openhab-docs/_addons_bindings/zwave/doc/fibaro/fgms001_0_0.md

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FGMS001 Motion Sensor

This describes the Z-Wave device FGMS001, manufactured by Fibargroup with the thing type UID of fibaro_fgms001_00_000. This version of the device is limited to firmware versions below 2.8

The device is in the category of Motion Detector, defining Motion sensors/detectors.

The FGMS001 supports routing. This allows the device to communicate using other routing enabled devices as intermediate routers. This device is unable to participate in the routing of data from other devices.

The FGMS001 does not permanently listen for messages sent from the controller - it will periodically wake up automatically to check if the controller has messages to send, but will sleep most of the time to conserve battery life. Refer to the Wakeup Information section below for further information.

Overview

The Fibaro Motion Sensor is a universal Z-Wave multi-sensor. Along with detecting motion the device measures the temperature and light
intensity.

The sensor has a built-in accelerometer to detect any tampering of the device. The Fibaro Motion Sensor is battery powered device and designed to be installed quckly and easily on any surface.

Inclusion Information

1. Insert the battery into the Fibaro Motion Sensor. Enclosure lock is marked with a dot. Make sure the device is located within the direct range of the main controller.
2. Set the main controller into the learning mode (see main controller’s operating manual).
3. Quickly, triple click the B-button - LED diode will glow blue.
4. Fibaro Motion Sensor will be detected and included in the Z-Wave network.
5. Wait for the main controller to configure the sensor.
6. If necessary, wake up the Motion Sensor by triple clicking the B-button.
7. LED diode will glow blue to confirm the sensor woke up, and then wait for the main controller to configure the sensor

Exclusion Information

1. Set the main controller into the exclusion mode (see main controller’s operating manual).
2. Quickly, triple click the B-button - LED diode will glow blue.
3. Fibaro Motion Sensor will be excluded from the Z-Wave network.

Wakeup Information

The FGMS001 does not permanently listen for messages sent from the controller - it will periodically wake up automatically to check if the controller has messages to send, but will sleep most of the time to conserve battery life. The wakeup period can be configured in the user interface - it is advisable not to make this too short as it will impact battery life - a reasonable compromise is 1 hour.

The wakeup period does not impact the devices ability to report events or sensor data. The device can be manually woken with a button press on the device as described below - note that triggering a device to send an event is not the same as a wakeup notification, and this will not allow the controller to communicate with the device.

Quickly, triple click the B-button - LED diode will glow blue.

Channels

The following table summarises the channels available for the FGMS001 -:

Channel Name	Channel ID	Channel Type	Category	Item Type
Motion Alarm	alarm_motion	alarm_motion	Motion	Switch
Sensor (temperature)	sensor_temperature	sensor_temperature	Temperature	Number:Temperature
Sensor (luminance)	sensor_luminance	sensor_luminance		Number
Battery Level	battery-level	system.battery_level	Battery	Number
Tamper Alarm	alarm_tamper	alarm_tamper		Switch

Motion Alarm

Indicates if a motion alarm is triggered.

The alarm_motion channel is of type alarm_motion and supports the Switch item and is in the Motion category. This is a read only channel so will only be updated following state changes from the device.

The following state translation is provided for this channel to the Switch item type -:

Value	Label
OFF	OK
ON	Alarm

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.

Battery Level

Represents the battery level as a percentage (0-100%). Bindings for things supporting battery level in a different format (e.g. 4 levels) should convert to a percentage to provide a consistent battery level reading.

The system.battery-level channel is of type system.battery-level and supports the Number item and is in the Battery category. This channel provides the battery level as a percentage and also reflects the low battery warning state. If the battery state is in low battery warning state, this will read 0%.

Tamper Alarm

Indicates if the tamper alarm is triggered.

The alarm_tamper channel is of type alarm_tamper and supports the Switch item. This is a read only channel so will only be updated following state changes from the device.

The following state translation is provided for this channel to the Switch item type -:

Value	Label
OFF	OK
ON	Alarm

Device Configuration

The following table provides a summary of the 27 configuration parameters available in the FGMS001. Detailed information on each parameter can be found in the sections below.

