Patent ID: 8278856

Claim:
A system for providing controlled power to a motor in an automobile, comprising: (a) a first gate driver and a second gate driver; (b) a high side FET; (c) a low side FET; (d) a charge pump circuit including: a first resistor configured to limit current of a first BJT, a second resistor configured to provide a feedback signal of a voltage which is proportional to emitter current of the first BJT, a current feedback generator which converts the feedback signal to a control signal suitable for a base of the first BJT, which adjusts a base voltage of the first BJT and causes the first BJT to supply a constant current while a CP_PWM 2 285 signal is high, the first BJT provides a current provided from a first battery to a first diode, a first capacitor, via a collector of the first BJT, an emitter of the first BJT is connected to the second resistor and a ground, which charges the first capacitor, when the CP_PWM 2 signal is high, a second BJT that provides a current to base of a third BJT when a CP_PWM 1 signal is high, which turns ON the third BJT, a third resistor which limits a base current of the third BJT and a collector current of the second BJT, a fourth resistor which prevents unintended turning-on of the third BJT by a leakage current through the second BJT, the third BJT provides a high voltage charging current to a VCP node through a fifth resistor, the first capacitor, and a first diode when the third BJT is ON, the fifth resistor limits first battery source current supplied to the VCP node through the fifth resistor, the first capacitor, and the first diode when the third BJT is ON, the first capacitor charge is increased while the first BJT is ON and the increased charge is transferred to the VCP node while the third BJT is ON, a second capacitor which is charged while the third BJT is ON and provides increased charge to the VCP node when the third BJT is OFF, the first diode prevents a current flowing into the first battery while the third BJT is ON, a second diode prevents current flowing into the first capacitor from the second capacitor while the first BJT is ON, and a sixth resistor provides a current to discharge the second capacitor when the VCP node is OFF; (e) an inductor capacitor filter; and (f) a plurality of timing signals including the CP_PWM 2 signal and CP_PWM 1 signal.