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<noinclude>
{{ArticleBasedOnModel|[[Peripheral or framework device tree configuration model]]}}
{{ArticleMainWriter|FabriceG}}
{{ArticleApprovedVersion| FabriceG | PascalP | No previous approved version | AnneJ - 13Sep'18 - 8779 | 14Sep'18 }}
[[Category:Device tree configuration]]
[[Category:IIO]]
{{ReviewsComments|JCT 1840: alignment needed with the last version of the model [[Peripheral or framework device tree configuration model]]<br>
[[Category:ToBeAlignedWithModel]]
}}
</noinclude>
== Article purpose ==
== Article purpose ==
The purpose of this article is to explain how to configure the analog-to-digital converter (''ADC'')<ref name="ADC internal peripheral">[[ADC internal peripheral]]</ref> ''' when the peripheral is assigned to Linux<sup>&reg;</sup> OS''', and in particular:
The purpose of this article is to explain how to configure the analog-to-digital converter (''ADC'')<ref name="ADC internal peripheral">[[ADC internal peripheral]]</ref> ''' when the peripheral is assigned to Linux<sup>&reg;</sup> OS''', and in particular:
Line 21: Line 8:
It is used by the [[ADC Linux driver]] that registers relevant information in [[IIO overview|IIO framework]], such as IIO devices, channels and voltage scale for each ADC.
It is used by the [[ADC Linux driver]] that registers relevant information in [[IIO overview|IIO framework]], such as IIO devices, channels and voltage scale for each ADC.


If the peripheral is assigned to another execution context, refer to [[How to assign an internal peripheral to a runtime context]] article for guidelines on peripheral assignment and configuration.


== DT bindings documentation ==
== DT bindings documentation ==
Line 30: Line 18:
The '''STM32CubeMX''' can be used to generate the board device tree. Refer to [[#How_to_configure_the_DT_using_STM32CubeMX|How to configure the DT using STM32CubeMX]] for more details.
The '''STM32CubeMX''' can be used to generate the board device tree. Refer to [[#How_to_configure_the_DT_using_STM32CubeMX|How to configure the DT using STM32CubeMX]] for more details.
{{
{{
ImageMap|Image:ADC DT configuration.png {{!}} frame {{!}} center{{!}} ADC DT configuration <br/> {{WarningImageMapOverlay}}
ImageMap|Image:ADC DT configuration.png {{!}} frame {{!}} center{{!}} ADC DT configuration
rect 233 249 295 287 [[#Common_resources_for_all_ADCs|ADC common resources]]
rect 233 249 295 287 [[#Common_resources_for_all_ADCs|ADC common resources]]
rect 333 158 395 197 [[#Common_resources_for_all_ADCs|ADC common resources]]
rect 333 158 395 197 [[#Common_resources_for_all_ADCs|ADC common resources]]
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  adc: adc@address {
  adc: adc@address {
  compatible = "st,stm32mp1-adc-core";
  compatible = "st,stm32mp1-adc-core";
  ...                                                                           {{highlight|/* common resources in 'adc' root node. */}}
  ...                                     {{highlight|/* common resources in 'adc' root node. */}}
  adc1: adc@0 {
  adc1: adc@0 {
  compatible = "st,stm32mp1-adc";
  compatible = "st,stm32mp1-adc";
  ...                                                                   {{highlight|/* private resources in 'adc1' child node. */}}
  ...                             {{highlight|/* private resources in 'adc1' child node. */}}
  };
  };
  adc2: adc@100 {
  adc2: adc@100 {
  compatible = "st,stm32mp1-adc";
  compatible = "st,stm32mp1-adc";
  ...                                                                   {{highlight|/* private resources in 'adc2' child node. */}}
  ...                             {{highlight|/* private resources in 'adc2' child node. */}}
  };
  };
  };
  };
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* Enable the ADC block by setting '''status = "okay".'''
* Enable the ADC block by setting '''status = "okay".'''
* Configure the pins in use via [[Pinctrl overview|pinctrl]], through '''pinctrl-0''' and '''pinctrl-names'''.
* Configure the pins in use via [[Pinctrl overview|pinctrl]], through '''pinctrl-0''' and '''pinctrl-names'''.
* Configure the analog reference voltage regulator<ref name="Regulator overview">[[Regulator overview]]</ref> by setting '''vref-supply = <&your_regulator>'''.
* Configure the analog supply voltage regulator<ref name="Regulator overview">[[Regulator overview]]</ref> by setting '''vdda-supply = <&your_vdda_regulator>'''.
* Configure the analog reference voltage regulator<ref name="Regulator overview">[[Regulator overview]]</ref> by setting '''vref-supply = <&your_vref_regulator>'''.
{{info|The ADC can use the internal VREFBUF<ref name="VREFBUF internal peripheral">[[VREFBUF internal peripheral]]</ref> or any other external regulator<ref name="Regulator overview"/> wired to VREF+ pin.}}
{{info|The ADC can use the internal VREFBUF<ref name="VREFBUF internal peripheral">[[VREFBUF internal peripheral]]</ref> or any other external regulator<ref name="Regulator overview"/> wired to VREF+ pin.}}


