Generalized method of paralleling voltage amplifiers
First Claim
1. A system of two or more (N) parallel joined power converters having outputs connected in parallel, comprising current sensors to directly measure the circulating currents and by use of negative feedback, regulate the circulating current to zero at a main output, wherein said negative feedback is produced by the circulating current being distributed between the parallel powered converters in such a manner as to sum to zero the combined correction signal injected into the main output signal, wherein said current sensors are DC responding current transducers based on magnetic flux sensing, wherein each of said power converters being paralleled is incident to the primary of the current transducers, wherein each current transducer primary has a number of primary turns, a total of the primary turns on each current transducer being zero when reversed polarity windings are counted as negative turns, wherein each power converter has an identical number of primary turns (M) on the current sensor except for one which has a counter poled winding of M*(N−
- 1) turns.
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Abstract
A generalized method for balancing paralleled power converters is disclosed wherein (N) power converters, generally voltage amplifiers, are parallel and have current sensors positioned so as to form a differencing equation for the circulating current, and use that difference current as feedback to the paralleled power converters to force the circulating current to zero. The current sensors are current transforming transducers, where (N−1) transducers are included and where the feedback from the (N−1) transducers is distributed to summing amplifiers, which according to their gain distribution, balances the power converters. The system also includes passive magnetic devices to facilitate current sharing, where the devices are generally inductors which are designed to store no magnetic energy when under balanced excitation.
9 Citations
12 Claims
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1. A system of two or more (N) parallel joined power converters having outputs connected in parallel, comprising current sensors to directly measure the circulating currents and by use of negative feedback, regulate the circulating current to zero at a main output, wherein said negative feedback is produced by the circulating current being distributed between the parallel powered converters in such a manner as to sum to zero the combined correction signal injected into the main output signal, wherein said current sensors are DC responding current transducers based on magnetic flux sensing, wherein each of said power converters being paralleled is incident to the primary of the current transducers, wherein each current transducer primary has a number of primary turns, a total of the primary turns on each current transducer being zero when reversed polarity windings are counted as negative turns, wherein each power converter has an identical number of primary turns (M) on the current sensor except for one which has a counter poled winding of M*(N−
- 1) turns.
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2. A system of two or more (N) parallel joined power converters having outputs connected in parallel, comprising current sensors to directly measure the circulating currents and by use of negative feedback, regulate the circulating current to zero at a main output, wherein said negative feedback is passed through summing amplifiers which distribute the feedback to said parallel joined power converters, wherein said summing amplifiers (N) input ports.
- 3. A system of 3 or more (N) paralleled power converters having outputs connected in parallel, comprising passive magnetic devices to facilitate current sharing, said devices being designed to store no magnetic energy when under balanced excitation.
- 7. A system of two or more (N) parallel joined power converters having outputs connected in parallel, comprising current sensors to directly measure the circulating currents and regulate the circulating current to zero, and further comprising passive magnetic devices to facilitate current sharing, said devices being designed to store no magnetic energy when under balanced excitation.
Specification