Use

Overview

This chapter describes:

The user interface devices and the hardware configurations you can use to operate the LTMR controller
How to set parameters with each user interface
How to perform monitoring, trip handling, and control functions with each user interface.

Using the LTMR Controller Stand-Alone

Overview

This section describes how to use the LTMR controller, either by itself or connected to an LTME expansion module, in a stand-alone configuration without a user interface device.

Hardware Configurations

Overview

The LTMR controller, either alone or connected to an LTME expansion module, can be operated with or without a user interface device.

In any configuration, the LTMR controller can be configured to perform monitoring, trip management, motor protection and control functions.

Communications

User interface devices and their communications interfaces include:

User Interface Device	Communicates Via the
PC running SoMove with the TeSys T DTM	HMI port via the local RJ45 connector on the LTMR controller or LTME expansion module.
PLC connected to an Ethernet network	Network port on the LTMR Ethernet controller via the network RJ45 connector.
PLC connected to a Modbus network	Network port on the LTMR Modbus controller via the network RJ45 connector or terminal wiring
PLC connected to a PROFIBUS DP network	Network port on the LTMR PROFIBUS DP controller via the network 9-pin sub-D socket connector or terminal wiring
PLC connected to a CANopen network	Network port on the LTMR CANopen controller via the network 9-pin sub-D plug connector or terminal wiring
PLC connected to a DeviceNet network	Network port on the LTMR DeviceNet controller via terminal wiring

NOTE: The use of the RJ45 or 9-pin sub-D plug connector is recommended instead of the terminal wiring to connect the LTMR controller to Modbus, PROFIBUS DP, and CANopen communication network.

LTMR Ethernet Controller Stand-Alone Configuration

Overview

Before the LTMR controller can operate in a stand-alone configuration, parameters must be set via an HMI device or SoMove software with the TeSys T DTM.

NOTE: Only SoMove with the TeSys T DTM can configure all of the controller’s Ethernet network communication parameters.

When parameters are set, the device can be detached and you can use the following controls to operate the LTMR controller:

Use this Control	To
LEDs: 7 LTMR controller LEDs 5 LTME expansion module LEDs	Monitor the state of the LTMR controller and LTME expansion module
LTMR controller Test/Reset button	Self test, manage trips, reset to factory settings
Programmed operating parameters Logic inputs: 6 LTMR controller inputs 4 LTME expansion module inputs	Control the: LTMR controller LTME expansion module Motor Power and control wiring Any connected sensors, including Motor temp sensors External ground current trip CTs
Programmed protection parameters	Protect the: LTMR controller LTME expansion module Motor Equipment

Configurations

The stand-alone physical configurations of the LTMR controller (with and without a connected LTME expansion module) are depicted below:

The LTMR controller alone

The LTMR controller and LTME expansion module

EtherNet/IP LTMR Controller LEDs

Use the 7 LEDs on the face of the EtherNet/IP LTMR controller to monitor its state, as follows. Note the following definitions:

Flashing: when the LED is lit up to 250 ms whatever the time cycle is.
Blinking: when the LED is lit 50% of the time in the time cycle.

LED	Color	Describes	Indicates
HMI Comm	Yellow	Communication activity between LTMR controller and HMI device, PC, or LTME expansion module	Flashing yellow = communication Off = no communication
Power	Yellow or green	LTMR controller power or internal trip condition	Solid yellow = power-on, no internal trips, and motor off Flashing yellow = power-on, no internal trips, and motor on Blinking yellow and green = power-up, self test Off = power-off, or internal trips exist
Alarm/MS	Green or red	Protection trip or alarm, or internal trip condition	Solid green = no trip (when power is on) Flashing green (1 x per s) = device in standby state
			Solid red = device goes into major trip (not recoverable) Flashing red (1 x per s) = minor trip (recoverable) Flashing red (2 x per s) = alarm Flashing red (5 x per s) = load shed or rapid cycle condition
			Blinking green and red = power-up testing, self test mode Off = no trips, alarms, load shed, or rapid cycle (when power is On)
Fallback	Red	Indicates communication loss between the LTMR controller and network or HMI control source	Solid red = in fallback Off = not in fallback (no power)
STS/NS	Green or red	Indicates the network status	Blinking green = trip present during network start-up Solid green = CIP connection established and not timeout Flashing green (1 x per s) = no CIP connection established
			Solid red = duplicate IP address Flashing red (1 x per s) = connection timeout
			Blinking green and red = power-up testing, self test, webpage discover test Off = no IP address (when power is On)
LK/ACT	Green or yellow	Ethernet link status Ethernet communication activity status	Blinking green = speed is 100 Mbits/s Blinking yellow = speed is 10 Mbits/s Off = no connection established

NOTE: LK/ACT LEDs color may be different under the condition of EtherNet/IP hardware cooperated with network firmware equal or lower than 2.2.000.

NOTE: For a description of STS/NS LED behavior during startup, refer to the TeSys T LTMR Ethernet Communication Guide.

Modbus/TCP LTMR Controller LEDs

Use the 7 LEDs on the face of the Modbus/TCP LTMR controller to monitor its state, as follows. Note the following definitions:

Flashing: when the LED is lit up to 250 ms whatever the time cycle is.
Blinking: when the LED is lit 50% of the time in the time cycle.

LED	Color	Describes	Indicates
HMI Comm	Yellow	Communication activity between LTMR controller and LTME expansion module	On = communication Off = no communication
Power	Green or yellow	LTMR controller power or internal trip condition	Solid green = power-on, no internal trips, and motor off Flashing green = power-on, no internal trips, and motor on Blinking yellow and green = power-up, self test Off = power-off, or internal trips exist
Alarm/MS	Red or green	Protection trip or alarm, or internal trip condition	Solid red = internal or protection trip Flashing red (2 x per s) = alarm Flashing red (5 x per s) = load shed or rapid cycle condition Blinking red and green = power-up, self test Off = no trips, alarms, load shed, or rapid cycle (when power is On)
Fallback	Red	Communication connection between LTMR controller and network module	Solid red = in fallback Off = not in fallback (no power)
STS/NS	Green or red	Ethernet link status Ethernet communication activity status	On = communication established Off = communication is not established 2 blinks green = no MAC address 3 blinks green = no link 4 blinks green = duplicate IP condition 5 blinks green = waiting for served IP configuration 6 blinks green = using the default IP configuration 7 blinks green = firmware upgrade in progress 8 blinks green = critical detected error 10 blinks green = no FDR server available Blinking green or red = power-up, self test, webpage discover test
LK/ACT	Green or yellow	Indicates the connection speed	Blinking green = speed is 100Mbits/s Blinking yellow = speed is 10Mbits/s Off = no connection established

NOTE: LK/ACT LEDs color may be different under the condition of EtherNet/IP hardware cooperated with network firmware equal or lower than 2.2.000.

NOTE: For a description of STS/NS LED behavior during startup, refer to the TeSys T LTMR Ethernet Communication Guide.

LTME Expansion Module LEDs

Use the 5 LEDs on the face of the LTME expansion module to monitor its operating and communications state, as follows. Note the following definitions:

Flashing: when the LED is lit up to 250 ms whatever the time cycle is.
Blinking: when the LED is lit 50% of the time in the time cycle.

LED	Color	Describes	Indicates
Power	Green or red	Module power or internal trip condition	Solid green = power-on with no internal trips Solid red = power-on with internal trips Off = power-off
Logic inputs I.7, I.8, I.9, and I.10	Yellow	State of input	On = input activated Off = input not activated

Test/Reset

Use the Test/Reset button to perform the following LTMR controller’s functions:

Function	Description	Procedure
Trip reset	Resets all trips that can be reset. For more information about resetting trips Trip Management - Introduction.	Press the button and release within 3 s.
Self test	Performs a self test if: No trips exist Self-test function is enabled.	Press and hold the button for more than 3 s up to and including 15 s.
Local return to factory setting	Returns the LTMR controller to factory settings if the product is in one of the following states: Ready, Not ready or System configuration. If the product is in Start or Run state, the return to factory setting is ignored. When the reset button is pressed during more than 15 s, the Alarm LED blinks at 2 Hz. If the reset button is released, the product executes a reset to factory setting.	Press and hold the button down for more than 15 s not exceeding 20 s.
Induce a trip	Put the LTMR controller into internal trip condition.	Press and hold the button down for more than 20 s.

