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he-ft01 Wall Fan Coil Thermostat
This describes the Z-Wave device he-ft01, manufactured by Heltun with the thing type UID of heltun_heft01_00_000.
The device is in the category of Sensor, defining Device used to measure something.
The he-ft01 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
Perfectly controls air conditioning systems
The HE-FT01 is designed to maintain constant room temperatures by using internal air temperature sensor. It controls 2-pipe or 4-pipe air conditioning/heating systems such as: split/multi-split systems, chillers and fan coil unit systems, central air conditioning systems, multi-zone VRF/VRV air conditioning systems, etc. The fan speed is controlled by three relay outputs. Two more relay outputs control cooling and heating valves. The HE-FT01 has two independent inputs for relay channels which allow it to control fans and valves with different power sources or to use relay outputs as dry contacts. Each relay can carry a load of up to 5 Amps.
Multiple built-in sensors
The HE-FT01 has an LCD screen, six high sensitivity capacitive touch buttons, and internal temperature sensor with compensating software for precise temperature monitoring and control. It also has built-in humidity and illumination sensors. You can instantly access information from all sensors on the user-friendly display.
Monitor all important information without even a touch
The at-a-glance display shows: ambient air temperature, user set point, humidity level, current operating mode, climate mode, fan speed, time, day of the week, and status of the Z-Wave™ network. Display brightness adjusts to ambient light conditions automatically making it easy to read.
Highly configurable
You can select one of four operation modes (COM, TIME, ECO, OFF) with individual set points either manually or by using a Z-Wave controller/gateway. The HE-FT01 operates in four Climate Modes: Heating & Cooling, Heating only, Cooling only, and Ventilation and has six fan speed control modes: Low, Medium, High, Auto Medium, Auto High, & Off.
Know how much energy you use
The HE-FT01 built-in Power Consumption System monitors how much energy you used during any particular day, week, or month. Just specify the consumption of the load in watts for each relay channel and the thermostat logic will calculate total consumption relative to the time since the output was in the „ON‟ state.
Based on the latest Z-Wave platform
The HE-FT01 integrates a Z-Wave Plus™ v2 700 platform module allowing it to be used with Z-Wave home automation systems. The HE-FT01 supports Z-Wave „S0‟ and „S2‟ security protocols, SmartStart technology, and can be connected (“associated”) to other Z-Wave devices, such as relays, switchers, etc.
Inclusion Information
To include the thermostat in the Z-Wave network
- Enter “SETTINGS“ Mode by pressing and holding the Gear button for three seconds.
- If you need to change the device factory default Z-Wave frequency, see the Parameter description and steps to change the value on page 12 of documentation
- Scroll menu to “Parameter 2 – nEt“. The current state of the network will be displayed in the Parameter Value position (upper right). It should display “ECL“.
≡ Note: If “InC“ is displayed, the HE-FT01 must first be Excluded from an existing Z-Wave network (see “Removing from Z-Wave network“ below). - Start the Inclusion Mode from openhab.
- On the HE-FT01 in the Parameter 2 press the Plus “+“ button to start the Inclusion process.
- Note that lines will be moving in the Parameter value position (upper right).
- “InC“ should appear at the Parameter Value position (and the icon on the main display bottom right corner) if Inclusion was successful.
- If “EСL“ or “Err“ is on Value position (or icon on the main display bottom right corner), the HE-FT01 Inclusion was not successful (try repeating steps 4-7).
≡ Note: If the HE-FT01 has previously been part of a Z-Wave network and has not been Excluded since, Inclusion is not possible without first performing an Exclusion or Factory Reset procedure.
≡ Note: If the HE-FT01 is included in the Z-Wave network the antenna icon will appear in the bottom right corner of the main screen with signal strength bars .
Exclusion Information
To include the thermostat in the Z-Wave network
- Enter “SETTINGS“ Mode by pressing and holding the Gear button for three seconds.
- If you need to change the device factory default Z-Wave frequency, see the Parameter description and steps to change the value on page 12 of documentation
- Scroll menu to “Parameter 2 – nEt“. The current state of the network will be displayed in the Parameter Value position (upper right). It should display “ECL“.
≡ Note: If “InC“ is displayed, the HE-FT01 must first be Excluded from an existing Z-Wave network (see “Removing from Z-Wave network“ below). - Start the Inclusion Mode from openhab.
- On the HE-FT01 in the Parameter 2 press the Plus “+“ button to start the Inclusion process.
- Note that lines will be moving in the Parameter value position (upper right).
- “InC“ should appear at the Parameter Value position (and the icon on the main display bottom right corner) if Inclusion was successful.
- If “EСL“ or “Err“ is on Value position (or icon on the main display bottom right corner), the HE-FT01 Inclusion was not successful (try repeating steps 4-7).
≡ Note: If the HE-FT01 has previously been part of a Z-Wave network and has not been Excluded since, Inclusion is not possible without first performing an Exclusion or Factory Reset procedure.
