	Available when Gradient Angle Window is set to Manual. Must be > 0 and <= 100.
Yield Point Percentage	Must be >= 20 %
Trigger Torque	The angle measurement starts at this trigger. Must be > 0 and < Tool MaxTorque.
Damping	Frequency in which the gradient is being calculated. Must be > 0 and < 100 and < Angle window.
Low Limit	Lowest acceptable angle. Must be >= 0
High Limit	Highest acceptable angle. Must be > 0
Torque Filter Type	The type of the filter: None: No filtering of the torque is used. The raw values are used as-is in the gradient calculation. Five-point: The torque value used in the calculation are filtered using a sliding average filter over 5 torque samples. Low pass: The torque values is filtered with a simple discrete Infinite Impulse Response filter. Sliding Average: The torque values used in the calculation are filtered using a sliding average filter over a Number of Samples specified by the use.
Cut-off Frequency	Needs to be specified when Torque Filter Type is set to Low pass: 20 Hz 40 Hz 90 Hz 200 Hz 600 Hz
Number of Samples	Needs to be specified when Torque Filter Type is set to Sliding Average: 2 4 6 8 16 32

Step Restrictions

The availability of tightening steps, monitors and restrictions depends on the license installed on the controller.

To make sure the tightening stops if something unexpected happens, it is possible to add step restrictions to the multistep tightening program. These restrictions could, for example, test that a maximum torque is not reached or that a part of the multistep tightening does not take too long to run. Each step has its own set of mandatory step restrictions and optional step restrictions. The mandatory restrictions are included when dragging a new step to the multistep program. All steps can have up to four restrictions each.

For synchronized tightening in Power Focus 6000 and Power Focus 8, it is possible to use synchronization points in the tightening program. When any condition that is set for a restriction is met, the tool will be stopped immediately and the program jumps to the next synchronization point (only valid when using synchronized tightening in Power Focus 6000, Power Focus 8, and Flex), or the end of the program. In controllers without synchronized tightening the tool is stopped immediately and the program jumps to the end of the program.

For Flex only:

For each restriction, select Repairable = Yes to allow retry when tightening stops.

The following restrictions are automatically added to every step that is added to the multistep tightening program.

Default step restrictions
Step Restriction	Applicable steps
Maximum Time	All except External Result and MWR
Maximum Torque	Tighten to Angle Tighten to Torque+Angle Turbo Loosening Wait Socket release Run until Digital Input Tighten to Trigger Release TensorPulse Impulse
Maximum Angle	Tighten to Torque TurboTight Turbo Loosening Tighten to DynaTork Wait Run until Digital Input Loosen to Torque Thread Cutting to Torque Rundown Tighten to Yield Pulsing Rundown Snug TensorPulse

Available tools for each system type
Power Focus 6000 / Power Focus 8	Power Focus 6000 Synchronized tightening / Power Focus 8 Synchronized tightening	Flex	IxB
ST	ST	QST	IxB
STR	STR
SL	QST
QST
STB
IxB
Power Focus Connect

A - Maximum Angle

Tools

STR

QST

STB

IXB

This restriction measures the angle. If the measured angle reaches the Maximum Limit, the tool is stopped immediately. The angle is measured from the start of the restriction or, if specified, from the point where the torque passes Trigger Torque for the first time during the restriction.

Parameter	Description
Trigger Torque	If specified, this is the torque from where the angle is measured.
Maximum Limit	If this limit is reached the tool is stopped immediately.

C - Current

Tools

STR

QST

STB

IXB

This step restriction is not supported for Power Focus XC.

This restriction checks the actual current where torque passes Torque Trigger. If the actual current exceeds the limits, the tool will be stopped immediately and the tightening program will jump to the next synchronization point or the end of the program. The result will be the first peak or low value, that made the monitor NOK. In case of OK, the result will be the last measured current value. If the torque trigger is never reached during the restriction it will end with status OK.

Parameter	Description
Torque Trigger	Must be >= 0 and < Tool Max Torque.
Low limit	Lowest acceptable current.
High limit	Highest acceptable current.

CTh - Cross Thread

Tools

STR

QST

STB

IXB

This restriction checks the angle from the point where torque passes Start torque (T1) to the point where the torque passes End torque (T2). If the angle measured from Start torque (T1) is higher than Maximum limit (Amax), the tool is stopped immediately.

When the torque passes End torque (T2), the measured angle is checked against the limit Minimum limit (Amin). If the angle is lower than this limit, the tool is stopped immediately.

Parameter	Description	In illustration
Start Torque	Must be <=0.	T1
End Torque	Must be <=0.	T2
Minimum Limit	The low angle limit.	Amin
Maximum Limit	The high angle limit.	Amax

PCH - Pulse Count High

Tools

STR

IXB

This restriction is only available for the following tools:

ETV-STR61-100-13
ETV-STR61-70-13
ETV-STR61-50-10
ITB-P

Before using the Pulse Count restriction, the Low Reaction Strategies license must be installed on the controller.

This restriction gives a limit to the number of pulses, and makes sure that those are below the specified pulse count high limit.
If the measured number of pulses is higher than the pulse count high limit, the tool is stopped immediately and the program goes to the next synchronization point or the end of the program.
If the torque trigger level is set, the check starts as soon as the measured torque is above the torque trigger level.

If running a tightening step with Pulse Count High step restriction, use the necessary PulseDrive socket/adapter.
If the tightening step runs without the PulseDrive socket/adapter, all the tightenings are NOK. The step error “PulseDrive socket/adapter not detected” shows for no PulseDrive socket/adapter.

Parameter	Description
Pulse Count High Limit - n+	Pulse count high limit must range from 1 through 9999999. Pulse Count High Limit text box can be empty.
Torque Trigger - Tt	Torque Trigger must range from 0 through the maximum torque of the tool. Torque Trigger text box can be empty.

Rh - Rehit

Tools

STR

QST

STB

IXB

This restriction checks the torque. If the measured torque exceeds the Detection Torque, the tool is stopped immediately and the program jumps to the next synchronization point (for Power Focus 6000 Synchronized tightening and Power Focus 8 Synchronized tightening), or the end of the program.

It is only possible to add step Rehit restriction to the first step of the multistep tightening program. Once the Rehit restriction has been added to the first step it shall not be possible to move the step to any other position within the tightening program. The Rehit restriction has to be deleted from the first step in order to move it to other position in the tightening program.

Parameter	Description
Detection Torque	If the measured torque exceeds the Detection Torque, the tool is stopped immediately and the program jumps to the next synchronization point (for Power Focus 6000 Synchronized tightening and Power Focus 8 Synchronized tightening), or the end of the program. Must be greater than zero.
Angle Window	The angle window is measured from the start of the step. If no Angle Window is set, the restriction is active during the whole step.

RT - Rescinding Torque

Tools

STR

QST

STB

IXB

This restriction checks the torque. If the measured torque drops below the condition of the restriction the tool is stopped immediately and the program jumps to the next synchronization point (for Power Focus 6000 Synchronized Tightening and Power Focus 8 Synchronized Tightening), or the end of the program.

Torque control processes
The restriction condition is the measured torque. For the restriction to be active the torque must first exceed 110 % of the Rescinding Torque Limit.
Angle control processes
This restriction checks the maximum torque reached during the restriction. For the restriction to be active the torque must first exceed the Trigger Torque.

Torque control processes
Parameter	Description
Rescinding torque limit	Default: 10 Nm. Must be > 0.

Angle control processes (valid only for Power Focus 6000 Synchronized tightening and Power Focus 8 Synchronized tightening)
Parameter	Description
Trigger Torque	Must be > 0.
Peak torque percentage	Default: 95. Must be >= 50.
Rescinding torque time	Default: 20. Must be >= 5 and <= 500.
Rescinding Torque Angle	Must be > 0.

Cable tools have the option to select Rescinding Torque for Angle. This restriction is controlled by two parameters: Peak Torque Percentage and Rescending Torque Time. Percentage sets the downward deviation from the last peak torque, and Rescending Torque Time sets the duration (between 5 and 500 ms) of that deviation. Only when both conditions (equal to or lower than the indicated percentage for the set duration) are met, will the program be interrupted and jump to the end.

T - Maximum Torque

Tools

STR

QST

STB

IXB

This restriction checks the torque. If the measured torque exceeds the Maximum limit, the tool is stopped immediately.

Parameter	Description
Maximum Limit	If the torque reaches this specified limit the tool is stopped immediately.

TAW - Torque in Angle Window

Tools

STR

QST

STB

IXB

This restriction checks that the measured torque in the Angle Window Length is between the Torque limits. If the measured torque is outside the limits the tool is stopped immediately and the program jumps to the end. The Angle Window Length starts at the Start Angle from the point that the torque first passed the Trigger Torque. If Trigger Torque is not set, then the Start Angle begins at the start of the restriction.

If the end of the Angle Window Length is not reached, the status of the restriction is NOK.

Parameter	Description
Trigger Torque	Must be >= 0
Start Angle	Must be >= 0
Window Length	Must be >0
Minimum Limit	Must be >= 0
Maximum Limit	Must be <= Minimum limit

TCD - Torque vs Current Deviation

Tools

STR

QST

IXB

This restriction verifies that all current measurements converted to the corresponding torque are, at most, the Maximum deviation away from the actual torque measured with the torque transducer. The restriction starts when the torque reaches Trigger Torque for the first time during the step and is active until the step reaches its target.

If Trigger Torque is never reached, the monitor will report OK.

Parameter	Description
Trigger Torque	Must be >= 0
Maximum Deviation	Default: 1, Must be > 0

TG - Torque Gradient

Tools

STR

QST

IXB

This restriction checks the gradient and if it is outside the limits the tool is stopped immediately and the program jumps to the end of the program.

Parameter	Description
Gradient Angle Window	Specifies Angle Window: For Hard Joint: Angle Window = 1 deg. For Soft Joint: Angle Window = 20 deg. Manual: Manually set Angle Window.
Angle Window	Available when Gradient Angle Window is set to Manual. Must be > 0 and <= 100.
Trigger Torque	Must be > 0 and < Tool MaxTorque.
Damping	Frequency in which the gradient is being calculated. Must be > 0 and < 100 and < Angle window.
Minimum Limit	Must be >= -100.
Maximum Limit	Must be > -100 and > Low limit.
Torque Filter Type	The type of the filter: None: No filtering of the torque is used. The raw values are used as-is in the gradient calculation. Five-point: The torque value used in the calculation are filtered using a sliding average filter over 5 torque samples. Low pass: The torque values is filtered with a simple discrete Infinite Impulse Response filter. Sliding Average: The torque values used in the calculation are filtered using a sliding average filter over a Number of Samples specified by the use.
Cut-off Frequency	Needs to be specified when Torque Filter Type is set to Low pass: 20 Hz 40 Hz 90 Hz 200 Hz 600 Hz
Number of Samples	Needs to be specified when Torque Filter Type is set to Sliding Average: 2 4 6 8 16 32

Ti - Maximum Time

Tools

STR

QST

STB

IXB

This restriction checks the time. If Maximum Limit is reached, the tool is stopped immediately.

Parameter	Description
Maximum Limit	If this time is elapsed, the tool is stopped immediately.

Result Reporters

The result reporters makes it possible to extract specific values of selected producer from the result. The result reporters belong to a step but has to be tied to the monitor/restriction which they read the values from. Only monitors or restrictions located in the same step as the result reporter can be selected. A result reporter is added to a step using drag and drop (in the same way as monitors and restrictions). Each result reporter is responsible for reporting a specific result value, for example, Rundown Angle, Final Torque, Prevailing Torque.

It is possible to tie a result reporter to:

Program monitors
Step monitors
Step restrictions

Each result reporter defines a final value type:

Final Angle
Final Torque
Prevailing Torque
Self-tap Torque
Current
Rundown Angle
Number of Pulses

General Parameters

Parameter	Description
Producer	Specifies which monitor/restriction produces the value.
Value	Specifies which value to show from the selected producer.

Limitations:

It is only possible to add a result reporter on a monitor/restriction belonging to a step in main path or a program monitor/program restriction.
There may exist several reporters on a step if they are of different type.
There may exist a result reporter of, for example, type final angle on every step and program monitor angle.
For those monitor/restrictions that have more than one result value, it is possible to add more than one result reporter if the result reporters are of different types.
There may not exist several result reporters of the same type on a step or on a program monitor/restriction.
There is only one result reported for each possible final value type.

Rules:

The internal number of a result item has to be the same as for the corresponding result reporter.
The internal number of a monitor/restriction result has to be the same as the internal number of the monitor/restriction in the configuration.
The step results has to be ordered according to the order of execution. The first executed step has to be first.

Possible values reported by a result reporter if present in the monitor/restriction/step:

The monitors/restrictions measured value (as float or integer)
The monitors/restrictions high and low limits
Status
Torque trigger and angle trigger
Angle target and torque target (read from the step)

Possible values for status:

Low
OK
High
Other
NotSet

The target values do not belong to any step monitor so the target values are taken from the step that the monitor belongs to.

Adding a Multistep Program

On the Home view, select the Tightening Tab. Then, on the left, select Multistep program library.
Select the Plus icon at the upper-right corner of the GUI. Then, select the needed type of program (Tightening or Loosening).

Drag and drop tightening steps, monitors and restrictions in the tightening area.

Steps can only be placed between the start and end points of the program, whilst monitors and restrictions can only be placed on steps.

Function		Description
Start and end points		Start and end points of the multistep program. All steps must be placed between these two points.
Adding a step		Drag a step from the list and drop it in the desired position between the start and end points.
Moving a step		Click and hold a step and move it to the desired position
Showing step properties		Click on the step to reveal the properties
Closing step properties		Click anywhere in the tightening area to close the properties menu
Deleting a step		Open the step properties and click Delete at the bottom of the menu
Adding a restriction/monitor		Drag a restriction/monitor from the list and drop it on the appropriate step.
Moving a restriction/monitor		Click and hold the icon (checkmark for monitor, stop sign for restriction) and drag and drop it on the appropriate step
Showing restriction/monitor properties		Click on the restriction/monitor icon to reveal the properties menu
Closing restriction/monitor properties		Click anywhere in the tightening area to close the properties menu
Deleting a restriction/monitor		Open the restriction/monitor properties and click on Delete at the bottom of the menu
Step error		When a validation error occurs in a step, that step will be marked. Note that when the step properties are opened, the parameter causing the error will also be marked.
Monitor/Restriction error		When a validation error occurs in a monitor or restriction, that monitor or restriction will be marked. Note that when the monitor/restriction properties are opened, the parameter causing the error will also be marked.
Forbidden placement		When a particular placement (of a step, monitor or restriction) is not allowed, the placeholder icon will not be shown.

Deleting a Multistep Program

In the Tightening menu, click on the Multistep program library.
In the list, click on the multistep tightening program you want to delete.
In the program itself, at the bottom left, click on Delete.
Click Yes in the pop-up window to confirm your choice.

Settings for a Multistep Program

General Settings

Parameter	Description
Name	A user defined name for the multistep program.
Thread Direction	Direction of the threads, either clockwise (CW) or counter clockwise (CCW).
Loosening Program	Indicate if a loosening program is available. Choose from the list of available loosening programs in the controller.
Type	Type of program, either Tightening or Loosening.
Program Start	Gives the torque level for generating a result. If left blank, the result is generated every time the tool is started; otherwise result is only generated from the set torque level.
Program End Torque	Gives the torque value that stops a multistep tightening. The signal 168 - Program End is true when, after a multistep tightening Program End Torque has reached, and Program End Timeout has elapsed. Default value for Program End Torque is Tool max torque * 0.03.
Program End Timeout	Gives the time value (in seconds) that stops a multistep tightening. The signal 168 - Program End is true when, after a multistep tightening Program End Torque has reached, and Program End Timeout has elapsed. Default value for Program End Timeout is 0 seconds.
True Angle Compensation	Turns True Angle Compensation on or off (default is Off).
NOK on Trigger Lost	NOK on trigger lost switch controls whether or not it is allowed to release the tool trigger before the target condition has been reached on the last step. The toggle can be set to On or Off. Off - Releasing the trigger before reaching the target condition in the last step causes an OK tightening as long as all other conditions has been fulfilled. On (default value) - Releasing the trigger before reaching the target condition in any step will be treated as a trigger lost and cause a NOK tightening.

Attachment Tuning

Parameter	Description
Use attachment tuning	Select whether attachment tuning should be on or off.
Gear ratio	The gear ratio value can be between 0.5 and 100.0.
Efficiency tuning	The efficiency tuning value can be between 0.5 and 1.0.

Program Monitor

Angle
Parameter	Description
Enabled	Turn angle monitoring On or Off for the entire program. If Active in steps and Trigger Torque are left blank, angle monitoring will start at program start.
Active in steps	Sets a range of steps this monitor is valid for: If no start step is specified, this monitor will start at program start. If no end step is specified, this monitor will stop at the last step of the program.
Type	Type of angle monitoring. Choose between: Peak Angle: the highest angle reached during the monitor Angle at Peak Torque: the angle at the point where the highest torque was reached during the monitor (Not available for STB tools) Shut Off Angle: the angle at the shut-off point of the step Angle at End: the angle at the end of the monitor, including the brake, if active.
Trigger torque	Sets the value of the trigger torque for angle monitoring. For STB tools, Trigger Torque will only activate in the tightening direction when executing a tightening program; and only in the loosening direction when executing a loosening program.
Low limit	Sets angle monitoring (program) lower limit.
High limit	Sets angle monitoring (program) higher limit.

Torque
Parameter	Description
Enabled	Turn Torque monitoring On or Off for the entire program. If Active in steps is left blank, torque monitoring will start at program start.
Active in steps	Sets a range of steps this monitor is valid for: If no start step is specified, this monitor will start at program start. If no end step is specified, this monitor will stop at the last step of the program.
Type	Type of angle monitoring: Peak Torque: the highest torque reached during the monitor. Shut Off Torque: the torque at the shut-off point of the step.
Low limit	Sets torque monitoring (program) lower limit.
High limit	Sets torque monitoring (program) higher limit.

Time
Parameter	Description
Enabled	Turn time monitoring On or Off for the entire program. This monitor checks that the time is within the specified limits.
Active in steps	Sets a range of steps this monitor is valid for: If no start step is specified, this monitor will start at program start. If no end step is specified, this monitor will stop at the last step of the program.
Trigger torque	Sets the value of the trigger torque at which this monitor shall start.
Low limit	Sets time monitoring (program) lower limit.
High limit	Sets time monitoring (program) higher limit.

Program Restrictions

Parameter	Description
Maximum Time Limit	Set amount in seconds. This restriction checks the total time for the tightening and if it exceeds the Time High limit the tool is stopped immediately. The time is measured from the start of the program.
Maximum Torque Limit	This restriction checks the torque and if the measured torque exceeds the Torque High limit the tool is stopped immediately.

Angle
Parameter	Description
Enabled	Turn angle restriction On or Off for the entire program. This restriction checks that the angle is within the specified angle limits.
Active in steps	Sets a range of steps this restriction is valid for: If no start step is specified, this restriction will start at program start. If no end step is specified, this restriction will stop at the last step of the program.
Trigger torque	Sets the value of the trigger torque at which the this restriction shall start.
High limit	Sets angle restriction (program) higher limit.

Time
Parameter	Description
Enabled	Turn time restriction On or Off for the entire program. This restriction checks that the time is within the specified time limits.
Active in steps	Sets a range of steps this restriction is valid for: If no start step is specified, this restriction will start at program start. If no end step is specified, this restriction will stop at the last step of the program.
Trigger torque	Sets the value of the trigger torque at which this restriction shall start.
High limit	Sets time restriction (program) higher limit.

Reporters

This enables the user to choose which values (from monitors/restrictions) shall be shown as final values. Click Add to choose a result reporter to be tied to a program monitor/restriction value.

Parameter	Description
Reporter	Select a result reporter.
Producer	Select which monitor/restriction produces the value.
Value	Select which value to show from the selected producer.

Residual Torque Correlation Factor

The setting is only valid for low reaction tightening steps. The following steps are supported:

TensorPulse Tighten to Torque (TPT)
TensorPulse Loosen to Torque (TPT)
Impulse Tighten to Torque (IT)
Impulse Loosen to Torque (IT)

Parameter	Description
Enabled	Select whether residual torque correlation factor should be On or Off.
Residual torque correlation factor	The value can be between 50 to 150.

Trace Configuration

The trace configuration can be done on program level or for each step. The default configuration is set on the program level and can be overridden in each step as needed.

Here, enabling this function allows the configuration to be done on program level.

Parameter	Description
Enabled	On: Enables the trace resolution configuration on program level. Off: The trace recording is done with the same resolution for the whole tightening. In this case, the trace points are evenly distributed in time over the whole tightening. For each time slot (0.25 ms) two values (the minimum and the maximum measured value) are displayed in the trace. The maximum number of samples in this format is 2000.
Sample Type	Sample Time: specifies how often samples should be stored in the trace by specifying a sample time in ms. Sample Angle: specifies how often samples should be stored in the trace by specifying a sample in deg.
Sample Time	Choose the sample time from the drop-down list (0.25 - 1000 ms)
Sample Angle	Choose the sample angle from the drop-down list (0.25 - 20 degree)

Validation

Parameter	Description
Validate against tool values	Use On if tool is known and set Max Torque and Max Speed. Use Off if tool is not known.
Tool	Drop-down for choosing the tool to validate against.
Max torque	Max torque of the tool to validate against.
Max speed	Max speed of the tool to validate against.

STB Tools and Multistep

Due to the wireless nature of STB tools, some multistep functions and behaviors may differ. Besides the general limitations listed here, descriptions of multistep functions will be additional information on STB tools where necessary.

Program Validation

All tightening programs will be validated for compatibility with STB tools before the program is downloaded to the tool. If the chosen tightening program is not compatible with the tool, the tool will be locked. When this error occurs, it will trigger event 5030, "Configuration complexity exceeded".

To unlock the tool, reduce the complexity of the tightening program, or choose a different tightening program altogether.

Step Configuration Stages

The controller tightening programs need parameters to be set in order to execute the programs. Selecting a Strategy and either the Target torque or Target angle are mandatory. Other settings are optional. It is also possible to monitor the tightening as it progresses by adding limits within which the torque or angle rotation must remain.

The tightening procedure is divided into four stages: Start, Rundown, Tightening and Stop.

The figure is typical of how tightenings are described. The curves represent how speed, torque and angle vary over time. All tightening strategies are represented in this way. Parameters, monitors and limits are also shown in detailed figures.

A task is defined from the time a trigger is pressed until the tightening target is reached, or an error occurs.

A combination of a tightening strategy together with specific parameter settings forms a tightening program.

The user can create many different tightening programs, and one of them is selected at runtime.

In this Section

Start Stage

The optional Start step initiates the tightening, enables socket and thread finding, and the option to detect rehits.

In this Section

Direction

Direction defines the tightening direction of the spindle to clockwise (CW) or counterclockwise (CCW). The rotation of the spindle will always be in this direction, except when loosening and during the conditioning step used in the Three step strategy.

Parameter	Description	Default value
Thread direction	Defines the tightening direction of the spindle.	Clockwise

Soft Start

During Soft start it is possible to set the speed, the maximum torque and the the rotation angle to help the screw to enter the thread, and to prevent the tool being jerked out of position when the tool trigger is pressed.

Parameter name	Description	Default value
Soft start	Enables setting of the tool’s speed, angle and maximum torque to facilitate the screw entering the thread. Off: Soft start is turned off. On: Soft start is turned on.	On
Speed	Defines the speed during Soft start.	35 rpm
Angle	Defines the angle to turn the spindle for the screw to enter the thread.	90°
Torque max	Defines the upper torque limit during Soft start. If Torque max is exceeded, the tightening is aborted and an error message is given. The tightening will be considered NOK.	1.25 Nm

Rehit Detection

When Rehit detection is activated, it is possible to detect a screw that has already been tightened.

Parameter

Description

Default value

Rehit detection

Detects attempts to tighten an already tightened screw.

Early: the Rehit detection Early option terminates the tightening immediately when a rehit is detected and ends the tightening in the most ergonomic possible way.
To be able to use the Rehit detection Early option, Soft start must be set to On. This is because the Soft start torque max value is used as the torque limit beyond which the tightening is considered a rehit.
The tightening is considered as NOK and a rehit error is indicated.
Complete: to make a rehit detection when Soft start is not used, the Rehit detection Complete option must be used. Rehit detection Complete does not terminate the tightening until all tightening steps have been executed and consequently takes longer. The tightening is considered a rehit if the speed never reaches half the rundown speed, and a rehit error is indicated. The tightening is considered as NOK.
Off: no rehit detection is performed.

Early

Current Monitoring

Current monitoring provides an extra security to monitor the tightening torque and is a complement to the torque sensor in the tool.

At final target torque, the rotor current is measured and converted to a torque value. If the calculated torque is within 10% of the measured torque, the tightening is considered to be OK.

Parameter

Description

Default

Current monitoring

Switch with On - Off position.

Off: Current monitoring is disabled and the tool torque is measured by the torque sensor.
On: the current is measured at final torque target and converted to a torque value. The calculated torque is compared to the measured torque. If the difference is within 10%, the tightening is considered OK.

Off

Current monitoring is not implemented for Turbo Tight, Rotate, Pulsing and STwrench strategies.

TrueAngle Compensation

Certain tools are equipped with a gyro and measure the tool rotation during tightening. If the tool is rotated during tightening, the angle measurement may be corrupted. This leads to faulty tightening if made to angle references. For variations within specified limits, the controller can compensate for these rotations and make a correct tightening.

If the tool rotation is outside specified limits, the tightening is aborted and the result status NOK is reported. Additional information reports Tool movement exceeded.

Parameter

Description

Default

TrueAngle compensation

Available for all tightening strategies except Rotate.

Tools which have a crowfoot installed as an attachment do not support the parameter TrueAngle compensation.

Tool movement limits - Negative

Only visible if TrueAngle compensation is on.

Defines the maximum negative rotation of the tool. If the value is exceeded the tightening is terminated and an error is reported. Expressed in a numeric angle value.

Min value: 1
Max value: 180

Tool movement limits - Positive

Only visible if TrueAngle compensation is on.

Defines the maximum positive rotation of the tool. If the value is exceeded the tightening is terminated and an error is reported. Expressed in a numeric angle value.

Min value: 1
Max value: 180

Only tools with gyro have the capability to measure the tool movement.

Rundown Stage

The part of the tightening from when the screw enters the thread until just before the screw head touches the underlying surface and snug is reached. The torque required during rundown does not contribute to any clamping force.

Parameter	Description	Default value
Rundown speed	Defines the speed during the Rundown step	Tool max speed

In this Section

Selftap

The Selftap step enables tightening where the rundown torque required is greater than the Rundown complete torque, for example when tightening thin layers of metal using self-threading (or self-tapping) screws. The selftap window starts when the torque value reaches SelftapTorqueMin/2. The torque must reach over SelftapTorqueMin, but not pass SelftapTorqueMax, during the angle window.

Parameter	Description	Default value
Selftap	Activates the Selftap step.	Off
Speed	Defines the speed during Selftap.	Soft start speed or 5% of ToolMaxSpeed
Length	Defines the angle to turn the socket during Selftap. Measured from the end of the Start step.	360°
Torque min	Torque value for lower Selftap limit.	0 Nm
Torque max	Torque value for upper Selftap limit.	Tool max torque

Rundown Torque Limits

The friction between the nut and joint can vary. This can cause the torque needed to run a nut down a thread, before engagement with the joint surface takes place, to vary as well. These effects could be, for example, hole interference, prevailing torque or varying lubrication.

Monitoring the rundown torque can be useful when running down a lock nut which has a plastic insert in the threads to help the fastener resist vibration. This will require a higher torque, known as prevailing torque, to overcome the interference.

Parameter	Description	Default value
Rundown torque limits	Sets Rundown torque limits to On or Off. Off: No limits are set. On: Torque limits and angle interval are set.	Off
Offset	Angle offset before the Angle interval begins.	0°
Length	Angle defining the Rundown torque limit section.	360°
Torque min	Torque value for lower Rundown torque limit.	0 Nm
Torque max	Torque value for upper Rundown torque limit.	19% of Target torque

Rundown Angle Limits

By monitoring the angle of rotation during rundown, errors such as missing washers or screws with incorrect thread size or length can be detected. For example, threads that are too long would require a greater turning angle for the screw to reach snug.

Parameter	Description	Default value
Rundown angle limits	Activates Rundown angle limits. The angle limits are set relative to when the tool trigger is pressed or when a specified torque value is reached. Angle limits will not be checked during Selftap if Selftap is activated. Off: No limits are set. From trigger:The system starts to monitor the tightening angle as soon as the tool trigger is pressed and reports if angle or time limits are violated. From torque: The system starts to monitor the tightening angle from the specified <From torque> value and reports if angle or time limits are violated.	Off
<From torque>	Torque value from where Rundown angle limits are set.	10% of Target Torque
Angle min	Angle value for lower angle limit from starting point.	100°
Angle max	Angle value for upper angle limit from starting point.	1000°
Time min	Minimum time (in milliseconds) for the step. Measured from the start of the step.	10 ms
Time max	Maximum time (in milliseconds) for the step. Measured from the start of the step.	5000 ms

Post View Torque

Some joints have a torque peak prior to Rundown complete. Post view torque makes it possible to monitor torque values during two specified angular intervals. The interval starts are defined as an angle prior to Rundown complete and torque is then monitored for a specified angular interval.

Post view torque is therefore similar to Rundown torque limits except that the maximum and minimum limits can be positioned independently of each other and can differ in length to better control the outcome of the rundown step.

Parameter	Description	Default value
Post view torque	Post view torque makes it possible to monitor torque values during two specified angular intervals.	Off
Torque min	Torque value for lower Post view torque limit.
Torque min offset	Angle offset before the Post view torque min interval begins.	720°
Torque min length	Angle length defining the Post view torque min section.	90°
Torque max	Torque value for upper Post view torque limit.
Torque max offset	Angle offset before the Post view torque max interval begins.	360°
Torque max length	Angle length defining the Post view torque max section.	90°

Rundown Complete

Rundown complete sets if the screw has reached snug. It ends the Rundown step so that the tightening step can be entered.

Parameter

Description

Default value

Rundown complete

Specifies how to control when snug is reached.

At torque: Specifies the torque value for when the rundown step is completed.

At torque

Defines the torque value for when snug is reached and the rundown step is completed. Rundown complete must be smaller than First torque in multi-step strategies or Target torque in the TurboTight strategy.

Stop Stage

The Stop stage terminates the tightening so that the socket can be released.

Soft Stop

Soft stop causes the tightening stop in a more ergonomic fashion.

Do not stop tools within the time interval of 50-300 ms, as this is known to make it feel like an uncomfortable stop.

Parameter

Description

Default value

Soft stop

Turns the Soft stop on or off.

Off: No Soft stop is used.
On: Soft stop is activated. When target torque is reached, the tool speed is immediately decreased to 75%. Then the speed is decreased to zero in at most 40 ms.

Off

Loosening a Screw

By setting the loosening parameters, you can control the behavior of loosening for a specific tightening program. Specify the loosening speed and torque to ensure that the screw is unscrewed as desired, so that the screw thread does not break, regardless of what tool you use.

A loosening is considered OK when Run-up torque is reached. However, the screw will probably not have been fully run up by then. The screw should now be able to be turned using a low torque and the speed can be increased. The operator will need to proceed with the loosening until it is considered finished.

Parameter name

Description

Default value

Detection torque

The minimum torque required to begin performing a loosening operation and produce a loosening result.

7% ToolMaxTorque

Run-up torque

When the torque falls below Run-up torque, the loosening is considered to be OK.

Note! Depending on variations in screw length, the system cannot determine when the screw has been run up completely. This is for the operator to decide.

3.5% ToolMaxTorque

Loosening speed

Loosening speed will be attained when Run-up torque is reached.

ToolMaxSpeed

Stage Parameter Descriptions

Target Torque Limits

By setting the Target torque limits , it is possible to discard a tightening should the torque result not fall within the specified torque limits. A too high torque can cause the screw to deform as a result of passing the yield point, and can even break, or can cause the stripping of threads. Not enough torque result in the clamping force not being enough to withstand the forces for which the joint is designed.

Parameter

Description

Default value

Torque limits

The tightening is considered as NOK if the torque result is outside the range defined by Torque min and Torque max.

Auto: Torque limits are automatically set to the default values specified for Torque min and Torque max.

Manual: Enables the Torque limit values to be set manually.

Auto

Torque min

Torque value for lower torque limit. Can be entered if Manual has been selected.

95% of Target torque

Torque max

Torque value for upper torque limit. Can be entered if Manual has been selected.

120% of Target torque

The parameter Measure torque at can have different values. By default the torque is measured at torque peak. The possible values of the parameter are listed in the table below.

Name	Description
Max torque value	Measures the highest torque value during the tightening.
Value at peak angle	Measures the torque value at the highest angle value.
Value at shutoff	Measures the last torque value before entering the break step.

Target Angle Limits

With Target angle limits set, it is possible to monitor whether the nut is turned the desired angle during the tightening.