LED Behavior on Power-Up

This table describes the LED sequence behavior on a LTMR controller with EtherNet/IP protocol on power-up.

LED Order of Sequence	Description of Sequence
	All LEDs are OFF.
Alarm/MS	MS indicator lights green for 0.25 seconds.
Alarm/MS	MS indicator changes color to red and lights for 0.25 seconds.
Alarm/MS	MS indicator remains lights green.
STS/NS	NS indicator lights up green for 0.25 seconds.
STS/NS	NS indicator changes color to red for 0.25 seconds.
STS/NS	NS indicator lights off.
HMI Comm	HMI indicator lights up yellow for 0.5 seconds.
HMI Comm	HMI indicator lights off.
Power	Power indicator lights green for 0.25 seconds.
Power	Power indicator changes color to yellow and lights up for 0.25 seconds.
Power	Power indicator lights off.
Fallback	Fallback indicator lights red for 0.25 seconds.
Fallback	Fallback indicator lights off.

LTMR Modbus Controller Stand-Alone Configuration

Overview

Before the LTMR controller can operate in a stand-alone configuration, parameters must be set via an HMI device or SoMove with the TeSys T DTM.

When parameters are set, the device can be detached and you can use the following controls to operate the LTMR controller:

Use this Control	To
LEDs: 7 LTMR controller LEDs 5 LTME expansion module LEDs	Monitor the state of the LTMR controller and LTME expansion module
LTMR controller Test/Reset button	Self test, manage trips, reset to factory settings
Programmed operating parameters Logic inputs: 6 LTMR controller inputs 4 LTME expansion module inputs	Control the: LTMR controller LTME expansion module Motor Power and control wiring Any connected sensors, including Motor temp sensors External ground current trip CTs
Programmed protection parameters	Protect the: LTMR controller LTME expansion module Motor Equipment

Configurations

The stand-alone physical configurations of the LTMR controller (with and without a connected LTME expansion module) are depicted below:

The LTMR controller alone

The LTMR controller and LTME expansion module

LTMR Controller LEDs

Use the 5 LEDs on the face of the LTMR controller to monitor its state, as follows. Note the following definitions:

Flashing: when the LED is lit up to 250 ms whatever the time cycle is.
Blinking: when the LED is lit 50% of the time in the time cycle.

LED	Color	Describes	Indicates
HMI Comm	Yellow	Communication activity between LTMR controller and LTME expansion module	Flashing yellow = communication Off = no communication
Power	Green	LTMR controller power or internal trip condition	Solid green = power-on, no internal trips, and motor off Flashing green = power-on, no internal trips, and motor on Off = power-off, or internal trips exist
Alarm/MS	Red	Protection trip or alarm, or internal trip condition	Solid red = internal or protection trip Flashing red (2 x per s) = alarm Flashing red (5 x per s) = load shed or rapid cycle condition Off = no trips, alarms, load shed, or rapid cycle (when power is On)
Fallback	Red	Communication connection between LTMR controller and network module	Solid red = in fallback Off = not in fallback (no power)
PLC Comm	Yellow	Communication activity on the network bus	Flashing yellow (0.2 s on,1.0 s off) = network bus communication Off = no network bus communication

LTME Expansion Module LEDs

Use the 5 LEDs on the face of the LTME expansion module to monitor its operating and communications state, as follows. Note the following definitions:

Flashing: when the LED is lit up to 250 ms whatever the time cycle is.
Blinking: when the LED is lit 50% of the time in the time cycle.

LED	Color	Describes	Indicates
Power	Green or red	Module power or internal trip condition	Solid green = power-on with no internal trips Solid red = power-on with internal trips Off = power-off
Logic inputs I.7, I.8, I.9, and I.10	Yellow	State of input	On = input activated Off = input not activated

Test/Reset

Use the Test/Reset button to perform the following LTMR controller’s functions:

Function	Description	Procedure
Trip reset	Resets all trips that can be reset. For more information about resetting trips, refer to Trip Management - Introduction.	Press the button and release within 3 s.
Self test	Performs a self test if: No trips exist Self-test function is enabled.	Press and hold the button for more than 3 s up to and including 15 s.
Local return to factory setting	Returns the LTMR controller to factory settings if the product is in one of the following states: Ready, Not ready or System configuration. If the product is in Start or Run state, the return to factory setting is ignored. When the reset button is pressed during more than 15 s, the Alarm LED blinks at 2 Hz. If the reset button is released, the product executes a reset to factory setting.	Press and hold the button down for more than 15 s not exceeding 20 s.
Induce a trip	Put the LTMR controller into internal trip condition.	Press and hold the button down for more than 20 s.

LTMR PROFIBUS DP Controller Stand-Alone Configuration

Overview

Before the LTMR controller can operate in a stand-alone configuration, parameters must be set via an HMI device or SoMove with the TeSys T DTM.

When parameters are set, the device can be detached and you can use the following controls to operate the LTMR controller:

Use this Control	To
LEDs: 7 LTMR controller LEDs 5 LTME expansion module LEDs	Monitor the state of the LTMR controller and LTME expansion module
LTMR controller Test/Reset button	Self test, manage trips, reset to factory settings
Programmed operating parameters Logic inputs: 6 LTMR controller inputs 4 LTME expansion module inputs	Control the: LTMR controller LTME expansion module Motor Power and control wiring Any connected sensors, including Motor temp sensors External ground current trip CTs
Programmed protection parameters	Protect the: LTMR controller LTME expansion module Motor Equipment

Configurations

The stand-alone physical configurations of the LTMR controller (with and without a connected LTME expansion module) are depicted below:

The LTMR controller alone

The LTMR controller and LTME expansion module

LTMR Controller LEDs

Use the 5 LEDs on the face of the LTMR controller to monitor its state, as follows. Note the following definitions:

Flashing: when the LED is lit up to 250 ms whatever the time cycle is.
Blinking: when the LED is lit 50% of the time in the time cycle.

LED	Color	Describes	Indicates
HMI Comm	Yellow	Communication activity between LTMR controller and LTME expansion module	On = communication Off = no communication
Power	Green	LTMR controller power or internal trip condition	Solid green = power-on, no internal trips, and motor off Flashing green = power-on, no internal trips, and motor on Off = power-off, or internal trips exist
Alarm/MS	Red	Protection trip or alarm, or internal trip condition	Solid red = internal or protection trip Flashing red (2 x per s) = alarm Flashing red (5 x per s) = load shed or rapid cycle condition Off = no trips, alarms, load shed, or rapid cycle (when power is On)
Fallback	Red	Communication connection between LTMR controller and network module	Solid red = in fallback Off = not in fallback (no power)
BF	Red	Communication activity between LTMR controller and network module	Off = communication Red = no communication

LTME Expansion Module LEDs

Use the 5 LEDs on the face of the LTME expansion module to monitor its operating and communications state, as follows. Note the following definitions:

Flashing: when the LED is lit up to 250 ms whatever the time cycle is.
Blinking: when the LED is lit 50% of the time in the time cycle.

LED	Color	Describes	Indicates
Power	Green or red	Module power or internal trip condition	Solid green = power-on with no internal trips Solid red = power-on with internal trips Off = power-off
Logic inputs I.7, I.8, I.9, and I.10	Yellow	State of input	On = input activated Off = input not activated

Test/Reset

Use the Test/Reset button to perform the following LTMR controller’s functions:

Function	Description	Procedure
Trip reset	Resets all trips that can be reset. For more information about resetting trips, refer to Trip Management - Introduction.	Press the button and release within 3 s.
Self test	Performs a self test if: No trips exist Self-test function is enabled.	Press and hold the button for more than 3 s up to and including 15 s.
Local return to factory setting	Returns the LTMR controller to factory settings if the product is in one of the following states: Ready, Not ready or System configuration. If the product is in Start or Run state, the return to factory setting is ignored. When the reset button is pressed during more than 15 s, the Alarm LED blinks at 2 Hz. If the reset button is released, the product executes a reset to factory setting.	Press and hold the button down for more than 15 s not exceeding 20 s.
Induce a trip	Put the LTMR controller into internal trip condition.	Press and hold the button down for more than 20 s.