≡ Note: If the HE-FT01 is included in the Z-Wave network the antenna icon will appear in the bottom right corner of the main screen with signal strength bars .
General Usage Information
Channels
The following table summarises the channels available for the he-ft01 -:
| Channel Name | Channel ID | Channel Type | Category | Item Type |
|---|---|---|---|---|
| Sensor (temperature) | sensor_temperature | sensor_temperature | Temperature | Number:Temperature |
| Sensor (luminance) | sensor_luminance | sensor_luminance | Number | |
| Sensor (relative humidity) | sensor_relhumidity | sensor_relhumidity | Humidity | Number |
| Electric meter (kWh) | meter_kwh | meter_kwh | Energy | Number |
| Electric meter (watts) | meter_watts | meter_watts | Energy | Number |
| Thermostat mode | thermostat_mode | thermostat_mode | Temperature | Number |
| Operating State | thermostat_state | thermostat_state | Temperature | Number |
| Setpoint (heating) | thermostat_setpoint | thermostat_setpoint | Heating | Number:Temperature |
| Setpoint (cooling) | thermostat_setpoint | thermostat_setpoint | Heating | Number:Temperature |
| Setpoint (furnace) | thermostat_setpoint | thermostat_setpoint | Heating | Number:Temperature |
| Setpoint (dry air) | thermostat_setpoint | thermostat_setpoint | Heating | Number:Temperature |
| Setpoint (auto changeover) | thermostat_setpoint | thermostat_setpoint | Heating | Number:Temperature |
| thermostat fan mode | thermostat_fanmode | thermostat_fanmode | ||
| Thermostat fan state | thermostat_fanstate | thermostat_fanstate | ||
| Clock Time Offset | time_offset | time_offset | Time | Number |
Sensor (temperature)
Indicates the current temperature.
The sensor_temperature channel is of type sensor_temperature and supports the Number:Temperature item and is in the Temperature category.
Sensor (luminance)
Indicates the current light reading.
The sensor_luminance channel is of type sensor_luminance and supports the Number item. This is a read only channel so will only be updated following state changes from the device.
Sensor (relative humidity)
Indicates the current relative humidity.
The sensor_relhumidity channel is of type sensor_relhumidity and supports the Number item and is in the Humidity category. This is a read only channel so will only be updated following state changes from the device.
Electric meter (kWh)
Indicates the energy consumption (kWh).
The meter_kwh channel is of type meter_kwh and supports the Number item and is in the Energy category. This is a read only channel so will only be updated following state changes from the device.
Electric meter (watts)
Indicates the instantaneous power consumption.
The meter_watts channel is of type meter_watts and supports the Number item and is in the Energy category. This is a read only channel so will only be updated following state changes from the device.
Thermostat mode
Sets the thermostat.
The thermostat_mode channel is of type thermostat_mode and supports the Number item and is in the Temperature category.
The following state translation is provided for this channel to the Number item type -:
| Value | Label |
|---|---|
| 0 | Off |
| 1 | Heat |
| 2 | Cool |
| 3 | Auto |
| 4 | Aux Heat |
| 5 | Resume |
| 6 | Fan Only |
| 7 | Furnace |
| 8 | Dry Air |
| 9 | Moist Air |
| 10 | Auto Changeover |
| 11 | Heat Economy |
| 12 | Cool Economy |
| 13 | Away |
Operating State
Sets the thermostat operating state.
The thermostat_state channel is of type thermostat_state and supports the Number item and is in the Temperature category.
The following state translation is provided for this channel to the Number item type -:
| Value | Label |
|---|---|
| 0 | Idle |
| 1 | Heating |
| 2 | Cooling |
| 3 | Fan Only |
| 4 | Pending Heat |
| 5 | Pending Cool |
| 6 | Vent / Economiser |
Setpoint (heating)
Sets the thermostat setpoint.
The thermostat_setpoint channel is of type thermostat_setpoint and supports the Number:Temperature item and is in the Heating category.
Setpoint (cooling)
Sets the thermostat setpoint.
The thermostat_setpoint channel is of type thermostat_setpoint and supports the Number:Temperature item and is in the Heating category.
Setpoint (furnace)
Sets the thermostat setpoint.
The thermostat_setpoint channel is of type thermostat_setpoint and supports the Number:Temperature item and is in the Heating category.
Setpoint (dry air)
Sets the thermostat setpoint.
The thermostat_setpoint channel is of type thermostat_setpoint and supports the Number:Temperature item and is in the Heating category.
Setpoint (auto changeover)
Sets the thermostat setpoint.
The thermostat_setpoint channel is of type thermostat_setpoint and supports the Number:Temperature item and is in the Heating category.
thermostat fan mode
Channel type information on this channel is not found.
Thermostat fan state
Channel type information on this channel is not found.
Clock Time Offset
Provides the current time difference for the devices time.
