/*
* arch/arm/mach-tegra/board-macallan-powermon.c
*
* Copyright (c) 2013, NVIDIA Corporation. All Rights Reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see .
*/
#include
#include
#include
#include "board.h"
#include "board-macallan.h"
#define PRECISION_MULTIPLIER_MACALLAN 1000
enum {
VD_CPU,
VD_SOC,
VS_DDR0,
VS_DDR1,
VS_LCD_BL,
VD_LCD_HV,
VS_SYS_1V8,
VD_AP_1V8,
VD_AP_RTC,
VS_AUD_SYS,
VD_DDR0,
VD_DDR1,
VD_AP_VBUS,
VS_SYS_2V9,
VA_PLLX,
VA_AP_1V2,
};
static struct ina219_platform_data power_mon_ina219_info[] = {
[VD_CPU] = {
.calibration_data = 0x7CD2,
.power_lsb = 2.563685298 * PRECISION_MULTIPLIER_MACALLAN,
.rail_name = "VD_CPU",
.divisor = 20,
.precision_multiplier = PRECISION_MULTIPLIER_MACALLAN,
.cont_conf = 0x3FFF,
.trig_conf = 0x1DB,
.shunt_resistor = 1,
},
[VD_SOC] = {
.calibration_data = 0x7CD2,
.power_lsb = 2.563685298 * PRECISION_MULTIPLIER_MACALLAN,
.rail_name = "VD_SOC",
.divisor = 20,
.precision_multiplier = PRECISION_MULTIPLIER_MACALLAN,
.cont_conf = 0x3FFF,
.trig_conf = 0x1DB,
.shunt_resistor = 1,
},
[VS_DDR0] = {
.calibration_data = 0xfffe,
.power_lsb = 1.2500381481 * PRECISION_MULTIPLIER_MACALLAN,
.rail_name = "VS_DDR0",
.divisor = 20,
.precision_multiplier = PRECISION_MULTIPLIER_MACALLAN,
.cont_conf = 0x3FFF,
.trig_conf = 0x1DB,
.shunt_resistor = 10,
},
[VS_DDR1] = {
.calibration_data = 0xfffe,
.power_lsb = 1.2500381481 * PRECISION_MULTIPLIER_MACALLAN,
.rail_name = "VS_DDR1",
.divisor = 20,
.precision_multiplier = PRECISION_MULTIPLIER_MACALLAN,
.cont_conf = 0x3FFF,
.trig_conf = 0x1DB,
.shunt_resistor = 10,
},
[VS_LCD_BL] = {
.calibration_data = 0xfffe,
.power_lsb = 1.2500381481 * PRECISION_MULTIPLIER_MACALLAN,
.rail_name = "VS_LCD_BL",
.divisor = 20,
.precision_multiplier = PRECISION_MULTIPLIER_MACALLAN,
.cont_conf = 0x3FFF,
.trig_conf = 0x1DB,
.shunt_resistor = 10,
},
[VD_LCD_HV] = {
.calibration_data = 0xfffe,
.power_lsb = 1.2500381481 * PRECISION_MULTIPLIER_MACALLAN,
.rail_name = "VD_LCD_HV",
.divisor = 20,
.precision_multiplier = PRECISION_MULTIPLIER_MACALLAN,
.cont_conf = 0x3FFF,
.trig_conf = 0x1DB,
.shunt_resistor = 10,
},
[VS_SYS_1V8] = {
.calibration_data = 0x7CD2,
.power_lsb = 2.563685298 * PRECISION_MULTIPLIER_MACALLAN,
.rail_name = "VS_SYS_1V8",
.divisor = 20,
.precision_multiplier = PRECISION_MULTIPLIER_MACALLAN,
.cont_conf = 0x3FFF,
.trig_conf = 0x1DB,
.shunt_resistor = 10,
},
[VD_AP_1V8] = {
.calibration_data = 0xfffe,
.power_lsb = 1.2500381481 * PRECISION_MULTIPLIER_MACALLAN,
.rail_name = "VD_AP_1V8",
.divisor = 20,
