【FireBeetle Board ESP32-E IoT 开发板试用体验】控温（2）

开发板

续前【FireBeetle Board ESP32-E IoT 开发板试用体验】控温（1）
更改程序，

/*!
*
*
*
*/
// 动态变量
#define button1 D4 //触摸按键接口定义IO27/D4
#define LED_DT D9 // Arduino输出控制信号引脚IO2/D9
#define OUT_PWM D7 // Arduino输出控制信号引脚IO13/D7
#define IN_0 0 // Arduino输入控制信号引脚（原来IO36/A0）（adc2-ch1/d5/io0）
#define KEYA_SPEED1 50 //长按的时间长度（单位10mS）总共1s 100
#define KEYA_SPEED2 10 //双击的时间长度（单位20mS） 200ms双击间隔
//RTC_DATA_ATTR int bootCount = 0; //将变量存放于RTC Memory。对于我们用户应用来说用来存储数据主要用到慢速的RTC内存。
volatile long bootCount = 0; //DF-A进行 1分，1.5分，10分状态。
volatile uint8_t b; //长按判断标志位
volatile uint8_t openState=1,c=0;//灯效模式，默认关灯。单击openState = 0;双击openState = 1;长按openState = 2;
volatile bool a=0,s=0; //刚刚结束滑动标志
volatile uint8_t mind_n_As1; //
uint64_t chipid;
unsigned long startProducing, endProducing;
volatile float mind_n_key1, mind_n_all, mind_n_oninall;
// 函数声明
void buttonACallback();
void DF_C();
void DF_B();
void DF_onoff(uint16_t mind_n_on, uint16_t mind_n_off, uint8_t mind_n_key);
void DF_A();
void button_State()
{
//A
if(!(digitalRead(button1))){ //检测按键是否按下
delay(20); //延时去抖动
if(!(digitalRead(button1))){//判断长短键
while((!(digitalRead(button1)))&&(c
c++;delay(10); //长按判断的计时
// Serial.printf("A键按 %dn",c);//
}
if(c>=KEYA_SPEED1){ //长键处理循环100次为长按1s
//长按后执行的程序放到此处
openState = 2;
Serial.println("A键长按 rn");
while(!(digitalRead(button1)));//等待按键松开
}
else{ //单击处理按键A松开后
if(a==0){
for(b=0;b
delay(20);
if(!(digitalRead(button1))){//判断200ms内是否再次按下
a=1;
//双击后执行的程序放到此处
openState = 1;
Serial.println("A键双击 rn");
}
}
if(a==0){ //判断单击
if(s==1){ //判断是不是刚执行完滑动操作
s=0; //如果是则本次不执行单击处理（因为是滑动的放开操作）
}
else{ //如果不是，则正常执行单击处理
//单击后执行的程序放到此处
openState = 0;
Serial.println("A键单击 rn");
}
}
}
}
a=0;c=0; //参数清0
}
} //按键判断在此结束
}
// 主程序开始
void setup() {
pinMode(OUT_PWM, OUTPUT);
pinMode(LED_DT, OUTPUT);
// pinMode(IN_0, INPUT);
digitalWrite(OUT_PWM, LOW);//io14/d6
// onEvent(ID_BUTTON_A, PRESS, buttonACallback);
Serial.begin(115200);
Serial.println("");
delay(1000);
pinMode(button1,INPUT_PULLUP);
mind_n_key1 = 0;
// switch(esp_deep_sleep_get_wakeup_cause()) //获取唤醒原因
// {
// case ESP_DEEP_SLEEP_WAKEUP_TIMER : Serial.println("通过定时器唤醒"); break;
// case ESP_DEEP_SLEEP_WAKEUP_TOUCHPAD : Serial.println("通过触摸唤醒"); break;
// case ESP_DEEP_SLEEP_WAKEUP_EXT0 : Serial.println("通过EXT0唤醒"); break;
// case ESP_DEEP_SLEEP_WAKEUP_EXT1 : Serial.println("通过EXT1唤醒"); break;
// case ESP_DEEP_SLEEP_WAKEUP_ULP : Serial.println("通过ULP唤醒"); break;
//default : Serial.print(esp_deep_sleep_get_wakeup_cause()); Serial.println("并非从DeepSleep中唤醒"); break;
// }
Serial.print("Setup: Executing on core ");
Serial.println(xPortGetCoreID());
chipid=ESP.getEfuseMac();//The chip ID is essentially its MAC address(length: 6 bytes).
Serial.printf("ESP32 Chip ID = %04X",(uint16_t)(chipid>>32));//print High 2 bytes
Serial.printf("%08Xn",(uint32_t)chipid);//print Low 4bytes.
// Serial.printf("total heap size = %un",ESP.getHeapSize());
Serial.printf("available heap = %un",ESP.getFreeHeap());
// Serial.printf("lowest level of free heap since boot = %un",ESP.getMinFreeHeap());
// Serial.printf("largest block of heap that can be allocated at once = %un",ESP.getMaxAllocHeap());
// Serial.printf("total Psram size = %un",ESP.getPsramSize());
// Serial.printf("available Psram = %un",ESP.getFreePsram());
// Serial.printf("lowest level of free Psram since boot = %un",ESP.getMinFreePsram());
// Serial.printf("largest block of Psram that can be allocated at once = %un",ESP.getMinFreePsram());
Serial.printf("get Chip Revision = %un",ESP.getChipRevision());// uint8_t getChipRevision() 返回芯片版本号；
Serial.printf("getCpuFreqMHz = %un",ESP.getCpuFreqMHz());// uint8_t getCpuFreqMHz() 返回芯片时钟频率；
Serial.printf("get Cycle Count = %un",ESP.getCycleCount());// uint32_t getCycleCount() 返回自上电以来经过的时钟周期数（不太确定）；
Serial.printf("get SdkVersion = %sn",ESP.getSdkVersion());//const char * getSdkVersion() 返回SDK版本号；
xTaskCreate(
DF_A, /* Task function. */
"DF_A", /* String with name of task. */
20000, /* Stack size in words. */
NULL, /* Parameter passed as input of the task */
2, /* Priority of the task. */
NULL);
xTaskCreate(
buttonACallback, /* Task function. */
"buttonA", /* String with name of task. */
10000, /* Stack size in words. */
NULL, /* Parameter passed as input of the task */
3, /* Priority of the task. */
NULL);
}
void loop() {
delay(500);
digitalWrite(LED_DT, 1 ^ digitalRead(LED_DT)); //翻转输出电平
if(bootCount==0x0a55aa00){
bootCount=0x0a55aa01; //启动DeepSleep
endProducing=millis();
}
if(bootCount==0x0a55aa01){
if(millis() - endProducing > 90000){
xTaskCreate(
DF_A,
"DF_A", /* String with name of task. */
20000, /* Stack size in words. */
NULL, /* Parameter passed as input of the task */
2, /* Priority of the task. */
NULL);
}
}
if((mind_n_key1==2)) {
digitalWrite(OUT_PWM, LOW);
}
if(bootCount==1) {
delay(6);
bootCount=0;
if ((mind_n_key1==0)) {
xTaskCreate(
DF_A,
"DF_A", /* String with name of task. */
20000, /* Stack size in words. */
NULL, /* Parameter passed as input of the task */
2, /* Priority of the task. */
NULL);
}
if ((mind_n_key1==1)) {
xTaskCreate(
DF_B,
"DF_B", /* String with name of task. */
10000, /* Stack size in words. */
NULL, /* Parameter passed as input of the task */
