GN-D-S-S-T-C-Z-XP Genesis Duo Dual Point Control and Monitoring Solution

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Product Information

Specifications

• Product Name: Genesis DuoTM
• Type: Dual-Point Control & Monitoring Solution
• Document Numbers: PN50900-0624 (V1.1), PN50900-0324 (V1.0)

Product Description

Genesis Duo is a dual-point control and monitoring solution for
heat tracing applications. It is used to control heat trace in
freeze protection and process control applications and communicate
status to other platforms via wired and/or wireless communication
interfaces on-board.

Technical Specifications

Refer to the product models section for detailed technical
specifications.

Product Models

• Part Number: 816011
• Model Code: GN-D-S-S-T-C-Z-XP
• Description: Genesis Duo w/LCD, Current Monitoring (2 SSR) +
  Pipe Mount Kit

Installation Precautions

1. To minimize the potential for arcing and fire, use ground-fault
   protection.

2. Installation must comply with Thermon requirements and relevant
   electrical codes.

3. De-energize all power sources before opening the
   enclosure.

Product Usage Instructions

Preparing the Duo for Installation

1. Receive, store, and handle the product carefully.
2. Ensure you have the necessary tools for installation.
3. Unpack the contents of the package.

Duo Installation Procedure

1. Mount the assembly using either pipe mount or wall mount
   methods.

2. Make wiring connections for RTD, alarm, heater, and power.

FAQ

Q: Can I use Genesis Duo for both freeze protection and process

control applications?

A: Yes, Genesis Duo is designed for both freeze protection and
process control applications.

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Genesis DuoTM
Dual-Point Control & Monitoring Solution
INSTALLATION GUIDE

Version History

Version

Comments

V1.1 V1.0

Revised version of the Genesis Duo Installation Guide includes p. 8 Notes on cable routing
Base version of the Genesis Duo Installation Guide

Document Number
PN50900-0624
PN50900-0324

CONTENTS

I Introduction

4

II Audience

4

III Installation Precautions

4

IV Product Details

4

1. Product Description

4

2. Technical Specifications

.

4

3. Product Models

4

4. Certifications/Approvals

4

V Preparing the Duo for Installation

5

1. Receiving, Storing & Handling

5

2. Tools Required

5

3. Unpacking Contents

6

4. Open the Duo Cover

6

5. Remove the Terminal Block

6

6. Install the Cable Glands

7

7. Make Jumper Connections on Terminal Block

7

VI Duo Installation Procedure

8

1. Mounting Assembly

8

a. Pipe Mount

8

b. Wall Mount

11

2. Wiring Connections

11

a. RTD Wiring

11

b. Alarm wiring

11

c. Heater wiring

12

d. Power Wiring

12

3. Secure the Terminal Block

12

4. Close and Lock the Duo Cover

13

5. Power

13

6. Genesis Duo Controller Settings

14

Appendix A

15

Genesis DuoTM

I Introduction This guide provides a detailed step-by-step installation procedure to install, set-up and configure Genesis Duo. This guide is in English. For local language translation version, please contact your local sales representative.
II Audience The information in this guide is intended for engineers and technicians qualified for the installation and programming of heat trace controllers. You should have certified technician skills or have a background: · To carry out electrical system installations · Basic understanding of electrical and electronic
systems · Experience installing Heat Trace Systems · Basic understanding of the working of heat trace
controller and configuration settings · Usage of mechanical tools

IV Product Details
1. Product Description Genesis Duo is a dual-point control and monitoring solution for heat tracing applications. It is used to control heat trace in freeze protection and process control application and communicate status to other platforms via wired and/or wireless communication interfaces on-board.
2. Technical Specifications

III Installation Precautions
1. To minimize the potential for arcing and fire caused by product damage or improper installation use ground-fault protection. The National Electrical Code (NEC) and Canadian Electrical Code (CEC) require ground-fault protection of equipment for each branch circuit supplying electric heat tracing.
2. Installation must comply with Thermon requirements and be installed in accordance with the NEC, CEC, or any other applicable national and local codes.
3. Component approvals and performance ratings are based on the use of Thermon specified parts only. User supplied power connection fittings must be listed or certified for intended use.
4. De-energize all power sources before opening the enclosure.
5. Keep ends of heating cable and kit components dry before and during installation.
6. Individuals installing these products are responsible for complying with all applicable safety and health guidelines. Proper personal protective equipment, or PPE, should be utilized during installation. Contact Thermon if you have any additional questions.