Param	Name	Description
1	Motion Sensor's Sensitivity	The lower the value, the more sensitive the PIR sensor.
2	Motion Sensor's Blind Time (Insensitive)	Period of time through which the PIR sensor is “blind”.
3	PIR Sensor’s “PULSE COUNTER”	Sets the number of moves required for the PIR sensor to report motion.
4	PIR Sensor’s “WINDOW TIME”	The higher the value, the more sensitive the PIR sensor.
6	Motion Alarm Cancellation Delay	Period of time after wich Motion alarm will be cancelled.
8	PIR Sensor Operating Mode	The parameter determines the part of day in which the PIR sensor will be active.
9	Night / Day	The parameter defines the difference between night and day.
12	BASIC command class configuration	Determines the command frames sent in 1-st association group.
14	BASIC ON command frame value	The value of 255 allows to turn ON a device.
16	BASIC OFF command frame value	The value of 0 allows to turn OFF a device.
20	Tamper Sensitivity	The parameter determines the changes in forces.
22	Tamper - alarm cancellation delay	Time period after which a tamper alarm will be cancelled.
24	Tamper Operating Modes	The parameter determines the behaviour of tamper and how it reports.
26	Tamper Alarm Broadcast Mode	Alarm frame will or will not be sent in broadcast mode.
40	Illumination Report Threshold	Change in level of light intensity resulting in illumination report.
42	Illumination Reports Interval	Time interval between consecutive illumination reports.
60	Temperature Report Threshold	Change in level of temperature resulting in temperature report.
62	Interval of Temperature Measuring	The parameter determines how often the temperature will be measured.
64	Temperature Reports Interval	How often temperature reports will be sent to the main controller.
66	Temperature Offset	The value to be added to the actual measured temperature.
80	LED Signalling Mode	Way in which LED diode behaves after motion has been detected.
81	LED Brightness	The parameter determines the brightness of LED when indicating motion.
82	Lower Ambient Illumination Level	Below which LED brightness is set to 1%
83	Upper Ambient Illumination Level	Above which LED brightness is set to 100%
86	Min Temperature Resulting in Blue LED Illumination	This parameter is relevant only when parameter 80 has been properly configured.
87	Max Temperature Resulting in Red LED Illumination	This parameter is relevant only when parameter 80 has been properly configured.
89	LED indicating Tamper Alarm	Indicating mode resembles a police car (white, red and blue).
	Wakeup Interval	Sets the interval at which the device will accept commands from the controller
	Wakeup Node	Sets the node ID of the device to receive the wakeup notifications

Parameter 1: Motion Sensor's Sensitivity

The lower the value, the more sensitive the PIR sensor. The lower the value, the more sensitive the PIR sensor. Available settings: 8 - 255. Values in the range 8 to 255 may be set.

The manufacturer defined default value is 10.

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

Parameter 2: Motion Sensor's Blind Time (Insensitive)

Period of time through which the PIR sensor is “blind”. Period of time through which the PIR sensor is “blind” (insensitive) to motion. After this time period the PIR sensor will be again able to detect motion. The longer the insensitivity period, the longer the battery life. If the sensor is required to detect motion quickly, the time period may be shortened. The time of insensitivity should be shorter that the time period set in parameter 6.
Available settings: 0 - 15
Formula to calculate the time: time [s] = 0.5 x (value + 1)
Default setting: 15 (8 seconds)
Parameter size: 1 [byte] Values in the range 0 to 15 may be set.

The manufacturer defined default value is 15.

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

Parameter 3: PIR Sensor’s “PULSE COUNTER”

Sets the number of moves required for the PIR sensor to report motion. Sets the number of moves required for the PIR sensor to report motion. The lower the value, the less sensitive the PIR sensor. It’s not recommended to modify this parameter settings.
Available settings: 0 - 3
Formula to calculate the number of pulses: pulses = (value + 1) Default setting: 1 (2 pulses)
Parameter size: 1 [byte] Values in the range 0 to 3 may be set.

The manufacturer defined default value is 1.