.precision_multiplier = PRECISION_MULTIPLIER_MACALLAN,
.cont_conf = 0x3FFF,
.trig_conf = 0x1DB,
.shunt_resistor = 10,
},
[VD_AP_RTC] = {
.calibration_data = 0xfffe,
.power_lsb = 1.2500381481 * PRECISION_MULTIPLIER_MACALLAN,
.rail_name = "VD_AP_RTC",
.divisor = 20,
.precision_multiplier = PRECISION_MULTIPLIER_MACALLAN,
.cont_conf = 0x3FFF,
.trig_conf = 0x1DB,
.shunt_resistor = 10,
},
[VS_AUD_SYS] = {
.calibration_data = 0xfffe,
.power_lsb = 1.2500381481 * PRECISION_MULTIPLIER_MACALLAN,
.rail_name = "VS_AUD_SYS",
.divisor = 20,
.precision_multiplier = PRECISION_MULTIPLIER_MACALLAN,
.cont_conf = 0x3FFF,
.trig_conf = 0x1DB,
.shunt_resistor = 10,
},
[VD_DDR0] = {
.calibration_data = 0xaec0,
.power_lsb = 1.8311874106 * PRECISION_MULTIPLIER_MACALLAN,
.rail_name = "VD_DDR0",
.divisor = 20,
.precision_multiplier = PRECISION_MULTIPLIER_MACALLAN,
.cont_conf = 0x3FFF,
.trig_conf = 0x1DB,
.shunt_resistor = 10,
},
[VD_DDR1] = {
.calibration_data = 0xaec0,
.power_lsb = 1.8311874106 * PRECISION_MULTIPLIER_MACALLAN,
.rail_name = "VD_DDR1",
.divisor = 20,
.precision_multiplier = PRECISION_MULTIPLIER_MACALLAN,
.cont_conf = 0x3FFF,
.trig_conf = 0x1DB,
.shunt_resistor = 10,
},
[VD_AP_VBUS] = {
.calibration_data = 0xfffe,
.power_lsb = 1.2500381481 * PRECISION_MULTIPLIER_MACALLAN,
.rail_name = "VD_AP_VBUS",
.divisor = 20,
.precision_multiplier = PRECISION_MULTIPLIER_MACALLAN,
.cont_conf = 0x3FFF,
.trig_conf = 0x1DB,
.shunt_resistor = 200,
},
[VS_SYS_2V9] = {
.calibration_data = 0xfffe,
.power_lsb = 1.2500381481 * PRECISION_MULTIPLIER_MACALLAN,
.rail_name = "VS_SYS_2V9",
.divisor = 20,
.precision_multiplier = PRECISION_MULTIPLIER_MACALLAN,
.cont_conf = 0x3FFF,
.trig_conf = 0x1DB,
.shunt_resistor = 10,
},
[VA_PLLX] = {
.calibration_data = 0xfffe,
.power_lsb = 1.2500381481 * PRECISION_MULTIPLIER_MACALLAN,
.rail_name = "VA_PLLX",
.divisor = 20,
.precision_multiplier = PRECISION_MULTIPLIER_MACALLAN,
.cont_conf = 0x3FFF,
.trig_conf = 0x1DB,
.shunt_resistor = 10,
},
[VA_AP_1V2] = {
.calibration_data = 0xfffe,
.power_lsb = 1.2500381481 * PRECISION_MULTIPLIER_MACALLAN,
.rail_name = "VA_AP_1V2",
.divisor = 20,
.precision_multiplier = PRECISION_MULTIPLIER_MACALLAN,
.cont_conf = 0x3FFF,
.trig_conf = 0x1DB,
.shunt_resistor = 10,
},
};
enum {
VDD_CELL
};
static struct ina230_platform_data power_mon_ina230_info[] = {
[VDD_CELL] = {
.calibration_data = 0x20c4,
.power_lsb = 3.051757813 * PRECISION_MULTIPLIER_MACALLAN,
.rail_name = "VDD_CELL",
.resistor = 5,
.min_cores_online = 2,
.divisor = 25,
.precision_multiplier = PRECISION_MULTIPLIER_MACALLAN,
