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Tim Harvey4b00fcd2014-02-12 23:48:12 -08001/*
2 * Copyright (C) 2014 Gateworks Corporation
3 * Tim Harvey <tharvey@gateworks.com>
4 *
5 * SPDX-License-Identifier: GPL-2.0+
6 */
7
8#ifndef __PFUZE100_PMIC_H_
9#define __PFUZE100_PMIC_H_
10
11/* PFUZE100 registers */
12enum {
13 PFUZE100_DEVICEID = 0x00,
14 PFUZE100_REVID = 0x03,
15 PFUZE100_FABID = 0x04,
16
17 PFUZE100_SW1ABVOL = 0x20,
Fabio Estevamba92ad62014-05-09 13:15:42 -030018 PFUZE100_SW1ABSTBY = 0x21,
Peng Fan9d06a102015-01-08 21:00:36 +080019 PFUZE100_SW1ABOFF = 0x22,
20 PFUZE100_SW1ABMODE = 0x23,
Peng Fan5f234e72015-05-18 13:37:26 +080021 PFUZE100_SW1ABCONF = 0x24,
Tim Harvey4b00fcd2014-02-12 23:48:12 -080022 PFUZE100_SW1CVOL = 0x2e,
Fabio Estevamba92ad62014-05-09 13:15:42 -030023 PFUZE100_SW1CSTBY = 0x2f,
Peng Fan9d06a102015-01-08 21:00:36 +080024 PFUZE100_SW1COFF = 0x30,
25 PFUZE100_SW1CMODE = 0x31,
Fabio Estevamba92ad62014-05-09 13:15:42 -030026 PFUZE100_SW1CCONF = 0x32,
Tim Harvey4b00fcd2014-02-12 23:48:12 -080027 PFUZE100_SW2VOL = 0x35,
Peng Fan9d06a102015-01-08 21:00:36 +080028 PFUZE100_SW2STBY = 0x36,
29 PFUZE100_SW2OFF = 0x37,
30 PFUZE100_SW2MODE = 0x38,
31 PFUZE100_SW2CONF = 0x39,
Tim Harvey4b00fcd2014-02-12 23:48:12 -080032 PFUZE100_SW3AVOL = 0x3c,
Peng Fan9d06a102015-01-08 21:00:36 +080033 PFUZE100_SW3ASTBY = 0x3D,
34 PFUZE100_SW3AOFF = 0x3E,
35 PFUZE100_SW3AMODE = 0x3F,
36 PFUZE100_SW3ACONF = 0x40,
Tim Harvey4b00fcd2014-02-12 23:48:12 -080037 PFUZE100_SW3BVOL = 0x43,
Peng Fan9d06a102015-01-08 21:00:36 +080038 PFUZE100_SW3BSTBY = 0x44,
39 PFUZE100_SW3BOFF = 0x45,
40 PFUZE100_SW3BMODE = 0x46,
41 PFUZE100_SW3BCONF = 0x47,
Tim Harvey4b00fcd2014-02-12 23:48:12 -080042 PFUZE100_SW4VOL = 0x4a,
Peng Fan9d06a102015-01-08 21:00:36 +080043 PFUZE100_SW4STBY = 0x4b,
44 PFUZE100_SW4OFF = 0x4c,
45 PFUZE100_SW4MODE = 0x4d,
46 PFUZE100_SW4CONF = 0x4e,
Tim Harvey4b00fcd2014-02-12 23:48:12 -080047 PFUZE100_SWBSTCON1 = 0x66,
48 PFUZE100_VREFDDRCON = 0x6a,
49 PFUZE100_VSNVSVOL = 0x6b,
50 PFUZE100_VGEN1VOL = 0x6c,
51 PFUZE100_VGEN2VOL = 0x6d,
52 PFUZE100_VGEN3VOL = 0x6e,
53 PFUZE100_VGEN4VOL = 0x6f,
54 PFUZE100_VGEN5VOL = 0x70,
55 PFUZE100_VGEN6VOL = 0x71,
56
57 PMIC_NUM_OF_REGS = 0x7f,
58};
59
60/*
Ye.Li2c4b7322014-11-06 16:28:58 +080061 * Buck Regulators
62 */
63
Peng Fancc8bae52015-01-09 16:59:41 +080064#define PFUZE100_SW1ABC_SETP(x) ((x - 3000) / 250)
65
Ye.Li2c4b7322014-11-06 16:28:58 +080066/* SW1A/B/C Output Voltage Configuration */
67#define SW1x_0_300V 0
68#define SW1x_0_325V 1
69#define SW1x_0_350V 2
70#define SW1x_0_375V 3
71#define SW1x_0_400V 4
72#define SW1x_0_425V 5
73#define SW1x_0_450V 6
74#define SW1x_0_475V 7
75#define SW1x_0_500V 8
76#define SW1x_0_525V 9
77#define SW1x_0_550V 10
78#define SW1x_0_575V 11
79#define SW1x_0_600V 12
80#define SW1x_0_625V 13
81#define SW1x_0_650V 14
82#define SW1x_0_675V 15
83#define SW1x_0_700V 16
84#define SW1x_0_725V 17
85#define SW1x_0_750V 18
86#define SW1x_0_775V 19
87#define SW1x_0_800V 20
88#define SW1x_0_825V 21
89#define SW1x_0_850V 22
90#define SW1x_0_875V 23
91#define SW1x_0_900V 24
92#define SW1x_0_925V 25
93#define SW1x_0_950V 26
94#define SW1x_0_975V 27
95#define SW1x_1_000V 28
96#define SW1x_1_025V 29
97#define SW1x_1_050V 30
98#define SW1x_1_075V 31
99#define SW1x_1_100V 32
100#define SW1x_1_125V 33
101#define SW1x_1_150V 34
102#define SW1x_1_175V 35
103#define SW1x_1_200V 36
104#define SW1x_1_225V 37
105#define SW1x_1_250V 38
106#define SW1x_1_275V 39
107#define SW1x_1_300V 40
108#define SW1x_1_325V 41
