16路12位PWM信号发生器 PCA 9685
节省主机资源,值得拥有。此舵机驱动板使用PCA9685芯片,是16通道12bit PWM舵机驱动,用2个引脚通过I2C就可以驱动16个舵机。
强大如斯!
先对单个舵机尝试一下,了解一下PWM
20ms周期 = 频率为50Hz
单个舵机例程1:
非常简单的舵机例子,实现效果是使得电机转动:
#include <Servo.h>
#define PIN_SERVO 10
Servo myservo;
void setup()
{
myservo.attach(PIN_SERVO);
}
void loop()
{
myservo.write(0);
delay(1000);
myservo.write(80);
delay(1000);
myservo.write(160);
delay(1000);
myservo.write(80);
delay(1000);
myservo.write(0);
delay(1000);
}
单个舵机例程2:
#include <Servo.h>
#define PIN_SERVO 9
int i=0;
Servo myservo;
void setup()
{
myservo.attach(PIN_SERVO);
}
void loop()
{
for(i=0;i<160;i++)
{
myservo.write(i);
delay(30);
}
for(i=160;i>0;i--)
{
myservo.write(i);
delay(30);
}
delay(1000);
}
单个舵机使用板上的I/O口就可以,可是舵机多了呢?
来学习PCA 9685
主要参数以及引脚定义:
电压:舵机供电5-7v,接受高一点的电压。
大多数的舵机设计电压都是在5~6V,尤其在多个舵机同时运行时,跟需要有大功率的电源供电。如果直接使用Arduino
5V引脚直接为舵机供电,会出现一些难以预测的问题,所以我们建议你能有个合适的外部电源为驱动板供电。
逻辑电路电压:3-5V
通信接口:使用i2c通信,就是SCL、SDA引脚
7位的I2C地址为:0x40 + A5:A0,A5到A0如果不做任何处理的话是0,想要把哪一位置1就把那个引脚焊到一起。另外用i2cdetect检测出还有一个0x70地址一直存在,这是一个通用地址,可以给所有从机下达指令。
OE反使能脚:这个引脚低电平使能,不接的话模块内部默认已经接地使能了,所以正常使用可以不接。
工作频率:40-1000HZ
接线图:
注意!!!下面例子需要用到外部库文件,如果你IDE没有,那么下载这个并放在安装路径的文档—arduino-libraries路径下面
16路舵机驱动板资料(内含模块级联说明):https://pan.baidu.com/s/1gfhFGDP
例子程序1
(有时间就简化一下,好像还不是最好的例子)
16路舵机同时转动。原理是定义脉宽最大和最小,通过改变0-15号舵机的脉宽大小实现角度转动
/***************************************************
This is an example for our Adafruit 16-channel PWM & Servo driver
Servo test - this will drive 16 servos, one after the other
这是我们的Adafruit 16通道PWM和伺服驱动器的一个例子,驱动16个伺服电机
Pick one up today in the adafruit shop!
------> 链接
These displays use I2C to communicate, 2 pins are required to
interface. For Arduino UNOs, thats SCL -> Analog 5, SDA -> Analog 4
这些显示器使用I2C进行通信,需要2个引脚。
接口。对于ARDUINO UNOS,这是SCL->模拟5,SDA - >模拟4
****************************************************/
#include <Wire.h>
#include <Adafruit_PWMServoDriver.h>
// called this way, it uses the default address 0x40
以这种方式调用,它使用默认地址0x40。
Adafruit_PWMServoDriver pwm = Adafruit_PWMServoDriver();
// you can also call it with a different address you want
//Adafruit_PWMServoDriver pwm = Adafruit_PWMServoDriver(0x41);
//也可以用不同的地址调用它
/* 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!*/
/*根据你的伺服制作,脉冲宽度最小和最大可能变化,你想要这些尽可能小大而不碰到
硬停止,对于最大范围。你必须调整它们以匹配你的伺服系统!*/
#define SERVOMIN 150 // this is the 'minimum' pulse length count (out of 4096)
//这是“最小”脉冲长度计数(在4096)中
#define SERVOMAX 600 // this is the 'maximum' pulse length count (out of 4096)
//这是“最大”脉冲长度计数(在4096中)
// our servo # counter
//uint8_t servonum = 0;
void setup() {
Serial.begin(9600);
Serial.println("16 channel Servo test!");
pwm.begin();
pwm.setPWMFreq(60); // Analog servos run at ~60 Hz updates
模拟伺服在60赫兹更新下运行
}
// 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. its not precise!
