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layout: documentation
title: LHC5031 - ZWave
---

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# LHC5031 DIN Mount Multiple Actuator Controller for Floor Heating
This describes the Z-Wave device *LHC5031*, manufactured by *[Logic Group](http://www.logic-group.com)* with the thing type UID of ```logic_lhc5031_00_062```.
This version of the device is limited to firmware versions above 0.62

The device is in the category of *HVAC*, defining Air condition devices, Fans.

![LHC5031 product image](https://opensmarthouse.org/zwavedatabase/673/image/)


The LHC5031 supports routing. This allows the device to communicate using other routing enabled devices as intermediate routers.  This device is also able to participate in the routing of data between other devices in the mesh network.

## Overview

LHC 5031 Z-Wave DIN rail module, is a module that clips right onto a DIN rail to add a variety of functions to your wireless Z-Wave network.

LHC5031 is equipped with 10 relay outputs and 4 analogue inputs, and a Z-Wave radio for interfacing to the wireless Z-Wave network. The module can be power supplied from a 230V AC mains connectio, and is able to deliver an output supply of 24V DC.

LHC5031 inputs are able to be freely controlled from the Z-Wave network, and can be used for several purposes, e.g. on/off control of light, control of valve actuators for an underfloor heating system, or control of other home automation systems.

LHC5031 inputs are analogue inputs for interfacing simple temperature sensors; NTC, PT1000, etc.

It is possible to configure the level- and the indication of the status indicator LED in the front of the LHC5031 module.

The device is also known as: Multireg Z-Water from Thermo-Floor.

### Inclusion Information

Place your primary controller in Adding mode by following the manufacturers description, then activate the add mode on the deice by clicking the small button through the little hole, marked with the text "INCLUSION", in front of the LHC5031 module.

### Exclusion Information

The device is removed in the same manner that it is included, as long as the controller is put into Removing Mode.

## Channels

The following table summarises the channels available for the LHC5031 -:

| Channel Name | Channel ID | Channel Type | Category | Item Type |
|--------------|------------|--------------|----------|-----------|
| Switch | switch_binary | switch_binary | Switch | Switch | 
| Switch 1 | switch_binary1 | switch_binary | Switch | Switch | 
| Switch 2 | switch_binary2 | switch_binary | Switch | Switch | 
| Switch 3 | switch_binary3 | switch_binary | Switch | Switch | 
| Switch 4 | switch_binary4 | switch_binary | Switch | Switch | 
| Switch 5 | switch_binary5 | switch_binary | Switch | Switch | 
| Switch 6 | switch_binary6 | switch_binary | Switch | Switch | 
| Switch 7 | switch_binary7 | switch_binary | Switch | Switch | 
| Switch 8 | switch_binary8 | switch_binary | Switch | Switch | 
| Switch 9 | switch_binary9 | switch_binary | Switch | Switch | 
| Switch 10 | switch_binary10 | switch_binary | Switch | Switch | 
| Input (temperature) 1 | sensor_temperature11 | sensor_temperature | Temperature | Number:Temperature | 
| Input (temperature) 2 | sensor_temperature12 | sensor_temperature | Temperature | Number:Temperature | 
| Input (temperature) 3 | sensor_temperature13 | sensor_temperature | Temperature | Number:Temperature | 
| Input (temperature) 4 | sensor_temperature14 | sensor_temperature | Temperature | Number:Temperature | 

### Switch
Switch the power on and off.

The ```switch_binary``` channel is of type ```switch_binary``` and supports the ```Switch``` item and is in the ```Switch``` category.

### Switch 1
Switch the power on and off.

The ```switch_binary1``` channel is of type ```switch_binary``` and supports the ```Switch``` item and is in the ```Switch``` category.

### Switch 2
Switch the power on and off.

The ```switch_binary2``` channel is of type ```switch_binary``` and supports the ```Switch``` item and is in the ```Switch``` category.

### Switch 3
Switch the power on and off.

The ```switch_binary3``` channel is of type ```switch_binary``` and supports the ```Switch``` item and is in the ```Switch``` category.

### Switch 4
Switch the power on and off.

The ```switch_binary4``` channel is of type ```switch_binary``` and supports the ```Switch``` item and is in the ```Switch``` category.

### Switch 5
Switch the power on and off.

The ```switch_binary5``` channel is of type ```switch_binary``` and supports the ```Switch``` item and is in the ```Switch``` category.

### Switch 6
Switch the power on and off.

The ```switch_binary6``` channel is of type ```switch_binary``` and supports the ```Switch``` item and is in the ```Switch``` category.

