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This is a custom quirks for sinope zigbee devices for testing before it is added to zha-device-handlers. It also explain how to setup those quirks in Home Assistant to use and test them before they are merged in zha-device-handlers

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sinope-zha

This is a custom quirks for sinope zigbee devices for testing before it is added to zha-device-handlers. It also explain how to setup those quirks in Home Assistant to use and test them before they are merged in zha-device-handlers.

Home assistant configuration:

  • in /config directory create a new directory zhaquirks -> /config/zhaquirks
  • in configuration.yaml add the following:
zha:
  database_path: zigbee.db
  custom_quirks_path: /config/zhaquirks/

Copy the quirks

In /config/zhaquirks copy the fourth files, light.py, switch.py, thermostat.py and sensor.py then restart Home Assistant

Logging

In configuration.yaml you can add this to get logging info for the quirks:

logger:
  default: warning
  logs:
    zhaquirks: debug

You should see the following:

...[zhaquirks] Loading quirks module zhaquirks.aduro
...
...[zhaquirks] Loading custom quirks from /config/zhaquirks
...[zhaquirks] Loading custom quirks module light
...[zhaquirks] Loading custom quirks module switch
...[zhaquirks] Loading custom quirks module thermostat
...[zhaquirks] Loading custom quirks module sensor

Editing the quirks:

You can edit the files as you like and restart HA to test your changes. Don't forget to delete the __pycache__ folder in /config/zhaquirks before restarting HA so your changes will be added.

Custom cluster attributes details:

I'll list here all the custom cluster attribute with explanation about how to use them in your automation.