The time_offset channel is of type time_offset and supports the Number item and is in the Time category.
Device Configuration
The following table provides a summary of the 62 configuration parameters available in the he-ft01. Detailed information on each parameter can be found in the sections below.
| Param | Name | Description |
|---|---|---|
| 1 | Frequency Region | Frequency Region |
| 2 | Inclusion / Exclusion Mode (read only) | Inclusion / Exclusion Mode |
| 3 | Hardware and Software Versions | Hardware and Software Versions (read only) |
| 4 | Energy Consumption, kWh Load Power, kW | Cumulative and Real-Time Energy Consumption of the connected load |
| 5 | Display brightness control | Display brightness control |
| 6 | Touch Sensor Sensitivity Threshold | Touch Sensor Sensitivity Threshold |
| 7 | Fan Relay Output Mode (NO / NC) | determines the type of load connected to the device fan relay outputs (OUT-1, OUT-2, OUT-3). |
| 8 | Heater Relay Output Mode (NO / NC) | determines the type of load connected to the device heater relay output (OUT-4). |
| 9 | Cooler Relay Output Mode (NO / NC) | determines the type of load connected to the device cooler relay output (OUT-5). |
| 10 | Heating state FAN control | determines if fan should be enabled or disabled in heating mode. |
| 11 | Cooling state FAN control | determines if fan should be enabled or disabled in cooling mode. |
| 12 | Fan Low Speed Relay: Load Power (W) | The power of the connected device, which is used to determine energy consumption (OUT-1). |
| 13 | Fan Medium Speed Relay: Load Power (W) | The power of the connected device, which is used to determine energy consumption (OUT-2). |
| 14 | Fan Hight Speed Relay: Load Power (W) | The power of the connected device, which is used to determine energy consumption (OUT-3). |
| 15 | Heating Valve Relay: Load Power (W) | The power of the connected device, which is used to determine energy consumption (OUT-4). |
| 16 | Cooling Valve Relay: Load Power (W) | The power of the connected device, which is used to determine energy consumption (OUT-5). |
| 17 | Air temp calibration | defines the offset value for room air temperature. Celsius value * 10 e.g. 1.0°C = 10 |
| 18 | Temp hysteresis | defines the hysteresis value for temperature control. Celsius value * 10 e.g. 0.5°C = 5 |
| 19 | Time Correction by Main Controller | Determines if the Time correction should be enabled or disabled. |
| 20 | Time format | Either 24 hour or 12-hour time formats may be selected. |
| 21 | Week day | Allows manual adjustment of the day of the week in case the HE-FT01 is not connected to any Z-Wave gateway or auto-correction is disabled (Parameter 19 value is 0). |
| 22 | Time Manual Adjustment | Allows manual adjustment of Time. Format: HHMM. e.g.08:00 should be sent as 0800 |
| 23 | TIME mode operation | determines the Climate Mode (Heating or Cooling) in which HE-FT01 will operates when the TIME mode is selected. |
| 41 | Morning start time | Morning start time. Format: HHMM. e.g.08:00 should be sent as 0800. |
| 42 | Day start time | Day start time. Format: HHMM. e.g.08:00 should be sent as 0800. |
| 43 | Evening start time | Evening start time. Format: HHMM. e.g.08:00 should be sent as 0800. |
| 44 | Night Start time | Night start time. Format: HHMM. e.g.08:00 should be sent as 0800. |
| 45 | Monday morning temp | Monday morning temp. Celsius value * 10 e.g. 22.5°C = 225. |
| 46 | Monday day temp | Monday day temp. Celsius value * 10 e.g. 22.5°C = 225. |
| 47 | Monday evening temp | Monday evening temp. Celsius value * 10 e.g. 22.5°C = 225. |
| 48 | Monday night temp | Monday night temp. Celsius value * 10 e.g. 22.5°C = 225. |
| 49 | Tuesday morning temp | Tuesday morning temp. Celsius value * 10 e.g. 22.5°C = 225. |
| 50 | Tuesday day temp | Tuesday day temp. Celsius value * 10 e.g. 22.5°C = 225. |
| 51 | Tuesday evening temp | Tuesday evening temp. Celsius value * 10 e.g. 22.5°C = 225. |
| 52 | Tuesday night temp | Tuesday night temp. Celsius value * 10 e.g. 22.5°C = 225. |
| 53 | Wednesday morning temp | Wednesday morning temp. Celsius value * 10 e.g. 22.5°C = 225. |
| 54 | Wednesday day temp | Wednesday day temp. Celsius value * 10 e.g. 22.5°C = 225. |
| 55 | Wednesday evening temp | Wednesday evening temp. Celsius value * 10 e.g. 22.5°C = 225. |
| 56 | Wednesday night temp | Wednesday night temp. Celsius value * 10 e.g. 22.5°C = 225. |
