Fixed frequency single ended forward converter switching at zero voltage

US 5,126,931 A
Filed: 09/07/1990
Issued: 06/30/1992
Est. Priority Date: 09/07/1990
Status: Expired due to Fees

First Claim

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1. A method of operating a fixed frequency, square wave, zero-switching DC-to-DC converter comprising the steps of:

switching a DC voltage source to generate said square wave, said step of switching being performed by a switching means having a capacitance, a transformer being coupled to said switching means, said transformer having a primary and secondary, said switching means and primary of said transformer forming a primary side of said converter, said switching means also being provided for resetting said transformer;

preventing resonant energy in said primary side of said converter from being transferred to said secondary to facilitate efficient discharge of said capacitance of said switching means to said zero voltage prior to resetting said transformer; and

resetting said transformer.

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Abstract

A single ended forward DC-to-DC converter is operated with a main switch in series circuit with a primary winding of the isolation transformer and an auxiliary switch for charging a reset capacitor also in circuit with said primary winding. The main switch and auxiliary switch are operated through control logic so that neither switch is ON at the same time. A predetermined dead time is provided between turning OFF the auxiliary switch and turning ON the main switch to allow the output capacitance of the main switch to discharge into the secondary of the transformer. Current discharge into the secondary of the transformer during this time period is limited either by a saturable reactor in series circuit with the secondary or a selectively controlled rectifier.

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24 Claims

1. A method of operating a fixed frequency, square wave, zero-switching DC-to-DC converter comprising the steps of:
- switching a DC voltage source to generate said square wave, said step of switching being performed by a switching means having a capacitance, a transformer being coupled to said switching means, said transformer having a primary and secondary, said switching means and primary of said transformer forming a primary side of said converter, said switching means also being provided for resetting said transformer;
  
  preventing resonant energy in said primary side of said converter from being transferred to said secondary to facilitate efficient discharge of said capacitance of said switching means to said zero voltage prior to resetting said transformer; and
  
  resetting said transformer.
- View Dependent Claims (2, 3, 4)
- - 2. The method of claim 1 wherein said step of preventing resonant energy in said primary side of said converter from being transferred to said secondary comprises the step of inhibiting current in said secondary by means of a saturable reactor in series with said secondary.
  - 3. The method of claim 1 wherein said step of preventing resonant energy in said primary side of said converter from being transferred to said secondary comprises the step of inhibiting current in said secondary by means of a synchronized rectifier in series with said secondary.
  - 4. The method of claim 1 wherein said step of preventing resonant energy in said primary side of said converter from being transferred to said secondary comprises the step of inhibiting current in said secondary by means of storing enough energy in an inductance in said primary of sufficient magnitude at said fixed frequency to discharge said capacitance of said switching means to zero voltage prior to resetting of said transformer.

5. An improvement in a square wave, fixed frequency, single ended forward converter in which energy is transferred from a primary side including a primary winding to a secondary side including a secondary winding of said converter during an ON period of a primary switch, and in which circuitry is provided for recycling the magnetizing energy stored in said transformer to reset it during the OFF period of said main switch such that discharge of output capacitance of said main switch to zero is achieved prior to turn ON of said main switch on a subsequent cycle, said converter comprising a reset capacitor, an auxiliary switch including an antiparallel diode coupled in series with said reset capacitor, switch control means operating said auxiliary switch including said antiparallel diode in accordance with a control logic such that:
- (a) said auxiliary switch including said antiparallel diode is opened prior to the ON period of said main switch,(b) said auxiliary switch including said antiparallel diode closes at the same time said main switch opens, and(c) said auxiliary switch including said antiparallel diode is open during the ON period of said main switch, said improvement comprising;
  
  an inductance in said primary winding of such reactance sufficient for storing enough energy so that said output capacitance of said main switch is discharged to zero voltage through said primary winding within the time period in which said auxiliary switch is open without any substantial portion of energy in said primary side of said converter being transferred to said secondary side of said converter, the opening and closing of said main switch and auxiliary switch determining said fixed frequency of said converter.
- View Dependent Claims (6, 7)
- - 6. The converter of claim 5 further comprising means for inhibiting current in said secondary winding of said transformer until the output capacitance of said main switch is dissipated, said inhibition of current in said secondary winding allowing said inductance of said primary winding to be reduced.
  - 7. The converter of claim 6 wherein said means for inhibiting is a saturable reactor in series circuit with said secondary winding of said transformer.

8. An improvement in a single ended, zero-voltage switching, forward, square wave, fixed frequency DC-to-DC converter having a DC voltage source, a transformer having a primary and secondary winding for transforming said square wave, main switching means for selectively coupling said voltage source across said primary winding of said transformer to generate said square wave at said fixed frequency, auxiliary switching means for selectively allowing the square wave, fixed frequency voltage across said primary winding to reach zero, said main switching means and auxiliary switching means each having an OFF period and ON period, said auxiliary switching means being nonconductive prior to said ON period of said main switching means by a predetermined time period sufficient to allow the voltage across said main switch means to reach zero voltage, said auxiliary switching means remaining nonconductive until said main switching means cycles through its corresponding ON period and OFF period, a reset capacitor coupled between said auxiliary switching means and AC ground of said converter, and a power control means for selectively operating said main switching means and auxiliary switching means at said fixed frequency to selectively transfer energy through said converter by modification of the duty cycle of operation of at least said main and auxiliary switching means to achieve turn ON of said main switching means at zero voltage, said improvement comprising:
- zero voltage control means coupled in series with said secondary winding of said transformer to inhibit current in said secondary winding until the voltage across said main switching means decreases to zero; and
  
