TH35742B - High frequency heater - Google Patents

Abstract

DC60 (10/08/54) The purpose of this invention is to provide a capable inverter circuit. of suppressing the input current overload phenomenon at a moment when operating Initially this inverter circuit has been switched to normal operation of this circuit and therefore has the ability to block IGBT and magnetron damage. in the high-frequency heater, which includes control signal generation circuit For generating a control signal from the difference between the input current of the AC power supply. with reference current Frequency modulated signal generation circuit for voltage correction rectifier / rectifier current which is obtained by rectifier to the AC voltage/current of the AC power supply on the basis of the control signal of the AC power supply circuit. cause this control signal and a dead time generation circuit for receiving the output of the produce a signal that passes through this frequency modulation. Control signal conversion circuit, which has functions that have The ability to further lower the value of this control signal has been provided. It is between the control signal generation circuit and this frequency modulated signal generation circuit. The aim of this invention was to provide a capable inverter circuit. of suppressing the input current overload phenomenon at a moment when operating Initially this inverter circuit has been switched to normal operation of this circuit and therefore has the ability to block IGBT and magnetron damage. in the high-frequency heater, which includes control signal generation circuit For generating a control signal from the difference between the input current of the AC power supply. with reference current Frequency modulated signal generation circuit for voltage correction rectifier / rectifier current which is obtained by rectifier to the AC voltage/current of the AC power supply on the basis of the control signal of the AC power supply circuit. cause this control signal and a dead time generation circuit for receiving the output of the produce a signal that passes through this frequency modulation. Control signal conversion circuit, which has functions that have The ability to further lower the value of this control signal has been provided. It is between the control signal generation circuit and this frequency modulated signal generation circuit.

Claims (9)

Disclaimer (all) which will not appear on the advertisement page: 1. High frequency heater for driving the magnetron, which includes: DC power supply which is assembled by the source. Power AC, rectifier For rectifying the AC voltage of such an AC power supply and a smoothing capacitor for smoothing the output voltage of such rectifier; A series circuit composed of two semiconductor switching elements; Resonant circuit in which the primary winding of the flux-leakage type transformer and the capacitor is received. Connection in it The series circuit is connected in parallel to the DC power supply and one end of the resonant circuit is connected to the midpoint of the Such a series circuit And the other end of the aforementioned resonance circuit Has been connected to One end of the aforementioned DC power supply in an AC equivalent circuit; A drive path for driving each of the aforementioned semiconductor switching elements; Way of rectification Which has been connected to the secondary winding of the type transformer Such flux leak; And the magnetron, which is connected to the aforementioned rectification path; Control signal generation circuit for the generation of control signal from the difference between The input current of the AC power source with the reference current. Or the difference between the input pressure Given to the magnetron with the reference voltage; Frequency modulated signal generation circuit for correcting overloaded voltage. Rectifier / electric current through rectification Which has been achieved by rectifying for AC voltage / current of the AC power source It is based on the control signal output from This control signal generation cycle Or a control signal conversion circuit; The deadline for receiving the output of the passing signaling circuit. This frequency modulation enters And the birth of the time of death, where the time of death is the time when These two semiconductor-type switching elements It will not be on during one of the two semiconductor-type switching elements. Has been offline until another piece Of the two semiconductor switching elements have an on state; And control signal conversion circuit Which has been placed during the signaling cycle Controls it with a signal generating circuit through such frequency modulation. And in case of condition The positive polarity further reduces the value of the said control signal, where the output control signal exits the control signal conversion circuit that is input. To the modulated signal generation circuit, the magnetron starting frequency While a control signal that is output from the regeneration circuit is inputted. Provides a modulated signal generation circuit of normal operating frequency of magnetron. 