static ssize_t lge_cable_adc_show(struct device *dev, struct device_attribute *attr, char *buf) { #if defined(CONFIG_MACH_MSM8960_L1m) uint32_t battery_info_get(void); uint32_t BAT_ID_temp; #endif struct lgeusb_dev *usbdev = _lgeusb_dev; struct chg_cable_info info; if (usbdev->get_cable_adc) usbdev->get_cable_adc(&info); else return -1; if(info.cable_type >= NO_INIT_CABLE && info.cable_type <=CABLE_NONE) #if defined(CONFIG_MACH_MSM8960_L1m) { BAT_ID_temp = battery_info_get(); //20120904 Checking Battery ID (from EEPROM) return sprintf(buf, "%s:TA(%d)USB(%d)ADC(%d)TH(%d), BAT_ID(%d)\n", (char*)strCable[info.cable_type], info.ta_ma, info.usb_ma, info.adc, info.threshould, BAT_ID_temp); /*20120904 added battery id*/ } #else { return sprintf(buf, "%s:T(%d)U(%d)A(%d)(%d)", (char*)strCable[info.cable_type], info.ta_ma, info.usb_ma, info.adc, battery_info_get); } #endif else return -1;
static void lm3530_set_main_current_level(struct i2c_client *client, int level) { struct lm3530_device *dev; int cal_value; int min_brightness = main_lm3530_dev->min_brightness; int max_brightness = main_lm3530_dev->max_brightness; dev = (struct lm3530_device *)i2c_get_clientdata(client); dev->bl_dev->props.brightness = cur_main_lcd_level = level; mutex_lock(&main_lm3530_dev->bl_mutex); if(level!= 0){ if (level <= MIN_LEVEL) cal_value = min_brightness; else if(level > MIN_LEVEL && level < MAX_LEVEL_BL) cal_value = level; else if(level >=MAX_LEVEL_BL) cal_value = max_brightness; #ifdef CONFIG_LGE_PM_FACTORY_CURRENT_DOWN if((0 == battery_info_get())&&((usb_cable_info == 6) ||(usb_cable_info == 7)||(usb_cable_info == 11))) { cal_value = min_brightness; } #endif lm3530_write_reg(client, 0xA0, cal_value); printk ("level=%d,cal_value=%d\n",level,cal_value); } else{ lm3530_write_reg(client, 0x10, 0x00); } mutex_unlock(&main_lm3530_dev->bl_mutex); }
int16_t battery_get_parameter_value(uint8_t parameter) { uint16_t value; os_enterCS(); switch(parameter) { case MODEL_TYPE: value = 1; break; case PROGRAM_REV: value = 530; break; case PAR_TAB_REV: value = 530; break; case NENNSPNG: value = 35520; break; case NENNSTROM: value = 2500; break; case SERIE_NUMMER: value = 11178; break; case REP_DATUM: value = 0; break; case STANDZEIT: value = 64; break; case FAHR_LADE_ZEIT: value = 9; break; case LAST_ERROR: value = 0; break; case BUS_ADRESSE: value = battery.address; break; case DRIVE_STATE: value = plc_get_drive_state(); break; case COMMAND: value = !battery_info_get(BAT_REL_OPEN); break; case PARAM_PROT: value = 0; break; case BINFO: value = battery_get_info(); break; // We simulate 3 batteries. Thus each of them reports one third of the real value. case IST_STROM: value = 0; break; case LADESTROM: value = 400; break; case FAHRSTROM: value = -800; break; case TOTAL_SPANNUNG: value = 0; break; case SOLL_LADESPG: value = 40000; break; // We simulate 3 batteries. Thus each of them reports one third of the real value. case AH_ZAEHLER: value = battery.ah_counter; break; case Q: value = -1400; break; case LEISTUNG: value = 0; break; case BATTERIE_TEMP: value = 0; break; case FINFO: value = 0; break; case SYM_SPANNUNG: value = 26; break; case TEILSPANNUNG1: value = 5100; break; case TEILSPANNUNG2: value = 5100; break; case TEILSPANNUNG3: value = 5100; break; case TEILSPANNUNG4: value = 5100; break; case TEILSPANNUNG5: value = 5100; break; case TEILSPANNUNG6: value = 5100; break; case TEILSPANNUNG7: value = 5100; break; case TEMPERATUR1: value = battery.temperatur_1; break; case TEMPERATUR2: value = battery.temperatur_2; break; case TEMPERATUR3: value = battery.temperatur_3; break; case TEMPERATUR4: value = battery.temperatur_4; break; case TEMPERATUR5: value = battery.temperatur_5; break; case TEMPERATUR6: value = battery.temperatur_6; break; case TEMPERATUR7: value = battery.temperatur_7; break; case TEMPERATUR8: value = battery.temperatur_8; break; case TEMPERATUR9: value = battery.temperatur_9; break; case TEMPERATUR10: value = battery.temperatur_10; break; case TEMPERATUR11: value = battery.temperatur_11; break; case TEMPERATUR12: value = battery.temperatur_12; break; case TEMPERATUR13: value = battery.temperatur_13; break; case TEMPERATUR14: value = battery.temperatur_14; break; case PC_CALIBR_TEMP: value = 0x5678; break; case MAX_BAT_TEMP: value = 0; break; case UMGEBUNGS_TEMP: value = 0; break; case MAX_LADETEMP: value = 4500; break; case MIN_LADETEMP: value = 0; break; case MAX_FAHRTEMP: value = 4500; break; case MIN_FAHRTEMP: value = 0; break; case MAX_LAGERTEMP: value = 4500; break; case MIN_LAGERTEMP: value = 0; break; case MAX_KAPAZITAET: value = 305; break; case MIN_KAPAZITAET: value = 280; break; case GELADENE_AH: value = 0; break; case ENTLADENE_AH: value = 0; break; case LADEZYKLEN: value = 0; break; case TIEFENTLADE_ZYKLEN: value = 0; break; case MAX_ENTLADE_STROM: value = -800; break; // Times 3 blocks -> 24A case ZYKLUS_UEBER_110: value = 0; break; case ZYKLUS_UEBER_100: value = 0; break; case ZYKLUS_UEBER_90: value = 0; break; case ZYKLUS_UEBER_80: value = 0; break; case ZYKLUS_UEBER_70: value = 0; break; case ZYKLUS_UEBER_60: value = 0; break; case ZYKLUS_UEBER_50: value = 0; break; case ZYKLUS_UEBER_40: value = 0; break; case ZYKLUS_UEBER_30: value = 0; break; case ZYKLUS_UEBER_20: value = 0; break; case ZYKLUS_UEBER_10: value = 0; break; case ZYKLUS_UNTER_10: value = 0; break; case MAX_UEBERLADUNG: value = 850; break; case MIN_LDG_F_VOLL: value = -500; break; case STROM_ZUNAHME: value = 40; break; case MAX_LADE_SPG: value = 40000; break; case MIN_LADE_TEMP: value = 0; break; case MAX_LADE_TEMP: value = 4500; break; case MAX_TEMP_ZUNAHME: value = 100; break; case MAX_LADEZEIT: value = 800; break; case SYMMETRIER_STROM: value = 28; break; case LADE_STR_UNTER_M10: value = 56; break; case LADE_STR_UEBER_M10: value = 56; break; case LADE_STR_UEBER_P00: value = 280; break; case LADE_STR_UEBER_P10: value = 280; break; case LADE_STR_UEBER_P20: value = 280; break; case LADE_STR_UEBER_P30: value = 280; break; case LADE_STR_UEBER_P40: value = 79; break; case LADE_STR_UEBER_P45: value = 28; break; case LADE_STR_UEBER_P50: value = 28; break; case LADE_SPG_UNTER_M10: value = 40000; break; case LADE_SPG_UEBER_M10: value = 40000; break; case LADE_SPG_UEBER_P00: value = 40000; break; case LADE_SPG_UEBER_P10: value = 40000; break; case LADE_SPG_UEBER_P20: value = 40000; break; case LADE_SPG_UEBER_P30: value = 40000; break; case LADE_SPG_UEBER_P40: value = 37440; break; case LADE_SPG_UEBER_P45: value = 36480; break; case LADE_SPG_UEBER_P50: value = 35520; break; case NOM_KAPAZITAET: value = 3; break; case MIN_FAHR_SPANNUNG: value = 31000; break; case SELBST_ENTL_STROM: value = 28000; break; case TIEFENTLADE_SPG: value = TIEFENTLADE_SPANNUNG; break; case MAX_SPANNUNG_DIFF: value = 500; break; case MIN_FAHR_TEMP_B: value = -2500; break; case MAX_FAHR_TEMP_B: value = 6000; break; case MAX_FAHR_STROM: value = -1000; break; case AD_STROM: value = 0x817F; break; case KAL_TEMP_7_6: value = 0xFFFF; break; case KAL_TEMP_5_4: value = 0xFEFD; break; case KAL_TEMP_3_2: value = 0xFCFD; break; case KAL_TEMP_1_AMB: value = 0x00FE; break; case KAL_TEMP_GD_14: value = 0x7C00; break; case KAL_TEMP_13_12: value = 0x00FF; break; case KAL_TEMP_11_10: value = 0xFE00; break; case KAL_TEMP_9_8: value = 0x0002; break; case SENSOR_MASK: value = 0x0000; break; case OFFS_KLEIN_STL: value = 1508; break; case OFFS_GROSS_STL: value = 12523; break; case KALIB_SPG_1: value = 0x00A3; break; case KALIB_SPG_2: value = 0x009F; break; case KALIB_SPG_3: value = 0x00A6; break; case KALIB_SPG_4: value = 0x00B1; break; case KALIB_SPG_5: value = 0x007C; break; case KALIB_SPG_6: value = 0x00A7; break; case KALIB_SPG_9: value = 0x00A7; break; case DEBUG_VALUE_C: value = 22498; break; case DEBUG_VALUE_H: value = 0x57E2; break; case DEBUG_VALUE_ADDR: value = 0xFFFF; break; case GESCHWINDIGKEIT: value = 0; break; case TAGESKILOMETER: value = 0; break; default: value = 0x0000; error(ERROR_UNKNOWN_PARAMETER); } os_exitCS(); return value; }