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

Parameter 4: PIR Sensor’s “WINDOW TIME”

The higher the value, the more sensitive the PIR sensor. Period of time during which the number of moves set in parameter 3 must be detected in order for the PIR sensor to report motion. The higher the value, the more sensitive the PIR sensor. It’s not recommended to modify this parameter setting.
Available settings: 0 - 3
Formula to calculate the time: time [s] = 4 x (value + 1)
Default setting: 2 (12 seconds)
Parameter size: 1 [byte] Values in the range 0 to 3 may be set.

The manufacturer defined default value is 2.

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

Parameter 6: Motion Alarm Cancellation Delay

Period of time after wich Motion alarm will be cancelled. Motion alarm will be cancelled in the main controller and the associated devices after the period of time set in this parameter. Any motion detected during the cancellation delay time countdown will result in the countdown being restarted. In case of small values, below 10 seconds, the value of parameter 2 must be modified (PIR sensor’s “Blind Time”).
Available settings: 1 - 65535
Default setting: 30 (30 seconds)
Parameter size: 2 [bytes] Values in the range 1 to 65535 may be set.

The manufacturer defined default value is 30.

This parameter has the configuration ID config_6_2 and is of type INTEGER.

Parameter 8: PIR Sensor Operating Mode

The parameter determines the part of day in which the PIR sensor will be active. The parameter determines the part of day in which the PIR sensor will be active. This parameter influences only the motion reports and associations. Tamper, light intensity and temperature measurements will be still active, regardless of this parameter settings. 0 - PIR sensor always active 1 - PIR sensor active during the day only 2 - PIR sensor active during the night only. Default setting: 0 Parameter size: 1 [byte]  The following option values may be configured -:

Value	Description
0	PIR sensor always active
1	PIR sensor active during the day only
2	PIR sensor active during the night only

The manufacturer defined default value is 0 (PIR sensor always active).

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

Parameter 9: Night / Day

The parameter defines the difference between night and day. The parameter defines the difference between night and day, in terms of light intensity, used in parameter 8. Available settings: 1 - 65535 Default setting: 200 (200 lux) Parameter size: 2 [bytes] Values in the range 1 to 65535 may be set.

The manufacturer defined default value is 200.

This parameter has the configuration ID config_9_2 and is of type INTEGER.

Parameter 12: BASIC command class configuration

Determines the command frames sent in 1-st association group. The parameter determines the command frames sent in 1-st association group, assigned to PIR sensor.
0 - BASIC ON and BASIC OFF command frames sent in Basic Command Class.
1 - only the BASIC ON command frame sent in Basic Command Class.
2 - only the BASIC OFF command frame sent in Basic CommandClass.
Values of BASIC ON and BASIC OFF command frames may be modified by dedicated parameters.
Default setting: 0 Parameter size: 1 [byte]  The following option values may be configured -:

Value	Description
0	BASIC ON and BASIC OFF
1	Only the BASIC ON
2	Only the BASIC OFF

The manufacturer defined default value is 0 (BASIC ON and BASIC OFF).

This parameter has the configuration ID config_12_1 and is of type INTEGER.

Parameter 14: BASIC ON command frame value

The value of 255 allows to turn ON a device. The value of 255 allows to turn ON a device. In case of the Dimmer, the value of 255 means turning ON at the last memorized state, e.g. the Dimmer turned ON at 30% and turned OFF using the value of 255, and then turned OFF, will be turned ON at 30%, i.e. the last memorized state.
Available settings: 0 - 255
Default setting: 255
Parameter size: 1 [byte] Values in the range 0 to 255 may be set.

The manufacturer defined default value is 255.

This parameter has the configuration ID config_14_1 and is of type INTEGER.

Parameter 16: BASIC OFF command frame value

The value of 0 allows to turn OFF a device. The command frame sent at the moment of motion alarm cancellation, after the cancellation delay time, specified in parameter 6, has passed. The value of 0 allows to turn a device OFF while the value of 255 allows to turn ON a device. In case of the Dimmer, the value of 255 means turning ON at the last memorized state, e.g. the Dimmer turned ON at 30% and turned OFF using the value of 255, and then turned OFF, will be turned ON at 30%, i.e. the last memorized state.
Available settings: 0 - 255
Default setting: 0
Parameter size: 1 [byte] Values in the range 0 to 255 may be set.

The manufacturer defined default value is 0.

