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stm32 low power sleep code
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#include <libmaple/pwr.h> | |
#include <libmaple/scb.h> | |
#include <RTClock.h> | |
// Define the Base address of the RTC registers (battery backed up CMOS Ram), so we can use them for config of touch screen or whatever. | |
// See http://stm32duino.com/viewtopic.php?f=15&t=132&hilit=rtc&start=40 for a more details about the RTC NVRam | |
// 10x 16 bit registers are available on the STM32F103CXXX more on the higher density device. | |
#define BKP_REG_BASE ((uint32_t *)(0x40006C00 + 0x04)) | |
RTClock rt(RTCSEL_LSI, 39); // 1 milli second alarm | |
void storeBR(int i, uint32_t v) { | |
BKP_REG_BASE[2*i]= (v << 16); | |
BKP_REG_BASE[2*i+1]= (v & 0xFFFF); | |
} | |
uint32_t readBR(int i) { | |
return ((BKP_REG_BASE[2*i] & 0xFFFF) >> 16) | (BKP_REG_BASE[2*i+1] & 0xFFFF); | |
} | |
void sleepMode(bool deepSleepFlag) | |
{ | |
// Clear PDDS and LPDS bits | |
PWR_BASE->CR &= ~(PWR_CR_LPDS | PWR_CR_PDDS | PWR_CR_CWUF); // Thanks @dalbert2 for spotting the missing ~ | |
// Set PDDS and LPDS bits for standby mode, and set Clear WUF flag (required per datasheet): | |
PWR_BASE->CR |= PWR_CR_CWUF; | |
// Enable wakeup pin bit. | |
PWR_BASE->CR |= PWR_CSR_EWUP; | |
SCB_BASE->SCR |= SCB_SCR_SLEEPDEEP; | |
// System Control Register Bits. See... | |
// http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.dui0497a/Cihhjgdh.html | |
if (deepSleepFlag) { | |
// Set Power down deepsleep bit. | |
PWR_BASE->CR |= PWR_CR_PDDS; | |
// Unset Low-power deepsleep. | |
PWR_BASE->CR &= ~PWR_CR_LPDS; | |
} else { | |
adc_disable(ADC1); | |
adc_disable(ADC2); | |
#if STM32_HAVE_DAC | |
dac_disable_channel(DAC, 1); | |
dac_disable_channel(DAC, 2); | |
#endif | |
// Unset Power down deepsleep bit. | |
PWR_BASE->CR &= ~PWR_CR_PDDS; | |
// set Low-power deepsleep. | |
PWR_BASE->CR |= PWR_CR_LPDS; | |
} | |
// Now go into stop mode, wake up on interrupt | |
asm(" wfi"); | |
// Clear SLEEPDEEP bit so we can use SLEEP mode | |
SCB_BASE->SCR &= ~SCB_SCR_SLEEPDEEP; | |
} | |
uint32 sleepTime; | |
void AlarmFunction () { | |
// We always wake up with the 8Mhz HSI clock! | |
// So adjust the clock if needed... | |
#if F_CPU == 8000000UL | |
// nothing to do, using about 12 mA | |
#elif F_CPU == 16000000UL | |
rcc_clk_init(RCC_CLKSRC_HSI, RCC_PLLSRC_HSE , RCC_PLLMUL_2); | |
#elif F_CPU == 48000000UL | |
rcc_clk_init(RCC_CLKSRC_HSI, RCC_PLLSRC_HSE , RCC_PLLMUL_6); | |
#elif F_CPU == 72000000UL | |
rcc_clk_init(RCC_CLKSRC_HSI, RCC_PLLSRC_HSE , RCC_PLLMUL_9); // 72MHz => 48 mA -- datasheet value => between 40 and 41mA | |
#else | |
#error "Unknown F_CPU!?" | |
#endif | |
extern volatile uint32 systick_uptime_millis; | |
systick_uptime_millis+= sleepTime; | |
} | |
void mdelay(int n, bool mode= false) | |
{ | |
sleepTime= n; | |
time_t nextAlarm = (rt.getTime() + n); // Calculate from time now. | |
rt.createAlarm(&AlarmFunction, nextAlarm); | |
sleepMode(mode); | |
} | |
#define RCC_CFGR_HPRE_DIV1 0x00000000U | |
#define RCC_CFGR_HPRE_DIV2 0x00000080U | |
#define RCC_CFGR_HPRE_DIV4 0x00000090U | |
