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www.telemecanique.com 02/2007 1639575 v1.0 Quick Start Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 About the Book . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 3 4
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e.com
1639
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v1.0
www.telemecaniqu
TeSys® T LTM R DeviceNet™Motor Management ControllerQuick Start Guide02/2007
Table of Contents
Safety Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5
About the Book . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7
Quick Start Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9Presentation of the TeSys® T Motor Management System . . . . . . . . . . . . . . . . 12Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15Configuration. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20FLC (Full Load Current) Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24Diagnostic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25Use with Magelis XBTN410 HMI Device . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26Network Communication on DeviceNet™. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29
3
4
§
Safety InformationImportant Information
NOTICE Read these instructions carefully, and look at the equipment to become familiar with the device before trying to install, operate, or maintain it. The following special messages may appear throughout this documentation or on the equipment to warn of potential hazards or to call attention to information that clarifies or simplifies a procedure.
The addition of this symbol to a Danger or Warning safety label indicatesthat an electrical hazard exists, which will result in personal injury if theinstructions are not followed.
This is the safety alert symbol. It is used to alert you to potential personalinjury hazards. Obey all safety messages that follow this symbol to avoidpossible injury or death.
DANGER indicates an imminently hazardous situation, which, if not avoided, will result in death or serious injury.
DANGER
WARNING indicates a potentially hazardous situation, which, if not avoided, can result in death, serious injury, or equipment damage.
WARNING
CAUTION indicates a potentially hazardous situation, which, if not avoided, can result in injury or equipment damage.
CAUTION
1639575 02/2007 5
Safety Information
PLEASE NOTE Electrical equipment should be installed, operated, serviced, and maintained only by qualified personnel. No responsibility is assumed by Schneider Electric for any consequences arising out of the use of this material.
© 2007 Schneider Electric. All Rights Reserved.
6 1639575 02/2007
About the Book
At a Glance
Document Scope The Quick Start Guide uses an application example to describe the different steps to quickly install, configure and use TeSys® T.
This document is not intended to replace the following documents:TeSys® T LTM R DeviceNet™ Motor Management Controller User’s Manual LTM R Instruction SheetLTM E Instruction Sheet
Validity Note The data and illustrations in this manual are not contractual. We reserve the right to modify our products in line with our policy of continuous development. The information given in this document may be modified without notice and must not be interpreted as binding on the part of Schneider Electric.
Related Documents
Product Related Warnings
Schneider Electric assumes no responsibility for any errors that appear in this document. No part of this document may be reproduced in any form or means, including electronic, without prior written permission of Schneider Electric.
User Comments We welcome your comments about this document. You can reach us by e-mail at [email protected]
Title of Documentation Reference Number
TeSys T LTM R DeviceNet Motor Management Controller - User’s Manual 1639504
LTM R•• Instruction Sheet 1639508
LTM E•• Instruction Sheet 1639509
1639575 02/2007 7
About the Book
8 1639575 02/2007
1639575 02/2007
Quick Start Guide
Introduction The Quick Start Guide uses an application example to illustrate each step in the process of installing, configuring and using TeSys® T.
The application example uses the LTM R controller to protect and control a motor and its driven load, in this case, a pump.
This application example is intended to:show you how to configure the LTM R controller in a few stepsprovide an example you can modify to develop your own configurationserve as a starting point for the development of more complex configurations, incorporating such additional features as HMI or network control
Functions Performed
When the LTM R controller has been configured in order to protect and control the motor and pump, it will perform the following functions:
thermal overload protectionmotor temperature sensor protectionvoltage protection / undervoltageexternal ground fault protectioninitial system configuration during commissioning using PC and PowerSuite™ software
9
Quick Start Guide
Operating Conditions
The operating conditions used in the application example are:motor power: 4 kWline-to-line voltage: 400 Vaccurrent: 9 Acontrol circuit voltage: 230 Vac3-wire controlmotor trip class 10start buttonstop buttonreset button on enclosure doorfault lightwarning lightfull voltage, non-reversing starter (direct over the line starter)24 Vdc power supply in the motor control center or control station for future use with expansion module inputs
Network Conditions
The network conditions for the example are:protocol: DeviceNet™address: 4baud rate: Autobaud
TeSys® T is configured via PowerSuite - not via the network.
