USRE39060EExpiredUtility

Power supply device and air conditioner using the same

78
Assignee: MATSUSHITA ELECTRIC INDUSTRIAL CO LTDPriority: Jan 19, 1999Filed: Jan 30, 2003Granted: Apr 11, 2006
Est. expiryJan 19, 2019(expired)· nominal 20-yr term from priority
Y02B70/10H02M 1/4208
78
PatentIndex Score
28
Cited by
33
References
45
Claims

Abstract

This invention provides a power supply device capable of widening a conduction period of an input current by a simple control to improve a power factor, and reducing a harmonic distortion of the input current The power supply device comprises a rectifier circuit, a reactor, a power factor correction circuit having switching elements, capacitors and a reverse-current blocking rectifier elements, a smoothing capacitor for smoothing an output voltage of the power factor correction circuit to obtain a DC voltage, a pulse signal controller generating and outputting a pulse signal for turning on and off the switching elements, and a driver for receiving the pulse signal to drive a switching elements of the power factor correction circuit.

Claims

exact text as granted — not AI-modified
1. A power supply device comprising:
 (a) a rectifier unit for rectifying an output voltage of an AC power supply to convert the voltage into a DC voltage;    (b) a reactor connected to the rectifier unit (c) a power factor correction unit for inputting an output voltage of the rectifier unit via the reactor, the power factor correction unit including a switching circuit comprising a plurality of switching elements connected in series and turning on or off to change a current path in the power factor correction unit, a capacitor circuit comprising a plurality of capacitors connected in series, and a reverse-current blocking rectifier element for preventing the charge in the capacitors from flowing reversely when the switching circuit turns on, the switching circuit and the capacitor circuit being arranged in parallel, at least one of connection nodes between the switching elements being connected to one connection node between the capacitors, ends of the switching circuit being connected to ends of the capacitor circuit via the reverse-current blocking rectifier element;    (d) a pulse signal controller for generating and outputting a pulse signal to stun on and off each switching element of the power factor correction unit; and    (e) a switching driver for receiving the pulse signal to drive the switching circuit of the power factor correction unit based on the received pulse signal.    
     
     
       2. A power supply device comprising:
 (a) a rectifier unit for rectifying an output voltage of an AC power supply to convert the voltage into a DC voltage;    (b) a reactor connected to the rectifier unit;    (c) a power factor correction taut for inputting an output voltage of the rectifier unit via the reactor, the power factor correction unit including a switching circuit comprising a plurality of switching elements connected in series and turning on or off to change a current path in the power factor correction unit a capacitor circuit comprising a plurality of capacitors connected in series, and a reverse-current blocking rectifier element for preventing the charge in the capacitors from flowing reversely when the switching circuit turns on, the switching circuit and the capacitor circuit being arranged in parallel, at least one of connection nodes between the switching elements being connected to one connection node between the capacitors, ends of the switching circuit being connected to ends of the capacitor circuit via the reverse-current blocking rectifier element;    (d) a pulse signal controller for generating and outputting a pulse signal to turn on and off each switching element of the power factor correction unit, the pulse signal controller outputting a pulse signal to turn on at least one of the plurality of switching elements of the power factor correction unit for a predetermined time in a half period of the AC power supply; and    (e) a switching driver for receiving the pulse signal to drive the switching circuit of the power factor correction unit based on the received pulse signal.    
     
     
       3. The power supply device according to  claim 2 , further comprising a zero cross detecting unit for detecting a zero cross point of the power supply voltage to output a zero cross detection signal, wherein the pulse signal controller outputs a pulse signal for turning on the switching circuit of the power factor correction unit for a predetermined time based on the zero cross detection signal from the zero cross detecting unit. 
     
     
       4. The power supply device according to  claim 2 , wherein the pulse signal controller generates a pulse signal for turning on each switching element of the power factor correction unit for a predetermined time, and switches over an output pattern of the pulse signal for each half period of the AC power supply voltage. 
     
     
       5. The power supply device according to  claim 2 , wherein the pulse signal controller generates a pulse signal for turning on only one of switching elements of the power factor correction unit for a predetermined time, and switches over an output pattern of the pulse signal for each half period of the AC power supply voltage. 
     
     
       6. The power supply device according to  claim 2 , wherein the pulse signal controller generates a pulse, signal for turning on the plurality of switching elements of the power factor correction unit for different predetermined time, and switches over an output pattern of the pulse signal for each half period of the AC power supply voltage. 
     