2, /* Priority of the task. */
NULL);
}
}
}
// 自定义函数
//void DF_C(void * parameter)
//
//{
// Serial.print("Created task DF_c: Executing on core ");
// Serial.println(xPortGetCoreID());
// while (!(mind_n_key1<2)) {
// digitalWrite(OUT_PWM, LOW);
// delay(6);
// }
// if ((mind_n_key1==0)) {
//
//xTaskCreate(
// DF_A,
// "DF_A", /* String with name of task. */
// 20000, /* Stack size in words. */
// NULL, /* Parameter passed as input of the task */
// 2, /* Priority of the task. */
// NULL);
//
//
//}
// if ((mind_n_key1==1)) {
//
//
//xTaskCreate(
// DF_B,
// "DF_B", /* String with name of task. */
// 10000, /* Stack size in words. */
// NULL, /* Parameter passed as input of the task */
// 2, /* Priority of the task. */
// NULL);
//
//
//}
//
// Serial.println("删除DF_c");
// vTaskDelete( NULL ); //任务的删除
//}
void DF_B(void * parameter) {
uint16_t mind_a0_on, mind_a0_on1;
Serial.print("Created task DF_b: Executing on core ");
Serial.println(xPortGetCoreID());
while (mind_n_key1==1) {
mind_a0_on=0;
for(b=0;b<8;b++){//检测双击循环10次200ms
startProducing = ESP.getCycleCount();//开始时间
mind_a0_on1=analogRead(IN_0);
mind_a0_on+=mind_a0_on1;
endProducing = ESP.getCycleCount();//结束时间
Serial.print("mind_a0_on input A0 time all时间(CycleCount): ");
Serial.println(( endProducing - startProducing));//写入耗费时间(CycleCount)
Serial.printf("DF_b(analogRead(IN_0))%d： %d %d n",b,mind_a0_on1,mind_a0_on);//
Serial.println("");
}
DF_onoff(mind_a0_on>>5, 1023, 1);
}
// if ((mind_n_key1==0)) {
//
//xTaskCreate(
// DF_A,
// "DF_A", /* String with name of task. */
// 20000, /* Stack size in words. */
// NULL, /* Parameter passed as input of the task */
// 2, /* Priority of the task. */
// NULL);
//
//
//}
// if ((mind_n_key1==2)) {
//
//
//xTaskCreate(
// DF_C,
// "DF_C", /* String with name of task. */
// 10000, /* Stack size in words. */
// NULL, /* Parameter passed as input of the task */
// 2, /* Priority of the task. */
// NULL);
//
//
//}
bootCount = 1;
Serial.println("删除DF_b");
vTaskDelete( NULL ); //任务的删除
}
void DF_onoff(uint16_t mind_n_on, uint16_t mind_n_off, uint8_t mind_n_key) {
Serial.printf("DF_onoff Cycle Count mind_n_on:%d, uint16_t mind_n_off:%d, uint8_t mind_n_key:%dn",mind_n_on,mind_n_off, mind_n_key);//
while ((mind_n_off>0)) {
while ((mind_n_on>0)) {
digitalWrite(OUT_PWM, HIGH);
delay(6);
mind_n_off -= 1;
mind_n_on -= 1;
if (!(mind_n_key==mind_n_key1)) {
mind_n_off = 0;
mind_n_on = 0;
bootCount = 1;
}
}
if ((mind_n_off>0)) {
digitalWrite(OUT_PWM, LOW);
delay(6);
mind_n_off -= 1;
if (!(mind_n_key==mind_n_key1)) {
mind_n_off = 0;
mind_n_on = 0;
bootCount = 1;
}
}
}
}
void DF_A(void * parameter) {
Serial.print("Created task DF_A: Executing on core ");
Serial.println(xPortGetCoreID());
startProducing = millis();//开始时间
if(bootCount==0x0a55aa01){
bootCount = 0;
uint8_t mind_n_Asn = 80;
Serial.print("DF_A to 50% start Producing time 时间(ms): ");
Serial.println(( millis() - startProducing));//写入耗费时间(ms)
while (!(mind_n_Asn==0)) {
DF_onoff(490, 1023, 0);
if ((mind_n_key1==0)) {
mind_n_Asn -= 1;
}
else {
bootCount = 1;
mind_n_Asn = 0;
}
}
}
else{
mind_n_As1 = 10;
while (mind_n_As1>0) {
DF_onoff(1023, 1023, 0);
if ((mind_n_key1==0)) {
mind_n_As1 -= 1;
}
else {
mind_n_As1 = 0;
bootCount = 1;
}
}
if ((mind_n_key1==0)) {
Serial.print("DF_A 启动1分时间(ms): ");
Serial.println(( millis() - startProducing));//写入耗费时间(ms)
Serial.print("启动1.5分连续 :");
bootCount=0x0a55aa00; //启动DeepSleep
Serial.println(bootCount);
delay(1);
Serial.println("删除DF_A");
vTaskDelete( NULL ); //任务的删除
}
}
endProducing = millis();//结束时间
Serial.print("Producing time all时间(ms): ");
Serial.println(( endProducing - startProducing));//写入耗费时间(ms)
if ((mind_n_key1==0)) {
mind_n_key1 = 2;
}
// delay(1);
// if ((mind_n_key1==1)) {
//
//
//xTaskCreate(
// DF_B,
// "DF_B", /* String with name of task. */
// 10000, /* Stack size in words. */
// NULL, /* Parameter passed as input of the task */
// 2, /* Priority of the task. */
// NULL);
//
//
//}
// if ((mind_n_key1==2)) {
//
//
//xTaskCreate(
// DF_C,
// "DF_C", /* String with name of task. */
// 10000, /* Stack size in words. */
// NULL, /* Parameter passed as input of the task */
// 2, /* Priority of the task. */
// NULL);
//
//
//}
// delay(1);
Serial.println("删除DF_A");
vTaskDelete( NULL ); //任务的删除
}
// 事件回调函数
void buttonACallback(void * parameter) {
Serial.print("Created task buttonA: Executing on core ");
Serial.println(xPortGetCoreID());
while(1){
button_State();
if ((openState==0)) {
mind_n_key1 ++;
bootCount = 1;
openState=1;
if ((mind_n_key1>2)) {
mind_n_key1 = 0;
}
}
delay(100);
}
}

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项目使用了 217611 字节，占用了 (10%) 程序存储空间。最大为 2097152 字节。
全局变量使用了24340字节，(8%)的动态内存，余留270572字节局部变量。最大为294912字节。
esptool.py v2.0-dev
Connecting...
Uploading stub...
Running stub...
Stub running...
Attaching SPI flash...
Configuring flash size...
Compressed 8752 bytes to 5467...

Writing at 0x00001000... (100 %)
Wrote 8752 bytes (5467 compressed) at 0x00001000 in 0.5 seconds (effective 145.0 kbit/s)...
Hash of data verified.
Compressed 3072 bytes to 105...

Writing at 0x00008000... (100 %)
Wrote 3072 bytes (105 compressed) at 0x00008000 in 0.0 seconds (effective 1228.8 kbit/s)...
