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Qubino Flush On/Off Thermostat 2
Qubino Flush On/Off Thermostat 2
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Qubino Flush On/Off Thermostat 2

Vendor
Qubino
Regular price
£59.99
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£59.99
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The Qubino Flush On/Off Thermostat 2 is ideal for hidden control of hot water or electric underfloor heating systems. With the connected temperature sensor it is able to independently control and regulate the set heat in the room. Thanks to the very small size of the module, the thermostat can be installed behind a switch or panel in a flush-mounted box. As an additional function, you can monitor your power consumption with this device.

The size of the Qubino Flush On/Off Thermostat 2 makes it easy to retrofit it in the wall. With an additional external switch, the heating mode can be switched on and off manually.

Control your heating with your smartphone. Thanks to the Z-Wave wireless standard and a compatible controller, you are able to adjust your heating and control the room temperature from anywhere.

  • Heating system: Electric or water-based underfloor heating systems
  • Digital temperaturesensor: -25°C ~ 80°C; Length: 100cm
  • Standby electricity consumption: 0.4 Watt
  • Power supply: 110-230V AC
  • Output power: 2300W 230V AC / 2540W 24V DC
  • Z-Wave Plus
  • Security 2
  • SmartStart

 

Dimensions 115 x 96 x 22 mm
Weight 50 gr
Hardware Platform ZM5202
EAN 3830062071710
IP Class IP 20
Voltage 230V
Load 10A
Device Type Thermostat - HVAC
Network Operation Always On Slave
Z-Wave Version 6.81.03
Certification ID ZC10-19086722
Z-Wave Product Id 0x0159.0x0005.0x0054
Thermostat Modes CoolHeat
Color Light Blue
Supported Notification Types Power Management
Thermostat Power Source Mains powered (120V/240V)Power Stealing (hard-wired 24V)
Sensors Air Temperature
Electric Load Type Inductive (e.g. Motor)
Switch Type Toggle
Supported Meter Type Electric Energy
Thermostat HVAC Systems Supported Cool OnlyHeat OnlySimple Relay
Frequency Europe - 868,4 Mhz
Maximum transmission power 5 mW

Configuration parameters

Parameter no. 1 – Input I1 switch type

With this parameter, you can select between push-button (momentary) and on/off toggle switch types.

Values (size is 1 byte dec):

  • default value 1
  • 0 - push-button (momentary)
  • 1 - on/off toggle switch

Parameter no. 4 – Input 1 contact type

This parameter determines how the switch or push-button is connected.

Values (size is 1 byte dec)::

  • default value 0
  • 0 - NO (normally open) input type
  • 1 - NC (normally close) input type

Parameter no. 40 – Watt Power Consumption Reporting Threshold for Q⬆ Load

Choose by how much power consumption needs to increase or decrease to be reported. Values correspond to percentages so if 10 is set, for example, the device will report any power consumption changes of 10% or more compared to the last reading.

Values (size is 1 byte dec):

  • default value 10
  • 0 - Power consumption reporting disabled
  • 1 - 100 = 1% - 100% Power consumption reporting enabled. New value is reported only when Wattage
    in real time changes by more than the percentage value set in this parameter compared to the previous Wattage reading, starting at 1% (the lowest value possible).

NOTE: Power consumption needs to increase or decrease by at least 1 Watt to be reported, REGARDLESS of percentage set in this parameter.

Parameter no. 42 – Watt Power Consumption Reporting Time Threshold for Q⬆

Set value refers to the time interval with which power consumption in Watts is reported (30 – 32767 seconds) starting from time of last Watts reported. If for example 300 is entered, energy consumption reports will be sent to the gateway (hub) every 300 seconds (or 5 minutes).

Values (size is 2 byte dec):

  • default value 600 (600 seconds = 10 minutes)
  • 0 - Power consumption reporting disabled
  • 30 - 32767 = 30 - 32767 seconds. Power consumption reporting enabled. Report is sent according to time interval (value) set here.

EXAMPLE: If we set value to 30 seconds and the device reports Watts because of percent change of power (parameter 40 - Watt Power Consumption Reporting Threshold) at time = 5 seconds, then the device will send next meter report at time = 35 seconds (assuming the device has not sent report within interval 5 to 35 seconds).