Components Used
The application example uses the following components:
Item Component description Reference number
1 LTM R 100-240 Vac DeviceNet Motor Management Controller (1.35...27 A FLC)
LTMR27DFM
2 LTM E 24 Vdc Expansion Module LTMEV40BD
3 LTM R to LTM E RJ45 connection cable LTMCC004
4 PowerSuite cable kit VW3A8106
5 PowerSuite software on CD-ROM with LTM R upgrade LTM CONF
6 External ground fault CT TA30
7 External PTC binary motor temperature sensor User supplied
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Quick Start Guide
What's in this Guide?
This guide contains the following topics:
Topic Page
Presentation of the TeSys® T Motor Management System 12
Installation 15
Configuration 20
FLC (Full Load Current) Settings 24
Diagnostic 25
Use with Magelis XBTN410 HMI Device 26
Network Communication on DeviceNet™ 29
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Quick Start Guide
Presentation of the TeSys® T Motor Management System
System Overview
The TeSys® T Motor Management System offers protection, control, and monitoring capabilities for single-phase and 3-phase AC induction motors.
The system offers diagnostic and statistics functions, as well as configurable warnings and faults, to enable better prediction of component maintenance. It provides data to continuously improve the entire system.
The two main hardware components of the system are:the LTM R controller, andthe LTM E expansion module.
System Presentation
The following tables describe the main components of the TeSys® T Motor Management System.
LTM R controller Functional description Reference number
current sensing 0.4...100 Asingle-phase or 3-phase current inputs6 discrete logic inputs4 relay outputs: 3 SPST, 1 DPSTconnections for a ground current sensorconnection for a motor temperature sensorconnection for networkconnection for HMI device or expansion modulecurrent protection, metering and monitoring functionsmotor control functionspower indicatorfault and warning LED indicatorsnetwork communication and alarm indicatorsHMI communication LED indicatortest and reset function
LTMR08DBD (24 Vdc, 0.4...8 A FLC)
LTMR27DBD (24 Vdc, 1.35...27 A FLC)
LTMR100DBD (24 Vdc, 5...100 A FLC)
LTMR08DFM (100...240 Vac, 0.4...8 A FLC)
LTMR27DFM (100...240 Vac, 1.35...27 A FLC)
LTMR100DFM (100...240 Vac, 5...100 A FLC)
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Quick Start Guide
LTM E expansion module
Functional description Reference number
voltage sensing 110...690 Vac3-phase voltage inputs4 additional discrete logic inputsadditional voltage protection, metering and monitoring functionspower LED indicatorlogic input status LED indicators
Additional components required for an optional expansion module:
LTM R controller to LTM E connection cable
LTMEV40BD (24 Vdc)
LTMEV40FM (100...240 Vac)
PowerSuite software Functional description Reference number
commission the system through menu entriesconfigure the system through menu entriesdisplay warnings and faults
Additional components required for PowerSuite software: a PCseparate power sourceLTM R/LTM E to PC communication cable
LTM CONF
VW3A8106 (PC communications cable)
Magelis® XBT HMI Functional description Reference number
commission the system through menu entriesconfigure the system through menu entriesdisplay warnings and faults
Additional components required for an optional HMI device: separate power sourceLTM R/LTM E to HMI communication cableMagelis XBTL1000 programming software
XBTN410 (HMI)
XBTZ938 (cable)
XBTL1000 (software)
1639575 02/2007 13
Quick Start Guide
LTM R and LTM E Description
The following diagrams show the features of the LTM R controller and expansion module:
LTM R Controller LTM E Expansion Module
1 test/reset button2 HMI port with RJ45 connector connecting the LTM R controller to an
HMI, PC, or expansion module3 status-indicating LEDs4 plug-in terminal: control power, and internally powered logic inputs and
commons5 plug-in terminal: double pole/single throw (DPST) output relay6 plug-in terminal output relay7 plug-in terminal: ground fault input and temperature sensor input8 plug-in terminal: PLC network
1 port with RJ45 connector to HMI or PC
2 port with RJ45 connector to LTM R controller
3 status-indicating LEDs4 plug-in terminal: voltage inputs5 plug-in terminal: logic inputs and
common
I.7 C7 I.8 C8 I.9 C9
LV1 LV2 LV3
I.10 C10
I.7 I.8 I.9Power I.10
Telemecanique LTMEV40FM
2
4
5
1
3
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Quick Start Guide
Installation
Overview The following procedure describes how to install and physically configure the TeSys T® system, according to the operating conditions used in the application example. The same procedure is used for other configurations.
