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ctr_mcu/branches/1.06/pm.h

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#ifndef __PM__
#define __PM__
#define IIC_SLA_PMIC 0x84
#define IIC_SLA_BT_GAUGE 0x6C
#define VCOM_DEFAULT_T 92
#define VCOM_DEFAULT_B 95
#define BATT_TH_LO 10
#define BATT_TH_EMPTY 5
#define V_TH_30 42240
#define V_TH_LO 40960
#define V_TH_EMPTY 40320
#define V_TH_ZERO 39680
// 上から順に 3300, 3200, 3150, 3100[mV]
//=========================================================
#define LED_CHARGE P2.4
//=========================================================
enum PMIC_REG_ADRS
{
PM_REG_ADRS_VER = 0x00, // verinfo など
PM_REG_ADRS_VDD_SYS, // システムが使用する電源
PM_REG_ADRS_VDD_LCD, // 液晶電源
PM_REG_ADRS_CONT, // /RESET1, LoadSwitch
PM_REG_ADRS_BL, // バックライト on/off
PM_REG_ADRS_POW_SAVE, // 省電力設定
PM_REG_ADRS_POW_DAC1,
PM_REG_ADRS_POW_DAC2
};
enum BT_GAUGE_REG_ADRS
{
BT_GAUGE_REG_VCELL = 0x02, // それぞれ16ビットのため
BT_GAUGE_REG_SOC = 0x04,
BT_GAUGE_REG_MODE = 0x06,
BT_GAUGE_REG_VERSION = 0x08,
BT_GAUGE_REG_OCV = 0x0E,
BT_GAUGE_REG_RCOMP = 0x0C,
BT_GAUGE_REG_LOCK = 0x3E,
BT_GAUGE_REG_BT_PARAM = 0x40,
BT_GAUGE_REG_COMMAND = 0xFE
};
typedef enum BT_VENDER
{
BT_VENDER_MAXELL = 0, // ショート
BT_VENDER_1, // 120
BT_VENDER_2, // 360
BT_VENDER_3, // 750
BT_VENDER_4, // 1.3k
BT_VENDER_PANA = 5, // 2.7k
BT_VENDER_6, // 8.2k
BT_VENDER_OPEN = 7, // open
BT_VENDER_NOT_CHECKED = 0xFF,
}BT_VENDER;
enum NTR_PM_BT_STATUS{
NTR_PM_BT_ENOUGH,
NTR_PM_BT_EMPTY,
NTR_PM_BT_NOT_INITIALIZED = 0xFF
};
//=========================================================
// CODEC上のPMIC互換レジスタ
#define CODEC_REG_PM 0x10
#define CODEC_REG_BL 0x11
#define CODEC_REG_BT 0x12
//#define CODEC_REG_VOL 0x13 // ...都合により、adc.hで定義
// TWLがSPIでPMICに投げたコマンド
#define REG_BIT_TWL_REQ_OFF_REQ ( 1 << 6 )
#define REG_BIT_TWL_REQ_RST_REQ ( 1 << 0 )
#define REG_BIT_TWL_REQ_BL ( 3 << 2 )
// 0x03 pw cnt3
#define PM_REG_BIT_LDSW ( 1 << 0 )
#define PM_REG_BIT_nRST1 ( 1 << 1 )
// 0x01 pw cnt1
#define PM_REG_BIT_VDD 0x0F
#define PM_REG_BIT_VDD50A ( 1 << 4 )
// 0x02 pw cnt2
#define PM_REG_BIT_VDDLCD 0x07
#define PM_REG_BIT_LCD_VCS ( 0x01 << 4 )
#define PM_REG_BIT_LCD_TCOM ( 0x01 << 3 )
// 0x04 bl cnt
#define PM_REG_BIT_BL_U 0x01
#define PM_REG_BIT_BL_L 0x02
// 0x05 pow save
#define PM_REG_BIT_VDD1P_1R15 0b00000000
#define PM_REG_BIT_VDD1P_1R05 0b00001000
#define PM_REG_BIT_VDD1P_0R90 0b00100000
#define PM_REG_BIT_VDD_AUTO 0b00000111
#define PM_REG_BIT_VDD_PWM 0b00000000
#define DELAY_PM_TW_PWUP 16 + 2
#define DELAY_PM_TSS_50B_AND_TCOM 17 + 1
#define DELAY_PM_5V_TO_TCOM 17 + 1
#define DELAY_PM_TCOM_TO_VCS 3
#define DELAY_PM_VCS_TO_BL ( 17 + 5 )
#define DELAY_PM_LCD_OFF ( 50 + 1 )
//=========================================================
extern u8 raw_adc_temperature;
extern BT_VENDER battery_manufacturer;
extern bit bt_force_update;
//=========================================================
err PM_sys_pow_on( );
err PM_sys_pow_off( );
err PM_bt_auth( );
err PM_LCD_vcom_set( );
err PM_LCD_on( );
void PM_LCD_off( );
err PM_BL_set( u8 );
void BT_chk();
