10-09-2024, 07:44 AM
Code:
/*
RS485 Modbus Temperature and Humidity Sensor Reader
Made by KinCony: https://www.kincony.com
This program reads temperature and humidity data from a Modbus RS485 sensor
and prints the values via the Serial monitor.
Hardware configuration:
- RS485 communication using GPIO TX (32) and RX (35)
- Modbus RTU protocol
- Temperature and humidity values are stored in separate registers
You must install the ModbusMaster library in Arduino IDE.
*/
#include <ModbusMaster.h> // Include the ModbusMaster library for Modbus communication
// Define GPIO pins for RS485 communication (TX and RX)
#define TXD_PIN 32 // Transmit pin for RS485
#define RXD_PIN 35 // Receive pin for RS485
// Define the Modbus slave ID (this should match the sensor's address)
#define SLAVE_ID 1
// Create a ModbusMaster object to handle Modbus communication
ModbusMaster node;
/*
This function is called before starting a Modbus transmission.
If your hardware needs control of RS485 DE/RE pins, configure them here.
*/
void preTransmission()
{
// Optional: Control DE/RE pins for RS485 if necessary
}
/*
This function is called after completing a Modbus transmission.
If your hardware needs to reset DE/RE pins, configure them here.
*/
void postTransmission()
{
// Optional: Control DE/RE pins for RS485 if necessary
}
void setup()
{
// Start the Serial communication for debugging at 9600 baud rate
Serial.begin(9600);
// Start Serial2 for RS485 communication using GPIO 32 (TX) and GPIO 35 (RX) at 9600 baud rate
Serial2.begin(9600, SERIAL_8N1, RXD_PIN, TXD_PIN);
// Initialize the Modbus communication with the slave ID and associate it with Serial2
node.begin(SLAVE_ID, Serial2);
// Set the pre- and post-transmission handlers for controlling RS485 hardware if needed
node.preTransmission(preTransmission);
node.postTransmission(postTransmission);
// Print an initial message to Serial monitor
Serial.println("RS485 Modbus Sensor Example - Reading Temperature and Humidity");
}
void loop()
{
uint8_t result; // Variable to store the result of Modbus operations
uint16_t data[2]; // Array to store the raw temperature and humidity data from the sensor
// Read two input registers starting from address 0x0000, where temperature and humidity are stored
result = node.readInputRegisters(0x0000, 2); // Read 2 registers (temperature and humidity)
// Check if the read operation was successful
if (result == node.ku8MBSuccess)
{
// Retrieve raw temperature and humidity data from Modbus response buffer
uint16_t temperatureRaw = node.getResponseBuffer(0); // Temperature is in the first register
uint16_t humidityRaw = node.getResponseBuffer(1); // Humidity is in the second register
// Parse temperature value
float temperature;
if (temperatureRaw < 10000) // Check if the value represents a positive temperature
temperature = temperatureRaw * 0.1; // Positive temperature
else
temperature = -1 * (temperatureRaw - 10000) * 0.1; // Negative temperature
// Parse humidity value (always positive)
float humidity = humidityRaw * 0.1;
// Print the parsed temperature value to the Serial monitor
Serial.print("Temperature: ");
Serial.print(temperature);
Serial.println(" °C");
// Print the parsed humidity value to the Serial monitor
Serial.print("Humidity: ");
Serial.print(humidity);
Serial.println(" %RH");
}
else
{
// If the read operation failed, print the error code to the Serial monitor
Serial.print("Failed to read from sensor, error: ");
Serial.println(result);
}
// Wait for 5 seconds before reading the sensor again
delay(5000);
}
arduino ino file download:
rs485-sensor.zip (Size: 1.47 KB / Downloads: 45)
BIN file (you can use esp32 download tool download to ESP32 with address 0x0 then directly to use) download:
rs485-sensor.ino.merged.zip (Size: 172.69 KB / Downloads: 39)