Parameter	Description	Default value
Angle limits	Choose the section of the tightening, in degrees, in which to monitor the angle. Off: No limits are checked. From Rundown complete: The monitoring window is set from when the Rundown complete torque is reached. From torque: The monitoring window is set from when the specified torque value is reached. Torque must be greater than Rundown complete torque. From First target: The monitoring is set from when First target is reached. This option is not available if TurboTight is chosen. Auto: The angle monitoring limits are automatically calculated by the controller Manual: The angle monitoring limits are manually entered.	Off
<From torque>	Torque value from where angle limits are set.
<From torque>	Torque value from where angle limits are set.	75% of Target Torque
Angle min	Angle value for lower angle limit	90°
Angle max	Angle value for upper angle limit	720°
Time min	Minimum time (in milliseconds) for the step. Measured from the start of the step.	10 ms For TurboTight: 0 ms
Time max	Maximum time (in milliseconds) for the step. Measured from the start of the step.	1000 ms For TurboTight: 40 ms

Position 1-4 are valid if the target is torque. Position 5-6 are valid if the target is angle.

The parameter Measure angle at can have different values. The parameter is only available when angle monitoring is turned on for the tightening program used. By default the angle is measured at Max angle value. The possible values of the parameter are listed in the table below.

Name	Description
Value at peak torque	Measures the angle at the highest torque value.
Max angle value	Measures the highest angle during tightening.
Value at shutoff	Measures the last angle value before entering the break step.

Torque Compensation

By using torque compensation, the actual clamping force applied to the joint can be better determined and the scatter in the applied clamping force can be reduced.

The torque compensation point is set by referring back to a specified angle from Rundown complete and calculating a value for the torque used during rundown. This is then compensated for when creating the preload in the screw by adding the torque value calculated in the torque compensation point to the Target torque.

Parameter

Description

Default value

Torque compensation

Enables adjustment if the Target torque for torque used in the rundown step.

Off: No compensation is made.

On: Manually sets the Torque compensation point.

Off

Residual Torque Correlation Factor

The term Residual torque correlation factor is similar to a calibration and adjusts between the dynamic torque, measured in the electrical tool, and the residual torque, measured by a control tool.

The Residual torque correlation factor is available for all tools running the TurboTight strategy and the TensoPulse tightening strategy. It is also available for the battery pulse tools that are supported by the controller.

When using a Residual torque correlation factor that differs from 100, the reported Final torque is no longer the dynamic torque measured by the tool transducer.

The dynamic torque measurement uses an internal torque transducer that constantly measures the torque. When the target torque is reached, the tool stops and the result is evaluated and reported. The measured final torque in the transducer is affected by the joint condition, the tool speed, gears and sockets.

The residual torque is measured after the tightening is completed. It is the torque needed to continue or restart the tightening to a higher level. The residual torque is determining the clamping force in the joint.

A dynamic torque measurement is highly repetitive but may differ between tool type and tool speed.

A handheld calibrated torque wrench provides high accuracy measuring the residual torque but has higher variations due to joint relaxation, torque decay, friction or operator technique.

The Residual torque correlation factor is a compensation between the dynamic torque and the residual torque. The factor should be determined by conducting tests. The selected tightening program is performed a few times and the dynamic torque is recorded. The tightenings are also manually measured to determine the residual torque.

The Residual torque correlation factor can be calculated by dividing a residual torque by a dynamic torque. TheResidual torque correlation factor is presented as percent and is by default 100%. This means the reported dynamic torque value has not been modified.

Parameters	Function
Target torque	The tool target torque set for the tightening using the TurboTight strategy.
Final dynamic torque	The final torque reported as the result of the performed tightening.
Dynamic torque	The dynamic torque measured by a reference transducer.
Residual torque	The desired residual torque that ensures the desired clamping force.
Residual torque correlation factor	The compensation factor between residual torque and dynamic torque

An example of how torque tuning can be used:

The TurboTight strategy is selected. The joint shall be tightened to 12 Nm to reach the desired clamping force. The following set up is made:

Example settings	Value	Function
Target torque	12 Nm	The programmed desired target torque in the controller
Residual torque correlation factor	100	The compensation factor between residual torque and dynamic torque

A number of tightenings are made. After each tightening the joint is checked with a calibrated torque wrench. The average is calculated and the following result has been found:

Initial parameters and results	Value	Function
Target torque	12 Nm	The programmed target torque in the controller.
Final torque	12 Nm	The final torque reported as the result of the performed tightening.
Dynamic torque	12 Nm	The uncompensated measured torque from the tool transducer.
Residual torque	10 Nm	The residual torque measured with a calibrated torque wrench or other test tool.
Residual torque correlation factor	100 %	The compensation factor between residual torque and dynamic torque

The testing shows that the residual torque is too low to produce the desired clamp force. The Residual torque correlation factor is calculated to 0.83, which is 83 %. An adjustment of the tuning factor is made and the following result is obtained.

Final parameters and results	Value	Function
Target torque	12 Nm	The programmed target torque in the controller.
Final torque	12 Nm	The final torque reported as the result of the performed tightening.
Dynamic torque	14.5 Nm	The uncompensated measured torque from the tool transducer.
Residual torque	12 Nm	The desired residual torque that ensures the desired clamping force.
Residual torque correlation factor	83 %	The compensation factor between residual torque and dynamic torque.

What this shows is that we need to tighten a bit more than the specified target, to compensate for differences and to reach the desired torque in the joint.

It is important that the correlation is made with the same tool type and parameter configuration that will be used in production.

Trigger Lost

In the Result Evaluation window of the program tightening stage, NOK on trigger lost switch controls whether or not it is allowed to release the tool trigger before the target condition has been reached. The setting can be set to On or Off. Below is a description of the two states.

Switch setting	Description
On	Releasing the trigger before reaching the target condition will result in a NOK tightening.
Off	Releasing the trigger before reaching the target condition will result in an OK tightening as long as all other conditions have been met.

The default behavior is that premature trigger release shall not be allowed.

Availability

The NOK on trigger lost is available in the following tightening strategies: Rotate, Quick Step, Two Step, Three Step, and Impulse - Single Step.

For the tightening strategies Rotate, Quick Step, Two Step and Three Step, Trigger Lost setting is only available when the Target of the program is set to Angle (not Torque).

Tightening Program Configuration - General Parameters

The general tightening program settings is used to set up and manage the tightening programs by naming tightening programs, to make general tightening settings such as selecting tightening strategy, Manual or Quick prog mode, and to set the tightening program target value.

For more information about tightening parameters, see Start Stage, Rundown Stage, Tightening Strategies, and Stop Stage.

For more information about Loosening parameters, see Loosening a screw.

Relevant Information

In this Section

Name

Use the Name field to give the tightening program a name. This name will be stored with the tightening results and sent to ToolsNet (if applicable). The name can be maximum of 32 characters long.

Strategy

Strategy sets the tightening strategy to be used with the tightening program.

For more information about the available strategies and the relevant parameters, see "Tightening Strategies".

Target

The Quick step, Two step, and Three step strategies enable the choice of tightening towards either a Target torque or a Target angle value. When TurboTight is activated, only the Target torque option is available.

Time Monitoring (elapsed time)

Time monitoring is available for all tightening strategies except Rotate. Time monitoring can be activated when angle limits are activated. Time monitoring is available for the rundown step and the final step of the tightening step.

To minimize the risk of unexpected jerk at the end of the tightening when using the TurboTight tightening strategy, make sure to activate Time monitoring.

Since handling the trace takes time, there is always a short difference between the Program elapsed time compared to Step elapsed time . This is especially noticeable in programs containing only one step.

When using an STB tool it is not possible to use time monitoring if all monitoring options are switched on.

Attachment Tuning

Attachment tuning gives the possibility to compensate for front attachments on the tool. The compensation can be made for each tightening program.

An operator can hot swap an attachment and then select a tightening program tuned for that specific attachment.

Attachment tuning is available for all conventional strategies except for the STwrench.

In Tightening program settings, set Attachment tuning enabled to Yes
Click on Tightening parameters > Edit
Click on the start step.
Under Attachment tuning, set Use attachment tuning to Yes
Set the necessary parameters for Gear ratio and Efficiency tuning (see table below).

Parameters for Attachment tuning
Attachment tuning	Description	Default
Attachment gear ratio	The Attachment gear ratio is needed to compensate the angle. Minimum: 0.5 Maximum: 100 Socket rotation speed = Tool speed / gear ratio	1.0
Efficiency tuning	Attachment gear ratio combined with the Efficiency tuning is needed to compensate the torque. Minimum: 0.5 Maximum: 1.0 For example 0.9 means 10% efficiency loss.	1.0

Working with the Batch Sequence Tab

Batch sequences are used to perform a specified number of tightenings in a specific order. Each batch sequence is given a name.

In this Section

Batch Sequence Settings

A batch sequence can consist of up to 99 batches, with a batch size of up to 250 tightenings. The batches in a batch sequence are carried out in the order listed, or by using a Socket selector to choose which batch to run.

Batch settings parameters
Parameter name	Description	Default value
Lock tool on Batch sequence compl.	A batch sequence is completed when the batch sequence counter is equal to the batch sequence size. On: The tool is locked and a tightening program or batch sequence must be selected to continue performing tightenings. Off: After completion, the batch sequence is ready to be repeated.	On
Free order	No: The configured batches will be executed in the order listed, provided they have been configured to perform tightenings. If socket has been specified, the system will prompt for the socket when the batch is to be performed. Yes: The configured batches can be executed in any order. The operator must indicate to the system which batch is to be executed by using a Socket selector. A batch is regarded as complete when all joints have been completed.	No
Increment on NOK	Makes it possible to increment the batch counter value even though the tightening is reported as NOK. For Max consecutive NOK to work (the maximum number of times a single bolt can be tightenened), Increment on NOK must be set to No. Setting this parameter to Yes, will allow the sequence to move on to the next tightening.	No
Max consecutive NOK	Maximum consecutive not OK tightenings (NOK) are a defined maximum allowed number of NOK consecutive tightenings in a batch. If the Max consecutive NOK number is reached, the event Too many NOK tightenings (4020) is displayed.	0
Decrement on loosening	Decrements the counter within the currently active batch. Completed batched cannot be decremented. Never: The setting is off. Counter is not decremented when loosening is performed in the active batch. Always: The batch counter is decremented when a loosening is performed. When last tightening was OK: If the preceding tightening was OK, the batch counter is decremented when a loosening is performed.	Never
Sequence abort timer	On: The selected batch sequence can be aborted within a specified time limit Off: The selected batch sequence cannot be aborted.	Off
Abort time (10-600)	The number of seconds during which the selected batch sequence can be aborted.	10

Batch Configuration

A batch is set up to perform a specified number of consecutive tightenings using the same tightening program. Batches must have tightening program and batch size specified in order to run.

Batch configuration parameters
Parameter	Description
Tightening program	The tightening program to use with the batch.
Batch size	Number of tightenings the batch will perform. Max. number of tightenings in one batch is 250. Batch size 0 will give the batch an infinite number of tightenings.
Identifier number	When using a Socket selector, this is the socket position used to activate the batch.

Working with the Sources Tab

External signals used as tasks for tightenings are configured in the Sources menu. Sources are accessories or similar connected to a virtual station. Two types of source tasks are available:

Source Tightening task
Source Batch task

Source Tightening is used to select a single tightening program.

Source Batch is used to select a batch sequence, a series of tightening programs.

For more information about selection of tasks, see Assigning a Task to a Virtual Station.

In this Section

Source Tightening

The tightening menu shows a list of source tightening configurations. Separate lists can be linked to a Virtual Station by going to the Virtual Station tab in question, and then selecting Task and then Choose task. There, a Source can be chosen as a task. Source tightenings link a specific tightening program to an identifier number. When the identifier number is sent to the controller (either by external digital signal, or, in cases where a socket selector is used, by lifting the corresponding socket in the selector) the linked program will run over and over until a different signal is sent (or socket is picked up). There is no batch counting.

Source Tightening lists can be set either in Control or Confirm mode.

When set to Control, an external source selects a tightening program by requesting an identifier number. In case of a socket selector, the identifier number is linked to a corresponding socket in the socket selector, and by lifting the socket the tightening program is selected.

In Confirm mode, the socket selector cannot be used as a controlling source. In this mode identifier numbers are linked to both a tightening program and a specific socket (indicated in an additional column in the list). When an identifier number is requested (by an external signal), the corresponding socket is prompted in the socket selector and the tightening program is activated when the operator lifts the socket (other sockets are disabled). If no socket is specified (that is, set to 0 in the Socket column), the tightening program is activated directly and the socket status is ignored.

Power Focus XC can store up to 1,000 source tightening programs.

In this Section

Creating a Source Tightening

Creating a Source Tightening

Go to the Sources menu, then select Tightening on the left navigation.
Click the plus icon in the top right of the workspace.
Give the Source Tightening a name and select the correct Selector mode (Control or Confirm, depending on what is required).
By default, only one editable Identifier number will be available when creating a new Source Tightening. At the bottom of the screen, click the plus icon to add more.
Give every item an identifier number
If a socket selector is used, the identifier numbers will correspond to the positions in the socket selector, i.e. Identifier number 1 corresponds to socket number 1 in the socket selector.
Choose a tightening program to link to each identifier number by clicking on Program and choosing from the list of tightening programs.

Sources - max consecutive NOK

Max consecutive NOK can be set per Source Tightening or per individual program included in the Source Tightening.

Setting the max consecutive NOK per Source Tightening

Set Max consecutive NOK per program to No
Set the value in the Max consecutive NOK field.

Setting the max consecutive NOK per program

Set Max consecutive NOK per program to Yes
For every program in the Identifier selector configuration section, set the value in the Max NOK column.

Source Batch Sequence

The Source Batch configuration is found under the Batch option in the Sources menu.

The controller can be configured to select a batch sequence based on either an identifier number or an identifier string.

Input	Description
Identifier number	The number must be a positive integer number that can originate from an accessory or from an external control entity.
Identifier string	The string must consist of ASCII characters and can originate from a scanner or from an external control entity.

In this Section

Creating a Source Batch

Go to the Sources menu, then select Batch sequence on the left navigation.
Click the plus icon in the top right of the workspace.
Give the Source Batch a name
Set the Abort on new identifier to Yes if scanning a new identifier string should abort the previous scan.
Select the Identifier method (String for text, or Number for numerical strings)
Set Free order to On if the strings should be able to be scanned in any order.
Identifier strings can be made up of up to 4 different strings. When free order is set to No, the strings need to be scanned in a specific order for the system to recognize the string.
If required, add an identifier string by clicking on the Plus icon in the Identifier string configuration section.
Click on the Name label for the identifier string you want to change the properties of (pop-up window). The following properties can be indicated per string:
- Name - the name of the string
- Length - the length of the string. See Combining Identifier Strings for more information on concatenating strings.
- Significant positions - used to specify which characters in the barcode string to read when putting together the string to match with your pre-defined string. The number of significant positions must match the number of characters in the pre-defined strings.
- Saved positions - indicate which parts of each string used in the Source Batch is saved, and how they are represented in the log. In this field, indicate the positions in the string that need to be saved. Positions can constitute only parts of the entire string. If the field is left empty, the entire (concatenated) string will be saved. The table below shows some examples of saved position combinations.
  
  Saved position values are comma-separated (without spaces), and ranges are indicated using a hyphen.
Identifier string
Positions
String 1: 1234567
1-7
String 2: abcdef
8-13
String 3: GHIJKL
14-19
String 4: 890
20-22

Saved position examples
Saved positions
Saved results
(empty)
1234567abcdefGHIJKL890

1-3,9,11,15,20-22
123bdH890
8-12,1-7,19,20-21 will be changed automatically to: 1-12,19-21
1234567abcdeL89
The ID field in the string properties window cannot be altered, but can only be used to navigate between the different strings.
An error may occur when Free order is set to On, and the lengths of the different strings are duplicated. The scanned sequence will then not activate a tightening program. To remedy this error, set Free order to Off, or adjust the string lengths.
Click Edit.
In the Edit window, indicate which strings (in the String contains column) should be linked to which Batch sequence (in the Activates column). Click the plus icon at the bottom to add more strings.
Wildcards can be used when typing the "string contains". The wildcard(s) can be used at any position in the string. No Batch sequence is activated in case of an ambiguous matching result.

The wildcard is a . (period)

Relevant Information

Configuring Significant Positions to Read in Barcode String

Configuring Significant Positions to Read in Barcode String

The positions in the barcode string are associated with a number between 1 and 1024. The first position of the string is 1 and the last is 1024.

The significant positions must be specified following the rules described in the table below. Barcode strings:
Description	Significant positions	Valid configuration	Barcode string to match with pre-defined string
Significant positions in order	1,2,3,7,8	Ok	ABCGH
Significant positions in optional order	7,1,2,3,8	Ok	GABCH
Range of numbers	1–3,7-8	Ok	ABCGH

Combining Identifier Strings

The identifier string that is used for matching is a combination of up to four strings from a factory management system or up to four scanner inputs that need to be combined into one string.

The Add and Delete buttons manage how many strings are combined. The following parameters are available:

Parameters for combining identifier strings
Parameter	Description
Name	The string must be given a name.
Length	The length of the string must be known and must be entered. This is important to be able to combine the correct string identifier.
Significant positions	The comma-separated positions or ranges (separated by hyphen) in the combined string that are used for matching.
Saved positions	The comma-separated positions or ranges in the strings that will be saved in the result.

If more than one identifier string is to be used, perform the following steps:

Select the Add button to create a new entry on the table.
Give the string a name.
Enter the length of the string.
Repeat steps 1-3 for every string to be added. Up to four strings can be combined.

The Start-End parameters in each row define the individual string positions in the combined string identifier that will be used in the next step of the matching process.

Performing a task selection process using an identifier string as an input:

Define which positions in the string are to be activated.
Enter the significant positions to define which positions in the identifier string will be used for the matching. The positions must be either comma-separated, or by range.

Working with the Tool Tab

A tool must be connected to the controller for the Tool menu to show information.

In this Section

Tool Information

The Tool information view contains information used for giving service personnel accurate information about the tool connected to the controller, so that they can give adequate help and support, or for operators to see what tool is connected to the controller.

Tool information
Information	Description
Model	Tool model denomination.
Max torque	The maximum torque the tool can use for a tightening.
Min speed	The minimum rotation speed of the tool.
Max speed	The maximum rotation speed of the tool.
Min final speed	The minimum final rotation speed of the tool (only for BCP/BCV-RE tools).
Max final speed	The maximum final rotation speed of the tool (only for BCP/BCV-RE tools).
Gear ratio	The ratio of the angular velocity of the input gear to the angular velocity of the output gear.
Serial number	The tool’s serial number may be needed when the correct version of the Product instruction is required, in order to get the correct spare parts or service instructions.
Software version	Tool software version.
Product number	The tool’s Product or Ordering number.

Tool TAG information

Tool TAG information is only available if the tool type is a STwrench.

STwrench tool information
Information	Description
TAG id	The programmable RFID TAG identification number that is programmed into the End-fitting tool (Socket).
Torque correction coefficient	In certain cases extensions may be needed to fit the application. In this case the wrench measurement must be compensated to show a correct value. To calculate the correction coefficient, refer to the latest version of the STwrench User Guide (printed matter number 9836 4134 01). The parameter is stored in the RFID TAG in the End-fitting tool.
Angle correction coefficient	In certain cases extensions may be needed to fit the application. In this case the wrench measurement must be compensated to show a correct value. To calculate the correction coefficient, refer to the latest version of the STwrench User Guide (printed matter number 9836 4134 01). The parameter is stored in the RFID TAG in the End-fitting tool.
Nominal torque	The smartHEAD of the STwrench contains the torque transducer and defines the wrench’s nominal torque. For more information, refer to the latest version of the STwrench User Guide (printed matter number 9836 4134 01).

NOTICE

Tool Connection

The tool connection area shows which virtual station the tool is connected to.

Tool Health

The Health view contains information about tool temperature.

Tool temperature

Tool temperatures (both for cabled and battery tools) are monitored continuously by the Power Focus XC. Supported temperature units are degrees Celsius (°C) and degrees Fahrenheit (°F), with Celsius being the default unit. It is possible to switch between the two units without requiring a controller restart. When the tool motor temperature or tool electronics temperature exceeds max temperature, the tool is locked and an alert (2014) is shown. The tool is once again unlocked when the tool temperature drops below the temperature limit.

Tool temperature is not available for the STwrench.

Monitoring Tool Temperature

From the display or through the web GUI, users can access the latest tool electronics and tool motor temperatures measured together with the timestamp when the measurement was taken.

On the Home view, tap on the Tool Tab.
Both tool electronics temperature and tool motor temperature are listed under Health.
For pulse tools, the Tool pulse unit temperature is also listed.
Click on either entry to access a list of peak temperatures and their timestamps.

Tool Maintenance

The tool stores a service interval number and counts how many tightenings can be performed before a tool maintenance, or service is needed.

Setting the Maintenance Alarm

On the Home view, tap on the Settings Tab, then select Tool.
Set the Service indicator alarm to On.
Return to the Home view, tap on the Tool Tab, and then select the tool you wish to set the alarm for.
Enter a value in the Service interval box.
Service intervals can only be set in multiples of 10 000. Any number other than multiples of 10 000 is rounded off to the nearest multiple of 10 000.
When working with pulse tools, both service intervals for number of tightenings and number of pulses is set. Whichever interval is reached first will trigger the alarm.

Maintenance parameters
Field	Description
Last service	Date and time when last service was performed. The Last service date is set at the repair workshop. The Last service date is set to current date and time when the Reset service count button is pressed.
Total tightenings at service	Total number of tightenings performed by the tool since it was used for the first time. This value is made available at service, and will remain the same until next service.
Remaining tightenings	Total number of tightenings left until the service interval is reached.
Service interval	Number of tightenings to be performed between two service events. Can be set in multiples of 10 000.
Total pulses at service	[pulse tools only] Total number of pulses performed by the tool since it was used for the first time. This value is made available at service, and will remain the same until next service.
Remaining pulses	[pulse tools only] Total number of pulses left until the service interval is reached.
Service interval	[pulse tools only] Number of pulses to be performed between two service events. Can be set in multiples of 10 000.
Reset service counter	Reset of the Remaining tightenings counter and sets Last service date to current date.
Reset service data	[pulse tools only] Reset of the Remaining tightenings counter as well as oil status and sets Last service date to current date.

Tool Calibration

Tool calibration is used to control how well a tool corresponds to a reference transducer.

The calibration value stored in the tool memory is used to adjust the torque value given by the tool’s torque transducer so that the correct torque value is displayed in the web or mobile GUI. The web or mobile GUI also displays the date when the tool was last calibrated.

Calibration parameters
Field	Description
Last calibrated	Date and time when last calibration was performed.
Calibration value	Torque value to calibrate against.
Next calibration date	Date when the next calibration of this tool is needed.

In this Section

Preparing the Calibration

Make sure the tool and controller are set up to perform tightening.
Set up the tool with a torque reference transducer (such as the STa6000, STpad or JSB Bench).
Refer to the torque reference transducer User Guide for set-up instructions.
Select a Tightening program with a target torque corresponding to a tightening normally used with your tool.
See Basic Tightening setup for a tutorial on setting up and activating a suitable tightening program.

Calibrating the Tool

The calibration value used for the tool is calculated from the torque readings read from the controller, and the torque reference transducer through the equation below:

New calibration value = Old calibration value × Mean (Reference values / Power Focus values)

On the Home view, tap on Tool Tab and select the tool to be calibrated. Then, go to Calibration.
Take note the old calibration value found in the Calibration value text box.
Make at least three tightenings and use the torque values read from the controller and the reference transducer (ACTA or similar) for calculating the mean torque values.
Calculate the new calibration value using the New calibration value equation.
Store the new calibration value in the tool memory by entering the calculated value in the Calibration value text box and tapping Apply.

After calibration is completed, perform a tightening to verify that the new values are correct.

QA Calibration

On the home view, go to the Tool tab and select QA Calibration on the left pane.

Modify the parameters on the QA Calibration window and select Apply to implement the changes.

Parameter	Description
Enable	ON: Enables the external tool configuration option OFF: Disables the external tool configuration option.
Virtual station	Select the ellipsis icon to connect the tool to a virtual station.
Connection type	Connect via TCP port or Connect via COM port.
COM port	Visible when Connection type COM port is selected. Shows a drop-down list with the available COM ports.
TCP port	Visible when Connection type TCP port is selected. Shows the TCP port, pre-populated.

Calibrating a Tool Through the STa6000 or STpad

Connecting the STa6000/STpad

The STa6000/STpad can be connected to the controller in two ways:

Connecting the STa6000

Connection	Remarks
COM port	Connect the Atlas Copco USB to Serial adapter to the controller's USB port using the ACTA Serial cable. Connect the STa6000 to the Serial Adapter using a USB cable.
Ethernet port	Connect the ethernet cable between the STa6000 and the controller's Factory Ethernet port, or the factory network.

Connecting the STpad

Connection	Remarks
COM port	Connect the STpad to the Controller's COM port using the ACTA Serial cable.
Ethernet port	Connect the ethernet cable between the STa6000 and the controller's Factory Ethernet port, or the factory network.

Performing the QA Calibration through the STa6000 or STpad

Make sure the tool is connected and assigned to a virtual station on the controller.
Single tightening programs cannot be used for calibration purposes. Make sure a batch program is selected.
On the Home view, tap on Tool Tab. Then click on QA Calibration, and set the QA Calibration to On.
Select the virtual station the tool to be calibrated is connected to, and select the connection type to be used (TCP of COM port).
Note that the default port for communication is 4561
Connect the STa6000/STpad to the controller, and select the correct virtual station.
Start the calibration from the STa6000/STpad.
The STa6000/STpad requests controller information, including tool information and tightening program.
Execute the tightening. When the calibration device detects a tightening, it requests the tightening result from the controller.
Repeat the above step until all tightenings in the batch have been executed.
Once completed, the STa6000/STpad creates a report, as well as calculate a new calibration value for the tool.
Select Store in the STa6000/STpad to send the new calibration value to the controller, which in turn writes it to the tool.

During calibration, if the tightening program is changed, or the sequence/batch is updated, the calibration is terminated.

There is no limit in the batch size used for calibration purposes. However, the STa6000 can only display two digits as batch size. Thus, the counter on the Sta6000 reads 00 for 100.

After calibration is completed, perform a tightening to verify that the new values are correct.

Tool Diagnostics

In Diagnostics it is possible to run:

Sensor tracking
Diagnostic tests

Sensor tracking

To diagnose a tool, the angle or torque sensor, it is possible to start a Sensor tracking session in the Tool menu. A Sensor tracking session has a time out of 20 minutes. A warning is shown 5 minutes before timeout and it is then possible to extend the session or to stop it.

Sensor tracking is only possible for cable tools.

It is only possible to start one Sensor tracking session for each tool and controller at a time.

Start a sensor tracking session

In the HOME window select Tool.
Select Cable Tool and Sensor Tracking in Diagnostics.
Turn On Start sensor tracking.
Tool angle, torque and speed are shown.

Sensor tracking information
Tool angle	How much the tool has turned since the sensor tracking session started or since the last reset.
Torque	Readout: the instantaneous value for the torque. Peak value: the highest measured torque value since the sensor tracking session started or since the last reset.
Speed	Readout: the instantaneous value for the speed. Peak value: the highest measured speed value since the sensor tracking session started or since the last reset.

Diagnostic tests

To find out if a tool works correctly it is possible to do a diagnostic tests of the tool. The type of test that can be run depends on which tool is connected. Three different types of tests can be run:

Automatic production test: No action is required from the user.
Manual tests with no acknowledgment: The user has to do some tasks during the test.
Manual tests with acknowledgment: The user has to monitor and give feedback on the tool´s behavior.

It is only possible to start one diagnostic test for each tool and controller at a time.

When the diagnostic test is started the session is locked for other clients. A diagnostic test session has a time out of 20 minutes. A warning is shown 5 minutes before timeout and it is then possible to extend the session or to stop it.

Diagnostic test information
Automatic production test	Manual test with no acknowledgment	Manual test with acknowledgment
Transducer shunt check Secondary transducer shunt check	Start button/Trigger Safety trigger Reverse ring/switch or button Push start Function button	Speaker/Buzzer LEDs

Start a diagnostic test session

In the HOME window select Tool.
Select Cable Tool and Diagnostic Tests in Diagnostics.
Turn on Diagnostic Tests.
Select the test you want to run.
Follow the instructions on the screen.
All tests show result with green or red indication.
The diagnostic test times out if no action is done within 20 seconds.
A diagnostic test result is shown when the a test session is completed.
If you leave the diagnostic test page the result will disappear!
To export a test result; select the Export button.

Zero Position

This configuration makes a system always return to the original start position for each tightening or sequence. Zero Position is set for each tool separately for both handheld and fixtured. Zero position sets the current position of the tool. It is not possible to set Zero Position during an ongoing tightening or sequence.

Set a zero position:

In the home view select Tool.
Select Cable Tool and then Zero Position in the right menu.
Select SET. The current position of the tool will be set as Zero Position.

Tool Motor Tuning

A motor tuning adjusts the tool’s motor control unit to optimize the performance and minimize loss.

For cable tools a motor tuning should be performed on each specific combination of controller and tool together. STB tools can be moved to another controller without the need to perform a new motor tuning.

Before performing the motor tuning, make sure the tool is connected to a virtual station and that the controller is set up to perform tightening.

The motor tuning takes approximately 1 minute to perform and rotates the spindle in both clockwise (CW) and counterclockwise (CCW) directions before it is finished.

For tools configured with open end Gear Front Attachment (GFA), remove the open end extension from the tool before performing the motor tuning.

Performing tool motor tuning

On the Home view, select the Tool Tab. Then, select the tool to be motor tuned and go to Motor tuning.
Select Perform, and then press the trigger on the tool.
Select OK to start the Motor tuning.

Follow the instructions on the screen and keep pressing the tool trigger until the motor tuning is done.
- If the motor tuning is successful, an OK event is displayed.
- If the motor tuning is not successful, or the tool trigger was released before the motor tuning is done, an NOK event is displayed.

Front End Configuration

Configure the tool to use the correct front end attachment.

Go to Tool in the home menu and select Cable Tool > Front End Configuration.

Select the Front End Type.

If Open End is selected, the following parameters can be set.

Before using an Open End tool, make sure that the tool head and tool body have been assembled and configured correctly. If not, the tool can run in the wrong direction and the mechanical stop in the Open End head may be damaged.

Settings

Description

Invert motor direction

Available for Open End and Closed End.

Off: Default

Tightening direction

CW: Default

Tightening direction set to clockwise.

CCW

Tightening direction set to counterclockwise.

Positioning limit

Manual

Set the Torque positioning limit.

Auto: Default

Torque positioning limit automatically set to 2% of maximum torque but at least 2 Nm.

Select Apply to set up the configuration. The tool will restart.

Perform Open End tuning

The Open End tuning function is available for tools configured with Open End Gear Front Attachment (GFA). The function calculates the true gear ratio of both the tool and the extension combined, and saves it to the tool. The tuning will take approximately two minutes to perform.

When the Open End tuning is completed the tool must be calibrated with the Open End extension attached.

Select Perform and then press the trigger on the tool.
Follow the instructions on the screen and keep pressing the tool trigger until the Open End tuning is completed.
- If the Open End tuning was successful an OK event will be displayed.
- If the Open End tuning was not successful, or the tool trigger was released before the tuning was finished, an NOK event will be displayed.

Pairing a Wireless Tool to a Controller

The Power Focus XC only supports infrastructure mode for wireless tools to interface with the controller. Either by access through the controller factory port or by the local access point.

The pairing of a Mechatronic Wrench to a controller is done differently than other wireless tools, and requires an MWRKit to be connected to the controller. Please refer to the tool's Product Instructions for more detailed information.

An IRC-W Infrastructure tool is a tool that is using the factory's wireless infrastructure to connect to the controller. The tool configurations, ADHOC or Infrastructure Mode, are set in ToolsTalk Service 2.

Working with the Virtual Station Tab

Virtual stations are configured in the Virtual Station menu.

A virtual station is a software abstraction of a physical station and can be set up to use a specific tool and remotely execute different tasks using the tool.

In Power Focus XC, it is possible to set up a number of 6 virtual stations per controller. Each virtual station can be connected to one tool and one or more accessories.

By using virtual stations, the operator can operate multiple tools and run different tasks using the same controller. It is possible to connect one cable tool and multiple STB tools simultaneously to the controller.

When configuring different tools, make sure the selected start signal in Start source matches the selected tool and that the selected task can be run on the specific tool.

Before any tightening can begin a task must be selected in the virtual stations menu. A task is of one of three types:

Tightening program
Batch sequence
Sources

The selection can be made manually by the operator or by external signals.

In this Section

Creating a Virtual Station

On the home view, go to the Virtual Station tab and select the plus icon in the upper-right corner of the screen.
Edit the name and other parameters.

The list of virtual stations created is presented in order of creation.

If no tool configuration is available when assigning a tool, a new tool configuration is automatically created and assigned to the virtual station.

This auto-created tools configuration will have Start source set to Trigger only and trace set to Off. For STB tools Start request will be set to On.

Deleting a Virtual Station

On the home view, go to the Virtual Station tab and select the virtual station to remove on the left pane.
Select the Delete icon at the bottom of the virtual station´s list of parameters.

