---- gCharge_Cfg Matches (23 in 1 files) ---- charger_module.c (UsrSrc\charger) line 51 : s_gCharger_Cfg gCharge_Cfg; Charger_Init in charger_module.c (UsrSrc\charger) : gCharge_Cfg.nTrickle_Cur = TRICKLE_CUR_SET; Charger_Init in charger_module.c (UsrSrc\charger) : gCharge_Cfg.nIterm_Cur = ITERM_CUR_SET; Charger_Init in charger_module.c (UsrSrc\charger) : gCharge_Cfg.nConstant_Cur = gConstant_Cur_Max_Setting; Charger_Init in charger_module.c (UsrSrc\charger) : gCharge_Cfg.nVFloat = VFLOAT_SET; Charger_Init in charger_module.c (UsrSrc\charger) : REG_CHG1 = gCharge_Cfg.nTrickle_Cur | gCharge_Cfg.nIterm_Cur | gCharge_Cfg.nConstant_Cur ; //设置Charger的涓流充电电流、截止充电电流、恒流CC。 Charger_Init in charger_module.c (UsrSrc\charger) : REG_CHG2 = gCharge_Cfg.nVFloat; PMU_NTC_Handle in charger_module.c (UsrSrc\charger) : gCharge_Cfg.nConstant_Cur = gConstant_Cur_Max_Setting / 2; PMU_NTC_Handle in charger_module.c (UsrSrc\charger) : gCharge_Cfg.nConstant_Cur = gConstant_Cur_Max_Setting; PMU_NTC_Handle in charger_module.c (UsrSrc\charger) : gCharge_Cfg.nConstant_Cur = gConstant_Cur_Max_Setting; PMU_NTC_Handle in charger_module.c (UsrSrc\charger) : gCharge_Cfg.nConstant_Cur = gConstant_Cur_Max_Setting / 2; PMU_NTC_Handle in charger_module.c (UsrSrc\charger) : gCharge_Cfg.nVFloat = VFLOAT_SET; PMU_NTC_Handle in charger_module.c (UsrSrc\charger) : gCharge_Cfg.nVFloat = VFLOAT_JEITA_HOT; PMU_NTC_Handle in charger_module.c (UsrSrc\charger) : gCharge_Cfg.nVFloat = VFLOAT_JEITA_HOT; PMU_NTC_Handle in charger_module.c (UsrSrc\charger) : gCharge_Cfg.nVFloat = VFLOAT_SET; PMU_NTC_Handle in charger_module.c (UsrSrc\charger) : REG_CHG2 = gCharge_Cfg.nVFloat; Charger_Handler in charger_module.c (UsrSrc\charger) : if( gCharge_Cfg.nVFloat == CHG_VFLOAT_4_200V ) Charger_Handler in charger_module.c (UsrSrc\charger) : REG_CHG1 = gCharge_Cfg.nTrickle_Cur | gCharge_Cfg.nIterm_Cur | gCharge_Cfg.nConstant_Cur ; //设置Charger的涓流充电电流、截止充电电流、恒流CC。 Charger_Handler in charger_module.c (UsrSrc\charger) : REG_CHG2 = gCharge_Cfg.nVFloat; //设置CV电压阈值。