The present invention provides an uninterruptible power system (UPS), the UPS comprising: a first converter having a first input terminal for receiving a first power source and a first output terminal for outputting a first voltage, wherein the first power source is a DC power or AC power and the fi
The present invention provides an uninterruptible power system (UPS), the UPS comprising: a first converter having a first input terminal for receiving a first power source and a first output terminal for outputting a first voltage, wherein the first power source is a DC power or AC power and the first voltage is a DC voltage; a third converter having a third input terminal for receiving the second power source and the third output terminal connected to the first output terminal, wherein the second power source is a DC power; and a second converter having a second input terminal connected to the first output terminal and the third output terminal, and the second output terminal for outputting a second voltage corresponding to the first voltage.
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1. An uninterruptible power system (UPS), comprising: a first converter having a first input terminal for receiving a first power source and a first output terminal for outputting a first voltage, wherein the first power source is a DC power or an AC power, and the first voltage is a DC voltage;a th
1. An uninterruptible power system (UPS), comprising: a first converter having a first input terminal for receiving a first power source and a first output terminal for outputting a first voltage, wherein the first power source is a DC power or an AC power, and the first voltage is a DC voltage;a third converter having a third input terminal for receiving a second power source and a third output terminal electrically connected to the first output terminal, wherein the second power source is a DC power, wherein the third converter is a first resonant converter; anda second converter having a second input terminal electrically connected to the first output terminal and the third output terminal, and a second output terminal for outputting a second voltage corresponding to the first voltage. 2. The uninterruptible power system of claim 1, further comprising: an auxiliary power source module electrically connected to one of the first input terminal, the third input terminal and the first output terminal, thereby receiving one of the first power source, the second power source and the first voltage correspondingly; anda control module electrically connected to the auxiliary power source module, thereby receiving a power supply source from the auxiliary power source module. 3. The uninterruptible power system of claim 1, further comprising: a converter control module having three input terminals respectively electrically connected to the first converter, the second converter and the third converter for receiving respective electrical signals, and three output terminals for respectively outputting control signals corresponding to the electrical signals. 4. The uninterruptible power system of claim 1, further comprising: three converter control modules, the converter control modules having respective input terminals electrically connected to the first converter, the second converter and the third converter respectively for receiving respective electrical signals, and respective output terminal for outputting control signals corresponding to the electrical signals respectively. 5. The uninterruptible power system of claim 4, wherein a control method for the first converter and the second converter is a close-loop control, and a control method for the third converter is an open-loop control or a close-loop control. 6. The uninterruptible power system of claim 1, wherein the first resonant converter comprises: a square-wave generator for outputting a square wave;a resonant slot electrically connected to the square-wave generator;a transformer having a primary winding electrically connected to the resonant slot and at least one secondary winding; anda rectifier module electrically connected to the secondary winding of the transformer for rectifying a voltage of the secondary winding. 7. The uninterruptible power system of claim 6, wherein the square-wave generator is a half-bridge square-wave generator or a full-bridge square-wave generator. 8. The uninterruptible power system of claim 6, wherein a resonance method of the resonant slot is serial resonance, parallel resonance or LLC resonance. 9. The uninterruptible power system of claim 1, wherein the third converter further comprises a filter module for filtering the second power source. 10. The uninterruptible power system of claim 9, wherein the filter module further comprises an EMI filter for performing common-mode filtering and/or differential-mode filtering on the second power source. 11. The uninterruptible power system of claim 9, wherein the filter module further comprises a surge current detection device for detecting a surge current when the second power source is inputted to the third input terminal and for performing surge current protection on the third converter. 12. The uninterruptible power system of claim 9, wherein the filter module further comprises a voltage polarity detection device for detecting if a voltage polarity of the second power source matches a terminal polarity of the third input terminal, so as to protect the third converter when the input terminal of the second power source is reversed. 13. The uninterruptible power system of claim 1, wherein the first converter further comprises a PFC (Power Factor Correction) circuit for adjusting a power factor of the first converter. 