Power factor correction circuit for reducing distortion of input current
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H02M-007/757
H02M-007/758
출원번호
US-0674618
(2008-08-22)
등록번호
US-8320144
(2012-11-27)
우선권정보
KR-10-2007-0084353 (2007-08-22)
국제출원번호
PCT/KR2008/004901
(2008-08-22)
§371/§102 date
20100222
(20100222)
국제공개번호
WO2009/025517
(2009-02-26)
발명자
/ 주소
Lee, Jae Hoon
출원인 / 주소
Silicon Mitus, Inc.
대리인 / 주소
Cantor Colburn LLP
인용정보
피인용 횟수 :
8인용 특허 :
10
초록▼
The present invention relates to a power factor correction circuit that can reduce distortion of input current in a switching mode power supply. The power factor correction circuit provided in the present invention basically comprises a first inductor which is electrically connected at a first end t
The present invention relates to a power factor correction circuit that can reduce distortion of input current in a switching mode power supply. The power factor correction circuit provided in the present invention basically comprises a first inductor which is electrically connected at a first end thereof to an input terminal, a second coil that is coupled to the first inductor to form an induced voltage, a switch electrically connected to the a second terminal of the first inductor, and a switching control unit for controlling turn-on and turn-off of the switch. In such a power factor correction circuit of the present invention, the switching control unit is configured to differently set a turn-on period of the switch depending on the input voltage by generating a signal for controlling the turn-off of the switch using a second coil voltage induced at the secondary coil of the inductor by input voltage or a directly sensed input voltage. Accordingly, distortion of input current can be effectively corrected.
대표청구항▼
1. A power factor correction circuit provided with a boost circuit including a first inductor which is electrically connected at a first end thereof to an input terminal and is electrically connected at a second end thereof to a switch, the power factor correction circuit comprising:a second coil co
1. A power factor correction circuit provided with a boost circuit including a first inductor which is electrically connected at a first end thereof to an input terminal and is electrically connected at a second end thereof to a switch, the power factor correction circuit comprising:a second coil coupled with the first inductor for allowing a second coil voltage to be induced by the first inductor; anda switching control unit for receiving the second coil voltage and an output voltage of an output terminal of the power factor correction circuit, turning on the switch using the second coil voltage when current flowing through the first inductor becomes zero from positive, generating a second control voltage by adjusting a first control signal corresponding to the output voltage depending on the second coil voltage when the switch is turned on, and turning off the switch by comparing the second control voltage with a reference voltage, wherein the switching control unit comprises:a first comparator for receiving the second coil voltage, comparing the second coil voltage with the reference voltage, and generating a switch turn-on signal when the second coil voltage becomes lower than the reference voltage;an output voltage controller for receiving the output voltage of the output terminal and outputting a first control voltage for controlling the turning off of the switch;a control voltage modifier for receiving the second coil voltage and the first control voltage of the output voltage controller and outputting the second control voltage whose waveform is modified using the second coil voltage;a ramp generator for generating a ramp waveform voltage; anda second comparator for comparing the second control voltage of the control voltage modifier with the ramp waveform voltage, and generating a switch turn-off signal when the ramp waveform voltage becomes equal to the second control voltage. 2. The circuit according to claim 1, wherein the control voltage modifier comprises: a waveform generator for receiving the second coil voltage and generating a waveform voltage changing depending on the second coil voltage; andan adder for receiving the first control voltage of the output voltage controller and the waveform voltage of the waveform generator and outputting a signal generated by subtracting the waveform voltage from the first control voltage as the second control voltage. 3. The circuit according to claim 2, wherein the waveform generator further receives the first control voltage of the output voltage controller and generates the waveform voltage changing depending on the second coil voltage and the first control voltage. 4. A power factor correction circuit provided with a boost circuit including a first inductor which is electrically connected at a first end thereof to an input terminal and is electrically connected at a second end thereof to a switch, the power factor correction circuit comprising:a second coil coupled with the first inductor for allowing a second coil voltage to be induced by the first inductor; anda switching control unit for receiving an input sensing voltage obtained by detecting an input voltage of the input terminal, the second coil voltage, and an output voltage of an output terminal of the power factor correction circuit, turning on the switch using the second coil voltage when current flowing through the first inductor becomes zero from positive, generating a second control voltage by adjusting a first control signal corresponding to the output voltage depending on the input sensing voltage when the switch is turned on, and turning off the switch by comparing the second control voltage with a reference voltage, wherein the switching control unit comprises:a first comparator for receiving the second coil voltage, comparing the second coil voltage with the reference voltage, and generating a switch turn-on signal when the second coil voltage becomes lower than the reference voltage;an output voltage controller for receiving the output voltage of the output terminal and outputting a first control voltage for controlling the turning off of the switch;a control voltage modifier for receiving the input sensing voltage of the input terminal and the first control voltage of the output voltage controller and outputting the second control voltage whose waveform is modified using the second coil voltage;a ramp generator for generating a ramp waveform voltage; anda second comparator for comparing the second control voltage of the control voltage modifier with the ramp waveform voltage, and generating a switch turn-off signal when the ramp waveform voltage becomes equal to the second control voltage. 5. The circuit according to claim 4, wherein the control voltage modifier comprises: a waveform generator for receiving the input sensing voltage and generating a waveform voltage changing depending on the input sensing voltage; andan adder for receiving the first control voltage of the output voltage controller and the waveform voltage of the waveform generator and outputting a signal generated by subtracting the waveform voltage from the first control voltage as the second control voltage. 