设备(模块)驱动开发实例
| 端口/模组 | ESP32 | DevelopKit |
|---|---|---|
| GPIO | Y | Y |
| PWM | Y | N |
| ADC | Y | N |
| DAC | Y | N |
| UART | Y | Y |
| I2C | N | Y |
| RTC | Y | Y |
| WDG | Y | N |
无
/*apps/js/board_config.json*/
{
"GPIO":[
{
"id":"gled",
"port":60,
"dir":0,
"pull":1
}
]
}print('start gled test.....................');
var gled_level = 0;
var gled_handle = GPIO.open('gled');
setInterval(function() {
GPIO.write(gled_level,1-gled_level);
gled_level = 1-gled_level;
}, 5000);
print('end gled test........................');gled 间隔5s进行闪烁。
无
/*apps/js/board_config.json*/
{
"GPIO":[
{
"id":"key",
"port":74,
"dir":2,
"pull":1
}
]
}print('start key test.....................');
var key_handle = GPIO.open('key');
GPIO.on(key_handle,'both',function(value){
console.log('key_value:'+value);
});
print('end key test........................');按压按键,PC端串口软件能捕获按下状态。
无
/*apps/js/board_config.json*/
{
"I2C":[{
"id":"shtc1",
"port":2,
"address_width":7,
"freq":100000,
"mode":1,
"dev_addr":224
}],
}print('start i2c test.....................');
setInterval(function() {
var shtc1Handle = I2C.open('shtc1');
var Reg=[0xEF,0xC8];
I2C.write(shtc1Handle,Reg);
var retArray=I2C.read(shtc1Handle,2);
console.log('ID:'+retArray[1]);
Reg[0]=0x80;
Reg[1]=0x5D;
I2C.write(shtc1Handle,Reg);
Reg[0]=0x7C;
Reg[1]=0xA2;
I2C.write(shtc1Handle,Reg);
var TempHumm = I2C.read(shtc1Handle,6);
console.log('read len:'+TempHumm.length);
var i =0;
for(i=0;i<TempHumm.length;i++){
console.log('rawData['+i+']:'+TempHumm[i]);
}
I2C.close(shtc1Handle);
}, 2000);
print('end i2c test........................');每隔2s,程序会去读取SHTC1的温度和湿度的裸数据,用手触摸SHTC1传感器,其裸值将会改变。
1)developerkit开发板;
无
{
"I2C":[
{
"id":"ltr553",
"port":2,
"address_width":7,
"freq":200000,
"mode":1,
"dev_addr":70
}
]
}/*samples/js/ltr553.js*/
var ltr553_Handle = I2C.open('ltr553');
setInterval(function(){
HW.getltr553(ltr553_Handle,function(als,ps){
console.log('ltr553:als='+als+' ps='+ps);
});
},3000);间隔3s打印当光强&距离值,当有物体靠近该传感器时,ps值会发生相应的改变。
1)developerkit开发板;
无
{
"I2C":[
{
"id":"mmc3680kj",
"port":1,
"address_width":7,
"freq":400000,
"mode":1,
"dev_addr":96
}
]
}/*samples/js/mmc3680kj.js*/
var mmc3680kj_Handle = I2C.open('mmc3680kj');
setInterval(function(){
HW.getMmc3680kj(mmc3680kj_Handle,function(x,y,z){
console.log('mmc3680kj:x='+x+' y='+y + ' z='+z);
});
},3000);间隔3s打印当前磁力计xyz三轴的值:
1)DeveloperKit开发板
无
{
"I2C":[
{
"id":"lsm6dsl",
"port":1,
"address_width":7,
"freq":400000,
"mode":1,
"dev_addr":214
}
]
}/*samples/js/lsm6dsl.js*/
var lsm6dsl_Handle = I2C.open('lsm6dsl');
setInterval(function(){
var acc = HW.getLsm6dslAcc(lsm6dsl_Handle);
console.log('gx='+acc[0] + ' gy='+acc[1] + ' gz='+acc[2]);
var gyro = HW.getLsm6dslGyro(lsm6dsl_Handle);
console.log('x='+gyro[0] + ' y='+gyro[1] + ' z='+gyro[2]);
},3000);间隔3s打印当前加速度xyz三轴值、陀螺仪xyz三轴值:
1)developerkit开发板;
无
{
"I2C":[
{
"id":"bmp280",
"port":2,
"address_width":7,
"freq":400000,
"mode":1,
"dev_addr":238
}
]
}
/*samples/js/bmp280.js*/
var bmp280_Handle = I2C.open('bmp280');;
setInterval(function(){
var pressValue = HW.getBmp280(bmp280_Handle);
console.log('pressureValue:'+pressValue+'hPa');
},3000);
间隔2s打印当前环境的气压值:
1)developerkit开发板; 2)FT232串口模块;
TX引脚 连接 FT232 的RX引脚; RX引脚 连接 FT232 的TX引脚; VCC引脚 连接 FT232 的VCC引脚; GND引脚 连接 FT232 的GND引脚;
/*apps/js/board_config.json*/
{
"UART":[
{
"id":"uart2",
"port":2,
"data_width":3,
"baud_rate":115200,
"stop_bits":0,
"flow_control":0,
"parity_config":0
}
]
}var handle=UART.open('uart2');
if(handle>0){
var value = UART.write(handle,'hello\r\n');
UART.on(handle,function(data){
console.log(data);
});
} else {
console.log('open uart2 fail!');
}FT232连接PC端的串口软件,可以进行数据的接收和发送。
1)developerkit开发板; 2)ds1307模块;
developerKit 的VCC引脚连接DS1307模块的VCC; developerKit 的GND引脚连接DS1307模块的GND; developerKit 的SCL引脚连接DS1307模块的SCL; developerKit 的SDA引脚连接DS1307模块的SDA;