14. The uninterruptible power system of claim 13, wherein the first converter is an interleaved PFC circuit for adjusting a power factor of the first converter and reducing a ripple component of the output voltage. 15. The uninterruptible power system of claim 1, wherein the first converter further comprises a surge current protection device for detecting a transient surge current during the actuation of the first power source and for performing surge current protection on the first converter. 16. The uninterruptible power system of claim 1, wherein the second converter is a second resonant converter or a PWM converter. 17. The uninterruptible power system of claim 16, wherein the second converter is the second resonant converter, and the second resonant converter comprises: a square-wave generator for outputting a square wave;a resonant slot electrically connected to the square-wave generator;a transformer having a primary winding electrically connected to the resonant slot and at least one secondary winding; anda rectifier module electrically connected to the secondary winding of the transformer for rectifying a voltage of the secondary winding. 18. The uninterruptible power system of claim 16, wherein the second converter is a phase-shifted full-bridge converter and the phase-shifted full-bridge converter comprises: a phase-shifted square-wave generator for outputting a square wave;a transformer having a primary winding electrically connected to an output terminal of the phase-shifted square-wave generator and a secondary winding; anda synchronous rectifier module electrically connected to the secondary winding for performing synchronous rectification on an output voltage of the transformer. 19. An uninterruptible power system, comprising: a first converter having a first input terminal for receiving a first power source and a first output terminal for outputting a first voltage, wherein the first power source is a DC power or AC power and the first voltage is a DC voltage;a third converter having a third input terminal for receiving a second power source and a third output terminal electrically connected to the first output terminal, wherein the second power source is a DC power, and the third converter is a resonant converter; andat least one second converter, each of the at least one second converter comprising: an isolation unit having a first isolation side electrically coupled to the first output terminal for receiving the first voltage and a second isolation side; anda synchronous rectifier module electrically connected to the second isolation side for performing synchronous rectification on an output voltage of the isolation unit. 20. The uninterruptible power system of claim 19, wherein each of the at least one second converter is electrically connected to an output bus by an ORing field effect transistor, and the ORing field effect transistors are controlled by an ORing field effect transistor controller, wherein the ORing field effect transistor prevents the current from flowing back to the second output terminal of the corresponding second converter. 21. The uninterruptible power system of claim 19, further comprising: an auxiliary power source module electrically connected to one of the first input terminal, the third input terminal and the first output terminal, thereby receiving one of the first power source, the second power source and the first voltage correspondingly; anda control module electrically connected to the auxiliary power source module for receiving a power supply source from the auxiliary power source module. 22. The uninterruptible power system of claim 19, further comprising: a converter control module having three input terminals respectively electrically connected to the first converter, the second converter and the third converter for receiving respective electrical signals, and three output terminals for outputting control signals corresponding to the electrical signals respectively. 23. The uninterruptible power system of claim 19, further comprising: three converter control modules, the converter control modules having respective input terminals electrically connected to the first converter, the second converter and the third converter respectively for receiving respective electrical signals, and respective output terminals for outputting control signals corresponding to the electrical signals respectively. 24. The uninterruptible power system of claim 23, wherein a control method for the first converter and the second converter is a close-loop control, and a control method for the third converter is an open-loop control or a close-loop control. 25. The uninterruptible power system of claim 19, wherein the first converter further comprises a PFC circuit for adjusting a power factor of the first converter. 26. The uninterruptible power system of claim 25, wherein the first converter is an interleaved PFC circuit for adjusting a power factor of the first converter and reducing a ripple component of the output voltage. 27. The uninterruptible power system of claim 19, wherein the first converter further comprises a surge current protection device for detecting a transient surge current during the actuation of the first power source and for performing surge current protection on the first converter. 