D.C.-A.C. power converter with multiple conversions
First Claim
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1. A power converter apparatus comprising:
- at least a first power converting unit for converting D.C. power into A.C. power, said unit including,a semiconductor switch means for interrupting power from a D.C. power source;
a first D.C.-A.C. power converter means for converting D.C. power of said D.C. power source into A.C. power;
a rectifier means for rectifying the A.C. output power of said D.C.-A.C. power converter means into D.C. power;
a second D.C.-A.C. power converter means for converting the output power of said rectifier means into A.C. power for a load;
an activate switch means for supplying a control signal for a control circuit;
a delay circuit connected to said activate switch means for supplying said control signal with a delay;
a reference voltage setting means for supplying a reference voltage for controlling an output voltage of said first D.C.-A.C. power converter means;
a voltage detector for producing an output voltage corresponding to an output voltage of said first D.C.-A.C. power converter means;
a first arithmetic means for adding an output signal of said delay circuit and said reference voltage and comparing the resulting sum with the output voltage of said voltage detector and producing a corresponding difference signal;
first driver means for controlling said semiconductor switch means according to the difference signal produced by said first arithmetic means;
second driver means for controlling said first D.C.-A.C. power converter means according to the difference signal of said first arithmetic means;
a current detector for detecting an output current of said first power converting unit;
a differential amplifier for supplying a difference signal between an output signal of said current detector and a balancing control signal;
a second arithmetic means for adding the output signal of said differential amplifier and the difference signal output by said first arithmetic means, and supplying a corresponding signal for current control of another unit;
a pulse width modulation controller for supplying an output signal for pulse width modulation; and
third driver means for controlling said second D.C.-A.C. power converter according to the output signal of said pulse width modulation controller.
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Abstract
A power converter apparatus for an electric train, including at least a first modular power converter unit having a main circuit formed of switch for interrupting power from a D.C. power source, a first D.C.-A.C. power converter connected to the switch, an isolation transformer connected between the D.C.-A.C. power converter and a rectifier and a second D.C.-A.C. power converter connected to the rectifier. The switch and the first D.C.-A.C. power converter are controlled by a control signal derived from the difference between the output voltage of the first D.C.-A.C. power converter and the sum of a delayed soft starting control signal and a settable reference signal. The second D.C.-A.C. power converter is pulse width modulated. Preferably a second modular power converter unit having the same construction as the first unit is provided and has inputs connected in series or in parallel with inputs of the first unit. Load balance between the power converter units is maintained by detecting the output current of each unit and utilizing the detected output currents in conjunction with the control signal used to control switching of the switch and the first D.C.-A.C. power converter.
30 Citations
11 Claims
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1. A power converter apparatus comprising:
at least a first power converting unit for converting D.C. power into A.C. power, said unit including, a semiconductor switch means for interrupting power from a D.C. power source; a first D.C.-A.C. power converter means for converting D.C. power of said D.C. power source into A.C. power; a rectifier means for rectifying the A.C. output power of said D.C.-A.C. power converter means into D.C. power; a second D.C.-A.C. power converter means for converting the output power of said rectifier means into A.C. power for a load; an activate switch means for supplying a control signal for a control circuit; a delay circuit connected to said activate switch means for supplying said control signal with a delay; a reference voltage setting means for supplying a reference voltage for controlling an output voltage of said first D.C.-A.C. power converter means; a voltage detector for producing an output voltage corresponding to an output voltage of said first D.C.-A.C. power converter means; a first arithmetic means for adding an output signal of said delay circuit and said reference voltage and comparing the resulting sum with the output voltage of said voltage detector and producing a corresponding difference signal; first driver means for controlling said semiconductor switch means according to the difference signal produced by said first arithmetic means; second driver means for controlling said first D.C.-A.C. power converter means according to the difference signal of said first arithmetic means; a current detector for detecting an output current of said first power converting unit; a differential amplifier for supplying a difference signal between an output signal of said current detector and a balancing control signal; a second arithmetic means for adding the output signal of said differential amplifier and the difference signal output by said first arithmetic means, and supplying a corresponding signal for current control of another unit; a pulse width modulation controller for supplying an output signal for pulse width modulation; and third driver means for controlling said second D.C.-A.C. power converter according to the output signal of said pulse width modulation controller. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A power converter apparatus comprising:
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first and second power converter units each comprising, a switch means for interrupting power from a D.C. source, a first D.C.-A.C. power converter connected to an output of the switch means and producing an A.C. output, a rectifier, an isolation transformer having a primary winding connected to the A.C. output of the first D.C.-A.C. converter and a secondary winding connected to an input of said rectifier, a second D.C.-A.C. power converter connected to an output of said rectifier and outputting an A.C. output signal, and control means for controlling of said first D.C.-A.C. converter based at least in part on a control signal derived from a difference between the A.C. output of said first D.C.-A.C. power converter and a settable reference signal; and means for balancing loads of said first and second power converter units, comprising, means for producing a balance signal based on a difference between output currents produced by said second D.C.-A.C. power converters, and means for applying said balance signal to said control means of one of said units so that the control signal produced in said one of said units is also derived in part based on said balance signal. - View Dependent Claims (8, 9, 10, 11)
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Specification
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Current AssigneeKabushiki Kaisha Toshiba (Toshiba Corporation)
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Original AssigneeKabushiki Kaisha Toshiba (Toshiba Corporation)
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InventorsMoriya, Fumiyasu
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Primary Examiner(s)STERRETT, JEFFREY L
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Application NumberUS07/715,967Time in Patent Office358 DaysField of Search363/15, 363/17, 363/28, 363/34, 363/36, 363/37, 363/65, 363/71, 363/95, 363/96, 363/98, 363/132, 363/136, 363/137US Class Current363/65CPC Class CodesB60L 2200/26 Rail vehiclesB60L 9/28 polyphase motorsH02M 7/4807 having a high frequency int...H02M 7/493 the static converters being...
