Lähettimen lähdekoodi V2: Difference between revisions
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Created page with "=== Versiohistoria === ==== 2.0 ==== Lisätty CRC-16 tarkistussummafunktio. Lähettää singalin 4-10 sekunnin välein, jolla tarkoitus pienentää paristojen kulutusta. Voisi implementoida suoraan virransäästöominaisuudet.<syntaxhighlight lang="c#"> #include <CRC16.h> // include CRC16 library #include <RH_ASK.h> // include RadioHead library RH_ASK rf_driver(1000, 11, 12, 10); // speed = 1000 bits/sec, tx pin = 12 byte data[4]; // create byte..." |
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Revision as of 14:42, 3 October 2025
Versiohistoria
2.0
Lisätty CRC-16 tarkistussummafunktio. Lähettää singalin 4-10 sekunnin välein, jolla tarkoitus pienentää paristojen kulutusta. Voisi implementoida suoraan virransäästöominaisuudet.
#include <CRC16.h> // include CRC16 library
#include <RH_ASK.h> // include RadioHead library
RH_ASK rf_driver(1000, 11, 12, 10); // speed = 1000 bits/sec, tx pin = 12
byte data[4]; // create byte array to store DIP switch values
uint16_t checksumValue; // variable to store the checksum value
void setup() {
Serial.begin(9600);
randomSeed(analogRead(A0)); // seed the random number generator with noise from an unconnected analog pin
pinMode(2, INPUT_PULLUP); // set DIP switch pins as input pull-up
pinMode(3, INPUT_PULLUP);
pinMode(4, INPUT_PULLUP);
pinMode(5, INPUT_PULLUP);
data[0] = digitalRead(2); // read DIP switches and store in the array
data[1] = digitalRead(3);
data[2] = digitalRead(4);
data[3] = digitalRead(5);
CRC16 crc; // create an instance of CRC16 class with default parameters (you can customize them if needed)
crc.add(data, sizeof(data)); // add the DIP switch values to the CRC calculation
checksumValue = crc.calc(); // calculate CRC-16 checksum value for the DIP switch values
Serial.print("DIP switches: ");
Serial.print(data[0]);
Serial.print(", ");
Serial.print(data[1]);
Serial.print(", ");
Serial.print(data[2]);
Serial.print(", ");
Serial.println(data[3]);
Serial.print("CRC-16 checksum value: 0x");
Serial.println(checksumValue, HEX);
//rf_driver.init(); // initialize the radio driver
if (!rf_driver.init()) { // initialize the radio driver and check for errors
Serial.println("RF driver initialization failed.");
while (1); // stop execution in case of failure
} else {
Serial.println("RF driver initialized successfully.");
}
}
void loop() {
rf_driver.send((uint8_t*)&checksumValue, sizeof(checksumValue)); // send the checksum value first
rf_driver.waitPacketSent(); // wait for the packet to be sent
Serial.println(checksumValue, HEX);
rf_driver.send(data, sizeof(data)); // then send the DIP switch values
rf_driver.waitPacketSent(); // wait for the packet to be sent
Serial.print("DIP switches: ");
Serial.print(data[0]);
Serial.print(", ");
Serial.print(data[1]);
Serial.print(", ");
Serial.print(data[2]);
Serial.print(", ");
Serial.println(data[3]);
delay(random(4000, 10000)); // add random delay of between 4-10 seconds before transmitting again
Serial.println("ping");
}