  • Thermostats:
Cluster Attributes Atribute decimal Data type Fonction Value Access
0xff01 0x0001 1 t.Bool Unknown 0, 1 read/write/report
0xff01 0x0002 2 t.enum8 keypadLockout 0 = unlocked, 1 = locked, 2 = prevent disconnect read/write/report
0xff01 0x0003 3 t.uint16_t firmware_number read/report
0xff01 0x0004 4 t.CharacterString firmware_version read/report
0xff01 0x0010 16 t.int16s outdoor_temp celsius * 100 read/write/report
0xff01 0x0011 17 t.uint16_t outdoor_temp_timeout Delay in seconds before reverting to setpoint display if no more outdoor temp is received read/write/report
0xff01 0x0012 18 t.enum8 config2ndDisplay 0 = auto, 1 = setpoint, 2 = outside temperature. read/write/report
0xff01 0x0020 32 t.uint32_t secs_since_2k second since year 2000 read/write/report
0xff01 0x0070 112 t.bitmap8 currentLoad watt/hr read/report
0xff01 0x0071 113 t.int8s eco_delta_setpoint off:-128, celsius*+-10, amount of setpoint reduction/increase for peak and pre-heating read/write/report
0xff01 0x0072 114 t.uint8_t eco_max_pi_heating_demand 255:off, range: 0-99 Set pi_heating_demand percentage limit 0% to 99% (225 = 100%) read/write/report
0xff01 0x0073 115 t.uint8_t eco_safety_temperature_delta off:255, range: 0-100, set heating restart if room temperature goes x% below setpoint read/write/report
0xff01 0x0075 117 t.bitmap32 unknown testing 0 read/write/report
0xff01 0x0080 128 t.uint32_t unknown 17563654 read/report
0xff01 0x0100 256 t.uint8_t unknown testing 0 read/report
0xff01 0x0101 257 Array unknown Array(type=AnonymousLVList, value=[6, 0, 1, 5]) read/report
0xff01 0x0102 258 t.uint8_t unknown 0 read
0xff01 0x0103 259 Array unknown Array(type=AnonymousLVList, value=[1, 0, 0, 0]) read
0xff01 0x0104 260 t.int16s setpoint celsius * 100 read/write
0xff01 0x0105 261 t.enum8 airFloorMode Air: 1, floor: 2 read/write
0xff01 0x0106 262 t.enum8 auxOutputMode 0=off, 1=expantion module read/write
0xff01 0x0107 263 t.int16s FloorTemperature celsius*100 read
0xff01 0x0108 264 t.int16s airMaxLimit temp: celsius*100, valid only if floor mode is selected read/write
0xff01 0x0109 265 t.int16s floorMinSetpoint off: -32768, temp: celsius*100 read/write
0xff01 0x010A 266 t.int16s floorMaxSetpoint off: -32768, temp: celsius*100 read/write
0xff01 0x010B 267 t.enum8 tempSensorType 0=10k, 1=12k read/write
0xff01 0x010C 268 t.uint8_t floorLimitStatus 0=ok, 1=floorLimitLowReached, 2=floorLimitMaxReached, 3=floorAirLimitMaxReached report/read
0xff01 0x010D 269 t.int16s RoomTemperature celsius*100 read
0xff01 0x0114 276 t.enum8 timeFormat 0=24h, 1=12h read/write/report
0xff01 0x0115 277 t.enum8 gfciStatus 0=ok, 1=error report/read
0xff01 0x0116 278 t.enum8 hvacMode 0=off, 1=auto, 3=cool, 4=heat read
0xff01 0x0117 279 Array unknown Array(type=AnonymousLVList, value=[165, 82, 20, 0, 0, 0, 22, 0, 2, 15, 11, 23]) read
0xff01 0x0118 280 t.uint16_t auxConnectedLoad watt/hr, 0xffff=off (65535) read/write
0xff01 0x0119 281 t.uint16_t connectedLoad watt/hr read/write
0xff01 0x0128 296 t.uint8_t pumpProtectionStatus Off: 0x00, On: 0x01 read/write
0xff01 0x012A 298 t.enum8 pumpProtectionDuration default:60, 5,10,15,20,30,60 read/write/report
0xff01 0x012B 299 t.int16s currentSetpoint Celsius*100 read/write/report
0xff01 0x012C 300 Array unknown Array(type=AnonymousLVList, value=[16, 0, 0, 0, 0, 0, 176, 240, 230, 44]) read
0xff01 0x012D 301 t.int16s reportLocalTemperature Celsius*100 read/report
0xff01 0x0139 313 t.int16s unknown -32768 report/read/write
0xff01 0x013B 315 t.bitmab8 unknown 0 report/read
0xff01 0x0200 512 t.bitmap32 status 0x00000000 report/read
0xff01 0x0202 514 t.enum8 unknown 1,2,6 read
0xff01 0x0281 641 t.uint16_t cycle_length 15 sec or 15 min (900 sec) report/read/write
0xff01 0x0283 643 t.enum8 unknown 1 report/read
0xff01 0x0284 644 t.uint16_t unknown 0 report/read/write
0xff01 0x0285 645 t.uint8_t unknown 65 report/read/write
0xff01 0x0286 646 t.uint8_t unknown 100 report/read/write
0xff01 0xFFFD 65533 t.uint16_t cluster_revision 0 read
--- --- --- --- --- --- ---
0x0201 0x0000 0 t.int16s LocalTemperature celsius*100 report/read
0x0201 0x0001 1 t.int16s outdoor_temperature celsius*100 report/read
0x0201 0x0002 2 t.bitmap8 occupancy 1=occupied, 0=unoccupied read
0x0201 0x0003 3 t.int16s abs_min_heat_setpoint_limit celsius*100 report/read
0x0201 0x0004 4 t.int16s abs_max_heat_setpoint_limit celsius*100 report/read
0x0201 0x0008 8 t.uint8_t PIHeatingDemand 0 -- 100% report/read
0x0201 0x0010 16 t.int8s local_temperature_calibration -25 to +25 (+- 2.5oC) read/write/report
0x0201 0x0011 17 t.int16s occupied_cooling_setpoint celsius*100 report/read/write
0x0201 0x0012 18 t.int16s occupied_heating_setpoint celsius*100 report/read/write
0x0201 0x0014 20 t.int16s unoccupied_heating_setpoint celsius*100 read/write
0x0201 0x0015 21 t.int16s MinHeating Setpoint celsius*100 read/write
0x0201 0x0016 22 t.int16s MaxHeating Setpoint celsius*100 read/write
0x0201 0x001B 27 t.enum8 ctrl_sequence_of_oper 2 report/read/write
0x0201 0x001C 28 t.enum8 SystemMode 0=off, 4=heat read/write
