// // FILE: PCA9685_test02.ino // AUTHOR: Rob Tillaart // DATE: 24-APR-2016 // VERSION: 0.1.2 // PUPROSE: test PCA9685 library // #include "PCA9685.h" PCA9685 ledArray(0x40); void setup() { Wire.begin(); ledArray.begin(); Serial.begin(115200); Serial.println(__FILE__); Serial.print("PCA9685 LIB version: "); Serial.println(PCA9685_LIB_VERSION); Serial.println(); testDigitalWrite(HIGH); testPWM(0); testPWMMode(); testFrequency(); delay(2000); testDigitalWrite(LOW); Serial.print(millis()); Serial.print("\t"); Serial.println("done..."); } void testDigitalWrite(uint8_t mode) { Serial.print(millis()); Serial.print("\t"); Serial.println(__FUNCTION__); for (int channel = 0; channel < 16; channel++) { ledArray.digitalWrite(channel, mode); delay(100); } } void testPWM(uint8_t channel) { Serial.print(millis()); Serial.print("\t"); Serial.println(__FUNCTION__); uint16_t i = 0; while (i < 4096) { ledArray.setPWM(channel, 0, i); delay(1); i++; } while (i > 0) { ledArray.setPWM(channel, 0, i); delay(1); i--; } } void testPWMMode() { Serial.print(millis()); Serial.print("\t"); Serial.println(__FUNCTION__); for (uint16_t channel = 1; channel < 16; channel++) { // every next line ~twice as much time ledArray.setPWM(channel, channel * 127, channel * 255); uint16_t a = 0, b = 0; ledArray.getPWM(channel, &a, &b); if (a != channel * 127 || b != channel * 255) { Serial.print("Error channel:\t"); Serial.println(channel); } } } void testFrequency() { Serial.print(millis()); Serial.print("\t"); Serial.println(__FUNCTION__); ledArray.setPWM(0, 1000, 3000); for (uint16_t freq = 12; freq < 2000; freq *= 2) { Serial.print(freq); ledArray.setFrequency(freq); // if freq is out of range => report if (ledArray.getFrequency() != freq) { Serial.print("\tconstrained to : "); Serial.println(ledArray.getFrequency()); } else { Serial.println("\tOK"); } delay(2000); } ledArray.setOFF(0); Serial.println(); } void loop() { //testPWM(0); } // -- END OF FILE --