Inverter with improved regulation
First Claim
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1. An electrical circuit for supplying high-voltage AC electrical energy to and for regulating resistive current through a complex load having variable resistive and variable shunt capacitive components, the circuit being of the type including:
- a voltage-controlled inverter having a pair of output terminals, the voltage controlled inverter producing an output voltage waveform at least a portion of each half cycle thereof having a dv/dt approximately equal to zero;
means for sensing output current;
a reference voltage source;
means for comparing a voltage proportional to the sensed current with the reference voltage and for producing an amplified error voltage;
means for sampling the amplified error voltage when dv/dt of output voltage is approximately equal to zero;
means for obtaining a long-term average of a plurality of samples of the amplified error voltage; and
means for applying the long-term average to the inverter to control the amplitude of the high-voltage AC waveform supplied to the complex load;
wherein the improvement comprises;
means for compensating for variations in load current resulting when a changing characteristic of the complex load causes variations in the ratio of peak to average rectified resistive current through the complex load so as to provide a substantially constant average rectified resistive output current.
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Abstract
A feedback loop is provided within an inverter feedback control system for modifying reference voltage to effect modifying output voltage from the inverter circuit thereby to maintain constant average rectified resistive current to a complex load, compensating for variations in load current which result from a changing characteristic of the complex load.
100 Citations
9 Claims
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1. An electrical circuit for supplying high-voltage AC electrical energy to and for regulating resistive current through a complex load having variable resistive and variable shunt capacitive components, the circuit being of the type including:
- a voltage-controlled inverter having a pair of output terminals, the voltage controlled inverter producing an output voltage waveform at least a portion of each half cycle thereof having a dv/dt approximately equal to zero;
means for sensing output current;
a reference voltage source;
means for comparing a voltage proportional to the sensed current with the reference voltage and for producing an amplified error voltage;
means for sampling the amplified error voltage when dv/dt of output voltage is approximately equal to zero;
means for obtaining a long-term average of a plurality of samples of the amplified error voltage; and
means for applying the long-term average to the inverter to control the amplitude of the high-voltage AC waveform supplied to the complex load;
wherein the improvement comprises;means for compensating for variations in load current resulting when a changing characteristic of the complex load causes variations in the ratio of peak to average rectified resistive current through the complex load so as to provide a substantially constant average rectified resistive output current. - View Dependent Claims (2)
- a voltage-controlled inverter having a pair of output terminals, the voltage controlled inverter producing an output voltage waveform at least a portion of each half cycle thereof having a dv/dt approximately equal to zero;
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3. An electrical circuit for supplying high-voltage AC electrical energy to and for regulating resistive current through a complex load, comprising:
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a source of DC electrical energy; a voltage-controlled inverter having a pair of output terminals, the voltage-controlled inverter for converting DC electrical energy to high-voltage AC electrical energy, the output voltage waveform thereof having a dv/dt approximately equal to zero during at least a portion of each half-cycle; means for sensing output current; a reference voltage source; means for comparing a voltage proportional to the sensed output current with the reference voltage and for producing an amplified error voltage; means for sampling the amplified error voltage; means for obtaining a long-term average of a plurality of samples of amplified error voltage; means for applying the long-term average to the inverter for effecting control of the amplitude of the high-voltage AC waveform and thereby for effecting regulation of output current; and means for feeding back to the comparing means a voltage representative of the long-term average of samples of amplified error voltage for effectively modifying the amplitude of the reference voltage thereby to control the amplitude of the AC output voltage waveform and thereby to control output current level and thus to maintain substantially constant average rectified resistive current. - View Dependent Claims (4, 5, 6, 7, 8)
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9. An electrical circuit for supplying high-voltage AC electrical energy to and for regulating resistive current through a non-linear complex load, comprising:
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a source of DC electrical energy; a voltage controlled inverter having an output for connection to the load, the inverter serving to convert DC electrical energy to high-voltage AC electrical energy at the output thereof, the output voltage waveform having a dv/dt approximately equal to zero during at least a significant portion of each half-cycle thereof; a resistor connected in circuit with the inverter output for sensing output current; a reference voltage source; a comparison amplifier having a summing junction for comparing a voltage proportional to sensed output current with the reference voltage and for producing at the output an amplified error voltage; a switch connected in parallel with the comparison amplifier, the switch being operational only when dv/dt of the output voltage waveform is approximately equal to zero and only during the positive half-cycle of the waveform for allowing the comparison amplifier to produce at the output thereof an amplified error voltage; a long-term integrator having an input for receiving the amplified error voltage from the comparison amplifier and for producing at its output a long-term average of a plurality of the amplified error voltages, the long-term average being applied to the inverter for effecting control of the amplitude of the output voltage waveform thereof; and a feedback resistor connected between the output of the long-term integrator and the summing junction of the comparison amplifier for effectively modifying the reference voltage thereby to control the value of the amplified error voltage and the long-term average and to effect change in the output voltage to compensate for variations in load current.
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Specification