3. Product Models

Part Number

Model Code

816011

GN-D-S-S-T-C-Z-XP

816012

GN-D-S-S-T-C-Z-WP

816021

GN-D-M-M-0-0-Z-XP

Description
Genesis Duo w/LCD, Current Monitoring (2 SSR) + Pipe Mount
Kit
Genesis Duo w/LCD, Current Monitoring (2 SSR) + Wall Mount
Kit
Genesis Duo w/o LCD (2 Mechanical) + Pipe Mount Kit

816022 816051 816052

GN-D-M-M-0-0-Z-WP GN-D-S-S-0-C-Z-XP GN-D-S-S-0-C-Z-WP

Genesis Duo w/o LCD (2 Mechanical) + Wall Mount Kit
Genesis Duo w/o LCD, Current Monitoring (2 SSR) + Pipe mount
Kit
Genesis Duo w/o LCD, Current Monitoring (2 SSR) + Wall mount
Kit

4. Certifications/Approvals
-40°C < Tamb < +60°C; IP66 Class I, Zone 2, AEx/Ex ec mc nC [ib Gb] IIC T4 Gc
Zone 22, AEx/Ex tc IIIC T135°C Class I, Division 2, Groups A, B, C, D; T4 Class II, Division 2, Groups FG; Class III; T135°C
Ex ec mc nC [ib Gb] IIC T4 Gc Ex tc IIIC T135°C Dc
II 3(2) G Ex ec mc nC [ib Gb] IIC T4 Gc II 3 D Ex tc IIIC 135°C Dc

8505 0344

Form PN50900-0624

4

V1.1

V Preparing the Duo for Installation
1. Receiving, Storing and Handling a. Identify parts against your packing list to ensure the proper type and quantity has been received. b. Inspect materials for damage incurred during shipping. c. Report damages to the carrrier for settlement
Kit Contents 1

INSTALLATION GUIDE
Pipe Mount or Wall Mount Expediter Kit
Pipe Mount Expediter (with O-Ring) Wall Mount Expediter (with O-Ring)
3-wire RTD(s) ­ NOT included. Must be ordered separately. b. If any of the ordered items are missing, please contact your Thermon sales representative immediately for a replacement order. Note: You will need to return all the items in the received package against a replacement order. Please discuss the logistcs with your Thermon sales representative. Pipe Mount expediter assembly (Component positioning)

2

3

4

5

6

Wall Mount expediter assembly (Component positioning)

7

8

Item Quantity

Description

1

1

Genesis Duo Unit

2

1

Grommet

3

1

Cable Guide

4

1

Wave Spring

5

1

Lock Ring (2.25″)

6

1

Lock nut (2.26″)

7

1

B-10 Metal banding

8 Not included 3-Wire RTD(s) – Order separately

Notes: 1 – The Duo unit may or may not have a graphical display depending on your unit’s model code. 2 – The Duo unit with mechanical relays will not have a heat sink. The form factor will be different for that model. 3 – The actual grommet you order and use will depend on the type of heat trace cable you plan to use in your installation. Refer to Appendix A
Form PN50900-0624

2. Tools Required Ensure availability of the following tools needed for the installation, assembly and mounting of Genesis Duo and the RTD wiring for each circuit. (not included in package).
8mm Nut Driver
Flathead screwdriver (2.5, 4 and 7 mm)
Pliers, Wire Cutter Wire Strippers