2. High frequency heater for driving the magnetron, which includes: DC power supply. Which has been assembled by an AC power supply, rectifier For rectifying the AC voltage of such an AC power supply and a smoothing capacitor for smoothing the output voltage of such rectifier; Two series of series circuits Which each set of the aforementioned series circuit has been It is made up of two semiconductor-type switching elements; Resonant circuit in which the primary winding of the flux-leakage type transformer is set. And the capacitor received The connection is in it These two sets of series circuits are connected in parallel. With the aforementioned DC power supply And one end of the aforementioned resonant circuit has been connected to With the midpoint of one such series circuit And the other end of the aforementioned resonance circuit Has been connected to the midpoint of another series circuit; A drive path for driving each of the aforementioned semiconductor switching elements; Way of rectification Which has been connected to the secondary winding of the type transformer Such flux leak; And the magnetron, which is connected to the aforementioned rectification path; Control signal generation circuit for the generation of control signal from the difference between The input current of the AC power source with the reference current. Or the difference between the input pressure Given to the magnetron with the reference voltage; Frequency modulated signal generation circuit for correcting overloaded voltage. Rectifier / electric current through rectification Which has been achieved by rectifying for AC voltage / current of the AC power source based on the control signal at the output. Coming from a control signal generation circuit or a control signal conversion circuit; The deadline for receiving the output of the transmitted signaling circuit. This frequency modulation enters And the birth of the time of death, where the time of death is The moment during which the elements The two such semiconductor-type switches were not on during the process. Later one of the two pieces of The semiconductor type switching element has been turned off. Until another piece of the element Two semiconductor-type switches are turned on; And control signal conversion circuit Which has been placed during the signaling cycle Controls it with a signal generating circuit through such frequency modulation. In the case of anode condition, and the control signal value will be further reduced. Where the output control signal from the control signal conversion circuit is input. The modulated signal generation circuit is the magnetron starting frequency, while the control signal output from the control signal generation circuit is input to the control signal generation circuit. It produces a signal that undergoes a normal operating frequency of the magnetron. 3. High frequency heater for driving the magnetron, which includes: A DC power supply which is assembled by AC power supply, rectifier For rectifying the AC voltage of such an AC power supply and a smoothing capacitor for smoothing the output voltage of such rectifier; A series circuit composed of two semiconductor switching elements; Resonant circuit in which the primary winding of the flux-leakage type transformer and the capacitor is received. The connection is in it The series circuit is connected in parallel to the DC power supply and the resonant circuit is connected to one component of the component. Switching of such semiconductors in parallel; A drive path for driving each of the aforementioned semiconductor switching elements; Rectification path, which has been connected to the secondary winding of the type transformer. Such flux leak; And the magnetron, which is connected to the aforementioned rectification path; Control signal generation circuit for the generation of control signal from the difference between The input current of the AC power source with the reference current. Or the difference between the input pressure Given to the magnetron with the reference voltage; Frequency modulated signal generation circuit for correcting overloaded voltage. The current / rectified electric current is obtained by rectifying the AC voltage / current of the AC power source on the basis of the control signal being output from Control signal formation cycle Or a control signal conversion circuit; The deadline for receiving the output of the passing signaling circuit. This frequency modulation enters; And the birth of the time of death, where the time of death is the time when The two such semiconductor switching elements were not ON during that time. One of the two semiconductor switching elements was later turned off. Until another piece of The two semiconductor-type switching elements are made on; And control signal conversion circuit Which has been placed during the signaling cycle Controls it with a signal generating circuit through such frequency modulation. In the case of anode condition and the control signal is further reduced, where the control signal output from the control signal conversion circuit is input. The modulated signal generation circuit is the magnetron starting frequency, while the control signal output from the control signal generation circuit is input to the Generates a signal that undergoes frequency modulation in normal operation of the magnetron. 4. High-frequency heaters, as requested by one of Clause 1 to 3, where the modulation circuit. Such a control consists of an output-operated circuit amplifier. The control signal is fed to one of the input terminals of the amplifier. Do so And the potential at the connection point between two resistors in the other series circuit. Is fed to another input terminal of the operational amplifier; And serial circuits Another such circuit is assembled by the aforementioned two resistors. And one diode, which is interpolated between the positive potential of the other DC power supply and the output terminal. 