OPTICAL-CONTROL DRIVING CIRCUIT FOR HIGH UTILITY POWER
First Claim
1. An optical-controlled driving circuit, working under a high utility power environment with high voltages, large currents and surges, comprising:
- an optical-controlled switch circuit, including an optical-controlled component and a first switching transistor, and receiving a switch signal, wherein the optical-controlled component and the first switching transistor are connected in serial, and the optical-controlled component has at least four terminals;
an SCR with optical-controlled driver, receiving a utility power, coupled to the optical-controlled switch circuit, including;
a second switching element;
a third switching element, wherein a cathode of the third switching element is coupled to an anode of the second switching element and receives the utility power;
a first diode, wherein a cathode of the first diode is coupled to a gate of the second switching element, and an anode of the first diode is coupled to a third terminal of the optical-controlled component;
a second diode, wherein a cathode of the second diode is coupled to a gate of the third switching element, and an anode of the second diode is coupled to the anode of the first diode;
a third diode, wherein a cathode of the third diode is coupled to the anode of the second switching element, and an anode of the third diode is coupled to a fourth terminal of the optical-controlled component; and
a fourth diode, wherein a cathode of the fourth diode is coupled to an anode of the third switching element, and an anode of the fourth diode is coupled to the anode of the third diode; and
a main circuit, coupled to the SCR with optical-controlled driver, and having an A terminal, a B terminal and a ground terminal, wherein the A terminal of the main circuit is coupled to the cathode of the second switching element, and the B terminal is coupled to the anode of the third switching element.
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Accused Products
Abstract
An optical-controlled driving circuit adapts to a high utility power environment with high voltages, large currents and severe surges, and includes an optical-controlled switch circuit, an SCR with optical-controlled driver and a main circuit. The optical-controlled switch circuit includes an optical-controlled component and a first switching transistor that are connected in serial. The SCR with optical-controlled driver includes at least two switching transistors that are connected in serial and a plurality of diodes, and is coupled to the main circuit. The optical-controlled driving circuit generates a driving current according to the voltage of a utility power. When the optical-controlled driving circuit is used in a DC converter using an SCR as a switch element, the optical-controlled driving circuit helps to increase the operation efficiency when the DC converter works under a light load.
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Citations
10 Claims
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1. An optical-controlled driving circuit, working under a high utility power environment with high voltages, large currents and surges, comprising:
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an optical-controlled switch circuit, including an optical-controlled component and a first switching transistor, and receiving a switch signal, wherein the optical-controlled component and the first switching transistor are connected in serial, and the optical-controlled component has at least four terminals; an SCR with optical-controlled driver, receiving a utility power, coupled to the optical-controlled switch circuit, including; a second switching element; a third switching element, wherein a cathode of the third switching element is coupled to an anode of the second switching element and receives the utility power; a first diode, wherein a cathode of the first diode is coupled to a gate of the second switching element, and an anode of the first diode is coupled to a third terminal of the optical-controlled component; a second diode, wherein a cathode of the second diode is coupled to a gate of the third switching element, and an anode of the second diode is coupled to the anode of the first diode; a third diode, wherein a cathode of the third diode is coupled to the anode of the second switching element, and an anode of the third diode is coupled to a fourth terminal of the optical-controlled component; and a fourth diode, wherein a cathode of the fourth diode is coupled to an anode of the third switching element, and an anode of the fourth diode is coupled to the anode of the third diode; and a main circuit, coupled to the SCR with optical-controlled driver, and having an A terminal, a B terminal and a ground terminal, wherein the A terminal of the main circuit is coupled to the cathode of the second switching element, and the B terminal is coupled to the anode of the third switching element. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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Specification