Assigning Licenses to a Virtual Station

To make virtual stations working, it is needed to assign them a Virtual Station Type license.

Select the Virtual Station menu and select the virtual station you want to assign licenses to.
In the Licenses section, select the arrow in the Virtual station type field
The Change License Type window appears.
Select the Virtual Station Type you want to assign to the virtual station.
[If additional Virtual Station Features need to be assigned] Select Edit in the Features field.
The Select Features window appears.
Check all features you want to assign to the virtual station, then select OK.

Unassigning licenses from a Virtual Station

Select the Virtual Station menu, then select the virtual station you want to unassign licenses from.
In the Licenses section, select the name of the license in the Virtual Station Type field.
The Change License Type window appears.
Select the name of the assigned Virtual Station Type you want to unassign.
The Change License Type closes and the Virtual Station Type field will say None. All features will be removed from the controller as well.

When a Virtual Station is deleted, the licenses associated with that Virtual Station will automatically be returned to the Pool.

Connecting a Tool to a Virtual Station

A virtual station can only have one tool connected. Just one of the tools connected to a controller can be a cable tool. Added virtual stations can connect wireless tools paired to the controller.

Each virtual station needs to have one tool configuration, in addition to the tool. The tool configurations are created in the Configurations menu.

Go to the Virtual station menu and tap the virtual station you want to connect the tool to.
In the Tool area, tap Choose tool to open the list of available tools.

Or, if a tool is already chosen, tap Change tool to open the list of tools available to change to.
In the list of available tools, tap the desired tool to connect it to the virtual station.
Tools not available will be greyed out. To connect such a tool, it must first be disconnected from its virtual station.
When connecting a new tool a tool configuration is attached. If there are more than one configuration available a list of tool configurations is shown.
To replace the tool configuration for the virtual station:
- Click on the arrow beside the name of the current configuration.
- Choose another of the configurations in the list.
It is not possible to deselect a configuration, only to select another available configuration.

Configuring Task Window in a Virtual Station

The selected task can either be running a tightening program, running a batch sequence or enabling the task using a source configured in the Sources menu.

The task can be monitored from the controller and the result of the task can be presented together with any events that may have occurred during the operation.

In this Section

Configuring Manual Mode in a Virtual Station

Configuring Manual Mode in a Virtual Station

Manual mode for Virtual stations is used for performing tasks while the tool is in locked mode. In cases where the tool is locked for a certain reason (e.g. because the tool is outside its TLS footprint) there still may be a need to perform certain tasks with the tool, such as performing emergency work. By configuring manual mode for the virtual station, users can determine what signals are sent when entering manual mode (Entering signals), what task can be performed while in manual mode (Secondary task), and what signals are sent when leaving manual mode (Leaving signals).

Since desired scenarios can vary between different users (i.e. which signals to send upon entry and exit and what task to perform), manual mode is fully configurable for each virtual station.

Configuration consists of three elements: entering signals, leaving signals and secondary task (note that by primary task is meant the (automatic) task that is assigned to the virtual station under Task).

Go to the Virtual station menu and click on the virtual station to configure, then under Task, click on Set manual mode
In the Manual mode configuration screen, set the secondary task. This determines which task shall be run when in manual mode.
If no secondary task is set, the primary task will be used during manual mode.
All task types (tightening, batch sequence, source) can be set for the secondary task as for the primary task.
Set the entering signals to be sent by clicking the plus icon at the bottom of the Entering section. See the parameters for entering signals below.
Set the leaving signals to be sent by clicking the plus icon at the bottom of the Leaving section. See the parameters for leaving signals below.

There is a limit of 99 signals that can be set for entering and leaving.

In this Section

Entering and Leaving Signals

Entering and Leaving Signals

The parameters for entering and leaving signals are the same.

There are two types of signals: Boolean and integer/string type. For Boolean type signals, an on/off (true/false) switch is used. For integer/string type signals, a text field is used where the (I/O) signal or string can be indicated.

Signal	Type	Default value
Abort sequence	Boolean	Off
Acknowledge events	Boolean	Off
Activate tool scanner	Boolean	Off
Clear results	Boolean	Off
Disable Open Protocol Commands	Boolean	Off
Disable Tool scanner	Boolean	Off
Dynamic batch size	Integer	0
External identifier	Integer	0
External monitored [1-8]	Boolean	Off
Flash Tool Green Led (external protocol)	Boolean	Off
Generic IO [1-10]	Integer	0
Id for dynamic batch size	Integer	0
Reset batch	Boolean	Off
Reset batch sequence	Boolean	Off
Reset bistable relay	Boolean	Off
Reset Too Many NOK	Boolean	Off
Select input	Integer	0
Set bistable relay	Boolean	Off
Unlock tool on complete	Boolean	Off
Unlock tool on disable	Boolean	Off

Configuring Protocols Window in a Virtual Station

Under the tab Protocols, in the Virtual Station menu, you'll find a list of available communication protocols depending on the current license in use. The Open Protocol is available for all licenses.

To gain access to functionality through Open Protocol, a unique port for each Virtual Station needs to be defined.

Set the Open Protocol switch to On.
Enter the Server port number.
Enter the Communication timeout value in seconds, between 15 and 60.
Enter the PLC Index value between 1 to 6.
PLC Index is used to map where in the shared memory the Open Protocol commands are to be written. The default value is 1 but it is possible to enter values 1 to 6
Choose the action to be applied when the connection to the client is lost.

The Disconnect setting controls the action applied when a connection error occurs:
- None - The tightening program continues normally.
- Lock tool - The tool is locked after finishing the current tightening normally.
- Unassign task - The tightening is aborted after finishing the ongoing task. Except for plain tightening programs or Batch sequences where the task will be removed after finishing.
- Always lock tool - The tool is locked after finishing the current tightening, regardless of result.
Use legacy counter

The legacy counter setting counts all tightenings in a sequence and outputs that number to secondary systems. To enable this setting, set Use legacy counter to Yes.
MID2500 loosening program

This setting allows for the selection of a MID2500 loosening program from the list.
Tap or select Apply when ready.

Configuring Accessories Window in a Virtual Station

For connecting and disconnecting QIF accessories to and from a virtual station, see Connecting QIF accessories to a virtual station and Connecting QIF accessories to a virtual station.

For troubleshooting with the help of I/O diagnostics of an accessory, see Digital Signal Diagnostics.

In this Section

Digital Signal Diagnostics

During deployment and during troubleshooting of a controller, a diagnostic tool is very helpful. It is available for the analysis under the Info tag for a device configuration in the Virtual station menu.

The controller can operate in normal mode or in diagnostics mode. In normal mode the digital input and output signals operate normally and are routed between the internal controller logic and to an external accessory or a connector.

The diagnostics mode is divided into monitor mode and forced mode. In the monitor mode signals operate normally, but provide live monitoring of the signal behavior. In forced mode the connection between the controller internal logic and the external accessory is opened and the input and output signals can be forced to a desired state.

It is possible to diagnose digital signals for one device at a time.

Diagnostics Configuration

The diagnostics for a specific accessory is accessible through the Info option in the Virtual Station view for the accessory.

Accessing the diagnostics configuration:

On the home view, go to the Virtual Station tab and select a Virtual Station on the left pane.
Go to the Accessories window, select Info and then Diagnostics.
Activate Monitor mode or Forced mode with the switch.
The statuses of input signals and output signals are available under the respective tabs.

It is only possible to access the diagnostics from one single user or function at a time. If the diagnostics is already in use, an information message is shown on the screen.

Normal Operations

In normal operations mode external input signals are passed to the internal controller logic and controller output signals are passed to an external target, without any intervention from the diagnostics module.

Monitor Digital Signals

In the diagnostics mode all signals passed to and from the controller internal logic can be monitored. A signal tap is connected in the diagnostics module and the signal states are displayed on the web GUI or the controller GUI.

Force Digital Signals

In the diagnostics mode all signals passed to and from the controller internal logic can be forced to a desired state. The signal lines are opened in the diagnostics module. From the user interface both input and output signals can be forced to steady states. The user interface is either the web GUI or the controller GUI.

While signals are forced, the controller operates normally. When leaving the diagnostics mode and the forced mode all signals are set to the current operating state of the controller. This may lead to a change-of-state for digital outputs, which can create unwanted actions.

Working with the Configurations Tab

Tool Configuration

On the home view, go to the Configurations tab and select Tool Configuration on the left pane to configure the available accessory functions on the tool.

Different functions are available depending on the tool type.

Configuring Accessory Functions on the Tool

On the Configuration window, select Filter by tool type. Then, select the relevant tool.
On the Configuration window, select Edit to configure the relevant functions.
A configuration assigned to a virtual station cannot be deleted.
If available, configure the Function Button, the LED Ring, the Direction Switch, the Buzzer and the Vibrator by selecting the ellipsis icon on the corresponding fields.
Each field shows a number which corresponds to the number of the specific function (for example, 1 corresponds to Function Button, 2 to LED Ring, 3 to Direction Switch, 4 to Buzzer and 5 to Vibrator).
If available, configure the General Settings, the Start condition and the Accessory Bus on its corresponding windows according to the customer needs.

In this Section

Configuration of the Function Button

Use the function button on the tool to control up to six of the available input signals. The button’s three possible condition states are combined with the two possible states of the direction switch.

Function button states	Direction switch states
Single push	CW
Single push	CCW
Double push	CW
Double push	CCW
Pressed	CW
Pressed	CCW

Two configurable parameters controls the push time.

Parameter	Description	Default value
Push detection interval	For single push: the maximum push time (in milliseconds) between the button being pressed and the button being released.	300 ms
Next push interval	For double push: the maximum time (in milliseconds) between the button being released after the first push, and the buttong being pressed again.	300 ms

Configuration of the Tool LEDs

The tool LEDs have the following features:

The front LED illuminates the work area and can be used to indicate the result status for supported tools.
The blue LED is part of the tool LEDs or as part of the EHMI or RHMI for supported tools. An output signal can be connected to the blue LED.
The status LEDs consist of a red, a yellow, and a green ring or a segmented multicolor ring on specific pistol tools. Output signals can be connected to the status LEDs.
A result indicator configures how the tool LEDs are lit to indicate tightening results status and the duration of this indication in supported tools.

An output signal can be of the type event or state.

A state signal is active as long as the output signal is active.

An event signal is active during the configured time range.

Blue LED

The blue LED can be configured with an event or state output signal. The signal status would be displayed with a steady light.

To configure the blue LED

Select a signal to connect with the blue LED.
Optional: set the duration of an event signal.

The blue LED is replaced by or complemented with a blue indication on the EHMI or RHMI for specific tools types.

Result Indicator

The result indicator configures how the tool LEDs are lit to indicate tightening results status and the duration of this indication.

The configuration affects the front LED and status LED result indication on supported tools. This includes pattern and duration. If pattern is set to Off, the result indication will not be used, even if Front LED is set to On in the Tool Configuration view.

Front LED must be set to On in the Tool Configuration view to use front LED result indication on supported tools.

Front LED supports the green and red color. Patterns that use the color yellow will not display yellow on the front LED.

Result indicator signals
Signal	Description
Off	No LEDs are activated after the tightening, regardless of the result.
Green	The green light always turns on when a tightening operation is OK.
Red:high:yellow:low	If the tightening is terminated incorrectly (NOK); a red LED indicates that the final value is too high, or a yellow LED indicates that the value is too low. Red and yellow can be lit simultaneously (e.g. in case of too high torque, and too low angle).
Red:high(prio):yellow:low	If the tightening is terminated incorrectly (NOK); a red LED indicates that the final value is too high, or a yellow LED indicates that the value is too low. Red and yellow cannot be lit simultaneously. Only red is lit in case of simultaneous high and low values.
Red:NOK:yellow:low	A red LED indicates that the tightening is terminated incorrectly (NOK). An additional yellow LED can indicate if the value is too low.
Red:NOK	A red LED indicates that the tightening is terminated incorrectly (NOK). No additional LEDs are shown.

Status LEDs

The status LEDs consist of LEDs in three colors: red, yellow, and green. Each light can be steady or flashing. This offers a total of six different signals that can be connected to the status LEDs.

To configure the status LEDs

For each color and function, steady or flashing, select an output signal from the shortcut menu.
Optional: set the duration of an event signal.

Status LED signals and result indications can not simultaneously be displayed on the tool. The following conditions apply:

A LED is turned on by a configured signal only when no tightening is ongoing and when the controlling output signal is activated.
A LED is turned off when the next tightening is started, even if the configured duration hasn’t been reached for an event type signal or the controlling output signal hasn’t been deactivated for a state type signal.
A result indication on the status LEDs will be deactivated if an update, activated or deactivated, is made to a configured signal.

Duration

The duration decides for how long the result indication will be lit after the trigger is released.

Parameter

Description

To next tightening

The blue LED, the status LEDs, and the result indication are on until the next tightening is started.

Time

The blue LED is on for the configured duration after activation.

The status LEDs are on for the configured duration after activation or until the start of the next tightening.

The result indication is on for the configured duration after the trigger is released or until the start of the next tightening.

Configurtion of the Direction Switch

The direction switch on the tool can be configured to trigger certain input signals when switched quickly (with a duration of 500 ms) from clockwise (CW) to counter clockwise (CCW) and back, or vice versa.

Configuration of the Buzzer

The buzzer is configured by assigning a sound to a signal selected from a list of available signals.

The sound consists of a set of parameters described in the table. A signal with a sound can be prioritized between 1 and 10 where 1 is highest priority and 10 the lowest. By default a signal and sound has the priority 5. Up to 20 sounds can be assigned to signals.

Parameter	Description
Priority	Defines the priority of the buzzer.
Frequency	Exact frequency in Hz.
Time on	Time (in ms) that the buzzer makes a sound.
Time off	Time (in ms) that the buzzer is quiet.
Repetition	Number of times the buzzer repeats the on/off sequence.
Volume	The buzzer volume, in percentage of max volume.

General Settings

The general settings for the tool can be set in the General settings section.
Trace Configuration, TAG Check and TAG Selection functions are further described in their corresponding sections.

Parameter	Description	Default value
Inactivity timeout	Determines if the tool turns the power off after a set period of inactivity, or not.	On
<Inactivity timeout>	If Inactivity timeout is set to On, it sets the number of minutes before the shutdown.	120 min
Front LED	Sets the behavior of the front LED (above tool trigger). Available only for wireless tools. When it is set to Off, the front LED does not lit when the trigger is pressed.	On
Duration after trigger released	Sets how long the front LED stays lit after the tool trigger is released (in seconds). For cable tools, the front LED stays lit for 10 seconds after the tools trigger is pressed.	0 sec
Trace	Enables the graphical representation of the tightening. For multistep programs, trace is always on from Trigger pressed. For wireless tools, select Trigger pressed or Rundown complete for making the trace.	Off
TAG check	Enables TAG checking on the tool. The tool locks if the TAG supplied with the program is not equal to the one inserted into the STwrench smartHEAD. TAG check is available only for STwrench or when no tool is selected when validating the tool configuration.	Off
TAG selection	It is used for selecting a Tightening Program/Batch or Batch Sequence by using Batch Sequence/Source Tightening/Source Batch. The Tightening Program/Batch or Batch Sequence has a TAG number configured that corresponds to the TAG number of the TAG inserted into the STwrench smartHEAD. On the STwrench display, the operator is informed about which Tightening Program/Batch or Batch Sequence is selected for the TAG inserted into the STwrench smartHEAD. TAG selection is available only for STwrench or when no tool is selected when validating the tool configuration.	Off
Lock tool on memory full	Enables to lock the tool when the memory of the controller is full.	On

In this Section

Trace Configuration

Traces provide users with a graphical representation of the tightening. Traces can begin either from when the trigger is pressed or from after rundown complete.

Parameter

Description

Default value

Trace

Enables the result to be viewed in graphic form.

Off: No trace is made.

Trigger pressed: The trace is drawn from when the tool trigger is pressed.

Rundown complete: The trace is drawn from when Rundown complete is reached.

Off

The maximum number of trace points is 2000 (200 for STB tools). If the maximum number of trace points is exceeded, every other result will be erased (effectively halving the sampling rate). Tracing will continue as long as the tightening is active, and every time the maximum number of trace points is reached, half of the trace points will be erased to allow the tracing to continue. Tracing will stop when the final stage of the tightening has finished.

TAG Check

TAG check feature enables TAG checking on the tool. When the TAG check is enabled both on the Power Focus XC and the STwrench, the tool locks if the TAG supplied with the program is not equal to the one inserted into the STwrench smartHEAD.

The TAG number is specified differently, depending on the work task.

In case of Generic Tightening Strategies, the TAG number is specified in the Tightening Program.

In case of Multistep Tightening Strategy, the TAG number depends on what has been selected in Sources/Batch Sequence menu.

If running Source Tightening (Sources > Tightening > Source Tightening > Selector mode - Confirm), the TAG number is specified in the Socket box.
If running Batch Sequence (Batch sequence > Sequence library > Sequence > Batch configuration - Edit), the TAG number is the Identifier Number.
If running Source Batch (Sources > Batch sequence > Source Batch), the TAG number is specified in the Batch Sequence as per above section.

In case of Batch Sequence and Source Batch, set Free order - in the Batch Sequence - to No.

TAG check is available only for STwrench.

TAG check options	Description
Off	The tool does not lock, regardless of the inserted TAG.
On	The tool is locked as long as the TAG number is not equal to the TAG number specified in the tightening strategy configuration.

TAG Selection

TAG selection feature is used for selecting a Tightening Program/Batch or Batch Sequence that has a TAG number configured that corresponds to the TAG number of the TAG inserted into the STwrench smartHEAD.

TAG selection is available only for STwrench.

TAG selection options	Description
Off	The STwrench does not signal the controller to select Tightening Program/Batch or Batch Sequence.
On	Select the Tightening Program/Batch or Batch Sequence according to the TAG number configured in the Batch Sequence/Source Tightening/Source Batch.

Configuration of the Start Condition

The start conditions for a tool, such as start request and start source, are configured here. The functions are described in the corresponding sections.

In this Section

Start Request

Start request enables the requirement of having a persistent connection between the tool and controller for an STB tool. This to make sure that the tool is always up to date with tightening program or batch settings, and with other settings on the controller, when performing tightening.

When Start request is set to On the tool gets locked if the tool loose connection with the controller. This means that if the tool loses connection in the middle of a tightening or a batch sequence, the tool will finish the ongoing tightening and then stop. The tool will be locked until it has reestablished the connection.

Parameters available for the start request
Parameter	Description	Default value
Start request	Lock the tool when the tool loose connection with the controller. On: The tool is locked from performing tightening if it loose connection with the controller.. Off: The tool can continue to perform tightening although it has lost connection with the controller.	On

Start Source

Use the tool start source to set how to start the tool. The default value is Trigger only.

Start Source is available only for certain tool types.

Options for start source
Start source	Description
Trigger only	Press the tool trigger to start the tightening.
Trigger OR Push	Press the tool trigger or push the tool against the joint to start the tightening.
Trigger AND Push	Press the tool trigger and push the tool against the joint to start the tightening.
Push only	Push the tool against the joint to start the tightening.
Safety trigger	Two triggers (as with trigger and push) activated within 500 ms from each other to start the tightening.

Configuration of the Accessory Bus

Tool accessories are connected to the tool through the accessory bus. The tool accessories are configured separately for each tool configuration on the controller.

Accessory bus configurations
Type	Description
ST selector	A small display and buttons used to select tasks or programs according to the configuration.
TLS tag	Tool Location System tag used to provide output signaling to the operator.
EHMI	A small display and buttons used to select tasks or programs according to the configuration.
Scanner	A device to read a barcode string or a QR code containing information.

In this Section

ST Selector

The ST selector is a tool accessory. It is installed on the tool and connected to the tool accessory bus. It has a small display, two input buttons and output LEDs.

Display

The display shows one information at a time and has four different pages that can be configured to display different preset items on every page.

Parameter	Description
Page 1	Select the message to be displayed from the list: Batch count Current running batch Final angle Final torque Generic IO 1 Generic IO 2 Generic IO 3 Generic IO 4 Generic IO 5 Generic IO 6 Generic IO 7 Generic IO 8 Generic IO 9 Generic IO 10 Remaining batch Selected sequence id Selected tightening program Size of sequence Target/Final torque Target torque Total remaining sequence counter Total sequence counter Total sequence size
Page 2
Page 3
page 4

Switch time

Parameter	Description
Switch time	Select the time to display one message before the next message is displayed.

Buttons

The two buttons can be configured to act upon the displayed information and used to step through listed items.

Parameter	Description
Left button	Select one action from the shortcut menu.
Right button	Select one action from the shortcut menu.

Status LEDs

The status LEDs can be activated or deactivated.

Parameter	Description
Show result LED	Select the desired On or Off radio button.
Show extra LED	Select the desired On or Off radio button.

The result LED are red, green and yellow, and show the same information as the main tool LED.

The two extra LED can show Batch OK and Batch sequence OK. Both these LED are turned off at the next tightening.

TLS Tag

The Tool Location System (TLS) tag, is a tool accessory. The TLS tag is installed on the tool and connected to the tool accessory bus. The TLS tag is part of the Ubisense positioning system and is handled independently from the controller. In addition to the positioning, the TLS tag can be used to provide information to the operator. Selected output signals can generate different LED light combinations.

Up to 10 different output signals can be mapped to a light priority.

TLS tag configuration parameters
Parameter	Description
Signal	Select a signal to trigger the LED light from a shortcut menu. For a signal of the type Event, select the duration of the signal.
Color	Select a color for the LED.
Priority	10 priority levels are available for the sounds where one (1) is the highest priority level. Default priority level is five (5).

For two simultaneous signals, the signal with the highest priority wins. When two signals with the same priority triggers the LED, the first arriving signal wins.

An output signal can be of type Event or of type State.

A state signal is active as long as the state is active.

An event signal is active during a configurable time.

EHMI

The EHMI is a tool accessory. It is installed on the tool and connected to the tool accessory bus. It has a graphical display, three function buttons, and optionally a scanner. The display is a subset of the controller GUI with the possibility to select tightening programs, batch sequences, and to view results from tightenings. The interaction with the controller is through function buttons.

In the EHMI configuration it is possible to decide if the function buttons are On or Off.

EHMI buttons
Parameter	Description
Enable function buttons	On = The buttons have full functionality to configure settings within the visible menus. Off = The function buttons can only be used to acknowledge a necessary dialog on the EHMI.

Scanner

The Scanner is a tool accessory. It is installed on the tool and connected to the tool accessory bus.
A scanner is used to read a barcode string or a QR code containing information to choose the appropriate batch sequence.

Parameter

Description

Default Value

Pass through mode

On: Enables pass through.

Off: Disables pass through.

Off

Configuration of the Open End

Before using an open end tool, make sure that the tool head and tool body have been assembled and configured correctly. If not, the tool can run in the wrong direction and the mechanical stop in the open-end head may be damaged.

After performing a tightening with an open end tool, it is possible to let the open end tool getting to the opening position again through the open end configuration.

Configure the open end strategies and settings through the HMI (Human Machine Interface).

The open end configuration is applicable only to cable tools, IXB tools, and STB tools.
The open end configuration is not applicable to Flex and to synchronized tightening.

Open End Configuration

Open End Settings
Settings	Description
Automatic Positioning	After performing a tightening with an open end tool, it is possible to let the open end tool getting to the opening position again automatically. A toggle key turns the Automatic Positioning On or Off: On: if enabled, after the tightening, when the open end tool is lifted up, the open end tool gets to the opening position again automatically. The operator must hold down the tool trigger during the full process (tightening + Automatic Positioning). If the operator releases the tool trigger before that the Automatic Positioning is completed, the open end tool will get back to the opening position through the selected Positioning Strategy. Off: default value. If disabled, after the tightening, when the open end tool is lifted up, the open end tool does not get to the opening position again automatically. When the open end tool is lifted up, the operator must release the tool trigger. To let the open end tool getting to the opening position again, the operator must hold down the tool trigger again during the full Automatic Positioning. Automatic Positioning is applicable only to Multistep tightening programs. Automatic Positioning is applicable only to cable tools and IXB tools.
Positioning Strategy	Select the Positioning Strategy to let the open end tool getting back to the opening position after the tightening. Forward: default value. The open end tool turns forward - in the same direction of the tightening direction - to the opening position. Reverse: the open end tool turns reverse - in the opposite direction of the tightening direction - to the opening position. Reverse Torque Based: the open end tool gets to the opening position through a slow reverse rotation that is done by reversing slowly and monitoring the torque. Forward Fast Start: the open end tool gets to the opening position as quick as possible. We recommend to use Reverse Torque Based and Forward Fast Start strategies for open end tools with swiveling front part. Reverse Torque Based and Forward Fast Start strategies are applicable only to cable tools and IXB tools. If the Positioning Strategy of the STB tools is Reverse Torque Based or Forward Fast Start, the default Positioning Strategy would run automatically. For Reverse Torque Based, the default Positioning Strategy is Reverse. For Forward Fast Start, the default Positioning Strategy is Forward.
Positioning Speed	Positioning Speed defines how quickly the tool should get to the opening position. Positioning Speed is expressed as the percentage (%) of the open end tool maximum speed. The operator can enter a Positioning Speed value which ranges from 5% through 100%. By default, the Positioning Speed is set to 38%.

Digital Signals

Input Signals

Input signals are system commands that are carried out by using for example buttons or switches on an accessory, either a tool accessory or a QIF accessory, or by connecting the signal to an I/O input plug.

The input signal Lock tool must not be configured for more than one accessory for each virtual station.

Output Signals

Output signals are states or events of the system. They can be linked to either a tool accessory or a QIF accessory.

Selector Configuration

Socket Selector Configuration

Socket selector is a socket tray with LEDs that can be used to guide the user through, for example, a Batch sequence. When using more than one tightening program, it is convenient to use a selector. When a socket is lifted, the corresponding tightening program is selected. Several socket selectors can be connected to each virtual station.

Information about the connected socket selectors can be found by tapping Tightening and then Socket selector on the Sources menu.

In this Section

Configuring a Socket Selector

On the home view, go to the Configurations tab and select Socket selector on the left pane. Select the plus icon in the upper-right corner of the screen to create a new configuration.
Give the configuration a name.
Select Edit.
Select Add or Remove for the correct number of socket slots, then select all the slots that need to be active (indicated in blue).
Set Control to External if the socket selection is to be controlled by an external system.

Connecting a Socket Selector to a Virtual Station

On the Virtual station menu, go to the virtual station to use and then go to Accessories and tap Choose accessories.
Under Accessories, click Choose accessories, then navigate to the Socket selector tab.
In the Configuration column (left), select a configuration you want to use with the socket selector (see Configuring the socket selector)
In the Connected accessories column (right), select the socket selector you want to use.

Setting up a Selector 6 via Ethernet Cable/Wireless

Selector 6 main overview

Selector 6 connection overview

Selector 6 service port overview

General set-up

On the controller, go to Settings > Network and under Factory Ethernet port, check the IP address (only required when setting up via wireless connection).
Open the service port cover on the selector. The cover is secured by a 2 mm allen screw.
Connect an ethernet cable between a PC and the RJ-45 connector in the service interface.
Make sure the selector powered, either by PoE, by external power supply or by battery.
Open a web browser window in the PC.
Type the web address 169.251.1.1 and press the Enter key. The web server in the selector will respond and show the selector web interface.
Select Settings in the left navigation (this is selected by default). The Settings workspace shows the configuration menus and is divided into five different settings: Basic settings, Service port, Ethernet in, WLAN, and the Power Focus XC.
In the Ethernet in section, select External mode On or Off for the desired LED control source.
The next steps in the set-up depend on how the socket selector will be connected to the controller (Ethernet cable directly to the controller (default), Ethernet cable to factory network, or wireless to factory network). See the instructions below for your set-up.

Setting up socket selector - Ethernet wired to controller (default)

Ethernet ports (RJ45) for connecting devices and daisy-chaining controllers are only available in newer Power Focus XC models. In order to connect Selector 6 via Ethernet cable to older controller models, an adapter cable should be used to connect the Ethernet cable to the controllers COM PORT.
In the Ethernet In section, select Power Focus XC (default) in the Connected to drop-down.
Click the Save button in top right of the workspace.
Remove the ethernet cable from the service port.
Close the service port with the lid and secure it with the allen screw.
The socket selector shows up in the Connected accessories list (Virtual station > Accessories > Choose accessories > Socket selector)

Setting up Selector - wired to factory network

In the Ethernet In section, select Factory net from the Connected to drop-down
Select DHCP On or Off for dynamic or static IP address configuration. If a static IP address is required, in the IP address field, enter the IP address for the socket selector.
In the Power Focus XC section, enter the controller IP address (see above) for the controller the selector will be connected to.
Click the Save button in top right of the workspace.
Remove the ethernet cable from the service port.
Close the service port with the lid and secure it with the allen screw.
The socket selector shows up in the Connected accessories list (Virtual station > Accessories > Choose accessories > Socket selector)

Setting up socket selector - wireless to factory network

In the Ethernet In section, select Factory net from the Connected to drop-down
In the WLAN section, fill out the following parameters:
- Enable: set radio button to YES
- SSID: fill out the SSID name for the socket selector
- Password: fill out the password for the wireless network to be connected to
- Encryption type: choose the correct encryption type for the wireless network (WPA-PSK, or WPA2-PSK, EAP-TLS)
In the Power Focus XC section, enter the controller IP address (see above) for the controller the selector will be connected to.
Click the Save button in top right of the workspace.
Remove the ethernet cable from the service port.
Close the service port with the lid and secure it with the allen screw.
The socket selector shows up in the Connected accessories list (Virtual station > Accessories > Choose accessories > Socket selector)

General Virtual Station

In General Virtual Station, different specific result reporting and tightening settings can be saved. Different filters can be created, filtering out specific results. In the tightening settings, characteristics like the tool unlocking behavior can be set. These configurations can then be assigned to virtual stations.

Adding and editing a configuration

In the Configurations menu, select the General Virtual Station tab, and then select the plus icon in the top right corner.
Give the new configuration a name and select Edit.
In the Result filter for reporting window, set the switch to On for those parameters you want to include in the results. By default, all parameters are set to On.

Turning on a result filter prevents the respective result from being sent, but the result is still shown on the controller.
The following parameters can be set in the Result filter for reporting section:
- Loosening
- Batch increment
- Batch decrement
- Reset batch
- Bypass Tightening Program
- Abort sequence
- Abort not started sequence
- Reset batch sequence
In the Tightening Settings window, set a value for any of the parameters listed. By default, all parameters are set to Off.
The following parameters can be set in the Tightening Settings section:
- Unlock tool on loosening - makes sure that the tool is locked after a NOK tightening.
- Disable loosening - makes sure that an operator is not loosening a bolt that their processes do not allow to be loosened.
- Disable tightening - makes sure that an operator is not tightening a bolt that their processes do not allow to be tightened.

Unlock tool on loosening options
Setting	Description
Off	A disabled tool will remain disabled regardless of the loosening status.
On OK	A disabled tool will be unlocked after an OK loosening has been performed.
Always	A disabled tool will be unlocked as soon as a loosening has been performed, regardless of the loosening status.

Disable loosening settings

To ensure that a bolt cannot be loosened by mistake, use the disable loosening function. There are four disable loosening settings:

Setting	Description
Off	Loosening is always enabled. It is always possible to loosen a bolt.
On OK tightening	Loosening is disabled after an OK tightening. It is not possible to loosen a correct tightened bolt.
On NOK tightening	Loosening is disabled after an NOK tightening. It is not possible to loosen a not correct tightened bolt.
Always	Loosening is always disabled. It is not possible to loosen a bolt.

These settings are valid during the execution of a task. Loosening enables and disables depending on the setting and the status of the last tightening. For a new task the start state for disable loosening is set as follows:

Setting	Description
Off	Loosening enabled. It is possible to loosen a bolt.
On OK tightening	Loosening disabled. It is not possible to loosen a bolt.
On NOK tightening	Loosening disabled. It is not possible to loosen a bolt.
After every tightening	Loosening disabled. It is not possible to loosen a bolt.

The start state applies whenever a new task is assigned to a Virtual station or when a task starts again. The start state can differ depending on the type of task, described as follows.

Setting	Start state for new task
Off	Loosening enabled. It is possible to loosen a bolt.
On OK Tightening	Loosening disabled. It is not possible to loosen a bolt.
On NOK Tightening	Loosening disabled. It is not possible to loosen a bolt.
Always	Loosening disabled. It is not possible to loosen a bolt.

The start state applies whenever a new task is assigned to a Virtual station or when a task starts again. The start state can differ depending on the type of task, described as follows.

Tightening program and Sync mode

Enable and disable of loosening follows the disable loosening setting and is set to the status of the last tightening.

Batch Sequence

During a batch sequence the enable or disable of loosening follows the disable loosening setting and is set to the status of the last tightening. This also applies when a batch goes to the next one within a batch sequence. If a batch sequence starts again, the loosening is enabled or disabled according to the start state for a new task.

Source Batch

Enable and disable of loosening follow the same procedure as described in Batch sequence. If an ongoing source batch starts again or if a new one is selected, the loosening is enabled or disabled according to the start state for new task.