This parameter has the configuration ID config_16_1 and is of type INTEGER.

Parameter 20: Tamper Sensitivity

The parameter determines the changes in forces. The parameter determines the chages in forces acting on the Fibaro Motion Sensor resulting in tamper alarm being reported - g-force acceleration.
Available settigs: 0 - 122 (0.08 - 2g; multiply by 0.016g; 0 = tamper inactive)
Default setting: 15 (0.224g)
Parameter size: 1 [byte]  Values in the range 0 to 122 may be set.

The manufacturer defined default value is 15.

This parameter has the configuration ID config_20_1 and is of type INTEGER.

Parameter 22: Tamper - alarm cancellation delay

Time period after which a tamper alarm will be cancelled. Time period after which a tamper alarm will be cancelled. Another tampering detected durig the countdown to cancellation will not extend the delay.
Available settings: 1 - 65535
Default setting: 30 (seconds)
Parameter size: 2 [bytes]  Values in the range 0 to 65535 may be set.

The manufacturer defined default value is 30.

This parameter has the configuration ID config_22_2 and is of type INTEGER.

Parameter 24: Tamper Operating Modes

The parameter determines the behaviour of tamper and how it reports. The parameter determines the behaviour of tamper and how it reports. 

1. Tamper alarm is reported in Sensor Alarm command class / Cancellation is not reported.
2. Tamper alarm is reported in Sensor Alarm command class / Cancellation is reported in Sensor Alarm commad class after the time period set in parameter 22 (Tamper Alarm Cancellation Delay) 2 - Tamper alarm is reported in Sensor Alarm command class / Cancellation is not reported. Sensor’s orientation in space is reported in Fibar Commad Class after the time period set in paramer 22.
3. Tamper alarm is reported in Sensor Alarm command class / Cancellation is reported in Sensor Alarm commad class after the time period set in parameter 22. Sensor’s orientation in space is reported in Fibar Commad Class after the time period set in paramer 22.  
4. The maximum level of vibrations recorded in the time period set in parameter 22 is reported. Reports stop being sent when the vibrations cease. The reports are sent in Sensor Alarm command class. Value displayed in the “value” field (0 - 100) depends on the vibrations force. Reports to the association groups are sent using Sensor Alarm command class.  
   Available settings: 0 or 255 Default setting: 0 Parameter size: 1 [byte]  The following option values may be configured -:

Value	Description
0	Tamper Report/No Cancellation Report
1	Tamper and Cancellation Report
2	Tamper/No cancellation plus Orientation in space
3	Tamper/Cancellation plus Orientation in space
4	Max level of vibrations recorded (Earthquake)

The manufacturer defined default value is 0 (Tamper Report/No Cancellation Report).

This parameter has the configuration ID config_24_1 and is of type INTEGER.

Parameter 26: Tamper Alarm Broadcast Mode

Alarm frame will or will not be sent in broadcast mode. The parameter determines whether the tamper alarm frame will or will not be sent in broadcast mode. Alarm frames sent in broadcast mode may be received by all of the devices within communication range (if they accept such frames).

0 - Tamper alarm is not sent in broadcast mode.

1 - Tamper alarm sent in broadcast mode.

Default setting: 0
Parameter size: 1 [byte]  The following option values may be configured -:

Value	Description
0	Tamper alarm is not sent in broadcast mode.
1	Tamper alarm sent in broadcast mode.

The manufacturer defined default value is 0 (Tamper alarm is not sent in broadcast mode.).

This parameter has the configuration ID config_26_1 and is of type INTEGER.

Parameter 40: Illumination Report Threshold

Change in level of light intensity resulting in illumination report. The parameter determines the change in light intensity level resulting in illumination report being sent to the main controller.

Available settings: 0 - 65535 (1 - 65535 lux; 0 = reports are not sent)

Default setting: 200 (200 lux) Parameter size: 2 [byte]  Values in the range 0 to 65535 may be set.

The manufacturer defined default value is 200.

This parameter has the configuration ID config_40_2 and is of type INTEGER.

Parameter 42: Illumination Reports Interval

Time interval between consecutive illumination reports. Time interval between consecutive illumination reports. The reports are sent even if there are no changes in the light intensity.

