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NQ-9022 - ZWave |
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This describes the Z-Wave device NQ-9022, manufactured by NorthQ with the thing type UID of northq_nq9022_00_000.
The device is in the category of Sensor, defining Device used to measure something.
The NQ-9022 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.
The basic purpose of the device is to count impulses / flashes from a metering device and to save impulse count in nonvolatile memory with 15 minutes interval.
3 times press on the button to include
3 times press on the button to exclude
The following table summarises the channels available for the NQ-9022 -:
| Channel Name | Channel ID | Channel Type | Category | Item Type |
|---|---|---|---|---|
| Electric meter (kWh) | meter_kwh | meter_kwh | Energy | Number |
| Clock Time Offset | time_offset | time_offset | Time | Number |
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.
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.
The following table provides a summary of the 14 configuration parameters available in the NQ-9022. Detailed information on each parameter can be found in the sections below.
| Param | Name | Description |
|---|---|---|
| 1 | Pulse factor | Impulse or Rotation factor per KWh * 10 |
| 2 | Sensor type | |
| 3 | IR Listen period | Additional time for feedback measurement. Should always be 0. |
| 4 | IR Pulse Width | Adjusts transmit signal |
| 5 | Poll / Wake up frequency | Wake device up this many times per second. |
| 6 | Pulse Threshold Low | Low detection threshold for wheel meters |
| 7 | Pulse Threshold High | High detection threshold for wheel meters |
| 8 | Wakeup Interval | like WAKEUP command class |
| 9 | Pulse count | Total pulse count (Meter reading / impulse factor) |
| 10 | Keep alive period | How many seconds before going back to sleep in normal wakeup mode. |
| 11 | Real-time mode | Set this to enter real-time mode from remote. |
| 12 | Serial number | Read-only serial number in decimal |
| 13 | Debug mode | |
| 15 | Calibration status | The calibration progress is calculated |
Impulse or Rotation factor per KWh * 10
Values in the range 0 to 655350 may be set.
The manufacturer defined default value is 10000.
This parameter has the configuration ID config_1_4 and is of type INTEGER.
The following option values may be configured -:
| Value | Description |
|---|---|
| 1 | Pulse meter |
| 2 | Mechanical meter |
The manufacturer defined default value is 2 (Mechanical meter).
This parameter has the configuration ID config_2_1 and is of type INTEGER.
Additional time for feedback measurement. Should always be 0.
Values in the range 0 to 255 may be set.
The manufacturer defined default value is 0.
This parameter has the configuration ID config_3_1 and is of type INTEGER.
Adjusts transmit signal Adjusts transmit signal so received signal will in average be equal to this values. Values in the range 0 to 255 may be set.
The manufacturer defined default value is 0.
This parameter has the configuration ID config_4_1 and is of type INTEGER.
Wake device up this many times per second. This value also controls number of measurements per second on mechanical meters. Values in the range 1 to 50 may be set.
The manufacturer defined default value is 20.
This parameter has the configuration ID config_5_1 and is of type INTEGER.
Low detection threshold for wheel meters
Values in the range 0 to 143 may be set.
The manufacturer defined default value is 0.
This parameter has the configuration ID config_6_1 and is of type INTEGER.
High detection threshold for wheel meters
Values in the range 0 to 143 may be set.
The manufacturer defined default value is 5.
This parameter has the configuration ID config_7_1 and is of type INTEGER.
like WAKEUP command class
Values in the range 0 to 65535 may be set.
The manufacturer defined default value is 0.
This parameter has the configuration ID config_8_2 and is of type INTEGER.
Total pulse count (Meter reading / impulse factor)
Values in the range 0 to 2147483647 may be set.
The manufacturer defined default value is 0.
This parameter has the configuration ID config_9_4 and is of type INTEGER.
How many seconds before going back to sleep in normal wakeup mode.
Values in the range 0 to 65535 may be set.
The manufacturer defined default value is 3.
This parameter has the configuration ID config_10_2 and is of type INTEGER.
Set this to enter real-time mode from remote. Contains seconds * poll frequency before going back to sleep. If you press the button once this value will be set. Values in the range 0 to 65535 may be set.
The manufacturer defined default value is 0.
This parameter has the configuration ID config_11_2 and is of type INTEGER.
Read-only serial number in decimal
Values in the range 0 to 65535 may be set.
The manufacturer defined default value is 0.
This parameter has the configuration ID config_12_4 and is of type INTEGER.
The following option values may be configured -:
| Value | Description |
|---|---|
| 0 | Off |
| 1 | LED blinks at pulse counting |
The manufacturer defined default value is 1 (LED blinks at pulse counting).
This parameter has the configuration ID config_13_1 and is of type INTEGER.
The calibration progress is calculated The calibration progress is calculated as (value[1] - 65 + value[2] / value[3]) * 25.
The calibration is finished successfully when value[0] = 2 and value[2] = value[3].
The calibration has failed if value[0] != 1 OR (value[0] = 2 AND value[2] != value[ Values in the range 0 to 65535 may be set.
The manufacturer defined default value is 0.
This parameter has the configuration ID config_15_4 and is of type INTEGER.
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 device does not support associations.
| Command Class | Comment |
|---|---|
| COMMAND_CLASS_NO_OPERATION_V1 | |
| COMMAND_CLASS_BASIC_V1 | Linked to BASIC |
| COMMAND_CLASS_METER_V2 | |
| COMMAND_CLASS_METER_TBL_MONITOR_V1 | |
| COMMAND_CLASS_CRC_16_ENCAP_V1 | |
| COMMAND_CLASS_CONFIGURATION_V1 | |
| COMMAND_CLASS_MANUFACTURER_SPECIFIC_V1 | |
| COMMAND_CLASS_FIRMWARE_UPDATE_MD_V1 | |
| COMMAND_CLASS_VERSION_V1 | |
| COMMAND_CLASS_TIME_PARAMETERS_V1 |
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