1Adaptive Body Bias(ABB) SoC internal LDO regulator for Texas Instruments SoCs 2 3Required Properties: 4- compatible: Should be one of: 5 - "ti,abb-v1" for older SoCs like OMAP3 6 - "ti,abb-v2" for newer SoCs like OMAP4, OMAP5 7 - "ti,abb-v3" for a generic definition where setup and control registers are 8 provided (example: DRA7) 9- reg: Address and length of the register set for the device. It contains 10 the information of registers in the same order as described by reg-names 11- reg-names: Should contain the reg names 12 - "base-address" - contains base address of ABB module (ti,abb-v1,ti,abb-v2) 13 - "control-address" - contains control register address of ABB module (ti,abb-v3) 14 - "setup-address" - contains setup register address of ABB module (ti,abb-v3) 15 - "int-address" - contains address of interrupt register for ABB module 16 (also see Optional properties) 17- #address-cells: should be 0 18- #size-cells: should be 0 19- clocks: should point to the clock node used by ABB module 20- ti,settling-time: Settling time in uSecs from SoC documentation for ABB module 21 to settle down(target time for SR2_WTCNT_VALUE). 22- ti,clock-cycles: SoC specific data about count of system ti,clock-cycles used for 23 computing settling time from SoC Documentation for ABB module(clock 24 cycles for SR2_WTCNT_VALUE). 25- ti,tranxdone-status-mask: Mask to the int-register to write-to-clear mask 26 indicating LDO tranxdone (operation complete). 27- ti,abb_info: An array of 6-tuples u32 items providing information about ABB 28 configuration needed per operational voltage of the device. 29 Each item consists of the following in the same order: 30 volt: voltage in uV - Only used to index ABB information. 31 ABB mode: one of the following: 32 0-bypass 33 1-Forward Body Bias(FBB) 34 3-Reverse Body Bias(RBB) 35 efuse: (see Optional properties) 36 RBB enable efuse Mask: (See Optional properties) 37 FBB enable efuse Mask: (See Optional properties) 38 Vset value efuse Mask: (See Optional properties) 39 40 NOTE: If more than 1 entry is present, then regulator is setup to change 41 voltage, allowing for various modes to be selected indexed off 42 the regulator. Further, ABB LDOs are considered always-on by 43 default. 44 45Optional Properties: 46- reg-names: In addition to the required properties, the following are optional 47 - "efuse-address" - Contains efuse base address used to pick up ABB info. 48 - "ldo-address" - Contains address of ABB LDO override register. 49 "efuse-address" is required for this. 50- ti,ldovbb-vset-mask - Required if ldo-address is set, mask for LDO override 51 register to provide override vset value. 52- ti,ldovbb-override-mask - Required if ldo-address is set, mask for LDO 53 override register to enable override vset value. 54- ti,abb_opp_sel: Addendum to the description in required properties 55 efuse: Mandatory if 'efuse-address' register is defined. Provides offset 56 from efuse-address to pick up ABB characteristics. Set to 0 if 57 'efuse-address' is not defined. 58 RBB enable efuse Mask: Optional if 'efuse-address' register is defined. 59 'ABB mode' is force set to RBB mode if value at "efuse-address" 60 + efuse maps to RBB mask. Set to 0 to ignore this. 61 FBB enable efuse Mask: Optional if 'efuse-address' register is defined. 62 'ABB mode' is force set to FBB mode if value at "efuse-address" 63 + efuse maps to FBB mask (valid only if RBB mask does not match) 64 Set to 0 to ignore this. 65 Vset value efuse Mask: Mandatory if ldo-address is set. Picks up from 66 efuse the value to set in 'ti,ldovbb-vset-mask' at ldo-address. 67 68Example #1: Simplest configuration (no efuse data, hard coded ABB table): 69abb_x: regulator-abb-x { 70 compatible = "ti,abb-v1"; 71 regulator-name = "abb_x"; 72 #address-cells = <0>; 73 #size-cells = <0>; 74 reg = <0x483072f0 0x8>, <0x48306818 0x4>; 75 reg-names = "base-address", "int-address"; 76 ti,tranxdone-status-mask = <0x4000000>; 77 clocks = <&sysclk>; 78 ti,settling-time = <30>; 79 ti,clock-cycles = <8>; 80 ti,abb_info = < 81 /* uV ABB efuse rbb_m fbb_m vset_m */ 82 1012500 0 0 0 0 0 /* Bypass */ 83 1200000 3 0 0 0 0 /* RBB mandatory */ 84 1320000 1 0 0 0 0 /* FBB mandatory */ 85 >; 86}; 87 88Example #2: Efuse bits contain ABB mode setting (no LDO override capability) 89abb_y: regulator-abb-y { 90 compatible = "ti,abb-v2"; 91 regulator-name = "abb_y"; 92 #address-cells = <0>; 93 #size-cells = <0>; 94 reg = <0x4a307bd0 0x8>, <0x4a306014 0x4>, <0x4A002268 0x8>; 95 reg-names = "base-address", "int-address", "efuse-address"; 96 ti,tranxdone-status-mask = <0x4000000>; 97 clocks = <&sysclk>; 98 ti,settling-time = <50>; 99 ti,clock-cycles = <16>; 100 ti,abb_info = < 101 /* uV ABB efuse rbb_m fbb_m vset_m */ 102 975000 0 0 0 0 0 /* Bypass */ 103 1012500 0 0 0x40000 0 0 /* RBB optional */ 104 1200000 0 0x4 0 0x40000 0 /* FBB optional */ 105 1320000 1 0 0 0 0 /* FBB mandatory */ 106 >; 107}; 108 109Example #3: Efuse bits contain ABB mode setting and LDO override capability 110abb_z: regulator-abb-z { 111 compatible = "ti,abb-v2"; 112 regulator-name = "abb_z"; 113 #address-cells = <0>; 114 #size-cells = <0>; 115 reg = <0x4ae07ce4 0x8>, <0x4ae06010 0x4>, 116 <0x4a002194 0x8>, <0x4ae0C314 0x4>; 117 reg-names = "base-address", "int-address", 118 "efuse-address", "ldo-address"; 119 ti,tranxdone-status-mask = <0x8000000>; 120 /* LDOVBBMM_MUX_CTRL */ 121 ti,ldovbb-override-mask = <0x400>; 122 /* LDOVBBMM_VSET_OUT */ 123 ti,ldovbb-vset-mask = <0x1F>; 124 clocks = <&sysclk>; 125 ti,settling-time = <50>; 126 ti,clock-cycles = <16>; 127 ti,abb_info = < 128 /* uV ABB efuse rbb_m fbb_m vset_m */ 129 975000 0 0 0 0 0 /* Bypass */ 130 1200000 0 0x4 0 0x40000 0x1f00 /* FBB optional, vset */ 131 >; 132}; 133