Ferroresonant transformer for use in uninterruptible power supplies
First Claim
1. A ferroresonant transformer adapted to be connected to a resonant capacitor, a primary power source that generates a primary power signal, and a secondary power source that generates a secondary power signal, the ferroresonant transformer comprising:
- a core;
a main shunt arranged relative to the core to define a primary side and a secondary side of the ferroresonant transformer;
first windings arranged on the primary side of the ferroresonant transformer, where the first windings are operatively connected to the primary power source;
second windings arranged on the secondary side of the ferroresonant transformer, where the second windings are operatively connected to the secondary power source; and
third windings arranged on the secondary side of the ferroresonant transformer, where the third windings are operatively connected to the resonant capacitor;
wherebywhen the primary signal is present on the first windings, a first output signal is present on at least a portion of the third windings; and
when the secondary power is present on the second windings, a second output signal is present on at least a portion of the third windings.
3 Assignments
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Accused Products
Abstract
A ferroresonant transformer comprises a core, a main shunt, first windings, second windings, and third windings. The main shunt arranged relative to the core to define a primary side and a secondary side of the ferroresonant transformer. The first windings are arranged on the primary side of the ferroresonant transformer and are operatively connected to the primary power source. The second windings are arranged on the secondary side of the ferroresonant transformer and are operatively connected to the secondary power source. The third windings are arranged on the secondary side of the ferroresonant transformer and are operatively connected to the resonant capacitor. When a primary signal is present on the first windings, a first output signal is present on at least a portion of the third windings. When a secondary power is present on the second windings, a second output signal is present on at least a portion of the third windings.
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Citations
14 Claims
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1. A ferroresonant transformer adapted to be connected to a resonant capacitor, a primary power source that generates a primary power signal, and a secondary power source that generates a secondary power signal, the ferroresonant transformer comprising:
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a core; a main shunt arranged relative to the core to define a primary side and a secondary side of the ferroresonant transformer; first windings arranged on the primary side of the ferroresonant transformer, where the first windings are operatively connected to the primary power source; second windings arranged on the secondary side of the ferroresonant transformer, where the second windings are operatively connected to the secondary power source; and third windings arranged on the secondary side of the ferroresonant transformer, where the third windings are operatively connected to the resonant capacitor;
wherebywhen the primary signal is present on the first windings, a first output signal is present on at least a portion of the third windings; and when the secondary power is present on the second windings, a second output signal is present on at least a portion of the third windings. - View Dependent Claims (2, 3)
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4. An uninterruptible power supply for supplying power to a load, comprising:
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a transformer comprising a core, a main shunt arranged relative to the core to define a primary side and a secondary side of the transformer, first windings arranged on the primary side of the transformer, second windings arranged on the secondary side of the transformer, and third windings arranged on the secondary side of the transformer, a resonant capacitor operatively connected to the third windings; a primary power source operatively connected to the first windings; and a secondary power source operatively connected to the second windings;
whereinthe load is connected to at least a portion of the third windings; in a line mode, the primary power source causes a primary signal to be present on the first windings such that a first output signal supplied to the load based on the primary signal; and in a standby mode, the secondary power source causes a secondary signal to be present on the second windings such that a second output signal is supplied to the load based on the secondary signal. - View Dependent Claims (5, 6, 7, 8, 9)
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10. A method of supplying uninterruptible power to a load, comprising the steps:
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providing a core; arranging a main shunt relative to the core to define a primary side and a secondary side; arranging first windings arranged on the primary side; arranging second windings on the secondary side; arranging third windings on the secondary side; operatively connecting a resonant capacitor to the third windings; operatively connecting a primary power source to the first windings; operatively connecting a secondary power source to the second windings; operatively connecting the load to at least a portion of the third windings; operating in one of a line mode or a standby mode, whereby when operating in the line mode, the primary power source causes a primary signal to be present on the first windings such that a first output signal supplied to the load; and when operating in the standby mode, the secondary power source causes a secondary signal to be present on the second windings such that a second output signal is supplied to the load. - View Dependent Claims (11, 12, 13, 14)
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Specification