0x0201 0x001E 30 t.enum8 running_mode 0=off, 4=heat report/read
0x0201 0x0400 1024 t.enum8 SetOccupancy Home: 0, away:1 read/write
0x0201 0x0401 1025 t.uint16_t MainCycleOutput Number of second, 15: '15_sec', 300: '5_min', 600: '10_min', 900: '15_min', 1200: '20_min', 1800: '30_min', 65535: 'off' read/write
0x0201 0x0402 1026 t.enum8 BacklightAutoDimParam OnDemand: 0, Always: 1, bedroom: 2 read/write
0x0201 0x0404 1028 t.uint16_t AuxCycleOutput Number of second, 15: '15_sec', 300: '5_min', 600: '10_min', 900: '15_min', 1200: '20_min', 1800: '30_min', 65535: 'off' read/write
--- --- --- --- --- --- ---
0x0b04 0x050b 1291 t.uint16_t Active_Power watt/hr report/read/write
0x0b04 0x050d 1293 t.uint16_t active_power_max watt/hr read
0x0b04 0x050f 1295 t.uint16_t Apparent_Power watt/hr report/read
--- --- --- --- --- --- ---
0x0204 0x0000 0 t.enum8 TemperatureDisplayMode 0=celsius, 1=farenheight read/write
0x0204 0x0001 1 t.enum8 keypadLockout 0=no lock, 1=lock read/write
--- --- --- --- --- --- ---
0x0702 0x0000 0 t.uint48_t CurrentSummationDelivered watt/hr report/read
  • lights and dimmer: (SW2500ZB, DM2500ZB, DM2550ZB)
Cluster Attributes Atribute decimal Data type Fonction Value Access
0xff01 0x0001 1 t.bool Unknown 0, 1 read/write
0xff01 0x0002 2 t.enum8 KeypadLock Locked: 1, Unlocked: 0 read/write
0xff01 0x0003 3 t.uint16_t firmware_number read
0xff01 0x0004 4 t.CharacterString firmware_version read
0xff01 0x0010 16 t.int16s on_intensity minIntensity - 3000 read/write
0xff01 0x0012 18 t.enum8 Unknown 0, 1 read/write
0xff01 0x0013 19 t.enum8 unknown 0, 1, 2 read/write
0xff01 0x0050 80 t.uint24_t onLedColor 0x0affdc - Lim, 0x000a4b - Amber, 0x0100a5 - Fushia, 0x64ffff - Perle, 0xffff00 - Blue read/write
0xff01 0x0051 81 t.uint24_t offLedColor 0x0affdc - Lim, 0x000a4b - Amber, 0x0100a5 - Fushia, 0x64ffff - Perle, 0xffff00 - Blue read/write
0xff01 0x0052 82 t.uint8_t onLedIntensity Percent read/write
0xff01 0x0053 83 t.uint8_t offLedIntensity Percent read/write
0xff01 0x0054 84 t.enum8 actionReport singleTapUp: 2, doubleTapUp: 4, singleTapDown: 18, doubleTapDown: 20 read/repport
0xff01 0x0055 85 t.uint16_t minIntensity 0 to 3000 read/write
0xff01 0x0056 86 t.enum8 phase_control 0=forward, 1=reverse read/write
0xff01 0x0058 88 t.enum8 double_up_full 0=off, 1=on read/write
0xff01 0x0080 128 t.uint32_t Unknown read
0xff01 0x0090 144 t.uint32_t currentSummationDelivered watt/hr report/read
0xff01 0x00A0 160 t.uint32_t Timer Time, 1 to 10800 seconds read/write
0xff01 0x00A1 161 t.uint32_t Timer_countdown Seconds remaining on timer read
0xff01 0x0119 281 t.uint16_t ConnectedLoad None: 0, watt read/write
0xff01 0x0200 512 t.bitmap32 status 0x00000000 report/read
0xff01 0xFFFD 65533 t.uint16_t cluster_revision read
--- --- --- --- --- --- ---
0x0702 0x0000 0 t.uint48_t CurrentSummationDelivered Sum of delivered watt/hr report/read
--- --- --- --- --- --- ---
0x0006 0x0000 0 t.Bool OnOff 1=on, 0=off report/read/write
--- --- --- --- --- --- ---
0x0008 0x0000 0 t.uint8_t CurrentLevel 0=0%, 254=100% report/read
0x0008 0x0011 17 t.uint8_t OnLevel 0=0%, 254=100% read/write
  • Switch SP2600ZB, SP2610ZB
Cluster Attributes Atribute decimal Data type Fonction Value Access
0xff01 0x0004 4 t.CharacterString firmware_version read
0xff01 0x0220 544 t.bitmap16 Unknown 0 report/read/write
0xff01 0x0221 545 t.bitmap16 Unknown 1 report/read
0xff01 0xFFFD 65533 t.uint16_t cluster_revision report/read
--- --- --- --- --- --- ---
0x0702 0x0000 0 t.uint48_t CurrentSummationDelivered watt/hr report/read
--- --- --- --- --- --- ---
0x0b04 0x050B 1291 t.uint16_t Active_Power watt/hr report/read
0x0b04 0x0604 1540 t.uint16_t ACPowerMultiplier 1 read
0x0b04 0x0605 1541 t.uint16_t ACPowerDivisor 10 read
--- --- --- --- --- --- ---
0x0006 0x0000 0 t.Bool OnOff 0=off, 1=on report/read
  • Switch RM3250ZB, Load Controller
Cluster Attributes Atribute decimal Data type Fonction Value Access
0xff01 0x0001 1 t.bool unknown 0, 1 read/write
0xff01 0x0002 2 t.enum8 keypadLockout 0 = unlocked, 1 = locked read/write
0xff01 0x0003 3 t.uint16_t firmware_number read
0xff01 0x0004 4 t.CharacterString firmware_version read
0xff01 0x0060 96 t.uint16_t ConnectedLoad watt/hr read
0xff01 0x00A0 160 t.uint32_t Timer Time, 1 to 86400 seconds read/write
0xff01 0x00A1 161 t.uint32_t Timer_countDown Seconds remaining on timer read
0xff01 0x0070 112 t.bitmap8 CurrentLoad watt/hr read
0xff01 0x0080 128 t.uint32_t Unknown read
0xff01 0x0090 144 t.uint32_t currentSummationDelivered watt/hr report/read
0xff01 0x0200 512 t.bitmap32 status 0x00000000 report/read
0xff01 0xFFFD 65533 t.uint16_t cluster_revision report/read
--- --- --- --- --- --- ---
0x0006 0x0000 0 t.Bool OnOff 1=on, 0=off report/read
--- --- --- --- --- --- ---
0x0b04 0x050B 1291 t.uint16_t Active_Power watt/hr report/read
0x0b04 0x0505 1285 t.uint16_t rms_voltage volt report/read
0x0b04 0x0605 1541 t.uint16_t AC_Power_Divisor 1 read
0x0b04 0x0604 1540 t.uint16_t AC_Power_Multiplier 1 read
0x0b04 0x0605 1541 t.uint16_t AC_Power_Divisor 1 read
--- --- --- --- --- --- ---