Source Tightening (No batch control)

During a batch, enable and disable is set according to the status of the last tightening. If another program is selected, enable and disable is set according to the start state for new task. If any change of program, tool or socket is done, enable and disable is set according to the start state for new task.

Multispindle tightening

Enable and disable of loosening always follows the status of the last tightening. This is also applicable for a new sync mode.

Disable tightening settings

To make sure that an operator does not tighten a bolt by mistake there is a function called disable tightening. There are four disable tightening settings:

Setting	Description
Off	Tightening is always enabled. It is always possible to tighten a bolt.
On OK tightening	Tightening is disabled after an OK tightening. It is not possible to tighten a correct tightened bolt.
On NOK tightening	Tightening is disabled after an NOK tightening. It is not possible to tighten a not correct tightened bolt.
Always	Tightening is always disabled. It is not possible to tighten a bolt.

These settings are valid during the execution of a task. Tightening enables and disables depending on the setting and the status of the last tightening. For a new task the start state for disable tightening is set as follows:

Setting	Start state for new task
Off	Tightening enabled
On OK Tightening	Tightening enabled
On NOK Tightening	Tightening enabled
Always	Tightening disabled

The start state applies whenever a new task is assigned to a Virtual station or when the task starts again. The start state can differ depending on the type of task, as described in the Disable Loosening settings section.

Allowing a disabled tool to unlock after loosening

In the general virtual station configuration assigned to the virtual station to which the tool is connected, set the Unlock tool on loosening to On OK or Always.

To enable the setting above, the following conditions need to be met:

The Disable loosening parameter cannot be set to Off or Always.
The Disable loosening parameter cannot be set to the same value as Disable tightening.
The tightening program used must have loosening enabled.

When the tool is locked for either tightening or loosening due to a disable state, it can be unlocked by any of the following input signals:

It is not possible to unlock a disabled tool with the input signals ifLock tool on loosening is set to Always.

Assigning a configuration to a virtual station

Each virtual station can have its own configuration and multiple virtual stations can share the same configuration. A configuration must be assigned to a virtual station to become active.

Go to the Virtual Station menu and select the Virtual Station to which you want to assign the configuration.
Under General, the first configuration is selected by default. Select the configuration name.
In the pop-up window, select a configuration from the list. The pop-up window closes upon selection.

In this Section

Configuring Live Result Presentation Settings

The Live Result Presentation Settings window allows a user to show the final torque without the PrT compensation value included, and PrT compensation value on the Live results.

Configure the Live Result Presentation Settings Window

On the home view, go to the Configurations tab and select General Virtual Station on the left pane.
On the Configuration window you want to work with, select Edit.
The Edit Configuration screen appears.
On the Live Result Presentation Settings window, set the relevant switches to ON or OFF depending on the wanted results.

If the Show PrT Compensation Value switch is set to ON, the Live Results window displays the PrT compensation value.

If the Show Final Torque with PrT Compensation switch is set to ON, the Live Results window displays the final torque with the PrT compensation included.
Setting the switches in the Live Results Presentations Settings window to either ON or OFF has no impact unless the multistep program has a tightening step including a Prevailing Torque step monitor with the Compensation switch set to ON.

Live Result Presentation Settings

Here are the different configuration options in the Live Results Presentations Settings window.

Show PrT Compensation Value: ON

Show Final Torque with PrT Compensation: ON

Show PrT Compensation Value: ON

Show Final Torque with PrT Compensation: OFF

Show PrT Compensation Value: OFF

Show Final Torque with PrT Compensation: ON

Show PrT Compensation Value: OFF

Show Final Torque with PrT Compensation: OFF

Point and click on image to see more information:

In this Section

Show Final Torque with PrT Compensation: ON / Show PrT Compensation Value: ON

Show Final Torque with PrT Compensation: ON

The Live Result window shows the Final Torque with the PrT compensation value included.

If the EHMI and ST Selector are on and configured, they show the Final Torque with the PrT compensation value included.

Show PrT Compensation Value on Live Result: ON

The Live Result window shows the PrT compensation value with the related compensation icon ().

If there are several compensation values, the compensation value applied to the latest available step appears.

Configuring the Show Final Torque with PrT Compensation and Show PrT Compensation Value switches does not impact:

The final torque values sent to ToolsNet and ToolsTalk: the final torque values with PrT compensation are always sent to ToolsNet and ToolsTalk.
The final torque value displayed with the historical results.
The traces based on live and historical results.
The values in Open Protocol messages.
The signals.
The protocol adapters.

Show Final Torque with PrT Compensation: OFF / Show PrT Compensation Value: ON

Show Final Torque with PrT Compensation: OFF

The Live Result window shows the Final Torque without the PrT compensation value included. Since the Final Torque does not include the PrT compensation value, it shows in italic.

Show PrT Compensation Value: ON

The Live Result window shows the PrT compensation value with the related compensation icon ().

If there are several compensation values, the compensation value applied to the latest available step appears.

Configuring the Show Final Torque with PrT Compensation and Show PrT Compensation Value switches does not impact:

The final torque values sent to ToolsNet and ToolsTalk: the final torque values with PrT compensation are always sent to ToolsNet and ToolsTalk.
The final torque value displayed with the historical results.
The traces based on live and historical results.
The values in Open Protocol messages.
The signals.
The protocol adapters.

Show Final Torque with PrT Compensation: OFF / Show PrT Compensation Value: OFF

Show Final Torque with PrT Compensation: OFF

The Live Result window shows the Final Torque without the PrT compensation value included. Since the Final Torque does not include the PrT compensation value, it shows in italic.

Show PrT Compensation Value: OFF

The Live Result window does not display the PrT compensation value and the related compensation icon ().

Configuring the Show Final Torque with PrT Compensation and Show PrT Compensation Value switches does not impact:

The final torque values sent to ToolsNet and ToolsTalk: the final torque values with PrT compensation are always sent to ToolsNet and ToolsTalk.
The final torque value displayed with the historical results.
The traces based on live and historical results.
The values in Open Protocol messages.
The signals.
The protocol adapters.

Show Final Torque with PrT Compensation: ON / Show PrT Compensation Value: OFF

Show Final Torque with PrT Compensation: ON

The Live Result window shows the Final Torque with the PrT compensation value included.

If the EHMI and ST Selector are on and configured, they show the Final Torque with the PrT compensation value included.

Show PrT Compensation Value: OFF

The Live Result window does not display the PrT compensation value and the related compensation icon ().

Configuring the Show Final Torque with PrT Compensation and Show PrT Compensation Value switches does not impact:

The final torque values sent to ToolsNet and ToolsTalk: the final torque values with PrT compensation are always sent to ToolsNet and ToolsTalk.
The final torque value displayed with the historical results.
The traces based on live and historical results.
The values in Open Protocol messages.
The signals.
The protocol adapters.

Configuring the storage of Final Torque and Trace

The switch Store with PrT compensation is by default set to ON which means that the final torque and trace are stored with the PrT compensation value.
Show Final Torque with PrT compensation in the Live Result Presentation Settings determines what is shown in Live result.

Changing the Store with PrT compensation setting

On the home view, select Configurations.
Scroll down and select General Virtual Station on the left pane.
In the Configuration window, select a Configuration and then Edit. The Edit configuration window appears.
Scroll down to Storage of Final torque and Trace, set the switch Store with PrT compensation into the wanted position.

Configuration of the Scanner

In this menu, scanner configurations can be added. Scanners can be configured to either have scanned strings handled by the controller, or passed through to a an external system. When the scanned string is passed through, the controller does not select a task based on the string, but instead passes the string to an external device via an output signal.

Adding a scanner and enabling pass through

Go to Configurations > Scanner, and select the Plus sign at the top right.
Give the scanner configuration a name.
To enable pass through, select Edit, and set Pass Through Mode to On.

In this Section

Scanner Configuration

Scanner Configuration

A scanner is used to read a barcode string or a QR code containing information to choose the appropriate batch sequence.

The scanner is configured in the Sources tab.

The scanner reads the characters you specify and puts them together to form a string of text. This text string is matched to the pre-defined strings you have specified in the controller, and if they match, the batch sequence linked to your pre-defined string is selected.

Barcode strings of a length of up to 1024 characters can be read and they can contain characters in the positions 32-126 in the ASCII table. If the barcode contains a string longer than 1024 characters, the remaining part of the string, from position 1025 and forward, is discarded.

In this Section

Configuring the Scanner

The scanner itself must be set up using a US keyboard, and the scanner will emit a carriage return character to terminate the barcode string.

Valid Scanners

For a list of scanners verified for use with the Power Focus XC controller, contact your local Atlas Copco sales representative.

Working with the Controller Tab

The system administration tasks for the Power Focus XC controller are handled in the Controller menu. The menu is accessed through the controller GUI, the web GUI, or the Tools Talk 2 GUI.

In this Section

Intelligent Application Module

The Intelligent Application module (IAM) is a non volatile storage that is located in the controller. The storage module contains all the controller programs, configurations and results. Certain modules may also include additional loaded feature items.

For a complete list of available IAMs and their capabilities, please consult an Atlas Copco sales representative.

Software

The version number of two versions of software available in the Power Focus XC controller are under the Software tab.

Installing a second version of the controller software is useful when performing upgrades on multiple controllers. When production is ready for switching to the upgraded software, activation of the new software version is done locally on the controller GUI, from a remote computer with the web GUI, or with Tools Talk.

A new software distribution can be installed either by connecting a USB flash drive containing the software to the controller’s USB port, or by using the web GUI.

The software update option is visible only when accessing the controller GUI from a PC. When a mass storage device with a valid software version is inserted in the USB port a prompt to update the software will appear.

The software update file must not be unzipped and must be stored in a folder named PFImages in the root directory on the USB flash drive.

An unexpected failure during software upgrade might lead to loss of data.
Before upgrading software versions, it is recommended to take a backup of the controller configuration by exporting “All controller information”.

In this Section

Updating Controller Software through USB

Connect the USB flash drive to the controller: the installation wizard starts automatically.
If several software versions are available on the USB flash drive, a list with the different software upgrade files is displayed.
Select the software upgrade file to install and follow the instructions to finish the installation.
The USB flash drive needs to have a partition available and be formatted to work for Linux. Possible formats are for example FAT or NTFS.
Do not remove the USB device or disconnect the IAM until the upgrade is completed.

Updating Controller Software through Web GUI

On the Controller tab, go to Software, and select Software update. Then, click Browse.
Browse and choose the .zip file with the software and follow the instructions to complete the installation.

Hardware

The Hardware tab contains Controller information, such as model designation and serial number, Health, Touch screen calibration, and information about the various electronics boards in the controller.

In this Section

Health

Health

The Health view contains information about battery status and controller temperature.

Battery status

Controller > Hardware > Health

The Power Focus XC battery serves as backup power for some system elements, such as the internal clock. The status of the battery is updated once a day, as well as at controller restart. When the battery is close to being completely depleted, a warning (3011) will be displayed. The battery shall be replaced as soon as possible when the warning pops up.

Controller temperature

Controller > Hardware > Health

Controller temperature is monitored continuously by the Power Focus XC. Supported temperature units are degrees Celsius (°C) and degrees Fahrenheit (°F), with Celsius being the default unit. It is possible to switch between the two units without requiring a restart of the controller. When the controller temperature exceeds max temperature, the drive stage is disabled and an alert (3010) is shown. The drive stage is once again enabled when the controller temperature drops below the temperature limit.

From the display or through the web GUI, users can access the latest controller temperature measured together with the timestamp when the measurement was taken.

Export/Import

The Export/Import Tab supports the user to make one of the following operations: Export, Import, and Automated backup.

The Export window supports the user to export controller configurations, settings, results, and events. In addition, it is possible to export tool logs, which can be shared with Atlas Copco Service personnel to troubleshoot problems with the tool(s).

The Import window supports the user to import controller configurations and settings.

It is only possible to have one active Export or Import at the time. Any attempt to start a new Export/Import while there is an ongoing Export/Import is rejected.

The Automated backup window supports the user to generate automatically a backup file.

It is possible to export data by using:

Web GUI
ToolsTalk 2
Mobile GUI (export to device)
USB flash drive, in Mobile GUI

The USB flash drive needs to be formatted and with a partition to work for Linux: possible formats are, for example, FAT or NTFS.

It is possible to import data by using:

Web GUI
ToolsTalk 2

During the Export/Import process a progress bar informs the user that an export/import is ongoing. The time to perform an export/import is depending on the numbers of results, events, and log files.

Export/Import Between Controllers

Controllers may have different IAM types that could have different capabilities.
A controller can export all the configurations that are applicable for the current type of IAM module.

A controller cannot import a file exported from a different type of IAM module. This is applicable also when using ToolsTalk 2.

In this Section

Exporting "All Controller Information"

It is possible to export controller configuration, settings, results, and events for further processing. Part of the export is done both from the cable tool, as well as connected wireless tools.

All data included in the export is stored in a file "PFExport_<IAM name>_<datetime (lowest value displayed for time is seconds)>.tar.gz", which includes the following files and directories:

"PFExport_<datetime>_Results.csv" – All available results

The results are exported in a CSV formatted text file. The latest performed result is the first in the CSV file.

It is possible to export the following result information for tightenings and loosenings:

Result Information	Power Focus XC - Tightening Programs	Power Focus XC - Multistep Programs
Identity number	-	-
Type of tightening	X	X
Virtual Station name	X	X
VIN (Identifier String)	X	X
Date and Time	X	X
Unique tool identifier	X	X
Batch Sequence Name	X	X
Batch Sequence Counter	X	X
Batch Count	X	X
Bolt name	-	-
Total status	-	-
Total status info	-	-
Status	X	X
Status info	X	X
Mode Name	-	-
Tightening program/Multistep Name	X	X
Stopping error	-	X
Errors	-	X
Failing Step	-	X
Channel	-	-
Target Torque (Nm)	X	X
Final Torque (Nm)	X	X
Target Angle (deg)	X	X
Start Final Angle (Nm)	X	X
Final Angle (deg)	X	X
Rundown Angle (deg)	X	-
Residual torque correlation factor	X	X
Elapsed time (s)	-	X
Angle low limit (deg)	X	X
Angle high limit (deg)	X	X
Torque low limit (Nm)	X	X
Torque high limit (Nm)	X	X
Number of pulses	X	-
Current at shutoff (A)	X	X
TrueAngle compensation (deg)	X	X
Time to rundown complete (ms)	X	-
Time to final torque (ms)	X	-
Target Text	X	X
Step Data	-	X
Selftap Torque	X	X
Prevailing Torque	X	X
Rundown Angle Trigger	X	X

The field delimiter and number format depends on the language settings:

Language	Date/time	Field delimiter	Number format
English (en_US)	MM/dd/yyyy hh:mm:ss	,	123.456
Czech (cs)	dd.MM.yyyy hh:mm:ss	;	123,456
German (de_DE)	dd.MM.yyyy hh:mm:ss	;	123,456
Spanish (es_ES)	dd/MM/yyyy hh:mm:ss	;	123,456
French (fr_FR)	dd/MM/yyyy hh:mm:ss	;	123,456
Korean (ko_KR)	yyyy-MM-dd hh:mm:ss	,	123.456
Italian (it_IT)	dd/MM/yyyy hh:mm:ss	;	123,456
Japanese (ja_JP)	yyyy/MM/dd hh:mm:ss	,	123.456
Portugese (pt_BR)	Dd/MM/yyyy hh:mm:ss	;	123,456
Russian (ru_RU)	dd.MM.yyyy hh:mm:ss	;	123,456
Swedish (sv_SE)	yyyy-MM-dd hh:mm:ss	;	123,456
Chinese (zh_CN)	yyyy/MM/dd hh:mm:ss	,	123.456

"PFExport_<datetime>_Events.csv" - All available events

The following event information are exported in a CSV formatted text file:
- Severity
- Date
- Time
- Code
- Description
- Virtual Station that triggered the event (only exported for PFXC-Handheld)
"/settings" - Settings and configurations (used by Import)

"jsonConfigurations.zip" - Multistep Tightening and Loosening programs are exported as .json files (to be used with MID2500)
"atlas_sys_d.zip" - Logfiles from Drive application
"atlas_sys_i.zip" - Logfiles from IT application
"atlas_protocol_log.zip" – Logfiles from external protocol adapters
“ExportInfo.txt” - Text document containing information about the IAM and Controller
"atlas_plc.zip" - PLC configuration
“licenseInformation.zip” – License Information and System Capabilities

How to Export "All Controller Information"

On the Home view, select the Controller Tab. Then, on the left side, select the Export/Import Tab .
In the Export window, open the drop-down menu and select All controller information.
In the Export window, select Export.
At the end of the exporting process, an exporting pop-up window confirms that the export is done.
A PF/IXBExport_<IAM name>_<datetime>.tar.gz file is automatically downloaded.

Exporting "Settings and Configurations"

It is possible to export only controller configurations and settings.

The exported data are stored in a compressed file identified with the IAM name and exported date and time.
The data in the file include all configurations and settings of the controller, so that the export file can be imported and setup another controller with the same or newer release version.
The exported data include information about the IAM and Controller, and also pre-formatted Multistep Tightening and Loosening programs to be used with the MID2500 solution.

How to Export "Settings and Configurations"

On the Home view, select the Controller Tab. Then, on the left side, select the Export/Import Tab .
In the Export window, open the drop-down menu and select Settings and configurations.
In the Export window, select Export.
At the end of the exporting process, an exporting pop-up window confirms that the export is done.
A PFExport_<IAM name>_<datetime>.tar.gz file is automatically downloaded.

Exporting "Logs from Connected Tools"

The export of tool logs enables a service technician to share the tool log data with Atlas Copco Service personnel to troubleshoot problems with the tool(s).

It is possible to export tool logs from the following tools: STB, SRB, TBP/TBP-S and QST-M.

To export the tool logs, the tool has to be connected to the controller. It is not necessary for the tool to be assigned to a Virtual Station.

All data included in the tool log export is stored in a file "PFExport_<IAM name>_<datetime>.tar.gz", which includes the following files and directories:

"atlas_tool_i.zip" – All available results

For each connected tool an individual files is created. The file format for tool log files is "tool-<tool type>-<tool serial number>.log"
"ExportInfo.txt" - Text document containing information about the IAM, Controller and connected tools

How to Export "Logs from Connected Tools"

On the Home view, select the Controller Tab. Then, on the left side, select the Export/Import Tab .
In the Export window, open the drop-down menu and select Logs from connected tools.
In the Export window, select Export.
At the end of the exporting process, an exporting pop-up window confirms that the export is done.
A PFExport_<IAM name>_<datetime>.tar.gz file is automatically downloaded.

Exporting "Results"

It is possible to export only tightening results from the controller.

How to Export "Results"

On the Home view, select the Controller Tab. Then, on the left side, select the Export/Import Tab .
In the Export window, open the drop-down menu and select Results.
In the Export window, select Export.
At the end of the exporting process, an exporting pop-up window confirms that the export is done.
In case of a multi-spindle systems (fixtured), the exported file automatically downloaded is in a .zip format, otherwise it is in a .csv format.

Exporting "System Logs and Information"

The export of system logs and information enables a service technician to share the logs of the system and its information with Atlas Copco Service technician.
Troubleshooting problems with the system - such as controllers - is easier through the export of system logs and information.

The export of system logs and information does not include logs from the connected tool(s).
If you need the export logs from the connected tool(s), select the necessary export method.

All data included in the export of system logs and information are stored in a file PF/IXBExport_<IAM name>_<datetime>.tar.gz, which includes the following files and directories:

atlas_sys_d.zip - Log files from Drive application
atlas_sys_i.zip - Log files from IT application
atlas_protocol_log.zip – Log files from external protocol adapters
ExportInfo.txt - Text document containing information about the IAM and controller
licenseInformation.zip – License information and system capabilities
atlas_systeminformation.zip – Information to Atlas Copco R&D for current system health and setup
atlas_workflow_log.zip – Log files for the workflow from external protocol adapters

How to Export "System Logs and Information"

On the Home view, select the Controller Tab. Then, on the left side, select the Export/Import Tab.
In the Export window, open the drop-down menu and select System logs and information.
In the Export window, select Export.
At the end of the exporting process, an exporting pop-up window confirms that the export is done.
A PF/IXBExport_<IAM name>_<datetime>.tar.gz file is automatically downloaded.

Relevant Information

Configuration of the Extended Logging

Importing Controller Configurations and Settings

When users import controller configuration and settings, existing configurations and settings are replaced by the imported controller configuration and settings.

The following configurations are not imported or deselected:

Controller Network settings are not imported
Results and Events are not imported
License Assignment is not imported
Assigned task in Virtual Station/s is deselected
"jsonConfigurations.zip" (Multistep Tightening and Loosening programs) is not imported
"licenseInformation.zip" (License Information and System Capabilities) is not imported

How to Import Controller Configurations and Settings

On the Home view, select the Controller Tab. Then, on the left side, select the Export/Import Tab .
In the Import window, select Import.

An Information pop-up window confirms that all setting for tightening program, batch, accessories, and controller will be replaced with the settings of the imported file.
However, settings for network, results, and events will not be imported.

Select Continue.
In the Import pop-up window, select Choose File. Then, select the file to be imported on the controller.

At the end of the importing process, the controller will restart automatically.
If the importing process is interrupted before it has started, or the file disappears, the user is informed and the controller has to be restarted (to assure it is in a valid state).
If the importing process is interrupted, but the file is not corrupt and exist, the import can be completed.

Working with the Settings Tab

Configuration of the Network

The Power Focus XC can be set up for access from the Atlas Copco software ToolsTalk or from a web browser on a Local Area Network (LAN). It can also be accessed directly from a connected PC. It uses the IPv4 protocol.

To access and alter the Ethernet settings, select Edit.

Only the Factory Ethernet port can be configured. The Service Ethernet port has a designated IP address, 169.254.1.1, that must not be connected to the local network.

In this Section

Accessing the Controller On Lan

Select the Network menu and on the Factory Ethernet Port window, click Edit. Then, set Enabled to On to alter the Ethernet settings.

Connect the network cable to the Factory Ethernet port and then either manually specify the required information or, if available, use the information provided by the DHCP server. Required information is:

IP address
Subnet mask
Gateway

This information is provided by the local system administrator.

When using the manual option there are optional settings available for the use of DNS servers.

Accessing the Controller Through a Web GUI

Connect one end of a straight-through unshielded Ethernet cable (RJ45) to a computer and the other end to the Ethernet cable connector (service port) on the controller.
Open a web browser on the computer and enter the web address shown under the Ethernet cable connector (service port).

Accessing the Controller Through a Mobile GUI

On the front part of the controller, scan the QR code on the left with the camera of a mobile device.
Scan the QR code on the right with the camera of a mobile device.

It is possible to edit the SSID configuration through the Web GUI. The SSID will always be set to the default value when the controller is rebooted.

Configuration of the Protocol

The Power Focus XC can be set up for communication with servers running an Atlas Copco license manager as well as the two Atlas Copco software products ToolsTalk and ToolsNet. ToolsTalk is used to configure one or more controllers. ToolsNet is used to handle result reporting.

In this Section

Configuring the ToolsTalk Connection

To connect a controller to ToolsTalk, configure and activate the ToolsTalk protocol settings on the controller.

On the home view, go to the Settings tab and select Server Connections on the left pane.
On the ToolsTalk window, set the following parameters:

Field
Description
On/Off
Enables/Disables communication with the ToolsTalk server
Server port
ToolsTalk server port
Server host
ToolsTalk server IP address
Select Apply.

To view the ToolsTalk connection status, select the Go Result button and go to the Live Results view. Then, select the Protocol Connection button . In the appearing dialog box, select the Server connections tab.

For information on how to configure ToolsTalk, refer to the ToolsTalk 2 User Guide.

Configuring the ToolsNet Connection

To connect a controller to ToolsNet and collect tightening results, configure and activate the ToolsNet protocol settings on the controller.

On the home view, go to the Settings tab and select Server Connections on the left pane.
On the ToolsNet window, set the following parameters:

Field
Description
On/Off
Enables/Disables communication with the ToolsNet server
Server port
ToolsNet server port
Server host
ToolsNet server IP address
Select Apply.

To view the ToolsNet connection status, select the Go Result button and go to the Live Results view. Then, select the button. In the appearing dialog box, select the Server connections tab.

For information on how to configure ToolsNet, refer to the ToolsNet 8 User Guide.

Configuring a License Manager

The Atlas Copco license manager is connected to a controller and the protocol settings are activated on the controller from the Server connections tab in the Settings menu.

Field	Description
On/Off	Enables/Disables communication with the Atlas Copco license manager.
Server host	Atlas Copco license manager server IP address
Server port	Atlas Copco license manager server port

Configuring the Remote Logging Connection

To connect a controller to a remote logging server, configure and activate the remote logging settings on the controller.

On the home view, go to the Settings tab and select Server connections on the left pane.
On the Remote Logging window, configure the following parameters:

Field	Description
On/Off	Enables/Disables communication with the remote logging server
TCP/UDP	Selects TCP or UDP protocol
Server host	Remote logging server IP address
Server port	Remote logging server port

Configure Log Levels

To configure the logs that are stored on the remote logging server:

On the home view, go to the Settings tab and select Server connections on the left pane.
On the Remote Logging window, select Configure.
On the Configure Facilities window, select the applicable checkboxes.

Category
SysLog classification
Error
Alert, Critical, Emergency, Error
Warning
Warning
Info
Informational, Notice

To restore the selection to the previous configuration, select UNDO.
Select Apply.

Configuration of the Preferences

Preferences contains general settings such as date and time, language, torque unit, and startup screen.

In this Section

Configuring the Date and Time

Date and time must be set in order for events and results to get the correct time stamp for when they occurred.

The time is retrieved from one of three available sources:

Manual
NTP
ToolsNet

When the source is set to Manual, the date, time, and time zone are set manually.

When the source is set to NTP, the date and time are retrieved from the NTP server defined in the GUI.

When the source is set to ToolsNet, the date and time are retrieved from the ToolsNet server.

Parameters for setting date and time
Field	Description
Source	Source to retrieve the date and time from.
Date (YYYYMMDD)	Date entered manually if the source is set to manual.
Time (hhmmss)	Time entered manually if the source is set to manual.
Time zone	The time zone; either the location or a standard time zone such as Etc/UTC (coordinated universal time).
NTP Server	IP address of the NTP server providing the date and time for the controller.

Configuring the Displayed Controller Language

The controller GUI is translated into twelve languages. To change the language of the GUI:

Tap or click on the arrow beside the name of the language currently in use.
Choose a language from the list.

The language change will take effect immediately.

Available GUI languages
Language	As displayed in controller
English	English
Czech	Čeština
German	Deutsch
Spanish	Español
French	Français
Korean	한국어
Italian	Italiano
Japanese	日本語
Portuguese	Português
Russian	Русский
Swedish	Svenska
Chinese	中文

Configuring the Displayed Torque Unit

Choose the unit to use for torque values and results. Torque results are displayed in the chosen unit both after a tightening is performed and when stored in the results list.

To change the torque unit used in the controller GUI:

Tap or click on the arrow beside the name of the unit currently in use.
Choose a unit from the list.

The torque unit change will take effect immediately.

Available torque units
Unit	Description
cNm	centinewton metre
dNm	decinewton metre
Nm	newton metre
kNm	kilonewton metre
in·lbf	inch-pound force
ft·lbf	foot-pound force
in·ozf	inch ounce-force
ft·ozf	foot ounce-force
gf·cm	gram-force centimetre
kgf·cm	kilogram-force centimetre
kgf·m	kilogram-force metre

Configuring the Displayed Temperature Unit

The temperatures in the controller can be shown in Celsius degrees or in Fahrenheit degrees.

To change the temperature unit used in the controller GUI:

On the home view, go to the Settings tab, select Preferences on the left pane and go to the Temperature Units window.
Select the ellipsis icon beside the name of the unit currently in use.
Choose a unit from the list.

The temperature unit change will take effect immediately.

Available temperature units
Unit
Description
°C
Celsius degrees
°F
Fahrenheit degrees

Configuring the Startup Screen

The default screen at startup of the controller is the Home screen. It is possible to change startup screen to the Result screen.

A change of startup screen in the settings requires a restart of the controller or a refresh of the web GUI.

Factory Port Accesibility

On the home view, go to the Settings tab, select Preferences on the left pane and go to the Accessibility window.
Slide the Access via factory port selector to Off to access the GUI through the factory port.

The Access via factory port selector is in On position by default.

When accessing the GUI through the factory port, no more changes can be done.

Configuration of the Tool Alarms

Alarms are set to control when to perform maintenance or calibration on the tools connected to the controller. The tool service interval and other relevant information about the connected tools can be found on the Tool tab.

To access to the tool alarms, go to he Settings tab on the home view and select Alarms on the left pane.

Different tool alarms
Window	Description
Service indicator alarm	Enables an alarm for when the service interval for the tool is reached.
Tool lock after alarm	Lock the tool when the service interval is reached.
Calibration alarm	Enables the tool calibration alarm for all tools connected to the controller.
Oil supervision alarm	Enables the oil supervision alarm for all tools connected to the controller. Slide the Tool lock after alarm option to On to lock the corresponding tool when this alarm goes off.

Configurations of the Events Settings

It is possible to configure the events available in the controller as either or several of:

Acknowledged
Logged
Displayed

Configuration of the Results

The Results menu allows the user to configure the label names for results displayed in the Results list.

Changing Result Status names

Go to Settings, then Results, and click on Customized detailed status.
Find the Status name you want to alter.
Write the new name in the corresponding field in the New status name on the right.

Configuration of the Extended Logging

The Power Focus XC automatically creates logs and stores them. These logs can be configured to include extended logging using log groups.

In this Section

Configuring the Log Groups

Configuring the Log Groups

The default setting for a log group is off. To change the setting of a log group to on:

On the home view, go to the Settings tab and select Extended Logging on the left pane.
On the Log Groups window, set the group to ON.

Reset Log Groups

It is possible to reset all log groups to their default settings.

On the home view, go to the Settings tab and select Extended Logging on the left pane.
On the Reset Log Groups window, select Reset.
A pop-up window appears asking if you want to reset all log groups. Select YES.

Persistent Log Groups

The log groups resets to their default setting at every reboot. To prevent resetting use persistent log groups.

On the home view, go to the Settings tab and select Extended Logging on the left pane.
On the Keep Selection after Restart window, set Persistent to ON.

Reset

Factory Reset Controller

It is possible to undo the controller to the original factory settings.

All settings, events, configurations and historical data are deleted when the controller is reset. Do a factory reset only when you are completely sure that this is required.

Performing a Controller Factory Reset

On the Home view, select the Settings Tab. Then, on the left, select Reset.
In the Factory Reset Controller window, select Reset.

A pop-up window appears warning that all data will be deleted. Then, select Yes.

The controller restarts to activate the new settings.

Clear Results

It is possible to delete results and events stored on the controller.

Deleting Results and Events

On the Home view, select the Settings Tab. Then, on the left, select Reset.
In the Clear Results window, select Clear.

A pop-up window appears warning that all results and events will be deleted. Then, select Yes.
Turn off the controller and wait for 30 seconds before turning it on again.

Mobile GUI

Working with the Task Tab

Tasks are configured in the Task menu. A task runs a tightening program and can be monitored from the Mobile GUI. The results of the task are presented in the Results menu.

To create a tightening program, create a task and select a strategy, either Tighten to Torque or Tighten to Torque plus Angle.

The PFXC tightening programs need parameters to be set in order to perform tightening. Entering a value for Target Torque is mandatory, as well as Target Angle if Tighten to Torque plus Angle was chosen. Other settings are optional, such as Program name, Peak Torque and Angle. These settings are used to monitor the tightening as it progresses by adding limits within which the torque, or angle the nut turns, must remain.

It is possible to run two types of tightening programs from the Mobile GUI, Tighten to Torque and Tighten to Torque plus Angle.

Multistep programs and other types of tightening programs are available in the Web GUI, and should not be assigned to the Virtual Station 1, to avoid incorrectly displayed results.

In this Section

Creating Source Tightening Programs

Go to the Task tab.
Select the plus icon in the upper-right corner of the screen.
Choose a tightening strategy.
Give the source tightening a name.
Enter the target torque.
Select Apply to save changes. Changes are not saved automatically.
Select Undo to discard changes.

Editing Source Tightening Programs

On the Task tab, slide the Edit selector to On.
On the tightening program to be edited, select the ellipsis icon.
Do the desired modifications on the tightening program.
Select Apply to save changes. Changes are not saved automatically.
Select Undo to discard changes.

Deleting Source Tightening Programs

On the Task tab, slide the Edit selector to On.
On the tightening program to be deleted, select the remove icon.

Working with the Controller Tab

The system administration tasks for the Power Focus XC controller are handled in the Controller menu. The menu is accessed through the Web GUI or the Tools Talk 2 GUI.

In this Section

Export Configuration

Export Configuration

The export function is used to export tightening results accessible in the Reports menu for analysis in external programs.

The export function is used to:

Export tightening results and events for further processing from the cable tool.
Export log files for debug assistance from an Atlas Copco service engineer.
Export controller configuration that can be used to copy settings to another controller.

