DC/AC CONVERTER AND CONTROLLER THEREOF
First Claim
1. A DC/AC converter comprising:
- a resonant circuit having a first capacitor connected to at least one of primary and secondary windings of a transformer and an output end connected to a load, the resonant circuit being configured to receive an alternating signal having a predetermined frequency and amplitude to supply a current;
a variable impedance element connected in parallel with a part of the output end of the resonant circuit, the variable impedance element being configured to change the impedance value thereof according to a current passing through the load; and
a controller configured to control the current passing through the load at a predetermined value by controlling the resonant frequency of the resonant circuit according to the impedance value of the variable impedance element.
1 Assignment
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Accused Products
Abstract
A DC/AC converter includes a resonant circuit having a first capacitor connected to at least one of a primary winding and a secondary winding of a transformer and an output end connected to a load, the resonant circuit receiving an alternating signal having a predetermined frequency and amplitude to pass a current, a variable impedance element connected in parallel with a part of the output end of the resonant circuit, the variable impedance element changing the impedance value thereof according to a current passing through the load, and a controller to control the current passing through the load to a predetermined value by changing the resonant frequency of the resonant circuit according to the changed impedance value of the variable impedance element.
11 Citations
7 Claims
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1. A DC/AC converter comprising:
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a resonant circuit having a first capacitor connected to at least one of primary and secondary windings of a transformer and an output end connected to a load, the resonant circuit being configured to receive an alternating signal having a predetermined frequency and amplitude to supply a current; a variable impedance element connected in parallel with a part of the output end of the resonant circuit, the variable impedance element being configured to change the impedance value thereof according to a current passing through the load; and a controller configured to control the current passing through the load at a predetermined value by controlling the resonant frequency of the resonant circuit according to the impedance value of the variable impedance element. - View Dependent Claims (2, 3, 4, 5, 7)
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6. A controller for a DC/AC converter, comprising:
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a detection unit configured to detect an electric characteristic of a load; a comparator configured to compare the detected electric characteristic with a reference value and find an error between them; a variable impedance element connected in parallel with a part of an output end of a resonant circuit that includes a transformer and capacitors, the output end of the resonant circuit being connected to the load; and a control part configured to control the impedance value of the variable impedance element according to the error provided by the comparator, change the resonant frequency of the resonant circuit according to the changed impedance value, and thereby control a current passing through the load to a predetermined value.
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Specification