The full installation procedure is shown on the Instruction sheets provided with the LTM R controller and the LTM E expansion module. It is also described in detail in chapter 6 of the User’s Manual.
The following diagrams show the physical dimensions of the controller and the expansion module:
DANGERHAZARD OF ELECTRIC SHOCK, EXPLOSION, OR ARC FLASH
Turn off all power supplying this equipment before working on it.Apply appropriate personal protective equipment (PPE) and follow safe electrical work practises.
Failure to follow this instruction will result in death or serious injury.
LTM R LTM E
2.461
913.58
1204.72
mmin.
1639575 02/2007 15
Quick Start Guide
Mount LTM R and LTM E
Mount the controller and the expansion module, respecting clearance zones and operating position.
Connect LTM R to LTM E
Connect the LTM R controller and the LTM E expansion module using the RJ45 cable.
The diagrams below show how to mount the LTM R and LTM E on a DIN rail, solid mounting plate, or Telequick plate:
This diagram shows the operating positions possible:
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Quick Start Guide
Connect to HMI (optional)
Connect the expansion module to the Magelis® XBTN410 HMI device using the XBTZ938 cable.
Wire Current Transformers
Wire the current transformers according to the operating conditions:Product range → 1.35 − 27ANominal motor current → 9Α
1 pass through the CT windows is sufficient in this case, although 2 passes are possible:
In the application example:
1 Magelis® XBTN410 HMI device2 Magelis® connecting cable XBTZ9383 LTM R controller4 Expansion module
If you are not using the expansion module, the HMI connects directly to the controller:
1 Magelis® XBTN410 HMI device2 Magelis® connecting cable XBTZ9383 LTM R controller
1 pass 2 passes
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Quick Start Guide
Wire Ground CT Wire the ground fault current transformer:
Wire LTM R Wire the power supply and the I/O.Wire the temperature sensors.
Wire LTM E Wire the voltage transformers and the I/O on the expansion module.
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Quick Start Guide
LTM R Controller Wiring
The following wiring diagram illustrates the main power circuit of the application example:
1 contactor2 ground fault current transformer3 PTC binary thermistor
Control Adaptation with Network Control
The diagram below illustrates 3-wire (impulse) local control with network control selectable. This is the operating mode used with the application example, as defined in the example’s operating conditions:
1
2
KM1
3
14
O.1
23 24
O.2 O.3LTMR
+/~-/~
A2A1 I.1 C I.2 I.3
Start
C I.4 CI.5 I.6 95 9697 98
O.4
Stop
LTME
I7 C7 I8 C8 I9 C9 I10 C10
LV1 LV2 LV3
Z1 T1 T2Z2
Reset
KM1
33 3413
Warning Fault
3
I.1 C I.2 I.3 C I.4 CI.5 I.6 95 9697 98
O.4
L NO
L: Local controlO: OffN: Network control
Start Stop
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Quick Start Guide
Configuration
Overview After the wiring connections are made, the next step is to configure parameters using PowerSuite™ software (see chapter 8.6 of the LTM R DeviceNet™ User’s Manual).
