The RS485HwSerial library is an enhanced version of the standard Arduino serial
functions with control for RS485 transmit enable.
It automatically enables the transmit enable pin TE on half-duplex RS485 transceivers
when a character has to be sent and disables the TE pin when the last stop bit was sent
TXC, by utilizing the USART transmit complete interrupt USART_TXC_vect.
The TE signal is only active (and therefore the transmitter blocking the bus) as long as it is really needed.
Half-duplex RS485 communication can be achieved non-blocking
This is a major improvement over
TE triggered by the TX-signalInstead of using a microcontroller based solution for controlling the TE signal like this or any other RS485 library, you may use a RS485 transceiver with auto direction control like the MAX13487E.
RS485HwSerial subdirectory in your Arduino/libraries directory.#include <RS485HwSerial.h>
// RS485 transceiver's transmit enable pin (often called TE or DE).
// Can be tied together with negated receive enable pin to disable local echo
// (often called /RE). This pin can freely be chosen.
#define RS485_TE 13
// RX pin of serial 1 on ATmega328PB. if /RE on RS485 transceiver is used then
// there should be pull-up resistor on RX or a least a weak pull-up configured on
// the RX pin (see below), as the RO pin of the RS485 transceiver becomes high
// impedance if the receiver is disabled.
#define RS485_RX 12
// Baud rate/BPS on RS485 port
#define RS485_BPS 9600
void setup() {
// rs485 transceiver transmitter enable pin
RS485HwSerial1.transmitterEnable(RS485_TE);
// rs485 uart setup
RS485HwSerial1.begin(RS485_BPS);
// enable weak pull-up on RX pin (better use pull-up resistor)
pinMode(RS485_RX, INPUT_PULLUP);
}
void loop() {
RS485HwSerial1.println(F("\nHello Serial1 RS485"));
delay (1000);
}TE signal and half-duplex usage of the RS458-bus _____ __ _..._ __ _____________..._______________
RXD: X__X_..._X__X
__________..._______ __ __ __ _..._ __ __________
TXD: X__X__X__X_..._X__X
____________...______
TE: __________..._____| |________
__________...______ _____________
UDRE: ||__|__|__|_..._|
__________...______ _________
TXC: |___________..._____|
-----RX---...-----|-------TX---...------|---RX---RXD: USART Receive Data
TXD: USART Transmit Data
TE: Transceiver Transmit Enable
UDRE: USART Data Register Empty
TXC: USART Transmit Complete
ASCII schematic of connecting a half-duplex RS485 transceiver e.g. MAX487CSA+ to a microcontroller.
Shielded twisted pair network cable is recommended. E.g. S/UTP, F/UTP, SF/UTP
----+ * Vcc
| |
AVR | | | 47k /| * Vcc
| | | / | A |
| | | / +-------+ | | 560R
| | RO / | | | | bias pull-up
RX +------*------+ | | | | (only on master)
| \ | B | |
| /RE o o---+ *-----*-------------------------- RS485 A/+
| |\ | | | |
| | \| | | |
TE +---------------* | | | | 120R
| | | | | | termination resistor
| |\| | | | | (on each bus end)
| | + TE | | |
| | \ B | | |
| DI | o----*---|-----*-------------------------- RS485 B/-
TX +-------------+ \ | |
| | + | | | 560R +--- cableshield
| | / A | | | bias pull-down |
| | +--------+ | | (only on master) | | 100R
| | / | | | 1W
| |/ * GND | |
----+ |
* GND Excellent information about the electrical aspects of RS485 like proper termination, biasing
and shielding can be found here:
http://support.fccps.cz/download/adv/frr/RS485/RS485.html
This covers additionally the aspects of ESD-protection:
https://www.renesas.com/eu/en/www/doc/whitepapers/interface/rs-485-transceiver-tutorial.pdf
https://www.renesas.com/eu/en/www/doc/whitepapers/interface/rs-485-transceiver-tutorial_de.pdf