| 57 | Thursday morning temp | Thursday morning temp. Celsius value * 10 e.g. 22.5°C = 225. |
| 58 | Thursday day temp | Thursday day temp. Celsius value * 10 e.g. 22.5°C = 225. |
| 59 | Thursday evening temp | Thursday evening temp. Celsius value * 10 e.g. 22.5°C = 225. |
| 60 | Thursday night temp | Thursday night temp. Celsius value * 10 e.g. 22.5°C = 225. |
| 61 | Friday morning temp | Friday morning temp. Celsius value * 10 e.g. 22.5°C = 225. |
| 62 | Friday day temp | Friday day temp. Celsius value * 10 e.g. 22.5°C = 225. |
| 63 | Friday evening temp | Friday evening temp. Celsius value * 10 e.g. 22.5°C = 225. |
| 64 | Friday night temp | Friday night temp. Celsius value * 10 e.g. 22.5°C = 225. |
| 65 | Saturday morning temp | Saturday morning temp. Celsius value * 10 e.g. 22.5°C = 225. |
| 66 | Saturday day temp. | Saturday day temp. Celsius value * 10 e.g. 22.5°C = 225. |
| 67 | Saturday evening temp. | Saturday evening temp. Celsius value * 10 e.g. 22.5°C = 225. |
| 68 | Saturday night temp. | Saturday night temp. Celsius value * 10 e.g. 22.5°C = 225. |
| 69 | Sunday morning temp. | Sunday morning temp. Celsius value * 10 e.g. 22.5°C = 225. |
| 70 | Sunday day temp. | Sunday day temp. Celsius value * 10 e.g. 22.5°C = 225. |
| 71 | Sunday evening temp. | Sunday evening temp. Celsius value * 10 e.g. 22.5°C = 225. |
| 72 | Sunday night temp. | Sunday night temp. Celsius value * 10 e.g. 22.5°C = 225. |
| 141 | Consumption reporting interval | Consumption meter consecutive reporting interval. The value can be adjusted from 1 min to 120 min. |
| 142 | Consumption Change Report | Consumption change to send to controller. |
| 143 | Sensors reporting interval | Sensors consecutive reporting interval. The value can be adjusted from 1 min to 120 min. |
| 144 | Temperature difference | Temperature difference to send to controller, Celsius value * 10 e.g. 2.0°C = 20. |
| 145 | Humidity difference | Humidity difference to send to controller. Value in %. From 1% to 25% can be selected. Use the value 0 if there is a need to stop sending the reports. The factory default value is 2. |
| 146 | Light sensor difference | Light sensor values difference to send to controller. Value in %. From 10% to 99% can be selected. Use the value 0 if there is a need to stop sending the reports. The factory default value is 50. |
| 171 | Thermostat Mode | Thermostat Mode |
Parameter 1: Frequency Region
Frequency Region
The following option values may be configured, in addition to values in the range 0 to 0 -:
| Value | Description |
|---|---|
| 0 | EU (868.4 MHz, 869.85 MHz) |
| 1 | US (908.4 MHz, 916.0 MHz) |
| 2 | AU (919.8 MHz, 921.4 MHz) |
| 3 | HO (919.8 MHz) |
| 4 | In (865.2 MHz) |
| 5 | IL (916.0 MHz) |
| 6 | RU (869.0 MHz) |
| 7 | Cn (868.4 MHz) |
| 8 | JP (922.5 MHz, 923.9 MHz, 926.3 MHz) |
| 9 | Or (920.9 MHz, 921.7 MHz, 923.1 MHz) |
The manufacturer defined default value is 0 (EU (868.4 MHz, 869.85 MHz)).
This parameter has the configuration ID config_1_1 and is of type INTEGER.
Parameter 2: Inclusion / Exclusion Mode (read only)
Inclusion / Exclusion Mode
The following option values may be configured, in addition to values in the range 0 to 0 -:
| Value | Description |
|---|---|
| 0 | Inc |
| 1 | Ecl |
The manufacturer defined default value is 0 (Inc).
This parameter has the configuration ID config_2_1 and is of type INTEGER.
This is a read only parameter.
Parameter 3: Hardware and Software Versions
Hardware and Software Versions (read only) Parameter returns value in the format XXYYZZ, where XX is Hardware Version, YY is Firmware Major Version and ZZ is Firmware Minor version. Values in the range 0 to 0 may be set.
The manufacturer defined default value is 0.
This parameter has the configuration ID config_3_4 and is of type INTEGER.
This is a read only parameter.
Parameter 4: Energy Consumption, kWh Load Power, kW
Cumulative and Real-Time Energy Consumption of the connected load
Values in the range 0 to 0 may be set.
The manufacturer defined default value is 0.
This parameter has the configuration ID config_4_4 and is of type INTEGER.
This is a read only parameter.
Parameter 5: Display brightness control
Display brightness control Set the Parameter value to 0 to activate the Automatic Brightness Control or set from value 1 (lowest brightness) to 10 (highest brightest) for Manual Control. Values in the range 0 to 0 may be set.
