---
layout: documentation
title: PST02C - ZWave
---

{% include base.html %}

# PST02C Slim Multi-Sensor (Door/Temperature/Illumination)
This describes the Z-Wave device *PST02C*, manufactured by *[Philio Technology Corp](http://www.philio-tech.com/)* with the thing type UID of ```philio_pst02c_00_000```.

The device is in the category of *Door*, defining Door sensors.

![PST02C product image](https://www.cd-jackson.com/zwave_device_uploads/170/170_default.jpg)


The PST02C 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 PST02C 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 slim multisensor PST02 has PIR, door/window, temperature and illumination, 4 sensors function in one, based on Z-WaveTM technology. It is the Z-WaveTM plus product, it support the security, OTA... Those newest features of the Z-WaveTM technology. Z-WaveTM is a wireless communication protocol designed for home automation, specifically to remotely control applications in residential and light commercial environments. The technology uses a low-power RF radio embedded or retrofitted into home electronics devices and systems, such as lighting, home access control, entertainment systems and household appliances.

This product can be included and operated in any Z-WaveTM network with other Z-WaveTM certified devices from other manufacturers and/or other applications. All non-battery operated nodes within the network will act as repeaters regardless of vendor to increase reliability of the network.

The device adopt the Z-WaveTM 500 series chip, when your Z-WaveTM network system is all made by Z-WaveTM 500 series devices. The network system will have the advantages as below.

### Inclusion Information

There are two tamper keys in the device, one is in the back side, another is in the front side. Both of them can add, remove, reset or association from Z-WaveTM network.

In the first time, add the device into the Z-WaveTM network. First, make sure the primary controller is in the add mode. And then power on the device, just take out the insulation Mylar in the back side of the device. The device will auto start the NWI (Network Wide Inclusion) mode. And it should be included in 5 seconds. You will see the LED light ON one second.

  1. Have Z-WaveTM Controller entered inclusion mode.
  2. Pressing tamper key three times within 1.5 seconds to enter the inclusion mode.
  3. After add successful, the device will wake to receive the setting command from Z-WaveTM Controller about 20 seconds.

### Exclusion Information

There are two tamper keys in the device, one is in the back side, another is in the front side. Both of them can add, remove, reset or association from Z-WaveTM network.

In the first time, add the device into the Z-WaveTM network. First, make sure the primary controller is in the add mode. And then power on the device, just take out the insulation Mylar in the back side of the device. The device will auto start the NWI (Network Wide Inclusion) mode. And it should be included in 5 seconds. You will see the LED light ON one second.

  1. Have Z-WaveTM Controller entered exclusion mode.
  2. Pressing tamper key three times within 1.5 seconds to enter the exclusion mode. Node ID has been excluded.

### Wakeup Information

The PST02C 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.


After the device adding to the network, it will wake-up once per day in default. When it wake-up it will broadcast the “Wake Up Notification” message to the network, and wake-up 10 seconds for receive the setting commands.

The wake-up interval minimum setting is 30 minutes, and maximum setting is 120 hours. And the interval step is 30 minutes.

If the user want to wake-up the device immediately, please remove the front cover, and press the tamper key once. The device will wake-up 10 seconds.

## Channels

The following table summarises the channels available for the PST02C -:

| Channel | Channel Id | Category | Item Type |
|---------|------------|----------|-----------|
| Binary Sensor (door) | sensor_binary | Door | Switch | 
| Sensor (temperature) | sensor_temperature | Temperature | Number:Temperature | 
| Sensor (luminance) | sensor_luminance |  | Number | 
| Door sensor | sensor_door | Door | Contact | 
| Battery Level | battery-level | Battery | Number |

### Binary Sensor (door)

Indicates if a sensor has triggered.

The ```sensor_binary``` channel supports the ```Switch``` item and is in the ```Door``` 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     |
|-------|-----------|
| ON | Triggered |
| OFF | Untriggered |

### Sensor (temperature)

Indicates the current temperature.

The ```sensor_temperature``` channel supports the ```Number:Temperature``` item and is in the ```Temperature``` category.

### Sensor (luminance)

Indicates the current light reading.

The ```sensor_luminance``` channel supports the ```Number``` item. This is a read only channel so will only be updated following state changes from the device.

### Door sensor

Indicates if the door/window is open or closed.

The ```sensor_door``` channel supports the ```Contact``` item and is in the ```Door``` 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 ```Contact``` item type -:

| Value | Label     |
|-------|-----------|
| OPEN | Open |
| CLOSED | Closed |

### 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 ```battery-level``` channel supports the ```Number``` item and is in the ```Battery``` category.