Available settings: 0 - 65535 (1 - 65535 seconds; 0 = reports are not sent)

Default setting: 0 (no reports) Parameter size: 2 [bytes]  Values in the range 0 to 65535 may be set.

The manufacturer defined default value is 0.

This parameter has the configuration ID config_42_2 and is of type INTEGER.

Parameter 60: Temperature Report Threshold

Change in level of temperature resulting in temperature report. The parameter determines the change in level of temperature resulting in temperature report being sent to the main controller.
Available settings: 0 - 255 (0.1 - 25.5oC; 0 = reports are not sent)
Default setting: 10 (1oC) Parameter size: 1 [byte] Values in the range 0 to 255 may be set.

The manufacturer defined default value is 10.

This parameter has the configuration ID config_60_1 and is of type INTEGER.

Parameter 62: Interval of Temperature Measuring

The parameter determines how often the temperature will be measured. The parameter determines how often the temperature will be measured. The shorter the time, the more frequently the temperature will be measured, but the battery life will shorten.
Available settings: 0 - 65535 (1 - 65535 seconds; 0 = temperature will not be measured)
Default setting: 900 (900 seconds)
Parameter size: 2 [bytes] Values in the range 0 to 65535 may be set.

The manufacturer defined default value is 900.

This parameter has the configuration ID config_62_2 and is of type INTEGER.

Parameter 64: Temperature Reports Interval

How often temperature reports will be sent to the main controller. The parameter determines how often the temperature reports will be sent to the main controller.
Available settings: 0 - 65535 (1 - 65535 seconds; 0 = reports are not sent)
Default setting: 0 Parameter size: 2 [byte]  Values in the range 0 to 65535 may be set.

The manufacturer defined default value is 0.

This parameter has the configuration ID config_64_2 and is of type INTEGER.

Parameter 66: Temperature Offset

The value to be added to the actual measured temperature. The value to be added to the actual temperature, measured by the sensor (temperature compensation).
Available settings: 0 - 100 (0 to 100oC) or 64536 - 65535 (-100 to -0.10oC)
Default setting: 0 Parameter size: 2 [bytes] Values in the range 0 to 65535 may be set.

The manufacturer defined default value is 0.

This parameter has the configuration ID config_66_2 and is of type INTEGER.

Parameter 80: LED Signalling Mode

Way in which LED diode behaves after motion has been detected. The parameter determines the way in which LED diode behaves after motion has been detected.
Values from 1 to 9 = single long blink at the moment of reporting motion. No other motion will be indicated until alarm is cancelled.
Values from 10 to 18 = single long blink at the moment of reporting motion and one short blink each time the motion is detected again.
Values from 19 to 26 = single long blink at the moment of reporting motion and two short blinks each time the motion is detected again. The following option values may be configured -:

Value	Description
0	LED inactive.
1	LED colour depends on the temperature.
2	Flashlight mode - LED glows white 10 seconds
3	White.
4	Red.
5	Green.
6	Blue.
7	Yellow.
8	Cyan.
9	Magenta.
10	LED colour depends on the temperature
11	Flashlight mode
12	White
13	Red
14	Green
15	Blue
16	Yellow
17	Cyan
18	Magenta
19	LED colour depends on the temperature
20	White
21	Red
22	Green
23	Blue
24	Yellow
25	Cyan
26	Magenta

The manufacturer defined default value is 10 (LED colour depends on the temperature).

This parameter has the configuration ID config_80_1 and is of type INTEGER.

Parameter 81: LED Brightness

The parameter determines the brightness of LED when indicating motion. The parameter determines the brightness of LED when indicating motion.
Available settings: 0 - 100 (1 - 100%; 0 = brightness determined by the ambient lighting - see parameters 82 and 83)
Default setting: 50 Parameter size: 1 [byte] Values in the range 0 to 100 may be set.

The manufacturer defined default value is 50.

This parameter has the configuration ID config_81_1 and is of type INTEGER.

Parameter 82: Lower Ambient Illumination Level

Below which LED brightness is set to 1% The parameter is relevant only when the parameter 81 is set to 0.

Available settings: 0 to parameter 83 value
Default setting: 100 (100 lux)
Parameter size: 2 [bytes] Values in the range 0 to 65535 may be set.

