qmk-dactyl-manuform-a/docs/adc_driver.md

ADC Driver

QMK can leverage the Analog-to-Digital Converter (ADC) on supported MCUs to measure voltages on certain pins. This can be useful for implementing things such as battery level indicators for Bluetooth keyboards, or volume controls using a potentiometer, as opposed to a rotary encoder.

This driver currently supports both AVR and a limited selection of ARM devices. The values returned are 10-bit integers (0-1023) mapped between 0V and VCC (usually 5V or 3.3V for AVR, 3.3V only for ARM), however on ARM there is more flexibility in control of operation through #defines if you need more precision.

Usage

To use this driver, add the following to your rules.mk:

SRC += analog.c

Then place this include at the top of your code:

#include "analog.h"

Channels

AVR

Channel	AT90USB64/128	ATmega16/32U4	ATmega32A	ATmega328/P
0	F0	F0	A0	C0
1	F1	F1	A1	C1
2	F2		A2	C2
3	F3		A3	C3
4	F4	F4	A4	C4
5	F5	F5	A5	C5
6	F6	F6	A6	*
7	F7	F7	A7	*
8		D4
9		D6
10		D7
11		B4
12		B5
13		B6

^{* The ATmega328/P possesses two extra ADC channels; however, they are not present on the DIP pinout, and are not shared with GPIO pins. You can use adc_read() directly to gain access to these.}

ARM

Note that some of these pins are doubled-up on ADCs with the same channel. This is because the pins can be used for either ADC.

Also note that the F0 and F3 use different numbering schemes. The F0 has a single ADC and the channels are 0-indexed, whereas the F3 has 4 ADCs and the channels are 1-indexed. This is because the F0 uses the ADCv1 implementation of the ADC, whereas the F3 uses the ADCv3 implementation.

ADC	Channel	STM32F0xx	STM32F1xx	STM32F3xx	STM32F4xx
1	0	A0	A0		A0
1	1	A1	A1	A0	A1
1	2	A2	A2	A1	A2
1	3	A3	A3	A2	A3
1	4	A4	A4	A3	A4
1	5	A5	A5	F4	A5
1	6	A6	A6	C0	A6
1	7	A7	A7	C1	A7
1	8	B0	B0	C2	B0
1	9	B1	B1	C3	B1
1	10	C0	C0	F2	C0
1	11	C1	C1		C1
1	12	C2	C2		C2
1	13	C3	C3		C3
1	14	C4	C4		C4
1	15	C5	C5		C5
1	16
2	0		A0¹		A0²
2	1		A1¹	A4	A1²
2	2		A2¹	A5	A2²
2	3		A3¹	A6	A3²
2	4		A4¹	A7	A4²
2	5		A5¹	C4	A5²
2	6		A6¹	C0	A6²
2	7		A7¹	C1	A7²
2	8		B0¹	C2	B0²
2	9		B1¹	C3	B1²
2	10		C0¹	F2	C0²
2	11		C1¹	C5	C1²
2	12		C2¹	B2	C2²
2	13		C3¹		C3²
2	14		C4¹		C4²
2	15		C5¹		C5²
2	16
3	0		A0¹		A0²
3	1		A1¹	B1	A1²
3	2		A2¹	E9	A2²
3	3		A3¹	E13	A3²
3	4		F6¹		F6²
3	5		F7¹	B13	F7²
3	6		F8¹	E8	F8²
3	7		F9¹	D10	F9²
3	8		F10¹	D11	F10²
3	9			D12	F3²
3	10		C0¹	D13	C0²
3	11		C1¹	D14	C1²
3	12		C2¹	B0	C2²
3	13		C3¹	E7	C3²
3	14			E10	F4²
3	15			E11	F5²
3	16			E12
4	1			E14
4	2			E15
4	3			B12
4	4			B14
4	5			B15
4	6			E8
4	7			D10
4	8			D11
4	9			D12
4	10			D13
4	11			D14
4	12			D8
4	13			D9
4	14
4	15
4	16

^{¹ As of ChibiOS 20.3.4, the ADC driver for STM32F1xx devices supports only ADC1, therefore any configurations involving ADC2 or ADC3 cannot actually be used. In particular, pins F6…F10, which are present at least on some STM32F103x[C-G] devices, cannot be used as ADC inputs because of this driver limitation.}

^{² Not all STM32F4xx devices have ADC2 and/or ADC3, therefore some configurations shown in this table may be unavailable; in particular, pins F4…F10 cannot be used as ADC inputs on devices which do not have ADC3. Check the device datasheet to confirm which pin functions are supported.}

Functions

AVR

Function	Description
analogReference(mode)	Sets the analog voltage reference source. Must be one of ADC_REF_EXTERNAL, ADC_REF_POWER or ADC_REF_INTERNAL.
analogReadPin(pin)	Reads the value from the specified pin, eg. F6 for ADC6 on the ATmega32U4.
pinToMux(pin)	Translates a given pin to a mux value. If an unsupported pin is given, returns the mux value for "0V (GND)".
adc_read(mux)	Reads the value from the ADC according to the specified mux. See your MCU's datasheet for more information.

ARM

Function	Description
analogReadPin(pin)	Reads the value from the specified pin, eg. A0 for channel 0 on the STM32F0 and ADC1 channel 1 on the STM32F3. Note that if a pin can be used for multiple ADCs, it will pick the lower numbered ADC for this function. eg. C0 will be channel 6 of ADC 1 when it could be used for ADC 2 as well.
analogReadPinAdc(pin, adc)	Reads the value from the specified pin and ADC, eg. C0, 1 will read from channel 6, ADC 2 instead of ADC 1. Note that the ADCs are 0-indexed for this function.
pinToMux(pin)	Translates a given pin to a channel and ADC combination. If an unsupported pin is given, returns the mux value for "0V (GND)".
adc_read(mux)	Reads the value from the ADC according to the specified pin and ADC combination. See your MCU's datasheet for more information.

Configuration

ARM

The ARM implementation of the ADC has a few additional options that you can override in your own keyboards and keymaps to change how it operates. Please consult the corresponding hal_adc_lld.h in ChibiOS for your specific microcontroller for further documentation on your available options.

#define	Type	Default	Description
ADC_CIRCULAR_BUFFER	bool	false	If true, then the implementation will use a circular buffer.
ADC_NUM_CHANNELS	int	1	Sets the number of channels that will be scanned as part of an ADC operation. The current implementation only supports 1.
ADC_BUFFER_DEPTH	int	2	Sets the depth of each result. Since we are only getting a 10-bit result by default, we set this to 2 bytes so we can contain our one value. This could be set to 1 if you opt for an 8-bit or lower result.
ADC_SAMPLING_RATE	int	ADC_SMPR_SMP_1P5	Sets the sampling rate of the ADC. By default, it is set to the fastest setting.
ADC_RESOLUTION	int	ADC_CFGR1_RES_10BIT or ADC_CFGR_RES_10BITS	The resolution of your result. We choose 10 bit by default, but you can opt for 12, 10, 8, or 6 bit. Different MCUs use slightly different names for the resolution constants.