APPARATUS AND METHOD FOR TURNING OFF BJT USED AS CONTROLLED RECTIFIER
First Claim
1. A controlled rectifier circuit, comprising:
- a bipolar junction transistor (BJT) configured for use as a controlled rectifier (CR) and having collector, base and emitter electrodes, said base electrode being adapted to receive a turn-on drive command for turning on said CR BJT;
a first turn-off transistor having a first electrode coupled to the base electrode, a third electrode coupled to the collector electrode, and a second electrode adapted to receive a CR BJT turn-off drive command; and
a second turn-off transistor having a first electrode coupled to the base electrode, a third electrode coupled to the emitter electrode, and a second electrode adapted to receive a CR BJT turn-off drive command;
wherein each of said turn-off transistors is configured such that in the absence of a turn-on drive command at said CR BJT and the presence of a turn-off drive command at the respective one of said turn-off transistors to conduct stored charge out of the collector-base junction of said CR BJT.
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Accused Products
Abstract
A controlled rectifier circuit having a BJT implemented as the controlled rectifier (CR) and first and second turn-off transistors coupled respectively between the base and collector and base and emitter of the CR BJT to rapidly remove stored charge from the collector-base junction of that CR BJT. The turn-off transistors may be implemented with BJTS, FETs (or related active electronic devices) and the polarity of the transistors may be the same or opposite to that of the CR BJT. Anti-saturation and drive current amplifying circuitry may be provided. A turn-off drive command may be delivered to an appropriate transistor via steering logic or an auto-steering configuration. The circuit is preferably implemented as an integrated circuit.
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Citations
25 Claims
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1. A controlled rectifier circuit, comprising:
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a bipolar junction transistor (BJT) configured for use as a controlled rectifier (CR) and having collector, base and emitter electrodes, said base electrode being adapted to receive a turn-on drive command for turning on said CR BJT;
a first turn-off transistor having a first electrode coupled to the base electrode, a third electrode coupled to the collector electrode, and a second electrode adapted to receive a CR BJT turn-off drive command; and
a second turn-off transistor having a first electrode coupled to the base electrode, a third electrode coupled to the emitter electrode, and a second electrode adapted to receive a CR BJT turn-off drive command;
wherein each of said turn-off transistors is configured such that in the absence of a turn-on drive command at said CR BJT and the presence of a turn-off drive command at the respective one of said turn-off transistors to conduct stored charge out of the collector-base junction of said CR BJT. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
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17. A controlled rectifier circuit, comprising:
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a bipolar junction transistor (BJT) configured for use as a controlled rectifier (CR) and having collector, base and emitter electrodes, said base electrode being adapted to receive a turn-on drive command for turning on said CR BJT;
a first turn-off transistor having a first electrode coupled to the base of the CR BJT, a third electrode coupled to the collector of the CR BJT, and a second electrode adapted to receive a CR BJT turn-off drive command, said first turn-off transistor being configured to rapidly remove stored charge from the base-collector junction of the CR BJT when the collector-emitter voltage of the CR BJT is of a negative polarity; and
a second turn-off transistor having a first electrode coupled to the base of the CR BJT, a third electrode coupled to the emitter of the CR BJT, and a second electrode adapted to receive a CR BJT turn-off drive command, said second turn-off transistor being configured to rapidly removed stored charge from the base-collector junction of the CR BJT when the collector-emitter voltage of the CR BJT is of a positive polarity. - View Dependent Claims (18, 19, 20)
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21. A controlled rectifier circuit, comprising:
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a bipolar junction transistor (BJT) configured for use as a controlled rectifier (CR) and having collector, base and emitter electrodes, said base electrode being adapted to receive a turn-on drive command for turning on said CR BJT;
a first active electronic device coupled between the collector and base electrodes of the CR BJT and configured to rapidly removed stored charge from the collector-base junction of the CR BJT; and
a second active electronic device coupled between the base and emitter electrodes of the CR BJT and configured to rapidly remove stored charge from the collector-base junction of the CR BJT. - View Dependent Claims (22, 23, 24)
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25. A controlled rectifier circuit, comprising:
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a bipolar junction transistor (BJT) configured for use as a controlled rectifier (CR) and having collector, base and emitter electrodes, said base electrode being adapted to receive a turn-on drive command for turning on said CR BJT;
a first turn-off transistor having first, second and third electrodes that is coupled to said CR BJT between the base and collector of said CR BJT, the first electrode being coupled to the base of the CR BJT, the third electrode being coupled to the collector of the CR BJT and the second electrode being adapted to receive a CR BJT turn-off drive command; and
a second turn-off transistor having first, second and third electrodes that is coupled to said CR BJT between the base and emitter of said CR BJT, the first electrode being coupled to the base of the CR BJT, the third electrode being coupled to the emitter of the CR BJT and the second electrode being adapted to receive a CR BJT turn-off drive command;
wherein said first turn-off transistor is configured such that in the absence of a turn-on drive command at the base of the CR BJT, the presence of a turn-off drive command at the second electrode of the first turn-off transistor and when the collector-emitter voltage of the CR BJT is of reverse polarity to conduct stored charge out of the collector base junction of the CR BJT to thereby rapidly turn-off the CR BJT; and
further wherein said second turn-off transistor is configured such that in the absence of a turn-on drive command at the base of the CR BJT, the presence of a turn-off drive command at the second electrode of the second turn-off transistor and when the collector-emitter voltage of the CR BJT is of forward polarity to conduct stored charge out of the collector base junction of the CR BJT to thereby rapidly turn-off the CR BJT.
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Specification