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Simple python for accessing TEMPer USB thermometers

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temper.py

The USB temperature and temperature/humidity sensors sold by PCsensor are widely available from the parent site (https://pcsensor.com/usb-temperature-humidity.html), from Amazon, and from EBay.

Note

NOTE: Please submit all pull requests to https://github.com/ccwienk/temper

The repository at https://github.com/urwen/temper is not well maintained.

urwen has rebased to ccwienk/temper and encourages you to support Christian Cwienk's efforts to maintain temper -- with urwen's profound thanks and gratitude!

Design

There are several open source software projects that support these sensors, sometimes including complicated monitoring and graphing software. Unlike, these projects, the goal of this project is to simply read data from the sensors and do nothing else, given the following constraints:

  • must work under Linux,
  • must work with Python 3,
  • third-party software will be avoided when possible,
  • all third-party software must be provided as standard Debian packages.

libusb is not used

I tried to use libusb (apt-get install python3-usb; "import usb.core") and it provides a sophisticated interface to USB devices that was very nice. Unfortunately, I have one thermometer that didn't work with raw usb and that required access via the hidraw device; and I have another thermometer that has an undocumented HID protocol, but that is accessible via a serial tty.

hid and hidapi are not used

I tried using hid (apt-get install python3-hid) and hidapi (apt-get install python3-hidapi) and these worked ok for two of the thermometers I have, but not for the one that requires access via a serial tty.

pySerial is used

Although HID devices are accessed directly, pySerial is used for TTYs. This module is available as a Debian package: sudo apt-get install python3-serial

Supported Devices

I own five kinds of devices from PCsensors. These are all supported by temper.py.

In the following table "I" means the sensor is internal to the USB stick and "E" means the sensor is on a cable that is plugged into the USB stick.

Product Id Firmware Temp Hum Notes
TEMPer 0c45:7401 TEMPerF1.2 I Metal
TEMPer 0c45:7401 TEMPerF1.4 I Metal
TEMPer 413d:2107 TEMPerGold_V3.1 I Metal
TEMPer 1a86:e025 TEMPerGold_V3.3 I Metal
TEMPer 1a86:e025 TEMPerGold_V3.4 I Metal
TEMPerHUM 413d:2107 TEMPerX_V3.1 I I White plastic
TEMPerHUM 1a86:e025 TEMPerHUM_3.9 I White plastic with blue button
TEMPerHUM 0c45:7402 TEMPer1F_H1V1.5F I I White plastic with blue button
TEMPer2 413d:2107 TEMPerX_V3.3 I,E White plastic
TEMPer2 1a86:e025 TEMPer2_V3.7 I,E White plastic with red button
TEMPer2 1a86:e025 TEMPer2_V3.9 I,E White plastic with red button
TEMPer2 1a86:e025 TEMPer2_M12_V1.3 I,E White plastic with red button
TEMPer1F 413d:2107 TEMPerX_V3.3 E White plastic
TEMPerX232 1a86:5523 TEMPerX232_V2.0 I,E I White plastic
TEMPer1V1.1 0c45:7401 TEMPer1F1.1Per1F E Metal

The 1a86:5523 device may identify as 413d:2107 depending on button presses, but it cannot be used successfully when in that mode.

If you try other software that uses libusb, the hidraw device may be disconnected. In this case, remove and re-insert the USB stick.

The TEMPer1F has only an external sensor, but it is not possible to detect that it is external, so it is reported as an internal temperature.

TEMPer

This is a metal USB stick marked "TEMPer" with thermometer logo on one side, and "TEMPer" on the other side. The end opposite the USB connector has a screw hole. There is no humidity detector, but it appears water proof and I have submerged mine momentarily in ice water and in boiling water.

TEMPerHUM

This is a white plastic USB stick marked "TEMPerHUM", "-40C - +85C", and "0-100%RH"; with blue button marked "TXT". On the reverse, "PCsensor". This model does not have a jack on the end.

When the button is pressed the red LED will blink as messages of the following style are sent (the temperature line repeats every second).

www.pcsensor.com
temperx v3.1
caps lock:on/off/++
num lock:off/on/--
type:inner-h2
inner-temperinner-humidityinterval
32.73 [c]36.82 [%rh]1s

When the button is pressed again, the LED will either be off or be solid red. This is the mode that temper.py uses.

TEMPer2

physical description: White plastic USB stick marked "TEMPer2", "-40C - +125C"; with red button marked "TXT". On the reverse, "PCsensor". This model has a jack for an external sensor on the end.

notes: When the button is pressed, the red LED will blink as messages of the following form are sent (the temperature line repeats every second).

Without an external sensor:

www.pcsensor.com
temperx v3.3
caps lock:on/off/++
num lock:off/on/--
type:inner-tx
inner-tempinterval
27.93 [c]1s

With an external sensor:

www.pcsensor.com
temperx v3.3
caps lock:on/off/++
num lock:off/on/--
type:inner-tx;outer-tx
inner-tempintervalinterval
27.18 [c]29.62 [c]1s

This program uses the mode where the LED is either off or solid red.

TEMPer1F

White plastic USB stick marked "TEMPer1F", "-40C - +125C"; with pink button marked "TXT'. On the reverse, "PCsensor". This model has a jack for an external sensor and does not have an internal sensor.