Hash of data verified.
Compressed 8192 bytes to 47...

Writing at 0x0000e000... (100 %)
Wrote 8192 bytes (47 compressed) at 0x0000e000 in 0.0 seconds (effective 3449.3 kbit/s)...
Hash of data verified.
Compressed 305504 bytes to 133649...

Writing at 0x00010000... (11 %)
Writing at 0x00014000... (22 %)
Writing at 0x00018000... (33 %)
Writing at 0x0001c000... (44 %)
Writing at 0x00020000... (55 %)
Writing at 0x00024000... (66 %)
Writing at 0x00028000... (77 %)
Writing at 0x0002c000... (88 %)
Writing at 0x00030000... (100 %)
Wrote 305504 bytes (133649 compressed) at 0x00010000 in 11.7 seconds (effective 208.5 kbit/s)...
Hash of data verified.

Leaving...
Hard resetting...

com信息

11:15:22.485 -> ets Jul 29 2019 12:21:46
11:15:22.485 ->
11:15:22.485 -> rst:0x1 (POWERON_RESET),boot:0x13 (SPI_FAST_FLASH_BOOT)
11:15:22.485 -> configsip: 0, SPIWP:0x00
11:15:22.485 -> clk_drv:0x00,q_drv:0x00,d_drv:0x00,cs0_drv:0x00,hd_drv:0x00,wp_drv:0x00
11:15:22.485 -> mode:DIO, clock div:2
11:15:22.485 -> load:0x3fff0008,len:8
11:15:22.485 -> load:0x3fff0010,len:1760
11:15:22.485 -> load:0x40078000,len:6668
11:15:22.485 -> load:0x40080000,len:252
11:15:22.485 -> entry 0x40080034
11:15:22.655 ->
11:15:23.635 -> Setup: Executing on core 1
11:15:23.635 -> ESP32 Chip ID = 944D8CBE5BC4
11:15:23.635 -> available heap = 219708
11:15:23.635 -> get Chip Revision = 1
11:15:23.635 -> getCpuFreqMHz = 240
11:15:23.635 -> get Cycle Count = 254524986
11:15:23.675 -> get SdkVersion = v2.0-rc1-803-g1e0710f1
11:15:23.675 -> Created task DF_A: Executing on core Created task buttonA: Executing on core 10
11:15:23.675 ->
11:15:23.675 -> DF_onoff Cycle Count mind_n_on:1023, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
11:15:29.805 -> DF_onoff Cycle Count mind_n_on:1023, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
11:15:35.945 -> DF_onoff Cycle Count mind_n_on:1023, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
11:15:42.065 -> DF_onoff Cycle Count mind_n_on:1023, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
11:15:48.225 -> DF_onoff Cycle Count mind_n_on:1023, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
11:15:54.355 -> DF_onoff Cycle Count mind_n_on:1023, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
11:16:00.475 -> DF_onoff Cycle Count mind_n_on:1023, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
11:16:06.645 -> DF_onoff Cycle Count mind_n_on:1023, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
11:16:12.785 -> DF_onoff Cycle Count mind_n_on:1023, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
11:16:18.905 -> DF_onoff Cycle Count mind_n_on:1023, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
11:16:25.025 -> DF_A 启动1分时间(ms): 61387
11:16:25.065 -> 启动1.5分连续 :173386240
11:16:25.065 -> 删除DF_A
11:17:55.665 -> Created task DF_A: Executing on core 0
11:17:55.665 -> DF_A to 50% start Producing time 时间(ms): 0
11:17:55.665 -> DF_onoff Cycle Count mind_n_on:490, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
11:33:46.486 -> DF_b(analogRead(IN_0))2： 366 1401
11:33:46.486 ->
11:33:46.486 -> mind_a0_on input A0 time all时间(CycleCount): 21801
11:33:46.486 -> DF_b(analogRead(IN_0))3： 381 1782
11:33:46.486 ->
11:33:46.486 -> mind_a0_on input A0 time all时间(CycleCount): 22222
11:33:46.486 -> DF_b(analogRead(IN_0))4： 301 2083
11:33:46.486 ->
11:33:46.486 -> mind_a0_on input A0 time all时间(CycleCount): 23114
11:33:46.486 -> DF_b(analogRead(IN_0))5： 303 2386
11:33:46.486 ->
11:33:46.486 -> mind_a0_on input A0 time all时间(CycleCount): 21796
11:33:46.526 -> DF_b(analogRead(IN_0))6： 318 2704
11:33:46.526 ->
11:33:46.526 -> mind_a0_on input A0 time all时间(CycleCount): 22348
11:33:46.526 -> DF_b(analogRead(IN_0))7： 258 2962
11:33:46.526 ->
11:33:46.526 -> DF_onoff Cycle Count mind_n_on:92, uint16_t mind_n_off:1023, uint8_t mind_n_key:1
11:33:52.646 -> mind_a0_on input A0 time all时间(CycleCount): 21749
11:33:52.646 -> DF_b(analogRead(IN_0))0： 465 465
11:33:52.646 ->
11:33:52.646 -> mind_a0_on input A0 time all时间(CycleCount): 22255
11:33:52.646 -> DF_b(analogRead(IN_0))1： 449 914
11:33:52.686 ->
11:33:52.686 -> mind_a0_on input A0 time all时间(CycleCount): 21856
11:33:52.686 -> DF_b(analogRead(IN_0))2： 411 1325
11:33:52.686 ->
11:33:52.686 -> mind_a0_on input A0 time all时间(CycleCount): 22617
11:33:52.686 -> DF_b(analogRead(IN_0))3： 305 1630
11:33:52.686 ->
11:33:52.686 -> mind_a0_on input A0 time all时间(CycleCount): 21769
11:33:52.686 -> DF_b(analogRead(IN_0))4： 334 1964
11:33:52.686 ->
11:33:52.686 -> mind_a0_on input A0 time all时间(CycleCount): 22393
11:33:52.686 -> DF_b(analogRead(IN_0))5： 303 2267
11:33:52.686 ->
11:33:52.686 -> mind_a0_on input A0 time all时间(CycleCount): 21805
11:33:52.726 -> DF_b(analogRead(IN_0))6： 285 2552
11:33:52.726 ->
11:33:52.726 -> mind_a0_on input A0 time all时间(CycleCount): 21763
11:33:52.726 -> DF_b(analogRead(IN_0))7： 326 2878
11:33:52.726 ->
11:33:52.726 -> DF_onoff Cycle Count mind_n_on:89, uint16_t mind_n_off:1023, uint8_t mind_n_key:1
11:33:58.846 -> mind_a0_on input A0 time all时间(CycleCount): 22058
11:33:58.846 -> DF_b(analogRead(IN_0))0： 548 548
11:33:58.846 ->
11:33:58.846 -> mind_a0_on input A0 time all时间(CycleCount): 21799