## Device Configuration

The following table provides a summary of the 14 configuration parameters available in the PST02C.
Detailed information on each parameter can be found in the sections below.

| Param | Name  | Description |
|-------|-------|-------------|
| 2 | Basic Set Level | Setting the BASIC command value to turn on the light. |
| 4 | Light Threshold | Setting the illumination threshold to turn on the light. |
| 5 | Operation Mode | Parameter to set the Operation Mode. |
| 6 | Multi-Sensor Function Switch | Parameter to set the sensor functions. |
| 7 | Customer Function | Parameter to set the Customer Function. |
| 8 | PIR Re-Detect Interval Time |  |
| 9 | Turn Off Light Time |  |
| 10 | Auto Report Battery Time |  |
| 11 | Auto Report Door/Window State Time |  |
| 12 | Auto Report Illumination Time | The Interval time for auto reporting the illumination state. |
| 13 | Auto Report Temperature Time | The interval time for auto reporting the temperature state. |
| 20 | Auto Report Tick Interval | The interval time for each auto report tick. |
| 21 | Temperature Differential Report | The temperature differential to report. |
| 22 | Illumination Differential Report | The illumination differential to report. |
|  | 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 2: Basic Set Level

Setting the BASIC command value to turn on the light.
Setting the BASIC command value to turn on the light.

  * -1 = 0xFF(-1) turns on the light. (Default)
  * 0 = Turn off the light.
  * 1 - 100 = For dimmers 1 to 100 means the light strength.
Values in the range -1 to 100 may be set.

The manufacturer defined default value is ```-1```.

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


### Parameter 4: Light Threshold

Setting the illumination threshold to turn on the light.
Setting the illumination threshold to turn on the light. When the event triggers and the environment illumination is lower than the threshold, the device will turn on the light.

  * 0 = Turn off illumination detected function and never turn 
Values in the range 0 to 100 may be set.

The manufacturer defined default value is ```100```.

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


### Parameter 5: Operation Mode

Parameter to set the Operation Mode.
Parameter to set the Operation Mode.

  * Bit 0: Reserved.
  * Bit 1: 1 means enable test mode; 0 means normal mode. Notice: Ignored if DIP Switch is not set to Customer Mode. Otherwise it decides by DIP switch setting to Test or Normal mode
  * Bit 2: Disable the door/window function. (1: Disable, 0: Enable)
  * Bit 3: Setting the temperature scale (0: Fahrenheit, 1: Celcius)
  * Bit 4: Disable the illumination report after event triggered (1: Disable, 0: Enable)
  * Bit 5: Disable the temperature report after event triggered (1: Disable, 0: Enable)
  * Bit 6: Reserved
  * Bit 7: Disable the back key release into test mode (1: Disable, 0: Enable)
Values in the range 0 to 127 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: Multi-Sensor Function Switch

Parameter to set the sensor functions.
Parameter to set the sensor functions.

  * Bit 0: Disable magnetic integrate illumination to turn ON the lighting nodes in the association group 2. (1:Disable, 0:Enable)
  * Bit 1: Disable PIR integrate Illumination to turn ON the lighting nodes in the association group 2. (1:Disable, 0:Enable)
  * Bit 2: Disable magnetic integrate PIR to turn ON the lighting nodes in the association group 2. (1:Disable, 0:Enable) (Default is Disable)
  * Bit 3: When Bit2 is 0 (Enable), Are the device and the lighting in the same room?

0: In the same room(Default),  
1: In the different room.  
Notice: If this bit is 1, it is recommended also set the Bit1 to 1, cause the PIR triggered, doesn't mean the people in that room.

  * Bit 4: Disable delay 5 seconds to turn off the light, when door/window closed. (1:Disable, 0:Enable)
  * Bit 5: Disable auto turn off the light, after door/window opened to turn on the light. (1:Disable, 0:Enable)

Notice: If bit2 is zero, this setting is useless  
Notice: If the configuration No.9 is zero, this setting is useless.

  * Bit 6: Reserve.
  * Bit 7: Reserve.
Values in the range 0 to 127 may be set.

The manufacturer defined default value is ```4```.

This parameter has the configuration ID ```config_6_1``` and is of type ```INTEGER```.


### Parameter 7: Customer Function

Parameter to set the Customer Function.
Parameter to set the Customer Function.

  * Bit 0: Reserve.
  * Bit 1: Enable sending motion OFF report. (0:Disable, 1:Enable)  
    Note: Depends on the Bit4,  
    Report Notification CC, Type: 0x07, Event: 0xFE 1: Sensor Binary Report, Type: 0x0C, Value: 0x00
  * Bit 2: Enable PIR super sensitivity mode. (0:Disable, 1:Enable)
  * Bit 3: Disable send out BASIC OFF after door closed. (1:Disable, 0:Enable)
  * Bit 4: Notification Type,  
    Using Notification Report. 1: Using Sensor Binary Report.
  * Bit 5: Disable Multi CC in auto report. (1:Disable, 0:Enable)
  * Bit 6: Disable to report battery state when the device triggered. (1:Disable, 0:Enable)
  * Bit 7: Reserve.
Values in the range 0 to 127 may be set.

The manufacturer defined default value is ```4```.

This parameter has the configuration ID ```config_7_1``` and is of type ```INTEGER```.


### Parameter 8: PIR Re-Detect Interval Time


In the normal mode, after the PIR motion detected, setting the re-detect time. 8 seconds per tick, default is 3 (24 seconds).

