Method and circuit arrangement for shaping a.c. voltage
First Claim
1. A method for shaping an actual a.c. voltage characteristic into a reference a.c. voltage characteristic, comprising the steps of:
- comparing the actual a.c. voltage characteristic to the reference a.c. voltage characteristic;
storing an excess energy in at least one current storage device if a voltage overshoot exists, the voltage overshoot existing if the actual a.c. voltage characteristic is greater than the reference a.c. voltage characteristic, the excess energy corresponding to a difference between the actual a.c. voltage characteristic and the reference a.c. voltage characteristic;
providing a deficiency energy from the at least one current storage device if a voltage shortfall exists, the voltage shortfall existing if the reference a.c. voltage characteristic is greater than the actual a.c. voltage characteristic, the deficiency energy corresponding to a difference between the reference a.c. voltage characteristic and the actual a.c. voltage characteristic;
driving a plurality of converter valves as a function of at least one of the voltage overshoot and the voltage shortfall, the plurality of converter valves being driven at a varying frequency rate via a plurality of control pulses;
determining at least one actual voltage value of a voltage source;
determining a current value of a current in the at least one current storage device;
generating at least one reference voltage value corresponding to the at least one actual voltage value, the at least one reference voltage value being equal to the reference a.c. voltage characteristic;
conditioning the at least one reference voltage value as a function of a conditioning factor and the current value;
determining a deviation value by comparing the conditioned at least one reference voltage value to the at least one actual voltage value; and
providing at least one of the plurality of control pulses to at least one of the plurality of converter valves as a function of the deviation value.
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Abstract
A method and a circuit arrangement for shaping any actual a.c. voltage characteristic into any reference a.c. voltage characteristic are described, which store the excess power in voltage overshoots in the form of a current in a current storage device using power electronic switching elements, and thus they compensate for the power deficiency when there is a voltage shortfall. The power electronic switching elements are driven by a digital automatic state machine through appropriate control pulses so that there is no fixed switching rate. The preferred field of application is for active filtering of the voltage of an electric three-phase or a.c. power supply system.
12 Citations
12 Claims
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1. A method for shaping an actual a.c. voltage characteristic into a reference a.c. voltage characteristic, comprising the steps of:
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comparing the actual a.c. voltage characteristic to the reference a.c. voltage characteristic; storing an excess energy in at least one current storage device if a voltage overshoot exists, the voltage overshoot existing if the actual a.c. voltage characteristic is greater than the reference a.c. voltage characteristic, the excess energy corresponding to a difference between the actual a.c. voltage characteristic and the reference a.c. voltage characteristic; providing a deficiency energy from the at least one current storage device if a voltage shortfall exists, the voltage shortfall existing if the reference a.c. voltage characteristic is greater than the actual a.c. voltage characteristic, the deficiency energy corresponding to a difference between the reference a.c. voltage characteristic and the actual a.c. voltage characteristic; driving a plurality of converter valves as a function of at least one of the voltage overshoot and the voltage shortfall, the plurality of converter valves being driven at a varying frequency rate via a plurality of control pulses; determining at least one actual voltage value of a voltage source; determining a current value of a current in the at least one current storage device; generating at least one reference voltage value corresponding to the at least one actual voltage value, the at least one reference voltage value being equal to the reference a.c. voltage characteristic; conditioning the at least one reference voltage value as a function of a conditioning factor and the current value; determining a deviation value by comparing the conditioned at least one reference voltage value to the at least one actual voltage value; and providing at least one of the plurality of control pulses to at least one of the plurality of converter valves as a function of the deviation value. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method for active filtering of an a.c. voltage, the a.c. voltage including an actual a.c. voltage characteristic, comprising the steps of:
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comparing the actual a.c. voltage characteristic to a reference a.c. voltage characteristic; storing an excess energy in at least one current storage device if a voltage overshoot exists, the voltage overshoot existing if the actual a.c. voltage characteristic is greater than the reference a.c. voltage characteristic, the excess energy corresponding to a difference between the actual a.c. voltage characteristic and the reference a.c. voltage characteristic; providing a deficiency energy from the at least one current storage device if a voltage shortfall exists, the voltage shortfall existing if the reference a.c. voltage characteristic is greater than the actual a.c. voltage characteristic, the deficiency energy corresponding to a difference between the reference a.c. voltage characteristic and the actual a.c. voltage characteristic; driving a plurality of converter valves as a function of one at least one of the voltage overshoot and the voltage shortfall, the plurality of converter valves being driven at a varying frequency rate via a plurality of control pulses; determining at least one actual voltage value of a voltage source; determining a current value of a current in the at least one current storage device; generating at least one reference voltage value corresponding to the at least one actual voltage value, the at least one reference voltage value being equal to the reference a.c. voltage characteristic; conditioning the at least one reference voltage value as a function of a conditioning factor and the current value; determining a deviation value by comparing the conditioned at least one reference voltage value to the at least one actual voltage value; and providing at least one of the plurality of control pulses to at least one of the plurality of converter valves as a function of the deviation value wherein the reference a.c. voltage characteristic is an ideal undisturbed characteristic of the a.c. voltage.