LTMR CANopen Controller Stand-Alone Configuration

Overview

Before the LTMR controller can operate in a stand-alone configuration, parameters must be set via an HMI device or SoMove software with the TeSys T DTM.

When parameters are set, the device can be detached and you can use the following controls to operate the LTMR controller:

Use this Control	To
LEDs: 7 LTMR controller LEDs 5 LTME expansion module LEDs	Monitor the state of the LTMR controller and LTME expansion module
LTMR controller Test/Reset button	Self test, manage trips, reset to factory settings
Programmed operating parameters Logic inputs: 6 LTMR controller inputs 4 LTME expansion module inputs	Control the: LTMR controller LTME expansion module Motor Power and control wiring Any connected sensors, including Motor temp sensors External ground current trip CTs
Programmed protection parameters	Protect the: LTMR controller LTME expansion module Motor Equipment

Configurations

The stand-alone physical configurations of the LTMR controller (with and without a connected LTME expansion module) are depicted below:

The LTMR controller alone

The LTMR controller and LTME expansion module

LTMR Controller LEDs

Use the 5LEDs on the face of the LTMR controller to monitor its state, as follows. Note the following definitions:

Flashing: when the LED is lit up to 250 ms whatever the time cycle is.
Blinking: when the LED is lit 50% of the time in the time cycle.

LED	Color	Describes	Indicates
HMI Comm	Yellow	Communication activity between LTMR controller and LTME expansion module	On = communication Off = no communication
Power	Green	LTMR controller power or internal trip condition	Solid green = power-on, no internal trips, and motor off Flashing green = power-on, no internal trips, and motor on Off = power-off, or internal trips exist
Alarm/MS	Red	Protection trip or alarm, or internal trip condition	Solid red = internal or protection trip Flashing red (2 x per s) = alarm Flashing red (5 x per s) = load shed or rapid cycle condition Off = no trips, alarms, load shed, or rapid cycle (when power is On)
Fallback	Red	Communication connection between LTMR controller and network module	Solid red = in fallback Off = not in fallback (no power)
Status	Red/green	Communication activity between LTMR controller and network module	Green = communication Red = no communication

LTME Expansion Module LEDs

Use the 5 LEDs on the face of the LTME expansion module to monitor its operating and communications state, as follows. Note the following definitions:

Flashing: when the LED is lit up to 250 ms whatever the time cycle is.
Blinking: when the LED is lit 50% of the time in the time cycle.

LED	Color	Describes	Indicates
Power	Green or red	Module power or internal trip condition	Solid green = power-on with no internal trips Solid red = power-on with internal trips Off = power-off
Logic inputs I.7, I.8, I.9, and I.10	Yellow	State of input	On = input activated Off = input not activated

Test/Reset

Use the Test/Reset button to perform the following LTMR controller’s functions:

Function	Description	Procedure
Trip reset	Resets all trips that can be reset. For more information about resetting trips, refer to Trip Management - Introduction.	Press the button and release within 3 s.
Self test	Performs a self test if: No trips exist Self-test function is enabled.	Press and hold the button for more than 3 s up to and including 15 s.
Local return to factory setting	Returns the LTMR controller to factory settings if the product is in one of the following states: Ready, Not ready or System configuration. If the product is in Start or Run state, the return to factory setting is ignored. When the reset button is pressed during more than 15 s, the Alarm LED blinks at 2 Hz. If the reset button is released, the product executes a reset to factory setting.	Press and hold the button down for more than 15 s not exceeding 20 s.
Induce a trip	Put the LTMR controller into internal trip condition.	Press and hold the button down for more than 20 s.

LTMR DeviceNet Controller Stand-Alone Configuration

Overview

Before the LTMR controller can operate in a stand-alone configuration, parameters must be set via an HMI device or SoMove software with the TeSys T DTM.

When parameters are set, the device can be detached and you can use the following controls to operate the LTMR controller:

Use this control	To
LEDs: 7 LTMR controller LEDs 5 LTME expansion module LEDs	Monitor the state of the LTMR controller and LTME expansion module
LTMR controller Test/Reset button	Self test, manage trips, reset to factory settings
Programmed operating parameters Logic inputs: 6 LTMR controller inputs 4 LTME expansion module inputs	Control the: LTMR controller LTME expansion module Motor Power and control wiring Any connected sensors, including Motor temp sensors External ground current trip CTs
Programmed protection parameters	Protect the: LTMR controller LTME expansion module Motor Equipment

Configurations

The stand-alone physical configurations of the LTMR controller (with and without a connected LTME expansion module) are depicted below:

The LTMR controller alone

The LTMR controller and LTME expansion module

LTMR Controller LEDs

Use the 5 LEDs on the face of the LTMR controller to monitor its state, as follows. Note the following definitions:

Flashing: when the LED is lit up to 250 ms whatever the time cycle is.
Blinking: when the LED is lit 50% of the time in the time cycle.

LED	Color	Describes	Indicates
HMI Comm	Yellow	Communication activity between LTMR controller and LTME expansion module	On = communication Off = no communication
Power	Green	LTMR controller power or internal trip condition	Solid green = power-on, no internal trips, and motor off Flashing green = power-on, no internal trips, and motor on Off = power-off, or internal trips exist
Alarm/MS	Red	Protection trip or alarm, or internal trip condition	Solid red = internal or protection trip Flashing red (2 x per s) = alarm Flashing red (5 x per s) = load shed or rapid cycle condition Off = no trips, alarms, load shed, or rapid cycle (when power is On)
Fallback	Red	Communication connection between LTMR controller and network module	Solid red = in fallback Off = not in fallback (no power)
MNS	Red/green	Communication activity between LTMR controller and network module	Green/Red Alternating: Startup self-test Green Flashing: Communication starting Green Solid: Communication established Red Flashing: Communication loss / timeout Red Solid: Unable to start network due to addressing/baud rate issue

LTME Expansion Module LEDs

Use the 5 LEDs on the face of the LTME expansion module to monitor its operating and communications state, as follows. Note the following definitions:

Flashing: when the LED is lit up to 250 ms whatever the time cycle is.
Blinking: when the LED is lit 50% of the time in the time cycle.

LED	Color	Describes	Indicates
Power	Green or red	Module power or internal trip condition	Solid green = power-on with no internal trips Solid red = power-on with internal trips Off = power-off
Logic inputs I.7, I.8, I.9, and I.10	Yellow	State of input	On = input activated Off = input not activated

Test/Reset

Use the Test/Reset button to perform the following LTMR controller’s functions:

Function	Description	Procedure
Trip reset	Resets all trips that can be reset. For more information about resetting trips, refer to Trip Management - Introduction.	Press the button and release within 3 s.
Self test	Performs a self test if: No trips exist Self-test function is enabled.	Press and hold the button for more than 3 s up to and including 15 s.
Local return to factory setting	Returns the LTMR controller to factory settings if the product is in one of the following states: Ready, Not ready or System configuration. If the product is in Start or Run state, the return to factory setting is ignored. When the reset button is pressed during more than 15 s, the Alarm LED blinks at 2 Hz. If the reset button is released, the product executes a reset to factory setting.	Press and hold the button down for more than 15 s not exceeding 20 s.
Induce a trip	Put the LTMR controller into internal trip condition.	Press and hold the button down for more than 20 s.

Using the LTMCU Control Operator Unit

Presentation of the LTMCU Control Operator Unit

Aim of the Product

The LTMCU Control Operator Unit is a remote operator terminal that enables the configuration, monitoring and control of the LTMR controller, as part of the TeSys T motor management system. The LTMCU has been specially developed to act as the Human Machine Interface (HMI) of the LTMR controller, and is internally powered by the LTMR controller.

The diagram below shows the LTMCU front face:

LTMCU Functions

The LTMCU HMI device can be used to:

Configure parameters for the LTMR controller,
Display information about the LTMR controller configuration and operation,
Monitor trips and alarms detected by the controller,
Control the motor locally using the local control interface.

LTMCUF Functions

The LTMCUF HMI device is similar to LTMCU HMI device with the FDR (Fast Device Replacement) service and can be used to:

Backup or restore the configuration and custom logic of LTMR controller.
Facilitate the operator task when replacing a drawer in an environment of high continuity of service without using any computer.

For More Information

Refer to the TeSys T LTMCU Control Operator Unit User’s Manual.