0x0702 0x0000 0 t.uint48_t CurrentSummationDelivered watt/hr report/read
  • Switch RM3500ZB, Calypso water tank controller
Cluster Attributes Atribute decimal Data type Fonction Value Access
0xff01 0x0002 2 t.enum8 keypadLockout 0 = unlocked, 1 = locked read/write
0xff01 0x0004 4 t.CharacterString firmware_version 1 read
0xff01 0x0010 16 t.int16s unknown 400
0xff01 0x0013 19 t.enum8 unknown 1,2,3,4,16,21 read/write
0xff01 0x0035 53 t.uint16_t unknown 0 read/report
0xff01 0x0037 55 t.uint16_t unknown 744 read/write/report
0xff01 0x0038 56 t.enum8 unknown 0 read/report
0xff01 0x0060 96 t.uint16_t ConnectedLoad watt/hr read
0xff01 0x0070 112 t.bitmap8 CurrentLoad watt/hr read
0xff01 0x0074 116 t.enum8 unknown 255 read/write/report
0xff01 0x0076 118 t.uint8_t drConfigWaterTempMin 0=off, 45 to 55 celsius read/write/report
0xff01 0x0077 119 t.uint8_t drConfigWaterTempTime 2 read/write/report
0xff01 0x0078 120 t.uint16_t drWTTimeOn 240 read/write/report
0xff01 0x0079 121 t.bitmap8 unknown 0 report/read
0xff01 0x007A 122 t.uint16_t unknown 0 read/write/report
0xff01 0x007B 123 t.uint16_t unknown 288 read/write/report
0xff01 0x007C 124 t.int16s min_measured_temp water temp celsius*100 read/report
0xff01 0x007D 125 t.int16s max_measured_temp water temp celsius*100 read/report
0xff01 0c0080 122 t.uint32_t unknown 0 read/report
0xff01 0x0090 144 t.uint32_t CurrentSummationDelivered kwh read/report
0xff01 0x00A0 160 t.uint32_t Timer Time, 1 to 86400 seconds read/write/report
0xff01 0x00A1 161 t.uint32_t Timer_countDown Seconds remaining on timer read/report
0xff01 0x00B0 176 t.Bool unknown 1 read/report
0xff01 0x0101 257 Array read/report
0xff01 0x012A 298 t.enum8 unknown 60 read/write/report
0xff01 0x012C 300 Array unknown read/report
0xff01 0x0200 512 t.bitmap32 status 0x00000000 report/read
0xff01 0x0202 514 t.enum8 unknown 1 read/report
0xff01 0x0203 515 t.enum8 unknown 12 read/report
0xff01 0x0280 640 t.int16s max_measured_value 5300 read/write/report
0xff01 0x0281 641 t.uint16_t unknown 0 read/write/report
0xff01 0x0282 642 t.uint16_t unknown 0 read/write/report
0xff01 0x0283 643 t.uint8_t ColdLoadPickupStatus 1, 2 read
0xff01 0x0284 644 t.uint16_t coldLoadPickupRemainingTime 65535=off countdown
0xff01 0xFFFD 65533 t.uint16_t cluster_revision read
--- --- --- --- --- --- ---
0x0500 0x0002 2 t.uint16_t ZoneStatus 0=no leak, 1=leak read
--- --- --- --- --- --- ---
0x0006 0x0000 0 t.Bool OnOff 1=on, 0=off report/read
--- --- --- --- --- --- ---
0x0b04 0x050B 1291 t.uint16_t Active_Power watt/hr report/read
0x0b04 0x0505 1285 t.uint16_t rms_voltage volt report/read
0x0b04 0x0605 1541 t.uint16_t AC_Power_Divisor 1 read
0x0b04 0x0604 1540 t.uint16_t AC_Power_Multiplier 1 read
--- --- --- --- --- --- ---
0x0b05 0x011d 285 t.int8s Rssi value -45
--- --- --- --- --- --- ---
0x0402 0x0000 0 t.int16s WaterTemperature temp oC
--- --- --- --- --- --- ---
0x0702 0x0000 0 t.uint48_t CurrentSummationDelivered Watt/hr report/read
  • Switch MC3100ZB, multi controller
Endpoint Cluster Attributes Atribute decimal Data type Fonction Value Access
1 0x0001 0x0020 32 t.uint8_t Battery_Voltage Volt*10 report/read
1 0x0001 0x003e 62 t.bitmap32 BatteryAlarmState 0=no alarm, 1=alarm report/read
--- --- --- --- --- --- --- ---
1 0xff01 0x00A0 160 t.uint32_t Timer Time, 1 to 10800 seconds read/write
2 0xff01 0x00A0 160 t.uint32_t Timer2 Time, 1 to 10800 seconds read/write
1 0xff01 0x02A0 672 t.uint32_t input_on_delay seconds, 0=off, 0 to 10800 read/write
1 0xff01 0x02A1 673 t.uint32_t input_off_delay seconds, 0=off, 0 to 10800 read/write
2 0xff01 0x02A0 672 t.uint32_t input_on_delay seconds, 0=off, 0 to 10800 read/write
2 0xff01 0x02A1 673 t.uint32_t input_off_delay seconds, 0=off, 0 to 10800 read/write
1 0xff01 0xFFFD 65533 t.uint16_t cluster_revision report/read
--- --- --- --- --- --- --- ---
1 0x0006 0x0000 0 t.Bool OnOff 1=on, 0=off report/read
2 0x0006 0x0000 0 t.Bool OnOff2 1=on, 0=off report/read
--- --- --- --- --- --- --- ---
1 0x0402 0x0000 0 t.int16s Measured value, indoor temperature celsius*100 report/read
2 0x0402 0x0000 0 t.int16s Measured value, outside temperature celsius*100 report/read
--- --- --- --- --- --- --- ---
1 0x0405 0x0000 0 t.uint16_t measured value, relative humidity % report/read
  • Switch valve VA4200WZ, VA4201WZ, VA4200ZB VA4201ZB, VA4220ZB, VA4221ZB
Cluster Attributes Atribute decimal Data type Fonction Value Access
0x0001 0x0020 32 t.uint8_t Battery_Voltage Volt*10 report/read
0x0001 0x0021 33 t.uint8_t Battery_percentage_remaining % report/read
0x0001 0x003e 62 t.bitmap32 BatteryAlarmState 0=no alarm, 1=alarm, 15=no battery report/read
--- --- --- --- --- --- ---
0xff01 0x0200 512 t.bitmap32 status/alarm 0x00000000 report/read
--- --- --- --- --- --- ---
0x0006 0x0000 0 t.Bool OnOff 1=on, 0=off report/read
--- --- --- --- --- --- ---
0x0402 0x0000 0 t.uint16_t MeasuredValue, Temperature celsius*100 report/read
--- --- --- --- --- --- ---
0x0702 0x0000 0 t.uint48_t CurrentSummationDelivered L/h (see below) report/read
0x0702 0x0200 512 t.bitmap8 status 0=off, 1=off/armed, 2=on read