#define RCC_CFGR_HPRE_DIV8 0x000000A0U | |
#define RCC_CFGR_HPRE_DIV16 0x000000B0U | |
#define RCC_CFGR_HPRE_DIV64 0x000000C0U | |
#define RCC_CFGR_HPRE_DIV128 0x000000D0U | |
#define RCC_CFGR_HPRE_DIV256 0x000000E0U | |
#define RCC_CFGR_HPRE_DIV512 0x000000F0U | |
void msleep(uint32_t ms) | |
{ | |
uint32_t start= rt.getTime(); | |
while (rt.getTime() - start < ms) { | |
asm(" wfi"); | |
} | |
} | |
void setup() { | |
//rcc_clk_init(RCC_CLKSRC_HSI, RCC_PLLSRC_HSE , RCC_PLLMUL_2); | |
pinMode(PA0, INPUT_ANALOG); | |
pinMode(PA1, INPUT_ANALOG); | |
pinMode(PA2, INPUT_ANALOG); | |
pinMode(PA3, INPUT_ANALOG); | |
pinMode(PA4, INPUT_ANALOG); | |
pinMode(PA5, INPUT_ANALOG); | |
pinMode(PA6, INPUT_ANALOG); | |
pinMode(PA7, INPUT_ANALOG); | |
pinMode(PA8, INPUT_ANALOG); | |
pinMode(PA9, INPUT_ANALOG); | |
pinMode(PA10, INPUT_ANALOG); | |
pinMode(PA11, INPUT_ANALOG); | |
pinMode(PA12, INPUT_ANALOG); | |
pinMode(PA13, INPUT_ANALOG); | |
pinMode(PA14, INPUT_ANALOG); | |
pinMode(PA15, INPUT_ANALOG); | |
pinMode(PB0, INPUT_ANALOG); | |
pinMode(PB1, INPUT_ANALOG); | |
pinMode(PB2, INPUT_ANALOG); | |
pinMode(PB3, INPUT_ANALOG); | |
pinMode(PB4, INPUT_ANALOG); | |
pinMode(PB5, INPUT_ANALOG); | |
pinMode(PB6, INPUT_ANALOG); | |
pinMode(PB7, INPUT_ANALOG); | |
pinMode(PB8, INPUT_ANALOG); | |
pinMode(PB9, INPUT_ANALOG); | |
pinMode(PB10, INPUT_ANALOG); | |
pinMode(PB11, INPUT_ANALOG); | |
pinMode(PB12, INPUT_ANALOG); | |
pinMode(PB13, INPUT_ANALOG); | |
pinMode(PB14, INPUT_ANALOG); | |
pinMode(PB15, INPUT_ANALOG); | |
// We have just started or woken up from sleep! System clock is set to 72MHz HSE. | |
Serial.begin(115200); | |
#if 0 | |
delay(1000); | |
//#if 0 | |
char str[100]; | |
sprintf(str, "%x", *(uint32*)0xE0042004); | |
Serial.println(str); | |
pinMode(PA12, INPUT_ANALOG); | |
randomSeed(rt.getTime()); | |
Serial.println(""); | |
long m1= micros(); | |
delayMicroseconds(2000); | |
long m2= micros(); | |
Serial.println(m2-m1); | |
storeBR(0, readBR(0)+1); | |
Serial.print(readBR(0)); | |
Serial.print(": "); | |
Serial.print(rt.getTime()/100/3600%24); Serial.print(':'); | |
Serial.print(rt.getTime()/100/60%60); Serial.print(':'); | |
Serial.println(rt.getTime()/100%60); | |
//delay(1500); | |
// for (int d= 0, e= random(10000); d < e; d++) | |
// millis(); | |
// | |
// long t1= systick_get_count(), m1= millis(), mi1= micros(); | |
// long sum= 0; | |
// for (int i= 0; i < 99; i++) | |
// sum+= i; | |
// long t2= systick_get_count(), m2= millis(), mi2= micros(); | |
// Serial.println(sum); | |
// Serial.println(t1); | |
// Serial.println(t2); | |
// Serial.println(t1-t2); | |
// Serial.println(mi2-mi1); | |
#endif | |
} | |
void blinkN(int n, int d= 400, int t= 800) | |
{ | |
pinMode(LED_BUILTIN, OUTPUT); | |
for (int i= 0; i < n; i++) { | |
digitalWrite(LED_BUILTIN, 0); | |
mdelay(5); | |
digitalWrite(LED_BUILTIN, 1); | |
mdelay(d); | |
} | |
pinMode(LED_BUILTIN, INPUT_ANALOG); | |
mdelay(t); | |
} | |
void blinkTemp(int n, int d= 500, int t= 800) | |
{ | |
const int tempBlinkPin= PB7; | |
pinMode(tempBlinkPin, OUTPUT); | |
for (int i= 0; i < n; i++) { | |
digitalWrite(tempBlinkPin, 0); | |