Torque Specifications: Phoenix terminal UT-6: 1.5 Nm to 1.8 Nm Current Transformer (CT) bracket #10 screw: 1.7 Nm to 1.9 Nm

5

V1.1

Genesis DuoTM

3. Unpacking Contents
a. Remove components from the package
b. Set aside the required quantity of RTDs as needed for circuit configuration
c. For pre-drilled entries as shown below (1-inch clearance/M25 clearance) to be used for routing cables/wires, select a cable entry that complies with your local region’s code.
.d. Refer to the Genesis Duo Wiring System Diagrams while making wiring connections.

c. Use a 4mm or larger flathead screwdriver for leverage to open the tightly sealed Duo cover.

Pre-drilled entries Note: The dust covers received with the Duo do not ensure the IP rating. They must be replaced during installation procedure with rated blind plugs.
4. Open the Duo Cover

d. Move the cover clockwise all the way to left, until there is an audible “click.” This will lock the cover in position.

5. Remove the Terminal Block
Bolts

a Pull the string to remove locking pin.

Terminal Block

b. Push latch forward to release and unlock Duo cover.
Tip: Avoid using too much force as the latch may come off. If it does, replace it back in position.

a. Use the 5/16” nut driver to loosen bolts holding the terminal block.
Tip: Do not fully remove bolts.

Form PN50900-0624

6

V1.1

INSTALLATION GUIDE
6. Install Cable Glands
Cable glands

b. Remove Terminal Block assembly by sliding it up from bolts, pulling it out of the enclosure to access the rear area.
CAUTION: Do not strain the wires while pulling the terminal block.

a. Install required number of cable glands depending on number of clearance holes to be used for wiring. The cable gland should accommodate the thickness of wires passing through it.
Caution: Customer is responsible for installation of certified-rated cable glands appropriate for the installation environment to maintain specifications. If improper glands are installed, Thermon is not responsible for nonconformance.

Tip: Use certified glands with proper IP rating depending on the environment where you plan to install the Duo. If not ordered, procurement of those will be customer’s responsibility.
b. Install rated blind plugs in all unused holes to maintain required rating for the environment.

CAUTION: Do not place the terminal block on top or in between the cover and main body. It can fall and cause injury to your hand.

7. Jumper Connections on the Terminal Block Jumpers

Tip: Place the Duo on the surface with the heat sink as the base. Support the Duo cover from the side for stability. Pull the terminal block out and let it weigh toward bottom.

Form PN50900-0624

a. Identify the jumper configuration for your setup. The jumper settings combine or isolate circuits with respect to individual breakers.
Note: Duo ships with default jumper connections with CTRL points shorted to corresponding Ckt 1 points Refer to: Genesis Duo Wiring System Diagrams

b. Pre-installed red jumpers are removable and can be re-used for jumper connections. Remove the default jumpers if needed.
Tip: Recommend using wires for ease in making jumper connections.

d. Duo is now ready to mount on pipe or wall mount assembly.

7

V1.1

Genesis DuoTM
VI DUO INSTALLATION PROCEDURE
1. Mounting Assembly 1.a. Pipe Mount

Holes for heat trace cables

Grommet
i. Inspect grommet for defects and debris. If covered in debris or powder, use a light cleaning agent and rag to remove it. Rinse and fully dry before continuing. Verify cable gland model matches heat trace gland model per Appendix A.

v. Pierce the heat trace cable’s edge (cut) through the grommet to make sure it passes through one of the holes in the grommet.
Notes: 1 – For making heat trace cable connections through the cable glands (via predrilled holes), cold leads must be routed to a cold/hot junction in the field. Heat trace cables cannot be routed directly through the glands into the Duo.
2 – Some of the images shown in this guide might make use of an older version of the pipe mount expediter. Please refer Pipe Mount expediter assembly portion in Receiving, Storing and Handling for the details on the latest expediter. The installation steps remain the same.
vi. Repeat steps ii and iii for the second heat trace cable if you are configuring two circuits.