### Switch 7
Switch the power on and off.

The ```switch_binary7``` channel is of type ```switch_binary``` and supports the ```Switch``` item and is in the ```Switch``` category.

### Switch 8
Switch the power on and off.

The ```switch_binary8``` channel is of type ```switch_binary``` and supports the ```Switch``` item and is in the ```Switch``` category.

### Switch 9
Switch the power on and off.

The ```switch_binary9``` channel is of type ```switch_binary``` and supports the ```Switch``` item and is in the ```Switch``` category.

### Switch 10
Switch the power on and off.

The ```switch_binary10``` channel is of type ```switch_binary``` and supports the ```Switch``` item and is in the ```Switch``` category.

### Input (temperature) 1
Indicates the current temperature.

The ```sensor_temperature11``` channel is of type ```sensor_temperature``` and supports the ```Number:Temperature``` item and is in the ```Temperature``` category.

### Input (temperature) 2
Indicates the current temperature.

The ```sensor_temperature12``` channel is of type ```sensor_temperature``` and supports the ```Number:Temperature``` item and is in the ```Temperature``` category.

### Input (temperature) 3
Indicates the current temperature.

The ```sensor_temperature13``` channel is of type ```sensor_temperature``` and supports the ```Number:Temperature``` item and is in the ```Temperature``` category.

### Input (temperature) 4
Indicates the current temperature.

The ```sensor_temperature14``` channel is of type ```sensor_temperature``` and supports the ```Number:Temperature``` item and is in the ```Temperature``` category.



## Device Configuration

The following table provides a summary of the 14 configuration parameters available in the LHC5031.
Detailed information on each parameter can be found in the sections below.

| Param | Name  | Description |
|-------|-------|-------------|
| 1 | Status LED | Configuration of the status LED |
| 2 | Status LED brightness level | Configure the percentage of light in the status LED, when the LED is turned on. |
| 3 | Thermistor type connected to input 1 | This parameter decides which kind of thermistor is connected to the input |
| 4 | Thermistor type connected to input 2 | This parameter decides which kind of thermistor is connected to the input |
| 5 | Thermistor type connected to input 3 | This parameter decides which kind of thermistor is connected to the input |
| 6 | Thermistor type connected to input 4 | This parameter decides which kind of thermistor is connected to the input |
| 7 | Input 1 calibration | -4.0 to 4.0 degree Celsius |
| 8 | Input 2 calibration | -4.0 to 4.0 degree Celsius |
| 9 | Input 3 calibration | -4.0 to 4.0 degree Celsius |
| 10 | Input 4 calibration | -4.0 to 4.0 degree Celsius |
| 11 | Input 1 report interval | Time interval between consecutive temperature reports |
| 12 | Input 2 report interval | Time interval between consecutive temperature reports |
| 13 | Input 3 report intervals | Time interval between consecutive temperature reports |
| 14 | Input 4 report interval | Time interval between consecutive temperature reports |

### Parameter 1: Status LED

Configuration of the status LED
0 = LED turned OFF, 1 = LED turned ON, 2 = LED flashing at 1 second intervals, 3 = LED flashing at 0.5 second intervalsThis is an advanced parameter and will therefore not show in the user interface without entering advanced mode.
The following option values may be configured -:

| Value  | Description |
|--------|-------------|
| 0 | LED turned OFF |
| 1 | LED turned ON |
| 2 | LED flashing at 1 sec interval |
| 3 | LED flashing at 1/2 sec interval |

The manufacturer defined default value is ```1``` (LED turned ON).

This parameter has the configuration ID ```config_1_1``` and is of type ```INTEGER```.


### Parameter 2: Status LED brightness level

Configure the percentage of light in the status LED, when the LED is turned on.
This is an advanced parameter and will therefore not show in the user interface without entering advanced mode.
Values in the range 0 to 100 may be set.

The manufacturer defined default value is ```50```.

This parameter has the configuration ID ```config_2_1``` and is of type ```INTEGER```.


### Parameter 3: Thermistor type connected to input 1

This parameter decides which kind of thermistor is connected to the input
This is an advanced parameter and will therefore not show in the user interface without entering advanced mode.
The following option values may be configured -:

| Value  | Description |
|--------|-------------|
| 0 | No thermistor, input is disabled |
| 1 | 10K NTC (Part number: TT02-10KC3-93D-3000R-TPH) |

The manufacturer defined default value is ```0``` (No thermistor, input is disabled).

This parameter has the configuration ID ```config_3_1``` and is of type ```INTEGER```.


