Magnetron with frequency control for power regulation
First Claim
1. A power control system for a microwave heating apparatus comprising:
- a variable frequency inverter circuit energized by voltage applied to its input from an external AC power supply;
a power transformer having a primary winding connected to receive power from said inverter and a secondary winding;
a magnetron;
a voltage doubler circuit for coupling power from said secondary winding to said magnetron, said voltage doubler circuit and said secondary winding comprising a tuned LC circuit characterized by a predetermined resonant frequency;
frequency control means for varying the frequency of the output from said inverter circuit applied to said primary between predetermined minimum and maximum frequencies, said minimum frequency being greater than said resonant frequency;
means for sensing variations in the input voltage applied to said inverter circuit from said external AC supply;
said frequency control means being responsive to said sensing means and operative to vary the frequency of said inverter output signal as a function of variations in said input voltage so as to maintain relatively constant magnetron output power as a result of changes in the difference between the frequency of the said inverter output signal and said resonant frequency.
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Accused Products
Abstract
A microwave heating system uses a magnetron powered by a full wave full bridge inverter. The magnetron has its power output stabilized against variations which might be caused by fluctuations in the AC input line. The inverter powers the magnetron by way of a power transformer having a primary and a secondary. The current is sensed in the primary in order to change the switching frequency of the inverter. As the current in the primary will depend upon fluctuations in the AC input line voltage, sensing of the current in the primary may be used to sense variations in the voltage of the AC input line. Alternately, current in the secondary of the power transformer may be sensed and used to detect variations in the AC input line voltage. In either case, the sensed variations in AC input line voltage are used to change the inverter frequency. Because the secondary includes a series resonant tuned circuit, changes in the difference between the inverter switching frequency and the resonant frequency of the tuned circuit may be used to counteract AC input line variations and stabilize the magnetron output power.
51 Citations
24 Claims
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1. A power control system for a microwave heating apparatus comprising:
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a variable frequency inverter circuit energized by voltage applied to its input from an external AC power supply; a power transformer having a primary winding connected to receive power from said inverter and a secondary winding; a magnetron; a voltage doubler circuit for coupling power from said secondary winding to said magnetron, said voltage doubler circuit and said secondary winding comprising a tuned LC circuit characterized by a predetermined resonant frequency; frequency control means for varying the frequency of the output from said inverter circuit applied to said primary between predetermined minimum and maximum frequencies, said minimum frequency being greater than said resonant frequency; means for sensing variations in the input voltage applied to said inverter circuit from said external AC supply; said frequency control means being responsive to said sensing means and operative to vary the frequency of said inverter output signal as a function of variations in said input voltage so as to maintain relatively constant magnetron output power as a result of changes in the difference between the frequency of the said inverter output signal and said resonant frequency. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A power control system for microwave heating apparatus comprising:
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an inverter having a plurality of switches and being powered from an AC input line, each of the plurality of switches being a controlled switch; a power transformer having a primary connected to receive power from said inverter and a secondary; a heating magnetron connected to receive power from said secondary; a control circuit for controlling power flow from said inverter to said magnetron, said control circuit having an oscillator for supplying gate pulses to switch said plurality of switches of said inverter at a switching frequency; sensing means for sensing variations in line voltage of said AC input line; and frequency determining means connected to said oscillator for determining the switching frequency, said frequency determining means being connected and responsive to said sensing means to change the switching frequency an amount which is dependent upon the variation in line voltage of said AC input line; and wherein said secondary of said power transformer is part of a tuned circuit having a resonant frequency and wherein said frequency determining means changes a difference between the switching frequency and the resonant frequency to minimize fluctuations in the power output of said cooking magnetron, which fluctuations would otherwise be caused by variations in line voltage of said AC input line and wherein said secondary of said power transformer is connected to a voltage doubling circuit having a capacitor and diode and connected to supply high voltage to said magnetron, and wherein said capacitor is part of said tuned circuit. - View Dependent Claims (8, 9, 10, 11, 12, 13, 14)
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15. A power control system for a microwave heating apparatus comprising;
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a full wave full bridge inverter powered from an AC input line and including four switches, each switch being a controlled switch, a first switch and a second switch of said four switches being connected in series, a third switch and a fourth switch of said four switches being connected in series; a power transformer having a primary connected to receive power from said inverter and a secondary, said primary being connected between a node common to said first and second switches and a node common to said third and fourth switches; a heating magnetron connected to receive power from said secondary; a control circuit for controlling power flow from said inverter to said magnetron, said control circuit having an oscillator for supplying gate pulses to switch said four switches of said inverter at a switching frequency; sensing means for sensing variations in line voltage of said AC input line; and frequency determining means connected to said oscillator for determining the switching frequency, said frequency determining means being connected and responsive to said sensing means to change the switching frequency an amount which is dependent upon the variation in line voltage of said AC input line such that the power output of said cooking magnetron is maintained relatively stable and independent of variations in line voltage of said AC input line and; wherein said frequency means determines the switching frequency over a continuous range between a lower switching frequency and an upper switching frequency, and wherein said secondary of said power transformer is part of a tuned circuit having a resonant frequency not greater than said lower switching frequency and wherein said frequency determining means changes a difference between the switching frequency and the resonant frequency to minimize fluctuations in the power output of said cooking magnetron, which fluctuations would otherwise be caused by variations in line voltage of said AC input line. - View Dependent Claims (16, 17, 18, 19)
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20. A method of stabilizing a system with a heating magnetron against variations in power output of the heating magnetron due to variations in line voltage of an AC input line, the steps comprising:
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using power from the AC input line to power an inverter such that the inverter operates at a switching frequency; supplying power to a primary of a power transformer from the inverter; supplying power to a heating magnetron from a secondary of the power transformer; sensing variations in line voltage of the AC input line; and changing the switching frequency in an amount determined by the sensed variations such that the power output of the cooking magnetron remains relative constant as a result of changes in the difference between the switching frequency and a resonant frequency of a resonant circuit including said secondary. - View Dependent Claims (21, 22, 23, 24)
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Specification