mdelay(5); | |
digitalWrite(tempBlinkPin, 1); | |
mdelay(d); | |
} | |
pinMode(tempBlinkPin, INPUT_ANALOG); | |
mdelay(t); | |
} | |
#define tempPin PA0 | |
#define powerPin PA2 | |
void loop() { | |
adc_enable(ADC1); | |
adc_reg_map *regs = ADC1->regs; | |
regs->CR2 |= ADC_CR2_TSVREFE; // enable VREFINT and temp sensor | |
regs->SMPR1 = (ADC_SMPR1_SMP17 /* | ADC_SMPR1_SMP16 */); // sample rate for VREFINT ADC channel | |
//int vref= 3300; | |
int vref = 1200 * 4096 / adc_read(ADC1, 17); // ADC sample to millivolts | |
regs->CR2 &= ~ADC_CR2_TSVREFE; // disable VREFINT and temp sensor | |
//float tempr; | |
// following 1.43 and 0.0043 parameters come from F103 datasheet - ch. 5.9.13 | |
// and need to be calibrated for every chip (large fab parameters variance) | |
//tempr = (1.43 - (vref * adc_read(ADC1, 16) / 4096.0 / 1024)) / 0.0043 + 25.0; | |
pinMode(powerPin, OUTPUT); | |
digitalWrite(powerPin, 1); | |
int v= analogRead(tempPin); | |
pinMode(powerPin, INPUT_ANALOG); | |
double steinhart= v; | |
steinhart = 4095 / steinhart - 1; | |
steinhart = 10000 * steinhart; | |
steinhart = steinhart / 10000; // (R/Ro) | |
steinhart = log(steinhart); // ln(R/Ro) | |
steinhart /= 4050; // 1/B * ln(R/Ro) | |
steinhart += 1.0 / (25 + 273.15); // + (1/To) | |
steinhart = 1.0 / steinhart; // Invert | |
steinhart -= 273.15; // convert to C | |
double Temp= steinhart; | |
// double Temp = log(10000.0*((4096.0/v-1))); | |
// // =log(10000.0/(4096.0/v-1)) // for pull-up configuration | |
// Temp = 1 / (0.001129148 + (0.000234125 + (0.0000000876741 * Temp * Temp ))* Temp ); | |
// Temp = Temp - 273.15; // Convert Kelvin to Celcius | |
//Serial.println(vref); delay(2); | |
vref+= 5; | |
if (vref < 2000 || vref >= 3000) | |
blinkN(vref / 1000); | |
blinkN(vref % 1000 / 100); | |
blinkN(vref % 100 / 10); | |
Temp+= 0.5; // round | |
blinkTemp(int(Temp) / 10); | |
blinkTemp(int(Temp) % 10); | |
//blinkTemp(int(Temp * 10) % 10); | |
//int power= (2 * (vref * v / 4095) / 10); | |
//Serial.println(power); | |
// delay(3000); | |
// rcc_set_prescaler(RCC_PRESCALER_AHB, RCC_CFGR_HPRE_DIV8); | |
// delay(3000 / 8); | |
// rcc_set_prescaler(RCC_PRESCALER_AHB, RCC_CFGR_HPRE_DIV1); | |
msleep(3000); | |
//mdelay(5000); | |
} |
Line 25 looks like it has an error (you need to invert those bits to clear them):
PWR_BASE->CR &= ~(PWR_CR_LPDS | PWR_CR_PDDS | PWR_CR_CWUF);
Line 25 looks like it has an error (you need to invert those bits to clear them):
PWR_BASE->CR &= ~(PWR_CR_LPDS | PWR_CR_PDDS | PWR_CR_CWUF);
They ARE inverted, the ~ is before (...)
The ~( ) was my suggestion....they aren't there at the moment; scroll up and take a look at line 25.
The ~( ) was my suggestion....they aren't there at the moment; scroll up and take a look at line 25.
Ah, I see.
I probably copied those specific lines from some piece of example code, because the comments are not my style.
I will change it, thanks for your feedback!
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После загрузки
"Система Windows остановила это устройство, так как оно сообщило о возникновении неполадок. (Код 43)
Сбой запроса дескриптора USB-устройства."