Constant frequency resonant power converter with zero voltage switching

US 4,855,888 A
Filed: 10/19/1988
Issued: 08/08/1989
Est. Priority Date: 10/19/1988
Status: Expired due to Term

First Claim

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1. A resonant DC-DC switching power converter comprising rectifier means, switching means having a current path coupled to an input DC source and to said rectifier means, series inductance means, series capacitance means, wherein said series inductance means and said series capacitance means are coupled in series with each other and to said rectifier means in order to form a series circuit that is resonant at a predetermined frequency, and control means for operating said switching means when a voltage that is approximately zero exists across said current path so as to provide a series bidirectional current through said inductance means of a frequency that is greater than said predetermined resonant frequency.

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Abstract

A full bridge DC-DC series-resonant power converter is operated at a constant switching frequency using a phase delay between the transistor legs of the bridge to control the output voltage. All power semiconductor devices switch on and switch off at approximately zero volts while operating at a constant switching frequency which is above the resonant frequency of the resonant tank circuit. Zero-voltage switching increases the efficiency of the power converter and allows high frequency operation which minimizes component volumes. Constant frequency operation simplifies design of the magnetic components, confines the EMI spectrum to known frequencies and simplifies EMI design, and reduces the voltage and current excursions and thus reduces the peak component stress.

218 Citations

12 Claims

1. A resonant DC-DC switching power converter comprising rectifier means, switching means having a current path coupled to an input DC source and to said rectifier means, series inductance means, series capacitance means, wherein said series inductance means and said series capacitance means are coupled in series with each other and to said rectifier means in order to form a series circuit that is resonant at a predetermined frequency, and control means for operating said switching means when a voltage that is approximately zero exists across said current path so as to provide a series bidirectional current through said inductance means of a frequency that is greater than said predetermined resonant frequency.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. A power converter as claimed in claim 1 wherein said switching means comprises first and second timing means wherein said rectifier means has first and second terminals, and said first timing means is coupled to said first terminal and said second timing means is coupled to said second terminal.
  - 3. A power converter as claimed in claim 2 comprising control means, load means having first and second connections capacitor and first and second source terminals wherein said first timing means comprises first and second controllable current-path means for coupling said first and second terminals to a common point which is in the series current path of said inductance means, and said capacitance means is also coupled to said first connection means, and said second timing means comprises third and fourth controllable current-path means for coupling said first and second terminals to a common point B which is in the series current-path of said inductance means and said capacitance means, and is also coupled to said second connection means, and said control means provides digital control signals to said first, second, third and fourth controllable current-path means which results in a tri-level voltage across points A and B that comprise fixed pulse signals in which the pulse level remains at each of three levels for predetermined durations that provide a series bidirectional current through said inductance means of a frequency that is greater than said predetermined resonant frequency.
  - 4. A power converter as claimed in claim 3 wherein said first, second, third and fourth controllable current-path means are field-effect transistors comprising gate means, and said control means is coupled to said gate means of all of said controllable current-path means.
  - 5. A power converter as claimed in claim 4 wherein said control means supplies a different digital control signal to each of said controllable current-path means.
  - 6. A power converter as claimed in claim 5 wherein said field-effect transistors have unibidirectional current means coupled across each of said field-effect transistors that operate to provide a current path when the associated field effect transistor is turned off by said control means.

7. A resonant DC-DC switching power converter comprising first timing means coupled to an input DC source, series inductance means, series capacitance means, rectifier means and second timing means coupled to said rectifier means, wherein said series inductance means and said series capacitance means are coupled in series with each other and to said rectifier means to form a series circuit that is resonant at a predetermined frequency, the series combination of said inductance means, said capacitance means and said rectifier means being coupled to a point A to which said first timing means is also coupled, and to a point B to which said second timing means is also coupled, and control means for operating said first and second timing means to provide tri-level voltage output pulse train across points A and B that comprises fixed pulse signals in which the pulse level remains at each of three levels for predetermined durations that provide a series bidirectional current through said inductance means of a frequency that is greater than said predetermined resonant frequency.
- View Dependent Claims (8, 9, 10, 11, 12)
- - 8. A power converter as claimed in claim 7 wherein said rectifier means has first and second terminals, and said first timing means is coupled to said first terminal and said second timing means is coupled to said second terminal.
  - 9. A power converter as claimed in claim 8 comprising load capacitor means having first and second connections and first and second source terminals, wherein said first timing means comprises first and second controllable current-path means for coupling said first and second terminals to said point A which is also coupled to said first connection means, and said second timing means comprises third and fourth controllable current-path means for coupling said first and second terminals to said point B which is also coupled to said second connection means, and said control means provides digital control signals to said first, second, third and fourth controllable current-path means.
  - 10. A power converter as claimed in claim 9 wherein said first, second, third and fourth controllable current-path means are field-effect transistors comprising gate means, and said control means is coupled to said gate means of all of said controllable current-path means.
  - 11. A power converter as claimed in claim 10 wherein said field-effect transistors have unibidirectional current means coupled across each of said field-effect transistors that operate to provide a current path when the associated field effect transistor is turned off by said control means.
  - 12. A power converter as claimed in claim 11 wherein said control means supplies a different digital control signal to each of said controllable current-path means.

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Current Assignee
Unisys Corporation
Original Assignee
Unisys Corporation
Inventors
Mohan, Ned, Hayes, John G., Henze, Christopher P.
Primary Examiner(s)
Salce, Patrick R.
Assistant Examiner(s)
Voeltz, Emanuel Todd

Application Number

US07/259,673
Time in Patent Office

293 Days
Field of Search

363/15-26, 363/41, 363/95, 363/97, 363/98, 363/131-134
US Class Current

363/17
CPC Class Codes

H02M 1/44   Circuits or arrangements fo...

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

H02M 7/53878   by time shifting switching ...

Y02B 70/10   Technologies improving the ...

Constant frequency resonant power converter with zero voltage switching

First Claim

3 Assignments

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Abstract

218 Citations

12 Claims

Specification

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Constant frequency resonant power converter with zero voltage switching

First Claim

3 Assignments

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0 Petitions

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Accused Products

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Abstract

218 Citations

12 Claims

Specification

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Solutions

Use Cases

Quick Links