MTL830B Temperature Multiplexer System
Product Information
The MTL830C is a temperature multiplexer system manufactured by
Eaton Electric Limited. It is designed to replace the MTL830B
temperature multiplexer system. The MTL830C system is compatible
with Honeywell LLMUX cards and provides enhanced functionality
compared to its predecessor.
The MTL830C system includes the following components:
- MTL838C Receiver
- MTL831C Transmitter
- MTL3052 Isolator (optional)
- MTL5553 Isolator/Power Supply (optional)
Product Usage Instructions
- Record the settings of the existing MTL830B system:
- Record the channel configuration for each sensor input.
- Record the address of each MTL831B transmitter.
- Power off the MTL830B system by turning off or disconnecting
the power to the MTL838B-HON units. - Replace each MTL831B transmitter with an MTL831C transmitter:
- For hazardous area installations, ensure the Intrinsic Safety
entity parameters of the sensors are compatible with the entity
parameters of the MTL831C. - Move the wires from each MTL831B sensor input channel to the
corresponding MTL831C sensor input channel. - Connect each sensor input channel’s terminals (A, B, C, and D)
according to the provided drawing. - Remove any extra components, terminal strips, and wiring used
for connecting RTDs to the MTL831B, as they are not necessary for
the MTL831C. - Connect each RTD to its own input channel port.
- For hazardous area installations, ensure the Intrinsic Safety
- Move the Data Highway cable from the MTL831B to the MTL831C. If
two Data Highway cables were used with the MTL830B system, select
one cable to use with the MTL830C system. - If there is an MTL3052 Isolator installed in the Data Highway
cable, replace it with the MTL5553 Isolator/Power Supply according
to the provided instructions. - Replace the MTL838B-HON receiver with the MTL838C receiver
following the instructions provided in the MTL838C Receiver
Instruction Manual.
Technical support note
MTL intrinsic safety solutions
July 2019 TSN MTL830x Rev 1
Replacing an MTL830B System with an MTL830C System connected to a Honeywell LLMUX card
1 Introduction
This document provides instructions for replacing an MTL830B temperature multiplexer system with a MTL830C temperature multiplexer system. A block diagram showing an example hardware installation before and after installation is shown below for reference.
Honeywell System
Honeywell System
RS485
RS485
RS485
RS485
MTL838B-HON Receiver
19-30Vdc Power
MTL838C Receiver
19-30Vdc Power
Data Highway 1
Data Highway 2
Data Highway
MTL3052 Isolator
MTL3052 Isolator
MTL5553 Isolator
MTL831B Transmitter
MTL831B Transmitter
MTL831C Transmitter
MTL831C Transmitter
16 Sensor Inputs (RTD, TC, or mV)
16 Sensor Inputs (RTD, TC, or mV)
16 Sensor Inputs (RTD, TC, or mV)
16 Sensor Inputs (RTD, TC, or mV)
Figure 1: Example of Hardware Changes Associated with Replacing an MTL830B System with an MTL830C System
Eaton Electric Limited, Great Marlings, Butterfield, Luton Beds, LU2 8DL, UK. Tel: + 44 (0)1582 723633 Fax: + 44 (0)1582 422283 E-mail: [email protected] www.mtl-inst.com
© 2019 Eaton All Rights Reserved Publication No. TSN838C Rev 1 July 110719
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2 Steps for replacing the MTL830B with the MTL830C system
1. Record the settings if the exsiting MTL830B system. a. Record the channel configuration (thermocouple, mV, 2-wire RTD, 3-wire RTD or 4-wire RTD b. Record the address of each MTL831B. The address is set by the positions of SW 100 switches 1 and 2. NOTE: Only addresses 1 and 2 are used.
2. Power of the MTL830B system. This can be done by turning off or disconnecting the power to the MTL838B-HON units. 3. Replace each MTL831B with an MTL831C (see the MTL831C Analog Transmitter Instruction Manual (INM MTL831C) for
details). a. For hazardous area installations, confirm the Intrinsic Safety entity parameters of the sensors are compatible with the entity parameters of the MTL831C. b. Move the wires from each MTL831B sensor input channel to the corresponding MTL831C sensor input channel. c. Each sensor input channel has 4 terminals labelled A, B, C, and D. The proper connections to the terminals for each input type are shown in the drawing below.
Figure 2: MTL 831C Terminal Connections for the Various Sensor Types d. The extra components, terminal strips and wiring used to connect RTDs to the MTL831B are not necessary on the
MTL831C. The MTL831C supports direct connection 0f 2, 3 and 4-wire RTDs. Extra diodes for RTD measurements are not required with the MTL831C. Connect each RTD to its own input channel port.
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e. Move the Data Highway cable from the MTL831B to the MTL831C. If two Data Highway cables were used with the MTL830B system, select one of the two cables to use with the MTL830C system. The second Data Highway cable is not connected.
f. On the MTL831C replacing the MTL831B with address 2 (if there is one), install a jumper wire between the ADDRESS terminals A and S (terminal numbers 7 and 8).