The manufacturer defined default value is 100.

This parameter has the configuration ID config_82_2 and is of type INTEGER.

Parameter 83: Upper Ambient Illumination Level

Above which LED brightness is set to 100% The parameter is relevant only when the parameter 81 is set to 0.

Available settings: parameter 82 value to 65535
Default setting: 1 000 (1 000 lux)
Parameter size: 2 [bytes] Values in the range 0 to 65535 may be set.

The manufacturer defined default value is 1000.

This parameter has the configuration ID config_83_2 and is of type INTEGER.

Parameter 86: Min Temperature Resulting in Blue LED Illumination

This parameter is relevant only when parameter 80 has been properly configured. This parameter is relevant only when parameter 80 has been properly configured.
Available settings: 0 to parameter 87 value (degrees celsius)
Default setting: 18 (18oC)
Parameter size: 1 [byte] Values in the range 0 to 100 may be set.

The manufacturer defined default value is 18.

This parameter has the configuration ID config_86_1 and is of type INTEGER.

Parameter 87: Max Temperature Resulting in Red LED Illumination

This parameter is relevant only when parameter 80 has been properly configured. This parameter is relevant only when parameter 80 has been properly configured.
Available settings: parameter 86 value to 255 (degrees celsius)
Default setting: 28 (28oC)
Parameter size: 1 [byte] Values in the range 0 to 100 may be set.

The manufacturer defined default value is 28.

This parameter has the configuration ID config_87_1 and is of type INTEGER.

Parameter 89: LED indicating Tamper Alarm

Indicating mode resembles a police car (white, red and blue). Indicating mode resembles a police car (white, red and blue).

0 - LED does not indicate tamper alarm.

1 - LED indicates tamper alarm.

Default setting: 1 Parameter size: 1 [byte] The following option values may be configured -:

Value	Description
0	LED does not indicate tamper alarm.
1	LED indicates tamper alarm.

The manufacturer defined default value is 0 (LED does not indicate tamper alarm.).

This parameter has the configuration ID config_89_1 and is of type INTEGER.

Wakeup Interval

The wakeup interval sets the period at which the device will listen for messages from the controller. This is required for battery devices that sleep most of the time in order to conserve battery life. The device will wake up at this interval and send a message to the controller to tell it that it can accept messages - after a few seconds, it will go back to sleep if there is no further communications.

This setting is defined in seconds. It is advisable not to set this interval too short or it could impact battery life. A period of 1 hour (3600 seconds) is suitable in most instances.

Note that this setting does not affect the devices ability to send sensor data, or notification events.

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

Wakeup Node

When sleeping devices wake up, they send a notification to a listening device. Normally, this device is the network controller, and normally the controller will set this automatically to its own address. In the event that the network contains multiple controllers, it may be necessary to configure this to a node that is not the main controller. This is an advanced setting and should not be changed without a full understanding of the impact.

This parameter has the configuration ID wakeup_node 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 FGMS001 supports 3 association groups.

Group 1: Device Status

Association group 1 supports 16 nodes.

Group 2: Tamper Alarm

Association group 2 supports 16 nodes.

Group 3: Controller Updates

Association group 3 supports 1 node.

Technical Information

Endpoints

Endpoint 0

Command Class	Comment
COMMAND_CLASS_NO_OPERATION_V1
COMMAND_CLASS_BASIC_V1
COMMAND_CLASS_SENSOR_BINARY_V1
COMMAND_CLASS_SENSOR_MULTILEVEL_V5
COMMAND_CLASS_CRC_16_ENCAP_V1
COMMAND_CLASS_CONFIGURATION_V1
COMMAND_CLASS_MANUFACTURER_SPECIFIC_V1
COMMAND_CLASS_BATTERY_V1
COMMAND_CLASS_WAKE_UP_V1
COMMAND_CLASS_ASSOCIATION_V1
COMMAND_CLASS_VERSION_V1
COMMAND_CLASS_MULTI_CHANNEL_ASSOCIATION_V1
COMMAND_CLASS_MULTI_CMD_V1
COMMAND_CLASS_SENSOR_ALARM_V1	Linked to BASIC

Documentation Links

• User Manual

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