Install Software
WARNINGUNINTENDED EQUIPMENT OPERATION
The application of this product requires expertise in the design and programming of control systems. Only persons with such expertise should be allowed to program and apply this product.Follow all local and national safety codes and standards.
Failure to follow this instruction can result in death, serious injury, or equipment damage.
Step Description
1 Place the installation disk into your PC’s CD/DVD drive.
2 Navigate to and click on the setup.exe file. The setup wizard begins.
3 Follow the instructions in the setup wizard.
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Quick Start Guide
Connect to PowerSuite™ Software
Set Parameters
In the application example:
1 PC running PowerSuite™ software2 Power cable VW3 A8 1063 LTM R controller4 Expansion module
If you are not using the expansion module, the HMI connects directly to the controller:
1 PC running PowerSuite™ software2 Power cable VW3 A8 1063 LTM R controller
Step Description
1 Start up the PowerSuite™ software.
2 In the Load Configuration screen, select and open a configuration file with factory default settings.
3 Open the Settings branch of the tree control.
4 Locate and set the Operating parameter settings in the Motor sub-branch.
5 Repeat step 4 for all other setting item sub-branches.
6 Save a copy of the completed configuration settings to a new configuration file.
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Quick Start Guide
Parameter settings for the application example:
(1) See FLC (Full Load Current) Settings, p. 24
Settings branch Sub-branch Parameter SettingDevice information Current range 1.35-27A
Network DeviceNetControl voltage 100-240V AC
Motor settings Motor operating mode Nominal voltage 400VNominal power 4kWOperating mode 3 wire independentContactor rating 9APhase 3 phase
Motor temperature sensor Sensor type PTC binaryFault enable EnableFault level According to motorWarning level According to motor
Load CT ratio Load CT ratio None(1)
Load CT passes 1(1)
Ground CT ratio 1000:1Local remote transfer mode Local control Terminal trip
Current settings Thermal overload Trip type Inverse thermalTrip class 10
FLC1 (1) 50% (1) (equivalent to 9A)Fault enable EnableWarning enable Enable
Ground current Fault enable EnableFault level 1AFault timeout 0.5sWarning enable EnableWarning level 200mA
Voltage settings Under voltage Fault enable EnableFault level 85%Fault timeout 3sWarning enable EnableWarning level 90%
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Quick Start Guide
Transfer the Configuration File
Step Description
1 Open the configuration file to be transferred.Be sure the file is in the Main window
2 Connect your PC to the LTM R controller.Check the task bar to see whether your PC is connected to the LTM R controller.
3 Transfer the configuration file:Select PC to Device, in either the Link → File Transfer sub-menu or the icon bar.In the Upload Configuration dialog, click Continue. A progress bar briefly appears.To confirm the success of the transfer, check the results in the Output window, which opens automatically at the bottom of the Main window.
Result: The product is now ready to use.
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Quick Start Guide
FLC (Full Load Current) Settings
FLC Basics Load CT ratio = Load CT primary / (Load CT secondary * Passes)Current sensor max = Current range max * Load CT ratioCurrent range max is determined by the controller commercial reference number.FLCmax is defined as the lower of the Current sensor max and the Contactor rating values.FLCmin = Current sensor max / 20 (rounded to the nearest 0.01 A.) FLCmin is stored internally in units of 0.01 A.
