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Below is a you can use for a blog, tutorial, or documentation. RF24 Script: Understanding Startup Range and GK Range 1. Introduction to RF24 and nRF24L01 Modules The RF24 library is the most common Arduino/C++ library for interfacing with nRF24L01 transceiver modules (2.4 GHz). These modules are popular in IoT, RC controls, and sensor networks due to their low cost and decent range (up to ~100m line-of-sight with PA+LNA antennas).
void setup() Serial.begin(9600); radio.begin(); radio.setChannel(100); radio.setPALevel(RF24_PA_MAX); // start with max power radio.setDataRate(RF24_250KBPS); // slower rate = longer range radio.openWritingPipe(address); radio.stopListening(); Script RF24- alcance de arranque- alcance de GK...
// Range thresholds int startupRangeOK = 0; // distance where first ACK received int GKrange = 0; // distance where packet loss > 50% Below is a you can use for a
// Optional: compute packet loss rate over 100 packets // If loss > 50% => that distance is beyond GK range. These modules are popular in IoT, RC controls,
if (success) Serial.print("ACK received. Payload: "); Serial.println(payload); // Here you would update startupRangeOK or GKrange based on distance input // For manual testing: enter distance from serial monitor else Serial.println("Transmission failed – beyond GK range?");
void loop() static unsigned long lastSend = 0; if (millis() - lastSend >= 1000) lastSend = millis();
void setup() Serial.begin(9600); radio.begin(); radio.setChannel(100); radio.setPALevel(RF24_PA_MAX); radio.setDataRate(RF24_250KBPS); radio.openReadingPipe(0, address); radio.startListening();