void BT_get_left();
void pm_chk_adapter();
void codec_reg_init();
task_status_immed tski_BT_temp_update( );
task_status_immed tski_vcom_set( );
task_status_immed tski_PM_LCD_on();
task_status_immed tski_PM_LCD_off();
task_status_immed tski_PM_BL_set();
#define PM_Chg_Stop() { BT_TEMP_P = 0; BT_CHG_DISABLE(); while( !BT_IN_CHG_n ){;}; LED_CHARGE = 0; bt_chg_ready = false; }
//  これを呼ぶ前に、現在温度を教えておく必要があります。
#define PM_reset() ( iic_mcu_write_a_byte( IIC_SLA_PMIC, PM_REG_ADRS_CONT, 0x00 ) )
//=========================================================
// 元栓 //
#define PM_LDSW_on() ( iic_mcu_write_a_byte( IIC_SLA_PMIC, PM_REG_ADRS_CONT, PM_REG_BIT_LDSW ))
#define PM_LDSW_off() ( iic_mcu_write_a_byte( IIC_SLA_PMIC, PM_REG_ADRS_CONT, 0 ))
// システム電源 //
#define PM_VDD_on() ( iic_mcu_write_a_byte( IIC_SLA_PMIC, PM_REG_ADRS_VDD_SYS, PM_REG_BIT_VDD ))
#define PM_VDD50A_on() ( iic_mcu_write_a_byte( IIC_SLA_PMIC, PM_REG_ADRS_VDD_SYS, ( PM_REG_BIT_VDD | PM_REG_BIT_VDD50A )))
#define PM_VDD_off() ( iic_mcu_write_a_byte( IIC_SLA_PMIC, PM_REG_ADRS_VDD_SYS, 0 ))
#define PM_off() ( iic_mcu_write_a_byte( IIC_SLA_PMIC, PM_REG_ADRS_VDD_SYS, 0 ))
#ifdef _MODEL_CTR_
#define PM_VDD_normMode() ( iic_mcu_write_a_byte( IIC_SLA_PMIC, PM_REG_ADRS_POW_SAVE, PM_REG_BIT_VDD1P_1R15 | PM_REG_BIT_VDD_PWM ))
#define PM_VDD_ecoMode() ( iic_mcu_write_a_byte( IIC_SLA_PMIC, PM_REG_ADRS_POW_SAVE, PM_REG_BIT_VDD1P_0R90 | PM_REG_BIT_VDD_AUTO ))
#else
#define PM_VDD_ecoMode() ( iic_mcu_write_a_byte( IIC_SLA_PMIC, PM_REG_ADRS_POW_SAVE, PM_REG_BIT_VDD1P_1R05 | PM_REG_BIT_VDD_AUTO ))
#define PM_VDD_normMode() ( iic_mcu_write_a_byte( IIC_SLA_PMIC, PM_REG_ADRS_POW_SAVE, PM_REG_BIT_VDD1P_1R05 | PM_REG_BIT_VDD_PWM ))
#endif
// ほか //
#define PM_reset_neg() ( iic_mcu_write_a_byte( IIC_SLA_PMIC, PM_REG_ADRS_CONT, ( PM_REG_BIT_LDSW | PM_REG_BIT_nRST1 )))
#define PM_reset_ast() ( iic_mcu_write_a_byte( IIC_SLA_PMIC, PM_REG_ADRS_CONT, ( PM_REG_BIT_LDSW )))
#define PM_chk_LDSW() ( iic_mcu_read_a_byte( IIC_SLA_PMIC, PM_REG_ADRS_CONT ) & PM_REG_BIT_LDSW )
// ↑ 0 だと異常
// 液晶系電源 //
#define PM_VDDLCD_on() ( iic_mcu_write_a_byte( IIC_SLA_PMIC, PM_REG_ADRS_VDD_LCD, PM_REG_BIT_VDDLCD ))
#define PM_TCOM_on() ( iic_mcu_write_a_byte( IIC_SLA_PMIC, PM_REG_ADRS_VDD_LCD, ( PM_REG_BIT_VDDLCD | PM_REG_BIT_LCD_TCOM )))
#define PM_VCS_on() ( iic_mcu_write_a_byte( IIC_SLA_PMIC, PM_REG_ADRS_VDD_LCD, ( PM_REG_BIT_VDDLCD | PM_REG_BIT_LCD_VCS | PM_REG_BIT_LCD_TCOM )))
#define PM_TCOM_off() ( iic_mcu_write_a_byte( IIC_SLA_PMIC, PM_REG_ADRS_VDD_LCD, ( PM_REG_BIT_VDDLCD | PM_REG_BIT_LCD_VCS )))
#define PM_TCOM_VCS_off() PM_VDDLCD_on()
#define PM_VDDLCD_off() ( iic_mcu_write_a_byte( IIC_SLA_PMIC, PM_REG_ADRS_VDD_LCD, 0 ) )
#define PM_set_BL( dat ) ( iic_mcu_write_a_byte( IIC_SLA_PMIC, PM_REG_ADRS_BL, dat ) )
#define PM_set_adc1( dat ) ( iic_mcu_write_a_byte( IIC_SLA_PMIC, PM_REG_ADRS_POW_DAC1, dat ) )
#define PM_set_adc2( dat ) ( iic_mcu_write_a_byte( IIC_SLA_PMIC, PM_REG_ADRS_POW_DAC2, dat ) )
#endif // __PM__
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