In this Section

Exporting Data from the Mobile GUI

To export data from the mobile interface, do the following:

Go to the Controller tab.
In the Export menu, tap the Ellipsis icon (...).
Select an option:
- All controller information
- Settings and configurations
- Logs from connected tools
- Results
Tap To Device to download the selected data into the mobile device.
Tap To USB to download the selected data into a correctly formatted USB storage device connected to the USB port on the front part of the controller.

All controller information and Settings and configurations do not include information about the connected tools.

Settings and configurations only exports the settings and takes less time to perform.

For STB, SRB, and TBP tools, it is only possible to export logs.

When Logs from connected tools is selected and no tools are connected to the controller, an empty file will be exported.

Results only exports tightening results from the controller.

Exported Files

The exported file is a compressed file archive containing a binary file with the settings, as well as two character-separated values (csv) files with results and events.

When Settings and configurations is chosen no file with results or events will be exported into the archive.

Exported information
File	Description
PFExport__<Controller name>_<Time stamp>_Events.csv	A semicolon-separated file containing the following information: Severity: Type of event Date and time: A time stamp of when the event occurred Code: The event ID Description: A short description of the event Virtual station: Virtual station ID
PFExport__<Controller name>_<Time stamp>_Results.csv	A semicolon-separated file containing the following information: Type of tightening: Multi tool, single tool, single tool batch, or multi tool batch. Virtual station name Unique tool identifier VIN: Vehicle Identification Number Date and time: A time stamp of when the result occurred Batch sequence name: The batch sequence name Batch sequence counter: The batch number in the batch sequence Batch count: Actual tightening in the batch Bolt name Status: Tightening or loosening status OK or NOK Status additional info: A short description of the result status Tightening program/multistep name Stopping error Errors Failing step Target torque: The target torque value Final torque: The final torque value Target angle: The target angle value Final angle: The final angle value Rundown angle: The rundown angle value Residual torque correlation factor [%]: Factor to compensate for the difference between residual torque and dynamic torque when using TurboTight. Elapsed time [s] Angle low limit [deg] Torque low limit [Nm] Torque high limit [Nm] Number of pulses Current at shutoff [A] TrueAngle compensation [deg] Time to rundown complete [ms] Time to final torque [ms] target text
ExportInfo.txt	Information about the controller set-up and controller software.
settings/settings.bin	A binary file containing all tightening programs and Batch settings, Accessory configurations, and controller settings such as: Language, Torque units, data, Date and time, and Result appearance.

Exported .csv File Format

Depending on the language setting in the controller, the exported .csv file uses different characters to separate the fields. See the following table for language formatting details.

Formats in different languages
Language	Date/time	Field delimiter	Number format
English (en_US)	MM/dd/yyyy hh:mm:ss	,	123.456
Czech (cs_CZ)	dd.MM.yyyy hh:mm:ss	;	123,456
German (de_DE)	dd.MM.yyyy hh:mm:ss	;	123,456
Spanish (es_ES)	dd/MM//yyyy hh:mm:ss	;	123,456
French (fr_FR)	dd/MM/yyyy hh:mm:ss	;	123,456
Korean (ko_KR)	yyyy-MM-dd hh:mm:ss	,	123.456
Italian (it_IT)	dd/MM/yyyy hh:mm:ss	;	123,456
Japanese (ja_JP)	yyyy/MM/dd hh:mm:ss	,	123.456
Portugese (pt_BR)	dd/MM/yyyy hh:mm:ss	;	123,456
Russian (ru_RU)	dd.MM.yyyy hh:mm:ss	;	123,456
Swedish (sv_SE)	yyyy-MM-dd hh:mm:ss	;	123,456
Chinese (zh_CN)	yyyy/MM/dd hh:mm:ss	,	123.456

Depending on the language setting in the computer, formatting problems may occur when opening the exported .csv file. To avoid problems, always match the language used in the controller and computer.

Reports and Statistics

In this section, you can learn about available reports and statistics.

Web GUI

Working with the Reports Tab

Working with the Reports Tab

Results

This section describes how to access tightening results on the Power Focus XC controller and how to read the information given in the different result views. It describes both the live results view available after each tightening and the historical results view available in Results on the Reports menu.

When a tightening is performed, the results are stored on the controller. Results can also be sent to an external system such as ToolsNet or exported for analysis using the export function.

In this Section

Live Results

The Live Results tap shows results from the different virtual stations on the controller.

This section describes how to access tightening results on the mobile GUI of the Power Focus XC controller and how to read the information given in the live result view after each tightening.

Reading the Information Given in a Live Result

Point and click on image to see more information:

1	Virtual station name
2	Result status. An OK tightening is colored green. An ongoing tightening is colored yellow. An NOK tightening is colored red.
3	Tightening program name
4	Message indicating the reason of the NOK result
5	Tightening torque result
6	Target torque
7	Tightening angle result
8	Target angle

In this Section

Viewing Protocol Status

Viewing Protocol Status

On the home view, select the Go Result button. On the left pane, Live Results is automatically selected.
In the upper-right corner, select the Protocol connection button . The Protocol Status dialog box appears.

The tabs in the dialog box show the following information:

Tab	Description
Open Protocol	Shows the status of the open protocol connection: OK / NOK
Server Connections	Shows the status of the connections to ToolsTalk and ToolsNet servers: OK / NOK To change the configuration setting Enabled / Disabled, go to Settings > Server Connections and select the server to configure.
Launcher Status	Shows the launcher status of the different system adapters: OK / NOK

Select Close.

Relevant Information

Stored Results

The controller stores the result for every tightening or loosening performed.Power Focus XC can store up to 10,000 results.

Showing Stored Results

On the home view, go to the Reports tab. Results is automatically selected on the left pane.
On the Results window, select View all results.
The results list shows with the following information:
- Date: date and time of the tightening performed.
- Virtual Station: Virtual Station which the tightening was performed with.
- Tightening Program: Tightening Program column shows Multistep Tightening Program name, or Batch Sequence name followed by the Tightening Program name within the Batch Sequence.
- Result: Torque / Angle result.
- Limits: Limits column shows values only when the user sets Step Monitor or Step Restriction, or Program Monitor or Program Restrictions.
  
  Step Monitors, Step Restrictions, Program Monitors and Program Restrictions are applicable for Final Torque and Final Angle.
- Details: Tightening / loosening result details.
- Trace checkbox: By selecting a trace checkbox the corresponding result will be shown in the Sync trace result view.

In the Limits column, the minimum / maximum value can be red colored.
In this case, the red colored value means that any of the following has occurred:

The measured value is lower than the minimum value set in the Multistep Program.
The measured value is higher than the maximum value set in the Tightening Program.

Showing and Reading Result Traces

On the home view, select the Reports tab. Results is automatically selected on the left pane.
On the Results window, select View all results.
The results list shows in the Results window.
Select the necessary result.
The tightening trace shows in the Trace Result View window.

Trace Result View window shows, step by step, the tightening life-cycle.
When the tightening is NOK, Trace Result View window shows which Step Monitor or Step Restriction caused it.
On the trace graph, the Step Monitor or Step Restriction that caused the NOK tightening in the Step level, is red colored.

Point and click on image to see more information:

1	Result view Trace Graph
2	Result view Numbers
3	Result view Step Monitors
4	Result view Reporters

Result View - Trace Graph

This section shows the tightening in the shape of a graph.

Use the arrows in the upper-right corner of the trace graph to view the different trace graphs available for the tightening result selected.
The following trace graphs are available:

Torque / Time
Torque / Angle
Angle / Time
Speed / Time
Speed / Angle
Gradient / Time (when the tightening program is configured to make a gradient trace)
Gradient / Angle (when the tightening program is configured to make a gradient trace)
Current / Time
Current / Angle

Step lines are upon the trace graph.

On the trace graph, it is possible to zoom in/out, move the trace, and read x-axis and y-axis values on a specific point.
On the lower-left corner of the trace graph, select the plus icon (+) to zoom in , the minus icon (-) to zoom out, or the square icon (□) to reset the zoom level back to the default view.

Result view - Numbers

This section displays the result in numbers. There is also information about the tightening program, the virtual station, the date and time of the tightening, the status, etc. .This view will also display some identifiers like the VIN.

Result View - Step Monitors

This section shows a list of the tightening results with information about the step monitors used and other step information.

Select the ellipsis icon on the different tightening results listed to get further information.

Result View - Reporters

This section shows the values from the result reporters. If there is a result reporter defined for a program monitor/restriction, the value from that monitor/restriction is reported. If there is no result reporter defined for a program monitor/restriction, the value from the latest executed result reporter in main path is reported.

Evaluation order if several reporters of the same type are defined in a program:

result reporter on program monitor/program restriction.
result reporter on monitor/restriction of the last executed step in main path.

Values on the highest level of the multistep result set by the corresponding result reporter:

final angle set by result reporter final angle
final torque set by result reporter final torque
current set by result reporter current

In this Section

Viewing Synchronized Traces

Viewing Synchronized Traces

Synchronizing traces older than software version 3.5 is not supported.

Synchronize and compare traces

On the Home view, select the Reports Tab. On the left side, Results is automatically selected.
In the Results window, select View all results.
Select the traces to compare by marking the icon of the corresponding results. A selected trace icon turns blue.
Up to 10 traces can be selected.
Results without the icon do not support synchronization.
Select the icon in the upper right hand corner, to open the sync trace view. When selecting the icon all selected result traces will be unchecked.
In the Sync Trace Result View, select the preferred Sync method from the drop-down list.

Select the trace types with the arrows in the upper right hand corner.

The Sync Trace Result View is shown below:

Point and click on image to see more information:

1	Select method to synchronize traces and display of current sync method.
2	Switch between available trace types. The following trace graphs are available: Torque / Time Torque / Angle Angle / Time Speed / Time Speed / Angle Gradient / Time (when the tightening program is configured to make a gradient trace) Gradient / Angle (when the tightening program is configured to make a gradient trace) Current / Time Current / Angle
3	Zoom methods to examine sections of the traces in more detail. Select "+" to zoom in , "-" to zoom out, or the "square icon" to reset the zoom level back to the default view. It is also possible to zoom to a specific section by holding down the right mouse button, moving the mouse over a section, and release the right mouse button. The area inside the drawn rectangle defines the area to show.
4	Each result is represented by one tab, showing the time when the tightening was performed. An icon on the left of each tab reflects the outcome of the tightening: Blue: Tightening successful Red: Tightening failed Exclamation mark: The trace cannot be shown in the diagram Clicking on the icon toggles between the following display settings for its trace: Show trace only Show trace and step dividers with available limits or restrictions Hide trace
5	Change primary result trace. The primary result trace is used as reference and will define the values for the x-axis. Only one trace can be set as primary result. The first selected trace (the left-most tab) is by default used as reference.
6	Tightening details of currently selected result.

Sync methods

Sync methods are different strategies to synchronize traces by a specific value.

Traces can be synchronized by, for example, peak torque (highest torque reached for each trace). This shifts all traces along the x-axis, until each curve has its peak torque value at the exact same position on the x-axis.

All subsequent results are given an offset on the x-axis according to one of the following methods:

Sync method	Description
None	Default value. Selected traces are not synced.
Peak / Torque Peak / Angle Peak / Speed Peak / Current Peak / Gradient	All traces are synchronized towards the peak value, that is, shifted along the x-axis so that the peak values are at the same position on the x-axis as the peak value of the primary result.
Custom / Torque Custom / Angle Custom / Speed Custom / Current Custom / Gradient	All traces are synchronized towards a set value, shifted along the x-axis so that the set value are the same at the same position The set value of the primary result is used as reference point on the x-axis. If sync method Custom is selected and none of the traces contains the configured value, an exclamation mark is shown in the custom value field.

If a result has no trace value that matches to the sync method it cannot be synchronized and its trace will not be shown. It will instead be shown with an exclamation mark.

If none of the traces are possible to synchronize, the error message “Unable to synchronize” is shown.

Events

Reading the Information Given in an Event

An event contains information that describes the occurred event as well as some system information to help describe what has happened, where and when.

Point and click on image to see more information:

1	Heading Describes what part of the system the event concerns.
2	Event name A short descriptive text of the event.
3	Virtual station If the event is related to a virtual station on the controller the virtual station name will be displayed.
4	Code A unique four-digit number that identifies the event.
5	Module Describes in what part of the system the event concerns.
6	Type Information, Warning or Error.
7	Time Date and time when the event occurred.

Event Types

Events are divided into three types; Information, Warnings or Errors.

Power Focus XC can store up to 2,000 events.

In this Section

Information Events

Information events signal a noteworthy event that has occurred from actions performed by the user or the system. Information events do not require any specific user actions.

Warning Events

Warning events signal potentially serious conditions that could affect the system performance, or result in injury.

Error Events

Error events signal serious conditions, such as a failed service, that mostly require the user to change the setup or the configuration in order to continue.

Configuration of Events

All events have default settings for whether they should be acknowledged (ACK.), logged (LOG.), or displayed (DISP.). The events can be configured under Events in the Settings menu.

Grayed out options cannot be changed.

Event Codes

Different types of events are used to notify the user of certain state changes or occurrences in the system. Each event requires a different action.

Some of the procedures described can only be performed by Atlas Copco Service personnel.

For more information about a specific event code, use the below filters or enter the event code search criteria in the search box.