28. A uninterruptible power system, comprising: a first converter having a first input terminal for receiving a first power source and a first output terminal for outputting a first voltage, wherein the first power source is a DC power or AC power and the first voltage is a DC voltage;a third converter having a third input terminal for receiving a second power source and a third output terminal electrically connected to the first output terminal, wherein the second power source is a DC power, and the third converter is a resonant converter; anda second converter having a second input terminal electrically connected to the first output terminal and the third output terminal, and a second output terminal for outputting a second voltage corresponding to the first voltage,wherein the output voltage of the third output terminal varies in accordance with a variation of the DC power received by the third input terminal. 29. The uninterruptible power system of claim 28, further comprising: an auxiliary power source module electrically connected to one of the first input terminal, the third input terminal and the first output terminal, thereby receiving one of the first power source, the second power source and the first voltage correspondingly; anda control module electrically connected to the auxiliary power source module for receiving a power supply source from the auxiliary power source module. 30. The uninterruptible power system of claim 28, further comprising: a converter control module having three input terminals respectively electrically connected to the first converter, the second converter and the third converter for receiving respective electrical signals, and three output terminals for outputting control signals corresponding to the electrical signal respectively. 31. The uninterruptible power system of claim 28, further comprising: three converter control modules, the converter control modules having respective input terminals electrically connected to the first converter, the second converter and the third converter respectively for receiving respective electrical signals, and respective output terminals for outputting control signals corresponding to the electrical signals respectively. 32. The uninterruptible power system of claim 28, wherein the resonant converter comprises: a square-wave generator for outputting a square wave;a resonant slot electrically connected to the square-wave generator;a transformer having a primary winding electrically connected to the resonant slot and at least one secondary winding; anda rectifier module electrically connected to the secondary winding of the transformer for rectifying a voltage of the secondary winding. 33. The uninterruptible power system of claim 32, wherein the square-wave generator is a half-bridge square-wave generator or a full-bridge square-wave generator. 34. The uninterruptible power system of claim 32, wherein a resonance method of the resonant slot is serial resonance, parallel resonance or LLC resonance. 35. The uninterruptible power system of claim 28, wherein the third converter further comprises a filter module for filtering the second power source. 36. The uninterruptible power system of claim 35, wherein the filter module further comprises an EMI filter for performing common-mode filtering and/or differential-mode filtering on the second power source. 37. The uninterruptible power system of claim 35, wherein the filter module further comprises a surge current detection device for detecting a surge current when the second power source is inputted to the third input terminal and for performing surge current protection on the third converter. 38. The uninterruptible power system of claim 35, wherein the filter module further comprises a voltage polarity detection device for detecting if a voltage polarity of the second power source matches a terminal polarity of the third input terminal, so as to protect the third converter when the input terminal of the second power source is reversed. 39. An uninterruptible power system, comprising: a first power source module, comprising:a first converter having a first input terminal for receiving a first power source and a first output terminal for outputting a first voltage, wherein the first power source is a DC power or AC power and the first voltage is a DC voltage; anda third converter electrically coupled to the first converter for receiving a second power source, wherein the second power source is a DC power, and the third converter is a resonant converter; anda second converter having a second input terminal electrically connected to the first output terminal of the first converter for receiving the first voltage and a second output terminal for outputting a second voltage corresponding to the first voltage. 40. The uninterruptible power system of claim 39, wherein the first converter further comprises a filter module for filtering the first power source. 41. The uninterruptible power system of claim 40, wherein the first converter further comprises a rectifier module having an input terminal electrically connected to an output terminal of the filter module for rectifying the filtered first power source, and an output terminal electrically connected to the third converter. 42. The uninterruptible power system of claim 41, wherein the first converter further comprises a PFC circuit electrically connected to the output terminal of the rectifier module and the third converter for adjusting a power factor of the first power source module. 43. The uninterruptible power system of claim 42, wherein the PFC circuit is an interleaved PFC circuit for adjusting a power factor of the first power source module and reducing a ripple component of the voltage. 44. The uninterruptible power system of claim 39, wherein the power system for the UPS supplies power to the server. 45. The uninterruptible power system of claim 39, wherein the second power source is a battery.
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Fiorina Jean-Nol (Seyssinet-Pariset FRX) Pillet Jean-Jacques (St. Egreve FRX), High quality electrical power distribution system.
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