0x0702 0x0300 768 t.enum8 unit_of_measure 7=L/h read
0x0702 0x0306 774 t.bitmap8 metering_device_type 2 = Water Metering read
  • Switch valve VA4220ZB G2, VA4221ZB G2 with flow meter
Cluster Attributes Atribute decimal Data type Fonction Value Access
0x0000 0x0007 7 t.enum8 power_source 129,130=mains, 3=battery, 4=dc read
--- --- --- --- --- --- ---
0x0001 0x0020 32 t.uint8_t Battery_Voltage Volt*10 report/read
0x0001 0x0021 33 t.uint8_t Battery_percentage_remaining % report/read
0x0001 0x003e 62 t.bitmap32 BatteryAlarmState 0=no alarm, 1=alarm, 15=no battery report/read
--- --- --- --- --- --- ---
0x0008 0x0000 0 t.uint8_t Current_level From 0 to 254 report/read
0x0008 0x0011 17 t.uint8_t On_level 0=off, 1 to 255 valve openning value limit read/write
--- --- --- --- --- --- ---
0xff01 0x0101 257 Array unknown Array(type=AnonymousLVList, value=[0, 3, 3, 2]) read
0xff01 0x0200 512 t.bitmap32 status/alarm 0x00000000 report/read
0xff01 0x0230 560 t.enum8 alarm_flow_threshold 0=off,1=on read/write
0xff01 0x0231 561 t.enum8 alarm_options 0=nothing,1=alarm,2=close,3=close and alarm read
0xff01 0x0240 576 Array flow_meter_config 12 elements (uint8) read/write
no flow meter = Array(type=AnonymousLVList, value=[0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0])
FS4220 = Array(type=AnonymousLVList, value=[194, 17, 0, 0, 136, 119, 0, 0, 1, 0, 0, 0])
FS4221 = Array(type=AnonymousLVList, value=[159, 38, 0, 0, 76, 85, 1, 0, 1, 0, 0, 0])
FS4222 = Array(type=AnonymousLVList, value=[1, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0])
0xff01 0x0241 577 t.uint32_t valve_countdown seconds read/write
0xff01 0x0250 592 t.uint32_t power_source 0x0001d4c0 (120000)= DC power, 0x00000001 (1)=ACUPS, 0x00000000 (0)=Battery read/write
0xff01 0x0251 593 t.uint32_t emergency_power_source 0x0000003c (60)=battery + ACUPS, 0x00000001=ACUPS, 0x00000000=battery read/write
0xff01 0x0252 594 t.uint32_t abnormal_flow_duration seconds ,900 (15 min) to 86400 (24hr) read/write
0xff01 0x0253 595 t.bitmap16 abnormal_flow_action 0x0000= do nothing, 0x0001=send alert, 0x0003= close and send alert read/write
--- --- --- --- --- --- ---
0x0006 0x0000 0 t.Bool OnOff 1=on, 0=off report/read
--- --- --- --- --- --- ---
0x0402 0x0000 0 t.uint16_t MeasuredValue, Temperature celsius report/read
--- --- --- --- --- --- ---
0x0404 0x0000 0 t.uint16_t MeasuredValue, flowrate L/hr report/read
0x0404 0x0001 1 t.uint16_t min_measured_value 0 read
0x0404 0x0002 2 t.uint16_t max_measured_value ? read
0x0404 0x0003 3 t.uint16_t tolerance ? read
--- --- --- --- --- --- ---
0x0500 0x0000 0 t.enum8 zone_state 1=enrolled, 0=not enrolled read
0x0500 0x0002 2 t.bitmap16 zone_status 56=flow? read
--- --- --- --- --- --- ---
0x0702 0x0000 0 t.uint48_t flowVolumeDelivered L/h report/read
0x0702 0x0200 512 t.bitmap8 status 0=off, 1=off/armed, 2=on read
0x0702 0x0300 768 t.enum8 unit_of_measure 7=L/h read
0x0702 0x0301 769 t.uint24_t multiplier 1 read
0x0702 0x0302 770 t.uint24_t divisor 1000 read
0x0702 0x0306 774 t.bitmap8 metering_device_type 2 = Water Metering read
0x0702 0x0400 1024 t.int24s instantaneous_demand 0 report/read
  • Sensors WL4200, WL4200S, WL4200C, WL4210
Cluster Attributes Atribute decimal Data type Fonction Value Access
0xff01 0x0003 3 t.uint16_t Firmware_number read
0xff01 0x0004 4 t.CharacterString firmware_version read
0xff01 0x0030 48 t.uint8_t unknown 0 read/write
0xff01 0x0031 49 t.uint16_t unknown 696, 774 read/write
0xff01 0x0032 50 t.int16s min_temperature_limit 300, celsius*100 read/write
0xff01 0x0033 51 t.int16s max_temperature_limit 5000, celsius*100 read/write
0xff01 0x0034 52 t.bitmap8 device_status 0 read/report
0xff01 0x0035 53 t.uint16_t unknown 29, 71, 72, 133 read
0xff01 0x0036 54 t.uint16_t Battery_type 7 read/write
0xff01 0x0080 128 t.uint32_t unknown 16973824 read
0xff01 0xfffd 65533 t.uint16_t cluster_revision 1 read
--- --- --- --- --- --- ---
0x0001 0x0020 32 t.uint8_t Battery_voltage voltage * 10 report/read
--- --- --- --- --- --- ---
0x0402 0x0000 0 t.uint16_t MeasuredValue, Temperature celsius * 100 report/read
--- --- --- --- --- --- ---
0x0500 0x0030 48 t.uint16_t leak_alarm 0=no leak, 1=leak read
  • Sensors LM4110-ZB, tank level monitor
Cluster Attributes Atribute decimal Data type Fonction Value Access
0x0001 0x0020 32 t.uint8_t battery voltage 54, volt*10 report/read
0x0001 0x0021 33 t.uint8_t remaining battey percentage % report/read
0x0001 0x003e 62 t.bitmap32 battery_alarm_state 0=ok, 1=weak battery report/read
--- --- --- --- --- --- ---
0x0402 0x0000 0 t.int16s MeasuredValue, device Temperature celsius * 100 report/read
--- --- --- --- --- --- ---
0x000c 0x0055 85 t.uint16_t Present value, angle angle of the gauge needle in degree report/read
--- --- --- --- --- --- ---
0xff01 0x0003 3 t.uint16_t firmware_number read
0xff01 0x0004 4 t.CharacterString firmware_version read
0xff01 0x0030 48 t.uint8_t Unknown 60 report/read/write
0xff01 0x0080 128 t.uint32_t Unknown 0 report/read
0xff01 0x0200 512 t.bitmap32 status 0x00000000 report/read
0xff01 0xfffd 65533 t.uint16_t cluster_revision report/read

