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chore(examples): RTC running in BINary mode with Alarm
This examples is configuring the RTC in BIN mode (binary only) and sets Alarm A & B (if exists) a few ms after the current time. Signed-off-by: Francois Ramu <[email protected]>
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/* | ||
mode BINary only RTC alarm | ||
This sketch shows how to configure the alarm A & B of the RTC in BIN mode | ||
Creation 12 Dec 2017 | ||
by Wi6Labs | ||
Modified 03 Jul 2020 | ||
by Frederic Pillon for STMicroelectronics | ||
Modified 03 sept 2023 | ||
by Francois Ramu for STMicroelectronics | ||
This example code is in the public domain. | ||
https://github.com/stm32duino/STM32RTC | ||
*/ | ||
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#include <STM32RTC.h> | ||
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/* Get the rtc object */ | ||
STM32RTC& rtc = STM32RTC::getInstance(); | ||
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uint32_t timeout; | ||
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void setup() | ||
{ | ||
Serial.begin(115200); | ||
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// Select RTC clock source: LSI_CLOCK, LSE_CLOCK or HSE_CLOCK. | ||
rtc.setClockSource(STM32RTC::LSE_CLOCK); | ||
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/* Configure the RTC mode */ | ||
rtc.setBinaryMode(STM32RTC::MODE_BIN); | ||
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/* in BIN mode time and Date register are not used, only the subsecond register for milisseconds */ | ||
rtc.begin(true, STM32RTC::HOUR_24); | ||
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/* wait for a while */ | ||
delay(300); | ||
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/* subsecond expressed in milliseconds */ | ||
Serial.printf("Start at %d ms \r\n", rtc.getSubSeconds()); | ||
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/* Attach the callback function before enabling Interrupt */ | ||
rtc.attachInterrupt(alarmAMatch); | ||
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/* Program the AlarmA in 12 seconds */ | ||
rtc.setAlarmTime(0, 0, 0, 12000); | ||
rtc.enableAlarm(rtc.MATCH_SUBSEC); | ||
Serial.printf("Set Alarm A in 12s (at %d ms)\r\n", rtc.getAlarmSubSeconds()); | ||
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#ifdef RTC_ALARM_B | ||
/* Program ALARM B in 600ms ms from now (keep timeout < 1000ms) */ | ||
timeout = rtc.getSubSeconds() + 600; | ||
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rtc.attachInterrupt(alarmBMatch, STM32RTC::ALARM_B); | ||
rtc.setAlarmSubSeconds(timeout, STM32RTC::ALARM_B); | ||
rtc.enableAlarm(rtc.MATCH_SUBSEC, STM32RTC::ALARM_B); | ||
Serial.printf("Set Alarm B (in %d ms) at %d ms\r\n", 600, | ||
rtc.getAlarmSubSeconds(STM32RTC::ALARM_B)); | ||
#endif /* RTC_ALARM_B */ | ||
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} | ||
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void loop() | ||
{ | ||
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} | ||
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void alarmAMatch(void *data) | ||
{ | ||
UNUSED(data); | ||
rtc.disableAlarm(STM32RTC::ALARM_A); | ||
Serial.printf("Alarm A Match at %d ms \r\n", rtc.getSubSeconds()); | ||
} | ||
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#ifdef RTC_ALARM_B | ||
void alarmBMatch(void *data) | ||
{ | ||
UNUSED(data); | ||
rtc.disableAlarm(STM32RTC::ALARM_B); /* Else it will trig again */ | ||
Serial.printf("Alarm B Match at %d ms\r\n", rtc.getSubSeconds()); | ||
} | ||
#endif /* RTC_ALARM_B */ | ||
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