Configuration of the HMI Port

HMI Port

The HMI port is the RJ45 port on the LTMR controller, or on the LTME expansion module used to connect the LTMR controller to an HMI device, such as a Magelis XBT or a TeSys T LTMCU, or to a PC running SoMove with the TeSys T DTM.

Communication Parameters

Use the TeSys T DTM or the HMI to modify the HMI port communication parameters:

HMI port address setting
HMI port baud rate setting
HMI port parity setting
HMI port endian setting

HMI Port Address Setting

The HMI port address can be set between 1 and 247.

Factory setting is 1.

HMI Port Baud Rate Setting

Possible transmission rates are:

4800 Baud
9600 Baud
19,200 Baud (Factory setting)

HMI Port Parity Setting

The parity can be selected from:

Even (Factory setting)
None

Parity and stop bit behavior is linked:

If the Parity is...	Then the Number of Stop Bts is...
Even	1
None	2

HMI Port Endian Setting

The HMI port endian setting allows to swap the two words in a double word.

0 = least significant word first (little endian)
1 = most significant word first (big endian, factory setting)

HMI Port Fallback Setting

Fallback Condition is used to adjust the fallback mode in case of a loss of communication with the PLC.

Configuring the Magelis XBTN410

Overview

The Magelis XBTN410 HMI can be used to operate up to eight LTMR controllers, in a 1 HMI to many LTMR controllers (1-to-many) physical configuration.

The HMI presents a unique user interface, including both LCD display and keypad and requires the use of:

A software application file, and
A keypad label

This section shows you how to obtain and install a software application in the Magelis XBTN410 for a 1-to-many configuration.

Refer to the XBT-N Instruction Sheet that ships with the Magelis XBTN410 HMI for instructions on selecting and installing the keypad label that is appropriate for your configuration.

After connecting the HMI port, refer to instructions about configuring the HMI port.

Installing Magelis XBTL1000 Programming Software

Overview

The LTMR controller comes with a copy of Magelis XBTL1000 programming software. You need to:

Install the Magelis XBTL1000 programming software on your PC, and
Use it to transfer a 1-to-many software application to the Magelis XBTN410 HMI.

NOTE: Magelis XBTL1000 programming software is a powerful programming tool. This document describes only its utility in opening and transferring pre-programmed software applications to the Magelis XBTN410 HMI. For more information about the Magelis XBTL1000 programming software, consult its help file and printed documentation.

For instructions on how to download 1-to-many software applications, refer to Download 1-to-many Software Application Files.

For instructions on how to transfer 1-to-many software applications from your PC to the Magelis XBTN410 HM, refer to Transferring Application Software Files to Magelis XBTN410 HMI.

Installation Steps

To install the Magelis XBTL1000 programming software on your PC:

Step	Action
1	Place the installation disk into your PC’s disk drive. The installation program should begin.
2	If the installation program does not begin, use Microsoft Windows^® Explorer to navigate to and click the file Setup.exe.
3	If any screens appear that do not require action, click Next.
4	In the language screen, select a language and click OK.
5	In the name and company screen, type your name and your company name (or accept the factory settings) and click Next.
6	If a screen appears alerting you that protocols will be uninstalled, click Yes to continue.
7	In the Protocols Choices screen, be sure that Modbus is selected, then click Next.
8	In the Select Components screen, make no selections then click Next.
9	In the Choose Destination Location screen, either accept proposed path or use the Browse button to navigate to a new one, then click Next.
10	In the Start Copying Files screen, review your selections, and then click: Back to return to earlier screens and make changes Next to proceed to the final screen.
11	In the Finish screen, click Finish. The Magelis XBTL1000 programming software is installed.

Download 1-to-many Software Application Files

Overview

You must download the software application file required by your installation of the Magelis XBTN410 HMI from the www.se.com website.

From the www.se.com website, you can freely obtain the software application file LTM_1T8_(language)_(version).dop.

For instructions on installing the Magelis XBTL1000 programming software, refer to Installing Magelis XBTL1000 Programming Software.

For instructions on transferring application files from the Magelis XBTL1000 programming software on your PC to the Magelis XBTN410 HMI, refer to Transferring Application Software Files to Magelis XBTN410 HMI.

Transferring Application Software Files to Magelis XBTN410 HMI

Overview

After you have installed the Magelis XBT L1000 programming software on your PC and downloaded the required 1-to-many application software file, you are ready to transfer the application software file to the Magelis XBTN410 HMI.

For instructions on downloading software application files, refer to Download 1-to-many Software Application Files.

Transfer Steps

To transfer a software application file from Magelis XBT L1000 programming software on your PC to the Magelis XBTN410 HMI:

Step	Action
1	Supply power to the Magelis XBTN410 HMI.
2	Connect the PC 9-PIN Com1 port to the 25-pin data port on the HMI using an XBT Z915 programming cable. The HMI LCD reads: "FIRMWARE VX.X WAITING FOR TRANSFER"
3	Start up the Magelis XBT_L1000 programming software.
4	Close all child windows in the programming software.
5	In the File menu, select Open. The Open dialog is displayed.
6	In the Open dialog, navigate to the 1-to-many software application file (with a .dop extension) and click Open. The programming software displays the selected file.
7	In the Transfers menu, select Export.
8	When notified that the Export command will destroy the existing application, click OK to continue the export. The HMI LCD indicates: "DOWNLOAD IN PROGRESS" and then "DOWNLOAD COMPLETED"
9	Click OK when the programming software reports "Transfer accomplished successfully".

Using the Magelis XBTN410 HMI (1-to-many)

Overview

This section describes how to use the Magelis XBTN410 HMI to operate up to eight LTMR controllers, in a 1 HMI to many LTMR controllers (1-to-many) physical configuration.

The 1-to-many physical configuration presents a unique:

User interface (LCD display and keypad)
Menu structure

NOTE: The Magelis XBTN410 HMI can operate up to eight LTMR controllers that have previously been commissioned. To commission an individual LTMR controller, use either:

An LTMCU control operator unit, or
SoMove with the TeSys T DTM.

Physical Description (1-to-many)

1-to-many Interface

When a Magelis XBTN410 is used in a 1-to-many physical configuration, the face of the HMI looks like this:

1 LCD display

2 Eight button keypad

1-to-many Keypad

The 1-to-many configuration requires a customized keypad label. Using a blank keypad label, add the names of the six bottom buttons to the label. For instructions on creating and installing a customized keypad label, refer to the XBT-N Instruction Sheet that ships with the Magelis XBTN410 HMI.

In a 1-to-many configuration, the keypad buttons perform the following functions:

Keys	Use this Key to
	Enter the menu structure for a selected LTMR controller at address 1-4 Move to the adjacent left character within a numerical setting value Execute remote reset commands for a selected LTMR controller at address 1-4 Reset statistics to factory settings for a selected LTMR controller Display the description of another trip when the LCD displays trip messages
	Enter the menu structure for a selected LTMR controller at address 5-8 Move to a lower level in an LTMR controller menu structure Move to the adjacent right character within a numerical setting value Toggle between alternate values for Boolean settings Execute remote reset commands for a selected LTMR controller at address 5-8 Reset settings to factory settings for a selected LTMR controller Display the description of another trip when the LCD displays trip messages
	Scroll down through a page Decrement by 1 the value of the selected digit or setting
	Scroll up through a page Increment by 1 the value of the selected digit or setting
	Select a numeric setting for editing Note: After a setting is selected, you can increment or decrement either: The entire value - or - A selected digit within the setting.
	Exit the present level in the HMI menu structure and move up to the next level Exit the selected setting without saving changes.
	Save changes and exit the selected setting
	Delete the value of the selected setting Note: After deleting a setting value, you can either: Use the arrow keys to input a new value, and then click to save it - or - Click to restore the deleted value.

1-to-Many LCD

In a 1-to-many configuration, the Magelis XBTN410 HMI presents a flexible LCD that can display up to four rows of 20 characters, as follows:

In some cases, the LCD displays only three text lines because one line-containing a trip message or page header-is twice the height of normal text.

Pages

The LCD displays pages of text. There are two types of pages:

Page Type	Contains	Displayed
Menu structure page	Page header that is twice the height of ordinary LCD text Links to other pages Read-only parameter values Editable parameter settings Function commands	By navigating through the HMI menu structure to the specific page
Trip message page	A flashing trip message The number of active trips	Automatically when a trip occurs By selecting trips in the Home page

Pages often contain more than four lines of text. For instructions on how to navigate within and between pages, refer to Navigating the Menu Structure (1-to-many).