Conversion of Amperes to FLC Settings
FLC values are stored as a percentage of FLCmaxFLC (in %) = FLCA / FLCmax
Example (No External CTs)
Data:FLCA = 9 ACurrent range max = 27.0 ALoad CT primary = 1Load CT secondary = 1Passes = 1Contactor rating = 18.0 A
Calculated parameters with 1 pass:Load CT ratio = Load CT primary / (Load CT secondary * passes) = 1 / (1 * 1) = 1.0Current sensor max = Current range max * Load CT ratio = 27.0 * 1.0 = 27.0 AFLCmax = min (Current sensor max, Contactor rating) = min (27.0, 18.0) = 18.0 AFLCmin = Current sensor max / 20 = 27.0 / 20 = 1.35 AFLC = FLCA / FLCmax = 9.0 / 18.0 = 50%
Calculated parameters with 2 passes:Load CT ratio = 1 / (1 * 2) = 0.5Current sensor max = 27.0 * 0.5 = 13.5 AFLCmax = min (13.5, 18.0) = 13.5 AFLCmin = Current sensor max / 20 = 13.5 / 20 = 0.67 AFLC = FLCA / FLCmax = 9.0 / 13.5 = 66%
Note: Do not set the FLC below FLCmin.
Note: FLC values must be expressed as a percentage of FLCmax (resolution of 1%). If you enter an unauthorized value, the LTM R will round it up to the nearest authorized value. For example, on a 0.4-8A unit, the step between FLCs is 0.08A. If you try to set an FLC of 0.43A, the LTM R will round it up to 0.4A.
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Quick Start Guide
Diagnostic
LTM R and LTM E LEDs
As the application example uses the LTM R and LTM E, you must check the LEDs on both components:
LEDs Use the 5 LEDs on the face of the LTM R controller to monitor its state, as follows:
Use the 5 LEDs on the face of the expansion module to monitor its state:
LTM R LEDs Color Describes Indicates
HMI Comm yellow Communication activity between LTM R controller and expansion module
Flashing yellow = communicationOff = no communication
Power green LTM R controller power or internal fault condition
Solid green = power on, no internal faults, and motor offFlashing green = power on, no internal faults, and motor onOff = power off, or internal faults exist.
Alarm red Protection fault or warning, or internal fault condition
Solid red = internal or protection faultFlashing red (2 x per s) = warningFlashing red (5 x per s) = load shed or rapid cycle conditionOff = no faults, warnings, load shed or rapid cycle (when power is On)
Fallback red Communication connection between LTM R controller and network module
Solid red = in fallbackOff = not in fallback (no power)
MNS yellow Communication activity on the network bus
Flashing yellow (0.2 s on,1.0 s off) = network bus communicationOff = no network bus communication
LTM E LEDs Color Describes Indicates
Power green or red
Module power or internal fault condition
Solid green = power on with no internal faultsSolid red = power on with internal faultsOff = power off
Digital Inputs I.7, I.8, I.9 and I.10
yellow State of input On = input activatedOff = input not activated
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Quick Start Guide
Use with Magelis XBTN410 HMI Device
Connect to HMI The following procedure is fully described in chapter 8.3 of the User’s Manual:.
Available Functions
When connected to TeSys® T with 1- to-1 software application, you have access to: Settings (configurable settings, HMI display selections)Statistics (history of all measured statistics, motor operation, faults and counters)Services (executable operating commands such as self-test, clear statistics, password)Product ID (description of controllers, expansion and network module)Motor control, if local HMI selected: select this parameter in PowerSuite
HMI Interface In a 1-to-1 physical configuration, which is the case with our application example, the Magelis® XBTN410 HMI looks like this:
1 LCD display2 8 button keypad
Step Description
1 Install the Magelis XBT L1000 programming software on your PC.
2 Use it to transfer the 1-to-1 software application to the Magelis XBTN410 HMI.Name of the application: LTM_1T1_E_(version).dop
3 Follow the instructions in the setup wizard.
Settings branch Sub-branch Parameter Setting
Motor settings Local remote transfer mode Local control Local HMI
ESC AUX1 RESET ENTER
M a g e l i s
2
1
AUX2 STOP
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Quick Start Guide
The keypad buttons perform the following functions:
Keys Description Comment
moves down to the next item in:- a value list- the same level of the menu structurepress to decrease the selected numerical digit by 1 unit
Use these keys to scroll through setting selections:the "=" sign precedes a factory setting or a user-selected setting the "?" sign precedes available settings.
moves up to the previous item in:- a value list- the same level of the menu structurepress to increase the selected numerical digit by 1 unit
moves up one level in the menu structurecloses the fault display and displays the scrolling variable list
Note: the ESC key does not save any settings.
