Difference between revisions of "RDTech UM series"

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(Fix 0xb0 - 0xce range)
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| image              = [[File:UM24C_display.jpg|180px]]
| image              = [[File:UM24C_display.jpg|180px]]
| name                = RDTech UM24C
| name                = RDTech UM24C
| status              = Not Supported‏‎
| connectivity        = serial over Bluetooth
| connectivity        = serial over Bluetooth
| features            = measures USB devices; voltage, amperage, wattage, resistance, capacity, temperature, voltage over USB data lines (charging mode)
| features            = measures USB devices; voltage, amperage, wattage, resistance, capacity, temperature, voltage over USB data lines (charging mode), color display (26x26mm, 128x128px)
| website            = [http://rdtech.aliexpress.com/ rdtech.aliexpress.com]
| website            = [http://rdtech.aliexpress.com/ rdtech.aliexpress.com]
}}
}}
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* [https://www.aliexpress.com/item/RD-UM24-UM24C-for-APP-USB-2-0-LCD-Display-Voltmeter-ammeter-battery-charge-voltage-current/32845522857.html Direct AliExpress UM24C link] (select "UM24C" under "Color")
* [https://www.aliexpress.com/item/RD-UM24-UM24C-for-APP-USB-2-0-LCD-Display-Voltmeter-ammeter-battery-charge-voltage-current/32845522857.html Direct AliExpress UM24C link] (select "UM24C" under "Color")
* [https://rdtech.aliexpress.com/store/923042 RDTech AliExpres store]
* [https://rdtech.aliexpress.com/store/923042 RDTech AliExpress store]
* [https://github.com/rfinnie/rdumtool rdumtool - RDTech UM24C Bluetooth interface tool] (Python 3)
* [https://github.com/rfinnie/rdumtool rdumtool - RDTech UM24C Bluetooth interface tool] (Python 3)
[[Category:Device]]
[[Category:Multimeter]]
[[Category:Not Supported‏‎]]

Revision as of 03:51, 27 January 2019

RDTech UM24C
UM24C display.jpg
Status Not Supported‏‎
Source code [1]
Connectivity serial over Bluetooth
Features measures USB devices; voltage, amperage, wattage, resistance, capacity, temperature, voltage over USB data lines (charging mode), color display (26x26mm, 128x128px)
Website rdtech.aliexpress.com

What is it?

A ~$13 USB load meter; it measures various properties for USB devices including their voltage, amperage, wattage, resistance, capacity, temperature, data line voltage, and charging mode. It can track up to 11 groups of mAh/mWh capacity data, one of which is ephemeral (and disappears after replugging the device), nine of which are persistent until cleared, and one of which whose recording is only activated above a certain current threshold (and which can be recorded in parallel with any of the other 10 data groups). It also allows graphing the amperage and voltage over time, on the device's display itself, as well as rotating the display contents into any orientation.

Unlike most devices of this type, this one communicates through serial-over-Bluetooth; the manufacturer provides apps (for Android and Windows, downloads including device documentation here), but not protocol documentation nor source code.

Note that this is specifically about the UM24C - the UM24 is the version *without* Bluetooth communication, although it's unclear whether the serial pads are still exposed and functional on that model. On the C model, the Bluetooth board is a separate layer (using an off-the-shelf serial-to-Bluetooth module) that connects to the serial pads using pogo pins.

The manufacturer has indicated that the firmware is not designed to be upgradeable and doesn't provide updates; nevertheless, the SWIM pin for the on-board STM8 chip is exposed, as are the other necessary pins for STM8 debugging. It's unclear whether the chip will allow eg. dumping, though.

The load meter can be connected either by plugging it in directly using its USB male plug end, or by connecting it using a cable and the micro-USB port on top. These are functionally equivalent; in both cases, both power and data are passed through and measured in the same way. I've not observed any difference in measurements between these two modes of operation.

It's unclear whether measurement of data lines is accurate enough to theoretically be used as a logic analyzer, but given the strange stability of the values during testing (unlike the voltage on the power lines) and the low-end STM8 chip, I suspect it's not.

Protocol

Clearer documentation (as well as a JS implementation of the protocol) are coming soon, but below are my rough notes of the protocol, that I've figured out by reverse-engineering the Android application. The device won't auto-send any data; you're expected to send 0xf0 any time you want new data, eg. on a timed loop.

All data returned by the device consists of measurements and configuration status, in 130-byte chunks. To my knowledge, it will never send any other data. All bytes below are displayed in hex format; every command is a single byte.

Commands to send

Multiple commands may be sent at once; e.g. you could set the recording threshold to 0.28 A and rotate the screen by sending 0xccf2 immediately. An exception appears to be requesting the data dump; it doesn't seem to return the 130-byte response unless you wait a bit after sending other commands.

Byte Type Meaning
0xf0 device control Request new data dump; this triggers a 130-byte response
0xf1 device control Go to next screen
0xf2 device control Rotate screen
0xf3 device control Switch to next data group
0xf4 device control Clear data group
0xb0 - 0xce configuration Set recording threshold to a value between 0.00 and 0.30 A (inclusive); add the value after the decimal point to 0xb0 (0.00 is 0xb0, 0.30 is 0xce)
0xd0 - 0xd5 configuration Set device backlight level between 0 and 5 (inclusive); 0 is dim, 5 is full brightness
0xe0 - 0xe9 configuration Set screen timeout ("screensaver") between 0 and 9 minutes (inclusive), where 0 disables the screensaver

Response format

All byte offsets are in decimal, and inclusive. All values are big-endian and unsigned.

Offset Length Type Meaning
0 2 marker Start marker (always 0x0963)
2 2 measurement Voltage (in centivolts, divide by 100 to get V)
4 2 measurement Amperage (in mA, divide by 1000 to get A)
6 4 measurement Wattage (in mW, divide by 1000 to get W)
10 2 measurement Temperature (in Celsius)
12 2 measurement Temperature (in Fahrenheit)
14 2 configuration Currently selected data group, zero-indexed
16 80 measurement Array of 10 main capacity data groups (where the first one, group 0, is the ephemeral one) -- for each data group: 4 bytes mAh, 4 bytes mWh
96 2 measurement USB data line voltage (positive) in centivolts (divide by 100 to get V)
98 2 measurement USB data line voltage (negative) in centivolts (divide by 100 to get V)
100 2 measurement Charging mode; this is an enum, where 0 = unknown/standard, 1 = QC2.0, and presumably 2 = QC3.0 (but I haven't verified this)
102 4 measurement mAh from threshold-based recording
106 4 measurement mWh from threshold-based recording
110 2 configuration Currently configured threshold for recording (in centiamps, divide by 100 to get A)
112 4 measurement Duration of threshold recording, in cumulative seconds
116 2 configuration Threshold recording active (1 if recording, 0 if not)
118 2 configuration Current screen timeout setting, in minutes (0-9, 0 is no screen timeout)
120 2 configuration Current backlight setting (0-5, 0 is dim, 5 is full brightness)
122 4 measurement Resistance in deci-ohms (divide by 10 to get ohms)
126 2 configuration Current screen (zero-indexed, same order as on device)
128 2 marker Stop marker (always 0xfff1)

Board pictures

Not great pictures, but hopefully they'll be useful.

Links