Page Examples

The Home page:

The top four lines of the Home page

Use the button to scroll down and reveal more of this page.

Note: Click on a flashing to navigate to that page.

Trip message pages:

The opening trip message page.

Note: The trip name "THERMAL OVERLOAD" and the LTMR controller address "Controller 1" both flash when displayed.

Click the button to display additional trip message pages.

Click the button to scroll down and reveal more of the Ground Current trip message.

Command Lines (1-to-many)

Overview

Use the HMI keypad and keys to execute text line commands. A command line is identified by a:

At the right end of the text line, or
At the left end of the text line

A command can be executed only when its text line has focus. A text line has focus when the or at either end of the text line-plus any additional command character-is blinking.

Command Lines

The 1-to-many menu structure presents four different kinds of command lines, depending upon the command character-if any-next to the command-line arrow, as follows:

Command-Line Characters		Description
Left	Right	Description
		Links to a page. With no character next to the blinking arrow, click the: Keypad button to move to the page indicated by the left arrow Keypad button to move to the page indicated by the right arrow.
N/A	0 - or - 1	Toggle bit commands. With a 0 or a 1 next to the blinking arrow, click the keypad button to toggle the boolean setting value.
v	v	Value write commands. With a v next to the blinking arrow, click the: Keypad button to execute the command indicated by the left arrow Keypad button to execute the command indicated by the right arrow. For example: Reset to Defaults: Statistics Reset to Defaults: Settings Self-Test
?	?	Command cannot execute. There is no connection between the HMI and the indicated LTMR controller.

Navigating the Menu Structure (1-to-many)

Overview

Use the HMI keypad , , , , and buttons to:

Scroll within a page
Link to a page in the next, lower level in the menu structure
Return to a page in the next, higher level in the menu structure
Jump to the Home page

Example

The following navigation example begins and ends at the Home page:

Editing Values (1-to-many)

Overview

Use the HMI keypad , , , , , and buttons to edit setting values. There are three kinds of editable settings:

Boolean
Numeric
Value list

Only settings that are displayed in the LCD can be edited. To display a setting, navigate to the page that contains the setting. With the correct page opened, you may need to scroll down to display the setting.

Boolean Settings

A boolean value setting includes a 0 or a 1 next to the at the right end of the text line. The following example shows you how to select and then edit a boolean value:

1 The Settings page opens with focus at the top line.

2 Click the DOWN button to scroll down to the Local Control setting (HMI). The boolean value (0) and command-line arrow blink, indicating focus.

3 Click the RIGHT arrow to toggle the Local Control setting to Term Strip and the boolean value to 1.

NOTE: An edited boolean value is saved when its value changes.

Numeric Settings

Numeric value settings are incremented or decremented, and can be edited in two ways:

By selecting the entire setting and then incrementing or decrementing its value
By selecting individual characters within the setting and then incrementing or decrementing the value of each digit.

Use the button to select the value to be edited, as follows:

1 The Long Start page opens with no setting selected for editing.

2 Click the MOD button once to select the first displayed numerical field for editing.

3 Click the MOD button a second time to select the next displayed numerical field for editing.

After a setting is selected for editing, you can use the and buttons to increment or decrement the entire value, then use the button to save the edit:

Alternatively after a setting is highlighted you can use the and buttons to select only a single character within a field and edit that character, as follows:

Value List Settings

In a few cases, a setting presents a list of value selections. Selecting a value from the list is very much like incrementing or decrementing the entire value of a numerical setting, as shown in the following figure:

Executing a Value Write Command (1-to-many)

Overview

The Magelis XBTN410 HMI, in 1-to-many configuration provides executable value write commands. A value write command immediately executes a task. The value write command line is identified by either a:

v (at the left end of a command line, or)
v (at the right end of a command line

If a value write command is unsuccessful, the HMI displays a detected error message.

Value write commands include:

Value Write Command	Task	Location
Clear Settings	Clears settings and restores factory settings.	Reset to Defaults page
Clear Statistics	Clears statistics and restores factory settings.	Reset to Defaults page
Self Test	Performs a self-test.	Controller page
Reset-Manual	Enables manual resetting of trips	Reset page
Reset-Remote	Enables remote resetting of trips
Reset-Automatic	Enables automatic resetting of trips

Example

Use the or the arrow key to execute a value write command. When a value write command executes, the lower case "v" next to the arrow becomes an upper case "V", as shown in the following figure, then quickly returns to a lower case "v" after the command executes:

Menu Structure (1-to-many)

Overview

The Magelis XBTN410 HMI 1-to-many menu structure is hierarchical in its design and consists of six levels of individual pages. The upper menu structure levels provide information and commands for the HMI itself and for all LTMR controllers connected to the HMI. The lower menu structure levels provide settings, statistics, and commands for a selected LTMR controller.

Menu Structure Outline

The Magelis XBTN410 HMI 1-to-many menu structure presents the following outline of levels and pages:

Level	Pages	Description
1	Home page	The starting page – navigation to all other pages begins here. Opens on start-up when no trips exist.
2	Controller currents page	Displays average current as a percent of FLC for every LTMR controller. Provides a link to each LTMR controller’s menu structure.
	Controller status page	Displays operating status (On, Off, Trip) for every LTMR controller. Provides a link to each LTMR controller’s menu structure.
	Trip pages	Displays a series of pages, each page describing an active trip. Opens automatically when a trip exists.
	Remote reset page	Executable commands for the remote reset of each LTMR controller.
	Reset to defaults page	Executable commands to reset statistics or settings for each LTMR controller.
	XBTN reference page	Describes communication settings, application program file, programming software version, and HMI firmware version.
3	Controller page	For a selected LTMR controller: Displays dynamically changing parameter values Self Test command Links to its settings, statistics, and Product ID information.
4, 5, 6	Settings page and sub-pages	Contains configurable settings for a selected LTMR controller
	Statistics page and sub-pages	Presents statistics for a selected LTMR controller, including trip n-0 and trip n-1 history.
	Product ID page	LTMR controller and LTME expansion module part and firmware identification.

Menu Structure - Home Page (1-to-many)

Overview

The Home Page opens on HMI start-up when the Magelis XBTN410 is connected to 1 or more LTMR controllers-all of which are running without trips or alarms.

The Home page is the only page located in level 1 of the Magelis XBTN410 1-to-many menu structure. It is the starting place for navigation to all other levels and pages in the menu structure.

Home Page

The Home page contains the following menu items:

Menu Item		Description
VX.X		Page header with LTMR controller firmware version.
IMPORTANT		Links to a page with the following CAUTION message: ‘Set HMI Port Endianess to LEndian to ensure that all values are correctly displayed’.
Controller currents		Links to a page that displays average current and provides links to data and commands for each LTMR controller.
Controller status		Links to a page that displays status (On, Off, Trip) and provides links to data and commands for each LTMR controller.
Trips		Displays a series of trip messages.
Remote Reset		Links to a page that displays the status of each LTMR controller; and provides a reset command for each LTMR controller.
Reset to defaults		Links to a page with commands that reset to factory settings each LTMR controller’s statistics or settings.
XBTN Reference		Links to a page that describes communication speed and parity, programming software, and LTMR controller firmware.

Menu Structure - All LTMR Controllers and the HMI (1-to-many)

Overview

Pages located in level 2 of the menu structure contain:

Information and commands for up to eight connected LTMR controllers, or
Trip information for all LTMR controllers, or
Information about the Magelis XBTN410 HMI

All level 2 menu structure pages are accessible from the Home page.

Controller Currents Page

Use the Controller Currents page to monitor the Average Current Ratio for all connected LTMR controllers, and to navigate to other pages as described in the following table:

Level 2		Description
Controller Currents		–
I1=XXXX% I5=XXXX%		Opens the Controller page for the selected LTMR controller (1-8).
I2=XXXX% I6=XXXX%
I3=XXXX% I7=XXXX%
I4=XXXX% I8=XXXX%
Controller status		Opens the Controller Status page.
Remote reset		Opens the Remote Reset page.
Home		Returns to the Home page.

