void setVI(ProgramData::VoltageType vt, bool charge) { endV = ProgramData::currentProgramData.getVoltage(vt); if(charge) { maxI = ProgramData::currentProgramData.battery.Ic; } else { maxI = ProgramData::currentProgramData.battery.Id; } setMinI(maxI/minIdiv); }
void setVI(ProgramData::VoltageType vt, bool charge) { endV = ProgramData::currentProgramData.getVoltage(vt); if(charge) { maxI = ProgramData::currentProgramData.battery.Ic; if(vt == ProgramData::VCharge && ProgramData::currentProgramData.isLiXX()) { endV += settings.overCharge_LiXX * ProgramData::currentProgramData.battery.cells; } } else { maxI = ProgramData::currentProgramData.battery.Id; if(vt == ProgramData::VDischarge && ProgramData::currentProgramData.isLiXX()) { endV += settings.overDischarge_LiXX * ProgramData::currentProgramData.battery.cells; } } setMinI(maxI/minIdiv); }
void TheveninDischargeStrategy::setVI(AnalogInputs::ValueType v, AnalogInputs::ValueType i) { SimpleDischargeStrategy::setVI(v,i); TheveninMethod::setVIB(v, AnalogInputs::reverseCalibrateValue(AnalogInputs::IdischargeValue, i), false); setMinI(i/10); }