Voltage source inverter and variable frequency, constant voltage AC motor drive embodying the same
First Claim
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1. A method of pre-charging from three-phase AC input lines the DC-link capacitor of a constant voltage voltage-source inverter including:
- DC terminals connected to the input of the inverter;
a DC-link capacitor across said DC terminals;
a bridge of thyristors connected between respective one of said AC input lines and respective ones of said DC-link terminals;
comprising the steps of;
firing one of said thyristors which is associated with one of said DC terminals and firing two of said thyristors which are associated with the other of said DC terminals in normal bridge sequential firing;
the operative firing angle of said one and two thyristors being retarded by a predetermined delay angle;
said delay angle being initially such that the AC voltage applied by said AC input lines to said one and two thyristors is substantially at zero-crossing; and
repeating such firing step upon each cycle of said applied voltage while decreasing said delay angle progressively with each cycle until said operative firing angle is reached, thereby applying maximum voltage to said DC-link capacitor.
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Abstract
A constant voltage voltage-source inverter of a motor drive includes in its DC-link the combination of diode means, a GTO device and an auxiliary thyristor, the GTO device and the auxiliary thyristor upon transferring to the regenerating mode being cyclically controlled for conduction concurrently with the thyristor of the AC/DC converter so as to match the (voltage-current) domains converter and input of the inverter. Conduction of the GTO device is interrupted before each cyclical control thereof to allow recovery.
Initiation of GTO and auxiliary thyristor conduction upon mode transfer is retarded to allow settling of the system before firing the thyristors of the AC/DC converter with a different firing angle.
51 Citations
9 Claims
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1. A method of pre-charging from three-phase AC input lines the DC-link capacitor of a constant voltage voltage-source inverter including:
- DC terminals connected to the input of the inverter;
a DC-link capacitor across said DC terminals;
a bridge of thyristors connected between respective one of said AC input lines and respective ones of said DC-link terminals;
comprising the steps of;firing one of said thyristors which is associated with one of said DC terminals and firing two of said thyristors which are associated with the other of said DC terminals in normal bridge sequential firing; the operative firing angle of said one and two thyristors being retarded by a predetermined delay angle; said delay angle being initially such that the AC voltage applied by said AC input lines to said one and two thyristors is substantially at zero-crossing; and repeating such firing step upon each cycle of said applied voltage while decreasing said delay angle progressively with each cycle until said operative firing angle is reached, thereby applying maximum voltage to said DC-link capacitor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- DC terminals connected to the input of the inverter;
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9. In an AC motor drive system including:
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(a) an AC/DC rectifier having AC input lines, opposite poles, main thyristors forming a bridge across said AC input lines and said poles;
(b) a precharged DC-link capacitor across said poles;
an inverter having AC output lines, and DC terminals connecting said DC-link capacitor to the inverter and (c) an AC motor supplied by said AC output lines;with first and second diode means operatively connected each between a corresponding pole of said thyristor bridge and an associated end of said DC-link capacitor for providing a current path between conducting main thyristors when the motor drive system is operating in the forward power mode; with additional first and second static switches cross-coupled between respective ends of said DC-link capacitor and respective poles of said thyristor bridge; with means for controlling said first and second additional static switches when the motor drive system is in the regenerative mode for bypassing said first and second diode means and for passing said current path through said DC-link capacitor in the opposite direction, thereby to allow energy feedback from said DC terminals through said rectifier onto said AC input lines; the combination of; one GTO device as one of said first and second additional switches and an auxiliary thyristor as the other of said first and second additional switches;
whereby one of said first and second diode means is bypassed by said GTO device and the other of said first and second diode means is bypassed by said auxiliary thyristor when said GTO device and auxiliary thyristor are conducting;with said controlling means being operative in the regenerative mode concurrently with the thyristor bridge to control conduction of said GTO device and additional thyristor; said GTO device being controlled thereafter for non-conduction during a first predetermined time interval of duration sufficient to allow decay of the current path through the operative main thyristor switches, through said auxiliary thyristor and said bypassed one of said first and second diode means.
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Specification
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Current AssigneeWestinghouse Electric Company LLC (Brookfield Asset Management Incorporated)
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Original AssigneeWestinghouse Electric Company LLC (Brookfield Asset Management Incorporated)
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InventorsSchauder, Colin D., Heinrich, Theodore M.
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Primary Examiner(s)Smith, Jr., David
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Application NumberUS06/807,569Time in Patent Office657 DaysField of Search318/803, 318/807-811, 318/762-764, 363/135-138US Class Current318/762CPC Class CodesH02M 7/529 using digital controlH02P 23/06 Controlling the motor in fo...H02P 27/08 with pulse width modulation