Controller Status Page

Use the Controller Status page to monitor the System On and System Trip status of all connected LTMR controllers, and to navigate to other pages as described in the following table:

Level 2		Description
Controller Status		–
1:Off 5:OffFLT		Opens the Controller page for the selected controller (1-8).
2:Off 6:On
3:On FLT 7:Off
4:Off 8:Off
Controller currents		Opens the Controller Currents page.
Remote reset		Opens the Remote Reset page.
Home		Returns to the Home page.

Trips Display

The Magelis XBTN410 HMI displays active trips in a series of pages-1 trip to a page-when:

A trip occurs, and the display of active trips automatically opens
You select Trips in the Home page and manually open the display of active trips.

For information about trip management, including the trips display pages, refer to Trip Management (1-to-many).

Remote Reset Page

Use the Remote Reset page to remotely execute a Trip Reset Command for a tripped LTMR controller–for controller with Trip Reset Mode set to Remote, and to navigate to other pages:

Level 2		Description
Remote Reset		–
01FLT023 067FLT50		Executes a Trip Reset Command for the selected LTMR controller (1-8) if remote trip reset is enabled for that controller.
02FLT034 078FLT60
03FLT045 089FLT70
04FLT056 090FLT80
Controller currents		Opens the Controller Currents page.
Controller status		Opens the Controller Status page.
Home		Returns to the Home page.

Each of the first four lines of this page provides the following trip reset information at the indicated locations:

1 Trip reset bit (not significant)

2 LTMR controller number (1-8)

3 Trip status (ON, OFF, FLT)

4 Time to reset (seconds)

Reset to Defaults Page

The Reset to Defaults page provides the Clear Statistics Command and the Clear Controller Settings Command for each LTMR controller, as displayed in the following table:

Level 2		Description
Reset to defaults		–
Stats 1 Settings		Clears statistics (left arrows) or settings (right arrows) for the selected LTMR controller (1-8), and restores factory settings.
Stats 2 Settings
Stats 3 Settings
Stats 4 Settings
Stats 5 Settings
Stats 6 Settings
Stats 7 Settings
Stats 8 Settings

XBTN Reference Page

The XBTN Reference page provides information about the HMI. The following is an example of information displayed in this page:

Level 2	Parameter Name/Description
XBTN Reference	–
MB Speed= 19200	HMI Port Baud Rate Setting
MB Parity= Even	HMI Port Parity Setting
LTM_1T8_E_Vx.xx.DOP	File name for the HMI application program
XX/XX/200X xx:xx:xx	Date of the HMI application program file
XBT-L1000= V 4.42	Version of the XBT 1000 software
Firmware= V 3.1	Version of the HMI firmware

Controller Page (1-to-many)

Overview

The Controller page presents information and commands for the LTMR controller that was selected in either the Controller Currents page or the Controller Status page. For more information, refer to Controller Currents Page.

The Controller page is the only page located in level 3 of the menu structure.

Use the Controller page to:

Monitor dynamically changing current, voltage, and power values for a single, selected LTMR controller
Navigate to editable parameter settings for an LTMR controller
Navigate to read-only statistics and product information for an LTMR controller
Execute the Self Test command for an LTMR controller

Controller Page

The Controller page displays dynamically changing parameter values, and contains the command lines, as follows:

Level 3		Parameter Name/Description
		Page header indicating LTMR controller address (1-8).
Avg Current= xxxx%FLC		Average Current Ratio
L1 Current= xxxx%FLC		L1 Current Ratio
L2 Current= xxxx%FLC		L2 Current Ratio
L3 Current= xxxx%FLC		L3 Current Ratio
GRCurr= xxxx.x%FLCmin		Ground Current Ratio
Curr Ph Imb= xxx%Imb		Current Phase Imbalance
Th Capacity= xxxxx%		Thermal Capacity Level
Time To Trip= xxxxSec		Time To Trip
Avg Voltage= xxxx%FLCmin		Average Voltage
L1-L2 Volts= xxxxxV		L1-L2 Voltage
L2-L3 Volts= xxxxxV		L2-L3 Voltage
L3-L1 Volts= xxxxxV		L3-L1 Voltage
Volt Ph Imb= xxx%Imb		Voltage Phase Imbalance
Power Factor= xx.xx		Power Factor
Active Pwr= xxxx.xkW		Active Power
React Pwr= xxxx.xkVAR		Reactive Power
Temp Sensor= xxxx.xΩ		Motor Temp Sensor
Settings		Links to editable settings for the LTMR controller.
Statistics		Links to read-only statistics for the LTMR controller.
Self Test v		Executes the Self Test command.
Product ID		Links to product reference numbers and firmware versions for the LTMR controller and expansion module.
Home		Returns to the Home page.

Settings (1-to-many)

Overview

The Magelis XBTN410 HMI provides several pages of editable parameter settings, nested in levels 4, 5, and 6 of the menu structure. The settings page is your starting place for locating and editing settings, including:

Motor
Local control
Transfer mode
Reset (trip)
Current
Voltage
Power
Load shed
Rapid cycle lockouts
Communication loss

The settings page is located in level 4 of the menu structure. To navigate to the settings page, use one of the following paths:

Level	From this Page...	Select...
1	Home page	Controller currents, or Controller status
2	Controller Currents page, or Controller Status page	LTMR controller number
3	Controller page	Settings

Motor, Control, and Transfer Settings

Use the settings page to navigate to and edit the following motor, local control and transfer mode settings:

Level 4	Level 5	Parameter Name
Settings Addr. 1-8		–
Motor	Nom Voltage	Motor Nominal Voltage
	Nom Power (kW)	Motor Nominal Power (expressed in kW)
	Nom Power (hp)	Motor Nominal Power (expressed in hp)
	DirTrans	Control Direct Transition
	TransTime	Motor Transition Timeout
	2-step Level	Motor Step 1 to 2 Threshold
	2-step Time	Motor Step 1 to 2 Timeout
	Aux Fan	Motor Auxiliary Fan Cooled
	TEMP SENSOR	–
	Trip	Motor Temp Sensor Trip Enable
	Trip Level	Motor Temp Sensor Trip Threshold
	Warn	Motor Temp Sensor Alarm Enable
	Warn Level	Motor Temp Sensor Alarm Threshold
Local Control		Control Local Channel Setting
Transfer Mode		Control Transfer Mode

Trip Reset Settings

Use the settings page to navigate to and edit the following trip reset settings:

Level 4	Level 5	Parameter Name
Settings Addr.1-8		–
Reset	Manual	Trip Reset Mode
	Remote
	Automatic
	Net Port	Network Port Endian Setting
	AUTO GROUP 1	–
	Attempts	Auto-Reset Attempts Group 1 Setting
	Reset Time	Auto-Reset Group 1 Timeout
	AUTO GROUP 2	–
	Attempts	Auto-Reset Attempts Group 2 Setting
	Reset Time	Auto-Reset Group 2 Timeout
	AUTO GROUP 3	–
	Attempts	Auto-Reset Attempts Group 3 Setting
	Reset Time	Auto-Reset Group 3 Timeout

Current Settings

From the settings page, you can navigate to and edit the following current settings:

