LED driving circuit and LED lighting circuit

The invention claimed is: 1. A driving circuit for a light emitting source, comprising an input adapted to receive a power supply; a conversion circuit, adapted to convert the power supply and provide a converted power, comprising a power switch; an output, adapted to output the converted power; an output capacitor ( 62 ) connected at the output; a first control circuit coupled to the output and connected to the power switch, adapted to sense a voltage corresponding to the voltage on the output capacitor and control the power switch operate in a power-reducing mode to reduce the converted power when the voltage corresponding to the voltage on the output capacitor sensed by the first control circuit exceeds a first level; and a second control circuit connected to the output capacitor and connected to a control terminal of the power switch, adapted to: sense a voltage at the output capacitor and electrically connect the output capacitor and the control terminal, and apply, between the control terminal and a current-out terminal of the power switch, a first portion of the voltage on the output capacitor which first portion being higher than a maximum rating voltage for the control terminal and the current-out terminal, so as to damage and make the power switch unoperational permanently, when the voltage at the output capacitor sensed by the second control circuit exceeds a second level. 2. The driving circuit according to claim 1 , wherein the highest value of the second control unit's second level is smaller than the lowest value of the allowable maximum voltage of the output capacitor wherein a voltage on the output capacitor above the allowable maximum voltage may blow up the output capacitor, the nominal value of the first level is less than the allowable maximum voltage may blow up the output capacitor, and the nominal value of the second level is higher than the nominal value of the first level. 3. The driving circuit according to claim 1 , wherein the second control circuit comprises a voltage triggering component connected between an anode of the output capacitor and the control terminal of the power switch, the current-out terminal of the power switch and the cathode of the output capacitor are on the substantially same voltage potential, and the voltage triggering component is adapted to breakdown and apply the first portion of the voltage on the output capacitor across the control terminal and the current-out terminal of the power switch. 4. The driving circuit according to claim 3 , wherein the voltage trigger component is adapted to clamp at most a second portion of the output voltage after breaking down such that the first portion of the output voltage is higher than the maximum rating voltage for the control terminal and the current-out terminal of the power switch, optionally the maximum rating voltage is around 20V. 5. The driving circuit according to claim 3 , wherein the voltage trigger component comprises at least one of: a TSS; a DIAC; a gas discharge tube; and a VDR. 6. The driving circuit according to claim 1 , wherein the first control circuit is implemented at least partially by an IC. 7. The driving circuit according to claim 1 , wherein the first control circuit comprises a voltage divider to sense the output voltage, the voltage divider being with a first tolerance, and the first control circuit comprises a circuit to generate a reference voltage, and a comparator for comparing the sensed voltage by the voltage divider with the reference voltage, wherein the circuit to generate the reference voltage being with a second tolerance. 8. The driving circuit according to claim 7 , wherein the first control circuit is either: connected to the output capacitor; or coupled to a power commutation component of the conversion circuit whose voltage is reflecting a voltage on the output capacitor, so as to sense a voltage at the output capacitor. 9. The driving circuit according to claim 8 , wherein the power commutation component comprises a power inductor, the first control circuit is coupled to the power inductor of the conversion circuit via a sensing winding magnetically coupled to the power inductor, wherein said sensing winding has a third tolerance in reflecting the voltage on the output capacitor. 10. A lighting circuit comprising the driving circuit according to claim 1 , further comprising the light emitting source connected at the output of the driving circuit.