Output power protection apparatus and method of operating the same

What is claimed is: 1. An output power protection apparatus comprising: a DC conversion unit configured to convert an input DC power into an output DC power; an output protection unit connected in series to the DC conversion unit, and having a plurality of protection circuits connected in parallel to each other; a high-voltage battery being charged by the input DC power; a low-voltage battery connected between the DC conversion unit, the output protection unit, and a low-voltage device, and being charged by the output DC power; and a control unit; wherein the control unit is configured to generate a control signal to control the protection circuits to disconnect the connection between the low-voltage battery and the low-voltage device, and the DC conversion unit when a short-circuit condition occurs between the high-voltage battery and the low-voltage battery or the low-voltage battery is reversely connected in polarity. 2. The output power protection apparatus in claim 1 , wherein each protection circuit comprises a transistor, a first resistor, and a second resistor; the transistor has a gate, a source, and a drain; the first resistor is connected between the source and the gate; the second resistor is connected between the source and the control unit. 3. The output power protection apparatus in claim 2 , wherein the transistors are n-type MOSFETs; each n-type MOSFET has a gate, a source, and a drain; the drain is connected to the DC conversion unit; the source is connected to a first terminal of the first resistor and the low-voltage device; the gate is connected to a second terminal of the first resistor and a first terminal of the second resistor; a second terminal of the second resistor is connected to the control unit. 4. The output power protection apparatus in claim 2 , wherein the transistors are p-type MOSFETs; each p-type MOSFET has a gate, a source, and a drain; the drain is connected to the low-voltage device; the source is connected to a first terminal of the first resistor and the DC conversion unit; the gate is connected to a second terminal of the first resistor and a first terminal of the second resistor; a second terminal of the second resistor is connected to the control unit. 5. The output power protection apparatus in claim 2 , wherein the number of the transistor is determined according to the output power of the DC conversion unit and consumed heat of the transistors. 6. The output power protection apparatus in claim 1 , further comprising: a filtering unit connected to the DC conversion unit, and configured to receive the input DC power and filter the input DC power. 7. The output power protection apparatus in claim 1 , wherein the DC conversion unit is a non-isolated DC-to-DC converter or an isolated DC-to-DC converter. 8. The output power protection apparatus in claim 7 , wherein the output protection apparatus is configured to provide a short-circuit protection between the high-voltage battery and the low-voltage battery and a polarity reverse protection of the low-voltage battery when the DC conversion unit is the non-isolated DC-to-DC converter. 9. The output power protection apparatus in claim 7 , wherein the output protection apparatus is configured to provide a polarity reverse protection of the low-voltage battery when the DC conversion unit is the isolated DC-to-DC converter. 10. The output power protection apparatus in claim 1 , wherein the input DC power is generated from a rechargeable battery or a generator. 11. A method of operating an output power protection apparatus comprising following steps: (a) providing a DC conversion unit, the DC conversion unit configured to convert an input DC power into an output DC power; (b) providing an output protection unit, the output protection unit connected in series to the DC conversion unit, and having a plurality of protection circuits connected in parallel to each other; (c) providing a high-voltage battery and a low-voltage battery, the high-voltage battery being charged by the input DC power, and the low-voltage battery connected between the DC conversion unit, the output protection unit, and a low-voltage device, and being charged by the output DC power; (d) providing a control unit; and (e) generating a control signal by the control unit to control the protection circuits to disconnect the connection between the low-voltage battery and the low-voltage device, and the DC conversion unit when a short-circuit condition occurs between the high-voltage battery and the low-voltage battery or the low-voltage battery is reversely connected in polarity. 12. The method of operating the output power protection apparatus in claim 11 , wherein each protection circuit comprises a transistor, a first resistor, and a second resistor; the transistor has a gate, a source, and a drain; the first resistor is connected between the source and the gate; the second resistor is connected between the source and the control unit. 13. The method of operating the output power protection apparatus in claim 12 , wherein the transistors are n-type MOSFETs; each n-type MOSFET has a gate, a source, and a drain; the drain is connected to the DC conversion unit; the source is connected to a first terminal of the first resistor and the low-voltage device; the gate is connected to a second terminal of the first resistor and a first terminal of the second resistor; a second terminal of the second resistor is connected to the control unit. 14. The method of operating the output power protection apparatus in claim 12 , wherein the transistors are p-type MOSFETs; each p-type MOSFET has a gate, a source, and a drain; the drain is connected to the low-voltage device; the source is connected to a first terminal of the first resistor and the DC conversion unit; the gate is connected to a second terminal of the first resistor and a first terminal of the second resistor; a second terminal of the second resistor is connected to the control unit. 15. The method of operating the output power protection apparatus in claim 12 , wherein the number of the transistor is determined according to the output power of the DC conversion unit and consumed heat of the transistors. 16. The method of operating the output power protection apparatus in claim 11 , further comprising: (f) providing a filtering unit, the filtering unit connected to the DC conversion unit, and configured to receive the input DC power and filter the input DC power. 17. The method of operating the output power protection apparatus in claim 11 , wherein the DC conversion unit is a non-isolated DC-to-DC converter or an isolated DC-to-DC converter. 18. The method of operating the output power protection apparatus in claim 17 , wherein the output protection apparatus is configured to provide a short-circuit protection between the high-voltage battery and the low-voltage battery and a polarity reverse protection of the low-voltage battery when the DC conversion unit is the non-isolated DC-to-DC converter. 19. The method of operating the output power protection apparatus in claim 17 , wherein the output protection apparatus is configured to provide a polarity reverse protection of the low-voltage battery when the DC conversion unit is the isolated DC-to-DC converter. 20. The method of operating the output power protection apparatus in claim 11 , wherein the input DC power is generated from a rechargeable battery or a generator.