     
       7. The power supply device according to  claim 2 , wherein the pulse signal controller generates a pulse signal for simultaneously turning on all switching elements of the power factor correction unit for a predetermined time, and outputs the pulse signal for each half period of the AC power supply voltage. 
     
     
       8. The power supply device according to  claim 2 , further comprising a zero cross detecting unit for detecting a zero cross point of the power supply voltage to output a zero cross detection signal, and a detection signal delay unit for receiving the zero cross signal from the zero cross detecting unit to output a zero cross delay signal from a predetermined time elapses, wherein the pulse signal controller receives the zero cross delay signal from the detection pulse delay unit, and then outputs a pulse signal for turning on at least one of the switching elements of the power factor correction unit for a predetermined time. 
     
     
       9. The power supply device according to  claim 2  further comprising a power supply voltage detecting unit for detecting a voltage of the AC power supply, wherein when a voltage detected by the power supply voltage detecting unit becomes equal to or more than a predetermined value, the pulse signal controller outputs a pulse signal for turning on at least one of the switching elements of the power factor correction wit for a predetermined time. 
     
     
       10. The power supply device according to  claim 2  further comprising a power supply voltage detecting unit for detecting a voltage of the AC power supply, and a DC voltage detecting unit for detecting a output voltage of the power supply device, wherein when the voltage detected by the power supply voltage detecting unit becomes equal to or more than a DC voltage detected by the DC voltage detecting unit, the poise signal controller outputs a pulse signal for turning off the switching elements of the power factor correction unit. 
     
     
       11. The power supply device according to  claim 2  further comprising a load status detecting unit for detecting magnitude of a load, wherein the pulse signal controller changes a pulse width of the pulse signal in accordance with the magnitude of the load detected by the load status detecting unit, and then outputs the signal. 
     
     
       12. The power supply device according to  claim 2  further comprising a load status detecting unit for detecting magnitude of a load, wherein the pulse signal controller selects one control method from a plurality of control methods for controlling the pulse signal to accordance with a magnitude of the load detected by the load status detecting unit, and then outputs the signal. 
     
     
       13. The power supply device according to  claim 11 , wherein the load comprises a motor and an inverter for providing a supply voltage to the motor, and the load status detecting unit detects a variation generated from a status transition of the inverter or the motor. 
     
     
       14. The power supply device according to  claim 11 , further comprising a supply voltage determining unit for determining a voltage of the AC supply, wherein the pulse signal controller switches over an output pattern of the pulse signal in accordance with the determining result by the supply voltage determining unit. 
     
     
       15. The power supply device according to  claim 1  further comprising a power supply frequency detecting unit for detecting a frequency of the AC power supply voltage wherein the pulse signal controller outputs a pulse signal having different pulse width in accordance with a frequency detected by the power supply frequency detecting unit. 
     
     
       16. The power supply device according to  claim 1 , further comprising a smoothing capacitor for smoothing an output voltage of the power factor correction unit. 
     
     
       17. An air conditioner comprising a compressor for compressing a refrigerant, and a power supply devices according to  claim 1  for providing supply voltage to the compressor. 
     
     
       18. The power supply device according to  claim 12 , wherein the load comprises a motor and an inverter for providing a supply voltage to the motor, and the load status detecting unit detects a variation generated from a status transition of the inverter or the motor. 
     
     
       19. The power supply device according to  claim 12 , further comprising a supply voltage determining unit for determining a voltage of the AC supply, wherein the pulse signal controller switches over an output pattern of the pulse signal in accordance with the determining result by the supply voltage determining unit. 
     
     
       20. The power supply device according to  claim 2  further comprising a power supply frequency detecting unit for detecting a frequency of the AC power supply voltage, wherein the pulse signal controller outputs a pulse signal having different pulse width in accordance with a frequency detected by the power supply frequency detecting unit. 
     
     
       21. The power supply device according to  claim 2 , further comprising a smoothing capacitor for smoothing an output voltage of the power factor correction unit. 
     
     
       22. An air conditioner comprising a compressor for compressing a refrigerant, and a power supply devices according to  claim 2  for providing supply voltage to the compressor. 
     