For Heat trace cables

For RTDs

ii. Locate bus connection (HPT and FP only) and cable as shown.
iii. Cut the end of the cable at an angle to aid in piercing grommet.

Tip: For ease of wiring, recommend running heat trace cables through corner holes and RTDs through center hole from the base of the expediter as shown in figure above..
RTD insertion

iv. Run the heat trace cable through the bottom of the expediter base (pipe mount). Take care while feeding the heat trace cables through the expediter guide rails to ensure no twisting occurs.
Form PN50900-0624

vii. Insert the RTD sensor leads (if using in the circuit) through the expediter bottom, all the way into the corresponding holes in the grommet. Max RTD cable diameter is 0.125″, min RTD cable diameter is 0.10″.
CAUTION: Do not pull from the sensor end when routing through the expediter assembly. Pull sensor from the lead wire portion.

Note: The customer must order RTDs separately. RTDs are not included in Duo or mounting kits shipment.

8

V1.1

INSTALLATION GUIDE

viii. Pull cables through the grommet. Then push the grommet to make it rest firmly on the expediter.
Tip: Ensure that there is at least 13” of RTD cable and 8” of heat trace cable exiting the top of the expediter.

xii. Push the expediter downwards towards the pipe to ensure stable positioning on the pipe.
Tip: All cables must have already been run through the expediter base entry all the way up through the wave spring.

Heat Trace Cable

ix. Install the cable guide on top of the grommet. Pass the heat trace cables and the RTD sensor wires through the corresponding holes of the cable guide as in the grommet.

Without RTD

With RTD

Banding

xiii. Insert metal banding into the expediter and wrap around pipe. Insert the other end of the band through the hole below the screwhead.

Tip: Ensure that the screwhead is easily accessible to enable tightening. If the Duo is mounted on top of the pipe, the screwhead should be located at the bottom of the pipe.

CAUTION: Ensure that the banding is not placed on top of any cables.

x. Install the wave spring on top of the cable guide. Ensure that all wires run through it.
xi. Prepare the heat trace cables for making the electrical connection to the heater circuit on the Duo terminal block.
Refer to: installation instructions for power connection boot on Thermon Electrical Heat Tracing Cables.
CAUTION: Use insulating tape to cover exposed portions of the heat trace shield to prevent accidental shorting against RTD metal body.

CAUTION: Excess metal band should be cut using a wire cutter. While cutting the metal band, please ensure that the edge is not left exposed. It can cause injury through cut if exposed to hand or any other body part.
xiv. Run the heat trace cable along the pipe for the needed length.
xv. Cut off the end of heat trace cable running along the length of the pipe. Terminate heat trace cable with an appropriate termination kit.
Refer to: Thermon End Termination Kit Installation instructions.
xvi. Push excess cable back through expediter. Use care while feeding the heat trace cables through the expediter guide rails to ensure the cables do not become twisted.

Form PN50900-0624

9

V1.1

Genesis DuoTM

RTD wire

xvi. Tape cable expansion loop to pipe.
RTD wire

Expediter

Lock ring
xix. Ensure all wires from the expediter pass through the lock ring. Place the lock ring on the expediter assembly. Lock the ring by turning it clockwise.
Tip: Make sure that the flat side is towards the bottom. Tighten as much as possible using your fingers. Using a marker, place a mark at the ending location once tightened. .After that, use pliers to ensure that it is tightened fully or use a mallet and flat head screwdriver to tighten the metal nut,driving it clockwise until tight.

xvii. Fix the RTD sensor head to the pipe using fixing tape
Tip: Use fixing tape according to Thermon heat trace cable specifications. Refer to: Thermon fixing tapes FT-IL, FT-IH

Lock nut

xviii. Mount the Duo body on the expediter carefully. Align slots with the protrusions on the expediter to properly orient junction box base. Ensure that the main housing rests properly on the top of the expediter’s O-ring seal.
Tip: Pull the terminal block upwards to the top with one hand to make the rear accessible. With the other hand pull all wires coming in through the expediter together towards the bottom.
CAUTION: Hold the terminal block firmly towards the top. If it falls, it can cause injury to your hand.

xx. Install the lock nut on top of the lock ring. Ensure that the circular side with the locknut grooves is on the top and the flat side is at the bottom.
Tip: Apply force to compress the wave spring and then tighten it clockwise. Use fingers and then a wrench to tighten fully.
xxi. Now that assembly is complete, proceed to wiring connections.