Parameter no. 43 – Hysteresis Upper temperature offset

This parameter defines minimum temperature difference between real measured temperature and set-point temperature to turn device on in heat mode or turn device off in cool mode.

Values (size is 2 byte dec):

  • default value 5 (0.5 °C)
  • 0 – 450

NOTE1: If configuration parameter 78 (Scale selection) is set to Celsius, then valid interval is 0 – 250 (0.0 °C – 25.0 °C, resolution 0.1 °C)

NOTE2: If configuration parameter 78 (Scale selection) is set to Fahrenheit, then valid interval is 0 – 450 (0.0 °F – 45.0 °F, resolution 0.1 °F)

NOTE3: If configuration parameter 78 (Scale selection) is set to Fahrenheit, note that Fahrenheit values will be converted to Celsius degrees. Due to conversion algorithm please be advised that configuration value could drift when converting values back and forth.

Parameter no. 44 – Hysteresis Lower temperature offset

This parameter defines minimum temperature difference between real measured temperature and set-point temperature to turn device off in heat mode or turn device on in cool mode.

Values (size is 2 byte dec):
  • default value 5 (0.5 °C)
  • 0 - 450

NOTE1: If configuration parameter 78 (Scale selection) is set to Celsius, then valid interval is 0 – 250 (0.0 °C – 25.0 °C, resolution 0.1 °C)

NOTE2: If configuration parameter 78 (Scale selection) is set to Fahrenheit, then valid interval is 0 – 450 (0.0 °F – 45.0 °F, resolution 0.1 °F)

NOTE3: If configuration parameter 78 (Scale selection) is set to Fahrenheit, note that Fahrenheit values will be converted to Celsius degrees. Due to conversion algorithm please be advised that configuration value could drift when converting values back and forth.

Parameter no. 45 – Antifreeze

Set value determines at which temperature the device will be turned on even (if the thermostat was manually set to off).

Values (size is 2 byte dec):
  • default value 50 (5.0 °C)
  • -125 - 545
  • 1000 - Antifreeze functionality disable

NOTE1: Antifreeze is activated only in heating mode and it uses hysteresis of ±0.5°C.

NOTE2: If configuration parameter 78 (Scale selection) is set to Celsius, then valid interval is -125 – 125 (-12.5 °C – 12.5 °C, resolution 0.1 °C)

NOTE3: If configuration parameter 78 (Scale selection) is set to Fahrenheit, then valid interval is 95 – 545 (9.5 °F – 54.5 °F, resolution 0.1 °F)

NOTE4: If configuration parameter 78 (Scale selection) is set to Fahrenheit, note that Fahrenheit values will be converted to Celsius degrees. Due to conversion algorithm please be advised that configuration value could drift when converting values back and forth.

Parameter no. 59 - Thermostat mode

This parameter determines how the device will operate if it will operate in the heating mode or in the cooling mode. The range of the hysteresis will remain the same, only operation will change from heating to cooling and vice versa.

Values (size is 1 byte dec):

  • default value 0
  • 0 - Heat mode
  • 1 - Cool mode

NOTE1: After parameter change, first exclude device (without setting parameters to default value) and then re include the device!

Parameter no. 60 – Too low temperature limit

This parameter determines the temperature at which the device sends a command to the associated device - to turn ON device or to turn OFF device.

Values (size is 2 byte dec):

  • Default value 50 (Too low temperature limit is 5.0 °C)
  • -150 - 2120

NOTE1: Too low temperature limit is used with Association Group 3.

NOTE2: If configuration parameter 78 (Scale selection) is set to Celsius, then valid interval is -150 – 1000 (-15.0 °C – 100.0 °C, resolution 0.1 °C)

NOTE3: If configuration parameter 78 (Scale selection) is set to Fahrenheit, then valid interval is 50 – 2120 (5.0 °F – 212.0 °F, resolution 0.1 °F)

NOTE4: If configuration parameter 78 (Scale selection) is set to Fahrenheit, note that Fahrenheit values will be converted to Celsius degrees. Due to conversion algorithm please be advised that configuration value could drift when converting values back and forth.