11:33:58.886 -> DF_b(analogRead(IN_0))1： 511 1059
11:33:58.886 ->
11:33:58.886 -> mind_a0_on input A0 time all时间(CycleCount): 22231
11:33:58.886 -> DF_b(analogRead(IN_0))2： 370 1429
11:33:58.886 ->
11:33:58.886 -> mind_a0_on input A0 time all时间(CycleCount): 22071
11:33:58.886 -> DF_b(analogRead(IN_0))3： 397 1826
11:33:58.886 ->
11:33:58.886 -> mind_a0_on input A0 time all时间(CycleCount): 22207
11:33:58.886 -> DF_b(analogRead(IN_0))4： 304 2130
11:33:58.886 ->
11:33:58.886 -> mind_a0_on input A0 time all时间(CycleCount): 22595
11:33:58.886 -> DF_b(analogRead(IN_0))5： 315 2445
11:33:58.886 ->
11:33:58.886 -> mind_a0_on input A0 time all时间(CycleCount): 21754
11:33:58.926 -> DF_b(analogRead(IN_0))6： 315 2760
11:33:58.926 ->
11:34:23.686 ->
11:34:23.686 -> mind_a0_on input A0 time all时间(CycleCount): 22087
11:34:23.686 -> DF_b(analogRead(IN_0))5： 304 2295
11:34:23.726 ->
11:34:23.726 -> mind_a0_on input A0 time all时间(CycleCount): 21817
11:34:23.726 -> DF_b(analogRead(IN_0))6： 315 2610
11:34:23.726 ->
11:34:23.726 -> mind_a0_on input A0 time all时间(CycleCount): 21802
11:34:23.726 -> DF_b(analogRead(IN_0))7： 257 2867
11:34:23.726 ->
11:34:23.726 -> DF_onoff Cycle Count mind_n_on:89, uint16_t mind_n_off:1023, uint8_t mind_n_key:1
11:34:29.846 -> mind_a0_on input A0 time all时间(CycleCount): 21872
11:34:29.846 -> DF_b(analogRead(IN_0))0： 511 511
11:34:29.846 ->
11:34:29.886 -> mind_a0_on input A0 time all时间(CycleCount): 22489
11:34:29.886 -> DF_b(analogRead(IN_0))1： 487 998
11:34:29.886 ->
11:34:29.886 -> mind_a0_on input A0 time all时间(CycleCount): 21799
11:34:29.886 -> DF_b(analogRead(IN_0))2： 448 1446
11:34:29.886 ->
11:34:29.886 -> mind_a0_on input A0 time all时间(CycleCount): 22398
11:34:29.886 -> DF_b(analogRead(IN_0))3： 322 1768
11:34:29.886 ->
11:34:29.886 -> mind_a0_on input A0 time all时间(CycleCount): 21724
11:34:29.886 -> DF_b(analogRead(IN_0))4： 336 2104
11:34:29.886 ->
11:34:29.886 -> mind_a0_on input A0 time all时间(CycleCount): 22444
11:34:29.886 -> DF_b(analogRead(IN_0))5： 309 2413
11:34:29.926 ->
11:34:29.926 -> mind_a0_on input A0 time all时间(CycleCount): 21865
11:34:29.926 -> DF_b(analogRead(IN_0))6： 275 2688
11:34:29.926 ->
11:34:29.926 -> mind_a0_on input A0 time all时间(CycleCount): 21832
11:34:29.926 -> DF_b(analogRead(IN_0))7： 330 3018
11:34:29.926 ->
11:34:29.926 -> DF_onoff Cycle Count mind_n_on:94, uint16_t mind_n_off:1023, uint8_t mind_n_key:1
11:34:36.058 -> mind_a0_on input A0 time all时间(CycleCount): 21869
11:34:36.058 -> DF_b(analogRead(IN_0))0： 559 559
11:34:36.058 ->
11:34:36.058 -> mind_a0_on input A0 time all时间(CycleCount): 22087
11:34:36.058 -> DF_b(analogRead(IN_0))1： 527 1086
11:34:36.058 ->
11:34:36.058 -> mind_a0_on input A0 time all时间(CycleCount): 22333
11:34:36.098 -> DF_b(analogRead(IN_0))2： 365 1451
11:34:36.098 ->
11:34:36.098 -> mind_a0_on input A0 time all时间(CycleCount): 21648
11:34:36.098 -> DF_b(analogRead(IN_0))3： 385 1836
11:34:36.098 ->
11:34:36.098 -> mind_a0_on input A0 time all时间(CycleCount): 21964
11:34:36.098 -> DF_b(analogRead(IN_0))4： 317 2153
11:34:36.098 ->
11:34:36.098 -> mind_a0_on input A0 time all时间(CycleCount): 23174
11:34:36.098 -> DF_b(analogRead(IN_0))5： 297 2450
11:34:36.098 ->
11:34:36.098 -> mind_a0_on input A0 time all时间(CycleCount): 21868
11:34:36.098 -> DF_b(analogRead(IN_0))6： 327 2777
11:34:36.138 ->
11:34:36.138 -> mind_a0_on input A0 time all时间(CycleCount): 22024
11:34:36.138 -> DF_b(analogRead(IN_0))7： 261 3038
11:34:36.138 ->
11:34:36.138 -> DF_onoff Cycle Count mind_n_on:94, uint16_t mind_n_off:1023, uint8_t mind_n_key:1
11:34:42.258 -> mind_a0_on input A0 time all时间(CycleCount): 21377
11:34:42.258 -> DF_b(analogRead(IN_0))0： 530 530
11:34:42.258 ->
11:34:42.258 -> mind_a0_on input A0 time all时间(CycleCount): 21763
11:34:42.258 -> DF_b(analogRead(IN_0))1： 506 1036
11:34:42.258 ->
11:34:42.298 -> mind_a0_on input A0 time all时间(CycleCount): 21724
11:34:42.298 -> DF_b(analogRead(IN_0))2： 455 1491
11:34:42.298 ->
11:34:42.298 -> mind_a0_on input A0 time all时间(CycleCount): 21750
11:34:42.298 -> DF_b(analogRead(IN_0))3： 344 1835
11:34:42.298 ->
11:34:42.298 -> mind_a0_on input A0 time all时间(CycleCount): 21937
11:34:42.298 -> DF_b(analogRead(IN_0))4： 336 2171
11:34:42.298 ->
11:34:42.298 -> mind_a0_on input A0 time all时间(CycleCount): 23999
11:34:42.298 -> DF_b(analogRead(IN_0))5： 317 2488
11:34:42.298 ->
11:34:42.298 -> mind_a0_on input A0 time all时间(CycleCount): 22174
11:34:42.298 -> DF_b(analogRead(IN_0))6： 270 2758
11:34:42.338 ->
11:34:42.338 -> mind_a0_on input A0 time all时间(CycleCount): 21817
11:34:42.338 -> DF_b(analogRead(IN_0))7： 336 3094
11:34:42.338 ->
11:34:42.338 -> DF_onoff Cycle Count mind_n_on:96, uint16_t mind_n_off:1023, uint8_t mind_n_key:1
11:34:48.458 -> mind_a0_on input A0 time all时间(CycleCount): 21587
11:34:48.458 -> DF_b(analogRead(IN_0))0： 558 558
11:34:48.458 ->
11:34:48.458 -> mind_a0_on input A0 time all时间(CycleCount): 21778
11:35:13.338 -> DF_onoff Cycle Count mind_n_on:96, uint16_t mind_n_off:1023, uint8_t mind_n_key:1
11:35:19.458 -> mind_a0_on input A0 time all时间(CycleCount): 21653
11:35:19.458 -> DF_b(analogRead(IN_0))0： 562 562
11:35:19.458 ->
