1Voltage/Current regulator 2 3Binding: 4The regulator devices don't use the "compatible" property. The binding is done 5by the prefix of regulator node's name. Usually the pmic I/O driver will provide 6the array of 'struct pmic_child_info' with the prefixes and compatible drivers. 7The bind is done by calling function: pmic_bind_childs(). 8Example drivers: 9pmic: drivers/power/pmic/max77686.c 10regulator: drivers/power/regulator/max77686.c 11 12For the node name e.g.: "prefix[:alpha:]num { ... }": 13- the driver prefix should be: "prefix" or "PREFIX" - case insensitive 14- the node name's "num" is set as "dev->driver_data" on bind 15 16Example the prefix "ldo" will pass for: "ldo1", "ldo@1", "LDO1", "LDOREG@1"... 17 18Required properties: 19- regulator-name: a string, required by the regulator uclass 20 21Note 22The "regulator-name" constraint is used for setting the device's uclass 23platform data '.name' field. And the regulator device name is set from 24it's node name. 25 26Optional properties: 27- regulator-min-microvolt: a minimum allowed Voltage value 28- regulator-max-microvolt: a maximum allowed Voltage value 29- regulator-min-microamp: a minimum allowed Current value 30- regulator-max-microamp: a maximum allowed Current value 31- regulator-always-on: regulator should never be disabled 32- regulator-boot-on: enabled by bootloader/firmware 33 34Other kernel-style properties, are currently not used. 35 36Note: 37For the regulator autoset from constraints, the framework expects that: 38- regulator-min-microvolt is equal to regulator-max-microvolt 39- regulator-min-microamp is equal to regulator-max-microamp 40- regulator-always-on or regulator-boot-on is set 41 42Example: 43ldo0 { 44 /* Mandatory */ 45 regulator-name = "VDDQ_EMMC_1.8V"; 46 47 /* Optional */ 48 regulator-min-microvolt = <1800000>; 49 regulator-max-microvolt = <1800000>; 50 regulator-min-microamp = <100000>; 51 regulator-max-microamp = <100000>; 52 regulator-always-on; 53 regulator-boot-on; 54}; 55