2022-05-24 11:24:57 -04:00
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[](https://github.com/marketplace/actions/arduino_ci)
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[](https://github.com/RobTillaart/RS485/actions/workflows/arduino-lint.yml)
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[](https://github.com/RobTillaart/RS485/actions/workflows/jsoncheck.yml)
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[](https://github.com/RobTillaart/RS485/blob/master/LICENSE)
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[](https://github.com/RobTillaart/RS485/releases)
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# RS485
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Arduino library for RS485.
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## Description
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RS485 is an **experimental** library to make half duplex communication easier.
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The library implements the Stream interface so the user can use
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**print()** and **write()** calls just like one does with **Serial**.
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Preferably the library is to be used with a hardwareSerial as these
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can buffer incoming characters in the background.
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The 0.2.0 version of the library has no (tested) protocol for multi-byte
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messages so the user must implement such on top of this class.
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## Interface
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#### Base
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- **RS485(Stream stream, uint8_t sendPin, uint8_t deviceID = 0)** constructor.
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The default device ID is 0 (typically master uses this, or if deviceID is not used).
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The stream is typically Serial, and the baud rate, timeout etc. should be set
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via the Serial class.
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The sendPin is the pin that connects to the transmit/receive enable pins.
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The library sets the pinMode and defaults it to LOW (receiving mode).
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- **void setMicrosPerByte(uint32_t baudRate)** set the delay per character needed.
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This gives the hardware enough time to flush the buffer.
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- **uint32_t getMicrosPerByte()** returns the current delay in micros used.
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2022-05-25 06:32:10 -04:00
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- **void setTXmode()** explicitly set mode to transmitting / sending.
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This implies that the device will stop listening on the RS485 bus.
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- **void setRXmode()** explicitly set mode to receiving / listening.
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This is the default behaviour of every RS485 device.
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- **uint8_t getMode()** returns the current mode, 1 == TX, 0 == RX.
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#### Stream interface
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2022-10-01 07:17:26 -04:00
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The most important commands of the Stream interface are:
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2022-05-24 11:24:57 -04:00
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- **int available()** returns the number of characters available in the buffer.
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- **int read()** read a character from the RS485 stream.
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- **int peek()** peeks a character ahead. (less used).
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- **void flush()** flush the stream. (less used).
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- https://www.arduino.cc/reference/en/language/functions/communication/stream/
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All variations of **print()**, **println()** and **write()** can be used,
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the library calculates the time needed to set the RS485 chip in transmit mode.
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2022-10-01 07:17:26 -04:00
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An important command from the stream interface is the **setTimeOut()** as
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this allows reads on the RS485 bus that are limited
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2022-05-24 11:24:57 -04:00
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## Operation
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A RS485 controlled device is typically waiting for a command or message
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and is therefore default in listening or receiving mode. Only when
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the device needs to answer the library will automatically set the RS485
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chip in sending mode, wait for enough time to "flush the buffer" and
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resumes with listening.
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#### Pull up resistors
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Do not forget to use one pull up (A line) and one pull down (B line)
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at only one end of the bus.
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Values depend on the length of the cables, start with 1 KΩ.
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#### Wires
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Preferred wire for RS485 is STP (Shielded Twisted Pair), however
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UTP (Unshielded) will works in many cases.
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Typical for most applications CAT5 (100 Mbit) will do the job.
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2022-10-01 07:17:26 -04:00
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Note CAT5 has 4 x 2 twisted wires so there are 6 cables to spare.
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These could be used e.g. to build a FULL DUPLEX version in which
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every slave has 2 RS485 ports, one for receiving and one for sending.
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Another application is to use these as power lines e.g 5 and 12 V.
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2022-05-24 11:24:57 -04:00
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2022-05-26 02:56:53 -04:00
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#### yield()
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For RTOS environments the **yield()** function needs to be called
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when code might be blocking. As the RS485 baud rate can be pretty low,
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the **write(array, length)** function can be blocking for too long
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so the function can call **yield()** every 4 milliseconds if enabled.
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To enable **yield()** uncomment the following line in **RS485.cpp**
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// #define RS485_YIELD_ENABLE 1
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or use this flag in the compile line option
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Note: the **yield()** calling version is substantial slower, depending
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on the baud rate. Use with care.
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TODO: to be tested on ESP32 - RTOS .
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2022-05-24 11:24:57 -04:00
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## Future
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- improve documentation
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- setUsPerByte() parameter does not feel 100%
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- add **send()** and **receive()** for longer messages.
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- which handshake?
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- dynamic buffer size?
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- should this be a sort of message class / struct. fixed size?
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- add examples
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- add unit tests
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