6. The circuit according to claim 5, wherein the waveform generator further receives the first control voltage of the output voltage controller and generates the waveform voltage changing depending on the input sensing voltage and the first control voltage. 7. A power factor correction circuit provided with a boost circuit including a first inductor which is electrically connected at a first end thereof to an input terminal and is electrically connected at a second end thereof to a switch, the power factor correction circuit comprising:a second coil coupled with the first inductor for allowing a second coil voltage to be induced by the first inductor; anda switching control unit for receiving the second coil voltage and an output voltage of an output terminal of the power factor correction circuit, turning on the switch using the second coil voltage when current flowing through the first inductor becomes zero from positive, generating a turn-off reference voltage by combining a waveform voltage corresponding to the second coil voltage with a reference voltage when the switch is turned on, and controlling the turn-off of the switch by comparing the turn-off reference voltage with the first control voltage corresponding to the output voltage, wherein the switching control unit comprises:a first comparator for receiving the second coil voltage, comparing the second coil voltage with the reference voltage, and generating a switch turn-on signal when the second coil voltage becomes lower than the reference voltage;an output voltage controller for receiving the output voltage of the output terminal and outputting a first control voltage for controlling the turning off of the switch;a waveform generator for receiving the second coil voltage and generating a waveform voltage changing depending on the second coil voltage;a ramp generator for generating a ramp waveform voltage as a reference voltage;an adder for generating a turn-off reference voltage by combining the waveform voltage of the waveform generator with the ramp waveform voltage of the ramp generator; anda second comparator for comparing the first control voltage with the turn-off reference voltage, and generating a switch turn-off signal when the first control voltage becomes equal to the turn-off reference voltage. 8. The circuit according to claim 7, wherein the waveform generator further receives the first control voltage of the output voltage controller and generates the waveform voltage changing depending on the second coil voltage and the first control voltage. 9. A power factor correction circuit provided with a boost circuit including a first inductor which is electrically connected at a first end thereof to an input terminal and is electrically connected at a second end thereof to a switch, the power factor correction circuit comprising:a second coil coupled with the first inductor for allowing a second coil voltage to be induced by the first inductor; anda switching control unit for receiving an input sensing voltage obtained by detecting an input voltage of the input terminal, the second coil voltage, and an output voltage of an output terminal of the power factor correction circuit, turning on the switch using the second coil voltage when current flowing through the first inductor becomes zero from positive, generating a turn-off reference voltage by combining a waveform voltage corresponding to the input sensing voltage with a reference voltage when the switch is turned on, and controlling the turn-off of the switch by comparing the turn-off reference voltage with the first control voltage corresponding to the output voltage. 10. The circuit according to claim 9, wherein the switching control unit comprises: a first comparator for receiving the second coil voltage, comparing the second coil voltage with the reference voltage, and generating a switch turn-on signal when the second coil voltage becomes lower than the reference voltage;an output voltage controller for receiving the output voltage of the output terminal and outputting a first control voltage for controlling the turning off of the switch;a waveform generator for receiving the input sensing voltage and generating a waveform voltage changing depending on the input sensing voltage;a ramp generator for generating a ramp waveform voltage as a reference voltage;an adder for generating a turn-off reference voltage by combining the waveform voltage of the waveform generator with the ramp waveform voltage of the ramp generator; anda second comparator for comparing the first control voltage with the turn-off reference voltage, and generating a switch turn-off signal when the first control voltage becomes equal to the turn-off reference voltage. 11. The circuit according to claim 10, wherein the waveform generator further receives the first control voltage of the output voltage controller and generates the waveform voltage changing depending on the input sensing voltage and the first control voltage. 12. The circuit according to claim 2, wherein the waveform generated from the waveform generator is a waveform proportional to the input voltage. 13. The circuit according to claim 2, wherein the waveform generated from the waveform generator is a waveform proportional to the input voltage during a turn-on period of the switch. 14. The circuit according to claim 2, wherein the waveform generated from the waveform generator is a ramp waveform having a slope proportional to the input voltage during a turn-on period of the switch. 15. The circuit according to claim 5, wherein the waveform generated from the waveform generator is a waveform proportional to the input voltage. 16. The circuit according to claim 5, wherein the waveform generated from the waveform generator is a waveform proportional to the input voltage during a turn-on period of the switch. 17. The circuit according to claim 5, wherein the waveform generated from the waveform generator is a ramp waveform having a slope proportional to the input voltage during a turn-on period of the switch. 18. The circuit according to claim 7, wherein the waveform generated from the waveform generator is a waveform proportional to the input voltage. 19. The circuit according to claim 7, wherein the waveform generated from the waveform generator is a waveform proportional to the input voltage during a turn-on period of the switch. 20. The circuit according to claim 7, wherein the waveform generated from the waveform generator is a ramp waveform having a slope proportional to the input voltage during a turn-on period of the switch. 21. The circuit according to claim 10, wherein the waveform generated from the waveform generator is a waveform proportional to the input voltage. 22. The circuit according to claim 10, wherein the waveform generated from the waveform generator is a waveform proportional to the input voltage during a turn-on period of the switch. 23. The circuit according to claim 10, wherein the waveform generated from the waveform generator is a ramp waveform having a slope proportional to the input voltage during a turn-on period of the switch.
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