Form PN50900-0624

10

V1.1

1.b. Wall Mount

INSTALLATION GUIDE

Wall mounting holes (Dia – 0.228″)

Mounting slots

2. Wiring Connections 2.a. RTD Wiring
i. Refer to the Duo wiring diagrams for your preferred configuration.
Refer to: Genesis Duo Wiring System Diagrams

Expediter mounting hole

Spring cage

i. Identify and mark the position of the wall mounting holes on the wall using the holes to ensure proper distance between them.
ii. Drill the holes in the wall (at the location where you want to mount the unit) for the given dimension using appropriate drill bit.
iii. Mount the bracket on the wall by placing the appropriate fasteners through the wall mounting holes.

ii. Connect the RTD wires to the appropriate point with the marked label on the front cover.
Note: Red wire – B, White wire – A
Tip-1: Route the RTD wires towards the direction of the open Duo cover (i.e. left). Leave enough length on RTD wires inside the Duo to facilitate movement when the Duo cover is opened or closed.
Tip-2: Engage the spring-cage at the bottom using the 2.5 mm flathead screwdriver. Do not use excessive force; just enough to open the corresponding receptacle/socket by pressing at the bottom and lifting a little. Insert the RTD wire.
CAUTION: If the RTDs being used have a metal casing like RTD-500-72-3, we strongly recommend taping the wire to the inside of the Duo to prevent them from touching the metal backplate on the terminal block and causing a short.

Wall mount expediter

Mounting washers and bolts

iv. Secure the bottom of the expediter to the bracket using the provided spring washers and bolts.

v. Follow the Duo installation steps as outlined in the Pipe Mount section of the Mount Assembly.

2.b. Alarm Wiring
i. Route alarm wires through the convenient cable gland from either side into the Duo leading up to the Alarm relay port.

Spring cage

Alarm relay port

Form PN50900-0624

ii. Connect the alarm output wires to the alarm relay port available (as shown above).
Tip: Engage the spring-cage at the bottom using the 2.5 mm flathead screwdriver. Do not use excessive force; just enough to open the corresponding receptacle/socket by pressing at the bottom and lifting a little. Insert the alarm wire.

11

V1.1

Genesis DuoTM

2.d. Power Wiring
i. Route the power wires through the convenient cable gland from either side of the Duo to the back of the terminal block.

Image from actual installation
Tip: Use a cable tie to secure wires near top of the Terminal Block assembly to avoid clutter.

2.c. Heater Wiring

ii. Connect the power wires to the corresponding labels (CTRL L1/CTRL L2(N)/GND) in the terminal block. .
Tips: 1 – Use 4mm flathead screwdriver to secure wires to terminal block. 2 – Line to CTRL L1, Neutral to CTRL L2(N) & Ground to GND.

i. Connect the heat trace cables on the back of the terminal block to the appropriate label position (as per the wiring diagram)

Image from actual installation

3. Secure the Terminal Block
a. Once all wiring connections to the terminal block are complete, use a zip tie to tidy the wiring going into the Duo cover.

Image from actual installation

Form PN50900-0624

b. Carefully push the terminal block assembly back into the Duo housing to rest on the two mounting bolts. Tighten each bolt using the 5/16”nut driver.
Tip: While pushing the terminal block in, route the power/alarm/RTD wires from top of the terminal block to avoid obstruction by them.