The manufacturer defined default value is 0.
This parameter has the configuration ID config_5_1 and is of type INTEGER.
Parameter 6: Touch Sensor Sensitivity Threshold
Touch Sensor Sensitivity Threshold Set the Parameter value to 0 to activate the Automatic Brightness Control or set from value 1 (lowest brightness) to 10 (highest brightest) for Manual Control. Values in the range 0 to 0 may be set.
The manufacturer defined default value is 0.
This parameter has the configuration ID config_6_1 and is of type INTEGER.
Parameter 7: Fan Relay Output Mode (NO / NC)
determines the type of load connected to the device fan relay outputs (OUT-1, OUT-2, OUT-3). 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, in addition to values in the range 0 to 0 -:
| Value | Description |
|---|---|
| 0 | Normally open |
| 1 | Normally close |
The manufacturer defined default value is 0 (Normally open).
This parameter has the configuration ID config_7_0 and is of type INTEGER.
Parameter 8: Heater Relay Output Mode (NO / NC)
determines the type of load connected to the device heater relay output (OUT-4).
The following option values may be configured, in addition to values in the range 0 to 0 -:
| Value | Description |
|---|---|
| 0 | Normally open |
The manufacturer defined default value is 0 (Normally open).
This parameter has the configuration ID config_8_1 and is of type INTEGER.
Parameter 9: Cooler Relay Output Mode (NO / NC)
determines the type of load connected to the device cooler relay output (OUT-5).
The following option values may be configured, in addition to values in the range 0 to 0 -:
| Value | Description |
|---|---|
| 0 | Normally open |
| 1 | Normally close |
The manufacturer defined default value is 0 (Normally open).
This parameter has the configuration ID config_9_1 and is of type INTEGER.
Parameter 10: Heating state FAN control
determines if fan should be enabled or disabled in heating mode.
The following option values may be configured, in addition to values in the range 0 to 0 -:
| Value | Description |
|---|---|
| 0 | Disabled |
| 1 | Enabled |
The manufacturer defined default value is 0 (Disabled).
This parameter has the configuration ID config_10_1 and is of type INTEGER.
Parameter 11: Cooling state FAN control
determines if fan should be enabled or disabled in cooling mode.
The following option values may be configured, in addition to values in the range 0 to 0 -:
| Value | Description |
|---|---|
| 0 | Disabled |
| 1 | Enabled |
The manufacturer defined default value is 0 (Disabled).
This parameter has the configuration ID config_11_1 and is of type INTEGER.
Parameter 12: Fan Low Speed Relay: Load Power (W)
The power of the connected device, which is used to determine energy consumption (OUT-1).
Values in the range 0 to 1100 may be set.
The manufacturer defined default value is 0.
This parameter has the configuration ID config_12_2 and is of type INTEGER.
Parameter 13: Fan Medium Speed Relay: Load Power (W)
The power of the connected device, which is used to determine energy consumption (OUT-2).
Values in the range 0 to 1100 may be set.
The manufacturer defined default value is 0.
This parameter has the configuration ID config_13_2 and is of type INTEGER.
Parameter 14: Fan Hight Speed Relay: Load Power (W)
The power of the connected device, which is used to determine energy consumption (OUT-3).
Values in the range 0 to 1100 may be set.
The manufacturer defined default value is 0.
This parameter has the configuration ID config_14_2 and is of type INTEGER.
Parameter 15: Heating Valve Relay: Load Power (W)
The power of the connected device, which is used to determine energy consumption (OUT-4).
Values in the range 1100 to 0 may be set.
The manufacturer defined default value is 0.
This parameter has the configuration ID config_15_2 and is of type INTEGER.
Parameter 16: Cooling Valve Relay: Load Power (W)
The power of the connected device, which is used to determine energy consumption (OUT-5).
Values in the range 0 to 1100 may be set.
The manufacturer defined default value is 0.
This parameter has the configuration ID config_16_2 and is of type INTEGER.
Parameter 17: Air temp calibration
defines the offset value for room air temperature. Celsius value * 10 e.g. 1.0°C = 10
Values in the range -100 to 100 may be set.
The manufacturer defined default value is 0.
This parameter has the configuration ID config_17_1 and is of type INTEGER.
Parameter 18: Temp hysteresis
defines the hysteresis value for temperature control. Celsius value * 10 e.g. 0.5°C = 5
Values in the range 0 to 0 may be set.
The manufacturer defined default value is 5.
This parameter has the configuration ID config_18_1 and is of type INTEGER.
Parameter 19: Time Correction by Main Controller
Determines if the Time correction should be enabled or disabled.
The following option values may be configured, in addition to values in the range 0 to 0 -:
| Value | Description |
|---|---|
| 0 | Disabled |
| 1 | Enabled |
The manufacturer defined default value is 1 (Enabled).
This parameter has the configuration ID config_19_1 and is of type INTEGER.