You may need to press ESC several times to return to the upper level of a menu.
navigate from:- a menu ⇒ the sub-menus- a sub-menu ⇒ the functions- a function ⇒ the settings
Some menus or sub-menus contain only functions and their settings. Others include functions with many parameters and their settings.
confirm and save the displayed setting When a setting is saved:the "?" is replaced by "=" andthe saved setting is displayed for 2 seconds, then the display automatically returns to the next highest level
Performs motor control commands, as configured.
For example, Run Forward, and Run SlowNote: Enabled when Control Mode is Local HMI and disabled when Control Mode is Local Terminal strip or Remote.
Performs motor control commands, as configured.
For example, Run Reverse, and Run FastNote: Enabled when Control Mode is Local HMI and disabled when Control Mode is Local Terminal strip or Remote.
Stops the motor. Local Stop command.
Resets the LTM R controller and clears all faults that can be reset.
Local Reset command.Note: Behavior of the Reset key depends on Fault Reset Mode configuration.
ESC
ENTER
AUX1
AUX2
STOP
RESET
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Quick Start Guide
Example of an HMI Display
Here is an example of HMI LCD displaying an average current of 0.39 Amp in local control, run mode:
0.39 = Current valueAmp = AmperesL = Local control Run = Run motor modeCurrent = CurrentAVG = Average
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Quick Start Guide
Network Communication on DeviceNet™
Wire the Communication Port
This procedure is shown on the Instruction sheets provided with the LTM R and the LTM E, and described in chapter 6 of the User’s Manual:
(1) Thin cable
Set the Parameters
For the application example, set the following parameters using PowerSuite™ software:
Network Port Comm Loss parameter is enabled by default. If this is not suitable, you can disable this parameter.
(1)
Settings branch Sub-branch Parameter Setting
Device information Network DeviceNet™
Communication Network portAddress 4
Baud rate Autobaud
1639575 02/2007 29
Quick Start Guide
Messaging The connection types are: I/O messagingI/O messages contain application-specific data. They are communicated across single and multicast connections between an application producer and its corresponding consuming application. Explicit messaging connectionsExplicit messaging connections provide multipurpose point-to-point communication paths between two particular devices. Explicit messages are used to command the performance of a particular task and to report the results of performing the task. You can, therefore, use explicit messaging connections to configure nodes and diagnose problems.
Connection to PLC
1 Allen-Bradley SLC-500 PLC2 PLC processor module3 1756-L55 DeviceNet™ scanner module4 DeviceNet™ network cable5 LTM R controller6 PC running RSNetWorx (properly connected to your network)7 DeviceNet™ power supply
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Quick Start Guide
Assemble the Physical Network
To construct a physical DeviceNet™ network:
Step Action
1 Install the DeviceNet scanner module in the desired PLC slot.
2 Check that the desired DeviceNet network node address and baud rate have been correctly set in PowerSuite.
3 Make connections with DeviceNet™ network cable and end connectors, manufactured in accordance with ODVA specifications.
4 Place the system on the network by connecting the PLC to the LTM R controller with the DeviceNet™ cable.
5 Connect the RSNetWorx PC to the processor (terminal plug).
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Quick Start Guide
Register the Controller’s EDS
To register the controller’s EDS in RSNetWorx’s EDS library:
Step Action Comment
1 From the RSNetWorx Tools menu, select EDS Wizard.
The Wizard’s welcome screen appears.