### Parameter 4: Thermistor type connected to input 2

This parameter decides which kind of thermistor is connected to the input
This is an advanced parameter and will therefore not show in the user interface without entering advanced mode.
The following option values may be configured -:

| Value  | Description |
|--------|-------------|
| 0 | No thermistor, input is disabled |
| 1 | 10K NTC (Part number: TT02-10KC3-93D-3000R-TPH) |

The manufacturer defined default value is ```0``` (No thermistor, input is disabled).

This parameter has the configuration ID ```config_4_1``` and is of type ```INTEGER```.


### Parameter 5: Thermistor type connected to input 3

This parameter decides which kind of thermistor is connected to the input
This is an advanced parameter and will therefore not show in the user interface without entering advanced mode.
The following option values may be configured -:

| Value  | Description |
|--------|-------------|
| 0 | No thermistor, input is disabled |
| 1 | 10K NTC (Part number: TT02-10KC3-93D-3000R-TPH) |

The manufacturer defined default value is ```0``` (No thermistor, input is disabled).

This parameter has the configuration ID ```config_5_1``` and is of type ```INTEGER```.


### Parameter 6: Thermistor type connected to input 4

This parameter decides which kind of thermistor is connected to the input
This is an advanced parameter and will therefore not show in the user interface without entering advanced mode.
The following option values may be configured -:

| Value  | Description |
|--------|-------------|
| 0 | No thermistor, input is disabled |
| 1 | 10K NTC (Part number: TT02-10KC3-93D-3000R-TPH) |

The manufacturer defined default value is ```0``` (No thermistor, input is disabled).

This parameter has the configuration ID ```config_6_1``` and is of type ```INTEGER```.


### Parameter 7: Input 1 calibration

-4.0 to 4.0 degree Celsius
This is an advanced parameter and will therefore not show in the user interface without entering advanced mode.
Values in the range -40 to 40 may be set.

The manufacturer defined default value is ```0```.

This parameter has the configuration ID ```config_7_1``` and is of type ```INTEGER```.


### Parameter 8: Input 2 calibration

-4.0 to 4.0 degree Celsius
This is an advanced parameter and will therefore not show in the user interface without entering advanced mode.
Values in the range -40 to 40 may be set.

The manufacturer defined default value is ```0```.

This parameter has the configuration ID ```config_8_1``` and is of type ```INTEGER```.


### Parameter 9: Input 3 calibration

-4.0 to 4.0 degree Celsius
This is an advanced parameter and will therefore not show in the user interface without entering advanced mode.
Values in the range -40 to 40 may be set.

The manufacturer defined default value is ```0```.

This parameter has the configuration ID ```config_9_1``` and is of type ```INTEGER```.


### Parameter 10: Input 4 calibration

-4.0 to 4.0 degree Celsius
This is an advanced parameter and will therefore not show in the user interface without entering advanced mode.
Values in the range -40 to 40 may be set.

The manufacturer defined default value is ```0```.

This parameter has the configuration ID ```config_10_1``` and is of type ```INTEGER```.


### Parameter 11: Input 1 report interval

Time interval between consecutive temperature reports
Time interval between consecutive temperature reports. Temperature reports can also be sent as a result of polling.This is an advanced parameter and will therefore not show in the user interface without entering advanced mode.
Values in the range 0 to 8640 may be set.

The manufacturer defined default value is ```6```.

This parameter has the configuration ID ```config_11_2``` and is of type ```INTEGER```.


### Parameter 12: Input 2 report interval

Time interval between consecutive temperature reports
Time interval between consecutive temperature reports. Temperature reports can also be sent as a result of polling.This is an advanced parameter and will therefore not show in the user interface without entering advanced mode.
Values in the range 0 to 8640 may be set.

The manufacturer defined default value is ```6```.

This parameter has the configuration ID ```config_12_2``` and is of type ```INTEGER```.


### Parameter 13: Input 3 report intervals

Time interval between consecutive temperature reports
Time interval between consecutive temperature reports. Temperature reports can also be sent as a result of polling.This is an advanced parameter and will therefore not show in the user interface without entering advanced mode.
Values in the range 0 to 8640 may be set.

The manufacturer defined default value is ```6```.

This parameter has the configuration ID ```config_13_2``` and is of type ```INTEGER```.


### Parameter 14: Input 4 report interval

Time interval between consecutive temperature reports
Time interval between consecutive temperature reports. Temperature reports can also be sent as a result of polling.This is an advanced parameter and will therefore not show in the user interface without entering advanced mode.
Values in the range 0 to 8640 may be set.