Figure 3: Jumper Wire Between Address Terminals 4. If an MTL3052 Isolator is installed in the Data Highway cable, replace the MTL3052 Isolator with the MTL5553 Isolator/Power Supply (see the MTL5500 Series Instruction Manual (INM MTL5500) for details). 5. Replace the MTL838B-HON with MTL838C (see the MTL838C Receiver Instruction Manual (INM MTL838C) for details).
a. Move the MTL838B-HON RS-485 ports to the corresponding terminals of the MTL838C. b. Move the wires from the MTL838B-HON Data Highway port to the corresponding terminals
of the MTL838C. If two Data Highway cables were used with the MTL830B system, connect the same cable attached to the MTL831C Data Highway port(s) to the MTL838C Data Highway port. The second Data Highway is not connected. c. Move the wires from the MTL838B-HON power port to the corresponding terminals of the MTL838C. 6. Apply DC power to the MTL830C system (turn on power to the MTL838C and MTL5553, if installed). 7. Verify the MTL838C green POWER LED turns on. 8. Verify the MTL838C green COMM LED is flashing. This indicates communication is established with the MTL831C(s). If not, verify proper connection of the Data Highway wiring. 9. Install the MTL83xC Configurator software on a computer. 10. Connect the computer to the MTL838C USB-C port.
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July 2019 11. Use the software to configure the MTL838C to match the old MTL830B system settings you recorded (see the MTL83xC LLMUX Emulation manual (INM MTL83xC LLMUX) for details). On the MTL838C tab: a. Check for relevant firmware updates for the MTL831/MTL838C b. Select LLMux as the Communucation Protocol. c. Select the MTL831C transmitters that are connecred (#1,#2, or both). d. Select the type of inputs connected to each MTL831C (mV/TC or RTD). e. Select the Line Frequency to 60Hz or 50Hz (frequency of power on site). f. Click the Download -> MTL838C button.
Figure 4: Example MTL838C Configuration
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July 2019 12. Use the software to configure the MTL831C(s) to match the old MTL830B system settings you recorded, a. NOTE: The Honeywell system sends most of the channel configuration to the MTL830C system. However, the number of wires used for RTDs is not included in the configuration data sent by the Honeywell system. The default channel configuration for RTDs is 3-wire. If mV, thermocouple, and 3-wire RTD are the only channel configurations used then no MTL831C configuration is required. If any channels are connected to 2- or 4-wire RTDs, set those channels using the software as described below. b. On each MTL831C tab where MTL831C is configured to measure RTDs, select the correct number of wires for the RTD for each channel. NOTE: this is only required for channels connected to 2- or 4-wire RTDs. Any channels connected to RTDs and left as “Not Configured” will be treated as 3-wire RTD when the Honeywell system enables them. c. Click the Download -> MTL831C button. d, NOTE: The MTL838C remembers the last way a channel was configured for RTD even if it is later unconfigured. If the Honeywell system then configures the channel for RTD, it will use the number of wires that was last configured by the software. If you see unexpected behavior with RTDs use the software to configure the number of wires on ALL RTD channels so that you know they are correctly configured.
13. Disconnect the computer from the MTL838C. NOTE: The Honeywell system will not be able to communicate with the MTL830C system while the computer is connected to the MTL838C.
14. Confirm the new system is operating properly using the Honeywell system.
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3 Frequently Asked Questions
· Is the Data Highway cable between the transmitter and receiver required to be Fieldbus cable? No. Standard, twisted-pair instrumentation cable may be used
· Is there a seperate Honeywell version of the receiver, equivalent to MTL838B-HON? No. The MTL838C receiver is configurable for either standard (Modbus) or Honeywell (LLMUX) use
· Can the MTL830C transmitter and receiver be used without the MTL5553 isolator, in non-IS applications? Yes. The isolator is only required for hazardous area applications
· In Modbus applications, are changes needed to be programming of the Modbus master if an MTL838B is replaced by an MTL838C? No. The Modbus mapping of the MTL838C excatly the same as the MTL838B.
Eaton Electric Limited, Great Marlings, Butterfield, Luton Beds, LU2 8DL, UK. Tel: + 44 (0)1582 723633 Fax: + 44 (0)1582 422283 E-mail: [email protected] www.mtl-inst.com
© 2019 Eaton All Rights Reserved Publication No. TSN MTL830x Transition Rev 1 110719 July 2019
EUROPE (EMEA): +44 (0)1582 723633 [email protected]
THE AMERICAS: +1 800 835 7075 [email protected]
ASIA-PACIFIC: +65 6 645 9888 [email protected]
The given data is only intended as a product description and should not be regarded as a legal warranty of properties or guarantee. In the interest of further technical developments, we reserve the right to make design changes.
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