2 Click Next. The Options screen appears.
3 Select Register an EDS file(s) and click Next.
The Registration screen appears.
4 Select Register a directory of EDS files and browse to the controller’s EDS file.
You must have already unzipped the Zip file containing the EDS files and corresponding icons into a single directory.
5 Click Next. The EDS File Installation Test Results screen appears.
6 Click Next. The Change Graphic Image screen appears. The controller should be listed in the Product Types field as a Motor Starter:
7 Click Next. The Final Task Summary screen appears.
8 Verify that the controller is to be registered and click Next.
The completion screen appears.
9 Click Finish. The EDS Wizard closes.
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Quick Start Guide
Offline Device Connection
To add devices to your network when the configuration tool is offline:
Step Action Comment
1 From the hardware list, double-click on 1756-L55 scanner under Rockwell Automation/commu-nication adapter.
The scanner appears in the project view with address 0.
2 From the hardware list, double-click on the controller EDS named TeSys T MMC L EV40 under Schneider Automation, Inc.\Motor Starter.
The new device appears in the project view. The lowest available MAC ID has been assigned to it, even if that ID is inappropriate.
3 Double-click on the controller graphic. The controller’s properties window appears.
4 Change the MAC ID in the Address text field to 4.
4 is the MAC ID used throughout this example.
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Quick Start Guide
5 Click on Parameters to select the data you want to exchange (Instance)
For our example, select the 2 following instances:Input assembly data size (produced by the controller)110 - LTM R Monitoring Registers (with dynamic configuration)Instance length = 8 bytes[Select register 455 (System status), 460 (Warning code), 451 (Fault code), 466 (Average current ratio (%FLC).]Output assembly data size (consumed by the controller)100 - LTM R Control RegistersInstance length = 6 bytes
Step Action Comment
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Quick Start Guide
6 Click OK. Note that the MAC ID of the controller is now 4 in the project view:
7 Save your configuration by choosing Online from the Network menu.
Offline configurations aren saved for later use.
Step Action Comment
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Quick Start Guide
Add the Controller to the Scanlist
Step Action Comment
1 From the project view, double-click the scanner icon.
The scanner configuration screen appears.
2 Select the Scanlist tab. The Scanner Configuration Applet screen appears.
3 At the Scanlist tab, highlight the controller (at MAC ID 4) in the Available Devices list, and click the right arrow.
The controller now appears in the Scanlist:
4 With the controller selected, click the Edit I/O Parameters button.
The Edit I/O Parameters window appears.
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Quick Start Guide
5 Check Polled and enter 8 in the Input Size text field and 6 in the Output Size text field.Click OK.
Default data sizes are 1 (Input Size) and 1 (Output Size).
6 Click Download to scanner. The Downloading Scanlist from Scanner window appears.
7 Click Download. Wait for the Downloading to Scanner timer to finish.
8 Click OK. The scanner properties window closes.
Step Action Comment
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Quick Start Guide
PLC Configuration in RSLogix
Step Description
1 In RSLogix, select File → New
2 Select the type of controller:
3 Select I/O configuration to open Scanner selection:
38 1639575 02/2007
Quick Start Guide
4 Select the Scanner in the list (1756-DNB):
Validate your choice.
5 The module properties appear. Select the input/output sizes in word:
Input size = 8 bytes → two 32-bit words Output size = 6 bytes → two 32-bit words
Click Finish to close the configuration.