     
       23. A power supply device comprising:
 ( a )  a rectifier that rectifies an output voltage of an AC power supply to convert he voltage into a DC voltage;      ( b )  a reactor connected to the rectifier;      ( c   )    a power factor corrector that inputs an output voltage of the rectifier via the reactor, the power factor corrector including a switching circuit comprising plurality of switching elements connected in series and turning on or off to change a current path in the power factor corrector, a capacitor circuit comprising a plurality of capacitors connected in series, and a reverse-current blocking rectifier element for preventing a charge in the capacitors from flowing reversely when the switching circuit turns on, the switching circuit and the capacitor circuit being arranged in parallel, at least one connection node between the switching elements being connected to a connection node between the capacitors, ends of the switching circuit being connected to ends of the capacitor circuit via the reverse-current blocking rectifier element;      ( d )  a pulse signal controller that generates and outputs a pulse signal to turn on and off each switching element of the power factor corrector;      ( e )  a switching driver that receives the pulse signal to drive the switching circuit of the power factor corrector based on the received pulse signal; and      ( f )  a zero cross detector that detects a zero cross point of the power supply voltage to output a zero cross detection signal,        wherein the pulse signal controller outputs a pulse signal to turn on at least one of the plurality of switching elements of the power factor corrector for a predetermined time in a half period of the AC power supply based on the zero cross detection signal from the zero cross detector.     
     
     
       24. The power supply device according to  claim 23 , wherein the pulse signal controller generates a pulse signal for turning on each switching element of the power factor corrector for a predetermined time, and switches over an output pattern of the pulse signal for each half period of the AC power supply voltage. 
     
     
       25. The power supply device according to  claim 23 , wherein the pulse signal controller generates a pulse signal for turning on only one of switching elements of the power factor corrector for a predetermined time, and switches over an output pattern of the pulse signal for each half period of the AC power supply voltage. 
     
     
       26. The power supply device according to  claim 23 , wherein the pulse signal controller generates a pulse signal for turning on the plurality of switching elements of the power factor corrector for different predetermined times, and switches over an output pattern of the pulse signal for each half period of the AC power supply voltage. 
     
     
       27. The power supply device according to  claim 23 , wherein the pulse signal controller generates a pulse signal for simultaneously turning on all switching elements of the power factor corrector for a predetermined time, and outputs the pulse signal for each half period of the AC power supply voltage. 
     
     
       28. The power supply device according to  claim 23  further comprising a power supply, voltage detector that detects a voltage of the AC power supply, and a DC voltage detector that detects an output voltage of the power supply device, wherein when the voltage detected by the power supply voltage detector becomes equal to or more than a DC voltage detected by the DC voltage detector, the pulse signal controller outputs a pulse signal for turning off the switching elements of the power factor corrector. 
     
     
       29. The power supply device according to  claim 23  further comprising a load status detector that detects a magnitude of a load, wherein the pulse signal controller changes a pulse width of the pulse signal in accordance with the magnitude of the load detected by the load status detector, and then outputs the signal. 
     
     
       30. The power supply device according to  claim 23  further comprising a load status detector that detects a magnitude of a load, wherein the pulse signal controller selects one control method from a plurality of control methods for controlling the pulse signal in accordance with a magnitude of the load detected by the load status detector, and then outputs the signal. 
     
     
       31. The power supply device according  claim 29 , wherein the load comprises a motor and an inverter that provides a supply voltage to the motor, and the load status detector detects a variation generated from a status transition of one of the inverter and the motor. 
     
     
       32. The power supply device according to  claim 29 , further comprising a supply voltage determiner that determines a voltage of the AC supply, wherein the pulse signal controller switches over an output pattern of the pulse signal in accordance with the determining result by the supply voltage determiner. 
     
     
       33. The power supply device according to  claim 23  further comprising a power supply frequency detector that detects a frequency of the AC power supply voltage, wherein the pulse signal controller outputs a pulse signal having different pulse width in accordance with a frequency detected by the power supply frequency detector. 
     
     
       34. The power supply device, according to  claim 23 , further comprising a smoothing capacitor for smoothing an output voltage of the power factor corrector. 
     
     
       35. The power supply device according to  claim 30 , wherein the load comprises a motor and an inverter that provides a supply voltage to the motor, and the load status detector detects a variation generated from a status transition of one of the inverter and the motor. 
     
     
       36. The power supply device according to  claim 35 , further comprising a supply voltage determiner that determines a voltage of the AC supply, wherein the pulse signal controller switches over an output pattern of the pulse signal in accordance with the determining result by the supply voltage determiner. 
     
