arduino驱动16路舵机
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板子可以级练控制多个
安装库
/*************************************************** This is an example for our Adafruit 16-channel PWM & Servo driver Servo test - this will drive 8 servos, one after the other on the first 8 pins of the PCA9685 Pick one up today in the adafruit shop! ------> http://www.adafruit.com/products/815 These drivers use I2C to communicate, 2 pins are required to interface. Adafruit invests time and resources providing this open source code, please support Adafruit and open-source hardware by purchasing products from Adafruit! Written by Limor Fried/Ladyada for Adafruit Industries. BSD license, all text above must be included in any redistribution ****************************************************/ #include <Wire.h> #include <Adafruit_PWMServoDriver.h> // called this way, it uses the default address 0x40 Adafruit_PWMServoDriver pwm = Adafruit_PWMServoDriver(); // you can also call it with a different address you want //Adafruit_PWMServoDriver pwm = Adafruit_PWMServoDriver(0x41); // you can also call it with a different address and I2C interface //Adafruit_PWMServoDriver pwm = Adafruit_PWMServoDriver(0x40, Wire); // Depending on your servo make, the pulse width min and max may vary, you // want these to be as small/large as possible without hitting the hard stop // for max range. You‘ll have to tweak them as necessary to match the servos you // have! #define SERVOMIN 150 // This is the ‘minimum‘ pulse length count (out of 4096) #define SERVOMAX 600 // This is the ‘maximum‘ pulse length count (out of 4096) #define USMIN 600 // This is the rounded ‘minimum‘ microsecond length based on the minimum pulse of 150 #define USMAX 2400 // This is the rounded ‘maximum‘ microsecond length based on the maximum pulse of 600 #define SERVO_FREQ 50 // Analog servos run at ~50 Hz updates // our servo # counter uint8_t servonum = 0; void setup() { Serial.begin(9600); Serial.println("8 channel Servo test!"); pwm.begin(); // In theory the internal oscillator is 25MHz but it really isn‘t // that precise. You can ‘calibrate‘ by tweaking this number till // you get the frequency you‘re expecting! pwm.setOscillatorFrequency(27000000); // The int.osc. is closer to 27MHz pwm.setPWMFreq(SERVO_FREQ); // Analog servos run at ~50 Hz updates delay(10); } // You can use this function if you‘d like to set the pulse length in seconds // e.g. setServoPulse(0, 0.001) is a ~1 millisecond pulse width. It‘s not precise! void setServoPulse(uint8_t n, double pulse) { double pulselength; pulselength = 1000000; // 1,000,000 us per second pulselength /= SERVO_FREQ; // Analog servos run at ~60 Hz updates Serial.print(pulselength); Serial.println(" us per period"); pulselength /= 4096; // 12 bits of resolution Serial.print(pulselength); Serial.println(" us per bit"); pulse *= 1000000; // convert input seconds to us pulse /= pulselength; Serial.println(pulse); pwm.setPWM(n, 0, pulse); } void loop() { // Drive each servo one at a time using setPWM() Serial.println(servonum); for (uint16_t pulselen = SERVOMIN; pulselen < SERVOMAX; pulselen++) { pwm.setPWM(servonum, 0, pulselen); } delay(500); for (uint16_t pulselen = SERVOMAX; pulselen > SERVOMIN; pulselen--) { pwm.setPWM(servonum, 0, pulselen); } delay(500); // Drive each servo one at a time using writeMicroseconds(), it‘s not precise due to calculation rounding! // The writeMicroseconds() function is used to mimic the Arduino Servo library writeMicroseconds() behavior. for (uint16_t microsec = USMIN; microsec < USMAX; microsec++) { pwm.writeMicroseconds(servonum, microsec); } delay(500); for (uint16_t microsec = USMAX; microsec > USMIN; microsec--) { pwm.writeMicroseconds(servonum, microsec); } delay(500); servonum++; if (servonum > 3) servonum = 0; // Testing the first 8 servo channels }
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