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Milliways
Milliways
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The following explains how the power circuitry of modern Pi (with 40 pin header) works Raspberry Pi Power Limitations.

The lightning bolt is controlled by the kernel, and AFAIK there is no simple way to access it.

The power state can be detected more easily. This is directly available through the system in B+ Pi2 /sys/class/leds/led1, and accessible through a program on Pi3 https://raspberrypi.stackexchange.com/a/60275/8697

NOTE Under Bullseye this changed to /sys/class/leds/PWR which is a link to /sys/devices/platform/leds/leds/PWR/

The following explains how the power circuitry of modern Pi (with 40 pin header) works Raspberry Pi Power Limitations.

The lightning bolt is controlled by the kernel, and AFAIK there is no simple way to access it.

The power state can be detected more easily. This is directly available through the system in B+ Pi2 /sys/class/leds/led1, and accessible through a program on Pi3 https://raspberrypi.stackexchange.com/a/60275/8697

The following explains how the power circuitry of modern Pi (with 40 pin header) works Raspberry Pi Power Limitations.

The lightning bolt is controlled by the kernel, and AFAIK there is no simple way to access it.

The power state can be detected more easily. This is directly available through the system in B+ Pi2 /sys/class/leds/led1, and accessible through a program on Pi3 https://raspberrypi.stackexchange.com/a/60275/8697

NOTE Under Bullseye this changed to /sys/class/leds/PWR which is a link to /sys/devices/platform/leds/leds/PWR/

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The following explains how the power circuitry of modern Pi (with 40 pin header) works Raspberry Pi Power LimitationsRaspberry Pi Power Limitations.

The lightning bolt is controlled by the kernel, and AFAIK there is no simple way to access it.

The power state can be detected more easily. This is directly available through the system in B+ Pi2 /sys/class/leds/led1, and accessible through a program on Pi3 http://raspberrypi.stackexchange.com/a/60275/8697https://raspberrypi.stackexchange.com/a/60275/8697

The following explains how the power circuitry of modern Pi (with 40 pin header) works Raspberry Pi Power Limitations.

The lightning bolt is controlled by the kernel, and AFAIK there is no simple way to access it.

The power state can be detected more easily. This is directly available through the system in B+ Pi2 /sys/class/leds/led1, and accessible through a program on Pi3 http://raspberrypi.stackexchange.com/a/60275/8697

The following explains how the power circuitry of modern Pi (with 40 pin header) works Raspberry Pi Power Limitations.

The lightning bolt is controlled by the kernel, and AFAIK there is no simple way to access it.

The power state can be detected more easily. This is directly available through the system in B+ Pi2 /sys/class/leds/led1, and accessible through a program on Pi3 https://raspberrypi.stackexchange.com/a/60275/8697

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Source Link
Milliways
Milliways
  • 61.5k
  • 32
  • 108
  • 212

The following explains how the power circuitry of modern Pi (with 40 pin header) works Raspberry Pi Power Limitations.

The lightning bolt is controlled by the kernel, and AFAIK there is no simple way to access it.

The power state can be detected more easily. This is directly available through the system in B+ Pi2 /sys/class/leds/led1, and accessible through a program on Pi3 http://raspberrypi.stackexchange.com/a/60275/8697

The following explains how the power circuitry of modern Pi (with 40 pin header) works Raspberry Pi Power Limitations.

The lightning bolt is controlled by the kernel, and AFAIK there is no simple way to access it.

The power state can be detected more easily. This is directly available through the system in B+ Pi2 /sys/class/led1, and accessible through a program on Pi3 http://raspberrypi.stackexchange.com/a/60275/8697

The following explains how the power circuitry of modern Pi (with 40 pin header) works Raspberry Pi Power Limitations.

The lightning bolt is controlled by the kernel, and AFAIK there is no simple way to access it.

The power state can be detected more easily. This is directly available through the system in B+ Pi2 /sys/class/leds/led1, and accessible through a program on Pi3 http://raspberrypi.stackexchange.com/a/60275/8697

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Milliways
Milliways
  • 61.5k
  • 32
  • 108
  • 212