Parameter no. 61 – Too high temperature limit

This parameter determines the temperature at which the device sends a command to the associated device, to turn ON device or to turn OFF device.

Values (size is 2 byte dec):

  • default value 700 (too high temperature limit is 70.0 °C)
  • 1 - 2120

NOTE1: Too high temperature limit is used with Association Group 3.

NOTE2: If configuration parameter 78 (Scale selection) is set to Celsius, then valid interval is 1 – 1000 (0.1 °C – 100.0 °C, resolution 0.1 °C)

NOTE3: If configuration parameter 78 (Scale selection) is set to Fahrenheit, then valid interval is 322 – 2120 (32.2 °F – 212.0 °F, resolution 0.1 °F)

NOTE4: If configuration parameter 78 (Scale selection) is set to Fahrenheit, note that Fahrenheit values will be converted to Celsius degrees. Due to conversion algorithm please be advised that configuration value could drift when converting values back and forth.

Parameter no. 63 – Output switch selection

Set value determines the type of the device connected to the on/off output. The output type can be normally open (NO) or normally closed (NC).

Values (size is 1 byte dec):
  • default value 0
  • 0 - When switch/device is off the output is 0V (NC).
  • 1 - When switch/device is off the output is 240V or 24V (NO).

Parameter no. 78 – Scale Selection

This parameter determines in which measurement unit the device will report temperature (Fahrenheit or Celsius) and determines the scale the configuration parameters (43, 44, 44, 45, 60, 61, 110, 120) are interpreted as.

Values (size is 1 byte dec):

  • default value 0 = degrees Celsius
  • 0 = degrees Celsius
  • 1 = degrees Fahrenheit

NOTE1: This scale has influence on Temperature reporting. The device is capable of receiving a Set point in all supported scales.

NOTE2: This configuration parameter has impact on configuration parameters 43, 44, 44, 45, 60, 61, 110, 120. If scale is set to degrees Fahrenheit configuration values at parameters 43, 44, 44, 45, 60, 61, 110, 120 will be converted to degrees Celsius. Please note that converted values could drift when converting values back and forth.

Parameter no. 110 – Temperature Sensor Offset Settings

Set value is added to or subtracted from the actually measured value to adjust the temperature report sent by an external sensor.

Values (size is 2 byte dec):

  • default value 0
  • -270 - 270

NOTE1: If configuration parameter 78 (Scale selection) is set to Celsius, then valid interval is -150 – 150 (-15.0 °C – 15.0 °C, resolution 0.1 °C)

NOTE2: If configuration parameter 78 (Scale selection) is set to Fahrenheit, then valid interval is -270 - 270 (-27.0 °F – 27.0 °F, resolution 0.1 °F)

NOTE3: If configuration parameter 78 (Scale selection) is set to Fahrenheit, note that Fahrenheit values will be converted to Celsius degrees. Due to conversion algorithm please be advised that configuration value could drift when converting values back and forth.

Parameter no. 120 – Temperature Sensor Reporting Threshold

This configuration parameters sets reporting threshold between reported temperature and actual temperature for reporting temperature at association group 4.

Values (size is 2 byte dec):

  • default value 5 = 0.5°C
  • 0 – Reporting disabled
  • 0 – 270

NOTE1: If configuration parameter 78 (Scale selection) is set to Celsius, then valid interval is 0 – 150 (0 °C – 15.0 °C, resolution 0.1 °C)

NOTE2: If configuration parameter 78 (Scale selection) is set to Fahrenheit, then valid interval is 0 - 270 (0 °F – 27.0 °F, resolution 0.1 °F)

NOTE3: If configuration parameter 78 (Scale selection) is set to Fahrenheit, note that Fahrenheit values will be converted to Celsius degrees. Due to conversion algorithm please be advised that configuration value could drift when converting values back and forth.

Electrical diagram

N Neutral wire (+VDC)
L Live (line) wire (-VDC)
Q↑ Output for electrical device
I1 Input for switch /push button
TS Temperature sensor terminal
* Wago 221-413 splicing connectors for L and N connection must be used only when connected to 240 VAC.
S Service button

*For details please check parameters 11, 12 and 13