I need to connect a PC to my washing machine. The washing machine has a bank of pins labelled like this:
- 0v
- tx
- rx
- 5v
The microcontroller is an ATmega32L, which has specs for the serial connection as follows:
specs
The Universal Synchronous and Asynchronous serial Receiver and Transmitter (USART) is a
highly flexible serial communication device. The main features are:
• Full Duplex Operation (Independent Serial Receive and Transmit Registers)
• Asynchronous or Synchronous Operation
• Master or Slave Clocked Synchronous Operation
• High Resolution Baud Rate Generator
• Supports Serial Frames with 5, 6, 7, 8, or 9 Data Bits and 1 or 2 Stop Bits
• Odd or Even Parity Generation and Parity Check Supported by Hardware
• Data OverRun Detection
• Framing Error Detection
• Noise Filtering Includes False Start Bit Detection and Digital Low Pass Filter
• Three Separate Interrupts on TX Complete, TX Data Register Empty, and RX Complete
• Multi-processor Communication Mode
• Double Speed Asynchronous Communication Mode
My USB to TTL serial adapter is apparently based on a ch340 chip. It looks almost exactly like the pic I attached, except mine does not have a crystal on it because I think the chip has an embedded clock. The important thing is the pins match my adapter.
My knee-jerk thought was to connect it as follows:
adapter → washing machine PCB
gnd → 0v
rxd → tx
txd → rx
3v3 → (nothing)
5v → 5v ← bad idea?
(with s1 jumped to 5v on the adapter)
Someone told me I should not connect 5v to 5v. I was assuming one connection needed 5v and the other supplied it, but I was told they are both supplying 5v, but not perfectly 5v, so the difference will strain something and cause damage.
So how should I hook this up?
update (I’m stuffed?)
I heard washing machine manufacturers often sabotage the serial ports before shipping as an anti-repair tactic. I thought my old machine might pre-date that practice, but I might be wrong. I metered TX voltage against 0v using a crappy cheap DMM. Results:
0.01, 0.00, 0.01, 0.00, 0.01, 0.00, 0.01, 0.00, … etc, every second or so.
Looked encouraging, as if there is activity. Then I metered 0v against 5v:
~~0.01, 0.00, 0.01, 0.00, 0.01, 0.00, 0.01, 0.00, … etc, every second or so.
Yikes. I was expecting that to read a steady 5v. Due to bad wiring in the house, I think that is just noise on the ground wire. And apparently the serial port is dead.
I had the two 5v lines connected to each other for a while, so it’s possible I damaged it, if not the manufacturer.~~
Update 2: I have 5v, so the port may work
It turns out I had a bad alligator clip, so of course I got a flat reading. The 5v pin on the serial port gives 5v. Thus I might have a live port. Now how do I use it?
If they both are power supplied, and have ground connected then what would you need the 5V connection for? Some devices that externally supply power can come with a protection diode to prevent looping power back to prevent the scenario you described but looks like that's not needed. You would have to know the protocol used such as baudrate, bitlength, stopbits and parity. If you don't have that info try common baudrates (115200), 8 bits, 1 stop, no parity.
Note: another really common combination is 9600 baud, 8 data, 1 stop. Antiquated, but a washing machine probably doesn't need anything fast.