Regulating device for a resonant converter

US 6,829,151 B2
Filed: 09/04/2002
Issued: 12/07/2004
Est. Priority Date: 09/04/2001
Status: Expired due to Fees

First Claim

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1. A resonant converter comprisingan inverter for generating an AC voltage, and a resonant arrangement fed with the AC voltage and comprising at least one capacitor and at least one transformer having a primary winding, a first secondary winding for forming a first-type secondary unit, and a second secondary winding for forming a second-type secondary unit, said first secondary winding and said second secondary winding being associated with said primary winding, said first-type secondary unit and said second-type secondary unit being distinguished by opposite orientations, and at least two output voltages being supplied of which a first output voltage is supplied by said first-type secondary unit, and a second output voltage being supplied by said first-type secondary unit and said second-type secondary unit, and a regulating device which is arranged so that a respective regulating difference is formed for the first and second output voltages, the regulating difference of the first output voltage being used for calculating a predefined value for a duty cycle of the pulse width modulated voltage, and the regulating difference of the second output voltage being used for calculating a predefined value for a switching frequency of a pulse width modulated voltage fed to the resonant arrangement.

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Abstract

A resonant converter includes an inverter for generating an AC voltage which is fed to a resonant arrangement with a capacitor and a transformer. The circuit provides two types of secondary units, each having a secondary winding of the transformer and at least one rectifier element. Secondary units of the first and second type are then distinguished by opposite orientation. At least two output voltages are delivered on the output, a first output voltage of which being supplied as a direct output of a first-type secondary unit and a second output voltage as a “stack output” of a first-type secondary unit and a second-type secondary unit. The two output voltages can be regulated separately and independently of each other with a regulating device by suitably choosing frequency and duty cycle of a pulse width modulated voltage generated by the inverter driven by the regulating device.

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15 Claims

1. A resonant converter comprisingan inverter for generating an AC voltage, and a resonant arrangement fed with the AC voltage and comprising at least one capacitor and at least one transformer having a primary winding, a first secondary winding for forming a first-type secondary unit, and a second secondary winding for forming a second-type secondary unit, said first secondary winding and said second secondary winding being associated with said primary winding, said first-type secondary unit and said second-type secondary unit being distinguished by opposite orientations, and at least two output voltages being supplied of which a first output voltage is supplied by said first-type secondary unit, and a second output voltage being supplied by said first-type secondary unit and said second-type secondary unit, and a regulating device which is arranged so that a respective regulating difference is formed for the first and second output voltages, the regulating difference of the first output voltage being used for calculating a predefined value for a duty cycle of the pulse width modulated voltage, and the regulating difference of the second output voltage being used for calculating a predefined value for a switching frequency of a pulse width modulated voltage fed to the resonant arrangement.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 10)
- - 2. A resonant converter as claimed in claim 1, in whichthe regulating device is configured for regulating the two output voltages to a respective set value, the regulating device being arranged so that it predefines driving of the inverter.
  - 3. A resonant converter as claimed in claim 2, in whichthe regulating device predefines the driving of the inverter so that said pulse width modulated voltage is produced for feeding the resonant arrangement.
  - 4. A resonant converter as claimed in claim 3, in whichthe regulating device is arranged so that it predefines said switching frequency and said duty cycle of the pulse width modulated voltage.
  - 5. A resonant converter as claimed in claim 2 in which the regulating device is arranged so that it processes measured values of the first and second output voltages.
  - 6. A resonant converter as claimed in claim 2, in whichthe regulating device is arranged so that it processes measured values of the first output voltage produced by the first-type secondary unit, and measured values of the second output voltage produced by the second-type secondary unit.
  - 7. A resonant converter as claimed in claim 1, in whichthe first output voltage is supplied by the first-type secondary unit;
    - and the second output voltage is supplied by the first-type secondary unit combined in series with the second-type secondary unit.
  - 8. A resonant converter as claimed in claim 1, in whichthe first output voltage is supplied by the first-type secondary unit;
    - and the second output voltage is supplied by a second one of the first-type secondary unit combined in series with the second-type secondary unit.
  - 10. A switched-mode power supply comprisinga power supply input circuit for connection to an electricity power grid and for producing an intermediate circuit DC voltage, and a resonant converter as claimed in claim 1 which is fed with the intermediate circuit DC voltage.