Level 4	Level 5	Level 6	Parameter Name
Settings Addr.1-8			–
Current	Th Overload	Trip	Thermal Overload Trip Enable
		FLC1-OC1	Motor Full Load Current Ratio
		FLC2-OC2	Motor High-Speed Full Load Current Ratio
		Trip Class	Motor Trip Class
		Reset Level	Thermal Overload Trip Reset Threshold
		Def O-Time	Thermal Overload Trip Definite Timeout (O-Time)
		Def D-Time	Long Start Trip Timeout (D-Time)
		Warn	Thermal Overload Alarm Enable
		Warn Level	Thermal Overload Alarm Threshold
	Phase Imb/Loss/Rev	CURR PH IMB	–
		Trip	Current Phase Imbalance Trip Enable
		Trip Level	Current Phase Imbalance Trip Threshold
		FltTimeStrt	Current Phase Imbalance Trip Timeout Starting
		FltTimeRun	Current Phase Imbalance Trip Timeout Running
		Warn	Current Phase Imbalance Alarm Enable
		Warn Level	Current Phase Imbalance Alarm Threshold
		CURR PH LOSS	–
		Trip	Current Phase Loss Trip Enable
		Trip Time	Current Phase Loss Timeout
		Warn	Current Phase Loss Alarm Enable
		CURR PH REV	–
		Trip	Current Phase Reversal Trip Enable
	Long Start	Trip	Long Start Trip Enable
		Trip Level	Long Start Trip Threshold
		Trip Time	Long Start Trip Timeout
	Jam	Trip	Jam Trip Enable
		Trip Level	Jam Trip Threshold
		Trip Time	Jam Trip Timeout
		Warn	Jam Alarm Enable
		Warn Level	Jam Alarm Threshold
Current (continued)	Under/Over Curr	UNDER CURR	–
		Trip	Undercurrent Trip Enable
		Trip Level	Undercurrent Trip Threshold
		Trip Time	Undercurrent Trip Timeout
		Warn	Undercurrent Alarm Enable
		Warn Level	Undercurrent Alarm Threshold
		OVER CURR	–
		Trip	Overcurrent Trip Enable
		Trip Level	Overcurrent Trip Threshold
		Trip Time	Overcurrent Trip Timeout
		Warn	Overcurrent Alarm Enable
		Warn Level	Overcurrent Alarm Threshold
	Ground Current	Trip	Ground Current Mode
		IntFltLvl	Internal Ground Current Trip Threshold
		IntFltTime	Internal Ground Current Trip Timeout
		ExtFltLvl	External Ground Current Trip Threshold
		ExtFltTime	External Ground Current Trip Timeout
		Warn	Ground Current Alarm Enable
		IntWarnLvl	Internal Ground Current Alarm Threshold
		ExtWarnLvl	External Ground Current Alarm Threshold

Voltage Settings

From the settings page, you can navigate to and edit the following voltage settings:

Level 4	Level 5	Level 6	Parameter Name
Settings Addr.1-8			–
Voltage	Phase Imb/Loss/Rev	VOLT PH IMB	–
		Trip	Voltage Phase Imbalance Trip Enable
		Trip Level	Voltage Phase Imbalance Trip Threshold
		FltTimeStart	Voltage Phase Imbalance Trip Timeout Starting
		FltTimeRun	Voltage Phase Imbalance Trip Timeout Running
		Warn	Voltage Phase Imbalance Alarm Enable
		Warn Level	Voltage Phase Imbalance Alarm Threshold
		VOLT PH LOSS	–
		Trip	Voltage Phase Loss Trip Enable
		Trip Time	Voltage Phase Loss Trip Timeout
		Warn	Voltage Phase Loss Alarm Enable
		VOLT PH REV	–
		Trip	Voltage Phase Reversal Trip Enable
	Under/Over Voltage	UNDER VOLT	–
		Trip	Undervoltage Trip Enable
		Trip Level	Undervoltage Trip Threshold
		Trip Time	Undervoltage Trip Timeout
		Warn	Undervoltage Alarm Enable
		Warn Level	Undervoltage Alarm Threshold
		OVER VOLT	–
		Trip	Overvoltage Trip Enable
		Trip Level	Overvoltage Trip Threshold
		Trip Time	Overvoltage Trip Timeout
		Warn	Overvoltage Alarm Enable
		Warn Level	Overvoltage Alarm Threshold

Power Settings

From the settings page, you can navigate to and edit the following power settings:

Level 4	Level 5	Level 6	Parameter Name
Settings Addr.1-8			–
Power	Under/Over Power	UNDER POWER	–
		Trip	Underpower Trip Enable
		Trip Level	Underpower Trip Threshold
		Trip Time	Underpower Trip Timeout Starting
		Warn	Underpower Alarm Enable
		Warn Level	Underpower Alarm Threshold
		OVER POWER	–
		Trip	Overpower Trip Enable
		Trip Level	Overpower Trip Threshold
		Trip Time	Overpower Trip Timeout
		Warn	Overpower Alarm Enable
		Warn Level	Overpower Trip Enable
	Under/Over PowFact	UNDER POW FACTOR	–
		Trip	Under Power Factor Trip Enable
		Trip Level	Under Power Factor Trip Threshold
		Trip Time	Under Power Factor Trip Timeout
		Warn	Under Power Factor Alarm Enable
		Warn Level	Under Power Factor Alarm Threshold
		OVER POW FACTOR	–
		Trip	Over Power Factor Trip Enable
		Trip Level	Over Power Factor Trip Threshold
		Trip Time	Over Power Factor Trip Timeout
		Warn	Over Power Factor Alarm Enable
		Warn Level	Over Power Factor Alarm Threshold

Load Shed, Diagnostic, Rapid Cycle Lockouts, Communication Ports Settings

From the settings page, you can navigate to and edit the following load shed, diagnostic, rapid cycle lockout, and communication ports settings:

Level 4	Level 5	Parameter Name
Settings Addr.1-8		–
Load Shed	Trip	Load Shedding
	Trip Level	Voltage Dip Threshold
	Trip Time	Load Shedding Timeout
	RestartLvl	Voltage Dip Restart Threshold
	RestartTime	Voltage Dip Restart Timeout
Diagnostic	DIAG TRIP
	Trip	Diagnostic Trip Enable
	Warn	Diagnostic Alarm Enable
	WIRING CT REVERSAL
	Trip	Wiring trip enable
Rapid Cycle Lockout Time		Rapid Cycle Lockout Timeout
Comm Ports	Net Port	Network Port Endian Setting
	HMI Port	HMI Port Endian Setting
	NET PORT COMM LOSS	–
	Trip	Network Port Trip Enable
	Trip Time	Network Port Comm Loss Timeout
	Warn	Network Port Alarm Enable
	HMI PORT COMM LOSS	–
	Trip	HMI Port Trip Enable
	Warn	HMI Port Alarm Enable

Statistics (1-to-many)

Overview

The Magelis XBTN410 HMI provides read-only statistics pages–nested in levels 4 and 5 of the menu structure–for a selected LTMR controller.

To navigate to the statistics page, use one of the following paths:

Level	From this Page...	Select...
1	Home page	Controller currents, or Controller status
2	Controller Currents page, or Controller Status page	LTMR controller number
3	Controller page	Statistics

Statistics

From the settings page, you can navigate to and read the following statistics:

Level 4	Level 5	Parameter Name
Statistics Addr. 1-8		–
CntrlTempMax		Controller Internal Temperature Max
OperTime		Operating Time
MtrStarts		Motor Starts Count
LastStartDur		Motor Last Start Duration
LastStart		Motor Last Start Current
All Trips		Trips Count
Th Ovld Flt		Thermal Overload Trips Count
Th Ovld Warn		Thermal Overload Alarms Count
Curr Imb Flt		Current Phase Imbalance Trips Count
LongStart Flt		Long Start Trips Count
UnderCurr Flt		Undercurrent Trips Count
Ground Current Trips		Ground Current Trips Count
VoltPhImb Flt		Voltage Phase Imbalance Trips Count
Under Volt Flt		Undervoltage Trips Count
Over Volt Flt		Overvoltage Trips Count
HMI Loss Flt		HMI Port Trips Count
Ntwk Int Flt		Network Port Internal Trips Count
Ntwk Cnfg Flt		Network Port Config Trips Count
Ntwk Port Flt		Network Port Trips Count
Cntrl Int Flt		Controller Internal Trips Count
InterPort Flt		Internal Port Trips Count
Trip n-0	Trip Code	Trip Code n-0
	Date (MMDDYYYY)	Date And Time n-0
	Time (HHMMSS)	Date And Time n-0
	FLC Ratio	Motor Full Load Current Ratio n-0
	FLC Max	Motor Full Load Current Max n-0
	Avg Current	Average Current n-0
	L1 Current	L1 Current Ratio n-0
	L2 Current	L2 Current Ratio n-0
	L3 Current	L3 Current Ratio n-0
	GRCurr	Ground Current Ratio n-0
	Curr Ph Imb	Current Phase Imbalance n-0
	Th Capacity	Thermal Capacity Level n-0
	Avg Volts	Average Voltage n-0
	L1-L2 Volts	L1-L2 Voltage n-0
	L2-L3 Volts	L2-L3 Voltage n-0
	L3-L1 Volts	L3-L1 Voltage n-0
	Volt Ph Imb	Voltage Phase Imbalance n-0
	Frequency	Frequency n-0
	Active Pwr	Active Power n-0
	Power Factor	Power Factor n-0
	Temp Sensor	Motor Temp Sensor n-0
Trip n-1	Trip Code	Trip Code n-1
	Date (MMDDYYYY)	Date And Time n-1
	Time (HHMMSS)	Date And Time n-1
	FLC Ratio	Motor Full Load Current Ratio n-1
	FLC Max	Motor Full Load Current Max n-1
	Avg Current	Average Current n-1
	L1 Current	L1 Current Ratio n-1
	L2 Current	L2 Current Ratio n-1
	L3 Current	L3 Current Ratio n-1
	GRCurr	Ground Current Ratio n-1
	Curr Ph Imb	Current Phase Imbalance n-1
	Th Capacity	Thermal Capacity Level n-1
	Avg Volts	Average Voltage n-1
	L1-L2 Volts	L1-L2 Voltage n-1
	L2-L3 Volts	L2-L3 Voltage n-1
	L3-L1 Volts	L3-L1 Voltage n-1
	Volt Ph Imb	Voltage Phase Imbalance n-1
	Frequency	Frequency n-1
	Active Pwr	Active Power n-1
	Power Factor	Power Factor n-1
	Temp Sensor	Motor Temp Sensor n-1

