Protection circuit and switching power supply

What is claimed is: 1. A protection circuit comprising: a temperature sensor that outputs voltage based on temperature; a comparator that supplies detection current based on the voltage that the temperature sensor outputs in case that the voltage that the temperature sensor outputs exceeds voltage of predetermined potential; a control circuit that supplies control current obtained by exponentially increasing the detection current supplied from the comparator; and a constant voltage circuit that reduces output voltage that is output from a switching power supply based on the control current that the control circuit supplies, wherein the constant voltage circuit includes a shunt regulator that is controlled based on the control current. 2. The protection circuit according to claim 1 , wherein the temperature sensor is thermally coupled with a secondary side rectifier element that the switching power supply includes. 3. The protection circuit according to claim 1 , wherein the comparator has an npn type first bipolar transistor in which a base is connected to an output terminal of the temperature sensor, a collector is connected to the control circuit, and an emitter is connected to ground via a first resistor, a second resistor in which one end is connected to a power supply, and the other end is connected to one end of a third resistor, the third resistor in which one end is connected to the other end of the second resistor, and the other end is connected to the ground, and an npn type second bipolar transistor in which a base is connected between the second resistor and the third resistor, a collector is connected to an output of the switching power supply via a fourth resistor, and an emitter is connected between the emitter of the first bipolar transistor and the first resistor, the detection current is a collector current of the first bipolar transistor. 4. The protection circuit according to claim 1 , wherein the control circuit has a pnp type third bipolar transistor in which a base is connected to a base of a pnp-type fourth bipolar transistor, an emitter is connected to an output of the switching power supply via a fifth transistor, and a collector is connected to an output of the comparator and the base of the third bipolar transistor, and the pnp type fourth bipolar transistor in which the base is connected to the base of the third bipolar transistor, an emitter is connected to output of the switching power supply, and a collector is connected to the constant voltage circuit, wherein the control current is a collector current of the fourth bipolar transistor. 5. The protection circuit according to claim 1 , wherein the constant voltage circuit has a sixth resistor in which one end is connected to an output of the switching power supply, and the other end is connected to one end of a seventh resistor, the seventh resistor in which the one end is connected to the other end of the sixth resistor, and the other end is connected to a ground, the shunt regulator in which a reference terminal is connected between the sixth resistor and the seventh resistor, a cathode is connected to the output of the switching power supply via an eighth resistor and a ninth resistor, and an anode is connected to the ground, and a photo coupler in which an anode of a light emitting diode is connected between the eighth resistor and the ninth resistor, a cathode of the light emitting diode is connected between the ninth resistor and the shunt regulator, a collector of a photo transistor is connected to a feedback terminal of a driver circuit, and an emitter of the photo transistor is connected to the ground, wherein an output of the control circuit is connected between the sixth resistor and the seventh resistor. 6. A switching power supply, comprising: a switching element; and a protection circuit comprising: a temperature sensor that outputs voltage based on temperature; a comparator that supplies detection current based on the voltage that the temperature sensor outputs in case that the voltage that the temperature sensor outputs exceeds voltage of predetermined potential; a control circuit that supplies control current obtained by exponentially increasing the detection current supplied from the comparator; and a constant voltage circuit that reduces output voltage that is output from the switching power supply based on the control current that the control circuit supplies, wherein the constant voltage circuit includes a shunt regulator that is controlled based on the control current.