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README
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RDSERIALTOOL - RDTECH UM/DPS/RD SERIES DEVICE INTERFACE TOOL
_This program is currently in an early stage and could change
significantly._
This program provides monitor, control and configuration access to
RDTech (RuiDeng, Riden) UM, DPS and RD series devices.
The UM24C, UM25C and UM34C are low-cost USB pass-through power
measurement devices, and support a decent number of collection features,
as well as full control via Bluetooth. (The non-C versions of these
devices support the same features as the C versions, but without
Bluetooth control.)
The DPS series are programmable DC-DC power supplies, and many devices
in the series support external communication via the Modbus RTU serial
protocol over USB or Bluetooth.
The RD6006 is a logical continuation of the DPS series and also uses
Modbus communication, but the registers are incompatible with previous
DPS series, so “RD” is treated as a separate series.
Compatibility
- UM24C, UM25C and UM34C support is complete and tested.
- DPS5005 support is complete and tested. Other devices in the DPS
series (DPS3005, DPS5015, DPS5020, DPS8005, DPH5005) should perform
identically. (Status reports and bugs welcome.)
- RD6006 has basic support and testing. Reading and writing most
states work.
- Tested under Python 3.6, but should work with 3.4 or later.
- Linux: Tested fine with both PyBluez (direct) and pyserial
(e.g. /dev/rfcomm0 via rfcomm bind), as well as direct USB serial
(e.g. /dev/ttyUSB0) on DPS devices.
- Windows: Tested fine with pyserial (e.g. COM4 as set up
automatically by Windows). Author could not get PyBluez
compiled/installed.
- MacOS: When using pyserial (e.g. /dev/cu.UM24C-Port as set up
automatically by MacOS), writes to the device would succeed
(e.g. 0xf2 to rotate the screen on UM series), but reads from the
device never arrive. Author could not get PyBluez
compiled/installed.
Setup
rdserialtool requires Python 3, and PyBluez and/or pyserial modules,
depending on which method you use to connect. Installation varies by
operating system, but on Debian/Ubuntu, these are available via the
python3-pybluez and python3-serial packages, respectively.
To install rdserialtool:
$ sudo python3 setup.py install
rdserialtool may also be run directly from its source directory without
installation.
Bluetooth setup
Varies by operating system. If the pairing procedure asks for a PIN,
enter 1234.
For command-line installation on Linux:
$ bluetoothctl
Agent registered
[bluetooth]# scan on
Discovery started
[NEW] Device 00:90:72:56:98:D7 UM24C
[CHG] Device 00:90:72:56:98:D7 RSSI: -60
[bluetooth]# pair 00:90:72:56:98:D7
Attempting to pair with 00:90:72:56:98:D7
[CHG] Device 00:90:72:56:98:D7 Connected: yes
Request PIN code
[UM241m[agent] Enter PIN code: 1234
[CHG] Device 00:90:72:56:98:D7 UUIDs: 00001101-0000-1000-8000-00805f9b34fb
[CHG] Device 00:90:72:56:98:D7 ServicesResolved: yes
[CHG] Device 00:90:72:56:98:D7 Paired: yes
Pairing successful
[bluetooth]# trust 00:90:72:56:98:D7
[CHG] Device 00:90:72:56:98:D7 Trusted: yes
Changing 00:90:72:56:98:D7 trust succeeded
[bluetooth]# exit
Agent unregistered
Device MAC address will vary. Again, the PIN for the device is 1234.
If you then want to use rdserialtool via direct serial, bind it via
rfcomm:
$ sudo rfcomm bind 0 00:90:72:56:98:D7
Usage
A number of options common to device access are available to all
commands; see:
$ rdserialtool --help
After the common options, a command is required (commands available are
in --help above). For example, to get device information from a UM24C
via PyBluez:
$ rdserialtool --device=um24c --bluetooth-address=00:90:72:56:98:D7
Or via pyserial:
$ rdserialtool --device=um24c --serial-device=/dev/rfcomm0
To turn the output on for a DPS device:
$ rdserialtool --device=dps --bluetooth-address=00:BA:68:00:47:3A --on
Example
$ rdserialtool --device=um25c --bluetooth-address=00:15:A6:00:36:2F
rdserialtool
Copyright (C) 2019 Ryan Finnie
Connecting to UM25C 00:15:A6:00:36:2F
Connection established
USB: 5.062V, 0.1146A, 0.580W, 44.1Ω
Data: 0.01V(+), 0.00V(-), charging mode: DCP 1.5A
Recording (off): 0.000Ah, 0.000Wh, 0 sec at >= 0.13A
Data groups:
*0: 0.001Ah, 0.009Wh 5: 0.000Ah, 0.000Wh
1: 0.000Ah, 0.000Wh 6: 0.000Ah, 0.000Wh
2: 0.000Ah, 0.000Wh 7: 0.000Ah, 0.000Wh
3: 0.000Ah, 0.000Wh 8: 0.000Ah, 0.000Wh
4: 0.000Ah, 0.000Wh 9: 0.000Ah, 0.000Wh
UM25C, temperature: 25C ( 78F)
Screen: 1/6, brightness: 4/5, timeout: 2 min
Collection time: 2019-02-23 22:53:08.468732
$ rdserialtool --device=dps --bluetooth-address=00:BA:68:00:47:3A
rdserialtool
Copyright (C) 2019 Ryan Finnie
Connecting to DPS 00:BA:68:00:47:3A
Connection established
Setting: 5.00V, 5.100A (CV)
Output (on) : 5.00V, 0.15A, 0.07W
Input: 19.30V, protection: good
Brightness: 4/5, key lock: off
Model: 5005, firmware: 14
Collection time: 2019-02-23 22:55:24.721946
$ rdserialtool --device=rd --serial-device=/dev/ttyUSB0 --baud=115200
rdserialtool
Copyright (C) 2019 Ryan Finnie
Connecting to RD /dev/ttyUSB0
Connection established
Setting: 15.00V, 0.998A (CV)
Output (on) : 14.99V, 0.14A, 0.20W
Input: 50.15V, protection: good
Brightness: 4/5, key lock: off
Model: 60062, firmware: 125, serial: 5403
Collection time: 2019-12-28 21:16:07.114146
About
Copyright (C) 2010-2021 Ryan Finnie
This Source Code Form is subject to the terms of the Mozilla Public
License, v. 2.0. If a copy of the MPL was not distributed with this
file, You can obtain one at http://mozilla.org/MPL/2.0/.
This tool is not affiliated with or endorsed by RDTech.
See also
- RDTech UM series on the sigrok wiki, which contains a lot of
information and reverse engineering of the protocol used on these
devices.
- DPS5005 communication protocol and Android/Windows software, from
the manufacturer.
- opendps, a replacement firmware package for the DPS5005.
(Incompatible with rdserialtool, as opendps uses its own
communication interface.)