Three-state monolithic static switch
First Claim
Patent Images
1. A circuit designed to be inserted in an ac supply circuit, comprising:
- a three-state switch including a cathode gate thyristor and an anode gate thyristor connected head-to-tail, a gate of the cathode gate thyristor forming a control terminal and being connected through a resistor to a gate of the anode gate thyristor, the switch being open in a first state, the switch allowing a current of a first polarity to flow in a second state, and the switch allowing a current of a second polarity to flow in a third state; and
a state selection circuit including a selector having a first terminal and a second terminal, the first terminal of the selector being connected to the control terminal and the second terminal of the selector being directly connected to a cathode of the cathode gate thyristor when the switch is in the first state, being floating when the switch is in the second state, and being connected to a voltage lower, by a predetermined value, than a cathode voltage of the cathode gate thyristor when the switch is in the third state.
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Abstract
A three-state switch designed to be inserted in an ac supply circuit and associated with a state selection circuit. In a first state, the switch is open and does not allow current to flow. In a second state, the switch allows current of a first polarity to flow. In a third state, the switch allows a current of a second polarity to flow. The switch includes a cathode gate thyristor and an anode gate thyristor connected head-to-tail, the gate of the cathode gate thyristor forming a control terminal and being connected through a resistor to the gate of the anode gate thyristor.
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Citations
20 Claims
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1. A circuit designed to be inserted in an ac supply circuit, comprising:
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a three-state switch including a cathode gate thyristor and an anode gate thyristor connected head-to-tail, a gate of the cathode gate thyristor forming a control terminal and being connected through a resistor to a gate of the anode gate thyristor, the switch being open in a first state, the switch allowing a current of a first polarity to flow in a second state, and the switch allowing a current of a second polarity to flow in a third state; and a state selection circuit including a selector having a first terminal and a second terminal, the first terminal of the selector being connected to the control terminal and the second terminal of the selector being directly connected to a cathode of the cathode gate thyristor when the switch is in the first state, being floating when the switch is in the second state, and being connected to a voltage lower, by a predetermined value, than a cathode voltage of the cathode gate thyristor when the switch is in the third state. - View Dependent Claims (2, 3, 4, 5)
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6. A three-state switch comprising:
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a first switch terminal; a second switch terminal; a third switch terminal having a first state, a second state, and a third state; a first unidirectional switching component having a first terminal coupled to the first switch terminal, a second terminal coupled to the second switch terminal, and a control terminal coupled to the third switch terminal, the first switching component conducting current from the first switch terminal to the second switch terminal when the third switch terminal has the first state; and a second unidirectional switching component having a first terminal coupled to the second switch terminal, a second terminal coupled to the first switch terminal, and a control terminal coupled to the third switch terminal, the second switching component conducting current from the second switch terminal to the first switch terminal when the third switch terminal has the second state; wherein neither of the first and second switching components conduct current when the third switch terminal has the third state. - View Dependent Claims (7, 8, 9, 10, 11, 12, 13, 14)
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15. A three-state switch, comprising:
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a first terminal; a second terminal; first means, coupled between the first and second terminals, for conducting current in a first direction; second means, coupled between the first and second switch terminals, for conducting current in a second direction, the second direction being opposite to the first direction; and
control means, coupled to the first and second means, for controlling conduction of current between the first and second terminals to be one of in the first direction only, in the second direction only, or not at all;wherein the control means includes; a reference voltage terminal to provide a voltage lower than a voltage at the second terminal; and a selector having a first terminal and a second terminal, the first terminal of the selector being coupled to the first means and the second means, and the second terminal of the selector being floating to control conduction in the first direction only, being coupled to the reference voltage terminal to control conduction in the second direction only, and being coupled to the second terminal of the three-state switch to prevent conduction between the first and second terminals of the three-state switch.
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16. A method of controlling current flow through a three-state switch, comprising the steps of:
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allowing current to flow from a first terminal of the switch to a second terminal of the switch when a voltage at the first terminal is higher than a voltage at the second terminal and the switch has a first state; allowing current to flow from the second terminal to the first terminal when the voltage at the second terminal is higher than the voltage at the first terminal and the switch has a second state; preventing current from flowing between the first and second terminals when the switch has a third state; and limiting current flowing from the first terminal to the second terminal to a negligible value when the voltage at the first terminal is higher than the voltage at the second terminal and the switch has the second state; wherein the switch includes a control terminal and the step of allowing current to flow from the second terminal to the first terminal includes a step of connecting the control terminal to a voltage that is more negative than the voltage at the second terminal.
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17. A method of controlling current flow through a three-state switch, comprising the steps of:
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allowing current to flow from a first terminal of the switch to a second terminal of the switch when a voltage at the first terminal is higher than a voltage at the second terminal and the switch has a first state; allowing current to flow from the second terminal to the first terminal when the voltage at the second terminal is higher than the voltage at the first terminal and the switch has a second state; preventing current from flowing between the first and second terminals when the switch has a third state; and limiting current flowing from the first terminal to the second terminal to a negligible value when the voltage at the first terminal is higher than the voltage at the second terminal and the switch has the second state; wherein the step of allowing current to flow from the first terminal to the second terminal is performed by a first thyristor, and the step of allowing current to flow from the second terminal to the first terminal is performed by a second thyristor, the method further comprising a step of; generating, in the second thyristor, a gate current to provide to the first thyristor when the voltage at the first terminal is higher than the voltage at the second terminal and the switch has the first state.
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18. A three-state switch, comprising:
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a first terminal; a second terminal; first means, coupled between the first and second terminals, for conducting current in a first direction; second means, coupled between the first and second switch terminals, for conducting current in a second direction, the second direction being opposite to the first direction; and control means, coupled to the first and second means, for controlling conduction of current between the first and second terminals to be one of in the first direction only, in the second direction only, or not at all; wherein; the first means includes a three-terminal cathode gate thyristor having an anode that is coupled to the first terminal, a cathode that is coupled to the second terminal, and a gate that is coupled to the control means; and the second means includes a three-terminal anode gate thyristor having an anode that is coupled to the second terminal, a cathode that is coupled to the first terminal, and a gate that is coupled to the control means. - View Dependent Claims (19, 20)
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Specification