Propane level is reported as gauge needle angle cluster 0x000c, attribute 0x0055. There is no % value. In neviweb this is calculated depending on gauge type 5-95 or 10-80. If you need to set an alarm at 20% tank capacity then target angle 182 for 5-95 and 10-80 gauge. For 30% value 5-95 = 221 and 10-80 = 216.

Devices reporting

Device reporting allow device to report any changes that occur on some cluster attributes. If your device was connected to Neviweb before you don't need to activate reporting, except for light and dimmer double tap and long press reporting. If your device is bran new then it should be necessary to implement device reporting. To proceed you can do it by installing ZHA Toolkit (https://github.com/mdeweerd/zha-toolkit) v0.8.31 or higher, and following example below:

Following are the cluster/attributes set for reproting in Neviweb:

  • Thermostat:
Data Cluster Attribute format min time max time minimum change
Occupancy 0x0003 0x0400 0x10 1 65000 1
local temperature 0x0201 0x0000 0x29 19 300 25
heating demand 0x0201 0x0008 0x0020 11 301 10
occupied heating setpoint 0x0201 0x0012 0x0029 8 302 40
report gfci status 0xFF01 0x0115 0x30 10 3600 1
floor limit status 0xFF01 0x010C 0x30 10 3600 1
  • Light and dimmer:
Data Cluster Attribute format min time max time minimum change
onOff 0x0006 0x0000 0x10 0 599 null
CurrentLevel 0x0008 0x0000 0x20 3 602 0x01
double click 0xff01 0x0054 0x10 0 0 1
  • load control RM3250ZB:
Data Cluster Attribute format min time max time minimum change
onOff 0x0006 0x0000 0x10 0 600 null
ActivePower 0x0B04 0x050B 0x29 60 599 0x64
Energy reading 0x0702 0x0000 0x29 59 1799 int
  • Valve:
Data Cluster Attribute format min time max time minimum change
Battery % (0x0001 0x0020 0x20 60 3600 1
on/off 0x0006 0x0000 0x10 0 600 null
Flowrate 0x0404 0x0000 T.uint16_t 30 600 flow change
water volume 0x0702 0x0000 t.uint48_t 59 1799 volume change
  • Leak sensors:
Data Cluster Attribute format min time max time minimum change
battery percentage 0x0001 0x0021 0x20 30 43200 1
temperature min 0x0402 0x0000 0x29 30 3600 300
battery Alarm State 0x0001 0x003E 0x1b 30 3600 1
  • Tank monitor LM4110-ZB:
Data Cluster Attribute format min time max time minimum change Note
status 0x0001 0x003e 0x1b 60 43688 1
remaining battey percentage 0x0001 0x0021 0x20 0 65535 1
battery voltage 0x0001 0x0020 0x20 60 43646 1
present value, angle 0x000c 0x0055 0x39 5 3757 1
device temperature 0x0402 0x0000 0x29 60 3678 1 (only if temperature goes below 5oC)
  • Calypso RM3500ZB:
Data Cluster Attribute format min time max time minimum change Note
water temperature 0x0402 0x0000 0x29 30 580 100
Water leak sensor state 0x0500 0x0002 0x19 0
Heater On/off 0x0006 0x0000 0x10 0 600 null
ActivePower 0x0B04 0x050B 0x29 30 600 0x64
Energy reading 0x0702 0x0000 0x29 299 1799 int
Safety water temp reporting 0xFF01 0x0076 DataType.UINT8 0 86400 null

Setting the flow meter model for your VA422xZB valve 2n gen.

To add your flow meter to your valve, you need to use the service ZHA Toolkit: Write Attribute. The data to set the flow meter is written in an attr_type array. The command is different for each type of flow meter:

  • FS4220: (3/4 inch)
service: zha_toolkit.attr_write
data:
  ieee: 50:0b:91:40:00:03:ed:b0 <-- your valve ieee
  endpoint: 1
  cluster: 0xff01
  attribute: 0x0240
  attr_type: 0x48
  attr_val: [32, 12, 0, 194, 17, 0, 0, 136, 119, 0, 0, 1, 0, 0, 0]
  read_before_write: true
  read_after_write: true
  • FS4221: (one inch)
service: zha_toolkit.attr_write
data:
  ieee: 50:0b:91:40:00:03:ed:b0 <-- your valve ieee
  endpoint: 1
  cluster: 0xff01
  attribute: 0x0240
  attr_type: 0x48
  attr_val: [32, 12, 0, 159, 38, 0, 0, 76, 85, 1, 0, 1, 0, 0, 0]
  read_before_write: true
  read_after_write: true
  • FS4222: (1.5 inch)
service: zha_toolkit.attr_write
data:
  ieee: 50:0b:91:40:00:03:ed:b0 <-- your valve ieee
  endpoint: 1
  cluster: 0xff01
  attribute: 0x0240
  attr_type: 0x48
  attr_val: [32, 12, 0, 1, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0]
  read_before_write: true
  read_after_write: true
  • No flow meter:
service: zha_toolkit.attr_write
data:
  ieee: 50:0b:91:40:00:03:ed:b0 <-- your valve ieee
  endpoint: 1
  cluster: 0xff01
  attribute: 0x0240
  attr_type: 0x48
  attr_val: [32, 12, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0]
  read_before_write: true
  read_after_write: true

Light switch and dimmer double tap, long press reporting :

Sinopé light switches (SW2500ZB), dimmer (DM2500ZB and DM2550ZB) supports single, double and long click, but requires to enable device reporting on attribute 0x0054, cluster 0xff01 to get the action fired in ZHA. To proceed use zha_toolkit services and follow the example bellow :

The action done on the light switch and dimmer is defined in the cluster: 0xff01 attribut: 0x0054.