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9. A method for active filtering of an a.c. voltage of at least one phase electric a.c. power supply system, the a.c. voltage including an actual a.c. voltage characteristic, comprising the steps of:
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comparing the actual a.c. voltage characteristic to a reference a.c. voltage characteristic; storing an excess energy in at least one current storage device if a voltage overshoot exists, the voltage overshoot existing if the actual a.c. voltage characteristic is greater than the reference a.c. voltage characteristic, the excess energy corresponding to a difference between the actual a.c. voltage characteristic and the reference a.c. voltage characteristic; providing a deficiency energy from the at least one current storage device if a voltage shortfall exists, the voltage shortfall existing if the reference a.c. voltage characteristic is greater than the actual a.c. voltage characteristic, the deficiency energy corresponding to a difference between the reference a.c. voltage characteristic and the actual a.c. voltage characteristic; driving a plurality of converter valves as a function of at least one of the voltage overshoot and the voltage shortfall, the plurality of converter valves being driven at a varying frequency rate via a plurality of control pulses; determining at least one actual voltage value of a voltage source; determining a current value of a current in the at least one current storage device; generating at least one reference voltage value corresponding to the at least one actual voltage value, the at least one reference voltage value being equal to the reference a.c. voltage characteristic; conditioning the at least one reference voltage value as a function of a conditioning factor and the current value; determining a deviation value by comparing the conditioned at least one reference voltage value to the at least one actual voltage value; and providing at least one of the plurality of control pulses to at least one of the plurality of converter valves as a function of the deviation value wherein the reference a.c. characteristic is an ideal undisturbed characteristic of an a.c. voltage provided by the at least one phase electric a.c. power supply system.
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10. A circuit arrangement for converting an actual a.c. voltage characteristic into a reference a.c. voltage characteristic, comprising:
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at least one current storage device storing an excess energy, the excess energy corresponding to a voltage overshoot, the voltage overshoot corresponding to a difference between the actual a.c. voltage characteristic and the reference a.c. voltage characteristic when the actual a.c. voltage characteristic is greater than the reference a.c. voltage characteristic, the at least one current storage device further for providing a deficiency energy, the deficiency energy corresponding to a voltage shortfall, the voltage shortfall corresponding to a difference between the actual a.c. voltage characteristic and the reference a.c. voltage characteristic when the reference a.c. voltage characteristic is greater than the actual a.c. voltage characteristic; a plurality of converter valves driven at a varying switching frequency rate by a plurality of control pulses, the plurality of valves being driven as a function of at least one of the voltage overshoot and the voltage shortfall; a first arrangement determining at least one actual voltage value of a voltage source and a current value of a current in the at least one current storage device; a second arrangement generating at least one respective voltage reference value corresponding to the reference a. c. voltage characteristic as a function of the at least one actual voltage value; a third arrangement conditioning the at least one reference voltage value as a function of a conditioning factor and the current value; and a fourth arrangement providing the plurality of control pulses to the plurality of converter valves as a function of a deviation between the conditioned at least one reference voltage value and the at least one actual voltage value. - View Dependent Claims (11, 12)
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Specification