5. High-frequency heaters, as requested by one of Clause 1 to 3, where the aforementioned control modulation circuit consists of an amplifier circuit. Which has a comparison function; The output of the aforementioned control conversion circuit is fed to the terminals. One input of the amplifier And the positive potential of that other DC power supply is fed to the other input terminal of the amplifier; And the gain of the amplifier is switched by a diode for conduction / de-conduction. The current is said to be a function of such a comparison. 6. High frequency heaters, as requested by one of Clause 1 to 3, where the aforementioned control modulation circuits are included. Amplification circuit which has a comparison function; The output of the aforementioned control conversion circuit is fed to the terminals. One input of the amplifier And another input terminal of the amplifier has Comparator circuit, which compares the positive potential of the aforementioned DC power supply to its output. The formation of such control signals; And the gain of the amplifier has been switched by Such comparison circuit 7. High frequency heater as requested in the claim 1 to 3 of any of the above. Where the switching signal is generated on the basis of the perceived signal of the Magnetron oscillates And control signal at the output from the control signal generation circuit The above or the aforementioned control modulation circuits will be selected on the basis of that switching signal. 8. High frequency heaters on request, in any of Claims 1 to 3, Where the cycle of inducing such death time stabilizes this death time, or increases this death time. A little 9. High frequency heaters as requested in any of Clause 1 to 3 of Clause 1, where the aforementioned cycle of death occurs. This increases the deadline when the switching frequency is higher than the frequency. Pre-defined switching 1 0. High frequency heaters as requested in claim 9, where the generation cycle The time of such death Making this death time a constant value Or slightly increase this death time at the switching frequency. Which is lower than or equal to the preset switching frequency 1 1. High frequency heater, as requested in claim 9, where the formation cycle The said dead time increases this dead time along with increasing the switching frequency, at the switching frequency greater than or equal to the pre-set switching frequency 1. 2. High-frequency heaters as claimed in Clause 10, where either a constant or slightly incremental value of the said death time is variable at low switching frequency. Greater than, or equal to that predetermined switching frequency varies by 1. 3. High frequency heater as requested in claim 10, where the frequency Such a predefined switch is a variable 1. 4. High-frequency heaters, upon request, holds one to three rights, where the said death cycle increases this death time in an associated manner. With an increase in switching frequency 1 5. High-frequency heaters on request for any one of Clause 1 to 3, where the said death cycle will create this death time. On the basis of both offset voltage Positive and negative offset voltage Which has been changed to the first inclination, which is the equality Directly with the increase in the switching frequency lower than the aforementioned switching frequency. And likewise Which has been changed with the second tilt Which is steeper than the first incline, from the aforementioned switching frequency 1 6. High-frequency heaters, upon request for any one of Clause 1 to 3, where the said death cycle consists of: power supply VCC; Duty controlled power supply; The first electric current which is transformed in a way that is directly proportional to Switching frequency; The second electric current which will flow When the switching frequency is greater than or equal to the switching frequency that Predetermined And has been transformed in a way that is directly proportional to This switching frequency; Third current which is generated by the inclusion of one such current. With the aforementioned second electric current And by multiplying the said total current by the given coefficient Already in advance; And the path of producing the upper / lower electrical potential For producing the upper and lower voltage potential, which is done by adding both the positive offset voltage and the negative offset voltage which is directly in relation to the third current with the force. Push of the duty controlled power supply Such, respectively; And the aforementioned variable death cycle produces this death time on the basis of the aforementioned upper and lower potential 1. 7. High-frequency heaters, subject to claim 16, where: any input power control operation or input current control operation. One is performed by changing at least one such value of the source voltage. Controlled power supply and such switching frequency 1 8. High-frequency heater as requested in claim 11, where the value was increased. As the dead period varies at a higher switching frequency, or equal to the switching frequency at Is predefined as a variable 1 9. High-frequency heater as requested in claim 11, where the frequency is Such predetermined values are variable.