     
       37. A power supply device comprising:
 ( a )  a rectifier that rectifies an output voltage of an AC power supply to convert the voltage into a DC voltage;      ( b )  a reactor connected to the rectifier;      ( c )  a power factor corrector that inputs an output voltage of the rectifier via the reactor, the power factor corrector including a switching circuit comprising a plurality of switching elements connected in series and turning on or off to change a current path in the power factor corrector, a capacitor circuit comprising a plurality of capacitors connected in series, and a reverse-current blocking rectifier element for preventing a charge in the capacitors from flowing reversely when the switching circuit turns on, the switching circuit and the capacitor circuit being arranged in parallel, at least one connection node between the switching elements being connected to a connection node between the capacitors, ends of the switching circuit being connected to ends of the capacitor circuit via the reverse-current blocking rectifier element;      ( d )  a pulse signal controller for generating and outputting a pulse signal to turn on and off each switching element of the power factor corrector;      ( e )  a switching driver that receives the pulse signal to drive the switching circuit of the power factor corrector based on the received pulse signal;      ( f )  a zero cross detector that detects a zero cross point of the power supply voltage to output a zero cross detection signal; and      ( g )  a detection signal delayer that receives the zero cross signal from the zero cross detector to output a zero cross delay signal after a predetermined, time elapses,        wherein the pulse signal controller receives the zero cross delay signal from the detection signal delayer, and then outputs a pulse signal for turning on at least one of the plurality of switching elements of the power factor corrector for a predetermined time in a half period of the AC power supply.     
     
     
       38. The power supply device according to  claim 37 , wherein the pulse signal controller generates a pulse signal for luring on each switching element of the power factor corrector for a predetermined time, and switches over an output pattern of the pulse signal for each half period of the AC power supply voltage. 
     
     
       39. The power supply device according to  claim 37 , wherein the pulse signal controller generates a pulse signal for turning on only one of switching elements of the power factor corrector for a predetermined time, and switches over an output pattern of the pulse signal for each half period of the AC power supply voltage. 
     
     
       40. The power supply device according to  claim 37 , wherein the pulse signal controller generates a pulse signal for turning on the plurality of switching elements of the power factor corrector for different predetermined times, and switches over an output pattern of the pulse signal for each half period of the AC power supply voltage. 
     
     
       41. The power supply device according to  claim 37 , wherein the pulse signal controller generates a pulse signal for simultaneously turning on all switching elements of the power factor corrector for a predetermined time, and outputs the pulse signal for each half period of the AC power supply voltage. 
     
     
       42. The power supply device, according to  claim 37  further comprising a power supply frequency detector that detects a frequency of the AC power supply voltage wherein the pulse signal controller outputs a pulse signal having different pulse width in accordance with a frequency detected by the power supply frequency detector. 
     
     
       43. A power supply device comprising:
 ( a )  a rectifier that rectifies an output voltage of an AC power supply to convert the voltage into a DC voltage;      ( b )  a reactor connected to the rectifier;      ( c )  a power factor corrector that inputs an output voltage of the rectifier via the reactor, the power factor corrector including a switching circuit comprising a plurality of switching elements connected in series and turning on or off to change a current path in the power factor corrector, a capacitor circuit comprising a plurality of capacitors connected in series, and a reverse-current blocking rectifier element for preventing a charge in the capacitors from flowing reversely when the switching circuit turns on, the switching circuit and the capacitor circuit being arranged in parallel, at least one connection node between the switching elements being connected to a connection node between the capacitors, ends of the switching circuit being connected to ends of the capacitor circuit via the reverse-current blocking rectifier element;      ( d )  a pulse signal controller for generating and outputting a pulse signal to turn on and off each switching element of the power factor corrector;      ( e )  a switching driver that receives the pulse signal to drive the switching circuit of the power factor corrector based on the received pulse signal;      ( f )  a power supply voltage detector that detects a voltage of the AC power supply,        wherein when a voltage detected by the power supply voltage detector becomes equal to or more than a predetermined value, the pulse signal controller outputs a pulse signal for turning on at least one of the switching elements of he power factor corrector for a predetermined time.     
     
     
       44. An air conditioner comprising a compressor for compressing a refrigerant, and a power supply device according to  claim 23  for providing supply voltage to the compressor. 
     
     
       45. An air conditioner comprising a compressor for compressing a refrigerant, and a power supply device according to  claim 37  for providing supply voltage to the compressor.

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