  * 1 - 127 = Number of ticks. 8 seconds per tick, default value is 3 (24 seconds).
Values in the range 1 to 127 may be set.

The manufacturer defined default value is ```3```.

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


### Parameter 9: Turn Off Light Time


After turn on the light, setting the delay time to turn off the light when the PIR motion is not detected.

  * 0 = Never send turn off light command.
  * 1 - 127 = Number of ticks. 8 seconds per tick, default value is 4 (32 seconds
Values in the range 0 to 127 may be set.

The manufacturer defined default value is ```4```.

This parameter has the configuration ID ```config_9_1``` and is of type ```INTEGER```.


### Parameter 10: Auto Report Battery Time


The interval time for auto reporting the battery level.

  * 0 = Turn off auto report battery.
  * 1-127 = Number of ticks. The default value is 12. The tick time can be set by configuration No. 20.
Values in the range 0 to 127 may be set.

The manufacturer defined default value is ```12```.

This parameter has the configuration ID ```config_10_1``` and is of type ```INTEGER```.


### Parameter 11: Auto Report Door/Window State Time


The interval time for auto reporting the door/window state.

  * 0 = Turn off auto report door/window state.
  * 1-127 = Number of ticks. The default value is 12. The tick time can be set by configuration No. 20.
Values in the range 0 to 127 may be set.

The manufacturer defined default value is ```12```.

This parameter has the configuration ID ```config_11_1``` and is of type ```INTEGER```.


### Parameter 12: Auto Report Illumination Time

The Interval time for auto reporting the illumination state.
The Interval time for auto reporting the illumination state.

  * 0 = Turn off auto report illumination.
  * 1-127 = Number of ticks. The default value is 12. The tick time can be set by configuration No. 20.
Values in the range 1 to 127 may be set.

The manufacturer defined default value is ```12```.

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


### Parameter 13: Auto Report Temperature Time

The interval time for auto reporting the temperature state.
The interval time for auto reporting the temperature state.

  * 0 = Turn off auto report temperature.
  * 1-127 = Number of ticks. The default value is 12. The tick time can be set by configuration No. 20.
Values in the range 1 to 127 may be set.

The manufacturer defined default value is ```12```.

This parameter has the configuration ID ```config_13_1``` and is of type ```INTEGER```.


### Parameter 20: Auto Report Tick Interval

The interval time for each auto report tick.
The interval time for each auto report tick. Setting this configuration will effect configuration No.10, No.11, No.12 and No.13.

  * 0 = Turn off all auto report functions.
  * 1-255 = Interval time for each tick. Default is 30.
Values in the range 0 to 255 may be set.

The manufacturer defined default value is ```30```.

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


### Parameter 21: Temperature Differential Report

The temperature differential to report.
The temperature differential to report. 0 means turn off this function. The unit is Fahrenheit. Enable this function the device will detect every minutes. And when the temperature is over 140 degree Fahrenheit, it will continue report. Enable this functionality will cause some issue please see the detail in the “Temperature Report” section.
Values in the range 0 to 127 may be set.

The manufacturer defined default value is ```1```.

This parameter has the configuration ID ```config_21_1``` and is of type ```INTEGER```.


### Parameter 22: Illumination Differential Report

The illumination differential to report.
The illumination differential to report. 0 means turn off this function. The unit is percentage. Enable this function the device will detect every minutes. Enable this functionality will cause some issue please see the detail in the “Illumination Report” section.
Values in the range 0 to 99 may be set.

The manufacturer defined default value is ```1```.

This parameter has the configuration ID ```config_22_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 PST02C supports 2 association groups.

### Group 1: Reports


Association group 1 supports 8 nodes.

### Group 2: Light Control


Association group 2 supports 8 nodes.

## Technical Information

### Endpoints

#### Endpoint 0

| Command Class | Comment |
|---------------|---------|
| COMMAND_CLASS_NO_OPERATION_V1| |
| COMMAND_CLASS_BASIC_V1| |
| COMMAND_CLASS_SENSOR_BINARY_V2| Linked to BASIC|
| COMMAND_CLASS_SENSOR_MULTILEVEL_V5| |
| COMMAND_CLASS_CONFIGURATION_V1| |
| COMMAND_CLASS_ALARM_V1| |
| COMMAND_CLASS_MANUFACTURER_SPECIFIC_V1| |
| COMMAND_CLASS_BATTERY_V1| |
| COMMAND_CLASS_WAKE_UP_V2| |
| COMMAND_CLASS_ASSOCIATION_V1| |
| COMMAND_CLASS_VERSION_V1| |
| COMMAND_CLASS_MULTI_CMD_V1| |

### Documentation Links

* [User Manual](https://www.cd-jackson.com/zwave_device_uploads/170/PST02-Manual-2014-09-17.pdf)

---

Did you spot an error in the above definition or want to improve the content?
You can [contribute to the database here](http://www.cd-jackson.com/index.php/zwave/zwave-device-database/zwave-device-list/devicesummary/170).