无
print('start rtc test.....................');
RTC.open();
RTC.setTime({'year':18,'month':4,'day':29,'hour':12,'minute':57,'second':0});
setInterval(function() {
var rtcdata = RTC.getTime();
console.log(rtcdata.year+'/'+rtcdata.month+'/'+rtcdata.day+':'+rtcdata.second);
}, 2000);
print('start end test.....................');
1)ESP32开发板; 2)DHT11模块;
EPS32 IO19引脚 连接 DHT11模块的OUT引脚; EPS32 GND引脚 连接 DHT11模块的GND引脚; EPS32 3.3V引脚 连接 按键模块的VCC引脚;
/*apps/js/board_config.json*/
{
"GPIO":[
{
"id":"dht11",
"port":19,
"dir":3,
"pull":1
}
]
}/*samples/js/dht11.js*/
var dht11_handle = GPIO.open('dht11');
setInterval(function() {
var dht11_buff = HW.getDht11(dht11_handle);
console.log('dht11->hum:'+dht11_buff[0]+ ' temp:'+dht11_buff[1]);
}, 5000);系统每间隔5s打印温湿度值。
1)ESP32开发板; 2)按键模块;
EPS32 IO23引脚 连接 按键模块的OUT引脚; EPS32 GND引脚 连接 按键模块的GND引脚; EPS32 3.3V引脚 连接 按键模块的VCC引脚;
/*apps/js/board_config.json*/
{
"GPIO":[
{
"id":"key",
"port":23,
"dir":2,
"pull":1
}
]
}print('start key test.....................');
var key_handle = GPIO.open('key');
GPIO.on(key_handle,'both',function(value){
print('key_value:'+value);
});
print('end key test........................');按下按键,终端会打印对应的状态
EPS32 IO4引脚 连接 无源蜂鸣器模块的'+'引脚; EPS32 GND引脚 连接 无源蜂鸣器模块的GND引脚;
/*apps/js/board_config.json*/
{
"PWM":[
{
"id":"buzzer",
"port":4,
"freq":5000,
"duty":50
}
]
}/*samples/js/buzzer.js*/
print('buzzer uart test.....................');
var buzzer_handle=PWM.start('buzzer');
var cur_duty = PWM.getDuty(buzzer_handle);
console.log('cur_duty:'+cur_duty);
setInterval(function() {
cur_duty += 1;
if(cur_duty >= 100)cur_duty=0;
PWM.setDuty(buzzer_handle,cur_duty);
}, 500);
print('end buzzer test........................');蜂鸣器声音由弱到强转换。
1)esp32Kit开发板 2)光敏模块
EPS32 IO34引脚 连接 按键模块的OUT引脚; EPS32 GND引脚 连接 按键模块的GND引脚; EPS32 3.3V引脚 连接 按键模块的VCC引脚;
/*apps/js/board_config.json*/
{
"ADC":[
{
"id":"light",
"port":34,
"sampling":12000000
}
]
}var light_handle = ADC.open('light');
setInterval(function(){
var i = 0;
var LigthValue = 0;
for(i=0;i<10;i++){
LigthValue += ADC.read(light_handle);
}
LigthValue = LigthValue/10;
if(LigthValue > 4500){
LigthValue = 4500;
}
LigthValue = 100 - LigthValue/45;
console.log('LigthValue:'+LigthValue);
},5000);光敏范围:0-100,越大代表亮度越强。
1)esp32Kit开发板 2)LED模块
EPS32 IO25引脚 连接 LED模块的正极; EPS32 GND引脚 连接 LED模块的负极;
/*apps/js/board_config.json*/
{
"DAC":[
{
"id":"led",
"port":1,
"voltage":255
}
]
}var led_handle = DAC.open('led');
var cur_voltage = DAC.getVol(led_handle);
console.log('cur_voltage:'+cur_voltage);
setInterval(function(){
cur_voltage = cur_voltage + 1;
if(cur_voltage >= 255){
cur_voltage = 0;
}
DAC.setVol(led_handle,cur_voltage);
},50);LED亮度由弱变强,当低于某个值是,LED完全熄灭;
1)ESP32开发板; 2)FT232串口模块;
EPS32 IO32引脚 连接 FT232 的RX引脚; EPS32 IO33引脚 连接 FT232 的TX引脚; ESP32 3.3v引脚 连接 FT232 的VCC引脚; ESP32 GND引脚 连接 FT232 的GND引脚;
/*apps/js/board_config.json*/
{
"UART":[
{
"id":"uart2",
"port":2,
"data_width":3,
"baud_rate":115200,
"stop_bits":0,
"flow_control":0,
"parity_config":0
}
]
}/*js*/
print('start uart test.....................');
setInterval(function() {
var handle=UART.open('uart2');
if(handle>0){
var value = UART.write(handle,'hello\r\n');
UART.close(handle);
} else {
console.log('open uart2 fail!');
}
}, 2000);
print('end uart test........................');FT232连接PC端的串口软件,可以进行数据的发送。
1)esp32Kit开发板
无
无
print('start rtc test.....................');
RTC.open();
RTC.setTime({'year':18,'month':4,'day':29,'hour':12,'minute':57,'second':0});
setInterval(function() {
var rtcdata = RTC.getTime();
console.log(rtcdata.year+'/'+rtcdata.month+'/'+rtcdata.day+':'+rtcdata.second);
}, 2000);
print('start end test.....................');每间隔2秒打印一次时间。
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