12

V1.1

4. Close and Lock Duo Cover

INSTALLATION GUIDE
5. Power
a. Power up the Duo device.

a. Lift the cover vertically to release it from the locked position.
Caution: Ensure that the wires going to the Duo cover are routed from the top of the terminal block before attempting to close the cover. Ensure that no wires are pinched in the process.

b) The clockwise and anti-clockwise rotation of red and white patterns on the outer ring indicates that the device is booting up.

Squeeze

b. Close the cover.
Tip: You may need to use pliers to squeeze the door against the body until properly sealed/closed.

c. Close the latch.

c) When the outer ring changes to a steady green state, it indicates that the power up sequence is complete. The Duo is ready to update configuration settings.
d) If you have connected RTDs to both the circuits, you will notice that when the device is powered up for the first time, you only see the temperature showing up for circuit 1 on the left side.
e) The 2nd circuit on the right shows disconnected. This is the default state after the first time boot up sequence.
f) Once the configuration settings are done for both the circuits, you will see the parameters for both the circuits.

d. Insert the pin.
e. Congratulations! Your Duo installation is now complete. You can power up the device.

Refer to: Genesis Controller Settings for configuration.

Form PN50900-0624

13

V1.1

Genesis DuoTM

6. Genesis Duo Controller Settings

Setting Option

Applies To

Function

User Selectable Setpoints

1

Circuit Tag

2

Power State

3

Active Alarms

4

5

Low Temperature Alarm

6

Maintain Temperature

7

Max Tem perature

8

High Temperature Alarm

9 High Temperature Trip Mode

10

High Temperature Trip

11 High-High Temperature Alarm

12 Temperature Alarm Delay

13

Temperature Units

14

15

Low Current Alarms

16

High Current Alarm

Individual Circuit Individual Circuit Individual Circuit
Alarm s Set Point Deadband Individual Circuit Individual Circuit Individual Circuit Individual Circuit
Unit Unit
Individual Circuit Individual Circuit

Circuit Identifier

0 to 64 Characters

Circuit State Circuit Alarms

Disabled or Enabled or Forced on or Forced off
N/A

Temperature Settings

Low Temperature Alarm

-76F to 932F

Maintain Temperature

-76F to 932F

Temperature Deadband

-76F to 932F

High Temperature Alarm Trip or High-High Alarm Selection
High Temperature Circuit Trip

-76F to 932F High Temperature Trip or High-High
Alarm -76F to 932F

High-High Temperature Alarm

-76F to 932F

Temperature Alarm Delay

Disabled to 30 mins

Temperature Units

C or F

Current Settings

Low Current Alarm (Amps)

0.0 to 100.0 A

High Current Alarm (Amps)

0.0 to 100.0 A

17

High Current Trip Mode

Individual Circuit Trip or High-High Alarm Selection

Trip or High-High Current Alarm

18

High Current Trip

Individual Circuit

High Current Trip (Amps)

0.0 to 100.0 A

19

High-High Current Alarm

Individual Circuit High-High Current Alarm (Amps)

0.0 to 100.0 A

20

Current Alarm Delay

Unit

Alarm Delay (Minutes)

Disabled to 7 mins

21 Max Current (Heater OFF)

Unit

Max Current (Heater OFF) (Am ps )

0.0 to 50.0 A

22

Ground Current Settings

23 High Ground Current Alarms Individual Circuit High Ground Current Alarm (mA)

0 to 200 mA

24 High Gnd Current Trip Mode Individual Circuit Trip or High-High Alarm Selection

Trip or High-High Alarm

25

High Ground Current Trip

Individual Circuit High Ground Current Trip (mA)

0 to 200 mA

Comments: only the last 33-34 characters show on the m enu
s creen
When one selection is made, the other setting does not show in the menu.
When one selection is made, the other setting does not show in the menu.
When one selection is made, the other setting does not show in the menu.

