초록 ▼

A switch embedded integrated circuit for battery protection includes a MOSFET having a body diode, and a control logic circuit for switching the MOSFET and the direction of the body diode to control the charge current to and the discharge current from a battery. The control logic circuit turns off t

A switch embedded integrated circuit for battery protection includes a MOSFET having a body diode, and a control logic circuit for switching the MOSFET and the direction of the body diode to control the charge current to and the discharge current from a battery. The control logic circuit turns off the MOSFET once any abnormal operation such as over-voltage and under-voltage happens, and turns on the MOSFET according to an OVPR threshold, an OVPR delay time, an UVPR threshold and an UVPR delay time. The OVPR threshold and the OVPR delay time are determined depending on the battery being coupled to a load or a charger, or floating.

대표청구항 ▼

1. A switch embedded integrated circuit for battery protection, comprising: first, second and third pins;a MOSFET coupled between the first and second pins, the MOSFET having a body diode;a first switch coupled to an anode of the body diode and controlled to couple the anode of the body diode to the

1. A switch embedded integrated circuit for battery protection, comprising: first, second and third pins;a MOSFET coupled between the first and second pins, the MOSFET having a body diode;a first switch coupled to an anode of the body diode and controlled to couple the anode of the body diode to the first pin or the second pin;a second switch coupled to a cathode of the body diode and controlled to couple the cathode of the body diode to the first pin or the second pin;a control logic circuit coupled to the MOSFET, the first switch and the second switch, operative to control the MOSFET, the first switch and the second switch according to a first detection signal;a first detector coupled to the control logic circuit, the first pin and the third pin, operative to monitor a voltage between the first pin and the third pin to determine the first detection signal;a second detector coupled to the second pin, operative to detect a voltage on the second pin to determine a second detection signal for the control logic circuit to select an over-voltage-protection-release (OVPR) threshold and an over-voltage-protection-release (OVPR) delay time;a current sensor coupled to the control logic circuit and the second pin, operative to generate a current sense signal when detecting a discharge current or a charge current for the control logic circuit to turn on the MOSFET,wherein the current sensor comprises:a current sense resistor coupled in series to the MOSFET;a discharge comparator having a positive input and a negative input coupled to a first terminal and a second terminal of the current sense resistor, respectively, operative to assert the current sense signal responsive to detecting the discharge current flowing through the current sense resistor; anda charge comparator having a positive input and a negative input coupled to the first terminal and the second terminal of the current sense resistor, respectively, operative to assert the current sense signal responsive to detecting the charge current flowing through the current sense resistor. 2. The switch embedded integrated circuit of claim 1, wherein the control logic circuit selects the OVPR delay time according to the second detection signal, and generates a setting signal for the first detector to determine the OVPR threshold. 3. The switch embedded integrated circuit of claim 1, wherein the second detector comprises: a first comparator having a positive input to receive a positive voltage and a negative input coupled to the second pin; anda second comparator having a positive input coupled to the second pin and a negative input to receive a negative voltage;wherein the second detection signal is determined by outputs of the first and second comparators. 4. The switch embedded integrated circuit of claim 1, further comprising: an oscillator providing a clock; anda delay circuit coupled to the oscillator and the control logic circuit, operative to provide a plurality of OVPR delay times according to the clock for the control logic circuit. 5. The switch embedded integrated circuit of claim 4, wherein the delay circuit comprises a string of flip-flops coupled in series. 6. The switch embedded integrated circuit of claim 1, further comprising an isolation for isolating the MOSFET. 7. The switch embedded integrated circuit of claim 6, further comprising a current optimization circuit coupled to the isolation, operative to apply a voltage to the isolation for preventing the MOSFET from being latched up. 8. The switch embedded integrated circuit of claim 7, wherein the current optimization circuit comprises a resistor coupled between the third pin and the isolation. 9. The switch embedded integrated circuit of claim 1, wherein the first detector responsive to an over-voltage event to assert the first detection signal to make the control logic circuit turn off the MOSFET and switch the first and second switches, to make the body diode block a charge current and allow a discharge current to pass. 10. The switch embedded integrated circuit of claim 9, wherein the anode and the cathode of the body diode are coupled to the second pin and the first pin, respectively. 11. The switch embedded integrated circuit of claim 9, wherein the anode and the cathode of the body diode are coupled to the first pin and the second pin, respectively. 12. The switch embedded integrated circuit of claim 1, wherein the first detector responsive to an under-voltage event to assert the first detection signal to make the control logic circuit turn off the MOSFET and switch the first and second switches, to make the body diode block a discharge current and allow a charge current to pass. 13. The switch embedded integrated circuit of claim 12, wherein the anode and the cathode of the body diode are coupled to the first pin and the second pin, respectively. 14. The switch embedded integrated circuit of claim 12, wherein the anode and the cathode of the body diode are coupled to the second pin and the first pin, respectively.