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The example below shows how to configure ADC1:
The example below shows how to configure ADC1:
* Input pin: use [[Pinctrl device tree configuration]] to configure PF12 as analog input.
* Input pin: use [[Pinctrl device tree configuration]] to configure PF12 as analog input.
* Analog supply: it is provided by one of the [[PMIC hardware components|PMIC]] LDO regulators.
* Voltage reference: it is provided by the [[Regulator_overview#Microprocessor device internal regulators|VREFBUF internal regulator]].
* Voltage reference: it is provided by the [[Regulator_overview#Microprocessor device internal regulators|VREFBUF internal regulator]].
* Input channel: configure ADC1_IN6 (e.g on PF12).
* Input channel: configure ADC1_IN6 (e.g on PF12).
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  adc1_in6_pins_a: adc1-in6 {
  adc1_in6_pins_a: adc1-in6 {
  pins {
  pins {
  pinmux = <STM32_PINMUX({{highlight|'F'}},{{highlight| 12}}, ANALOG)>;               {{highlight|/* configure 'PF12' as ANALOG */}}
  pinmux = <STM32_PINMUX({{highlight|'F'}},{{highlight| 12}}, ANALOG)>; {{highlight|/* configure 'PF12' as ANALOG */}}
  };
  };
  };
  };
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  /* ADC1 & ADC2 common resources */
  /* ADC1 & ADC2 common resources */
  pinctrl-names = "default";
  pinctrl-names = "default";
  pinctrl-0 = {{highlight|<&adc1_in6_pins_a>}};                                 {{highlight|/* Use PF12 pin as ANALOG */}}
  pinctrl-0 = {{highlight|<&adc1_in6_pins_a>}};             {{highlight|/* Use PF12 pin as ANALOG */}}
  vref-supply ={{highlight| <&vrefbuf>}};                                       {{highlight|/* Example to use VREFBUF (It needs to be enabled as well) */}}
vdda-supply ={{highlight| <&vdda>}};                      {{highlight|/* Example to supply vdda pin by using a PMIC regulator}}
  status = "'''okay'''";                                                 {{highlight|/* Enable ADC12 block */}}
  vref-supply ={{highlight| <&vrefbuf>}};                   {{highlight|/* Example to use VREFBUF (It needs to be enabled as well) */}}
  status = "'''okay'''";                             {{highlight|/* Enable ADC12 block */}}
  adc1: adc@0 {
  adc1: adc@0 {
  /* private resources for ADC1 */
  /* private resources for ADC1 */
  st,adc-channels = {{highlight|<6>}};                                   {{highlight|/* ADC1 in6 channel is used */}}
  st,adc-channels = {{highlight|<6>}};               {{highlight|/* ADC1 in6 channel is used */}}
  st,min-sample-time-nsecs = {{highlight|<10000>}};                     {{highlight|/* 10µs sampling time */}}
  st,min-sample-time-nsecs = {{highlight|<10000>}}; {{highlight|/* 10µs sampling time */}}
  status = "'''okay'''";                                         {{highlight|/* Enable ADC1 */}}
  status = "'''okay'''";                     {{highlight|/* Enable ADC1 */}}
  };
  };
  adc2: adc@100 {
  adc2: adc@100 {
Line 119: Line 109:


<references />
<references />
<noinclude>
{{ArticleBasedOnModel | Peripheral or framework device tree configuration model}}
{{PublicationRequestId | 8779 | 2018-09-13 | AnneJ}}
[[Category:Device tree configuration]]
[[Category:IIO]]
{{ReviewsComments|JCT 1840: alignment needed with the last version of the model<br>
[[Category:ToBeAlignedWithModel]]
}}
</noinclude>

Latest revision as of 10:29, 7 February 2020

1. Article purpose

The purpose of this article is to explain how to configure the analog-to-digital converter (ADC)[1] when the peripheral is assigned to Linux® OS, and in particular:

  • how to configure the ADC peripheral
  • how to configure the board, e.g. the ADC voltage reference regulator, channels, pins and sampling time.