11:35:19.458 -> mind_a0_on input A0 time all时间(CycleCount): 21796
11:35:19.458 -> DF_b(analogRead(IN_0))1： 535 1097
11:35:19.498 ->
11:35:19.498 -> mind_a0_on input A0 time all时间(CycleCount): 21667
11:35:19.498 -> DF_b(analogRead(IN_0))2： 423 1520
11:35:19.498 ->
11:35:19.498 -> mind_a0_on input A0 time all时间(CycleCount): 21714
11:35:19.498 -> DF_b(analogRead(IN_0))3： 324 1844
11:35:19.498 ->
11:35:19.498 -> mind_a0_on input A0 time all时间(CycleCount): 22138
11:35:19.498 -> DF_b(analogRead(IN_0))4： 365 2209
11:35:19.498 ->
11:35:19.498 -> mind_a0_on input A0 time all时间(CycleCount): 22970
11:35:19.498 -> DF_b(analogRead(IN_0))5： 269 2478
11:35:19.498 ->
11:35:19.498 -> mind_a0_on input A0 time all时间(CycleCount): 21772
11:35:19.538 -> DF_b(analogRead(IN_0))6： 323 2801
11:35:19.538 ->
11:35:19.538 -> mind_a0_on input A0 time all时间(CycleCount): 22294
11:35:19.538 -> DF_b(analogRead(IN_0))7： 283 3084
11:35:19.538 ->
11:35:19.538 -> DF_onoff Cycle Count mind_n_on:96, uint16_t mind_n_off:1023, uint8_t mind_n_key:1
11:35:25.658 -> mind_a0_on input A0 time all时间(CycleCount): 21767
11:35:25.658 -> DF_b(analogRead(IN_0))0： 459 459
11:35:25.658 ->
11:35:25.658 -> mind_a0_on input A0 time all时间(CycleCount): 21790
11:35:25.698 -> DF_b(analogRead(IN_0))1： 434 893
11:35:25.698 ->
0))1： 475 974
11:36:52.498 ->
11:36:52.498 -> mind_a0_on input A0 time all时间(CycleCount): 21643
11:36:52.498 -> DF_b(analogRead(IN_0))2： 432 1406
11:36:52.498 ->
11:36:52.498 -> mind_a0_on input A0 time all时间(CycleCount): 22272
11:36:52.498 -> DF_b(analogRead(IN_0))3： 366 1772
11:36:52.498 ->
11:36:52.498 -> mind_a0_on input A0 time all时间(CycleCount): 22156
11:36:52.498 -> DF_b(analogRead(IN_0))4： 308 2080
11:36:52.538 ->
11:36:52.538 -> mind_a0_on input A0 time all时间(CycleCount): 21787
11:36:52.538 -> DF_b(analogRead(IN_0))5： 341 2421
11:36:52.538 ->
11:36:52.538 -> mind_a0_on input A0 time all时间(CycleCount): 21751
11:36:52.538 -> DF_b(analogRead(IN_0))6： 257 2678
11:36:52.538 ->
11:36:52.538 -> mind_a0_on input A0 time all时间(CycleCount): 21691
11:36:52.538 -> DF_b(analogRead(IN_0))7： 333 3011
11:36:52.538 ->
11:36:52.538 -> DF_onoff Cycle Count mind_n_on:94, uint16_t mind_n_off:1023, uint8_t mind_n_key:1
11:36:58.698 -> mind_a0_on input A0 time all时间(CycleCount): 21758
11:36:58.698 -> DF_b(analogRead(IN_0))0： 543 543
11:36:58.698 ->
11:36:58.698 -> mind_a0_on input A0 time all时间(CycleCount): 22054
11:36:58.698 -> DF_b(analogRead(IN_0))1： 516 1059
11:36:58.698 ->
11:36:58.698 -> mind_a0_on input A0 time all时间(CycleCount): 21814
11:36:58.698 -> DF_b(analogRead(IN_0))2： 385 1444
11:36:58.698 ->
11:36:58.698 -> mind_a0_on input A0 time all时间(CycleCount): 22626
11:36:58.698 -> DF_b(analogRead(IN_0))3： 316 1760
11:36:58.698 ->
11:36:58.698 -> mind_a0_on input A0 time all时间(CycleCount): 22328
11:36:58.698 -> DF_b(analogRead(IN_0))4： 349 2109
11:36:58.738 ->
11:36:58.738 -> mind_a0_on input A0 time all时间(CycleCount): 22709
11:36:58.738 -> DF_b(analogRead(IN_0))5： 258 2367
11:36:58.738 ->
11:36:58.738 -> mind_a0_on input A0 time all时间(CycleCount): 21751
11:36:58.738 -> DF_b(analogRead(IN_0))6： 336 2703
11:36:58.738 ->
11:36:58.738 -> mind_a0_on input A0 time all时间(CycleCount): 22258
11:36:58.738 -> DF_b(analogRead(IN_0))7： 265 2968
11:36:58.738 ->
11:36:58.738 -> DF_onoff Cycle Count mind_n_on:92, uint16_t mind_n_off:1023, uint8_t mind_n_key:1
11:40:10.938 ->
11:40:10.938 -> mind_a0_on input A0 time all时间(CycleCount): 21667
11:40:10.938 -> DF_b(analogRead(IN_0))4： 363 2177
11:40:10.938 ->
1
11:45:20.949 ->
11:45:20.949 -> mind_a0_on input A0 time all时间(CycleCount): 21781
11:45:20.949 -> DF_b(analogRead(IN_0))1： 470 971
11:45:20.989 ->
11:45:20.989 -> mind_a0_on input A0 time all时间(CycleCount): 21829
11:45:20.989 -> DF_b(analogRead(IN_0))2： 420 1391
11:45:20.989 ->
11:45:20.989 -> mind_a0_on input A0 time all时间(CycleCount): 22281
11:45:20.989 -> DF_b(analogRead(IN_0))3： 381 1772
11:45:20.989 ->
11:45:20.989 -> mind_a0_on input A0 time all时间(CycleCount): 21985
11:45:20.989 -> DF_b(analogRead(IN_0))4： 298 2070
11:45:20.989 ->
11:45:20.989 -> mind_a0_on input A0 time all时间(CycleCount): 22321
11:45:20.989 -> DF_b(analogRead(IN_0))5： 353 2423
11:45:20.989 ->
11:45:20.989 -> mind_a0_on input A0 time all时间(CycleCount): 22375
11:45:20.989 -> DF_b(analogRead(IN_0))6： 257 2680
11:45:21.029 ->
11:48:08.429 -> mind_a0_on input A0 time all时间(CycleCount): 21667
11:48:08.429 -> DF_b(analogRead(IN_0))6： 325 2785
11:48:08.429 ->
1
11:51:02.069 ->
11:51:02.069 -> DF_onoff Cycle Count mind_n_on:95, uint16_t mind_n_off:1023, uint8_t mind_n_key:1
11:51:08.189 -> mind_a0_on input A0 time all时间(CycleCount): 22031
11:51:08.189 -> DF_b(analogRead(IN_0))0： 535 535
11:51:08.229 ->
11:51:08.229 -> mind_a0_on input A0 time all时间(CycleCount): 22069
11:51:08.229 -> DF_b(analogRead(IN_0))1： 503 1038
11:55:10.079 -> mind_a0_on input A0 time all时间(CycleCount): 21714
11:55:10.079 -> DF_b(analogRead(IN_0))3： 316 1784
11:55:10.079 ->
1
12:00:38.719 -> DF_b(analogRead(IN_0))5： 336 2329
12:00:38.719 ->
12:00:38.719 -> mind_a0_on input A0 time all时间(CycleCount): 22222
12:05:30.170 ->
12:05:30.170 -> mind_a0_on input A0 time all时间(CycleCount): 23483