Parameter 20: Time format
Either 24 hour or 12-hour time formats may be selected.
Values in the range 0 to 0 may be set.
The manufacturer defined default value is 0.
This parameter has the configuration ID config_20_1 and is of type INTEGER.
Parameter 21: Week day
Allows manual adjustment of the day of the week in case the HE-FT01 is not connected to any Z-Wave gateway or auto-correction is disabled (Parameter 19 value is 0).
The following option values may be configured, in addition to values in the range 0 to 0 -:
| Value | Description |
|---|---|
| 1 | Monday |
| 2 | Tuesday |
| 3 | Wednesday |
| 4 | Thursday |
| 5 | Friday |
| 6 | Saturday |
| 7 | Sunday |
The manufacturer defined default value is 1 (Monday).
This parameter has the configuration ID config_21_1 and is of type INTEGER.
Parameter 22: Time Manual Adjustment
Allows manual adjustment of Time. Format: HHMM. e.g.08:00 should be sent as 0800
Values in the range 0 to 0 may be set.
The manufacturer defined default value is 0.
This parameter has the configuration ID config_22_2 and is of type INTEGER.
Parameter 23: TIME mode operation
determines the Climate Mode (Heating or Cooling) in which HE-FT01 will operates when the TIME mode is selected.
The following option values may be configured, in addition to values in the range 0 to 0 -:
| Value | Description |
|---|---|
| 1 | Heating & Cooling mode |
| 2 | Heating mode |
| 3 | Cooling mode |
The manufacturer defined default value is 1 (Heating & Cooling mode).
This parameter has the configuration ID config_23_1 and is of type INTEGER.
Parameter 41: Morning start time
Morning start time. Format: HHMM. e.g.08:00 should be sent as 0800.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 600.
This parameter has the configuration ID config_41_2 and is of type INTEGER.
Parameter 42: Day start time
Day start time. Format: HHMM. e.g.08:00 should be sent as 0800.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 900.
This parameter has the configuration ID config_42_2 and is of type INTEGER.
Parameter 43: Evening start time
Evening start time. Format: HHMM. e.g.08:00 should be sent as 0800.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 1800.
This parameter has the configuration ID config_43_2 and is of type INTEGER.
Parameter 44: Night Start time
Night start time. Format: HHMM. e.g.08:00 should be sent as 0800.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 2300.
This parameter has the configuration ID config_44_2 and is of type INTEGER.
Parameter 45: Monday morning temp
Monday morning temp. Celsius value * 10 e.g. 22.5°C = 225.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 240.
This parameter has the configuration ID config_45_2 and is of type INTEGER.
Parameter 46: Monday day temp
Monday day temp. Celsius value * 10 e.g. 22.5°C = 225.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 200.
This parameter has the configuration ID config_46_2 and is of type INTEGER.
Parameter 47: Monday evening temp
Monday evening temp. Celsius value * 10 e.g. 22.5°C = 225.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 230.
This parameter has the configuration ID config_47_2 and is of type INTEGER.
Parameter 48: Monday night temp
Monday night temp. Celsius value * 10 e.g. 22.5°C = 225.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 180.
This parameter has the configuration ID config_48_2 and is of type INTEGER.
Parameter 49: Tuesday morning temp
Tuesday morning temp. Celsius value * 10 e.g. 22.5°C = 225.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 240.
This parameter has the configuration ID config_49_2 and is of type INTEGER.
Parameter 50: Tuesday day temp
Tuesday day temp. Celsius value * 10 e.g. 22.5°C = 225.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 200.
This parameter has the configuration ID config_50_2 and is of type INTEGER.
Parameter 51: Tuesday evening temp
Tuesday evening temp. Celsius value * 10 e.g. 22.5°C = 225.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 230.
This parameter has the configuration ID config_51_2 and is of type INTEGER.
Parameter 52: Tuesday night temp
Tuesday night temp. Celsius value * 10 e.g. 22.5°C = 225.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 180.
This parameter has the configuration ID config_52_2 and is of type INTEGER.
Parameter 53: Wednesday morning temp
Wednesday morning temp. Celsius value * 10 e.g. 22.5°C = 225.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 240.
This parameter has the configuration ID config_53_2 and is of type INTEGER.
Parameter 54: Wednesday day temp
Wednesday day temp. Celsius value * 10 e.g. 22.5°C = 225.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 200.
This parameter has the configuration ID config_54_2 and is of type INTEGER.
Parameter 55: Wednesday evening temp
Wednesday evening temp. Celsius value * 10 e.g. 22.5°C = 225.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 230.
This parameter has the configuration ID config_55_2 and is of type INTEGER.
Parameter 56: Wednesday night temp
Wednesday night temp. Celsius value * 10 e.g. 22.5°C = 225.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 180.
This parameter has the configuration ID config_56_2 and is of type INTEGER.
