Over voltage protection control method and circuit for four-switch buck-boost converter

What is claimed is: 1. A controlling method for over voltage protection control, the method comprising: a) determining, by a comparator receiving an over voltage threshold signal, whether an output voltage of a buck-boost converter is in an over voltage condition, wherein said buck-boost converter comprises a first switch coupled to an input terminal and an inductor, a second switch coupled to ground and a common node of said first switch and said inductor, a third switch coupled to ground and a common node of a fourth switch and said inductor, wherein said fourth switch is coupled to an output terminal of said buck-boost converter; and b) simultaneously controlling said first, second, third, and fourth switches in said buck-boost converter by turning on said second and third switches, and turning off said first and fourth switches, in response to said over voltage condition. 2. The method of claim 1 , wherein when said converter operates in a buck mode, the method further comprises: a) during a first time period when said first and fourth switches are on, and said output voltage is in said over voltage condition, turning off said first and fourth switches, and turning on said second and third switches; and b) during a second time period when said second and fourth switches are on, and said output voltage is in said over voltage condition, turning on said third switch, and turning off said fourth switch. 3. The method of claim 1 , wherein when said buck-boost converter operates in a boost mode, the method further comprises: a) during a first time period when said first and third switches are on, and said output voltage is in said over voltage condition, turning off said first switch, and turning on said second switch; and b) during a second time period when said first and fourth switches are on, and said output voltage is in said over voltage condition, turning off said first and fourth switches, turning on said second and third switches. 4. The method of claim 1 , wherein when said buck-boost converter operates in a buck-boost mode, the method further comprises: a) during a first time period when said first and third switches are on, and said output voltage is in said over voltage condition, turning off said first switch, and turning on said second switch; b) during a second time period when said first and fourth switches are on, and said output voltage is in said over voltage condition, turning off said first and fourth switches, and turning on said second and third switches; and c) during a third time period when said second and fourth switches are on, and said output voltage is in said over voltage condition, turning on said third switch, and turning off said fourth switch. 5. An apparatus, comprising: a) a buck-boost converter comprising a first switch coupled to an input terminal and an inductor, a second switch coupled to ground and a common node of said first switch and said inductor, a third switch coupled to ground and a common node of a fourth switch and said inductor, wherein said fourth switch is coupled to an output terminal of said buck-boost converter; b) an over voltage detection circuit comprising a comparator configured to receive a voltage feedback signal indicative of an output voltage of said buck-boost converter at a first input terminal, and an over voltage threshold signal at a second input terminal, and to generate an over voltage signal; c) a first control circuit configured to generate a first PWM control signal according to an operation mode of said buck-boost converter; d) a first logic circuit configured to receive said first PWM control signal and said over voltage signal from said comparator, and to control said first and second switches; e) a second control circuit configured to generate a second PWM control signal according to said operation mode of said buck-boost converter; and f) a second logic circuit configured to receive said second PWM control signal and said over voltage signal from said comparator, and to control said third and fourth switches, wherein said second and third switches are controlled to be on, and said first and fourth switches are controlled to be off, when said voltage feedback signal is greater than said over voltage threshold signal. 6. The apparatus of claim 5 , wherein said over voltage detection circuit comprises: a) a voltage feedback circuit configured to receive said output voltage of said buck-boost converter, and to generate said voltage feedback signal; and b) said comparator being configured to compare said voltage feedback signal against said over voltage threshold signal, and to activate said over voltage signal when said voltage feedback signal is greater than said over voltage threshold signal. 7. The apparatus of claim 5 , wherein said first logic circuit comprises: a) an inverter configured to receive said over voltage signal; and b) an AND-gate configured to receive an output of said inverter and said first PWM control signal, and to provide a first logic control signal to a first driving circuit for controlling said first and second switches. 8. The apparatus of claim 5 , wherein said second logic circuit comprises an OR-gate configured to receive said over voltage signal and said second PWM control signal, and to provide a second logic control signal to a second driving circuit for controlling said third and fourth switches. 9. The apparatus of claim 5 , wherein said comparator is configured as a hysteresis comparator. 10. The apparatus of claim 5 , wherein said first input terminal is a noninverting input terminal, and said second input terminal is an inverting input terminal. 11. The method of claim 1 , wherein said comparator is configured as a hysteresis comparator.