9. A regulation method for a resonant converter, in whichthe converter comprises an inverter for generating an AC voltage and a resonant arrangement fed with the AC voltage and comprising at least one capacitor and at least one transformer having a primary winding, a first secondary winding for forming a first-type secondary unit, and a second secondary winding for forming a second-type secondary unit, said first secondary winding and said second secondary winding being associated with said primary winding, wherein said first-type secondary unit and said second-type secondary unit are distinguished by opposite orientations, and at least two output voltages being supplied of which a first output voltage is supplied by said first-type secondary unit, and a second output voltage being supplied by said first-type secondary unit and said second-type secondary unit, in which driving of the inverter is predefined to regulate the first and second output voltages to respective set values, and a regulating device which is arranged so that a respective regulating difference is formed for the first and second output voltages, the regulating difference of the first output voltage being used for calculating a predefined value for a duty cycle of the pulse width modulated voltage, and the regulating difference of the second output voltage being used for calculating a predefined value for a switching frequency of a pulse width modulated voltage fed to the resonant arrangement.

11. A converter comprising:
- an inverter configured to generate an AC voltage in response to a signal;
  
  a transformer configured to receive said AC voltage, said transformer having a primary winding, a first secondary winding for forming a first-type secondary unit which is configured to output a first output voltage, and a second secondary winding for forming a second-type secondary unit, said first secondary winding and said second secondary winding being associated with said primary winding, wherein a second output voltage is provided by said first-type secondary unit and said second-type secondary unit; and
  
  a regulating device configured to regulate said inverter using a first difference value of said first output voltage and a first predetermined value, and a second difference value of said second output voltage and a second predetermined value;
  
  said first difference value being used for calculating a duty cycle of said signal, and said second difference value being used for calculating a frequency of said signal;
  
  said first-type secondary unit and said second-type secondary unit being distinguished by opposite orientations.

12. A converter comprising:
- an inverter configured to generate an AC voltage;
  
  a transformer configured to receive said AC voltage, said transformer having a primary winding, a first secondary winding for forming a first-type secondary unit which is configured to output a first output voltage, and a second secondary winding for forming a second-type secondary unit, said first secondary winding and said second secondary winding being associated with said primary winding; and
  
  a regulating device configured to regulate said inverter using a signal derived from a first difference value of said first output voltage and a first predetermined value, and a second difference value of said second output voltage and a second predetermined value;
  
  said first difference value being used for calculating a duty cycle of said signal, and said second difference value being used for calculating a frequency of said signal;
  
  wherein a second output voltage is provided by said first-type secondary unit and said second-type secondary unit.
- View Dependent Claims (13)
- - 13. The converter of claim 12, wherein said first-type secondary unit and said second-type secondary unit are distinguished by opposite orientation.

14. A method of regulating a converter comprising:
- generating an AC voltage;
  
  providing the AC voltage to a transformer having a primary winding, a first secondary winding for forming a first-type secondary unit, and a second secondary winding for forming a second-type secondary unit, wherein said first secondary winding and said second secondary winding are associated with said primary winding;
  
  forming a first output voltage by said first-type secondary unit;
  
  forming a second output voltage by said first-type secondary unit and said second-type secondary unit; and
  
  regulating an inverter using a signal derived from a first difference value of said first output voltage and a first predetermined value, and a second difference value of said second output voltage and a second predetermined value;
  
  said first difference value being used for calculating a duty cycle of said signal, and said second difference value being used for calculating a frequency of said signal.
- View Dependent Claims (15)
- - 15. The method of claim 14, wherein said first-type secondary unit and said second-type secondary unit are distinguished by opposite orientation.

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Litigation Campaign Assessment

Current Assignee
Koninklijke Philips Electronics N.V. (Koninklijke Philips N.V.)
Original Assignee
Koninklijke Philips Electronics N.V. (Koninklijke Philips N.V.)
Inventors
Duerbaum, Thomas, Raets, Hubert, Elferich, Reinhold
Primary Examiner(s)
Berhane, Adolf

Application Number

US10/234,800
Publication Number

US 20030067791A1
Time in Patent Office

825 Days
Field of Search

363/16, 363/17, 363/40, 363/41, 363/95, 363/97, 363/131
US Class Current

363/17
CPC Class Codes

H02M 3/33561   having more than one ouput ...

H02M 3/3376   with automatic control of o...

Y02B 70/10   Technologies improving the ...

Regulating device for a resonant converter

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Regulating device for a resonant converter

First Claim

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Abstract

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Specification

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