Single-phase self-driven full-bridge synchronous rectification
First Claim
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1. An energy receiving circuit for use in an inductive power transfer system, comprising:
- a secondary winding;
a capacitor coupled in series to said secondary winding to form a current-source or a voltage-source when placed in physical proximity to a primary winding, said current- or voltage-source being coupled between a first input node and second input node a first circuit element coupled between the first input node and a first output node;
a second circuit element coupled between the second input node and the first output node;
a third circuit element coupled between a second output node and the first input node, the second and third circuit elements forming a first group;
a fourth circuit element coupled between the second output node and the second input node, the first and fourth circuit elements forming a second group;
an output capacitor coupled between the first and second output nodes;
a rectified output coupled in parallel with the output capacitor;
wherein a plurality of the circuit elements, including one of the circuit elements from each of the groups, is a self-driven current-controlled active switch comprising a sensing resistor coupled between one of the input nodes and one of the output nodes; and
wherein the other circuit element in each group is a voltage-controlled active switch.
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Abstract
A full-bridge rectifier is configured to provide synchronous rectification with either a current-source or a voltage-source. The rectifier has an upper branch and a lower branch and two current loops, with each of the branches including voltage- or current-controlled active switches, diodes or combinations thereof that are selected such that each loop includes one active switch or diode from the upper branch and one active switch or diode from the lower branch, and each current loop comprises at least one diode or current-controlled active switch, and at least one voltage- or current-controlled active switch is included in one of the upper or lower branches.
36 Citations
3 Claims
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1. An energy receiving circuit for use in an inductive power transfer system, comprising:
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a secondary winding; a capacitor coupled in series to said secondary winding to form a current-source or a voltage-source when placed in physical proximity to a primary winding, said current- or voltage-source being coupled between a first input node and second input node a first circuit element coupled between the first input node and a first output node; a second circuit element coupled between the second input node and the first output node; a third circuit element coupled between a second output node and the first input node, the second and third circuit elements forming a first group; a fourth circuit element coupled between the second output node and the second input node, the first and fourth circuit elements forming a second group; an output capacitor coupled between the first and second output nodes; a rectified output coupled in parallel with the output capacitor; wherein a plurality of the circuit elements, including one of the circuit elements from each of the groups, is a self-driven current-controlled active switch comprising a sensing resistor coupled between one of the input nodes and one of the output nodes; and wherein the other circuit element in each group is a voltage-controlled active switch. - View Dependent Claims (2, 3)
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Specification
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Current AssigneeConvenientPower HK Limited
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Original AssigneeConvenientPower HK Limited
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InventorsHo, Wing Choi, Hui, Ron Shu Yuen, Liu, Xun
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Primary Examiner(s)Zhang, Jue
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Application NumberUS12/194,921Publication NumberTime in Patent Office2,351 DaysField of Search363/21.06, 363125-127US Class Current363/126CPC Class CodesH02M 7/217 using semiconductor devices...H02M 7/2195 the switches being synchron...Y02B 70/10 Technologies improving the ...