Description Attribute Value received
Single Tap UP 0x0054 2
Single Tap DOWN 0x0054 18
Double Tap UP 0x0054 4
Double Tap DOWN 0x0054 20
Long press UP 0x0054 3
Long press DOWN 0x0054 19

a) create the reporting :

Here is an exemple of how to proceed. In this exemple :

  • 50:0b:91:40:00:03:db:c2 is your light switch
  • 00:12:4b:00:24:c0:c1:e0 is your Zigbee Coordinator
service: zha_toolkit.conf_report
data:
  ieee: 50:0b:91:40:00:03:db:c2
  cluster: 0xff01
  attribute: 0x0054
  manf: 4508
  min_interval: 0
  max_interval: 0
  reportable_change: 1
  tries: 3
  event_success: zha_report_success_trigger_event
  event_fail: zha_report_fail_trigger_event
  event_done: zha_done

b) Specify the bind to your coordinator :

service: zha_toolkit.bind_ieee
data:
  ieee: 50:0b:91:40:00:03:db:c2
  command_data: 00:12:4b:00:24:c0:c1:e0
  cluster: 65281
  event_done: zha_done

c) Automation example :

alias: Enable desk light when double tap on light switch
description: ""
trigger:
  - platform: event
    event_type: zha_event
    event_data:
      device_ieee: 50:0b:91:40:00:03:db:c2
      cluster_id: 65281
      args:
        attribute_id: 84
        attribute_name: action_report
        value: 4
condition: []
action:
  - type: toggle
    device_id: 8b11765575b04f899d9867165fa16069
    entity_id: light.interrupteur_lumiere_bureau_light_2
    domain: light
mode: single

For automations you will have acces to those events in the UI for device triggers:

  • "Turn on" pressed
  • "Turn off" pressed
  • "Turn on" double clicked
  • "Turn off" double clicked
  • "Turn on" continuously pressed
  • "Turn off" continuously pressed

LM4110-ZB setup for angle and level % reporting :

This sensor is a sleepy device. That mean the device is sleeping and wake up at specific interval to report his state. When it is sleeping it is impossible to reach hit. We can't send any command to that devive except when it is awake. To be able to configure the device you need to install ZHA-TOOLKIT component. This will allow to do all operations to setup the device.

the steps to configure your LM4110-ZB sensor is as follow:

setup reporting:

service: zha_toolkit.execute
data:
  ieee: «your LM4110 ieee »
  command: conf_report
  endpoint: 1
  cluster: 0x000c
  attribute: 0x0055
  min_interval: 5
  max_interval: 3757
  reportable_change: 1
  tries: 100
  event_done: zha_done

Check your log until you get :

'success': True, 'result_conf': [[ConfigureReportingResponseRecord(status=0)]]

zha-toolkit will submit the command until it reach 100 retry or zha_done event.

bind reporting:

Once you have it correctly, you need to bind your LM410ZB to your zigbee gateway so the report is sent to the correct place:

service: zha_toolkit.bind_ieee
data:
  ieee: «your LM4110 ieee »
  command_data: «your zigbee gateway ieee »
  cluster: 0x000c
  endpoint: 1
  dst_endpoint: 1
  tries: 100
  event_done: zha_done

service: zha_toolkit.execute can be replaced by service: zha_toolkit.conf_report. In that case remove the «command: conf_report line». The most important is to retry many time to catch the moment the LM4110 is awake.

setup automation to catch angle reporting:

To get the angle value you can try this method:

- platform: sql
  db_url: sqlite:////config/zigbee.db
  scan_interval: 10
  queries:
    - name: current_angle
      query: "SELECT value FROM attributes_cache_v7 where ieee = 'your LM4110 ieee' and cluster = 12 and attrid = 85"
      column: "value"

or you can use this method if you don't want to setup the sql platform:

service: zha_toolkit.execute
data:
  command: attr_read
  ieee: «your LM4110 ieee »
  cluster: 0x000c
  attribute: 0x0055
  state_id: sensor.current_angle
  allow_create: True
  tries: 100

This automation will create the sensor.current_angle or any other name you want.

- id: '1692841759194'
  alias: Lecture niveau propane
  description: Lecture du niveau de réservoir à chaque heure
  trigger:
  - platform: time_pattern
    hours: /1
  condition: []
  action:
  - service: zha_toolkit.execute
    data:
      command: attr_read
      ieee: "«your LM4110 ieee »"
      cluster: 12
      attribute: 85
      state_id: sensor.current_angle
      allow_create: true
      tries: 100
  mode: single

Do the calculation to transfert angle to % level:

There are two different tank gauge, scale from 10 to 80 (R3D 10-80) or scale from 5 to 95 (R3D 5-95). Calculation is different for each one.