//如果您想以秒为单位设置脉冲长度,则可以使用此函数。
//例如SET伺服脉冲(0,0.001)是一个1毫秒的脉冲宽度。它不是
void setServoPulse(uint8_t n, double pulse) {
double pulselength;//精度浮点数
pulselength = 1000000; // 1,000,000 us per second 每秒100万
pulselength /= 60; // 60 Hz
Serial.print(pulselength); Serial.println(" us per period");
pulselength /= 4096; // 12 bits of resolution 12位分辨率
Serial.print(pulselength); Serial.println(" us per bit");
pulse *= 1000;
pulse /= pulselength;
Serial.println(pulse);
pwm.setPWM(n, 0, pulse);
}
void loop() {
// Drive each servo one at a time
//Serial.println(servonum);
//每次驱动一个伺服驱动器
//串行打印(伺服);
for (uint16_t pulselen = SERVOMIN; pulselen < SERVOMAX; pulselen++) {
pwm.setPWM(0, 0, pulselen);
pwm.setPWM(1, 0, pulselen);
pwm.setPWM(2, 0, pulselen);
pwm.setPWM(3, 0, pulselen);
pwm.setPWM(4, 0, pulselen);
pwm.setPWM(5, 0, pulselen);
pwm.setPWM(6, 0, pulselen);
pwm.setPWM(7, 0, pulselen);
pwm.setPWM(8, 0, pulselen);
pwm.setPWM(9, 0, pulselen);
pwm.setPWM(10, 0, pulselen);
pwm.setPWM(11, 0, pulselen);
pwm.setPWM(12, 0, pulselen);
pwm.setPWM(13, 0, pulselen);
pwm.setPWM(14, 0, pulselen);
pwm.setPWM(15, 0, pulselen);
}
delay(500);
for (uint16_t pulselen = SERVOMAX; pulselen > SERVOMIN; pulselen--) {
pwm.setPWM(0, 0, pulselen);
pwm.setPWM(1, 0, pulselen);
pwm.setPWM(2, 0, pulselen);
pwm.setPWM(3, 0, pulselen);
pwm.setPWM(4, 0, pulselen);
pwm.setPWM(5, 0, pulselen);
pwm.setPWM(6, 0, pulselen);
pwm.setPWM(7, 0, pulselen);
pwm.setPWM(8, 0, pulselen);
pwm.setPWM(9, 0, pulselen);
pwm.setPWM(10, 0, pulselen);
pwm.setPWM(11, 0, pulselen);
pwm.setPWM(12, 0, pulselen);
pwm.setPWM(13, 0, pulselen);
pwm.setPWM(14, 0, pulselen);
pwm.setPWM(15, 0, pulselen);
}
delay(500);
}
例子程序2:
#include <Wire.h>
#include <Adafruit_PWMServoDriver.h>
// called this way, it uses the default address 0x40
Adafruit_PWMServoDriver pwm = Adafruit_PWMServoDriver();
// our servo # counter
//uint8_t servonum = 0;
void setup() {
Serial.begin(9600);
Serial.println("16 channel Servo test!");
pwm.begin();
pwm.setPWMFreq(50); // Analog servos run at ~50 Hz updates模拟伺服运行在50赫兹更新
}
void loop() {
//setServoPulse(0, 0.001);
//setServoPulseMS(1, 50);
pwm.setPin(0,0,0);
pwm.setPin(1,4096,0);
pwm.setPin(2,(0.5/20.0)*4096,0);
}
IDE自带例程:
/***************************************************
This is an example for our Adafruit 16-channel PWM & Servo driver
PWM test - this will drive 16 PWMs in a 'wave'
Pick one up today in the adafruit shop!
------> 链接
These displays use I2C to communicate, 2 pins are required to
interface. For Arduino UNOs, thats SCL -> Analog 5, SDA -> Analog 4
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
这是我们的AdfRuIT 16通道PWM和伺服驱动器的一个例子。
PWM测试-这将驱动16个波姆斯在“波”
今天在AdfRuIT商店挑选一个!
------HTTP://www. AdAfRuIT.COM/PROSTS/815
这些显示器使用I2C进行通信,需要2个引脚。
接口。对于ARDUINO UNOS,这是SCL->模拟5,SDA - >模拟4
ADAFRUIT投入时间和资源来提供这个开源代码,
请通过购买支持AdfRuIT和开源硬件
来自AdfRuIT的产品!
由Limor Fray/Lajayad撰写的AdfuRIT产业。
BSD许可证,以上所有文本必须包含在任何再分配中
***********************************************/
#include <Wire.h>
#include <Adafruit_PWMServoDriver.h>
//以这种方式调用,它使用默认地址0x40。
// 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);
//你也可以用不同的地址称呼它。
//ADAFRUITIGPWM伺服驱动器PWM=ADAFRUITIGPWM伺服驱动器(0x41);
void setup() {
Serial.begin(9600);
Serial.println("16 channel PWM test!");
// if you want to really speed stuff up, you can go into 'fast 400khz I2C' mode
// some i2c devices dont like this so much so if you're sharing the bus, watch
// out for this!
//如果你真的想加快速度,你可以进入“快速400千赫I2C”模式。
//一些I2C设备不太喜欢这个,所以如果你在共享公共汽车,请注意。
//为了这个!
pwm.begin();
pwm.setPWMFreq(1600); // This is the maximum PWM frequency这是最大PWM频率
// save I2C bitrate
uint8_t twbrbackup = TWBR;
// must be changed after calling Wire.begin() (inside pwm.begin())
//保存I2C比特率
//必须在调用Word.No.2之后更改(内部PWM(开始))
TWBR = 12; // upgrade to 400KHz!升级到400千赫!
}
void loop() {
// Drive each PWM in a 'wave'
//在“波”中驱动每个PWM
for (uint16_t i=0; i<4096; i += 8) { //i=i+8
for (uint8_t pwmnum=0; pwmnum < 16; pwmnum++) {
pwm.setPWM(pwmnum, 0, (i + (4096/16)*pwmnum) % 4096 ); //%求余数 x = 7 % 5; //x=2,余数为2,如果i=8,pwmnum=2,(8+256*2)=520,520%4096
}
}
}
转载:https://blog.csdn.net/qq_42807924/article/details/82229997
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