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1. Article purpose
The purpose of this article is to explain how to configure the timer (TIM)[1] when the peripheral is assigned to Linux® OS:
- Configuring the timer peripheral to enable PWM, trigger or quadrature encoder.
- Configuring the board, e.g. TIM pins.
The configuration is performed using the device tree mechanism[2].
It is used by the TIM Linux driver that registers relevant information in PWM and IIO frameworks.
2. DT bindings documentation
The TIM internal peripheral[1] is a multifunction device (MFD).
Each function is represented by a separate DT binding document:
- STM32 TIM MFD device tree bindings[3] document deals with core resources (e.g. registers, clock, DMAs)
- STM32 TIM PWM device tree bindings[4] document deals with PWM resources (e.g. PWM input/output pins)
- STM32 TIM IIO trigger/encoder device tree bindings[5] document deals with other internal peripheral triggering and quadrature encoder resources
3. DT configuration
This hardware description is a combination of both STM32 microprocessor and board device tree files. Refer to Device tree for more explanations about device tree file split.
The STM32CubeMX can be used to generate the board device tree. Refer to How to configure the DT using STM32CubeMX for more details.
3.1. DT configuration (STM32 level)
TIM nodes are declared in stm32mp157c.dtsi[6].
DT root node (e.g. timers1...) and DT child nodes describe the TIM features such as:
- PWM
- trigger and quadrature encoder
They also describe hardware parameters such as registers address, clock and DMA.
timers1: timer@address { compatible = "st,stm32-timers"; Template:Highlight ... pwm { compatible = "st,stm32-pwm"; Template:Highlight }; timer@0 { compatible = "st,stm32h7-timer-trigger"; Template:Highlight reg = <0>; Template:Highlight }; };
3.2. DT configuration (board level)
This part is used to configure and enable the TIM hardware used on the board:
- Enabling DT root node for the TIM instances in use (e.g timers1...) by setting status = "okay";
- Enabling DT child node(s) for the feature(s) in use (PWM input/output, trigger and quadrature encoder) by setting status = "okay";
- Configuring pins in use via pinctrl through pinctrl-0, pinctrl-1 and pinctrl-names.
3.3. DT configuration examples
3.3.1. TIM configured in PWM mode and trigger source
The example below shows how to configure TIM1 channel 1 to act as:
- PWM output on PE9, e.g. TIM1_CH1 (See pinctrl device tree configuration and GPIO internal peripheral)
- trigger source (synchronous with PWM) for other internal peripheral such as STM32 ADC
Note: The PWM output does not require any DMA channel. Disable them if they are configured by default in the .dtsi file.
pwm1_pins_a: pwm1-0 { pins { pinmux = <STM32_PINMUX('E', 9, AF1)>; Template:Highlight bias-pull-down; drive-push-pull; slew-rate = <0>; }; }; pwm1_sleep_pins_a: pwm1-sleep-0 { pins { pinmux = <STM32_PINMUX('E', 9, ANALOG)>; Template:Highlight }; };
&timers1 { status = "Template:Highlight"; /delete-property/dmas; Template:Highlight /delete-property/dma-names; pwm { pinctrl-0 = <&pwm1_pins_a>; Template:Highlight pinctrl-1 = <&pwm1_sleep_pins_a>; pinctrl-names = "default", "sleep"; status = "Template:Highlight"; Template:Highlight }; timer@0 { status = "Template:Highlight"; Template:Highlight }; };
3.3.2. TIM configured in PWM input capture mode
The example below shows how to configure TIM1 channel 1 in PWM input capture mode (e.g. period and duty cycle):
- Configure PWM input on PE9, e.g. TIM1_CH1 (See pinctrl device tree configuration and GPIO internal peripheral)
A DMA channel is required and must be configured depending on the PWM input channel:
- Select DMA channel 1, "ch1", to capture PWM input channel 1 and/or 2
- Select DMA channel 3, "ch3", to capture PWM input channel 3 and/or 4
pwm1_in_pins_a: pwm1-in-0 { pins { pinmux = <STM32_PINMUX('E', 9, AF1)>; Template:Highlight bias-disable; }; }; pwm1_in_sleep_pins_a: pwm1-in-sleep-0 { pins { pinmux = <STM32_PINMUX('E', 9, ANALOG)>; Template:Highlight }; };
&timers1 { status = "Template:Highlight"; dmas = <&dmamux1 11 0x400 0x5>; Template:Highlight dma-names = "ch1"; pwm { pinctrl-0 = <&pwm1_in_pins_a>; Template:Highlight pinctrl-1 = <&pwm1_in_sleep_pins_a>; pinctrl-names = "default", "sleep"; status = "Template:Highlight"; Template:Highlight }; };
3.3.3. TIM configured as quadrature encoder interface
The example below shows how to configure TIM1 to interface with a quadrature encoder:
- Configure PE9 and PJ11 as encoder input pins, e.g. TIM1_CH1, TIM1_CH2 (see pinctrl device tree configuration and GPIO internal peripheral)
tim1_in_pins_a: tim1-in-pins-0 {
pins {
pinmux = <STM32_PINMUX('E', 9, AF1)>, /* TIM1_CH1 */
<STM32_PINMUX('J', 11, AF1)>; /* TIM1_CH2 */
bias-disable;
};
};
tim1_in_pins_sleep_a: tim1-in-pins-sleep-0 {
pins {
pinmux = <STM32_PINMUX('E', 9, ANALOG)>, /* TIM1_CH1 */
<STM32_PINMUX('J', 11, ANALOG)>; /* TIM1_CH2 */
};
};
&timers1 { status = "Template:Highlight"; /delete-property/dmas; Template:Highlight /delete-property/dma-names; timer@0 { pinctrl-0 = <&tim1_in_pins_a>; Template:Highlight pinctrl-1 = <&tim1_in_pins_sleep_a>; pinctrl-names = "default", "sleep"; status = "Template:Highlight"; Template:Highlight }; };
4. How to configure the DT using STM32CubeMX
The STM32CubeMX tool can be used to configure the STM32MPU device and get the corresponding platform configuration device tree files.
The STM32CubeMX may not support all the properties described in the above DT bindings documentation paragraph. If so, the tool inserts user sections in the generated device tree. These sections can then be edited to add some properties and they are preserved from one generation to another. Refer to STM32CubeMX user manual for further information.
5. References
Please refer to the following links for additional information:
- ↑ Jump up to: 1.0 1.1 TIM internal peripheral
- ↑ Device tree
- ↑ Template:CodeSource, STM32 TIM MFD device tree bindings
- ↑ Template:CodeSource, STM32 TIM PWM device tree bindings
- ↑ Template:CodeSource, STM32 TIM trigger/encoder device tree bindings
- ↑ Template:CodeSource, STM32.dtsi file