12:05:30.170 -> DF_b(analogRead(IN_0))5： 271 2638
12:05:30.170 ->
12:10:21.610 -> mind_a0_on input A0 time all时间(CycleCount): 23873
12:10:21.610 -> DF_b(analogRead(IN_0))5： 307 2423
12:10:21.610 ->
12:15:31.650 -> DF_b(analogRead(IN_0))3： 305 1680
1
12:21:18.930 -> mind_a0_on input A0 time all时间(CycleCount): 22297
12:21:18.930 -> DF_b(analogRead(IN_0))7： 304 2949
12:30:55.621 ->
12:30:55.621 -> DF_onoff Cycle Count mind_n_on:92, uint16_t mind_n_off:1023, uint8_t mind_n_key:1
12:31:01.741 -> mind_a0_on input A0 time all时间(CycleCount): 21644
12:31:01.741 -> DF_b(analogRead(IN_0))0： 518 518
12:31:01.781 ->
12:31:01.781 -> mind_a0_on input A0 time all时间(CycleCount): 21808
12:31:01.781 -> DF_b(analogRead(IN_0))1： 485 1003
12:31:01.781 ->
12:31:01.781 -> mind_a0_on input A0 time all时间(CycleCount): 22636
12:31:01.781 -> DF_b(analogRead(IN_0))2： 373 1376
12:31:01.781 ->
12:31:01.781 -> mind_a0_on input A0 time all时间(CycleCount): 22470
12:31:01.781 -> DF_b(analogRead(IN_0))3： 393 1769
12:31:01.781 ->
12:31:01.781 -> mind_a0_on input A0 time all时间(CycleCount): 21740
12:31:01.781 -> DF_b(analogRead(IN_0))4： 289 2058
12:31:01.781 ->
12:31:01.781 -> mind_a0_on input A0 time all时间(CycleCount): 22829
12:31:01.781 -> DF_b(analogRead(IN_0))5： 330 2388
12:31:01.821 ->
12:31:01.821 -> mind_a0_on input A0 time all时间(CycleCount): 22222
12:31:01.821 -> DF_b(analogRead(IN_0))6： 280 2668
12:31:01.821 ->
12:31:01.821 -> mind_a0_on input A0 time all时间(CycleCount): 21748
12:31:01.821 -> DF_b(analogRead(IN_0))7： 282 2950
12:31:01.821 ->
12:31:01.821 -> DF_onoff Cycle Count mind_n_on:92, uint16_t mind_n_off:1023, uint8_t mind_n_key:1
12:31:07.941 -> mind_a0_on input A0 time all时间(CycleCount): 21692
12:31:07.941 -> DF_b(analogRead(IN_0))0： 495 495
12:31:07.981 ->
12:31:07.981 -> mind_a0_on input A0 time all时间(CycleCount): 21955
12:31:07.981 -> DF_b(analogRead(IN_0))1： 470 965
12:31:07.981 ->
12:31:07.981 -> mind_a0_on input A0 time all时间(CycleCount): 21898
12:31:07.981 -> DF_b(analogRead(IN_0))2： 441 1406
12:31:07.981 ->
12:31:07.981 -> mind_a0_on input A0 time all时间(CycleCount): 21732
12:31:07.981 -> DF_b(analogRead(IN_0))3： 336 1742
12:31:07.981 ->
12:31:07.981 -> mind_a0_on input A0 time all时间(CycleCount): 21679
12:31:07.981 -> DF_b(analogRead(IN_0))4： 320 2062
12:31:07.981 ->
12:31:07.981 -> mind_a0_on input A0 time all时间(CycleCount): 22000
12:31:07.981 -> DF_b(analogRead(IN_0))5： 329 2391
12:31:08.021 ->
12:31:08.021 -> mind_a0_on input A0 time all时间(CycleCount): 22267
12:31:08.021 -> DF_b(analogRead(IN_0))6： 258 2649
12:31:08.021 ->
12:31:08.021 -> mind_a0_on input A0 time all时间(CycleCount): 22417
12:31:08.021 -> DF_b(analogRead(IN_0))7： 333 2982
12:31:08.021 ->
12:31:08.021 -> DF_onoff Cycle Count mind_n_on:93, uint16_t mind_n_off:1023, uint8_t mind_n_key:1
12:31:14.141 -> mind_a0_on input A0 time all时间(CycleCount): 22424
12:31:14.141 -> DF_b(analogRead(IN_0))0： 587 587
12:31:14.181 ->
12:31:14.181 -> mind_a0_on input A0 time all时间(CycleCount): 22243
12:31:14.181 -> DF_b(analogRead(IN_0))1： 560 1147
12:31:14.181 ->
12:31:14.181 -> mind_a0_on input A0 time all时间(CycleCount): 22252
12:31:14.181 -> DF_b(analogRead(IN_0))2： 428 1575
12:31:14.181 ->
12:31:14.181 -> mind_a0_on input A0 time all时间(CycleCount): 21651
12:31:14.181 -> DF_b(analogRead(IN_0))3： 326 1901
12:31:14.181 ->
12:31:14.181 -> mind_a0_on input A0 time all时间(CycleCount): 22270
12:31:14.181 -> DF_b(analogRead(IN_0))4： 353 2254
12:31:14.181 ->
12:31:14.181 -> mind_a0_on input A0 time all时间(CycleCount): 22427
12:31:14.221 -> DF_b(analogRead(IN_0))5： 273 2527
12:31:14.221 ->
12:31:14.221 -> mind_a0_on input A0 time all时间(CycleCount): 21733
12:31:14.221 -> DF_b(analogRead(IN_0))6： 326 2853
12:31:14.221 ->
12:31:14.221 -> mind_a0_on input A0 time all时间(CycleCount): 22357
12:31:14.221 -> DF_b(analogRead(IN_0))7： 286 3139
12:31:14.221 ->
12:31:14.221 -> DF_onoff Cycle Count mind_n_on:98, uint16_t mind_n_off:1023, uint8_t mind_n_key:1
12:31:20.341 -> mind_a0_on input A0 time all时间(CycleCount): 22652
12:31:20.381 -> DF_b(analogRead(IN_0))0： 528 528
12:31:20.381 ->
12:31:20.381 -> mind_a0_on input A0 time all时间(CycleCount): 21877
12:31:20.381 -> DF_b(analogRead(IN_0))1： 485 1013
12:31:20.381 ->
12:31:20.381 -> mind_a0_on input A0 time all时间(CycleCount): 22051
12:31:20.381 -> DF_b(analogRead(IN_0))2： 355 1368
12:31:20.381 ->
12:31:20.381 -> mind_a0_on input A0 time all时间(CycleCount): 21624
12:31:20.381 -> DF_b(analogRead(IN_0))3： 381 1749
12:31:20.381 ->
12:31:20.381 -> mind_a0_on input A0 time all时间(CycleCount): 21964
12:31:20.381 -> DF_b(analogRead(IN_0))4： 308 2057
12:31:20.381 ->
12:31:20.381 -> mind_a0_on input A0 time all时间(CycleCount): 24935
12:31:20.421 -> DF_b(analogRead(IN_0))5： 311 2368
12:31:20.421 ->
12:31:20.421 -> mind_a0_on input A0 time all时间(CycleCount): 22156
12:31:20.421 -> DF_b(analogRead(IN_0))6： 317 2685
12:31:20.421 ->
12:31:20.421 -> mind_a0_on input A0 time all时间(CycleCount): 22258
12:31:20.421 -> DF_b(analogRead(IN_0))7： 258 2943
12:31:20.421 ->
12:31:20.421 -> DF_onoff Cycle Count mind_n_on:91, uint16_t mind_n_off:1023, uint8_t mind_n_key:1
12:31:26.541 -> mind_a0_on input A0 time all时间(CycleCount): 21695