109#define SW1x_1_350V 42
110#define SW1x_1_375V 43
111#define SW1x_1_400V 44
112#define SW1x_1_425V 45
113#define SW1x_1_450V 46
114#define SW1x_1_475V 47
115#define SW1x_1_500V 48
116#define SW1x_1_525V 49
117#define SW1x_1_550V 50
118#define SW1x_1_575V 51
119#define SW1x_1_600V 52
120#define SW1x_1_625V 53
121#define SW1x_1_650V 54
122#define SW1x_1_675V 55
123#define SW1x_1_700V 56
124#define SW1x_1_725V 57
125#define SW1x_1_750V 58
126#define SW1x_1_775V 59
127#define SW1x_1_800V 60
128#define SW1x_1_825V 61
129#define SW1x_1_850V 62
130#define SW1x_1_875V 63
131
132#define SW1x_NORMAL_MASK 0x3f
133#define SW1x_STBY_MASK 0x3f
134#define SW1x_OFF_MASK 0x3f
135
136#define SW1xCONF_DVSSPEED_MASK 0xc0
137#define SW1xCONF_DVSSPEED_2US 0x00
138#define SW1xCONF_DVSSPEED_4US 0x40
139#define SW1xCONF_DVSSPEED_8US 0x80
140#define SW1xCONF_DVSSPEED_16US 0xc0
141
142/*
Tim Harvey4b00fcd2014-02-12 23:48:12 -0800143 * LDO Configuration
144 */
145
146/* VGEN1/2 Voltage Configuration */
147#define LDOA_0_80V 0
148#define LDOA_0_85V 1
149#define LDOA_0_90V 2
150#define LDOA_0_95V 3
151#define LDOA_1_00V 4
152#define LDOA_1_05V 5
153#define LDOA_1_10V 6
154#define LDOA_1_15V 7
155#define LDOA_1_20V 8
156#define LDOA_1_25V 9
157#define LDOA_1_30V 10
158#define LDOA_1_35V 11
159#define LDOA_1_40V 12
160#define LDOA_1_45V 13
161#define LDOA_1_50V 14
162#define LDOA_1_55V 15
163
164/* VGEN3/4/5/6 Voltage Configuration */
165#define LDOB_1_80V 0
166#define LDOB_1_90V 1
167#define LDOB_2_00V 2
168#define LDOB_2_10V 3
169#define LDOB_2_20V 4
170#define LDOB_2_30V 5
171#define LDOB_2_40V 6
172#define LDOB_2_50V 7
173#define LDOB_2_60V 8
174#define LDOB_2_70V 9
175#define LDOB_2_80V 10
176#define LDOB_2_90V 11
177#define LDOB_3_00V 12
178#define LDOB_3_10V 13
179#define LDOB_3_20V 14
180#define LDOB_3_30V 15
181
182#define LDO_VOL_MASK 0xf
Tim Harvey392a6b72015-04-03 16:56:16 -0700183#define LDO_EN (1 << 4)
Tim Harvey4b00fcd2014-02-12 23:48:12 -0800184
185/*
186 * Boost Regulator
187 */
188
189/* SWBST Output Voltage */
190#define SWBST_5_00V 0
191#define SWBST_5_05V 1
192#define SWBST_5_10V 2
193#define SWBST_5_15V 3
194
195#define SWBST_VOL_MASK 0x3
196#define SWBST_MODE_MASK 0x6
197#define SWBST_MODE_OFF (2 << 0)
198#define SWBST_MODE_PFM (2 << 1)
199#define SWBST_MODE_AUTO (2 << 2)
200#define SWBST_MODE_APS (2 << 3)
201
Peng Fan9d06a102015-01-08 21:00:36 +0800202/*
203 * Regulator Mode Control
204 *
205 * OFF: The regulator is switched off and the output voltage is discharged.
206 * PFM: In this mode, the regulator is always in PFM mode, which is useful
207 * at light loads for optimized efficiency.
208 * PWM: In this mode, the regulator is always in PWM mode operation
209 * regardless of load conditions.
210 * APS: In this mode, the regulator moves automatically between pulse
211 * skipping mode and PWM mode depending on load conditions.
212 *
213 * SWxMODE[3:0]
214 * Normal Mode | Standby Mode | value
215 * OFF OFF 0x0
216 * PWM OFF 0x1
217 * PFM OFF 0x3
218 * APS OFF 0x4
219 * PWM PWM 0x5
220 * PWM APS 0x6
221 * APS APS 0x8
222 * APS PFM 0xc
223 * PWM PFM 0xd
224 */
225#define OFF_OFF 0x0
226#define PWM_OFF 0x1
227#define PFM_OFF 0x3
228#define APS_OFF 0x4
229#define PWM_PWM 0x5
230#define PWM_APS 0x6
231#define APS_APS 0x8
232#define APS_PFM 0xc
233#define PWM_PFM 0xd
234
Stefano Babic0c880822015-02-11 12:35:46 +0100235#define SWITCH_SIZE 0x7
236
Tim Harveyb34e3d82014-04-22 21:53:56 -0700237int power_pfuze100_init(unsigned char bus);
Tim Harvey4b00fcd2014-02-12 23:48:12 -0800238#endif