Isolated switching converter with optocoupler and secondary control circuit thereof

What is claimed is: 1. A control method used in an isolated switching converter, wherein the switching converter includes a transformer with a primary winding and a secondary winding, a primary circuit coupled to the primary winding, a rectifying circuit coupled to the secondary winding, and an optocoupler with a photo-sensitive device and a light emitting device, and wherein the light emitting device has a first terminal coupled to an output voltage of the switching converter, the control method comprises: sensing the output voltage and generating a voltage feedback signal; generating an error amplifying signal based on a reference signal and the voltage feedback signal, and providing the error amplifying signal to a second terminal of the light emitting device; comparing the error amplifying signal with a first threshold voltage; disconnecting the error amplifying signal from the second terminal of the light emitting device if the error amplifying signal becomes lower than the first threshold voltage; comparing the voltage feedback signal with a second threshold voltage; and reconnecting the error amplifying signal to the second terminal of the light emitting device when the voltage reference signal becomes lower than the second threshold voltage. 2. The control method of claim 1 , wherein switching frequency or duty cycle of transistors in the primary circuit is adjusted in accordance with the current flowing through the photo-sensitive device. 3. The control method of claim 1 , wherein the primary circuit will stop providing energy to the rectifying circuit if the current flowing through the photo-sensitive device is detected to be zero. 4. The control method of claim 1 , further comprising: sensing an output current of the switching converter and generating a current feedback signal; and comparing the current feedback signal with a third threshold voltage; wherein the error amplifying signal could be disconnected from the second terminal of the light emitting device only if the current feedback signal is lower than the third threshold voltage. 5. The control method of claim 1 , further comprising: comparing the voltage feedback signal with a fourth threshold voltage; and disconnecting the error amplifying signal from the second terminal of the light emitting device if the voltage feedback signal becomes higher than the fourth threshold voltage. 6. The control method of claim 1 , further comprising: sensing an output current of the switching converter and generating a current feedback signal; comparing the current feedback signal with a fifth threshold voltage; and disconnecting the error amplifying signal from the second terminal of the light emitting device if the current feedback signal becomes higher than the fifth threshold voltage. 7. A secondary control circuit used in an isolated converter, wherein the switching converter includes a transformer with a primary winding and a secondary winding, a primary circuit coupled to the primary winding, a rectifying circuit coupled to the secondary winding, and an optocoupler with a photo-sensitive device and a light emitting device, and wherein the light emitting device has a first terminal coupled to an output voltage of the switching converter, the secondary control circuit comprises: an error amplifier having a first input terminal, a second input terminal and an output terminal, wherein the first input terminal is configured to receive a reference signal, the second input terminal is configured to receive a voltage feedback signal indicative of the output voltage, and wherein based on the reference signal and the voltage feedback signal, the error amplifier generates an error amplifying signal at the output terminal; a transistor having a first terminal, a second terminal and a control terminal, wherein the first terminal is coupled to a second terminal of the light emitting device, the second terminal is coupled to the output terminal of the error amplifier; a first comparator having a first input terminal, a second input terminal and an output terminal, wherein the first input terminal is configured to receive a first threshold voltage, the second input terminal is coupled to the output terminal of the error amplifier, and wherein the first comparator compares the error amplifying signal with the first threshold voltage and generates a first comparison signal at the output terminal; a second comparator having a first input terminal, a second input terminal and an output terminal, wherein the first input terminal is configured to receive a second threshold voltage, the second input terminal is configured to receive the voltage feedback signal, and wherein the second comparator compares the voltage feedback signal with the second threshold voltage and generates a second comparison signal at the output terminal; and a logic circuit having a first input terminal, a second input terminal and an output terminal, wherein the first input terminal is coupled to the output terminal of the first comparator, the second input terminal is coupled to the output terminal of the second comparator, the output terminal is coupled to the control terminal of the transistor, and wherein based on the first and second comparison signals, the logic circuit generates a switch control signal at the output terminal. 8. The secondary control circuit of claim 7 , further comprising: a third comparator having a first input terminal, a second input terminal and an output terminal, wherein the first input terminal is configured to receive a third threshold voltage, the second input terminal is configured to receive a current feedback signal indicative of an output current of the switching converter, and wherein the third comparator compares the current feedback signal with the third threshold voltage and generates a third comparison signal at the output terminal; and a first gate circuit having first input terminal, a second input terminal and an output terminal, wherein the first input terminal is coupled to the output terminal of the first comparator, the second input terminal is the output terminal of the third comparator, and the output terminal is coupled to the first input terminal of the logic circuit. 9. The secondary control circuit of claim 7 , further comprising: a fourth comparator having a first input terminal, a second input terminal and an output terminal, wherein the first input terminal is configured to receive the voltage feedback signal, the second input terminal is configured to receive a fourth threshold voltage, and wherein the fourth comparator compares the voltage feedback signal with the fourth threshold voltage and generates an over voltage protection signal at the output terminal; and a second gate circuit having first input terminal, a second input terminal and an output terminal, wherein the first input terminal is coupled to the output terminal of the first comparator, the second input terminal is coupled to the output terminal of the fourth comparator, and the output terminal is coupled to the first input terminal of the logic circuit. 10. The secondary control circuit of claim 9 , wherein the second gate circuit further has a third input terminal, and the secondary control circuit further comprises: a fifth comparator having a first input terminal, a second input terminal and an output terminal, wherein the first input terminal is configured to receive a current feedback signal indicative of an output current of the switching converter, the second input terminal is configured to receive a fifth threshold voltage, and wherein the fifth comparator compares the current feedback signal with the fifth threshold voltage and generates an over curren