Parameter 57: Thursday morning temp
Thursday morning temp. Celsius value * 10 e.g. 22.5°C = 225.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 240.
This parameter has the configuration ID config_57_2 and is of type INTEGER.
Parameter 58: Thursday day temp
Thursday day temp. Celsius value * 10 e.g. 22.5°C = 225.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 200.
This parameter has the configuration ID config_58_2 and is of type INTEGER.
Parameter 59: Thursday evening temp
Thursday evening temp. Celsius value * 10 e.g. 22.5°C = 225.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 230.
This parameter has the configuration ID config_59_2 and is of type INTEGER.
Parameter 60: Thursday night temp
Thursday night temp. Celsius value * 10 e.g. 22.5°C = 225.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 180.
This parameter has the configuration ID config_60_2 and is of type INTEGER.
Parameter 61: Friday morning temp
Friday morning temp. Celsius value * 10 e.g. 22.5°C = 225.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 240.
This parameter has the configuration ID config_61_2 and is of type INTEGER.
Parameter 62: Friday day temp
Friday day temp. Celsius value * 10 e.g. 22.5°C = 225.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 200.
This parameter has the configuration ID config_62_2 and is of type INTEGER.
Parameter 63: Friday evening temp
Friday evening temp. Celsius value * 10 e.g. 22.5°C = 225.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 230.
This parameter has the configuration ID config_63_2 and is of type INTEGER.
Parameter 64: Friday night temp
Friday night temp. Celsius value * 10 e.g. 22.5°C = 225.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 180.
This parameter has the configuration ID config_64_2 and is of type INTEGER.
Parameter 65: Saturday morning temp
Saturday morning temp. Celsius value * 10 e.g. 22.5°C = 225.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 240.
This parameter has the configuration ID config_65_2 and is of type INTEGER.
Parameter 66: Saturday day temp.
Saturday day temp. Celsius value * 10 e.g. 22.5°C = 225.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 200.
This parameter has the configuration ID config_66_2 and is of type INTEGER.
Parameter 67: Saturday evening temp.
Saturday evening temp. Celsius value * 10 e.g. 22.5°C = 225.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 230.
This parameter has the configuration ID config_67_2 and is of type INTEGER.
Parameter 68: Saturday night temp.
Saturday night temp. Celsius value * 10 e.g. 22.5°C = 225.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 180.
This parameter has the configuration ID config_68_2 and is of type INTEGER.
Parameter 69: Sunday morning temp.
Sunday morning temp. Celsius value * 10 e.g. 22.5°C = 225.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 240.
This parameter has the configuration ID config_69_2 and is of type INTEGER.
Parameter 70: Sunday day temp.
Sunday day temp. Celsius value * 10 e.g. 22.5°C = 225.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 200.
This parameter has the configuration ID config_70_2 and is of type INTEGER.
Parameter 71: Sunday evening temp.
Sunday evening temp. Celsius value * 10 e.g. 22.5°C = 225.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 230.
This parameter has the configuration ID config_71_2 and is of type INTEGER.
Parameter 72: Sunday night temp.
Sunday night temp. Celsius value * 10 e.g. 22.5°C = 225.
Values in the range 10 to 370 may be set.
The manufacturer defined default value is 180.
This parameter has the configuration ID config_72_2 and is of type INTEGER.
Parameter 141: Consumption reporting interval
Consumption meter consecutive reporting interval. The value can be adjusted from 1 min to 120 min.
Values in the range 1 to 120 may be set.
The manufacturer defined default value is 10.
This parameter has the configuration ID config_141_1 and is of type INTEGER.
Parameter 142: Consumption Change Report
Consumption change to send to controller.
Values in the range 0 to 0 may be set.
The manufacturer defined default value is 1.
This parameter has the configuration ID config_142_1 and is of type INTEGER.
Parameter 143: Sensors reporting interval
Sensors consecutive reporting interval. The value can be adjusted from 1 min to 120 min.
Values in the range 1 to 120 may be set.
The manufacturer defined default value is 10.
This parameter has the configuration ID config_143_1 and is of type INTEGER.
Parameter 144: Temperature difference
Temperature difference to send to controller, Celsius value * 10 e.g. 2.0°C = 20.
Values in the range 0 to 0 may be set.
The manufacturer defined default value is 2.
This parameter has the configuration ID config_144_1 and is of type INTEGER.
Parameter 145: Humidity difference
Humidity difference to send to controller. Value in %. From 1% to 25% can be selected. Use the value 0 if there is a need to stop sending the reports. The factory default value is 2.
Values in the range 0 to 0 may be set.
The manufacturer defined default value is 2.
This parameter has the configuration ID config_145_1 and is of type INTEGER.
Parameter 146: Light sensor difference
Light sensor values difference to send to controller. Value in %. From 10% to 99% can be selected. Use the value 0 if there is a need to stop sending the reports. The factory default value is 50.
Values in the range 0 to 0 may be set.