The configuration is performed using the device tree mechanism[2].

It is used by the ADC Linux driver that registers relevant information in IIO framework, such as IIO devices, channels and voltage scale for each ADC.

If the peripheral is assigned to another execution context, refer to How to assign an internal peripheral to a runtime context article for guidelines on peripheral assignment and configuration.

2. DT bindings documentation

STM32 ADC device tree bindings[3] describe all the required and optional functions.

3. DT configuration

This hardware description is a combination of STM32 microprocessor and board device tree files. See Device tree for more explanations on 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. Template:ImageMap

3.1. DT configuration (STM32 level)

The ADC nodes are declared in stm32mp157c.dtsi[4].

  • DT root node ('adc') describes the ADC hardware block parameters such as register areas, clocks and interrupts.
  • DT child nodes ('adc1' and 'adc2') describe ADC1 and ADC2 independently.
adc: adc@address {
	compatible = "st,stm32mp1-adc-core";
	...                                      Template:Highlight
	adc1: adc@0 {
		compatible = "st,stm32mp1-adc";
		...                              Template:Highlight
	};
	adc2: adc@100 {
		compatible = "st,stm32mp1-adc";
		...                              Template:Highlight
	};
};

Template:Warning

3.2. DT configuration (board level)

Follow the sequences described in the below chapters to configure and enable the ADC on your board.

3.2.1. Common resources for all ADCs

The DT root node ('adc') must be filled in:

  • Enable the ADC block by setting status = "okay".
  • Configure the pins in use via pinctrl, through pinctrl-0 and pinctrl-names.
  • Configure the analog supply voltage regulator[5] by setting vdda-supply = <&your_vdda_regulator>.
  • Configure the analog reference voltage regulator[5] by setting vref-supply = <&your_vref_regulator>.

Template:Info

3.2.2. Resources dedicated to ADC1 and ADC2

The DT child nodes ('adc1' and/or 'adc2') must be filled in:

  • Enable 'adc1' and/or 'adc2' by setting status = "okay".
  • Enable single-ended channel(s) (<vinp...>) by setting st,adc-channels = <0 1 2...>.
  • Enable differential channel(s) pairs (<vinp vinn>, ...) by setting st,adc-diff-channels = <1 0>, <2 6>, ....
  • Set the minimum sampling time [6] for each or all channels by setting st,min-sample-time-nsecs = <10000> (optional).
  • Set the resolution by setting assigned-resolution-bits = <12> (optional).

3.3. DT configuration example

The example below shows how to configure ADC1:

  • Input pin: use Pinctrl device tree configuration to configure PF12 as analog input.
  • Analog supply: it is provided by one of the PMIC LDO regulators.
  • Voltage reference: it is provided by the VREFBUF internal regulator.
  • Input channel: configure ADC1_IN6 (e.g on PF12).
  • Sampling time: the minimum sampling time is 10 µs.
# part of pin-controller dt node
adc1_in6_pins_a: adc1-in6 {
	pins {
		pinmux = <STM32_PINMUX(Template:Highlight,Template:Highlight, ANALOG)>; Template:Highlight
	};
};

&adc {
	/* ADC1 & ADC2 common resources */
	pinctrl-names = "default";
	pinctrl-0 = Template:Highlight;              Template:Highlight
	vdda-supply =Template:Highlight;                       Template:Highlight
	vref-supply =Template:Highlight;                    Template:Highlight
	status = "okay";                             Template:Highlight
	adc1: adc@0 {
		/* private resources for ADC1 */
		st,adc-channels = Template:Highlight;               Template:Highlight
		st,min-sample-time-nsecs = Template:Highlight;  Template:Highlight
		status = "okay";                     Template:Highlight
	};
	adc2: adc@100 {
		/* private resources for ADC2 */
		...
	};
};

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

For additional information, refer to the following links:

  1. ADC internal peripheral
  2. Device tree
  3. Template:CodeSource, STM32 ADC device tree bindings
  4. Template:CodeSource
  5. Jump up to: 5.0 5.1 Regulator overview
  6. How to get the best ADC accuracy in STM32, by STMicroelectronics


Template:ArticleBasedOnModel


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