Step Description
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Quick Start Guide
6 Select Controller Tags to run the scanner, then set CommandRegister.Run:
7 Test the Control of TeSys T with the Output command (O.Data) and the Input Data (I.Data):
8 Develop and load the application program, then test it.
Step Description
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Quick Start Guide
DeviceNet Communication Test
The DeviceNet communication verification sequence is as follows:
Step 1: Check the communicationLEDs on the LTM R front face End
Step 2: Check the cabling and correctit if necessary
Step 3: Check the configuration viaPowerSuite™ or the HMI andcorrect it if necessary
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Quick Start Guide
Registers for Simplified Operation
Basic setup information using configuration, control and monitoring registers applies to all applications:
Check if the current value is correct
If an error has been detected, get more information with …
To be used, if needed, to unlock the system
See Commissioning
Configuration (at start-up)
Control(According to Motor Mode
Register 704)
Bit 704.0 : Run forwardBit 704.1 : Run reverse
Monitoring(Register 455)
Bit 455.2 : Fault detectionBit 455.3 : Warning detection
Bit 455.8 à 455.13 : Motor current
(System status)
Monitoring
Register 466 : Average motor current ...
(Measurement)
Compulsory circuit
Optional circuit
Monitoring
Register 460 : Warning code, orRegister 461, 462 : Warning type
(Warnings)
Monitoring
Register 451 : Fault code, orRegister 452, 453 : Fault type
(Faults)
Control
Bit 704.3 : Fault acknowledgment
(Acknowledgment)
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Quick Start Guide
Command Variables 700-704
Instance 100: LTM R Control Registers:
Command variables 700-704 are described below:
Byte 0 Byte 1 Byte 2 Byte 3 Byte 4 Byte 5
path 6C : 01 : 05(Register 704)
path 6C : 01 : 04(Register 703)
path 6C : 01 : 01(Register 700)
LSB (least significant bit)
MSB (most significant bit)
LSB MSB LSB MSB
Register DeviceNet address
Variable type
Read / Write variables
700 6C : 01 : 01 Word Logic outputs command register
bit 0 Logic output 1 command
bit 1 Logic output 2 command
bit 2 Logic output 3 command
bit 3 Logic output 4 command
bit 4 Logic output 5 command
bit 5 Logic output 6 command
bit 6 Logic output 7 command
bit 7 Logic output 8 command
bits 8-15 (Reserved)
701-703 6C : 01 : 02 - 6C : 01 : 04
(Reserved)
704 6C : 01 : 05 Word Control register 1
bit 0 Motor run forward command
bit 1 Motor run reverse command
bit 2 (Reserved)
bit 3 Fault reset command
bit 4 (Reserved)
bit 5 Self test command
bit 6 Motor low speed command
bits 7-15 (Reserved)
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Quick Start Guide
Monitoring Variables 451, 455, 460, 466
Instance 110: LTM R Monitoring Registers (with dynamic configuration)
This assembly contains several monitoring registers commonly used with an LTM R device. You can choose registers by setting attributes 5-8 of the DeviceNet interface object:
Monitoring variables 451, 455, 460, and 466 are described below:
Byte 0 Byte 1 Byte 2 Byte 3 Byte 4 Byte 5 Byte 6 Byte 7
Register pointed using path C6 : 01 : 05(Register 455)
Register pointed using path C6: 01 : 06(Register 460)
Register pointed using path C6 : 01 : 07(Register 451)
Register pointed using path C6 : 01 : 08(Register 466)
LSB MSB LSB MSB LSB MSB LSB MSB
Register DeviceNet address
Variable type
Read-only variables
451 68 : 01 : 02 Ulnt Fault code (code of the last fault, or of the fault that takes priority)
455 68 : 01 : 06 Word
System status register 1
bit 0 System ready
bit 1 System on
bit 2 System fault
bit 3 System warning
bit 4 System tripped
bit 5 Fault reset authorized
bit 6 Controller power
bit 7 Motor running (with detection of a current, if greater than 10% FLC)
bits 8-13 Motor average current ratio 32 = 100% FLC - 63 = 200% FLC
bit 14 Control via HMI
bit 15 Motor starting (start in progress) 1 = ascending current is greater than 10% FLC 0 = descending current is less than 150% FLC
460 68 : 01 : 0B UInt Warning code
466 68 : 01 : 11 UInt Average current ratio (% FLC)
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© 2007 Schneider Electric. All Rights Reserved. 02/2007