12:31:26.581 -> DF_b(analogRead(IN_0))0： 582 582
12:31:26.581 ->
12:31:26.581 -> mind_a0_on input A0 time all时间(CycleCount): 22099
12:31:26.581 -> DF_b(analogRead(IN_0))1： 554 1136
12:31:26.581 ->
12:31:26.581 -> mind_a0_on input A0 time all时间(CycleCount): 22180
12:31:26.581 -> DF_b(analogRead(IN_0))2： 464 1600
12:31:26.581 ->
12:31:26.581 -> mind_a0_on input A0 time all时间(CycleCount): 22011
12:31:26.581 -> DF_b(analogRead(IN_0))3： 395 1995
12:31:26.581 ->
12:31:26.581 -> mind_a0_on input A0 time all时间(CycleCount): 22206
12:31:26.581 -> DF_b(analogRead(IN_0))4： 332 2327
12:31:26.581 ->
12:31:26.581 -> mind_a0_on input A0 time all时间(CycleCount): 23750
12:31:26.621 -> DF_b(analogRead(IN_0))5： 336 2663
12:31:26.621 ->
12:31:26.621 -> mind_a0_on input A0 time all时间(CycleCount): 22444
12:31:26.621 -> DF_b(analogRead(IN_0))6： 235 2898
12:31:26.621 ->
12:31:26.621 -> mind_a0_on input A0 time all时间(CycleCount): 22354
12:31:26.621 -> DF_b(analogRead(IN_0))7： 286 3184
12:31:26.621 ->
12:31:26.621 -> DF_onoff Cycle Count mind_n_on:99, uint16_t mind_n_off:1023, uint8_t mind_n_key:1
12:31:27.061 -> A键单击
12:31:27.061 ->
12:31:27.061 -> 删除DF_b
12:31:33.461 -> A键单击
12:31:33.461 ->
12:31:33.621 -> Created task DF_A: Executing on core 0
12:31:33.621 -> DF_onoff Cycle Count mind_n_on:1023, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
12:31:39.741 -> DF_onoff Cycle Count mind_n_on:1023, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
12:31:44.581 -> A键单击
12:31:44.581 ->
12:31:44.581 -> Producing time all时间(ms): 10986
12:31:44.581 -> 删除DF_A
12:31:44.621 -> Created task DF_b: Executing on core 0
12:31:44.621 -> mind_a0_on input A0 time all时间(CycleCount): 21800
12:31:44.621 -> DF_b(analogRead(IN_0))0： 460 460
12:31:44.621 ->
12:31:44.621 -> mind_a0_on input A0 time all时间(CycleCount): 22150
12:31:44.621 -> DF_b(analogRead(IN_0))1： 449 909
12:31:44.621 ->
12:31:44.621 -> mind_a0_on input A0 time all时间(CycleCount): 21778
12:31:44.621 -> DF_b(analogRead(IN_0))2： 399 1308
12:31:44.621 ->
12:31:44.621 -> mind_a0_on input A0 time all时间(CycleCount): 24047
12:31:44.661 -> DF_b(analogRead(IN_0))3： 317 1625
12:31:44.661 ->
12:31:44.661 -> mind_a0_on input A0 time all时间(CycleCount): 22369
12:31:44.661 -> DF_b(analogRead(IN_0))4： 336 1961
12:31:44.661 ->
12:31:44.661 -> mind_a0_on input A0 time all时间(CycleCount): 22201
12:31:44.661 -> DF_b(analogRead(IN_0))5： 282 2243
12:31:44.661 ->
12:31:44.661 -> mind_a0_on input A0 time all时间(CycleCount): 21808
12:31:44.661 -> DF_b(analogRead(IN_0))6： 311 2554
12:31:44.661 ->
12:31:44.661 -> mind_a0_on input A0 time all时间(CycleCount): 22102
12:31:44.661 -> DF_b(analogRead(IN_0))7： 293 2847
12:31:44.661 ->
12:31:44.661 -> DF_onoff Cycle Count mind_n_on:88, uint16_t mind_n_off:1023, uint8_t mind_n_key:1
12:31:46.501 -> A键单击
12:31:46.501 ->
12:31:46.501 -> 删除DF_b
12:31:47.861 -> A键单击
12:31:47.861 ->
12:31:48.141 -> Created task DF_A: Executing on core 0
12:31:48.141 -> DF_onoff Cycle Count mind_n_on:1023, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
12:31:54.261 -> DF_onoff Cycle Count mind_n_on:1023, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
12:32:00.381 -> DF_onoff Cycle Count mind_n_on:1023, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
12:32:06.544 -> DF_onoff Cycle Count mind_n_on:1023, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
12:32:12.691 -> DF_onoff Cycle Count mind_n_on:1023, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
12:32:18.611 -> A键单击
12:32:18.611 ->
12:32:18.651 -> Producing time all时间(ms): 30510
12:32:18.651 -> 删除DF_A
12:32:19.131 -> Created task DF_b: Executing on core 0
12:32:19.131 -> mind_a0_on input A0 time all时间(CycleCount): 22193
12:32:19.131 -> DF_b(analogRead(IN_0))0： 611 611
12:32:19.131 ->
12:32:19.131 -> mind_a0_on input A0 time all时间(CycleCount): 22321
12:32:19.131 -> DF_b(analogRead(IN_0))1： 598 1209
12:32:19.131 ->
12:32:19.131 -> mind_a0_on input A0 time all时间(CycleCount): 21550
12:32:19.171 -> DF_b(analogRead(IN_0))2： 455 1664
12:32:19.171 ->
12:32:19.171 -> mind_a0_on input A0 time all时间(CycleCount): 21774
12:32:19.171 -> DF_b(analogRead(IN_0))3： 363 2027
12:32:19.171 ->
12:32:19.171 -> mind_a0_on input A0 time all时间(CycleCount): 22498
12:32:19.171 -> DF_b(analogRead(IN_0))4： 385 2412
12:32:19.171 ->
12:32:19.171 -> mind_a0_on input A0 time all时间(CycleCount): 21864
12:32:19.171 -> DF_b(analogRead(IN_0))5： 268 2680
12:32:19.171 ->
12:32:19.171 -> mind_a0_on input A0 time all时间(CycleCount): 21694
12:32:19.171 -> DF_b(analogRead(IN_0))6： 356 3036
12:32:19.171 ->
12:32:19.171 -> mind_a0_on input A0 time all时间(CycleCount): 21754
12:32:19.211 -> DF_b(analogRead(IN_0))7： 259 3295
12:32:19.211 ->
12:32:19.211 -> DF_onoff Cycle Count mind_n_on:102, uint16_t mind_n_off:1023, uint8_t mind_n_key:1
12:32:23.331 -> A键单击
12:32:23.331 ->
12:32:23.331 -> 删除DF_b
12:32:54.811 -> A键单击
12:32:54.811 ->
12:32:55.131 -> Created task DF_A: Executing on core 0
12:32:55.131 -> DF_onoff Cycle Count mind_n_on:1023, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
12:33:50.391 -> DF_onoff Cycle Count mind_n_on:1023, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
12:33:56.521 -> DF_A 启动1分时间(ms): 61380
