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This commit is contained in:
Warky 2024-09-01 16:29:01 +02:00
parent a8fe198247
commit 364fab188b
6 changed files with 391 additions and 0 deletions
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1
firmware/libs/simplemodbusng Submodule

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Subproject commit 1079f442a5591a92baa38ddd98668b3ff162bb13

99
firmware/testing/modbus_sender.ino Normal file
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#include <ModbusMaster.h>
#include <SoftwareSerial.h>
// Define the pins for SoftwareSerial communication
#define RX_PIN 7 // RX pin for SoftwareSerial
#define TX_PIN 6 // TX pin for SoftwareSerial
#define TX_ENABLE_PIN 4 // Pin to control RS485 direction
#define DE_ENABLE_PIN 5
// Create a SoftwareSerial object
SoftwareSerial modbusSerial(RX_PIN, TX_PIN);
// Create an instance of the ModbusMaster class
ModbusMaster node;
// Function to control RS485 transmit enable
void preTransmission()
{
digitalWrite(TX_ENABLE_PIN, HIGH); // Enable RS485 transmit
}
void postTransmission()
{
digitalWrite(TX_ENABLE_PIN, LOW); // Disable RS485 transmit
}
void setup()
{
// Initialize the built-in serial port for debugging
Serial.begin(9600);
// Initialize SoftwareSerial for Modbus communication
modbusSerial.begin(9600);
pinMode(DE_ENABLE_PIN, OUTPUT);
digitalWrite(DE_ENABLE_PIN, HIGH);
// Set the pin mode for the RS485 control pin
pinMode(TX_ENABLE_PIN, OUTPUT);
digitalWrite(TX_ENABLE_PIN, LOW);
// Modbus communication setup
node.begin(1, modbusSerial); // Slave ID = 1, use modbusSerial for RS485 communication
// Set callbacks to handle RS485 flow control
node.preTransmission(preTransmission);
node.postTransmission(postTransmission);
}
void loop()
{
static uint16_t count = 0;
uint8_t result;
uint16_t data[6];
// Read 6 holding registers starting at address 0x0000
result = node.readHoldingRegisters(0x0000, 6);
// Check if the read was successful
if (result == node.ku8MBSuccess)
{
Serial.print("Read successful: ");
for (uint8_t j = 0; j < 6; j++)
{
data[j] = node.getResponseBuffer(j);
Serial.print(data[j], HEX);
Serial.print(" ");
}
Serial.println();
}
else
{
Serial.print("Read error: ");
Serial.println(result, HEX);
}
// Write the count value to the holding register at address 0x0001
result = node.writeSingleRegister(0x0001, count);
// Check if the write was successful
if (result == node.ku8MBSuccess)
{
Serial.print("Write successful: ");
Serial.println(count);
}
else
{
Serial.print("Write error: ");
Serial.println(result, HEX);
}
// Increment the count value
count++;
// Delay before the next read cycle
delay(1000);
}

81
firmware/testing/send1.ino Normal file
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#include <ModbusMaster.h>
#include <SoftwareSerial.h>
// Define the pins for SoftwareSerial communication
#define RX_PIN 13 // RX pin for SoftwareSerial
#define TX_PIN 12 // TX pin for SoftwareSerial
#define TX_ENABLE_PIN 4 // Pin to control RS485 direction
#define DE_ENABLE_PIN 5
// Create a SoftwareSerial object
SoftwareSerial modbusSerial(RX_PIN, TX_PIN);
// Create an instance of the ModbusMaster class
ModbusMaster node;
// Function to control RS485 transmit enable
void preTransmission()
{
digitalWrite(TX_ENABLE_PIN, HIGH); // Enable RS485 transmit
digitalWrite(DE_ENABLE_PIN, HIGH);
}
void postTransmission()
{
digitalWrite(TX_ENABLE_PIN, LOW); // Disable RS485 transmit
digitalWrite(DE_ENABLE_PIN, LOW);
}
void setup()
{
// Initialize the built-in serial port for debugging
Serial.begin(9600);
// Initialize SoftwareSerial for Modbus communication
modbusSerial.begin(9600);
pinMode(DE_ENABLE_PIN, OUTPUT);
digitalWrite(DE_ENABLE_PIN, HIGH);
// Set the pin mode for the RS485 control pin
pinMode(TX_ENABLE_PIN, OUTPUT);
digitalWrite(TX_ENABLE_PIN, LOW);
// Modbus communication setup
node.begin(1, modbusSerial); // Slave ID = 1, use modbusSerial for RS485 communication
// Set callbacks to handle RS485 flow control
node.preTransmission(preTransmission);
node.postTransmission(postTransmission);
}
void loop()
{
static uint16_t count = 0;
uint8_t result;
uint16_t data[6];
Serial.print("Loop:");
Serial.println(count);
// Write the count value to the holding register at address 0x0001
result = node.writeSingleRegister(0x0001, count);
// Check if the write was successful
if (result == node.ku8MBSuccess)
{
Serial.print("Write successful: ");
Serial.println(count);
}
else
{
Serial.print("Write error: ");
Serial.println(result, HEX);
}
// Increment the count value
count++;
// Delay before the next read cycle
delay(1000);
}