The manufacturer defined default value is ```6```.

This parameter has the configuration ID ```config_14_2``` and is of type ```INTEGER```.


## Association Groups

Association groups allow the device to send unsolicited reports to the controller, or other devices in the network. Using association groups can allow you to eliminate polling, providing instant feedback of a device state change without unnecessary network traffic.

The LHC5031 supports 5 association groups.

### Group 1: Group 1

Lifeline

Association group 1 supports 5 nodes.

### Group 2: Group 2

Analogue inputs

Association group 2 supports 5 nodes.

### Group 3: Group 3


Association group 3 supports 5 nodes.

### Group 4: Group 4


Association group 4 supports 5 nodes.

### Group 5: Group 5


Association group 5 supports 5 nodes.

## Technical Information

### Endpoints

#### Endpoint 0

| Command Class | Comment |
|---------------|---------|
| COMMAND_CLASS_NO_OPERATION_V1| |
| COMMAND_CLASS_BASIC_V2| |
| COMMAND_CLASS_SWITCH_BINARY_V1| Linked to BASIC|
| COMMAND_CLASS_SENSOR_MULTILEVEL_V5| |
| COMMAND_CLASS_ASSOCIATION_GRP_INFO_V1| |
| COMMAND_CLASS_DEVICE_RESET_LOCALLY_V1| |
| COMMAND_CLASS_ZWAVEPLUS_INFO_V2| |
| COMMAND_CLASS_MULTI_CHANNEL_V4| |
| COMMAND_CLASS_CONFIGURATION_V3| |
| COMMAND_CLASS_MANUFACTURER_SPECIFIC_V2| |
| COMMAND_CLASS_POWERLEVEL_V1| |
| COMMAND_CLASS_FIRMWARE_UPDATE_MD_V1| |
| COMMAND_CLASS_ASSOCIATION_V2| |
| COMMAND_CLASS_VERSION_V2| |
| COMMAND_CLASS_MULTI_CHANNEL_ASSOCIATION_V3| |
| COMMAND_CLASS_SECURITY_V2| |
#### Endpoint 1

| Command Class | Comment |
|---------------|---------|
| COMMAND_CLASS_BASIC_V1| |
| COMMAND_CLASS_SWITCH_BINARY_V1| Linked to BASIC|
| COMMAND_CLASS_ASSOCIATION_GRP_INFO_V1| |
| COMMAND_CLASS_DEVICE_RESET_LOCALLY_V1| |
| COMMAND_CLASS_ZWAVEPLUS_INFO_V1| |
| COMMAND_CLASS_ASSOCIATION_V2| |
#### Endpoint 2

| Command Class | Comment |
|---------------|---------|
| COMMAND_CLASS_BASIC_V1| |
| COMMAND_CLASS_SWITCH_BINARY_V1| Linked to BASIC|
| COMMAND_CLASS_ASSOCIATION_GRP_INFO_V1| |
| COMMAND_CLASS_ZWAVEPLUS_INFO_V1| |
| COMMAND_CLASS_ASSOCIATION_V2| |
#### Endpoint 3

| Command Class | Comment |
|---------------|---------|
| COMMAND_CLASS_BASIC_V1| |
| COMMAND_CLASS_SWITCH_BINARY_V1| Linked to BASIC|
| COMMAND_CLASS_ASSOCIATION_GRP_INFO_V1| |
| COMMAND_CLASS_ZWAVEPLUS_INFO_V1| |
| COMMAND_CLASS_ASSOCIATION_V2| |
#### Endpoint 4

| Command Class | Comment |
|---------------|---------|
| COMMAND_CLASS_BASIC_V1| |
| COMMAND_CLASS_SWITCH_BINARY_V1| Linked to BASIC|
| COMMAND_CLASS_ASSOCIATION_GRP_INFO_V1| |
| COMMAND_CLASS_ZWAVEPLUS_INFO_V1| |
| COMMAND_CLASS_ASSOCIATION_V2| |
#### Endpoint 5

| Command Class | Comment |
|---------------|---------|
| COMMAND_CLASS_BASIC_V1| |
| COMMAND_CLASS_SWITCH_BINARY_V1| Linked to BASIC|
| COMMAND_CLASS_ASSOCIATION_GRP_INFO_V1| |
| COMMAND_CLASS_ZWAVEPLUS_INFO_V1| |
| COMMAND_CLASS_ASSOCIATION_V2| |
#### Endpoint 6