12:33:56.521 -> 启动1.5分连续 :173386240
12:33:56.521 -> 删除DF_A
12:35:27.121 -> Created task DF_A: Executing on core 0
12:35:27.121 -> DF_A to 50% start Producing time 时间(ms): 0
12:35:27.161 -> DF_onoff Cycle Count mind_n_on:490, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
12:35:33.281 -> DF_onoff Cycle Count mind_n_on:490, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
12:43:32.018 -> DF_onoff Cycle Count mind_n_on:490, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
12:43:38.158 -> Producing time all时间(ms): 491044
12:43:38.158 -> 删除DF_A
13:05:06.357 -> A键单击
13:05:06.357 ->
13:05:06.597 -> Created task DF_A: Executing on core 0
13:05:06.637 -> DF_onoff Cycle Count mind_n_on:1023, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
13:05:12.757 -> DF_onoff Cycle Count mind_n_on:1023, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
13:06:01.837 -> DF_onoff Cycle Count mind_n_on:1023, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
13:06:08.007 -> DF_A 启动1分时间(ms): 61380
13:06:08.007 -> 启动1.5分连续 :173386240
13:06:08.007 -> 删除DF_A
13:06:35.177 -> A键单击
13:06:35.177 ->
13:06:35.617 -> Created task DF_b: Executing on core 0
13:06:35.617 -> mind_a0_on input A0 time all时间(CycleCount): 21791
13:06:35.617 -> DF_b(analogRead(IN_0))0： 528 528
13:06:35.617 ->
13:06:35.617 -> mind_a0_on input A0 time all时间(CycleCount): 21943
13:06:35.617 -> DF_b(analogRead(IN_0))1： 490 1018
13:06:35.657 ->
13:06:35.657 -> mind_a0_on input A0 time all时间(CycleCount): 21706
13:06:35.657 -> DF_b(analogRead(IN_0))2： 320 1338
13:06:35.657 ->
13:06:35.657 -> mind_a0_on input A0 time all时间(CycleCount): 21792
13:06:35.657 -> DF_b(analogRead(IN_0))3： 403 1741
13:06:35.657 ->
13:06:35.657 -> mind_a0_on input A0 time all时间(CycleCount): 21814
13:06:35.657 -> DF_b(analogRead(IN_0))4： 265 2006
13:06:35.657 ->
13:06:35.657 -> mind_a0_on input A0 time all时间(CycleCount): 22188
13:06:35.657 -> DF_b(analogRead(IN_0))5： 331 2337
13:06:35.657 ->
13:06:35.657 -> mind_a0_on input A0 time all时间(CycleCount): 22309
13:06:35.697 -> DF_b(analogRead(IN_0))6： 297 2634
13:06:35.697 ->
13:06:35.697 -> mind_a0_on input A0 time all时间(CycleCount): 22255
13:06:35.697 -> DF_b(analogRead(IN_0))7： 259 2893
13:06:35.697 ->
13:06:35.697 -> DF_onoff Cycle Count mind_n_on:90, uint16_t mind_n_off:1023, uint8_t mind_n_key:1
13:06:36.817 -> A键单击
13:06:36.817 ->
13:06:36.857 -> 删除DF_b
13:06:38.617 -> A键单击
13:06:38.617 ->
13:06:39.137 -> Created task DF_A: Executing on core 0
13:06:39.137 -> DF_onoff Cycle Count mind_n_on:1023, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
13:06:45.257 -> DF_onoff Cycle Count mind_n_on:1023, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
13:07:34.387 -> DF_onoff Cycle Count mind_n_on:1023, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
13:07:40.517 -> DF_A 启动1分时间(ms): 61380
13:07:40.517 -> 启动1.5分连续 :173386240
13:07:40.517 -> 删除DF_A
13:09:11.127 -> Created task DF_A: Executing on core 0
13:09:11.127 -> DF_A to 50% start Producing time 时间(ms): 0
13:09:11.127 -> DF_onoff Cycle Count mind_n_on:490, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
13:09:17.287 -> DF_onoff Cycle Count mind_n_on:490, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
13:17:16.038 -> DF_onoff Cycle Count mind_n_on:490, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
13:17:22.158 -> Producing time all时间(ms): 491044
13:17:22.158 -> 删除DF_A
13:19:02.768 -> ets Jul 29 2019 12:21:46
13:19:02.768 ->
13:19:02.768 -> rst:0x1 (POWERON_RESET),boot:0x13 (SPI_FAST_FLASH_BOOT)
13:19:02.768 -> configsip: 0, SPIWP:0x00
13:19:02.768 -> clk_drv:0x00,q_drv:0x00,d_drv:0x00,cs0_drv:0x00,hd_drv:0x00,wp_drv:0x00
13:19:02.768 -> mode:DIO, clock div:2
13:19:02.808 -> load:0x3fff0008,len:8
13:19:02.808 -> load:0x3fff0010,len:1760
13:19:02.808 -> load:0x40078000,len:6668
13:19:02.808 -> load:0x40080000,len:252
13:19:02.808 -> entry 0x40080034
13:19:03.008 ->
13:19:04.008 -> Setup: Executing on core 1
13:19:04.008 -> ESP32 Chip ID = 944D8CBE5BC4
13:19:04.008 -> available heap = 219708
13:19:04.008 -> get Chip Revision = 1
13:19:04.048 -> getCpuFreqMHz = 240
13:19:04.048 -> get Cycle Count = 254293613
13:19:04.048 -> get SdkVersion = v2.0-rc1-803-g1e0710f1
13:19:04.048 -> Created task DF_A: Executing on core Created task buttonA: Executing on core 10
13:19:04.048 ->
13:19:04.048 -> DF_onoff Cycle Count mind_n_on:1023, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
13:19:10.168 -> DF_onoff Cycle Count mind_n_on:1023, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
13:19:59.288 -> DF_onoff Cycle Count mind_n_on:1023, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
13:20:05.408 -> DF_A 启动1分时间(ms): 61387
13:20:05.408 -> 启动1.5分连续 :173386240
13:20:05.408 -> 删除DF_A
13:21:36.008 -> Created task DF_A: Executing on core 0
13:21:36.008 -> DF_A to 50% start Producing time 时间(ms): 0
13:21:36.048 -> DF_onoff Cycle Count mind_n_on:490, uint16_t mind_n_off:1023, uint8_t mind_n_key:0
13:23:38.778 -> DF_onoff Cycle Count mind_n_on:490, uint16_t mind_n_off:1023, uint8_t mind_n_key:0

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能稳定运行。

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