When the button is pressed, the red LED will blink as messages of the following form are sent (the temperature line repeats every 1 second).

Without the probe inserted:

www.pcsensor.com
temperx v3.3
caps lock:on/off/++
num lock:off/on/--
type:unknown
1s

With the probe inserted:

www.pcsensor.com
temperx v3.3
caps lock:on/off/++
num lock:off/on/--
type:outer-tx
outer-tempinterval
24.93 [c]1s

This program uses the mode where the LED is either off or solid red.

TEMPerX232

White plastic USB stick marked "TEMPerX232", "0-100%RH", and "-40 - +85C"; with a green button marked "press". On the reverse, "PCsensor". On the end opposite the USB connector, there is a jack for an external temperature sensor (which I do not have and did not try).

When the button is pressed and held down until the red LED is solid, a blue LED will flash every second. In this mode, the USB vendor:product changes to 413d:2107, but only one HID device is available, and protocol sent to the hidraw device is rejected with an error.

When the LED is flashing blue, and the button is pressed momentarily, the following are sent (the temperature line repeats every second).

www.PCsensor.com
TEMPerX232-V2.0
type:inner-H2
inner-temperinner-humidityinterval
30.48 [C]40.19 [%RH]1

When the button is pressed and held down until the red LED is solid, a green LED will flash every second. This is the mode temper.py uses. In this mode, if "Help" is sent to the serial device, the following will be sent back:

   >>PCsensor<<
Welcome to use TEMPerX232!
Firmware Version:TEMPerX232_V2.0
The command is:
    ReadTemp                     -->read temperature,temp_value = sensor_value + calibration
    ReadCalib                    -->read calibration
    SetCalib-type:xx.x,xx.x>     -->set calibration, xx.x(-10.0~+10.0)
    EraseFlash                   -->erase calibration
    Version                      -->read firmware version
    ReadType                     -->read the sensor type
    ReadAlert-Temp               -->read temp alert value
    SetTempUpperAlert-type:xx.xx>-->set temp upper alert value,xx.xx(-40.00~+85.00)
    SetTempLowerAlert-type:xx.xx>-->set temp lower alert value,xx.xx(-40.00~+85.00)
    ReadAlert-Hum                -->read hum alert value
    SetHumUpperAlert-type:xx.xx> -->set hum upper alert value,xx.xx(00.00~99.99)
    SetHumLowerAlert-type:xx.xx> -->set hum lower alert value,xx.xx(00.00~99.99)
    SetMode-Temp:x>              -->set tempmode, x(0~1)
    ReadMode-Temp                -->read tempmode
    Help                         -->command help
    ?                            -->command help
The COM configuration is:
    Mode:       ASCII
    Baud Rate:  9600bps
    Data Bit:   8
    Parity Bit: None
    Stop Bit:   1
SHENZHEN RDing Tech CO.,LTD
www.PCsensor.com

This is the mode that temper.py uses. I was not successful getting this device to respond to any commands sent via the HID device.

I initially had trouble getting a reply to ReadTemp when using a terminal program (e.g., cu), but the example in the temper.py works without any problems, perhaps because no newline is sent after the command.

Example Command Output

Help

$ ./temper.py --help
usage: temper.py [-h] [-l] [--json] [--force VENDOR_ID:PRODUCT_ID]

temper

optional arguments:
-h, --help            show this help message and exit
-l, --list            List all USB devices
--json                Provide output as JSON
--force VENDOR_ID:PRODUCT_ID
                      Force the use of the hex id; ignore other ids

List Devices

In this example, one of the devices doesn't have the HID driver attached because I was using an libusb-based program to access it.

$ ./temper.py -l
Bus 001 Dev 023 413d:2107 * ??? ['hidraw0', 'hidraw1']
Bus 001 Dev 086 0c45:7401 * TEMPerV1.4 []
Bus 002 Dev 002 04d8:f5fe   TrueRNG ['ttyACM0']

Temperature

In this example, one of the devices doesn't have the HID driver attached because I was using an libusb-based program to access it.

$ ./temper.py
Bus 001 Dev 023 413d:2107 TEMPerX_V3.1 26.55C 79.79F 43.41%
Bus 001 Dev 086 0c45:7401 Error: no hid/tty devices available
$ ./temper.py --json
[
    {
        "path": "/sys/bus/usb/devices/1-1.2",
        "busnum": 1,
        "devnum": 23,
        "vendorid": 16701,
        "productid": 8455,
        "vendor_name": "",
        "product_name": "",
        "devices": [
            "hidraw0",
            "hidraw1"
        ],
        "ident": "TEMPerX_V3.1",
        "celsius": 26.55,
        "fahrenheit": 79.78999999999999,
        "humidity": 43.65
    },
    {
        "path": "/sys/bus/usb/devices/1-1.1.1",
        "busnum": 1,
        "devnum": 86,
        "vendorid": 3141,
        "productid": 29697,
        "vendor_name": "RDing",
        "product_name": "TEMPerV1.4",
        "devices": [
        ],
        "error": "no hid/tty devices available"
    }
]

Similar JSON output can be generated with the --list option.

Docker

The docker image is built with temper.py and temper-service.py. The default ENTRYPOINT points to temper-service.py which runs as web service listening on port 2610. The web service responds to two endpoints: /list and /metrics. The result is in JSON format. See DOCKER.md for more details.

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