Event Code	Event Type	Event Name	Description	Procedure	Log / Display / Ack / Conf	Available for	Group
none	item	none	none	none	column	list	list
1000	Info	Controller Started	The controller is started.		Log Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC PFHC	Controller and Tool
1001	Warning	Controller Serial Number Updated	Generated at start-up if IT-board box serial number (controller serial number) differs from AUX-board box serial number. AUX-board is considered to be non-replaceable in field. The controller will reboot when the serial number is updated.	Replace IT-board or box.	Log Display Ack Conf	Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Controller and Tool
1010	Info	Tool Connected	A tool is connected.		Log Display Conf	Flex Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC PFHC	Controller and Tool
1011	Info	Tool Disconnected	A tool is disconnected.		Log Display Conf	Flex Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC PFHC	Controller and Tool
1012	Info	Tool Rejected Controller Connection	This event can occur if the tool is into a skip-zone.	Verify if another controller is connected to the tool. Make sure that the tool settings are correctly set up.	Log Display Conf	Power Focus 6000 Power Focus 8 Power Focus XC	Controller and Tool
2000	Warning	Battery Low		Replace battery.	Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2001	Warning	Battery Empty		Replace battery.	Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2002	Warning	Tool Battery Health Low	Tool battery health problem is detected. Valid for SRB, TBP and IxB tools only.	Replace battery.	Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2004	Warning	Tool is not of the preferred type	Tool has been replaced by a tool with a different Tool Max Torque.	Change tool.	Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2006	Warning	Tool Backup Battery Health low	The backup battery in the tool has too poor performance.	The backup battery should be replaced.	Log Display Ack Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2007	Warning	Tool Backup Battery Missing	Tool backup battery is missing. Valid for SRB, TBP and IxB tools only.	Insert battery.	Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2008	Warning	Tool Backup Battery Error	Tool backup battery error detected. Valid for SRB, TBP and IxB tools only.	Replace battery.	Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2009	Warning	Backup Battery Voltage Low	The controller's backup battery is almost empty.	Replace battery.	Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2010	Error	Tool Software Version Mismatch	Tool and controller software versions not compatible.	Service tool - update tool software.	Log Display Ack Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tool
2012	Warning	Tool Communication Disturbance	Communication between tool and controller interrupted.	Relocate antenna placement.	Conf	Flex Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC PFHC	Tool
2013	Warning	Illegal Ring Position	Tool direction switch in faulty position.	If occurring frequently - service the tool.	Log Display Conf	Flex Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2014	Warning	Tool Overheated	Tool overheated. Valid for SRB, TBP and IxB tools only.	Allow tool to cool down.	Log Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tool
2015	Error	Tool Temperature Sensor Error	SRB, TBP and IxB tools only.	Service the tool.	Log Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tool
2016	Warning	Tool Pulse Unit Overheated	Pulse unit overheated. Tool is not locked, but the warning is displayed whenever the tool is started as long as the pulse unit temperature is over threshold. Valid for SRB, TBP and IxB tools only.	Allow tool to cool down.	Log Display Conf	Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2019	Warning	Tool Could not Start Motor	Tool motor failure. Valid for SRB, TBP and IxB tools only.		Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2020	Warning	Tool Requires Motor Tuning	Tool requires motor tuning.	Perform a motor tuning.	Log Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tool
2021	Warning	Motor Tuning Failed	Motor tuning failed.	Complete motor tuning or service the tool.	Log	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tool
2022	Info	Motor Tuning Completed	Motor tuning completed.		Log Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tool
2023	Warning	The Tool Requires Open End Tuning	The tool requires open end tuning.	Perform open end tuning.	Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2024	Warning	Open End Tuning Failed	Open end tuning failed.	Try to perform open end tuning one more time. If it fails again, service the tool.	Log Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2025	Info	Open End Tuning Successful	Open end tuning successful.		Log Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2026	Warning	Open End Position Failed	Open end position failed.	Press the tool trigger again and wait for the positioning to be completed. If it fails again, service the tool.	Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2027	Warning	Usage Limited Due To High Tool Temperature	Temperature limit value has been reached. Tightening has been inhibited to reduce risk for tool shutting down due to overheating.	Wait until tool temperature has been reduced.	Log Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tool
2030	Error	Tool Memory Failure: Change Tool	Tool memory corrupt.	Service the tool.	Log Display Ack Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tool
2031	Error	Tool Accessory Memory Corrupt	Tool accessory memory corrupt.	Service the tool accessory.	Log Display Ack Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tool
2040	Error	System Check Failure			Log Display Ack Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tool
2041	Error	Torque Transducer Error	Will be generated either on calibration error or if tool reports transducer error.	Service the tool.	Log Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tool
2042	Error	Angle Transducer Error		Service the tool.	Log Display Ack Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tool
2043	Error	Tool Ground Fault Error		Service the tool.	Log Display Ack Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tool
2044	Info	Tool Service Interval Expired	Indicates that servicing of the tool is needed. Triggered when the number of set tightenings has been exceeded.	Perform service of tool.	Log Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tool
2045	Warning	Tool Calibration Data Invalid	If validation of calibration data fails.	Service the tool.	Log Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tool
2046	Info	Tool: Next Calibration Date Has Passed	Indicates that calibration of tool is needed. Triggered when calibration alarm is enabled in settings and the current time is greater than next calibration date.	Service the tool.	Log Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tool
2048	Info	Tool Calibration Value Updated By QA Device	Tool calibration was updated when a calibration with a QA device was performed.		Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2050	Error	Tool Parameter File Not Supported	Required tool parameters are missing.	Update tool parameters.	Log Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tool
2060	Info	Unexpected Trigger Behavior	Used to prevent start of tool if accessory is connected.		Log Display Conf	IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tool
2071	Error	Tool Memory Corrupt	Tool descriptor is corrupt.	Service the tool.	Log Display Conf	Flex Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tool
2072	Info	Unknown Device Connected			Log Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tool
2073	Warning	Tool Trigger Supervision Failure	HW channel failure. Mismatch between hardware and software of tool trigger.		Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2074	Warning	Tool Indicator Board Failure	Tool indicator board failure.	Service the tool.	Log Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tool
2075	Warning	Tool Fan Voltage Failure	Tool fan voltage failure.	Service the tool.	Log Display Conf	Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tool
2076	Warning	Tool Accessory Bus Voltage Failure	Tool accessory bus voltage failure.	Service the tool.	Log Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tool
2077	Warning	Tool Trigger Sensor Error	Tool trigger sensor error.	Service the tool.	Log Display Conf	IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tool
2078	Info	Tool Tightening Program Updated	Tool locked due to tightening program update.		Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2079	Error	Tool Cable Not Supported	Tool cable is corrupt. The chip in the cable is not responding or is damaged.	Switch cable.	Log Display Conf	Flex Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tool
2080	Error	Tool Battery Failure	DC voltage too high or too low. Battery failure.	Contact the Atlas Copco service representative and send back battery to Atlas Copco (do not reuse it!).	Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2081	Error	Tool Current Limit Reached	The current limit value has been reached and the drive is disabled.	Service the tool.	Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2082	Error	Tool Current Measurement Error	Current measurement error. Current cannot be measured with a reliable result.	Service the tool.	Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2083	Error	Tool Internal Error	Various internal hardware errors. Valid for STB and IxB tools only.	Service the tool.	Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2084	Error	Tool Internal Software Error	Various internal software errors. Valid for STB and IxB tools only.	Service the tool.	Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2085	Error	Tool RBU Error	An RBU error was detected by the tool software.	Check that the RBU is correctly installed. If error is still present then service the tool.	Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2086	Error	Tool Stall	Tool motor is stalling.	Service the tool.	Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2087	Warning	Tool Motor Current High	Tool motor current limit value is exceeded, and the tool is locked. Tool will enter failsafe mode. Valid for SRB, TBP and IxB tools only.		Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2088	Warning	Tool Battery Current High	Tool battery current is too high. Valid for SRB, TBP and IxB tools only.		Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2089	Warning	Tool Drive Voltage Low	Tool drive voltage is below the monitored lower voltage limit value. Valid for SRB, TBP and IxB tools only.		Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2090	Warning	Tool Drive Voltage High	Tool drive voltage is above monitored higher voltage limit value. Valid for SRB, TBP and IxB tools only.		Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2091	Warning	Tool Main Board Error	Tool main board internal error. Valid for SRB, TBP and IxB tools only.		Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2092	Warning	Tool Power Module Error	Tool power module internal error. Valid for SRB, TBP and IxB tools only.		Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2093	Warning	Pulse Unit Oil Level Low	The oil level of the connected pulse tool is low.	Service the tool.	Log Display Conf	Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2094	Warning	Pulse Unit Oil Level Empty	The oil level of the connected pulse tool is below required operational level.	Service the tool.	Log Display Ack Conf	Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2095	Warning	Tool Battery Communication Lost	Tool lost communication with battery. Valid for SRB, TBP and IxB tools only.	Make sure battery is snugged correctly. Otherwise change battery.	Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2096	Error	Tool Battery Software Version Mismatch	Tool battery software incompatible with tool software. Valid for SRB, TBP and IxB tools only.	Update software.	Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2100	Info	STwrench smartHEAD Removed	STwrench smartHEAD has been removed.	Reconnect smartHEAD and restart the wrench.	Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tool
2101	Warning	Wrench Tightening When Locked	A wrench tightening was performed when the tool status was locked in the controller.	Wait until the tool status in controller is unlocked.	Log Display Conf	Power Focus 6000 Power Focus 8	Tool
2120	Warning	Unable To Start: Tool Has No Active Torque Transducer			Log Display	Flex	Tool
2121	Warning	Transducers Are Disabled For Connected Tool			Log Display	Flex	Tool
2122	Warning	Unable To Start: Tool Is Missing Required Torque Transducer		Change to a tool with dual torque transducers or update the setting "Require dual torque" in Tool Configuration.	Log Display	Flex IxB	Tool
2123	Warning	Unable To Start: Tool Is Missing Required Angle Transducer		Change to a tool with dual torque transducers or update the setting "Require dual torque" in Tool Configuration.	Log Display	Flex	Tool
2124	Error	Torque Transducer Error On Main Transducer	There is an error on the main torque transducer of a tool with dual transducers.	Service the tool.	Log Display	Flex	Tool
2125	Error	Torque Transducer Error On Secondary Transducer	There is an error on the secondary torque transducer of a tool with dual transducers.	Service the tool.	Log Display	Flex	Tool
2126	Error	Tool Torque Transducer Calibration Error On Main Transducer	There is an error on the main torque transducer of a tool with dual transducers.	Service the tool.	Log Display	Flex	Tool
2127	Error	Tool Torque Transducer Calibration Error	There is an error on the torque transducer.	Service the tool.	Log Display	Flex Synchronized tightening	Tool
2128	Error	Tool Torque Transducer: Shunt Test Failed On Main Transducer	There is an error on the main torque transducer of a tool with dual transducers.	Service the tool.	Log Display	Flex	Tool
2129	Error	Tool Torque Transducer: Shunt Test Failed	There is an error on the torque transducer.	Service the tool.	Log Display	Flex Synchronized tightening	Tool
2130	Error	Tool Torque Transducer: Zero Offset Compensation Failed On Main Transducer	There is an error on the main torque transducer of a tool with dual transducers.	Ensure the tightening is started with zero torque on the tool. Service the tool.	Log Display	Flex	Tool
2131	Error	Tool Torque Transducer: Zero Offset Compensation Failed	There is an error on the torque transducer.	Ensure the tightening is started with zero torque on the tool. Service the tool.	Log Display	Flex Synchronized tightening	Tool
2132	Error	Tool Torque Transducer Hardware Error On Main Transducer	There is an error on the main torque transducer of a tool with dual transducers.	Service the tool.	Log Display	Flex	Tool
2133	Error	Tool Torque Transducer Hardware Error	There is an error on the torque transducer.	Service the tool.	Log Display	Flex Synchronized tightening	Tool
2134	Error	Tool Torque Transducer Error: Overflow In A/D Converter On Main Transducer	There is an error on the main torque transducer of a tool with dual transducers.	Service the tool.	Log Display	Flex	Tool
2135	Error	Tool Torque Transducer Error: Overflow In A/D Converter	There is an error on the torque transducer.	Service the tool.	Log Display	Flex Synchronized tightening	Tool
2136	Error	Tool Torque Transducer Calibration Error On Secondary Transducer	There is an error on the secondary torque transducer of a tool with dual transducers.	Service the tool.	Log Display	Flex	Tool
2137	Error	Tool Torque Transducer Error: Shunt Test Failed On Secondary Transducer	There is an error on the secondary torque transducer of a tool with dual transducers.	Service the tool.	Log Display	Flex	Tool
2138	Error	Tool Torque Transducer Error: Zero Offset Compensation Failed On Secondary Transducer	There is an error on the secondary torque transducer of a tool with dual transducers.	Ensure the tightening is started with zero torque on the tool. Service the tool.	Log Display	Flex	Tool
2139	Error	Tool Torque Transducer Hardware Error On Secondary Transducer	There is an error on the secondary torque transducer of a tool with dual transducers.	Service the tool.	Log Display	Flex	Tool
2140	Error	Tool Torque Transducer Error: Overflow In A/D Converter On Secondary Transducer	There is an error on the secondary torque transducer of a tool with dual transducers.	Service the tool.	Log Display	Flex	Tool
2202	Error	Tool HMI overcurrent occurred	Tool HMI overcurrent was detected.	Service the tool. Replace tool HMI.	Log Display Ack Conf	IxB	Tool
2203	Error	Tool front light overcurrent occurred	Tool front light overcurrent was detected	Service the tool. Replace tool front light.	Log Display Ack Conf	IxB	Tool
2204	Error	Accessory bus overcurrent occurred	Accessory bus overcurrent was detected.	Service the tool. Replace accessory bus.	Log Display Ack Conf	IxB	Tool
2207	Error	Vibrator overcurrent occurred	Vibrator overcurrent was detected.	Service the tool. Replace the vibrator.	Log Display Ack Conf	IxB	Tool
2208	Warning	System CPU temperature high	System CPU temperature high.	Wait until tool temperature has been reduced.	Log Display Conf	IxB	Tool
2209	Error	System CPU temperature critical	System CPU temperature critical.	Wait until tool temperature has been reduced.	Log Display Conf	IxB	Tool
2210	Error	Unsupported power source: tightening not permitted	Battery with too low voltage attached to the tool.	Attach battery with higher voltage to the tool.	Log Display Ack Conf	IxB	Tool
2217	Info	Running on backup battery	Running on backup battery.		Log	IxB	Tool
2218	Info	Battery connected	Battery connected or controller/tool started.		Log	IxB	Tool
2219	Info	Power source: unknown	Unknown power source connected or controller/tool started with unknown power source.		Log	IxB	Tool
2221	Warning	Battery overheated	Battery temperature is too high.	Change battery and let overheated battery cool down.	Log Display Conf	IxB Power Focus 6000 Power Focus 8	Tool
2222	Warning	Usage limited due to high battery temperature	Battery temperature is too high.	Change battery and let overheated battery cool down.	Log Display Conf	IxB Power Focus 6000 Power Focus 8	Tool
2500	Error	Tensioner puller bar max number	Tensioner puller bar must be replaced. System is locked for usage. Pressure can only be released.	Send the tensioner to service organization for replacement of the puller bar.	Log Display Ack	PFHC	Tool
2501	Error	Pump motor protection alarm	The pump motor protection has stopped the motor. The system must stop. If the system is under pressure, it needs manual actions to release pressure.	Turn off the system. If under pressure, mechanically release the pressure and send the pump to service.	Log Display Ack	PFHC	Tool
2502	Error	Pump motor oil level low alarm	The pump motor oil level is low which has stopped the motor. If the system is under pressure, it needs manual actions to release pressure.	Turn off the system. If under pressure, mechanically release the pressure and top up oil.	Log Display Ack	PFHC	Tool
2503	Error	Pump motor oil temperature high alarm	The pump motor oil temperature is high.	Turn off the system and wait for the oil to cool down.	Log Display Ack	PFHC	Tool
2504	Error	Tensioner pressure sensor alarm	Failure in the pressure sensor electronics of the tensioner. No pressure can be read nor reported to the system.	Turn off the system. If under pressure, mechanically release the pressure and send the tensioner to service.	Log Display Ack	PFHC	Tool
2505	Error	Pump pressure sensor alarm	Failure in the pressure sensor electronics of the pump. No pressure can be read nor reported to the system.	Turn off the system. If under pressure, mechanically release the pressure and send the pump to service.	Log Display Ack	PFHC	Tool
2506	Error	Unexpected clockwise rotation detected	A clockwise nut rotation while waiting for pressure release after completed tensioning. The result is invalidated.	Release pressure and tension the nut again.	Log Display Conf	PFHC	Tool
2507	Error	Unexpected counter clockwise rotation detected	A counter clockwise nut rotation while waiting for pressure release after completed tensioning. The result is invalidated.	Release pressure and tension the nut again.	Log Display Conf	PFHC	Tool
2508	Error	Pump or tensioner pressure sensor failure	Too large difference between the pressure sensor readings in the pump and the tensioner. Pressurization is halted.	Problem in the hydraulics or the calibration of the pressure sensors. Restart the system and try again. If the problem repeats, contact your local Atlas Copco sales representative.	Log Display Ack	PFHC	Tool
2509	Error	Tensioner pressure sensor failure or hydraulic hose failure	The tensioner's pressure sensor indicates no pressure but the pump's sensor reads a pressure increase. Pressurization is halted.	Problem in the hydraulics or the calibration of the pressure sensors. Restart the system and try again. If the problem repeats, contact your local Atlas Copco sales representative.	Log Display Ack	PFHC	Tool
2510	Error	Set custom ID failed	Setting custom ID failed.	Restart the system and check the connected devices. If Custom ID for the unit is wrong, redo the setting.	Log Display Ack	PFHC	Tool
2511	Info	Custom ID is set	Setting custom ID succeeded.		Log Display Ack	PFHC	Tool
2512	Warning	Malformed Barcode string, ignored	The scanned string could not be parsed as a tower data bar code.	Scan a proper tower data qr code or scan tower section id.	Log Display Ack	PFHC	Tool
2513	Error	No pump pressure detected	The system is trying to pressurize but no pressure increase is registered in the pump. Possible cause is incorrect phase order in the three phase connector.	Power off the system and reverse the phases of the power connector.	Log Display Ack	PFHC	Tool
2514	Warning	Tensioner overtorque alarm	Too high torque is applied to the click wrench. This causes damage to the torque sensor.	Relax the torque.	Log	PFHC	Tool
2515	Warning	Tensioner overpressure alarm	The pressure in the tensioner is too high.	Let the pressure drop, or release the pressure. Check the hydraulic pressure parameters.	Log	PFHC	Tool
2516	Warning	Unexpected Pump or Tensioner firmware	Unexpected Pump or Tensioner firmware version detected, restart system. If the problem persists, the system may be possible to run, but carefully observe any unexpected behaviour.	Power cycle system	Log Display Ack	PFHC	Tool
2517	Error	Incompatible Pump or Tensioner firmware version, restart system. The system cannot run.	Incompatible Pump or Tensioner firmware version, restart system. The system cannot run.	Restart system, if this doesn’t help replace the failing unit. Check connected devices to see which one has not connected.	Log Display Ack	PFHC	Tool
3000	Error	Controller Internal Software Error	Software error in the controller.	Contact service.	Log Display Ack Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Controller, Drive and Synchronized tightening
3001	Error	Controller Clock Battery Empty	Internal battery is getting close to end of life.	Replace battery.	Log Display Ack Conf	Flex Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Controller, Drive and Synchronized tightening
3010	Warning	System Overheated	The controller is overheated.	Cool down.	Log Display Conf	Power Focus 6000 Power Focus 8 Power Focus XC	Controller, Drive and Synchronized tightening
3011	Warning	Drive Overheated Controller Hardware		Cool down.	Log Display Conf	Flex	Controller, Drive and Synchronized tightening
3013	Warning	Usage Limited Due To High Controller Temperature	Temperature limit value has been reached. Tightening has been inhibited to reduce risk for controller shutting down due to overheating.	Wait until controller temperature has been reduced.	Log Display Conf	Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Controller, Drive and Synchronized tightening
3020	Warning	Controller Hardware Failure			Log Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Controller, Drive and Synchronized tightening
3021	Warning	System Voltage Problem	DC voltage too high or too low.		Log Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Controller, Drive and Synchronized tightening
3022	Warning	Controller Voltage Problem: AC Input Voltage Too High	DC voltage too high or too low.	Fix the input voltage.	Log Display	Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Controller, Drive and Synchronized tightening
3023	Warning	Controller Voltage Problem: AC Input Voltage Too Low	DC voltage too high or too low.	Fix the input voltage.	Log Display	Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Controller, Drive and Synchronized tightening
3024	Warning	Drive Voltage Problem: AC Input Voltage Too High	DC voltage too high or too low.	Fix the input voltage.	Log Display	Flex	Controller, Drive and Synchronized tightening
3025	Warning	Drive Voltage Problem: AC Input Voltage Too Low	DC voltage too high or too low.	Fix the input voltage.	Log Display	Flex	Controller, Drive and Synchronized tightening
3029	Info	The client lost network connection	The tool has lost the network connection by either leaving the network coverage or due to another cause.	Troubleshoot by checking the roaming threshold and reduce the selected channel numbers to less than 24 to make sure roaming is enabled.	Log Display Conf Ack	IxB	Tool
3030	Error	IP Address Conflicting With Another Node On The Network	The set IP address is in use by another device on the same network.	Change IP address on one of the devices.	Log Display Conf	Flex Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC PFHC	Controller, Drive and Synchronized tightening
3031	Info	Network Cable Unplugged	The carrier of the factory port is lost (cable disconnected).	Check the cable connection.	Log Display Conf	Flex Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Controller, Drive and Synchronized tightening
3032	Info	Pairing Started	Tool pairing started.		Log Display Conf	Power Focus 6000 Power Focus 8 Power Focus XC	Controller, Drive and Synchronized tightening
3033	Info	Pairing Successful	Tool pairing successful.		Log Display Conf	Power Focus 6000 Power Focus 8 Power Focus XC	Controller, Drive and Synchronized tightening
3034	Info	Pairing Unsuccessful: No Tool Found	The controller found no tool to pair with when scanning for radio peers.	Set the tool in pairing mode and try again.	Log Display Conf	Power Focus 6000 Power Focus 8 Power Focus XC	Controller, Drive and Synchronized tightening
3035	Error	Pairing Unsuccessful: More Than One Tool Found	The controller found more than one tool when scanning for radio peers.	Ensure that only one tool is in pairing mode when starting the pairing mode on the controller.	Log Display Conf	Power Focus 6000 Power Focus 8 Power Focus XC	Controller, Drive and Synchronized tightening
3036	Error	Pairing Unsuccessful: Communication Error	The controller experienced a loss of connection, an unexpected answer or timeout during the pairing process.	Try to perform pairing one more time. If it fails again, service the tool.	Log Display Conf	Power Focus 6000 Power Focus 8 Power Focus XC	Controller, Drive and Synchronized tightening
3037	Info	Pairing Unsuccessful: Tool Slot Is Full		Clear one tool slot.	Log Display Conf	Power Focus 6000 Power Focus 8 Power Focus XC	Controller, Drive and Synchronized tightening
3040	Warning	Emergency Stop	Drive disabled due to emergency stop.	Reset emergency stop.	Log Display Conf	Flex Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Controller, Drive and Synchronized tightening
3050	Info	System Clock Updated	System clock has been updated.		Log Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC PFHC	Controller, Drive and Synchronized tightening
3051	Error	System Clock Error	Wrong time read from hardware Real Time Clock (RTC).	Change RTC battery.	Log Display Ack Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC PFHC	Controller, Drive and Synchronized tightening
3052	Warning	Remote Start Configuration Error	Mismatch between HW and SW remote start configuration.	Verify that HW dip switch matches the selected start source.	Log Display Conf	Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Controller, Drive and Synchronized tightening
3053	Info	Drive Connected	Synchronized tightening drive has been connected.		Log Display	Flex Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Controller, Drive and Synchronized tightening
3054	Info	Drive Disconnected	Synchronized tightening drive disconnected.		Log Display	Flex Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Controller, Drive and Synchronized tightening
3055	Warning	Mode Configuration Error	Generated when selected mode is configured wrongly. E.g. configuring two bolts with the same bolt number or the same channel, incomplete mode configuration.	Check ToolsTalk 2 for mode configuration error.	Log Display	Flex Synchronized tightening	Controller, Drive and Synchronized tightening
3056	Warning	Unable to Start: Tool Or Drive Is Missing	Generated when a used channel is missing a drive or tool.	Verify Channel Menu on the HMI. Connect missing drive or tool.	Log Display	Flex Synchronized tightening	Controller, Drive and Synchronized tightening
3057	Info	Unable to Start: Channel Is Already In Use	Generated when a needed channel has been allocated to another virtual station.		Log Display	Flex	Controller, Drive and Synchronized tightening
3058	Info	No Mode Selected		Select mode.	Log Display	Flex Synchronized tightening	Controller, Drive and Synchronized tightening
3059	Warning	Failed To Connect To Atlas Copco License Manager	Indicates that the controller failed to connect to the local license manager to get licenses.	Verify the local network. If it fails again, service the controller.	Log Display Conf	IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Controller, Drive and Synchronized tightening
3061	Warning	Unable To Start: Enable Signal Is Low		Ensure the signal "Enable Operation" is set to high before tightening is started.	Log Display	Flex Synchronized tightening	Controller, Drive and Synchronized tightening
3062	Warning	Unable To Start: Stop Signal Is High		Ensure the signal "Enable Operation" is set to low before tightening is started.	Log Display	Flex Synchronized tightening	Controller, Drive and Synchronized tightening
3063	Warning	Unable To Start: All Channels Inhibited	All channels have been set inhibited, so no tightening can be started.	Set at least one channel to not be inhibited.	Log Display	Flex Synchronized tightening	Controller, Drive and Synchronized tightening
3064	Warning	Carrier Number Faulty	A FlexCarrier hex switch is set to zero.	Turn the switch to a non-zero value.	Log Display	Flex	Controller, Drive and Synchronized tightening
3065	Warning	Carrier E-Stop Configuration Plug Wrong Type Or Missing	A Carrier is missing its E-stop configuration plug, or the plug type is wrong.	Insert correct plug type.	Log Display	Flex	Controller, Drive and Synchronized tightening
3066	Warning	Carrier Voltage Inlet: No 3-Phase AC		Ensure the 3-phase power to the carrier is within acceptable limits and fully functional. Ensure the 3-phase cables are in good condition and properly connected.	Log Display	Flex	Controller, Drive and Synchronized tightening
3067	Warning	Carrier Voltage Inlet: One AC Phase Missing		Ensure the 3-phase power to the carrier is within acceptable limits and fully functional. Ensure the 3-phase cables are in good condition and properly connected.	Log Display	Flex	Controller, Drive and Synchronized tightening
3068	Warning	Carrier: Internal 24 VDC Power Supply Unit Broken		Service the carrier.	Log Display	Flex	Controller, Drive and Synchronized tightening
3069	Warning	Carrier 24 Voltage OUT-Port Disabled Due To Over-Current		Reset the system.	Log Display	Flex	Controller, Drive and Synchronized tightening
3070	Warning	Carrier, Hardware Error In PF6 FlexControl Cable OUT		Reset the system.	Log Display	Flex	Controller, Drive and Synchronized tightening
3071	Warning	Carrier, Hardware Error In PF6 FlexControl Cable IN		Reset the system.	Log Display	Flex	Controller, Drive and Synchronized tightening
3072	Warning	Emergency Stop 24 VDC Power Failure Due To Short-Circuit		Service the carrier.	Log Display	Flex	Controller, Drive and Synchronized tightening
3073	Warning	Unable To Start: System Is Emergency Stopped	When allocating multiple spindles, this event is invoked by "preStartCheckFailed" due to emergency stop.	Reset the emergency stop.	Log Display	Flex Synchronized tightening	Controller, Drive and Synchronized tightening
3074	Warning	Carrier Overheated		Cool down.	Log Display	Flex	Controller, Drive and Synchronized tightening
3075	Warning	Carrier Temperature OK			Log Display	Flex	Controller, Drive and Synchronized tightening
3076	Warning	Carrier: Internal 24 VDC Power Supply Overload	Current output from internal PSU is too high.	Disconnect other carriers that are powered from the PSU. Disconnect any external equipment using 24 VDC.	Log Display	Flex	Controller, Drive and Synchronized tightening
3077	Warning	Carrier: Internal 24 VDC Power Supply Over Voltage	Voltage output from internal PSU is too high.	Replace the carrier.	Log Display	Flex	Controller, Drive and Synchronized tightening
3078	Warning	Carrier: Internal 24 VDC Power Supply Under Voltage	Voltage output from internal PSU is too low.	Replace the carrier.	Log Display	Flex	Controller, Drive and Synchronized tightening
3079	Warning	External Supply To Carrier: 24 VDC Over Voltage	Backup input voltage is more than 27 VDC.	Adjust the backup input voltage.	Log Display	Flex	Controller, Drive and Synchronized tightening
3080	Warning	External Supply To Carrier: 24 VDC Under Voltage	Backup input voltage is less than 19 VDC.	Adjust the backup input voltage.	Log Display	Flex	Controller, Drive and Synchronized tightening
3081	Warning	Carrier Voltage Inlet: 3-Phase AC Over Voltage	Input voltage is too high.	Lower input voltage: must be 400 VAC or 480 VAC.	Log Display	Flex	Controller, Drive and Synchronized tightening
3082	Warning	Carrier Voltage Inlet: 3-Phase AC Under Voltage	Input voltage is too low.	Higher input voltage: must be 400 VAC or 480 VAC.	Log Display	Flex	Controller, Drive and Synchronized tightening
3083	Error	Wrong Anybus/Profisafe Module Firmware		Update the firmware in the anybus module to the latest version.	Log Display	Flex Power Focus 6000 Power Focus 8 Synchronized tightening	Controller, Drive and Synchronized tightening
3084	Error	Soft PLC Runtime Error	eCLR has terminated in an uncontrolled way.		Log Display Conf	Flex Power Focus 6000 Power Focus 8 Synchronized tightening	Controller, Drive and Synchronized tightening
3085	Warning	Carrier: Fan Module Out Of Order		Replace fan module.	Log Display	Flex	Controller, Drive and Synchronized tightening
3086	Warning	Carrier: Fan Module Partly Out Of Order		Replace fan module.	Log Display	Flex	Controller, Drive and Synchronized tightening
3087	Warning	Carrier: Left Fan Module Out Of Order		Replace fan module.	Log Display	Flex	Controller, Drive and Synchronized tightening
3088	Warning	Carrier: Left Fan Module Partly Out Of Order		Replace fan module.	Log Display	Flex	Controller, Drive and Synchronized tightening
3089	Warning	Carrier: Right Fan Module Out Of Order		Replace fan module.	Log Display	Flex	Controller, Drive and Synchronized tightening
3090	Warning	Carrier: Right Fan Module Partly Out Of Order		Replace fan module.	Log Display	Flex	Controller, Drive and Synchronized tightening
3096	Warning	Cellular signal strength low	The RSSI value for the cellular connection is under the defined threshold value of -98 dBm.	Move the tool closer to the cellular antennas for a stronger connection and avoid data loss.	Conf	IxB	Controller, Drive and Synchronized tightening
3097	Warning	Cellular connection lost	The system lost connection to the cellular network.	Move the tool closer to the cellular antennas. Check the cellular connection setup so correct APN is still configured. Check the cellular network for any problems.	Log Display Conf	IxB	Controller, Drive and Synchronized tightening
3100	Warning	Mode Configuration Does Not Exist		Select an existing sync mode before starting a tightening.	Log Display	Flex Synchronized tightening	Controller, Drive and Synchronized tightening
3150	Error	Software IAM Incompatibility	IAM is incompatible with the software that is installed on the controller.	Replace IAM.	Log Display Ack	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Controller, Drive and Synchronized tightening
3160	Error	Failed To Activate Newly Installed Software	Something went wrong during the activation. When the newly installed software starts, a fallback to the previous working software happens. This error happens when the new software fails to start for three times and only during software installation.	Take an export and contact Atlas Copco for further assistance. Note down the software version you are trying to install as well as the software version that is working.	Log Display Ack	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Controller, Drive and Synchronized tightening
3161	Error	Started On Unexpected Software Partition	The controller has started on the inactive software side and not on the expected software side.	Note down the software information (on the Home screen of the controller, select Controller > Software). Try to restart the controller and make sure its running on correct software when started again. If error persists, do an export and contact Atlas Copco.	Log Display Ack	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Controller, Drive and Synchronized tightening
3500	Error	Generic License Manager Error	Inconsistency detected in the feature management system used.	Contact Atlas Copco representative.	Log Display Ack	IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Controller, Drive and Synchronized tightening
3501	Error	License Manager Synchronization Error	Synchronization with the license server failed.	Contact Atlas Copco service representative.	Log Display Ack	IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Controller, Drive and Synchronized tightening
3502	Info	License Manager Synchronization Done	Synchronization with the license server completed.			IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Controller, Drive and Synchronized tightening
3503	Warning	License Manager: Another Source in Use	License is used by another source.	Verify license assignment.	Log Display	IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Controller, Drive and Synchronized tightening
3504	Warning	License Manager Restart Needed		Restart license manager.	Log Display	IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Controller, Drive and Synchronized tightening
3505	Info	USB License Synchronization Started	Moving licenses from the USB license dongle started.		Log	Power Focus 6000 Power Focus 8 Power Focus XC	Controller, Drive and Synchronized tightening
3506	Error	USB License Synchronization Error	Moving licenses from the USB license dongle failed.	Contact Atlas Copco service representative.	Log	Power Focus 6000 Power Focus 8 Power Focus XC	Controller, Drive and Synchronized tightening
3507	Info	USB License Synchronization Done	Moving licenses from the USB license dongle done.		Log	Power Focus 6000 Power Focus 8	Controller, Drive and Synchronized tightening
3508	Info	One or more of your licenses are about to expire. Please make sure you have a license server configured		Update licenses.	Log Display Conf	IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Controller, Drive and Synchronized tightening
3511	Warning	One of your licenses has a different license definition	Inconsistency detected in a license to be used.	Contact Atlas Copco representative.	Log Display Conf	IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Controller, Drive and Synchronized tightening
3550	Warning	License Is Missing		Install the correct license.	Log Display Conf	IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Controller, Drive and Synchronized tightening
3551	Warning	Wireless Communication Disabled By Licensing		Unassign Standalone license from the Virtual Station.	Log Display Conf	IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Controller, Drive and Synchronized tightening
4010	Info	Tool Locked By Digital Input	The tool is locked by a digital input signal.		Log Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tightening Process
4011	Info	Tool Locked By Open Protocol	The tool is locked by Open Protocol.		Log Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tightening Process
4012	Info	Tool Locked By Fieldbus	The tool is locked by the Fieldbus.		Log Display Conf	Flex Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tightening Process
4013	Info	Tool Locked By Socket Selector	Tool is locked when the socket selector is disconnected from the Virtual Station.	Unlock by Master Unlock.	Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4014	Info	Tool Locked By Soft PLC	Soft PLC signal locked the tool.	Unlock by Master Unlock.	Log Display Conf	Flex Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tightening Process
4015	Info	Loosening Disabled	Loosening is disabled in the tightening program.		Log Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tightening Process
4016	Info	Tightening Disabled			Log Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tightening Process
4017	Info	Loosening Not Configured	Loosening is not configured in the selected tightening program	Select different tightening program.	Log Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tightening Process
4020	Info	Too Many NOK Tightenings	Maximum consecutive NOK tightenings in batch is exceeded		Log Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tightening Process
4025	Info	No Tightening Program Selected	No tightening program selected.	Select tightening program or batch sequence.	Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4030	Info	Batch Sequence Aborted	The batch sequence has been aborted.		Log Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC PFHC	Tightening Process
4031	Info	Max Time To Complete Batch Sequence Reached			Log Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tightening Process
4032	Info	Max Time To Complete First Tightening Reached			Log Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tightening Process
4035	Info	Locked By Line Control			Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4040	Info	Locked By Alternative Identifier	Tool locked by alternative identifier.		Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4050		Invalid Socket Configuration	Tightening program assigned to multiple sockets.	Tightening program assigned to multiple sockets.	Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4060	Info	Tool Locked On Batch Complete	When running a batch with flag Tool lock on batch sequence complete this event is generated when the user press the trigger.	Unlock with signal Unlock Tool on complete.	Log Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tightening Process
4070	Info	Process Enter Manual Mode	Indicates that manual mode has been activated for a virtual station.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4071	Info	Process Enter Automatic Mode	Indicates that automatic mode has been entered for a virtual station.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4072	Info	Test Bolt			Conf	Flex Synchronized tightening	Tightening Process
4073	Info	Tool zero position updated	Indicates that the tool zero position is set using signals.		Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tightening Process
4100	Warning	Identifier Not Accepted: Invalid String Length			Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tightening Process
4101	Warning	String Selection Unsuccessful: Multiple Matches			Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tightening Process
4102	Warning	String Selection Unsuccessful: No Match Found			Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tightening Process
4103	Warning	Identifier Not Accepted: Identical String Already Received			Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tightening Process
4104	Warning	Identifier Not Accepted: No Match Found			Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Tightening Process
4500	Info	Result DriveError	Internal driver error or driver loss detected.		Conf	Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4501	Info	Result Rehit	Attempt to tighten an already tightened bolt when Rehit detection is on.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4502	Info	Result Soft Start Torque Low	Soft start torque below minimum level.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4503	Info	Result Soft Start Torque High	Soft start torque exceeded maximum level.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4504	Info	Result Self Tap Torque High	Self-tap torque exceeded maximum level.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4505	Info	Result Self Tap Torque Low	Self-tap torque below minimum limit.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4506	Info	Result Safety Torque Low	Automatically calculated torque value to ensure torque sensor is mounted correctly.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4507	Info	Result Rundown Torque High	Rundown torque exceeded maximum level.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4508	Info	Result Rundown Angle High	Rundown angle exceeded maximum level.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4509	Info	Result Rundown Time High	Rundown time exceeded maximum limit.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4510	Info	Result Rundown Time Low	Rundown time below minimum limit.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4511	Info	Result Rundown Torque Low	Rundown torque below minimum level.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4512	Info	Result Rundown Angle Low	Rundown angle below minimum level.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4513	Info	Result Final Torque High	Final step torque exceeded maximum level.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4514	Info	Result Final Angle High	Final step angle exceeded maximum level.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4515	Info	Result Final Torque Low	Final step torque below minimum level.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4516	Info	Result Final Angle Low	Final step angle below minimum level.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4517	Info	Result Tightening Timeout	Tightening time limit exceeded. For General Tightening Strategies max tightening time is 30 seconds. For Multistep max tightening time depends on step restriction Maximum Time Limit. Error code is dependent on tightening stage.	Redo tightening.	Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4518	Info	Result Trigger Lost	Tool trigger was released before target was reached. For General Tightening Strategies it is not allowed to release the trigger before the tightening stage has finished. For Multistep, the error is displayed when trigger is lost before the target in a specific step is reached.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4519	Info	Premature Torque Loss	Socket has slipped off the nut.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4520	Info	Result Target Reached Before Final Step	Target torque reached before final step in tightening program.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4521	Info	Result Post View Torque Low	Post view torque below minimum level.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4522	Info	Result Post View Torque High	Post view torque exceeded maximum level.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4523	Info	Result Post View Torque Interval Not Reached	Post view torque interval not reached.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4524	Info	Result Torque Compensation Interval Not Reached	Torque compensation interval angle before rundown end not reached.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4525	Info	Result Tool Movement Exceeded	From a NOK tightening detailed status.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4526	Info	Result SafetyCurrMon Sensor Mismatch	Current monitoring error.			IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4527	Info	Result Tool Movement Exceeded				IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4538	Info	Result Final Supervision Torque Low	Final Supervision Torque was not reached.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4543	Info	Result Snug Monitor High	Wrench only. Monitor detected snug value exceeded.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4545	Info	Result No Residual Torque	Wrench only. Residual torque was under threshold.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4546	Info	Result Overspeed	Wrench only. Wrench gyro failed to measure angle due to high speed.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4547	Info	Result Effective Loosening	Wrench only. Wrench detected unexpected loosening.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4548	Info	Result Final Less Than Target	Final torque is below target torque set in tightening program.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4549	Info	TurboTight Time Limit Exceeded			Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4550	Info	Result Rundown Pulses High	Maximum number of rundown pulses is exceeded.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4551	Info	Result Rundown Pulses Low	Rundown is completed before the minimum number of rundown pulses is reached.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4552	Info	Result Final Pulses High	Maximum number of pulses is exceeded.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4553	Info	Result Final Pulses Low	Tightening is completed before the minimum number of pulses is reached.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4554	Info	Current At Shutoff High	Current at shut off exceeded Current Limit High.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4555	Info	Current At Shutoff Low	Shut off current measured was below Current Limit Low.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4556	Info	Uncategorized Multistep Error	An error in the multistep configuration, often with tool validation.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4557	Info	Result Overload			Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4559	Info	Result Stopped	The event is triggered when an external stop signal or lock signal is aborting an ongoing tightening. The event is introduced to distinguish between trigger loss and external stop.		Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Tightening Process
4600	Warning	Data Drop or Data Hold used in combination with Batch Tightening. The signals have no effect		Data Drop and Data Hold are only supported for worktasks, without batch control. Select another worktask if the signals must be used.		Flex Synchronized tightening	Tightening Process
4601	Info	Data Hold Active: tightening result is sent once signal is low				Flex Synchronized tightening	Tightening Process
4602	Info	Data Drop active: tightening result discarded				Flex Synchronized tightening	Tightening Process
5010	Warning	Invalid Tightening Program Parameter Value	The parameter in the selected tightening program are invalid.	Check the configuration of the selected tightening program to find and to change the value of the parameter.	Log Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC PFHC	Program Configuration
5011	Warning	Couldn't prepare program storage in tool	It is not possible to read the current program storage size in the STB tool, or to prepare the program storage for downloading the updated - or newly selected - tightening program to the STB tool.	Check the STB tool for supported software version. Reboot the STB tool. Select again the tightening program. Check network connection for data consistency and quality.	Log Display Conf	Power Focus 6000 Power Focus 8 Power Focus XC	Program Configuration
5020	Info	Main Trigger Is Not The Active Start Source	Generated when configured for push start only and user presses main trigger. Will be generated until user presses the push start.	Press push start to start the tool.	Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Program Configuration
5030	Info	Tightening Program Complexity Exceeds Tool Capacity	The selected tightening program is too complex for the STB tool that is used. Tool will be locked.	Reduce complexity of the tightening program, or choose different program.	Log Display Conf	Power Focus 6000 Power Focus 8 Power Focus XC	Program Configuration
6010	Info	Accessory Connected	Accessory is connected to the controller.		Log Display Ack Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Accessory
6020	Info	Accessory Disconnected	Accessory is disconnected from the controller.		Log Display Ack Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Accessory
6021	Warning	Fieldbus Offline	No communication with Fieldbus.		Log Display Ack Conf	Flex Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Accessory
6030	Warning	Accessory Address Collision	Two or more accessories with the same address are connected.	Change address on accessory.	Log Display Ack Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Accessory
6040	Warning	Accessory Communication Error	Intermittent communication error with accessory.	Check cables and connectors.	Log Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Accessory
6041	Warning	Fieldbus Error	Communication error with Fieldbus.		Log Display Ack Conf	Flex Power Focus 6000 Power Focus 8 Synchronized tightening	Accessory
6042	Warning	Fieldbus Module Mismatch	The installed Fieldbus module does not match with the configured module.	Change the configuration to match with the installed module, or replace the installed module with the correct one.	Log Display Ack Conf	Flex Power Focus 6000 Power Focus 8 Synchronized tightening	Accessory
6043	Warning	Fieldbus Output Buffer Overflow	The output buffer used for the Fieldbus communication is exhausted and an overflow of the buffer has occurred. One or more signal updates have been discarded.	Stop Fieldbus communication and Fieldbus diagnostics (if used) to recover the buffer. If this event occurs frequently, check your Fieldbus communication setup, including the PLC program: too frequent updates compared to your update interval can lead to this scenario.	Log Display Ack Conf	Flex Power Focus 6000 Power Focus 8 Synchronized tightening	Accessory
6044	Warning	Fieldbus Provider ID mismatch	The installed fieldbus module is not supported.	Connect a supported Atlas Copco fieldbus module.	Log Display Ack	Power Focus 8	Accessory
6050	Info	Wrong Socket Selected	Generated when no or incorrect socket is selected.		Log Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Accessory
6090	Warning	Barcode Scanner Could Not Be Identified	When no unique serial number is found.	Configure the barcode reader device.	Log Display Ack Conf	Flex Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC PFHC	Accessory
7010	Info	Message Text To Display	General event for displaying of messages.		Display Ack Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC PFHC	Message
8200	Info	Failed To Open Serial Port	Serial port to be used could not be opened.	Check serial port connections.	Display Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Miscellaneous
8300	Warning	Open Protocol client communication timed out	Communication to an Open Protocol client has timed out. No keep alive message or command sent within expected time.	Check controller network connection. Check network setup: firewall and switches. Check client side application software.	Log Display Conf	Flex IxB Power Focus 6000 Power Focus 8 Synchronized tightening Power Focus XC	Miscellaneous
8214	Error	EHMI Software Version Mismatch	EHMI software version does not match in compatibility with the controller.	Update the software version of the EHMI.	Log Display Ack Conf	IxB Power Focus 6000 Power Focus 8 Power Focus XC	Miscellaneous

Glossary

Conf - Event Codes list

Tells the user whether it is possible to configure the event through the "Configure Event" page.

Available for - Event Codes list

List of products for which the event code is available.

Groups - Event Codes list

Group which the event codes belong to.

Event Description

A short description of the event and why it occurs.

Procedure - Event Codes list

If applicable, the procedure contains an instruction on how to clear the event.

Log - Event Codes list

Tells the user whether the event is to be saved in the event log or not. The value in this list is the default value.

display - Event Codes list

Tells the user whether the event is to be displayed on the screen or not. The value in this list is the default value.

Ack - Event Codes list

Tells the user whether the event must be acknowledged or not before you can proceed. The value in this list is the default value.

Event code

The unique event number.

Type of events - Event Codes list

Type of event: Info, Warning, and Error.

Event name

A descriptive name of the event.

NOK Results List

Error message	Description	GUI location
Drive error	Internal driver error or driver loss detected.	N/A
Rehit	Attempt to tighten an already tightened bolt.	Tightening parameters (Edit) > Rehit detection
Soft start torque above max	Soft start torque exceeded maximum level.	Tightening parameters (Edit) > (Step 1) Soft Start > Torque max
Selftap torque above max	Selftap torque exceeded maximum level.	Tightening parameters (Edit) > (Step 2) Selftap > Torque max
Selftap torque below min	Selftap torque below minimum limit.	Tightening parameters (Edit) > (Step 2) Selftap > Torque min
Safety torque limit low	Automatically calculated torque value to ensure torque sensor is mounted correctly.	N/A
Rundown torque above max	Rundown torque exceeded maximum level.	Tightening parameters (Edit) > (Step 2) Rundown torque limits > Torque max
Rundown angle above max	Rundown angle exceeded maximum level.	Tightening parameters (Edit) > (Step 2) Rundown angle limits > Angle max
Rundown exceeded max time limit	Rundown time exceeded maximum limit.	Tightening parameters (Edit) > (Step 2) Rundown angle limits > Time max
Rundown below min time limit	Rundown time below minimum limit.	Tightening parameters (Edit) > (Step 2) Rundown angle limits > Time min
Rundown torque below min	Rundown torque below minimum level.	Tightening parameters (Edit) > (Step 2) Rundown torque limits > Torque min
Rundown angle below min	Rundown angle below minimum level.	Tightening parameters (Edit) > (Step 2) Rundown angle limits > Angle min
Final step torque above max	Final step torque exceeded maximum level.	Tightening parameters (Edit) > (Step 3) Final step > Torque limits Manual > Torque max
Final step angle above max	Final step angle exceeded maximum level.	Tightening parameters (Edit) > (Step 3) Final step > Angle max
Final step torque below min	Final step torque below minimum level.	Tightening parameters (Edit) > (Step 3) Final step > Torque limits Manual > Torque min
Final step angle below min	Final step angle below minimum level.	Tightening parameters (Edit) > (Step 3) Final step > Angle max
Tightening timeout	Tightening time limit exceeded.	[Multistep] Tightening parameters (Edit) > Step dependent [Other tightening programs]: fixed parameter set to 30 seconds
Trigger lost	Tool trigger was released before target was reached.	[Multistep]: trigger release before tightening step target has been reached [Other tightening programs]: trigger release before tightening stage has finished
Slip off	Socket has slipped off the nut.	Tightening parameters (Edit) > (Step 3) Tightening parameters > Slipoff detection time
Target reached before final step	Target torque reached before final step in tightening program.	Target torque
Post view torque below min	Post view torque below minimum level.	Tightening parameters (Edit) > (Step 2) Post view torque > Torque min
Post view torque above max	Post view torque exceeded maximum level.	Tightening parameters (Edit) > (Step 2) Post view torque > Torque max
Post view torque interval not reached	Post view torque interval not reached.	Tightening parameters (Edit) > (Step 2) Post view torque > Torque min length
Torque compensation interval not reached	Torque compensation interval angle before rundown end not reached.	Tightening parameters (Edit) > (Step 3) Torque compensation > Torque compensation point
Tool movement exceeded	Tool was moved beyond set angle limits.	Tightening parameters (Edit) > (Step 1) TrueAngle compensation (On); Tool movement limits > Positive/Negative
Current monitoring error	Current monitoring error.	Tightening parameters (Edit) > (Step 1) Current monitoring (On)
Final step exceeded max time limit		[TurboTight] Tightening parameters (Edit) > (Step 3) Final step > Time max
Final step below min time limit		[TurboTight] Tightening parameters (Edit) > (Step 3) Final step > Time min
TurboTight time limit exceeded	TurboTight time limit exceeded.	[TurboTight] Tightening parameters (Edit) > (Step 3) Final step > Time max
Snug monitor high	Wrench only. Monitor detected snug value exceeded.	Tightening parameters (Edit) > Rundown stage (Step 2) Rundown complete > Rundown complete torque
No residual torque	Wrench only. Residual torque was under threshold.	[TurboTight] + [TensorPulse] Tightening parameters (Edit) > (Step 3) > Tightening parameters > Residual torque correlation factor
Overspeed	Wrench only. Wrench gyro failed to measure angle due to high speed.	N/A
Stopped	Stopped externally before target was reached.	[Multistep]: Stopped externally before tightening step target has been reached [Other tightening programs]: Stopped externally before tightening stage has finished

NOK Ratio

This section shows the ten highest NOK tightening programs.

Click Reset All to delete the stored data.

SPC - Statistical Process Control

The purpose of the built-in SPC function is to give the operator or quality control staff data that let them judge the stability and capability of the assembly process according to standard SPC rules.
By configuring the SPC function within the controller, it is possible to simplify and do the work directly on the controller without the need of external software. The charts are generated on the controller.
Since it is possible to use program monitors within the controller as a SPC variable, it is necessary to specify that only variables controlled by the controller show the performance of the controller system. Other variables show mainly results from other processes. For example, if a torque value is applied to a joint, then SPC of the final torque value and the related results - such as Cp and Cpk - show the performance of the tool and the controller on that joint.

Statistical calculations are based on old data stored in the controller.

Statistical calculations are done on a Virtual Station level, depending on the tightening program selected and used for that specific Virtual Station.

In this Section

Configuring SPC Parameters

On the Home view, select the Reports Tab. Then, on the left, select Statistics.
In the SPC Configuration window, enter the following parameters to collect results stored in the controller:
- Number of Subgroups: enter the number of subgroups the statistics calculation is based upon.
  The number of results (Number of Subgroups × Frequency) can range from 2 through 500.
- Subgroup Size: enter the number of tests (samples) necessary to define each point (the average value of the tests in the subgroup) on the SPC charts.
  The subgroup size can range from 2 through 25.
- Frequency: enter how often to start collecting a new subgroup.
  Frequency must be equal or higher than Subgroup size.
  
  For instance, if Frequency is 8 and Subgroup Size is 5, the first 5 data (results) is used for the subgroup. Because of the Frequency =8, the next subgroup starts considering data (results) from the 8th one on, and so on in a loop.

Configuring SPC Variables

On the Home view, select the Reports Tab. Then, on the left, select Statistics.
Select the Plus icon at the upper-right corner of the GUI.
The SPC Variable window shows the new variable.
In the Name box, enter the name of the variable.
The name of the variable is the heading of the SPC Variable window.
Select Tightening Program.
The Tightening Program window appears and lists all the multistep tightening programs stored in the controller and available for statistical calculations.
Select the multistep tightening program of the new variable.
The Tightening Program must be a Multistep Program.
Select Virtual Station.
The Virtual Station window appears.
Select the Virtual Station which the results are made from.
Statistics are based on results made by a Virtual Station that has the following license type assigned:
- Process Control
Select Monitor.
The Monitor window appears.
Select one of the following program monitors which the SPC calculation is based on:
- Step monitor peak torque
- Step monitor angle
- Final torque
- Final angle
- Program monitor torque
- Program monitor angle
If the user selects Step monitor peak torque or Step monitor angle, in the Step number box enter the number of the necessary step of the tightening program which read the value from.
If the user uses the result reporters, it is possible to have an effect on the following monitor values: Final torque and Final angle.
Select Edit limits.
The Variable configuration window appears.
For calculations and analysis of the results, set the following limits for each value of interest.

