High-frequency heating device

US 8,217,323 B2
Filed: 04/04/2005
Issued: 07/10/2012
Est. Priority Date: 04/07/2004
Status: Active Grant

First Claim

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1. A high-frequency heating apparatus for driving a magnetron, comprising:

a DC power supply including an AC power supply, a rectifier circuit for rectifying a voltage of the AC power supply, and a smoothing capacitor for smoothing an output voltage of the rectifier circuit;

a series circuit including two semiconductor switching devices, the series circuit being connected in parallel to the DC power supply;

a resonance circuit having a primary winding of a leakage transformer and a capacitor, which are connected to each other, one end of the resonance circuit being connected to a middle point of the series circuit while the other end of the resonance circuit is connected to one end of the DC power supply;

a drive unit for driving each of the semiconductor switching devices alternatively or drives the semiconductor switching devices so as to provide a period in which the semiconductor switching devices are turned off concurrently;

a rectifier unit connected to a secondary winding of the leakage transformer;

a magnetron connected to the rectifier unit;

a dead time generation circuit that generates a dead time control signal for turning off the semiconductor switching devices concurrently;

an error signal generation circuit generating an error signal based on a difference between an input current of the AC power supply and the reference current; and

a frequency-modulated signal generation circuit that outputs to the dead time generation circuit a frequency-modulated signal obtained by controlling an amplitude of a rectified voltage signal output from the DC power supply based on the error signal,wherein the drive unit limits the lowest frequency of a frequency with which the semiconductor switching devices are driven, so that the lowest frequency is set to be high at the beginning of operation of the high frequency heating apparatus, and the lowest frequency is set to be lower gradually thereafter.

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Abstract

An object of the present invention is to provide an inverter circuit in which soft start can be implemented by a simple circuit added thereto. In high-frequency heating apparatus for driving a magnetron, a DC power supply is chopped by two semiconductor switching devices, and this is output as an AC current through a resonance circuit. The high-frequency heating apparatus includes a dead time generation circuit for turning off the semiconductor switching devices concurrently. In the high-frequency heating apparatus, a drive unit for driving the aforementioned semiconductor switching devices has a function of limiting the lowest frequency of a frequency with which the semiconductor switching devices are driven. The aforementioned lowest frequency is set to be high at the beginning of operation of the high-frequency heating apparatus, and the aforementioned lowest frequency is set to be lower gradually thereafter.

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15 Claims

1. A high-frequency heating apparatus for driving a magnetron, comprising:
- a DC power supply including an AC power supply, a rectifier circuit for rectifying a voltage of the AC power supply, and a smoothing capacitor for smoothing an output voltage of the rectifier circuit;
  
  a series circuit including two semiconductor switching devices, the series circuit being connected in parallel to the DC power supply;
  
  a resonance circuit having a primary winding of a leakage transformer and a capacitor, which are connected to each other, one end of the resonance circuit being connected to a middle point of the series circuit while the other end of the resonance circuit is connected to one end of the DC power supply;
  
  a drive unit for driving each of the semiconductor switching devices alternatively or drives the semiconductor switching devices so as to provide a period in which the semiconductor switching devices are turned off concurrently;
  
  a rectifier unit connected to a secondary winding of the leakage transformer;
  
  a magnetron connected to the rectifier unit;
  
  a dead time generation circuit that generates a dead time control signal for turning off the semiconductor switching devices concurrently;
  
  an error signal generation circuit generating an error signal based on a difference between an input current of the AC power supply and the reference current; and
  
  a frequency-modulated signal generation circuit that outputs to the dead time generation circuit a frequency-modulated signal obtained by controlling an amplitude of a rectified voltage signal output from the DC power supply based on the error signal,wherein the drive unit limits the lowest frequency of a frequency with which the semiconductor switching devices are driven, so that the lowest frequency is set to be high at the beginning of operation of the high frequency heating apparatus, and the lowest frequency is set to be lower gradually thereafter.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
- - 2. The high-frequency heating apparatus according to claim 1, further comprising:
    - another series circuit including two semiconductor devices, wherein each of the series circuit and the another series circuit being connected in parallel to the DC power supply,wherein the other end of the resonance circuit is connected to the one end of the DC power supply through a middle point of the another series circuit; and
      