The manufacturer defined default value is 50.
This parameter has the configuration ID config_146_1 and is of type INTEGER.
Parameter 171: Thermostat Mode
Thermostat Mode
The following option values may be configured, in addition to values in the range 0 to 0 -:
| Value | Description |
|---|---|
| 0 | No Action |
| 1 | COM with Heating & Cooling |
| 2 | COM with Heating |
| 3 | COM with Cooling |
| 4 | TIME with Heating & Cooling |
| 5 | TIME with Heating |
| 6 | TIME with Cooling |
| 7 | ECO with Heating |
| 8 | ECO with Cooling |
| 9 | Ventilation |
The manufacturer defined default value is 1 (COM with Heating & Cooling).
This parameter has the configuration ID config_171_1 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 he-ft01 supports 6 association groups.
Group 1: Lifeline
The Lifeline association group reports device status to a hub and is not designed to control other devices directly. When using the Lineline group with a hub, in most cases, only the lifeline group will need to be configured and normally the hub will perform this automatically during the device initialisation. Reports full state of the device and used to communicate with the Z-Wave gateway.
Association group 1 supports 1 node.
Group 2: Basic Set On/Off: Fan Low Speed (OUT-1)
is used to turn the associated devices on/off reflecting OUT-1 operation. Max supported nodes: 1. The HE-FT01 sends Basic Set command with value 0 (Off) when the relay goes to OFF state and sends 255 (On) when the relay goes to ON state.
Association group 2 supports 1 node.
Group 3: Basic Set On/Off: Fan Low Speed (OUT-2)
is used to turn the associated devices on/off reflecting OUT-2 operation. Max supported nodes: 1. The HE-FT01 sends Basic Set command with value 0 (Off) when the relay goes to OFF state and sends 255 (On) when the relay goes to ON state.
Association group 3 supports 1 node.
Group 4: Basic Set On/Off: Fan Low Speed (OUT-3)
is used to turn the associated devices on/off reflecting OUT-3 operation. Max supported nodes: 1. The HE-FT01 sends Basic Set command with value 0 (Off) when the relay goes to OFF state and sends 255 (On) when the relay goes to ON state.
Association group 4 supports 1 node.
Group 5: Basic Set On/Off: Heater OUT-4
is used to turn the associated devices on/off reflecting OUT-4 operation. Max supported nodes: 1. The HE-FT01 sends Basic Set command with value 0 (Off) when the relay goes to OFF state and sends 255 (On) when the relay goes to ON state.
Association group 5 supports 5 nodes.
Group 6: Basic Set On/Off: Cooler OUT-5
is used to turn the associated devices on/off reflecting OUT-5 operation. Max supported nodes: 1. The HE-FT01 sends Basic Set command with value 0 (Off) when the relay goes to OFF state and sends 255 (On) when the relay goes to ON state.
Association group 6 supports 1 node.
Technical Information
Endpoints
Endpoint 0
| Command Class | Comment |
|---|---|
| COMMAND_CLASS_NO_OPERATION_V1 | |
| COMMAND_CLASS_BASIC_V1 | |
| COMMAND_CLASS_APPLICATION_STATUS_V1 | |
| COMMAND_CLASS_SENSOR_MULTILEVEL_V11 | |
| COMMAND_CLASS_METER_V3 | |
| COMMAND_CLASS_THERMOSTAT_MODE_V1 | |
| COMMAND_CLASS_THERMOSTAT_OPERATING_STATE_V1 | |
| COMMAND_CLASS_THERMOSTAT_SETPOINT_V1 | |
| COMMAND_CLASS_THERMOSTAT_FAN_MODE_V1 | |
| COMMAND_CLASS_THERMOSTAT_FAN_STATE_V1 | |
| COMMAND_CLASS_TRANSPORT_SERVICE_V1 | |
| COMMAND_CLASS_ASSOCIATION_GRP_INFO_V1 | |
| COMMAND_CLASS_DEVICE_RESET_LOCALLY_V1 | |
| COMMAND_CLASS_ZWAVEPLUS_INFO_V1 | |
| COMMAND_CLASS_SUPERVISION_V1 | |
| COMMAND_CLASS_CONFIGURATION_V1 | |
| COMMAND_CLASS_MANUFACTURER_SPECIFIC_V1 | |
| COMMAND_CLASS_POWERLEVEL_V1 | |
| COMMAND_CLASS_FIRMWARE_UPDATE_MD_V1 | |
| COMMAND_CLASS_CLOCK_V1 | |
| COMMAND_CLASS_ASSOCIATION_V2 | |
| COMMAND_CLASS_VERSION_V2 | |
| COMMAND_CLASS_INDICATOR_V3 | |
| COMMAND_CLASS_MULTI_CHANNEL_ASSOCIATION_V3 | |
| COMMAND_CLASS_SECURITY_V1 | |
| COMMAND_CLASS_SECURITY_2_V1 |
Documentation Links
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