In the Tolerance limits window, set the following limits (used for calculation of the process capabilities Cp and Cpk):

Upper Tolerance Limit (UTL): a user-defined quantity that identifies the highest acceptable value of a product attribute.
Lower Tolerance Limit (LTL): a user-defined quantity that identifies the lowest acceptable value of a product attribute.

In the Control limits window, enable or disable the Auto calculate switch.
If the Auto calculate switch is set to Yes, the control limits are automatically calculated.
If the Auto calculate switch is set to No, set the following limits:

Mean - Upper control limit: a statistically determined measurement that appears as a horizontal dashed line above the process average.
Mean - Lower control limit: a statistically determined value that appears as a horizontal dashed line below the process average.
Range - Upper control limit: a statistically determined measurement that appears as a horizontal dashed line above the process average.
Range - Lower control limit: a statistically determined value that appears as a horizontal dashed line below the process average.
Sigma - Upper control limit: a statistically determined measurement that appears as a horizontal dashed line above the process average.
Sigma - Lower control limit: a statistically determined value that appears as a horizontal dashed line below the process average.

In the Capabilities window, set the following limits:

Cp: the Cp index gives the process capability: it is the number of times the spread of the process is into the tolerance width (Upper tolerance limit - Lower tolerance limit). The higher the value of Cp, the better the process.
Cpk: the Cpk index gives the process capability corrected for the position. It is not useful having a high Cp index if the process setting is way off center in relation to the middle of the tolerance range. A high Cpk index means, then, that you have a good process with a small spread in relation to the tolerance width, and also that it is well centered within that width (Upper tolerance limit - Lower tolerance limit). If Cpk is equal to Cp, the process is set to produce exactly in the middle of the tolerance range.

Calculating Statistics

On the Home view, select the Reports Tab. Then, on the left, select Statistics.
In the SPC Configuration window, enter the parameters to collect results stored in the controller (Number of Subgroups, Subgroup Size, and Frequency).
Select the Plus icon at the upper-right corner of the GUI.
The SPC Variable window shows the new variable.
Configure the new SPC Variable.
In the SPC Variable window, select Calculate.
Data is collected from the historical results stored in the controller that are aligned with the criteria set in the SPC Configuration window and SPC Variable window. The values of interest are collected into subgroups of the size set in the SPC Configuration window. The collected tightening results on the controller are used for statistics calculations.

It is not possible to calculate statistics for results from deleted tightening programs or Virtual Stations, unless the results are still stored on the controller.

Only 1 user at a time can calculate statistics.

Statistics Formulas

Data in a subgroup is calculated as:

Average:
Range = R = max (X_i) - min (X_i), where i=1...n
Standard deviation for a subgroup:
Total overall of the standard deviation:

Where N = total number of observations.

When specified number of subgroups to use for calculations has been collected, the SPC function starts calculations to determine the statistical stability.
Calculations are performed through the following steps: (m = number of subgroups)

Calculation of Average of Average values:
Calculation of Average of Range:
Calculation of Average of Standard deviation:
Calculation of the process capabilities Cp and Cpk with respect to Sigma:

Where:
- is the overall arithmetic average of the observed characteristic values.
- UTL is the Upper Tolerance Limit.
- LTL is the Lower Tolerance Limit.
- The sigma estimation is the mean square standard deviation within the subgroups:
Calculation of the process capabilities Cp and Cpk with respect to Range:

Where for a normal distribution su = sl = 3.

Calculations for control limits if, in the SPC Configuration window, the Auto calculate switch is set to Yes:

X-bar R (Mean)
X-bar R (Range)

X-bar S (Mean)
X-bar S (Sigma)

A₂, A₃, D₃, D₄, B₃, and B₄ are constants (for more information, see the "SPC Calculation Constants" paragraph).

SPC Calculations Constants

Subgroup Size	Divisors for estimate of standard dev.	Factors for Control Limits
		Xbar R			Xbar S
		A2	D3	D4	A3	B3	B4
n	d2	A2	D3	D4	A3	B3	B4
2	1.128	1.880	-	3.267	2.659	-	3.267
3	1.693	1.023	-	2.574	1.954	-	2.568
4	2.059	0.729	-	2.282	1.628	-	2.266
5	2.326	0.577	-	2.114	1.427	-	2.089
6	2.534	0.483	-	2.004	1.287	0.030	1.970
7	2.704	0.419	0.076	1.924	1.182	0.118	1.882
8	2.847	0.373	0.136	1.864	1.099	0.185	1.815
9	2.970	0.337	0.184	1.816	1.032	0.239	1.761
10	3.078	0.308	0.223	1.777	0.975	0.284	1.716
11	3.173	0.285	0.256	1.744	0.927	0.321	1.679
12	3.258	0.266	0.283	1.717	0.886	0.354	1.646
13	3.336	0.249	0.307	1.693	0.850	0.382	1.618
14	3.407	0.235	0.328	1.672	0.817	0.406	1.594
15	3.472	0.223	0.347	1.653	0.789	0.428	1.572
16	3.532	0.212	0.363	1.637	0.763	0.448	1.552
17	3.588	0.203	0.378	1.622	0.739	0.466	1.534
18	3.640	0.194	0.391	1.608	0.718	0.482	1.518
19	3.689	0.187	0.403	1.597	0.698	0.497	1.503
20	3.735	0.180	0.415	1.585	0.680	0.510	1.490
21	3.778	0.173	0.425	1.575	0.663	0.523	1.477
22	3.819	0.167	0.434	1.566	0.647	0.534	1.466
23	3.858	0.162	0.443	1.557	0.633	0.545	1.455
24	3.895	0.157	0.451	1.548	0.619	0.555	1.445
25	3.931	0.153	0.459	1.541	0.606	0.565	1.435

Relevant Information

Viewing Statistical Results

On the Home view, select the Reports Tab. Then, on the left, select Statistics.
In the SPC Configuration window, enter the following parameters: Number of Subgroups, Subgroup Size, and Frequency.
Select the Plus icon at the upper-right corner of the GUI.
The SPC Variable window shows the new variable.
Configure the new SPC Variable.
In the SPC Variable window, select Calculate.
To show the statistical results, in the SPC Variable window, select View box.
View box shows the date and time which the statistics results have been done.
The statistical results are displayed through a histogram, the XBar-R chart, and the XBar-S chart.
When all calculations on the filtered results are done, they are sent to the Web HMI and ToolsTalk 2.
The statistics results are locally saved on a Temporary Internet Files folder (not saved on the controller).
Statistical results can be displayed only on the Web HMI.

Histogram

A histogram is a series of rectangles, each proportional in width to the range of values within a class and proportional in height to the number of samples falling in the class. A Gaussian curve follows the trend of the rectangles. A histogram reveals the amount of variation that any process has within it.
The histogram is useful because it emphasizes and clarifies trends that are not readily discernible in tables.

XBar-R Chart

The XBar-R control chart shows both the mean value (XBar) and the range (R) of a subgroup. This is the most common type of control chart using indiscrete or continuous values. The XBar part of the chart shows any changes in the mean value of the process while the R part shows any changes in the dispersion of the process.
This chart is particularly useful because it shows changes in mean value and dispersion of the process at the same time, making it a very effective method for checking abnormalities in the process.

XBar-S Chart

The XBar-S control chart shows both the mean value (XBar) Chart and the standard deviation (S) for each subgroup.
The XBar-S chart is identical to the XBar-R chart except that the R (range) is replaced by an S (standard deviation).

Calculated Statistical Values

In the Web HMI the calculated statistical values are displayed in information boxes below the histogram, the XBar-R chart, and the XBar-S chart.

The calculated values depend on the chart which they are read on.

The calculated statistical values are:

Min = minimum value for all collected sample values
Max = maximum value for all collected sample values
Mean =
Mean+3Sigma = + 3*stdDev
Mean-3Sigma = - 3*stdDev
Cp (in XBar-R chart the value is based on range, and in XBar-S chart the value is based on sigma)
Cpk (in XBar-R chart the value is based on range, and in XBar-S chart the value is based on sigma)
Center line = in Range part , and in Sigma part
Target (if available the target value for the monitor)
Standard deviation = Total overall standard deviation = stdDev

Relevant Information

Mobile GUI

Working with the Results Tab
- Live Results
  - Viewing Protocol Status

Working with the Results Tab

Live Results
- Viewing Protocol Status

Live Results

The Live Results tap shows results from the different virtual stations on the controller.

This section describes how to access tightening results on the mobile GUI of the Power Focus XC controller and how to read the information given in the live result view after each tightening.

Reading the Information Given in a Live Result

Point and click on image to see more information:

1	Virtual station name
2	Result status. An OK tightening is colored green. An ongoing tightening is colored yellow. An NOK tightening is colored red.
3	Tightening program name
4	Message indicating the reason of the NOK result
5	Tightening torque result
6	Target torque
7	Tightening angle result
8	Target angle

When a tightening is performed, the results are stored on the controller. Results can also be sent to an external system such as ToolsNet or exported for analysis using the export function.

In this Section

Viewing Protocol Status

Viewing Protocol Status

On the home view, select the Go Result button. On the left pane, Live Results is automatically selected.
In the upper-right corner, select the Protocol connection button . The Protocol Status dialog box appears.

The tabs in the dialog box show the following information:

Tab	Description
Open Protocol	Shows the status of the open protocol connection: OK / NOK
Server Connections	Shows the status of the connections to ToolsTalk and ToolsNet servers: OK / NOK To change the configuration setting Enabled / Disabled, go to Settings > Server Connections and select the server to configure.
Launcher Status	Shows the launcher status of the different system adapters: OK / NOK

Select Close.

Relevant Information

Troubleshooting and Service

This section provides assistance in troubleshooting problems, should they arise, and contains information to help you maintain and service the product.

Reference

In this section, you can find miscellaneous useful information.

Terms and Definitions

Term	Synonym	Definition	Note
batch		multiple tightening using the same tightening program and socket
batch sequence	sequence	multiple tightening using a combination of different tightening programs and sockets
event		controller and tool status signal
final angle		actual measured angle value at the end of the tightening cycle
final torque		actual measured torque value at the end of the tightening cycle
GUI		user interface made up of interactive graphical elements, such as windows, icons and symbols on a display
HMI	Human Machine Interface	user interface to the tool or controller	The HMI can be a web-based interface or a mobile interface.
IAM	Intelligent Application Module	module in the controller containing program data, configuration parameters and tightening results
line structure		sorting and grouping controllers in structures, folders or sub-folders in ToolsTalk	The line structure is a method for improving the visibility of a large group of controllers in a structured manner.
mobile GUI		user interface to the controller through a browser window from a mobile device
post view torque		function for monitoring and detecting torque maximum and minimum values before rundown is complete	One purpose of post view torque is the use of a self-locking nut.
Tightening program	Parameter set	configuration of parameters and values to control and monitor a single tightening action, and to store the tightening result
push		transfer of data saved in ToolsTalk to the controller memory
QIF	Quality Integrated Fastening	fully integrated line of nutrunners, controllers, accessories and process monitoring tools to guarantee high quality and traceability of tightening in industrial assembly systems	QIF was developed at Atlas Copco and is preferably used in the motor vehicle industry and in other assembly situations where many joints are critical. The QIF concept also includes process monitoring and documentation.
QIF accessory		accessory for operator communication and guidance used in QIF	Accessory products used for communication between system and operator. For example: scanner and socket selector. The communication provides improved quality and traceability in the assembly process.
quick step		tightening strategy	A tightening strategy to reduce the joint’s preload scatter by combining an initial step with a given speed and torque and then reducing the speed in the final step.
re-hit detection		detection of re-tightening of an already tightened joint
rotate		tightening strategy which rotates the tool head	Rotate is mainly used for test or demonstration purposes.
rundown complete		end of the rundown step, when the screw head is in contact with the surface and the tightening step begins
rundown step		step when a bolt enters the thread until the bolt head touches the surface
snug		screw or bolt is approximately finger-tight to the surface
socket selector		QIF accessory, consisting of a socket tray with lamps, that can be used to guide an operator to the correct socket
soft start		start tightening at slow speed during a specified rotation angle	The function helps the bolt to enter the thread in a well controlled way and may prevent unwanted ergonomic tool movement when the trigger is pressed.
target		desired result of a tightening	The target is expressed in torque or angle.
target angle		desired angle value at the end of the tightening cycle, measured from a reference point
target torque		desired torque value at the end of the tightening cycle
three step		tightening strategy	A tightening strategy to reduce the joint’s preload scatter and relaxation effects with an initial step with a given speed and torque followed by a short loosening step before the final tightening at reduced speed.
tightening step		step from when a bolt head has reached the surface until the tightening has reached the desired target torque or target angle
tightening strategy		algorithm which continuously controls and monitors the tightening process	The user can select a strategy optimized for the joint and program certain parameters.
TurboTight		tightening strategy	A tightening strategy based on the tool’s maximum speed to perform fast and ergonomic tightening. The strategy requires only a target torque value to be set.
two step		tightening strategy	A tightening strategy to reduce the joint’s preload scatter and relaxation effects with an initial step with a given speed and torque, followed by a short-term stop, before the final tightening at reduced speed.
web GUI		user interface to the controller through a browser window from a remote computer
virtual station	virtual controller	software abstraction of a physical controller to behave like multiple controllers	A controller can have only one cable tool connected to it, but several wireless tools. Each tool is connected to its own virtual station.
virtual station type		license containing a bundle of controller features	This license is required for running a virtual station.
virtual station feature		license for individual features	Can be used to complement Virtual station type licenses.
controller feature		license for controller-wide features	Are assigned to an entire controller and can be used by all virtual stations.

Input Signals

Abort Sequence - 10012

When a Batch sequence abort request is received, the Batch sequence functionality aborts the batch sequence only after getting the ongoing tightening result.

Name in SoftPLC: ABORT_BATCH_SEQUENCE

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: FALSE
I/O Expander: TRUE

Abort Sequence and Clear Results - 10127

When signal "Abort sequence and clear results" is set, the ongoing sequence is aborted and signals related to "Clear results" are cleared.

Name in SoftPLC:ABORT_SEQ_AND_CLEAR_RES

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: FALSE
I/O Expander: TRUE

Acknowledge Events - 10004

Acknowledge of an event.

Name in SoftPLC: ACKNOWLEDGE_EVENT

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: FALSE
I/O Expander: TRUE

Activate Tool Scanner - 10075

Activates the tool scanner through an external source.

Name in SoftPLC: ACTIVATE_TOOL_SCANNER

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: FALSE
I/O Expander: TRUE

Batch Decrement - 10002

Incrementally decreases the batch counter by one.

Name in SoftPLC: BATCH_DECREMENT

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: FALSE
I/O Expander: TRUE

Batch Increment - 10001

Incrementally increases the batch counter by one.

Name in SoftPLC: BATCH_INCREMENT

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: FALSE
I/O Expander: TRUE

Bypass Identifier - 10123

In source batch string used to bypass an identifier string in string receiving sequence.

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: FALSE
I/O Expander: TRUE

Bypass Tightening Program - 10008

Skips the next tightening program in the running batch sequence.

Name in SoftPLC: BYPASS_PSET

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: FALSE
I/O Expander: TRUE

Master Unlock - 10005

Master Unlock is an input signal which unlocks the following functions and signals.

FUNCTIONS:

Disable loosening at OK tightening
Disable loosening at NOK tightening
Disable tightening
Max consecutive NOK
Tool Lock on Sequence complete

SIGNALS:

20001 - Pending Event Acknowledge Lock
20002 - Lock Tightening
20003 - Lock Loosening
20004 - Lock Tool Active High
20013 - WorkTask Lock Tightening
20014 - WorkTask Lock Loosening
20015 - Batch Done lLock
20018 - Open Protocol Lock
20020 - Fieldbus Lock Tightening
20021 - Fieldbus Lock Loosening
20022 - Disable Loosening At OK Tight
20023 - Too Many NOK Tightenings Lock
20033 - Line Control Lock
20034 - Locked By Alternative Identifier

Name in SoftPLC: MASTER_UNLOCK

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: FALSE
I/O Expander: TRUE

Reset All Identifiers - 10115

In Source batch string used to reset all received string identifiers from string receiving sequence at once. In other worktasks clears VIN number.

Name in SoftPLC: RESET_ALL_IDENTIFIERS

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: FALSE
I/O Expander: TRUE

Reset Batch - 10003

Resets the batch counter to 0. No batch OK (nxOK). If batch OK is activated, it will be deactivated.

Name in SoftPLC: RESET_BATCH

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: FALSE
I/O Expander: TRUE

Reset Batch Sequence - 10053

Resets the Batch Sequence. Unlocks a tool that is locked by Tool Lock on Complete.

Name in SoftPLC: RESET_BATCH_SEQUENCE

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: FALSE
I/O Expander: TRUE

Reset Bistable Relay - 10022

Reset the bistable relay output.

Name in SoftPLC: RESET_BISTABLE_RELAY

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: FALSE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: FALSE
I/O Expander: TRUE

Reset Latest Identifier - 10114

In Source batch string used to reset latest received string from string receiving sequence. In other worktasks clears VIN number.

Name in SoftPLC: RESET_LATEST_IDENTIFIER

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: FALSE
I/O Expander: TRUE

Reset Too Many NOK - 10013

Reset the batch after receiving lock Too Many NOK

Name in SoftPLC: RESET_TOO_MANY_NOK

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: FALSE
I/O Expander: TRUE

Select Input - 10020

Selects Tightening Program withing Source Tightening/Batch within sequence.

Name in SoftPLC: SELECT_INPUT_VALUE

Converter	Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Standard	State	Integer	1	16
TreatZeroAsOne	State	Integer	1	1

To avoid duplicating signals, it is possible to define Value Converters.

Converters are used to support more than one representation of the same signal (for example Angle/Torque Status can both be represented bitwise or as a status character).

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: FALSE
Operator Panel: FALSE
Tool Functions: FALSE
ST Selector: TRUE
Stacklight: FALSE
TLS Tag: FALSE
I/O Expander: FALSE

Select Next Identifier Number - 10116

It is possible to use the signal Select Next Identifier Number when a task in the virtual station is configured as:

Batch Sequence
Source Tightening
Source Batch
- Number Identifier method
- String Identifier method

ST Selector configurable functions Take Next and Take Previous enable the input signals Select Next Identifier Number and Select Previous Identifier Number.

Batch Sequence selected as Virtual Station Task

If Free Order switch has been enabled, the signal Select Next Identifier Number can select different batches within the selected sequence.

Before selecting batches, it is mandatory that they have the identifier number assigned. If a batch does not have the identifier number assigned, the signal Select Next Identifier Number cannot select it, even if Free Order switch is enabled.

It enables looping through the batches that have a configured identifier number.
If identifier number is "None", it is possible to select it only after all Batches with configured identifier number are completed.

It is possible to do looping, but 0 is skipped. When a batch is finished, it is no longer selectable.

For example, in case of batches with assigned identifier numbers 1,2,4,5, the signal runs in loop: 1,2,4,5,1,2,4... as long as the batches are not finished.

Source Tightening selected as Virtual Station Task

The signal selects the next identifier number from the list of tightening programs specified in the Source Tightening task.
The selection runs from the currently selected identifier number to the next larger one.

When the biggest identifier number is selected, this signal selects 0; after 0, the signal selects the next bigger identifier number.

If 0 is selected as identifier number, the tool is locked.

If the identifier number has been added to the Source Tightening list, but no tightening program has ever been assigned to it, it is skipped while looping through the Source Tightening list.

If the tightening program is assigned to an identifier number and then it is removed from the list of tightening programs, it is still possible to select this identifier number. In this case, the tool is locked because there is not a specific tightening program.

When Selector Mode switch is set to Confirm, the socket selector needs to be assigned and configured. All tightening programs can be selected, but before running them, appropriate socket must be lifted from the socket selector.

Source Batch selected as Virtual Station Task

In Sources > Batch Sequence > Source Batch, when the identifier method is set to Number, the signal Select Next Identifier Number selects sequences from a list of sequences shown in Source Batch task.

It is possible to do looping through 0. The signal Select Next Identifier Number selects only the identifier numbers assigned to sequences.

For example, if there are 4 sequences available with identifier numbers 1,2,4, and 8, the signal Select Next Identifier Number iterates and selects 1,2,4,8,0,1,2...

The identifier numbers not defined are not selected.

In Sources > Batch Sequence > Source Batch, when the identifier method is set to String, it is necessary to select the sequence through external sources (like scanner or Open Protocol). The signal Select Next Identifier Number is able to select the batches within the selected sequence.

Name in SoftPLC: SELECT_NEXT_ID_NUMBER

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: TRUE
Stacklight: TRUE
TLS Tag: FALSE
I/O Expander: TRUE

Select Previous Identifier Number - 10117

It is possible to use the signal Select Previous Identifier Number when a task in the virtual station is configured as:

Batch Sequence
Source Tightening
Source Batch
- Number Identifier method
- String Identifier method

ST Selector configurable functions Take Next and Take Previous enable the input signals Select Next Identifier Number and Select Previous Identifier Number.

Batch Sequence selected as Virtual Station Task

If Free Order switch has been enabled, the signal Select Previous Identifier Number can select different batches within the selected sequence.

Before selecting batches, it is mandatory that they have the identifier number assigned. If a batch does not have the identifier number assigned, the signal Select Previous Identifier Number cannot select it, even if Free Order switch is enabled.

It is possible to do looping, but 0 is skipped. When a batch is finished, it is no longer selectable.

For example, in case of batches with assigned identifier numbers 1,2,4,5, the signal runs in loop: 5,4,2,1,5,4,2... as long as the batches are not finished.

Source Tightening selected as Virtual Station Task

The signal selects the previous identifier number from the list of tightening programs specified in the Source Tightening task.
The selection runs from the currently selected identifier number to the previous lower one.

When the smallest identifier number is selected, this signal selects 0; after 0, the signal selects the next smaller identifier number.

If 0 is selected as identifier number, the tool is locked.

Source Batch selected as Virtual Station Task

In Sources > Batch Sequence > Source Batch, when the identifier method is set to Number, the signal Select Previous Identifier Number selects sequences from a list of sequences shown in Source Batch task.

It is possible to do looping through 0. The signal Select Previous Identifier Number selects only the identifier numbers assigned to sequences.

For example, if there are 4 sequences available with identifier numbers 1,2,4, and 8, the signal Select Previous Identifier Number iterates and selects 8,4,2,1,0,8,4...

The identifier numbers not defined are not selected.

In Sources > Batch Sequence > Source Batch, when the identifier method is set to String, it is necessary to select the sequence through external sources (like scanner or Open Protocol). The signal Select Previous Identifier Number is able to select the batches within the selected sequence.

Name in SoftPLC: SELECT_PREVIOUS_ID_NUMBER

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: TRUE
Stacklight: TRUE
TLS Tag: FALSE
I/O Expander: TRUE

Set Bistable Relay - 10021

Set the bistable relay output.

Name in SoftPLC: SET_BISTABLE_RELAY

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: FALSE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: FALSE
I/O Expander: TRUE

Set Zero Position - 10135

For hand-held tools, the input signal Set Zero Position keeps the current position of the tools as home position. The signal is silently ignored if sent during an ongoing tightening.

For fixtured tools, the input signal Set Zero Position keeps the current position of the tools as home position. The signal affects all the tools in the system, regardless of the virtual station. The signal is silently ignored by fixtured tools that are part of an ongoing tightening.

Name in SoftPLC: IN_EXTERNAL_SET_ZERO_POSITION

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: FALSE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: FALSE
I/O Expander: TRUE

Unlock Tool on Complete - 10051

Unlocks a tool that is locked by "Tool Lock on Complete".

Name in SoftPLC: UNLOCK_TOOL_ON_COMPLETE

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: FALSE
I/O Expander: TRUE

Unlock Tool on Disable - 10059

Name in SoftPLC: UNLOCK_TOOL_ON_DISABLE

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: FALSE
I/O Expander: TRUE

Output Signals

Batch Completed - 30

Batch Completed is an output signal which is triggered when the batch is complete.
The batch result status (OK or NOK) has no effect on the Batch Completed signal.

Name in SoftPLC: BATCH_COMPLETED

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Batch Completed NOK - 37

Batch finished with status NOK.

Name in SoftPLC: BATCH_COMPLETED_NOK

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Batch Completed OK - 36

Batch finished with status OK.

Name in SoftPLC: BATCH_COMPLETED_OK

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Batch Count - 31

Batch Count is an output signal which shows the current number of tightening in the batch.

Name in SoftPLC: BATCH_COUNT

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Integer	1	8

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: FALSE
Operator Panel: FALSE
Tool Functions: FALSE
ST Selector: TRUE
Stacklight: FALSE
TLS Tag: FALSE
I/O Expander: FALSE

Batch Running - 32

Indicates that a batch in a batch sequence is running.

Name in SoftPLC: BATCH_RUNNING

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Batch Sequence Completed NOK - 46

Batch sequence finished with status NOK.

Name in SoftPLC: BATCH_SEQUENCE_NOK

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Batch Sequence Completed OK - 45

Batch sequence finished with status OK.

Name in SoftPLC: BATCH_SEQUENCE_OK

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Batch Sequence Done - 48

Indicates when a sequence is completed, both in case Batch Sequence Completed OK and Batch Sequence Completed NOK.

Name in SoftPLC: BATCH_SEQUENCE_COMPLETED

Converter	Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Standard	Event	Boolean	1	1
Invert	Event	Boolean	1	1

To avoid duplicating signals, it is possible to define Value Converters.

Converters are used to support more than one representation of the same signal (for example Angle/Torque Status can both be represented bitwise or as a status character).

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Batch Sequence Running - 47

Indicates if the Batch Sequence is running or not.

Name in SoftPLC: BATCHSEQUENCE_RUNNING

Converter	Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Standard	State	Boolean	1	1
Invert	State	Boolean	1	1

To avoid duplicating signals, it is possible to define Value Converters.

Converters are used to support more than one representation of the same signal (for example Angle/Torque Status can both be represented bitwise or as a status character).

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Bistable Relay - 40

Bistable Relay is a signal controlled by the inputs "Set Bistable Relay" and "Reset Bistable Relay".
After receiving the input "Set Bistable Relay", Bistable Relay signal is set to True.
After receiving the input "Reset Bistable Relay", Bistable Relay signal is set to False.

If "Set Bistable Relay" or "Reset Bistable Relay" goes low, the Bistable relay keeps its state.
The state for the Bistable relay changes when "Set Bistable Relay" or "Reset Bistable Relay" goes high.

After restarting the controller, the Bistable relay is set to False as default.

Name in SoftPLC: BISTABLE_RELAY

Converter	Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Standard	State	Boolean	1	1
Invert	State	Boolean	1	1

To avoid duplicating signals, it is possible to define Value Converters.

Converters are used to support more than one representation of the same signal (for example Angle/Torque Status can both be represented bitwise or as a status character).

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Calibration Alarm - 138

The Calibration alarm from the Tool maintenance configuration. Provides a reminder for when it is time to calibrate the tool.

Name in SoftPLC: CALIBRATION_ALARM

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Confirm loosening - 206

Indicate if loosening is selected and possible to start. That is, a loosening sync mode or loosening program exists and are selected.

Name in SoftPLC: CONFIRM_LOOSENING

Converter	Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Standard	State	Boolean	1	1
Invert	State	Boolean	1	1

To avoid duplicating signals, it is possible to define Value Converters.

Converters are used to support more than one representation of the same signal (for example Angle/Torque Status can both be represented bitwise or as a status character).

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Controller Switched On - 42

Set to true at start up of IO Exchange

Name in SoftPLC: IO_ON

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Current Running Batch - 180

Current Running Batch is an output signal which shows the index of the current running batch in a sequence.
If the user uses a socket selector, "Zero" appears if none, more than one, or wrong socket is selected.
If the user uses batch mode and a batch is running, "1" appears for Source Tightening configurations.

Name in SoftPLC: CURRENT_RUNNING_BATCH_IX

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Integer	1	8

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: FALSE
Operator Panel: FALSE
Tool Functions: FALSE
ST Selector: TRUE
Stacklight: FALSE
TLS Tag: FALSE
I/O Expander: FALSE

Direction Switch CCW - 13

The direction switch on the tool is turned in counter clockwise direction.

Name in SoftPLC: DIRECTION_SWITCH_CCW

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Direction Switch CW - 12

The direction switch on the tool is turned in clockwise direction.

Name in SoftPLC: DIRECTION_SWITCH_CW

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Event Present - 161

Indicates if event is triggered. It is only triggered on accessories if event requires an ACK.

Name in SoftPLC: EVENT_PRESENT

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Final Angle - 8

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Float	0	0

Devices

Filedbus: FALSE
Indicator Box: FALSE
Internal I/O: FALSE
Operator Panel: FALSE
Tool Functions: FALSE
ST Selector: TRUE
Stacklight: FALSE
TLS Tag: FALSE
I/O Expander: FALSE

Final Torque - 5

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Float	1	1

Devices

Filedbus: FALSE
Indicator Box: FALSE
Internal I/O: FALSE
Operator Panel: FALSE
Tool Functions: FALSE
ST Selector: TRUE
Stacklight: FALSE
TLS Tag: FALSE
I/O Expander: FALSE

High Angle - 10

Angle result is too high.

Name in SoftPLC: HIGH_ANGLE

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

High Torque - 7

Torque result is higher than maximum torque limit.

Name in SoftPLC: HIGH_TORQUE

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Identifier Received - 100

Name in SoftPLC: IDENTIFIER_RECEIVED

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

License Server Connection Lost - 134

Indicates that the connection to the Atlas Copco license server has been lost or the synchronization has failed. The signal is cleared when the License manager synchronization has been done successfully

Name in SoftPLC: LICENSE_SERVER_CONN_LOST

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Loosening Disabled - 184

Loosening Disabled is an output signal which is activated when the loosening is externally locked by any of the following signals:

20003 - Lock Loosening
20004 - Lock Tool Active High
20033 - Line Control Lock
20018 - Open Protocol Lock
20021 - Fieldbus Lock Loosening
20041 - Soft PLC Lock Loosening
20061 - Lock Tool Active Low

Name in SoftPLC: LOOSENING_DISABLED

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Loosening Enabled - 185

Loosening Disabled is an output signal which is activated when the loosening is not externally locked by any of the following signals:

20003 - Lock Loosening
20004 - Lock Tool Active High
20033 - Line Control Lock
20018 - Open Protocol Lock
20021 - Fieldbus Lock Loosening
20041 - Soft PLC Lock Loosening
20061 - Lock Tool Active Low

Name in SoftPLC: LOOSENING_ENABLED

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Loosening is Locked - 28

The loosening is disabled.

Name in SoftPLC: LOOSENING_IS_LOCKED

Converter	Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Standard	State	Boolean	1	1
Invert	State	Boolean	1	1

To avoid duplicating signals, it is possible to define Value Converters.

Converters are used to support more than one representation of the same signal (for example Angle/Torque Status can both be represented bitwise or as a status character).

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Loosening NOK - 74

NOK loosening took place.

Name in SoftPLC: LOOSENING_NOK

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Loosening OK - 70

OK loosening took place.

Name in SoftPLC: LOOSENING_OK

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Low Angle - 9

Angle result is lower than minimum angle limit.

Name in SoftPLC: LOW_ANGLE

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Low Torque - 6

Torque result is lower than minimum torque limit.

Name in SoftPLC: LOW_TORQUE

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Manual Mode - 101

Indicates on any supported and configured accessory the Virtual Station status for manual mode

Name in SoftPLC: MANUAL_MODE

Converter	Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Standard	State	Boolean	1	1
Invert	State	Boolean	1	1

To avoid duplicating signals, it is possible to define Value Converters.

Converters are used to support more than one representation of the same signal (for example Angle/Torque Status can both be represented bitwise or as a status character).

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Max Consecutive NOK Reached - 35

Indicates Max coherent NOK tightening counter is reachead.

Name in SoftPLC: MAX_COHERENT_NOK_REACHED

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Open End in Open Position - 89

Open End tool in open position.

Name in SoftPLC: OPEN_END_IN_OPEN_POSITION

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Filedbus: FALSE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Open Protocol Disconnected - 95

If Open Protocol is set to off in the Virtual Station, "Open Protocol Disconnected" signal is set to False.
If Open Protocol is turned on in the Virtual Station the "Open Protocol Disconnected" signal is set to True.
When at least one client (several Open Protocol clients can connect to the same Virtual Station) is connected the "Open Protocol Disconnected" signal is set to False.

Name in SoftPLC: OPEN_PROTOCOL_DISCONNECTED

Converter	Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Standard	State	Boolean	1	1
Invert	State	Boolean	1	1

To avoid duplicating signals, it is possible to define Value Converters.

Converters are used to support more than one representation of the same signal (for example Angle/Torque Status can both be represented bitwise or as a status character).