  a first rectifying means coupled in series with said zero voltage means for conducting current from said zero voltage control means.
- View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
- - 9. The converter of claim 8 wherein said first rectifying means and said zero voltage control means comprise a unidirectionally controlled switch means, said unidirectional controlled switch means selectively operated by said control means so that said unidirectionally controlled switching means is nonconductive after the voltage across said main switching means reaches zero, and so that said unidirectionally controlled switching means is conductive during said corresponding ON time of said main switching means.
  - 10. The converter of claim 8 wherein said transformer comprises a plurality of secondary windings.
  - 11. The converter of claim 8 wherein said zero voltage control means is a saturable reactor.
  - 12. The converter of claim 8 further comprising a load and load inductor, said load inductor being coupled in series circuit between said first rectifying means and said load.
  - 13. The converter of claim 12 further comprising a second rectifying means coupled between ground of said secondary winding of said transformer and the input to said load inductor at its coupling to said first rectifying means.
  - 14. The converter of claim 8 wherein said control means comprises sensory means for sensing voltage across said load, said control means maintaining a constant voltage across said load by varying said ON period of said main switching means.
  - 15. The converter of claim 8 wherein said control means comprises a sensory means for sensing voltage across said load, said control means for maintaining a constant voltage across said load by varying said ON period of said zero voltage control means.
  - 16. The converter of claim 8 further comprising sensory means for sensing voltage across said load, said control means for maintaining a constant voltage across said load by varying said ON period of both said main switching means and said zero voltage control means.
  - 17. The converter of claim 8 wherein said zero voltage control means is a saturable reactor.
  - 18. The converter of claim 8 wherein said zero voltage control means is a synchronized switch.

19. A fixed frequency, square wave, zero-switching DC-to-DC converter comprising:
- a DC voltage source;
  
  switching means for switching said DC voltage source to generate said square wave, said switching means having a capacitance;
  
  a transformer coupled to said switching means, said transformer having a primary and secondary, said switching means and primary of said transformer forming a primary side of said converter, said switching means for resetting said transformer; and
  
  means for preventing resonant energy in said primary side of said converter from being transferred to said secondary to facilitate efficient discharge of said capacitance of said switching means to said zero voltage prior to resetting said transformer.
- View Dependent Claims (20, 21, 22)
- - 20. The converter of claim 19 wherein said means for preventing resonant energy in said primary side of said converter from being transferred to said secondary comprises a saturable reactor in series with said secondary.
  - 21. The converter of claim 19 wherein said means for preventing resonant energy in said primary side of said converter from being transferred to said secondary comprises a synchronized rectifier in series with said secondary.
  - 22. The converter of claim 19 wherein said means for preventing resonant energy in said primary side of said converter from being transferred to said secondary comprises an inductance in said primary of sufficient magnitude at said fixed frequency to store enough energy to discharge said capacitance of said switching means to zero voltage prior to resetting of said transformer.

23. A method of operating a single ended forward DC-to-DC converter comprising the steps of:
- storing energy in a primary winding of a transformer by flowing DC current through said primary winding in series circuit with a main switch;
  
  turning OFF said main switch;
  
  providing said primary winding with an inductance of sufficient reactance to allow said output capacitance of said main switch to discharge through said primary winding without any substantial portion of resonant energy in the primary side of said converter being transferred to the secondary side of said converter;
  
  allowing said output capacitance of said main switch to discharge through said primary winding into a secondary winding of said transformer until discharged; and
  
  turning ON a secondary switch in series circuit with said primary of said transformer to charge a reset capacitor, said secondary switch being turned on only after there is zero voltage across said main switch.
- View Dependent Claims (24)
- - 24. The method of claim 23 further comprising the step of inhibiting current flow through said secondary winding of said transformer until said output capacitance of said main switch is completely dissipated therethrough, said inhibition of current flow through said secondary allowing said inductance of said primary winding to be reduced.

Specification

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Litigation Campaign Assessment

Current Assignee
C&D Technologies Incorporated (Angel Holdings LLC)
Original Assignee
ITT Corporation (ITT, Inc.)
Inventors
Jitaru, Ionel
Primary Examiner(s)
STERRETT, JEFFREY L

Application Number

US07/579,470
Time in Patent Office

662 Days
Field of Search

363/20, 363/21, 363/91, 363/97, 363/127, 363/131
US Class Current

363/21.04
CPC Class Codes

H02M 3/01   Resonant DC/DC converters

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

H02M 3/33569   having several active switc...

Fixed frequency single ended forward converter switching at zero voltage

First Claim

3 Assignments

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Abstract

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24 Claims

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Fixed frequency single ended forward converter switching at zero voltage

First Claim

3 Assignments

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Accused Products

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Abstract

Citations

24 Claims

Specification

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Solutions

Use Cases

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