      wherein the drive unit drives the semiconductor switching devices of the another series circuit alternatively or drives the semiconductor switching devices of the another series circuit so as to provide a period in which the semiconductor switching devices of the another series circuit are turned off concurrently.
  - 3. The high-frequency heating apparatus according to claim 1, wherein the dead time generation circuit generates a fixed or marginally increased dead time regardless of a switching frequency.
  - 4. The high-frequency heating apparatus according to claim 1, wherein the dead time generation circuit generates a dead time increased in accordance with increase of a switching frequency.
  - 5. The high-frequency heating apparatus according to claim 4, wherein the dead time generation circuit fixes or marginally increases the dead time at a switching frequency not higher than a predetermined frequency.
  - 6. The high-frequency heating apparatus according to claim 4, wherein the dead time generation circuit suddenly increases the dead time at a switching frequency not lower than a predetermined frequency.
  - 7. The high-frequency heating apparatus according to claim 1, wherein the dead time generation circuit generates a dead time based on positive and negative offset voltages each varying with a first inclination in proportion to increase of a switching frequency and varying with a second inclination when the switching frequency reaches a predetermined frequency or higher.
  - 8. The high-frequency heating apparatus according to claim 1, wherein the dead time generation circuit includes a VCC power supply, a duty control power supply, a first current varying in proportion to a switching frequency, a second current flowing at a predetermined frequency at beginning and varying in proportion to the switching frequency, a third current obtaining by and multiplying a combining current of the two currents by a predetermined coefficient, and a upper and lower potential generation unit for generating a set of upper and lower potentials obtained by adding positive and negative offset voltages proportional to the third current, to the duty control power supply respectively, and a dead time is generated based on the set of upper and lower potentials.
  - 9. The high-frequency heating apparatus according to claim 2, wherein the lowest frequency limiting circuit has a capacitor, the capacitor is charged during suspension of the high-frequency heating apparatus, and as soon as the high-frequency heating apparatus begins to operate, a voltage of the capacitor is supplied to the dead time generation circuit, and charges accumulated in the capacitor are discharged.
  - 10. The high-frequency heating apparatus according to claim 1, further comprising:
    - another series circuit including two capacitors, the series circuit and the another series circuit being connected in parallel to the DC power supply,wherein the other end of the resonance circuit is connected to the one end of the DC power supply through a middle point of the another series circuit.
  - 11. The high-frequency heating apparatus according to claim 1, wherein:
    - the frequency-modulated signal generation circuit corrects the rectified voltage obtained by rectifying the AC power supply, based on the error signal from the error signal generation circuit, the high-frequency heating apparatus further comprising;
      
      a lowest frequency limiting circuit inserted between the frequency-modulated signal generation circuit and the dead time generation circuit, wherein the lowest frequency limiting circuit supplies a limited frequency to the dead time generation circuit based on the output signal of the frequency-modulated signal generation circuit so that a set frequency of the lowest frequency limiting circuit is set to be higher than the output of the frequency-modulated signal generation circuit at the beginning of operation of the aforementioned high-frequency heating apparatus, and in accordance with time having passed since the beginning of operation, the limited frequency is lowered gradually, while with lowering of the limited frequency, a signal higher in switching frequency of the limited frequency and the output signal of the frequency-modulated signal generation circuit is selected as a signal to be supplied to the dead time generation circuit in accordance with time having passed, so that the selected signal is changed over gradually to the output signal of the frequency-modulated signal generation circuit.
  - 12. The high-frequency heating apparatus according to claim 5, wherein a fixed or marginally increased value of the dead time at a switching frequency not higher than a predetermined frequency or a suddenly increased value of the dead time at a switching frequency not lower than a predetermined frequency is variable.
  - 13. The high-frequency heating apparatus according to claim 5, wherein a value of the predetermined switching frequency is variable.
  - 14. The high-frequency heating apparatus according to claim 1, wherein the dead time generation circuit increases a dead time stepwise with increase of a switching frequency.
  - 15. The high-frequency heating apparatus according to claim 8, wherein input power or input current control is performed by changing at least one of a voltage of the duty control power supply and the switching frequency.

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Current Assignee
Panasonic Corporation (Panasonic Holdings Corporation)
Original Assignee
Panasonic Corporation (Panasonic Holdings Corporation)
Inventors
Suenaga, Haruo, Moriya, Hideaki, Sakai, Shinichi, Morikawa, Hisashi, Matsukura, Toyotsugu, Shirokawa, Nobuo
Primary Examiner(s)
Hoang, Tu B
Assistant Examiner(s)
Tran, Thien S

Application Number

US10/599,431
Publication Number

US 20070195561A1
Time in Patent Office

2,654 Days
Field of Search

219/715, 219/678, 219/721
US Class Current

219/715
CPC Class Codes

H05B 6/681   Circuits comprising an inve...

H05B 6/685   the measurements being made...

Y02B 40/00   Technologies aiming at impr...

High-frequency heating device

First Claim

2 Assignments

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Abstract

Citations

15 Claims

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High-frequency heating device

First Claim

2 Assignments

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Abstract

Citations

15 Claims

Specification

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