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Pulse Tool Alarm Oil Level Empty - 167

Oil level supervision configured in the Tool maintenance, provides a mechanism to remind the users when it is time to fill up oil on a pulse tool. The signal does not notify the user when the trigger gets pressed.
The signal is cleared when tool is disconnected; then, it is sent again from the tool if the condition prevails next time the tool is connected.

Name in SoftPLC: TOOL_OIL_LEVEL_EMPTY

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Ready to Start - 29

If a tool is connected to the virtual station, there is not any active tightening locks, emergency stop is not activated, and a valid Tightening Program is selected, this signal indicates that it is possible to start a tightening.

Name in SoftPLC: READY_TO_START

Converter	Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Standard	State	Boolean	1	1
Invert	State	Boolean	1	1

To avoid duplicating signals, it is possible to define Value Converters.

Converters are used to support more than one representation of the same signal (for example Angle/Torque Status can both be represented bitwise or as a status character).

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Remaining Batch - 33

Remaining tightenings in a batch. Can only be viewed on a display.

Name in SoftPLC: REMAINING_BATCH

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Integer	1	8

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: FALSE
Operator Panel: FALSE
Tool Functions: FALSE
ST Selector: TRUE
Stacklight: FALSE
TLS Tag: FALSE
I/O Expander: FALSE

Rundown Angle High - 165

This signal is active if the rundown angle on the program level is higher than the set one.

Name in SoftPLC: RUNDOWN_ANGLE_HIGH

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Rundown Angle Low - 166

This signal is active if the rundown angle on the program level is lower than the set one.

Name in SoftPLC: RUNDOWN_ANGLE_LOW

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Selected Identifier Number - 213

The identifier number of a selected tightening program; 0 if no identifier number selected.

Name in SoftPLC: SELECTED_IDENTIFIER_NUMBER

Converter	Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Standard	State	Integer	1	16
TreatZeroAsOne	State	Integer	1	16

To avoid duplicating signals, it is possible to define Value Converters. Converters are used to support more than one representation of the same signal (for example Angle/Torque Status can both be represented bitwise or as a status character).

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: FALSE
Operator Panel: FALSE
Tool Functions: FALSE
ST Selector: TRUE
Stacklight: FALSE
TLS Tag: FALSE
I/O Expander: FALSE

Selected Sequence Id - 84

Shows the index of the selected batch sequence.

Name in SoftPLC: SELECTED_BATCH_SEQUENCE_ID

Converter	Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Standard	State	Integer	1	16
TreatZeroAsOne	State	Integer	1	16

To avoid duplicating signals, it is possible to define Value Converters.

Converters are used to support more than one representation of the same signal (for example Angle/Torque Status can both be represented bitwise or as a status character).

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: FALSE
Operator Panel: FALSE
Tool Functions: FALSE
ST Selector: TRUE
Stacklight: FALSE
TLS Tag: FALSE
I/O Expander: FALSE

Selected Tightening Program - 69

The actual id of a selected tightening program; 0 if no tightening program selected.

Name in SoftPLC: SELECTED_PSET_ID

Converter	Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Standard	State	Integer	1	16
TreatZeroAsOne	State	Integer	1	16

To avoid duplicating signals, it is possible to define Value Converters.

Converters are used to support more than one representation of the same signal (for example Angle/Torque Status can both be represented bitwise or as a status character).

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: FALSE
Operator Panel: FALSE
Tool Functions: FALSE
ST Selector: TRUE
Stacklight: FALSE
TLS Tag: FALSE
I/O Expander: FALSE

Sequence Aborted - 160

Output signal indicating if sequence was aborted.

Name in SoftPLC: SEQUENCE_ABORTED

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Service Indicator Alarm - 137

Service alarm configured in the Tool maintenance, provides a mechanism to remind the users when it is time to service the tool.

Name in SoftPLC: SERVICE_INDICATOR_ALARM

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Size of Sequence - 181

Shows the size of the currently running sequence. Only set when a sequence is loaded and not reset when sequence is done.

Name in SoftPLC: SIZE_OF_RUNNING_SEQUENCE

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Integer	1	8

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: FALSE
Operator Panel: FALSE
Tool Functions: FALSE
ST Selector: TRUE
Stacklight: FALSE
TLS Tag: FALSE
I/O Expander: FALSE

Station Ready - 71

Indicates when the Virtual Station is ready.

Name in SoftPLC: STATION_READY

Converter	Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Standard	State	Boolean	1	1
Invert	State	Boolean	1	1

To avoid duplicating signals, it is possible to define Value Converters.

Converters are used to support more than one representation of the same signal (for example Angle/Torque Status can both be represented bitwise or as a status character).

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Target Torque - 30100

Signal displaying the target torque of a performed tightening.

Set Step Category of the last step to Final. The ST Selector displays Target Torque only if the last step has a torque target.

Name in SoftPLC: STSELECTOR_TARGET_TORQUE

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Integer	1	1

Devices

Filedbus: FALSE
Indicator Box: FALSE
Internal I/O: FALSE
Operator Panel: FALSE
Tool Functions: FALSE
ST Selector: TRUE
Stacklight: FALSE
TLS Tag: FALSE
I/O Expander: FALSE

Target/Final Torque - 30101

Signal displaying the target/final torque alternatively.

Target/Final torque is between the target torque and the final torque if a selected tightening program is updated or a new tightening program is selected.

Set Step Category of the last step to Final. The ST Selector displays Target Torque only if the last step has a torque target.

Name in SoftPLC: STSELECTOR_TARGET_FINAL_TORQUE

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Integer	1	1

Devices

Filedbus: FALSE
Indicator Box: FALSE
Internal I/O: FALSE
Operator Panel: FALSE
Tool Functions: FALSE
ST Selector: TRUE
Stacklight: FALSE
TLS Tag: FALSE
I/O Expander: FALSE

Thread Direction CCW - 26

Selected tightening program has counterclockwise chosen as thread direction.

Name in SoftPLC: THREAD_DIRECTION_CCW

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Tightening Disabled - 182

Tightening Disabled is an output signal which is activated when the tightening is externally disabled by any of the following signals:

20002 - Lock Tightening
20004 - Lock Tool Active High
20033 - Line Control Lock
20018 - Open Protocol Lock
20020 - Fieldbus Lock Tightening
20040 - Soft PLC Lock Tightening
20061 - Lock Tool Active Low

Name in SoftPLC: TIGHTENING_DISABLED

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Tightening Enabled - 183

Tightening Enabled is an output signal which is activated when the tightening is not externally disabled by any of the following signals:

20002 - Lock Tightening
20004 - Lock Tool Active High
20033 - Line Control Lock
20018 - Open Protocol Lock
20020 - Fieldbus Lock Tightening
20040 - Soft PLC Lock Tightening
20061 - Lock Tool Active Low

Name in SoftPLC: TIGHTENING_ENABLED

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Tightening is Locked - 27

The tightening is disabled; it is not possible to make any tightening.

Name in SoftPLC: TIGHTENING_IS_LOCKED

Converter	Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Standard	State	Boolean	1	1
Invert	State	Boolean	1	1

To avoid duplicating signals, it is possible to define Value Converters.

Converters are used to support more than one representation of the same signal (for example Angle/Torque Status can both be represented bitwise or as a status character).

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Tightening NOK - 4

At least one result of the tightening is outside the specified limits.

Name in SoftPLC: TIGHTENING_NOK

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Tightening OK - 3

The result of the tightening is within the specified limits.

Name in SoftPLC: TIGHTENING_OK

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Tightening Time High - 135

Indicates if NOK tightenings occurred due to execution time exceeding the maximum allowed.

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: FALSE
I/O Expander: TRUE

Tightening Time Low - 136

Indicates if NOK tightenings occurred due to execution time lowering the minimum allowed.

Tightening Time Low signal works only for Tightening Programs.

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: FALSE
I/O Expander: TRUE

Tool Battery Low - 90

Name in SoftPLC: TOOL_BATTERY_LOW

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Tool Connected - 73

Indicates if a tool is connected or not to a Virtual Station.

Name in SoftPLC: TOOL_CONNECTED

Converter	Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Standard	State	Boolean	1	1
Invert	State	Boolean	1	1

To avoid duplicating signals, it is possible to define Value Converters.

Converters are used to support more than one representation of the same signal (for example Angle/Torque Status can both be represented bitwise or as a status character).

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Tool Disabled - 158

Tool Disabled is an output signal which is activated when the tool is externally disabled by any of the following signals:

20002 - Lock Tightening
20003 - Lock Loosening
20004 - Lock Tool Active High
20033 - Line Control Lock
20018 - Open Protocol Lock
20020 - Fieldbus Lock Tightening
20021 - Fieldbus Lock Loosening
20040 - Soft PLC Lock Tightening
20041 - Soft PLC Lock Loosening
20061 - Lock Tool Active Low

Name in SoftPLC: TOOL_DISABLED

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Tool Enabled - 159

Tool Enabled is an output signal which is activated when the tool is not externally disabled by any of the following signals:

20002 - Lock Tightening
20003 - Lock Loosening
20004 - Lock Tool Active High
20033 - Line Control Lock
20018 - Open Protocol Lock
20020 - Fieldbus Lock Tightening
20021 - Fieldbus Lock Loosening
20040 - Soft PLC Lock Tightening
20041 - Soft PLC Lock Loosening
20061 - Lock Tool Active Low

Name in SoftPLC: TOOL_ENABLED

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Tool Function Button Pressed - 179

Output signal tracking the Function button state. The signal is set when the Function button is pressed and cleared when the Function button is released. Not for critical use in case of battery tools.

Name in SoftPLC: FUNCTION_BUTTON_PRESSED

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: FALSE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: FALSE
I/O Expander: TRUE

Tool Health OK - 103

Tool Health OK is High when there is no tool error present, while Tool Health OK is Low when any of the following tool errors are set:

Tool Overheated
Tool Requires motor tuning
Open End not tuned
Tool parameter file not supported
Tool battery empty
Tool trigger supervision failure
Tool cable not supported
Tool memory failure
Tool memory corrupt
Tool service interval expired
Tool software version mismatch

Converter	Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Standard	State	Boolean	1	1
Invert	State	Boolean	1	1

To avoid duplicating signals, it is possible to define Value Converters.

Converters are used to support more than one representation of the same signal (for example Angle/Torque Status can both be represented bitwise or as a status character).

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Tool LED Mirror Green - 98

Signal showing the tool green LED status on an accessory.

The Tool LED Mirror Green signal is set to True, if the tool green LED is ON/flashing.
The Tool LED Mirror Green signal is set to False, if the tool green LED is OFF.

Name in SoftPLC: TOOL_RESULT_LED_GREEN

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Tool LED Mirror Red - 97

Signal showing the tool red LED status on an accessory.

The Tool LED Mirror Red signal is set to True, if the tool red LED is ON/flashing.
The Tool LED Mirror Red signal is set to False, if the tool red LED is OFF.

Name in SoftPLC: TOOL_RESULT_LED_RED

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Tool LED Mirror Yellow - 99

Signal showing the tool yellow LED status on an accessory.

The Tool LED Mirror Yellow signal is set to True, if the tool yellow LED is ON/flashing.
The Tool LED Mirror Yellow signal is set to False, if the tool yellow LED is OFF.

Name in SoftPLC: TOOL_RESULT_LED_YELLOW

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Tool Loosening - 22

Indicates that the tool is loosening.

Name in SoftPLC: TOOL_LOOSENING

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: FALSE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Tool Rotation CCW - 25

Tool rotation direction is counterclockwise for left-handed threaded screws.

Name in SoftPLC: TOOL_ROTATION_CCW

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: FALSE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Tool Rotation CW - 24

Tool rotation direction is clockwise for right-handed threaded screws.

Name in SoftPLC: TOOL_ROTATION_CW

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: FALSE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Tool Running - 23

Indicates that the tool is rotating (clockwise [CW] or counter-clockwise [CCW]).

Name in SoftPLC: TOOL_RUNNING

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: FALSE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Tool Tightening - 21

Indicates that the tool is tightening.

Name in SoftPLC: TOOL_TIGHTENING

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: FALSE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Tools in Zero Position - 210

The output signal Tools in Zero Position is available only for hand-held tool.

The output signal Tools in Zero Position defines if the tool is in home position - for example, at the end of a forward or backward position step.
The signal is not updated in real time, so if the tool for any reason is moved out of position, the signal will not work.

Name in SoftPLC: TOOLS_IN_ZERO_POSITION

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: FALSE
I/O Expander: TRUE

ToolsNet Connection Lost - 133

Indicates if enabled connection between ToolsNet and controller got interrupted or is working as expected.

Name in SoftPLC: TOOLSNET_CONNECTION_LOST

Converter	Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Standard	State	Boolean	1	1
Invert	State	Boolean	1	1

To avoid duplicating signals, it is possible to define Value Converters.

Converters are used to support more than one representation of the same signal (for example Angle/Torque Status can both be represented bitwise or as a status character).

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

ToolsTalk Connection Lost - 208

Indicates if enabled connection between ToolsTalk and controller got interrupted or is working as expected.

Name in SoftPLC: TOOLSTALK_CONNECTION_LOST

Converter	Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Standard	State	Boolean	1	1
Invert	State	Boolean	1	1

To avoid duplicating signals, it is possible to define Value Converters.

Converters are used to support more than one representation of the same signal (for example Angle/Torque Status can both be represented bitwise or as a status character).

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: TRUE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Total Remaining Sequence Counter - 205

The amount of remaining tightenings to be completed in a batch sequence.

Name in SoftPLC: TOTAL_REMAINING_SEQ_COUNT

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Integer	1	16

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: FALSE
Operator Panel: FALSE
Tool Functions: FALSE
ST Selector: TRUE
Stacklight: FALSE
TLS Tag: FALSE
I/O Expander: FALSE

Total Sequence Counter - 204

The amount of completed tightenings in a batch sequence.

Name in SoftPLC: TOTAL_SEQ_COUNTER

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Integer	1	16

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: FALSE
Operator Panel: FALSE
Tool Functions: FALSE
ST Selector: TRUE
Stacklight: FALSE
TLS Tag: FALSE
I/O Expander: FALSE

Total Sequence Size - 203

The total amount of tightenings to be completed in a batch sequence.

Name in SoftPLC: TOTAL_SEQ_SIZE

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Integer	1	16

Devices

Fieldbus: TRUE
Indicator Box: FALSE
Internal I/O: FALSE
I/O Expander: FALSE
Operator Panel: FALSE
ST Selector: TRUE
Stacklight: FALSE
Tool Functions: FALSE
TLS Tag: FALSE

Trigger pressed - 11

Indicates that the tool trigger has been pressed.

Name in SoftPLC: TRIGGER_PRESSED

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Input/Output Signals

Disable Open Protocol Commands - 10060

Disables the possibility to send commands over Open Protocol to the Virtual Station.

Name in SoftPLC: DISABLE_OPEN_PRTCOL_CMDS

Converter	Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Standard	State	Boolean	1	1
Invert	State	Boolean	1	1

To avoid duplicating signals, it is possible to define Value Converters.

Converters are used to support more than one representation of the same signal (for example Angle/Torque Status can both be represented bitwise or as a status character).

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

External Monitored 1 - 10035

External Monitored 1 is an Input/Output signal that is not attached to any specific feature in the controller and can be used for customer specific needs.

Name in SoftPLC: EXTERNAL_MONITORED_1

Converter	Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Standard	State	Boolean	1	1
Invert	State	Boolean	1	1

To avoid duplicating signals, it is possible to define Value Converters.

Converters are used to support more than one representation of the same signal (for example Angle/Torque Status can both be represented bitwise or as a status character).

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

External Monitored 2 - 10036

External Monitored 2 is an Input/Output signal that is not attached to any specific feature in the controller and can be used for customer specific needs.

Name in SoftPLC: EXTERNAL_MONITORED_2

Converter	Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Standard	State	Boolean	1	1
Invert	State	Boolean	1	1

To avoid duplicating signals, it is possible to define Value Converters.

Converters are used to support more than one representation of the same signal (for example Angle/Torque Status can both be represented bitwise or as a status character).

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

External Monitored 3 - 10037

External Monitored 3 is an Input/Output signal that is not attached to any specific feature in the controller and can be used for customer specific needs.

Name in SoftPLC: EXTERNAL_MONITORED_3

Converter	Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Standard	State	Boolean	1	1
Invert	State	Boolean	1	1

To avoid duplicating signals, it is possible to define Value Converters.

Converters are used to support more than one representation of the same signal (for example Angle/Torque Status can both be represented bitwise or as a status character).

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

External Monitored 4 - 10038

External Monitored 4 is an Input/Output signal that is not attached to any specific feature in the controller and can be used for customer specific needs.

Name in SoftPLC: EXTERNAL_MONITORED_4

Converter	Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Standard	State	Boolean	1	1
Invert	State	Boolean	1	1

To avoid duplicating signals, it is possible to define Value Converters.

Converters are used to support more than one representation of the same signal (for example Angle/Torque Status can both be represented bitwise or as a status character).

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

External Monitored 5 - 10039

External Monitored 5 is an Input/Output signal that is not attached to any specific feature in the controller and can be used for customer specific needs.

Name in SoftPLC: EXTERNAL_MONITORED_5

Converter	Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Standard	State	Boolean	1	1
Invert	State	Boolean	1	1

To avoid duplicating signals, it is possible to define Value Converters.

Converters are used to support more than one representation of the same signal (for example Angle/Torque Status can both be represented bitwise or as a status character).

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

External Monitored 6 - 10040

External Monitored 6 is an Input/Output signal that is not attached to any specific feature in the controller and can be used for customer specific needs.

Name in SoftPLC: EXTERNAL_MONITORED_6

Converter	Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Standard	State	Boolean	1	1
Invert	State	Boolean	1	1

To avoid duplicating signals, it is possible to define Value Converters.

Converters are used to support more than one representation of the same signal (for example Angle/Torque Status can both be represented bitwise or as a status character).

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

External Monitored 7 - 10041

External Monitored 7 is an Input/Output signal that is not attached to any specific feature in the controller and can be used for customer specific needs.

Name in SoftPLC: EXTERNAL_MONITORED_7

Converter	Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Standard	State	Boolean	1	1
Invert	State	Boolean	1	1

To avoid duplicating signals, it is possible to define Value Converters.

Converters are used to support more than one representation of the same signal (for example Angle/Torque Status can both be represented bitwise or as a status character).

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

External Monitored 8 - 10042

External Monitored 8 is an Input/Output signal that is not attached to any specific feature in the controller and can be used for customer specific needs.

Name in SoftPLC: EXTERNAL_MONITORED_8

Converter	Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Standard	State	Boolean	1	1
Invert	State	Boolean	1	1

To avoid duplicating signals, it is possible to define Value Converters.

Converters are used to support more than one representation of the same signal (for example Angle/Torque Status can both be represented bitwise or as a status character).

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Flash Tool Green LED (external protocol) - 10058

Name in SoftPLC: FLASH_TOOL_GREEN_LED

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
Event	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: FALSE
I/O Expander: TRUE

Generic I/O 1 - 50

Input/Output 1 used for Open Protocol.

Name in SoftPLC: GENERIC_IO_1

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Integer	1	8

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: TRUE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Generic I/O 2 - 51

Input/Output 2 used for Open Protocol.

Name in SoftPLC: GENERIC_IO_2

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Integer	1	8

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: TRUE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Generic I/O 3 - 52

Input/Output 3 used for Open Protocol.

Name in SoftPLC: GENERIC_IO_3

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Integer	1	8

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: TRUE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Generic I/O 4 - 53

Input/Output 4 used for Open Protocol.

Name in SoftPLC: GENERIC_IO_4

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Integer	1	8

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: TRUE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Generic I/O 5 - 54

Input/Output 5 used for Open Protocol.

Name in SoftPLC: GENERIC_IO_5

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Integer	1	8

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: TRUE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Generic I/O 6 - 55

Input/Output 6 used for Open Protocol.

Name in SoftPLC: GENERIC_IO_6

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Integer	1	8

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: TRUE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Generic I/O 7 - 56

Input/Output 7 used for Open Protocol.

Name in SoftPLC: GENERIC_IO_7

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Integer	1	8

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: TRUE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Generic I/O 8 - 57

Input/Output 8 used for Open Protocol.

Name in SoftPLC: GENERIC_IO_8

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Integer	1	8

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: TRUE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Generic I/O 9 - 58

Input/Output 9 used for Open Protocol.

Name in SoftPLC: GENERIC_IO_9

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Integer	1	8

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: TRUE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Generic I/O 10 - 59

Input/Output 10 used for Open Protocol.

Name in SoftPLC: GENERIC_IO_10

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Integer	1	8

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: TRUE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Tool in Production Space - 93

Name in SoftPLC: TOOL_IN_PRODUCT_SPACE

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Tool in Work Space - 92

Name in SoftPLC: TOOL_IN_WORK_SPACE

Signal Type	Value Type	Size Min [bit]	Size Max [bit]
State	Boolean	1	1

Devices

Fieldbus: TRUE
Indicator Box: TRUE
Internal I/O: TRUE
Operator Panel: TRUE
Tool Functions: TRUE
ST Selector: FALSE
Stacklight: TRUE
TLS Tag: TRUE
I/O Expander: TRUE

Third Party Licenses

List of Third-Party Licenses

List of Third-Party Licenses

Power Focus controllers incorporate third-party components whose licenses require us to publish copies of the licensing language and/or copyright notices. In compliance with those requirements, here are copies of the licenses. Please, click on any of the licenses below to show a copy of the license text.

Software	Version	Licenses
acl	2.2.52	GPL v2.0 LGPL v2.1
alsa-lib	1.1.2	GPL v2.0 LGPL v2.1
alsa-state	0.2.0	MIT
alsa-tools	1.1.0	GPL v2.0 LGPL v2.0
alsa-utils	1.1.2	GPL v2.0
anybus	1.1	Proprietary
atftp	0.7.1 + gitAUTOINC + be3291a18c	GPL v2.0
attr	2.4.47	GPL v2.0 LGPL v2.1
barebox	2018.06.0	GPL v2.0
base-files	3.0.14	GPL v2.0
base-files-px2-base	1.0	MIT
base-passwd	3.5.29	GPL v2.0
bash	4.3.30	GPL v3.0
bash-completion	2.4	GPL v2.0
bluez5	5.41	GPL v2.0 LGPL v2.1
boost	1.61.0	MIT BSL v1.0 Python v2.0
busybox-px2base	1.24.1	GPL v2.0 bzip v2.0
bzip2	1.0.6	bzip v2.0
ca-certificates	20160104	GPL v2.0 MPL v2.0
cppunit	1.13.1	LGPL v2.1
cryptodev-linux	1.8	GPL v2.0
curl	7.50.1	MIT
db	3.0.35	AGPL v3.0
dbus	1.10.10	GPL v2.0 AFL v2.0
dhcp	4.3.4	ISC
dosfstools	4.0	GPL v3.0
dt-utils	2017.03.0	GPL v2.0
e2fsprogs	1.43	GPL v2.0 LGPL v2.0 BSD MIT
ecryptfs-tools	1.0	GPL v1.0
elfutils	0.166	GPL v3.0 Elfutils-Exception
eudev	3.2.2	GPL v2.0 LGPL v2.1
expat	2.2.0	MIT
fbset	2.1	GPL v2.0
fb-test	1.1.0	GPL v2.0
fcgi	2.4.0	OML
finit	3.1	MIT
firmware-imx	5.4	Proprietary
flac	1.3.1	GPL v2.0 LGPL v2.1 BSD GFDL v1.2
flatbuffers	1.9.0	Apache v2.0
fruit	3.4.0 + gitAUTOINC + ece0f7218c	Apache v2.0
fuse	2.9.4	GPL v2.0 LGPL v2.0
gcc-runtime	6.2.0	GPL v3.0 with GCC exception
gdb	8.0.1	GPL v2.0 LGPL v2.0 GPL v3.0 LGPL v3.0
gdbm	1.12	GPL v3.0
glib-2.0	2.48.2	LGPL v2.0 BSD Public Domain License
glibc	2.24	GPL v2.0 LGPL v2.1
gmp	6.1.1	GPL v2.0 LGPL v3.0
gnutls	3.5.3	GPL v3.0 LGPL v2.1
grep	2.25	GPL v3.0
gstreamer1.0	1.8.3	LGPL v2.0
gstreamer1.0-plugins-base	1.8.3	GPL v2.0 LGPL v2.0
hostpad	2.6	GPL v2.0 BSD
htop	1.0.3	GPL v2.0
icu	57.1	ICU
init-ifupdown	1.0	GPL v2.0
initscripts	1.0	GPL v2.0
iproute2	4.7.0	GPL v2.0
iptables	1.6.0	GPL v2.0
ipwatchd	1.2	GPL v2.0
iw	4.7	BSD
json-spirit	4.08	MIT
keyutils	1.5.9	GPL v2.0
kmod	23 + gitAUTOINC + 65a885df5f	GPL v2.0 LGPL v2.1
kmsfbwrap-px2base	12.0	GPL v2.0
libarchive	3.2.2	BSD
libbsd	0.8.3	BSD v4 Clause ISC Public Domain License
libcap	2.25	GPL v2.0 BSD
libdrm	2.4.70	MIT
libestr	0.1.10	LGPL v2.1
libevent	2.0.22	BSD
libfastjson	0.99.4	MIT
libffi	3.2.1	MIT
libgcc	6.2.0	GPL v3.0 with GCC exception GPL v3.0
libgcrypt	1.7.3	GPL v2.0 LGPL v2.1 GPL v3.0
libgpg-error	1.24	GPL v2.0 LGPL v2.1
libidn	1.33	LGPL v3.0 LGPL v2.1 GPL v3.0
libite	2.0.2	BSD ISC MIT
libjpeg-turbo	1.5.0	BSD v3 Clause
liblogging	1.0.5	BSD
libnet	1.2-rc3	BSD
libnfsidmap	0.25	BSD
libnl	3.2.28	LGPL v2.1
libogg	1.3.2	BSD
libpcap	1.8.1	BSD
libpcre	8.39	BSD
libpng	1.6.24	Libpng
librcf	2.2.0.0	GPL v2.0
libsamplerate0	0.1.8	GPL v2.0
libsndfile1	1.0.27	LGPL v2.1
libtinyxml	2.6.2	Zlib
libtirpc	1.0.1	BSD
libuev	2.2.0	MIT
libusb1	1.0.20	LGPL v2.1
libvorbis	1.3.5	BSD
libxml2	2.9.4	MIT
libxslt	1.1.29	MIT
lighttpd	1.4.51	BSD
linux-atlas	4.14	GPL v2.0
linux-libc-headers	4.14.13	GPL v2.0
logrotate	3.9.1	GPL v2.0
lua	5.1.5	MIT
luabind	git	MIT
lzo	2.09	GPL v2.0
lzop	1.03	GPL v2.0
memlog	2.0	MIT
mesa	12.0.1	MIT
mg	20161005	Public Domain License
minizip	1.2.8	Zlib
mmc-utils	0.1	GPL v2.0
mtd-utils	1.5.2	GPL v2.0
nano	2.2.5	GPL v3.0
ncurses	6.0 + 20160625	MIT
netbase	5.3	GPL v2.0
netcat-openbsd	1.105	BSD v3 Clause
nettle	3.2	GPL v2.0 LGPL v3.0
nfs-utils	2.1.1	GPL v2.0 BSD MIT
ntp	4.2.8p8	NTP
openssh	7.6p1	BSD
openssl	1.0.2n	openSSL
opkg	0.3.3	GPL v2.0
opkg-arch-config	1.0	MIT
opkg-utils	0.3.2 + gitAUTOINC + 3ffece9bf1	GPL v2.0
orc	0.4.25	BSD v3 Clause BSD v2 Clause
os-release	1.0	MIT
packagegroup-atlas-qt5	1.0	MIT
packagegroup-atlas-sxb	1.0	MIT
packagegroup-base	1.0	MIT
packagegroup-core-boot	1.0	MIT
packagegroup-core-eclipse-debug	1.0	MIT
packagegroup-core-nfs	1.0	MIT
packagegroup-core-ssh-openssh	1.0	MIT
packagegroup-px2it	1.0	MIT
parted	3.2	GPL v3.0
perl	5.22.1	GPL v1.0 Artistic v1.0
pm-utils	1.4.1	GPL v2.0
poco	1.9.0	BSL v1.0
pointercal	0.0	MIT
popt	1.16	MIT
procps	3.3.12	GPL v2.0 LGPL v2.0
protobuf	2.6.1 + gitAUTOINC + bba83652e1	BSD v3 Clause
python	2.7.12	Python v2.0
qtbase	5.7.1 + gitAUTOINC + a55f36211e	BSD GPL v2.0 GPL v3.0 GFDL v1.3 LGPL v3.0 The Qt Company Commercial The Qt Company LGPL Exception v1.0
qtdeclarative	5.7.1 + gitAUTOINC + 2a992040e2	BSD GPL v2.0 GPL v3.0 GFDL v1.3 LGPL v3.0 The Qt Company Commercial The Qt Company LGPL Exception v1.0
qtlocation	5.7.1 + gitAUTOINC + de5be121d8	BSD GPL v2.0 LGPL v2.1 GFDL v1.3 LGPL v3.0 The Qt Company LGPL Exception v1.1
qtsensors	5.7.1 + gitAUTOINC + 5a57beaaa5	BSD GPL v2.0 GPL v3.0 GFDL v1.3 LGPL v3.0 The Qt Company Commercial The Qt Company LGPL Exception v1.0
qtwebkit	5.7.1 + gitAUTOINC + 76e2732f01	BSD GPL v2.0 LGPL v2.0
qtwebsockets	5.7.1 + gitAUTOINC + 60cede232a	GFDL v1.3 LGPL v2.1 LGPL v3.0 The Qt Company LGPL Exception v1.1
qtxmlpatterns	5.7.1 + gitAUTOINC + 89dbcc4f80	BSD GPL v2.0 GPL v3.0 GFDL v1.3 LGPL v3.0 The Qt Company Commercial The Qt Company LGPL Exception v1.0
rauc	0.4	LGPL v2.1
readline	6.3	GPL v3.0
rpcbind	0.2.3	BSD
rsync	3.1.2	GPL v3.0
rsyslog	8.22.0	Apache v2.0 GPL v3.0 LGPL v3.0
run-postinsts	1.0	MIT
shadow	4.2.1	BSD Artistic v1.0
shadow-security	4.2.1	MIT
sqlite3	3.14.1	Public Domain License
squashfs-tools	5.7.1 + gitrAUTOINC + 9c1db6d13a	Public Domain License GPL v2.0
st-load	1.0	Public Domain License
stm32flash	git	GPL v2.0
strace	4.13	BSD
sysfsutils	2.1.0	GPL v2.0 LGPL v2.1
sysvinit-bootlogd	2.88dsf	GPL v2.0
tcf-agent	1.4.0 + gitAUTOINC + 2dddd5f440	EDL v1.0 EPL v1.0
tcpdump	4.7.4	BSD
tcp-wrappers	7.6	BSD
tslib	1.1	LGPL v2.0
tzdata	2016i	BSD BSD v3 Clause Public Domain License
u-boot-atlas	2017.09	GPL v2.0
u-boot-fw-utils	2017.09	GPL v2.0
unzip	6.0	BSD v3 Clause
usbutils	008	GPL v2.0
util-linux	2.28.1	BSD GPL v2.0 LGPL v2.1
wireless-tools	30.pre9	BSD GPL v2.0 LGPL v2.1 MPL v1.1
wpa-supplicant	2.5	BSD
xerces-c	2.7.0	Apache v2.0
xz	5.2.2	GPL v2.0 LGPL v2.1 GPL v3.0 with autoconf exception Public Domain License
yaml-cpp	0.6.2	MIT
zip	3.0	BSD v3 Clause
zlib	1.2.8	Zlib

A	Reduced positive energy in pulse N
B	Reduced positive energy in pulse N+1
C	Resulting curve for torque build up using maximum pulse energy.
D	Resulting curve for torque build up using reduced pulse energy.

A	Action pulse to apply tightening force.
B	Reaction pulse for comfort

A	Maximum positive energy in pulse N
B	Maximum positive energy in pulse N+1
C	Increase in energy (torque)

Identifier string	Positions
String 1: 1234567	1-7
String 2: abcdef	8-13
String 3: GHIJKL	14-19
String 4: 890	20-22

Saved positions	Saved results
(empty)	1234567abcdefGHIJKL890
1-3,9,11,15,20-22	123bdH890
8-12,1-7,19,20-21 will be changed automatically to: 1-12,19-21	1234567abcdeL89

A	Controller internal state machine and logic functions
B	Digital output signal path
C	Digital input signal path
D	Diagnostics module

A	Holder for socket or bit
B	Indicator LEDs for the position
C	Sticker area
D	Mounting holes in each corner
E	Service port
F	Battery status LED (only available on wireless versions)
G	WLAN status LED (available on some selectors)
H	Battery (only available on wireless versions)
I	Mobility module (only available on wireless versions)

A	Connector cover
B	External DC power in; Kycon (DC DIN) connector
C	Ethernet in, upstream connection; M12 D-coded female connector
D	Selector back side
E	Digital input and output connector
F	Ethernet out, downstream connection; M12 D-coded female connector
G	Battery

Category	SysLog classification
Error	Alert, Critical, Emergency, Error
Warning	Warning
Info	Informational, Notice