Product ID (1-to-many)

Overview

The Magelis XBTN410 HMI provides a description of the product number and firmware for both the LTMR controller and LTME expansion module.

To navigate to the Product ID page, use one of the following paths:

Level	From this Page...	Select...
1	Home page	Controller currents, or Controller status
2	Controller Currents page, or Controller Status page	LTMR controller number
3	Controller page	Product ID

Product ID

In the Product ID page, you can read the following information about the LTMR controller and LTME expansion module:

Level 4	Parameter Name/Description
Product ID Addr. 1-8	–
Controller Catalog Ref	Controller Commercial Reference (product number)
Controller Firmware	Controller Firmware Version
Exp Module Catalog Ref	Expansion Commercial Reference (product number)
Exp Module Firmware	Expansion Firmware Version
Network Type	Network Port ID Code
Network Firmware	Network Port Firmware Version

Monitoring (1-to-many)

Overview

Use the Magelis XBTN410 HMI, in a 1-to-many configuration, to monitor:

Operating status and average current for multiple LTMR controllers, or
Current, voltage, and power parameters for a selected LTMR controller.

Monitoring Multiple LTMR Controllers

Navigate to the following pages to simultaneously monitor these dynamically changing values for all LTMR controllers:

Page	Value
Controller currents page	Average current ratio
Controller status page	Operating status (On, Off, Trip)

For more information on both pages, refer to Controller Currents Page.

Monitoring a Single LTMR Controller

Navigate to the Controller page for a selected LTMR controller to monitor the dynamically changing values of the following parameters:

Current:
- Average Current Ratio
- L1 Current Ratio
- L2 Current Ratio
- L3 Current Ratio
- Ground Current Ratio
- Current Phase Imbalance
Thermal
- Thermal Capacity Level
- Time To Trip
- Motor Temp Sensor
Voltage
- Average Voltage
- L1-L2 Voltage
- L2-L3 Voltage
- L3-L1 Voltage
- Voltage Phase Imbalance
Power
- Power Factor
- Active Power
- Reactive Power

For more information on the Controller page, refer to Controller Page (1-to-many).

Trip Management (1-to-many)

Overview

When a trip occurs, the Magelis XBTN410 HMI automatically opens a trip display, consisting of one page for each active trip. Each page contains the:

Trip name
Address of the LTMR controller experiencing the trip
Total number of unresolved trips

Trip Display Pages

A typical trip display page looks like this:

1 Trip display page number

2 Total number of active trips

3 Trip name (flashing)

4 Address of LTMR controller experiencing the trip (flashing)

If more than one trip is active, use the and keypad buttons to move back and forth through the trip display pages.

Because some trip messages contain more than four lines of text, you may need to use the and keypad buttons to scroll up and down within a trip display page and display the entire trip message.

Opening/Closing the Trip Display

The 1-to-many HMI automatically opens the trip display whenever a trip occurs. When you remove the cause of a specific trip and execute a trip reset command, that trips no longer appears in the trip display.

You can also close the trip display by clicking the keypad button. This does not fix the underlying cause of any trip, nor it does not clear any trip. You can reopen the trip display at any time by navigating to the Home page, scrolling to the Trips command line, then clicking the keypad button.

If you open the trip display when no trips are active, the HMI displays the message "No Trips Present".

Magelis XBT Communication Loss

If a key is pressed while the Magelis XBT HMI device loses communication, the keypad update will not be complete. When the communication with the LTMR is back, the following message displays: "#203 Cannot connect to controller". Press any key or power cycle the device.

Service Commands (1-to-many)

Overview

The Magelis XBTN410, in 1-to-many configuration, provides the following service commands:

Command	Description	Location/Reference
Self Test	Performs an internal check of the LTMR controller and LTME expansion module.	Level 3, Controller page. Refer to Controller Page.
Reset to Defaults: Statistics	Executes the Clear Statistics Command for a selected LTMR controller.	Level 2, Reset to Defaults page. Refer to Reset to Defaults Page.
Reset to Defaults: Settings	Executes the Clear Controller Settings Command for a selected LTMR controller.	Level 2, Reset to Defaults page. Refer to Reset to Defaults Page.
Remote Reset	Performs remote trip reset for a selected LTMR controller	Level 2, Remote Reset page. Refer to Remote Reset Page

Using SoMove with the TeSys T DTM

Overview

The following topics show you how to use the LTMR controller when it is connected to a PC running SoMove with the TeSys T DTM.

Presentation of SoMove with the TeSys T DTM

Aim of the Software

SoMove software is a Microsoft Windows-based application, using the open FDT/DTM technology.

SoMove contains DTMs for different devices. The TeSys T DTM is a specific DTM that enables the configuration, monitoring, control, and customization of the control functions of the LTMR controller, as part of the TeSys T motor management system.

Functions

The TeSys T DTM can be used to:

Configure parameters for the LTMR controller,
Display information about the LTMR controller configuration and operation,
Display the status of trips and alarms in the LTMR controller,
Control the motor,
Customize operating modes.

For More Information

Refer to the TeSys T DTM for SoMove FDT Container Online Help embedded in the DTM software.

Installing SoMove and the TeSys DTM Library

Overview

The installation of SoMove includes some DTMs such as the TeSys DTM library.

The TeSys DTM library includes:

TeSys T DTM
TeSys U DTM

These DTM are automatically installed during the SoMove installation process.

Downloading SoMove

SoMove can be downloaded from the Schneider Electric website (www.se.com) by entering SoMove Lite in the Search field.

Installing SoMove

Step	Action
1	Unzip the downloaded file: the SoMove file is unzipped in a folder named SoMove_Lite - V.X.X.X.X (where X.X.X.X is the version number). Open this folder and double-click setup.exe.
2	In the Choose Setup Language dialog box, select the installation language.
3	Click OK.
4	In the Welcome to the Installation Wizard for SoMove Lite dialog box, click the Next button.
5	If an Install Shield Wizard dialog box appears and informs you that you must install Modbus driver, click the Install button. Result: Modbus driver is installed automatically.
6	In the Readme and Release Notes dialog box, click the Next button.
7	In the Readme dialog box, click the Next button.
8	In the License Agreement dialog box: Read carefully the license agreement. Select I accept the terms in the license agreement option. Click the Next button.
9	In the Customer Information dialog box: Enter the following information in the corresponding fields: First name Last name Company name Select an installation option: Either the Anyone who uses this computer option if SoMove Lite is used by all users of this computer, or Only for me if SoMove Lite is used only by you. Click the Next button.
10	In the Destination Folder dialog box: If necessary, modify the SoMove Lite destination folder by clicking the Change button. Click the Next button.
11	In the Shortcuts dialog box: If you want to create a shortcut on the desktop and/or in the quick launch bar, select the corresponding options. Click the Next button.
12	In the Ready to Install the Program dialog box, click the Install button. Result: The SoMove Lite components are installed automatically: Modbus communication DTM library which contains the communication protocol DTM libraries which contain different drive catalogs SoMove Lite itself
13	In the Installation Wizard Completed dialog box, click the Finish button. Result: SoMove Lite is installed on your computer.