/* set to 5A, wait for syseng tuning */
.current_threshold = 5000,
.shunt_polarity_inverted = 1,
}
};
enum {
INA_I2C_ADDR_40,
INA_I2C_ADDR_41,
INA_I2C_ADDR_42,
INA_I2C_ADDR_43,
INA_I2C_ADDR_44,
INA_I2C_ADDR_45,
INA_I2C_ADDR_46,
INA_I2C_ADDR_47,
INA_I2C_ADDR_48,
INA_I2C_ADDR_49,
INA_I2C_ADDR_4A,
INA_I2C_ADDR_4B,
INA_I2C_ADDR_4C,
INA_I2C_ADDR_4D,
INA_I2C_ADDR_4E,
INA_I2C_ADDR_4F,
};
static struct i2c_board_info macallan_i2c1_ina_board_info[] = {
[INA_I2C_ADDR_40] = {
I2C_BOARD_INFO("ina219", 0x40),
.platform_data = &power_mon_ina219_info[VD_CPU],
.irq = -1,
},
[INA_I2C_ADDR_41] = {
I2C_BOARD_INFO("ina219", 0x41),
.platform_data = &power_mon_ina219_info[VD_SOC],
.irq = -1,
},
[INA_I2C_ADDR_42] = {
I2C_BOARD_INFO("ina219", 0x42),
.platform_data = &power_mon_ina219_info[VS_DDR0],
.irq = -1,
},
[INA_I2C_ADDR_43] = {
I2C_BOARD_INFO("ina219", 0x43),
.platform_data = &power_mon_ina219_info[VS_DDR1],
.irq = -1,
},
[INA_I2C_ADDR_44] = {
I2C_BOARD_INFO("ina230", 0x44),
.platform_data = &power_mon_ina230_info[VDD_CELL],
.irq = -1,
},
[INA_I2C_ADDR_45] = {
I2C_BOARD_INFO("ina219", 0x45),
.platform_data = &power_mon_ina219_info[VD_LCD_HV],
.irq = -1,
},
[INA_I2C_ADDR_46] = {
I2C_BOARD_INFO("ina219", 0x46),
.platform_data = &power_mon_ina219_info[VS_SYS_1V8],
.irq = -1,
},
[INA_I2C_ADDR_47] = {
I2C_BOARD_INFO("ina219", 0x47),
.platform_data = &power_mon_ina219_info[VD_AP_1V8],
.irq = -1,
},
[INA_I2C_ADDR_48] = {
I2C_BOARD_INFO("ina219", 0x48),
.platform_data = &power_mon_ina219_info[VD_AP_RTC],
.irq = -1,
},
[INA_I2C_ADDR_49] = {
I2C_BOARD_INFO("ina219", 0x49),
.platform_data = &power_mon_ina219_info[VS_AUD_SYS],
.irq = -1,
},
[INA_I2C_ADDR_4A] = {
I2C_BOARD_INFO("ina219", 0x4A),
.platform_data = &power_mon_ina219_info[VD_DDR0],
.irq = -1,
},
[INA_I2C_ADDR_4B] = {
I2C_BOARD_INFO("ina219", 0x4B),
.platform_data = &power_mon_ina219_info[VD_DDR1],
.irq = -1,
},
[INA_I2C_ADDR_4C] = {
I2C_BOARD_INFO("ina219", 0x4C),
.platform_data = &power_mon_ina219_info[VD_AP_VBUS],
.irq = -1,
},
[INA_I2C_ADDR_4D] = {
I2C_BOARD_INFO("ina219", 0x4D),
.platform_data = &power_mon_ina219_info[VS_SYS_2V9],
.irq = -1,
},
[INA_I2C_ADDR_4E] = {
I2C_BOARD_INFO("ina219", 0x4E),
.platform_data = &power_mon_ina219_info[VA_PLLX],
.irq = -1,
},
[INA_I2C_ADDR_4F] = {
I2C_BOARD_INFO("ina219", 0x4F),
.platform_data = &power_mon_ina219_info[VA_AP_1V2],
.irq = -1,
},
};
int __init macallan_pmon_init(void)
{
i2c_register_board_info(1, macallan_i2c1_ina_board_info,
ARRAY_SIZE(macallan_i2c1_ina_board_info));
return 0;
}