26 High-High Gnd Current Alarm Individual Circuit High-High Gnd Current Alarm (mA)

0 to 200 mA

27 Ground Samples Before Trip

Unit

Ground Fault Samples Before Trip (num ber)

1 to 10

28

Control and Power Settings

29

Control Method

Individual Circuit

Control Mode

On/Off or On/Off w/ Soft Start or Proportional or Ambient On/Off or Ambien
Proportional-Mechanical

30

Control RTDs

Individual Circuit

Number of Control RTDs

1 to 4 (BBA)

31

Power Clamp

Individual Circuit

Power Clamp %

0 to 100 %

32

Power on RTD Fault

Individual Circuit

Power on RTD Fault %

0 to 100 %

33

Global Settings

34

Start Up Delay

Unit

Start Up Delay (m inutes )

Disabled to 30 mins

35

Self-Test Interval

Unit

Self-Test Interval (hours)

Disabled to 168 HR

36

Modbus Map Type

Mapping

TCM 2 or TC202

Requires Reboot for setting change to take effect.

37

Modbus Slave ID

Modbus Identifier

1 to 247

Requires Reboot for setting change to take effect.

38

Modbus Mode

Modbus Mode

RTU (8n1) or ASCII (7n2)

Requires Reboot for setting change to take effect.

39

Modbus Baud Rate

40

Controller type

Unit

41

Display Brightnes s

Unit

42

Screen Saver Delay

Unit

43

Change Access Code

Unit

44

Logout

Unit

45

Reboot

Unit

46

**Info

Unit

Baud Rate
Type of Controller Brightnes s
Brightness Delay (m in) Access Code Logout Reboot
Unit Information

9600 or 19200 or 115200

Requires Reboot for setting change to take effect.

Default or 1 Circuit or 2 Circuit or 1 Circuit w/ Limiter

Requires Reboot for setting change to take effect.

10 to 100

Disabled to 180 min

4-digit code (0 to 9)

No or Yes

Prompt- “Logout now?”

No or Yes Various Parameters

Prompt- “Reboot now?”
Section below will note all parameters found under this setting.

Form PN50900-0624

14

V1.1

Information
Line Voltage PCB Temperature LED Temperature Time in Operation
Power Rate Power Total RTD 1 Reading RTD 2 Reading
Power Rate Power Total RTD 1 Reading RTD 2 Reading

**Setting- Info Menu

Unit

Comments

System

V C or F C or F
HR

Depending on setting chosen for “Temperature Units”
Depending on setting chosen for “Temperature Units”

Circuit 1

A/Hr

Wh C or F C or F
Circuit 2

Depending on setting chosen for “Temperature Units”
Depending on setting chosen for “Temperature Units”

A/Hr

Wh C or F C or F

Depending on setting chosen for “Temperature Units”
Depending on setting chosen for “Temperature Units”

Appendix A – Grommet Specifications

INSTALLATION GUIDE

Information
Line Voltage PCB Temperature LED Temperature Time in Operation
Power Rate Power Total RTD 1 Reading RTD 2 Reading
Power Rate Power Total RTD 1 Reading RTD 2 Reading

**Setting- Info Menu

Unit

Comments:

System

V C or F C or F
HR

Depending on setting chosen for “Temperature Units”
Depending on setting chosen for “Temperature Units”

Circuit 1

A/Hr

Wh C or F C or F
Circuit 2

Depending on setting chosen for “Temperature Units”
Depending on setting chosen for “Temperature Units”

A/Hr

Wh C or F C or F

Depending on setting chosen for “Temperature Units”
Depending on setting chosen for “Temperature Units”

Form PN50900-0624

15

V1.1

Corporate Headquarters: 7171 Southwest Parkway · Building 300, Suite 200 · Austin, TX 78735 · Phone: 512-690-0600 For the Thermon office nearest you visit us at . . . www.thermon.com

Form PN50900-0624

© Thermon, Inc. · Information subject to change.

V1.0

References

• World Leader in Industrial Process Heating | Thermon

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