Documentation/devicetree/bindings/regulator/pwm-regulator.txt - linux-imx - Git at Google

 Bindings for the Generic PWM Regulator
 ======================================

 Currently supports 2 modes of operation:

 Voltage Table:		When in this mode, a voltage table (See below) of
 			predefined voltage <=> duty-cycle values must be
 			provided via DT. Limitations are that the regulator can
 			only operate at the voltages supplied in the table.
 			Intermediary duty-cycle values which would normally
 			allow finer grained voltage selection are ignored and
 			rendered useless.  Although more control is given to
 			the user if the assumptions made in continuous-voltage
 			mode do not reign true.

 Continuous Voltage:	This mode uses the regulator's maximum and minimum
 			supplied voltages specified in the
 			regulator-{min,max}-microvolt properties to calculate
 			appropriate duty-cycle values.  This allows for a much
 			more fine grained solution when compared with
 			voltage-table mode above.  This solution does make an
 			assumption that a %50 duty-cycle value will cause the
 			regulator voltage to run at half way between the
 			supplied max_uV and min_uV values.

 Required properties:
 --------------------
 - compatible:		Should be "pwm-regulator"

 - pwms:			PWM specification (See: ../pwm/pwm.txt)

 Only required for Voltage Table Mode:
 - voltage-table: 	Voltage and Duty-Cycle table consisting of 2 cells
 			    First cell is voltage in microvolts (uV)
 			    Second cell is duty-cycle in percent (%)

 Optional properties for Continuous mode:
 - pwm-dutycycle-unit:	Integer value encoding the duty cycle unit. If not
 			defined, <100> is assumed, meaning that
 			pwm-dutycycle-range contains values expressed in
 			percent.

 - pwm-dutycycle-range:	Should contain 2 entries. The first entry is encoding
 			the dutycycle for regulator-min-microvolt and the
 			second one the dutycycle for regulator-max-microvolt.
 			Duty cycle values are expressed in pwm-dutycycle-unit.
 			If not defined, <0 100> is assumed.

 NB: To be clear, if voltage-table is provided, then the device will be used
 in Voltage Table Mode.  If no voltage-table is provided, then the device will
 be used in Continuous Voltage Mode.

 Optional properties:
 --------------------
 - enable-gpios:		GPIO to use to enable/disable the regulator

 Any property defined as part of the core regulator binding can also be used.
 (See: ../regulator/regulator.txt)

 Continuous Voltage With Enable GPIO Example:
 	pwm_regulator {
 		compatible = "pwm-regulator";
 		pwms = <&pwm1 0 8448 0>;
 		enable-gpios = <&gpio0 23 GPIO_ACTIVE_HIGH>;
 		regulator-min-microvolt = <1016000>;
 		regulator-max-microvolt = <1114000>;
 		regulator-name = "vdd_logic";
 		/* unit == per-mille */
 		pwm-dutycycle-unit = <1000>;
 		/*
 		 * Inverted PWM logic, and the duty cycle range is limited
 		 * to 30%-70%.
 		 */
 		pwm-dutycycle-range = <700 300>; /* */
 	};

 Voltage Table Example:
 	pwm_regulator {
 		compatible = "pwm-regulator";
 		pwms = <&pwm1 0 8448 0>;
 		regulator-min-microvolt = <1016000>;
 		regulator-max-microvolt = <1114000>;
 		regulator-name = "vdd_logic";

 			      /* Voltage Duty-Cycle */
 		voltage-table = <1114000 0>,
 				<1095000 10>,
 				<1076000 20>,
 				<1056000 30>,
 				<1036000 40>,
 				<1016000 50>;
 	};
	Bindings for the Generic PWM Regulator
	======================================

	Currently supports 2 modes of operation:

	Voltage Table: When in this mode, a voltage table (See below) of
	predefined voltage <=> duty-cycle values must be
	provided via DT. Limitations are that the regulator can
	only operate at the voltages supplied in the table.
	Intermediary duty-cycle values which would normally
	allow finer grained voltage selection are ignored and
	rendered useless. Although more control is given to
	the user if the assumptions made in continuous-voltage
	mode do not reign true.

	Continuous Voltage: This mode uses the regulator's maximum and minimum
	supplied voltages specified in the
	regulator-{min,max}-microvolt properties to calculate
	appropriate duty-cycle values. This allows for a much
	more fine grained solution when compared with
	voltage-table mode above. This solution does make an
	assumption that a %50 duty-cycle value will cause the
	regulator voltage to run at half way between the
	supplied max_uV and min_uV values.

	Required properties:
	--------------------
	- compatible: Should be "pwm-regulator"

	- pwms: PWM specification (See: ../pwm/pwm.txt)

	Only required for Voltage Table Mode:
	- voltage-table: Voltage and Duty-Cycle table consisting of 2 cells
	First cell is voltage in microvolts (uV)
	Second cell is duty-cycle in percent (%)

	Optional properties for Continuous mode:
	- pwm-dutycycle-unit: Integer value encoding the duty cycle unit. If not
	defined, <100> is assumed, meaning that
	pwm-dutycycle-range contains values expressed in
	percent.

	- pwm-dutycycle-range: Should contain 2 entries. The first entry is encoding
	the dutycycle for regulator-min-microvolt and the
	second one the dutycycle for regulator-max-microvolt.
	Duty cycle values are expressed in pwm-dutycycle-unit.
	If not defined, <0 100> is assumed.

	NB: To be clear, if voltage-table is provided, then the device will be used
	in Voltage Table Mode. If no voltage-table is provided, then the device will
	be used in Continuous Voltage Mode.

	Optional properties:
	--------------------
	- enable-gpios: GPIO to use to enable/disable the regulator

	Any property defined as part of the core regulator binding can also be used.
	(See: ../regulator/regulator.txt)

	Continuous Voltage With Enable GPIO Example:
	pwm_regulator {
	compatible = "pwm-regulator";
	pwms = <&pwm1 0 8448 0>;
	enable-gpios = <&gpio0 23 GPIO_ACTIVE_HIGH>;
	regulator-min-microvolt = <1016000>;
	regulator-max-microvolt = <1114000>;
	regulator-name = "vdd_logic";
	/* unit == per-mille */
	pwm-dutycycle-unit = <1000>;
	/*
	* Inverted PWM logic, and the duty cycle range is limited
	* to 30%-70%.
	*/
	pwm-dutycycle-range = <700 300>; /* */
	};

	Voltage Table Example:
	pwm_regulator {
	compatible = "pwm-regulator";
	pwms = <&pwm1 0 8448 0>;
	regulator-min-microvolt = <1016000>;
	regulator-max-microvolt = <1114000>;
	regulator-name = "vdd_logic";

	/* Voltage Duty-Cycle */
	voltage-table = <1114000 0>,
	<1095000 10>,
	<1076000 20>,
	<1056000 30>,
	<1036000 40>,
	<1016000 50>;
	};