I am building this C# application which should turn a relay. It has a USB to serial port. The manual says:

Module can receive single byte from upper monitor ( baud rate 9600):

Upper Monitor                   0x50            0x51
ICSE012A                                0xAB
ICSE013A                                0xAD (This is the one i have)
ICSE014A                                0xAC

Module will turn to normal work state after receive 0x51. Then every data byte will control the relay directly . Each bit controls a relay ( 0 mark start , 1 mark stop ) . Read following for details:

Bit: 0 // Controls relay 1
Bit: 1 // Controls relay 2

So to start the relay I should use: This.SerialPort1.Write(0x51)

But then I want to start relay one what do I put in? How do I understand this?

  • 2
    0x51 is hex, that converts to binary as 01010001 which probably means turn on relays 1, 5 and 7. so to start only relay 1, just send binary 00000001 (hex 0x01) – DavidG Nov 13 '14 at 16:35
  • I have this software which came with the relayboard. In the software i need to open the connection and click "open the sele" and close the program before 0x01. The software must activate the board somehow. – Christian Koch Nov 13 '14 at 16:47

I have similar item ICSE013A :

Bus 001 Device 009: ID 067b:2303 Prolific Technology, Inc. PL2303 Serial Port

But I think I have met a bug, or design flaw.

Unplug and replug the device.

In first console, run a permanent:

$ cat /dev/ttyUSB1

In a second console, run

$ echo -e -n "\x50" > /dev/ttyUSB1

Run it several times; each time you will receive an ack in the first console (ab, ac, or ad). Now send the start command:

echo '51' | xxd -r -p >>/dev/ttyUSB1

You don't get any ack. Send the same line a second time:

echo '51' | xxd -r -p >>/dev/ttyUSB1

switch 1 comes ON, without ack. Send 50, switch goes OFF, without ack:

echo '50' | xxd -r -p >>/dev/ttyUSB1

So, order of commands matter a lot. Once you have sent 50-51, all bytes will control relays. For a running script at a random time, there is no way to know if the device have been already initiated or not. One solution could be to run initiation at boot time in /etc/rc.local: but imagine you have a glitch on the USB power supply: you think you can control the relays, when actually, they are waiting for init. The relay has poor design. It's the cheapest I could find: 4e for 2 relays, 9e for a 8r board. Other USB-relays are much more expensive, but have a logic which is resistant to initialisation issues: they need to receive complete frames including checksums ... for each relay command. Things like 'A0 01 01 A2' or '01 05 00 00 FF 00 8C 3A'.

Also, grouping orders in a single frame will fail. If after powercycle you do

echo '50 51 03' | xxd -r -p >>/dev/ttyUSB1

it will NOT put relays ON. You have to send bytes one by one; a simple sleep 0.001 (using the bash internal command) seems enough. Behaviour may vary with shell version and kernel and distribution:

echo '50' | xxd -r -p >>/dev/ttyUSB1 ; sleep $i
echo '51' | xxd -r -p >>/dev/ttyUSB1 ; sleep $i
echo '03' | xxd -r -p >>/dev/ttyUSB1

Now, send this command:

echo '50 51 03' | xxd -r -p >>/dev/ttyUSB1

it will put relays off, without providing ack. So, how to reset the boad for sure ? From software, this seems complicated; depending on hardware, a reboot may not reset all USB devices. Reloading pl2303 is not enough. On normal desktop, unloading the whole USB stack down to usbcore should allow to reset the device. On the rPi, usbcore is not modular, and unloading usbserial is not suffisant.

So, in the case of my rPi, I have to do this at boot in /etc/rc.local

echo '50' | xxd -r -p >>/dev/ttyUSB1
echo '51' | xxd -r -p >>/dev/ttyUSB1

and assume the device will not be disconnected

Also: not possible to know the state of relays; when you want to change one relay, you need to remember (store) somewhere the state of other relays. Even if this aspect is managed by a daemon service, if you hot-restart the service, the service can not know if the board had been initialised or not; in doubt, the service will have to do it, and send 50-51-00 with apropriate small sleeps in between; but, in the case it had already been initialised, this may activate relays 1, 5 and 7 for a small time.

Ddifferent approach: my board has a serial port input (4 empty holes on the left of the USB plug). I soldered a few pins, and linked it to a USB-serial adapter (Rx and Tx marking are inverted). Things behaved exactly the same.

After hours of dychotomy, I have found a string that can handle initialisation, and still be used after boot. With this approach, OFF relays are untouched; ON relays are disconnected during 8ms (do not try to add a capacitor, it may produce oscilations). Depending on how the controlled device is sensible to disconnections, this small off-time may be acceptable (or not):

echo '50 00 50 00 51 01 00 ZZ' | xxd -r -p >>/dev/ttyUSB1

where ZZ is the relay control byte. Here is an alternative template that also works:

echo '50 50 50 50 51 52 00 ZZ' | xxd -r -p >>/dev/ttyUSB1

Edit: after a few hours of testing this card, the hardware board is not reliable. This simple test fails: every 10 or 20s, relays are left in OFF state:

while true ; do echo -e -n "\x03" > /dev/ttyUSB1 ; sleep 1 ; done

It's very slow, and still triggers a race issue inside the firmware ... And this test fails both via the onboard USB plug, and using a third party serial port adapter. There is nothing good in ICSE013A

I have tried following commands on ubuntu successfully.
Open 2 terminals and type $ su to get root access or alternatively you can change permissions of device by

$chmod 777 /dev/ttyUSB0  

On my machine,
lsusb output: Bus 003 Device 018: ID 067b:2303 Prolific Technology, Inc. PL2303 Serial Port
dmesg output : [11837.715851] usb 3-2: pl2303 converter now attached to ttyUSB0

1. On first terminal
Type following to read the deivce id:

$cat /dev/ttyUSB0 | hexdump -C  

2.On second terminal
Type following command to get the device ID (mine is 0xAB, 4 channel)

$ echo -e -n "\x50" > /dev/ttyUSB0 

3.Remove the device and check the output at first terminal

$cat /dev/ttyUSB0 | hexdump -C  
00000000  ab                                                |.|    

4. On second terminal Follow sequence of commands:
To handshake:

$ echo -e -n "\x50" > /dev/ttyUSB0   

To activate relay controller:

$ echo -e -n "\x51" > /dev/ttyUSB0   

To turn off all relays:

$ echo -e -n "\xff" > /dev/ttyUSB0   

To turn on all relays:

$ echo -e -n "\x00" > /dev/ttyUSB0   

To turn on first relay:

$ echo -e -n "\x01" > /dev/ttyUSB0   

To turn on fourth relay:

$ echo -e -n "\x04" > /dev/ttyUSB0     
  • correct misprint from "off" to "on" in $ echo -e -n "\x00" > /dev/ttyUSB0 – Sanya Snex Sep 29 '17 at 10:37


$ echo -e -n "\x04" > /dev/ttyUSB0     

turns on the third relay. It's one bit per relay, we have to think in binary. So, to turn on the fourth relay, one would need to change the 4th bit, like:

$ echo -e -n "\x08" > /dev/ttyUSB0     

Hope this clarifies.

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