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firmware/testing/send2.ino Normal file
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#include <ModbusMaster.h>
#include <SoftwareSerial.h>
// Define the pins for SoftwareSerial communication
#define RX_PIN 3 // RX pin for SoftwareSerial
#define TX_PIN 4 // TX pin for SoftwareSerial
#define TX_ENABLE_PIN 2 // Pin to control RS485 direction
#define DE_ENABLE_PIN 5
// Create a SoftwareSerial object
SoftwareSerial modbusSerial(RX_PIN, TX_PIN);
// Create an instance of the ModbusMaster class
ModbusMaster node;
// Function to control RS485 transmit enable
void preTransmission()
{
digitalWrite(TX_ENABLE_PIN, HIGH); // Enable RS485 transmit
digitalWrite(DE_ENABLE_PIN, HIGH);
}
void postTransmission()
{
digitalWrite(TX_ENABLE_PIN, LOW); // Disable RS485 transmit
digitalWrite(DE_ENABLE_PIN, LOW);
}
void setup()
{
// Initialize the built-in serial port for debugging
Serial.begin(9600);
// Initialize SoftwareSerial for Modbus communication
modbusSerial.begin(9600);
pinMode(DE_ENABLE_PIN, OUTPUT);
digitalWrite(DE_ENABLE_PIN, HIGH);
// Set the pin mode for the RS485 control pin
pinMode(TX_ENABLE_PIN, OUTPUT);
digitalWrite(TX_ENABLE_PIN, LOW);
// Modbus communication setup
node.begin(1, modbusSerial); // Slave ID = 1, use modbusSerial for RS485 communication
// Set callbacks to handle RS485 flow control
node.preTransmission(preTransmission);
node.postTransmission(postTransmission);
}
void loop()
{
static uint16_t count = 0;
uint8_t result;
uint16_t data[6];
Serial.print("Loop:");
Serial.println(count);
// Write the count value to the holding register at address 0x0001
result = node.writeSingleRegister(0x0001, count);
// Check if the write was successful
if (result == node.ku8MBSuccess)
{
Serial.print("Write successful: ");
Serial.println(count);
}
else
{
Serial.print("Write error: ");
Serial.println(result, HEX);
}
// Increment the count value
count++;
// Delay before the next read cycle
delay(1000);
}

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firmware/testing/serial1.ino Normal file
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/*-----( Import needed libraries )-----*/
#include <SoftwareSerial.h>
/*-----( Declare Constants and Pin Numbers )-----*/
#define SSerialRX 13 //Serial Receive pin
#define SSerialTX 12 //Serial Transmit pin
#define SSerialTxControl 4 //RS485 Direction control
#define RS485Transmit HIGH
#define RS485Receive LOW
#define Pin13LED 9
/*-----( Declare objects )-----*/
SoftwareSerial RS485Serial(SSerialRX, SSerialTX); // RX, TX
/*-----( Declare Variables )-----*/
int byteReceived;
int byteSend;
void setup() /****** SETUP: RUNS ONCE ******/
{
// Start the built-in serial port, probably to Serial Monitor
Serial.begin(9600);
Serial.println("Remote connector"); // Can be ignored
pinMode(Pin13LED, OUTPUT);
pinMode(SSerialTxControl, OUTPUT);
digitalWrite(SSerialTxControl, RS485Receive); // Init Transceiver
// Start the software serial port, to another device
RS485Serial.begin(9600); // set the data rate
}//--(end setup )---
void loop() /****** LOOP: RUNS CONSTANTLY ******/
{
//Copy input data to output
if (RS485Serial.available())
{
byteSend = RS485Serial.read(); // Read the byte
digitalWrite(Pin13LED, HIGH); // Show activity
delay(1);
digitalWrite(Pin13LED, LOW);
digitalWrite(SSerialTxControl, RS485Transmit); // Enable RS485 Transmit
RS485Serial.write(byteSend); // Send the byte back
//delay(10);
digitalWrite(SSerialTxControl, RS485Receive); // Disable RS485 Transmit
Serial.println("Bounce");
Serial.println(byteSend);
// delay(100);
}// End If RS485SerialAvailable
}//--(end main loop )---

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firmware/testing/serial2.ino Normal file
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/*-----( Import needed libraries )-----*/
#include <SoftwareSerial.h>
/*-----( Declare Constants and Pin Numbers )-----*/
#define SSerialRX 13 //Serial Receive pin
#define SSerialTX 12 //Serial Transmit pin
#define SSerialTxControl 4 //RS485 Direction control
#define RS485Transmit HIGH
#define RS485Receive LOW
#define Pin13LED 9
/*-----( Declare objects )-----*/
SoftwareSerial RS485Serial(SSerialRX, SSerialTX); // RX, TX
/*-----( Declare Variables )-----*/
int byteReceived;
int byteSend;
void setup() /****** SETUP: RUNS ONCE ******/
{
// Start the built-in serial port, probably to Serial Monitor
Serial.begin(9600);
Serial.println("Master connector");
pinMode(Pin13LED, OUTPUT);
pinMode(SSerialTxControl, OUTPUT);
digitalWrite(SSerialTxControl, RS485Receive); // Init Transceiver
// Start the software serial port, to another device
RS485Serial.begin(9600); // set the data rate
}//--(end setup )---
void loop() /****** LOOP: RUNS CONSTANTLY ******/
{
digitalWrite(Pin13LED, HIGH); // Show activity
if (Serial.available())
{
byteReceived = Serial.read();
digitalWrite(SSerialTxControl, RS485Transmit); // Enable RS485 Transmit
RS485Serial.write(byteReceived); // Send byte to Remote Arduino
digitalWrite(Pin13LED, LOW); // Show activity
//Serial.println("\nRead Local");
delay(10);
digitalWrite(SSerialTxControl, RS485Receive); // Disable RS485 Transmit
}
if (RS485Serial.available()) //Look for data from other Arduino
{
digitalWrite(Pin13LED, HIGH); // Show activity
byteReceived = RS485Serial.read(); // Read received byte
Serial.println("Received ");
Serial.write(byteReceived); // Show on Serial Monitor
delay(10);
digitalWrite(Pin13LED, LOW); // Show activity
}
}//--(end main loop )---
/*-----( Declare User-written Functions )-----*/
//NONE
//*********( THE END )***********