| Command Class | Comment |
|---------------|---------|
| COMMAND_CLASS_BASIC_V1| |
| COMMAND_CLASS_SWITCH_BINARY_V1| Linked to BASIC|
| COMMAND_CLASS_ASSOCIATION_GRP_INFO_V1| |
| COMMAND_CLASS_ZWAVEPLUS_INFO_V1| |
| COMMAND_CLASS_ASSOCIATION_V2| |
#### Endpoint 7

| Command Class | Comment |
|---------------|---------|
| COMMAND_CLASS_BASIC_V1| |
| COMMAND_CLASS_SWITCH_BINARY_V1| Linked to BASIC|
| COMMAND_CLASS_ASSOCIATION_GRP_INFO_V1| |
| COMMAND_CLASS_ZWAVEPLUS_INFO_V1| |
| COMMAND_CLASS_ASSOCIATION_V2| |
#### Endpoint 8

| Command Class | Comment |
|---------------|---------|
| COMMAND_CLASS_BASIC_V1| |
| COMMAND_CLASS_SWITCH_BINARY_V1| Linked to BASIC|
| COMMAND_CLASS_ASSOCIATION_GRP_INFO_V1| |
| COMMAND_CLASS_ZWAVEPLUS_INFO_V1| |
| COMMAND_CLASS_ASSOCIATION_V2| |
#### Endpoint 9

| Command Class | Comment |
|---------------|---------|
| COMMAND_CLASS_BASIC_V1| |
| COMMAND_CLASS_SWITCH_BINARY_V1| Linked to BASIC|
| COMMAND_CLASS_ASSOCIATION_GRP_INFO_V1| |
| COMMAND_CLASS_ZWAVEPLUS_INFO_V1| |
| COMMAND_CLASS_ASSOCIATION_V2| |
#### Endpoint 10

| Command Class | Comment |
|---------------|---------|
| COMMAND_CLASS_BASIC_V1| |
| COMMAND_CLASS_SWITCH_BINARY_V1| Linked to BASIC|
| COMMAND_CLASS_ASSOCIATION_GRP_INFO_V1| |
| COMMAND_CLASS_ZWAVEPLUS_INFO_V1| |
| COMMAND_CLASS_ASSOCIATION_V2| |
#### Endpoint 11

| Command Class | Comment |
|---------------|---------|
| COMMAND_CLASS_NO_OPERATION_V1| |
| COMMAND_CLASS_BASIC_V1| |
| COMMAND_CLASS_SENSOR_MULTILEVEL_V1| Linked to BASIC|
| COMMAND_CLASS_ASSOCIATION_GRP_INFO_V1| |
| COMMAND_CLASS_ZWAVEPLUS_INFO_V1| |
| COMMAND_CLASS_ASSOCIATION_V2| |
#### Endpoint 12

| Command Class | Comment |
|---------------|---------|
| COMMAND_CLASS_NO_OPERATION_V1| |
| COMMAND_CLASS_BASIC_V1| |
| COMMAND_CLASS_SENSOR_MULTILEVEL_V1| Linked to BASIC|
| COMMAND_CLASS_ASSOCIATION_GRP_INFO_V1| |
| COMMAND_CLASS_ZWAVEPLUS_INFO_V1| |
| COMMAND_CLASS_ASSOCIATION_V2| |
#### Endpoint 13

| Command Class | Comment |
|---------------|---------|
| COMMAND_CLASS_NO_OPERATION_V1| |
| COMMAND_CLASS_BASIC_V1| |
| COMMAND_CLASS_SENSOR_MULTILEVEL_V1| Linked to BASIC|
| COMMAND_CLASS_ASSOCIATION_GRP_INFO_V1| |
| COMMAND_CLASS_ZWAVEPLUS_INFO_V1| |
| COMMAND_CLASS_ASSOCIATION_V2| |
#### Endpoint 14

| Command Class | Comment |
|---------------|---------|
| COMMAND_CLASS_NO_OPERATION_V1| |
| COMMAND_CLASS_BASIC_V1| |
| COMMAND_CLASS_SENSOR_MULTILEVEL_V1| Linked to BASIC|
| COMMAND_CLASS_ASSOCIATION_GRP_INFO_V1| |
| COMMAND_CLASS_ZWAVEPLUS_INFO_V1| |
| COMMAND_CLASS_ASSOCIATION_V2| |

### Documentation Links

* [User Manual](https://opensmarthouse.org/zwavedatabase/673/reference/Manual-Heatit-Z-Water-analog-inputs-FW-1-0.pdf)

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