  • First set gauge type and value offset. For this you need to create input_number and input_text to set those value in configuration.yaml
input_number:
  gauge_offset:
    name: "gauge offset"
    initial: 2
    min: 1
    max: 4
    step: 1
input_text:
  tank_gauge:
    name: "tank gauge"
    initial: "10-80" # or "5-95"
  • Calculates propane tank % level according to value returned by Sinope device (for R3D 10-80 gauge or R3D 5-95 gauge)
template:
  - trigger:
    - platform: time_pattern
      hours: "/5"
  - sensor:
    - name: "Tank remaining level"
      unit_of_measurement: "%"
      unique_id: sensor.tank_remaining_level
      icon: mdi:propane-tank
      state_class: measurement
      state: >
        {% set gauge = states('input_text.tank_gauge') %} # must match the above input_text name
        {% set angle = states('sensor.current_angle') | float %}
        {% set offset = states('input_number.gauge_offset') | float %} # must match the above input_number name
        {% if (gauge == "10-80") %}
          {% set x_min = 110 | float %}
          {% set x_max = 406 | float %}
          {% set delta = 46 | float %}
          {% set low = 10 | float %}
          {% set high = 80 | float %}
        {% else %}
          {% set x_min = 120 | float %}
          {% set x_max = 415 | float %}
          {% set delta = 55 | float %}
          {% set low = 5 | float %}
          {% set high = 95 | float %}
        {% endif %}

        {% if ((delta <= angle) and (70 >= angle)) %}
          {{ (((delta-x_min)/(x_max-x_min)*(high-low))+low+offset) | round(0) }}
        {% elif ((0 <= angle) and (delta > angle)) %}
          {{ (((angle)+360-x_min)/(x_max-x_min)*(high-low)+low+offset) | round(0) }}
        {% else %}
          {{ (((angle)-x_min)/(x_max-x_min)*(high-low)+low+offset) | round(0) }}
        {% endif %}

Automation examples:

  • Sending outside temperature to thermostats:
  • Celsius:
- alias: Send-OutdoorTemp
  trigger:
    - platform: state  # send temperature when there are changes
      entity_id: sensor.local_temp # sensor to get local temperature
  variables:
    thermostats:
      - 50:0b:91:40:00:02:2d:6d  #ieee of your thermostat dvices, one per line
      - 50:0b:91:40:00:02:2a:65
  action:
    - repeat:  #service will be call for each ieee
        count: "{{thermostats|length}}"
        sequence:
          - service: zha.set_zigbee_cluster_attribute
            data:
              ieee: "{{ thermostats[repeat.index-1] }}"
              endpoint_id: 1
              cluster_id: 0xff01 # 65281
              cluster_type: in
              attribute: 0x0010 # 16
              value: "{{ ( trigger.to_state.state|float * 100 ) |int }}" # sending temperature in hundredth of a degree
  mode: single
  • Farenheight:
- alias: Update outside Temperature
  description: ''
  trigger:
    - platform: time_pattern # send temperature evey 45 minutes
      minutes: '45'
  action:
    - service: zha.set_zigbee_cluster_attribute
      data:
        ieee: 50:0b:91:32:01:03:6b:2f
        endpoint_id: 1
        cluster_id: 65281
        cluster_type: in
        attribute: 16
        value: >-
          {{ (((state_attr('weather.home', 'temperature' ) - 32) * 5/9)|float*100)|int }}
  mode: single

You can use either 0xff01 or 65281 in automation. You can send temperature on regular timely basis or when the outside temperature change. Do not pass over 60 minutes or thermostat display will go back to setpoint display. You can change that delay with the outdoor_temp_timeout attribute 0x0011.

  • setting the outside temperature sensor:

You can use any temperature source, local or remote.

  - platform: template
    sensors:
      local_temp:
        friendly_name: "Outside_temperature"
        value_template: "{{ state_attr('weather.dark_sky', 'temperature') }}"
  • Sending time to your thermostats. This should be done once a day to keep the time display accurate.
- alias: set_time
  trigger:
    - platform: time
      at: "01:00:00" ## at 1:00 AM
  variables:
    thermostats:
      - 50:0b:91:40:00:02:26:6d ## add all your IEEE zigbee thermostats, one per line
  action:
    - repeat:
        count: "{{thermostats|length}}"
        sequence:
          - service: zha.set_zigbee_cluster_attribute
            data:
              ieee: "{{ thermostats[repeat.index-1] }}"
              endpoint_id: 1
              cluster_id: 0xff01
              cluster_type: in
              attribute: 0x0020
              value: "{{ (as_timestamp(utcnow()) - as_timestamp('2000-01-01'))| int }}"
  mode: single
  • Setting the little icon Eco to flash on the thermostat during peak. To stop the icon flashing make another automation with value: -128 at the end of peak period.
- id: eco flash
  alias: eco_flash
  trigger:
    - platform: time
      at: 
        - "06:00:00"
        - "16:00:00"
  condition:
    condition: state
    entity_id: binary_sensor.hydroqc_maison_upcoming_critical_peak
    state: 'on'
  variables:
    thermostats:
      - 50:0b:91:40:00:02:26:6d
      - 38:5c:fb:ff:fe:d9:ea:f4
  action:
    - repeat:
        count: "{{thermostats|length}}"
        sequence:
          - service: zha.set_zigbee_cluster_attribute
            data:
              ieee: "{{ thermostats[repeat.index-1] }}"
              endpoint_id: 1
              cluster_id: 0xff01
              cluster_type: in
              attribute: 0x0071
              value: 0
  mode: single

Device hard reset:

  • Thermostats:

    • Raise the temperature until the display change.
    • Push the two button until CLR appear on the screen.
    • Push once the upper button to get YES on the display.
    • Push both button simutanously and release immediately. DONE should appear on the screen.
    • The thermostat will restart with factory setup.

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About

This is a custom quirks for sinope zigbee devices for testing before it is added to zha-device-handlers. It also explain how to setup those quirks in Home Assistant to use and test them before they are merged in zha-device-handlers

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