2N+1 level voltage inverter
First Claim
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1. A bidirectional system for converting a direct input voltage into an alternating output voltage comprising at least one phase, the bidirectional system including:
- two input terminals,two voltage generators connected in series between the two input terminals and connected to one another by a first middle point,an output terminal,two switching branches, each of the two switching branches connected between the output terminal and a respective one of the two input terminals, each of the two switching branches comprising N first switching cells connected in series and having one of N−
1 intermediate points between adjacent ones of the N first switching cells, N being an integer greater than or equal to 2,N−
1 pairs of capacitors, a first capacitor of each of the N−
1 pairs of capacitors being connected between one of the N−
1 intermediate points of a first one of the two switching branches and one of N−
1 second middle points, a second capacitor of each of the N−
1 pairs of capacitors being connected between one of the N−
1 intermediate points of a second one of the two switching branches and one of the N−
1 second middle points, the first capacitor of each of the N−
1 pairs of capacitors and the second capacitor of each of the N−
1 pairs of capacitors being connected to one another by one of the N−
1 second middle points,N second switching cells, one of the N second switching cells being connected between the output terminal and one of the N−
1 second middle points, and each of the other of the N second switching cells being connected between two middle points, the two middle points including at least one of the N−
1 second middle points, andcontrol means for controlling the N first switching cells and the N second switching cells,wherein the control means is capable of controlling the switching of the N first switching cells and the N second switching cells according to a control law, and the control law is such that a current flows, for at least one given value of the alternating output voltage, through a first capacitor of a first pair of the N−
1 pairs of capacitors in a first direction during a first phase, then in a second direction opposite the first direction through the first capacitor of the first pair of the N−
1 pairs of capacitors during a second phase.
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Abstract
This system for converting a direct input voltage into an alternating output voltage comprises two input terminals, two voltage generators connected in series between the input terminals and connected to one another by a middle point, as well as, for each phase of the alternating voltage, an output terminal, two switching branches each connected between the output terminal and a respective input terminal, each switching branch comprising N first switching cells connected in series and N−1 intermediate points, the first switching cells successively being connected to one another by a corresponding intermediate point, N being an integer greater than or equal to 2, and control means for controlling the first switching cells. The system includes, for each phase of the alternating voltage, N−1 pair(s) of capacitors, each pair of capacitors being connected between intermediate points of one of the two switching branches and the other of the two switching branches.
13 Citations
20 Claims
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1. A bidirectional system for converting a direct input voltage into an alternating output voltage comprising at least one phase, the bidirectional system including:
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two input terminals, two voltage generators connected in series between the two input terminals and connected to one another by a first middle point, an output terminal, two switching branches, each of the two switching branches connected between the output terminal and a respective one of the two input terminals, each of the two switching branches comprising N first switching cells connected in series and having one of N−
1 intermediate points between adjacent ones of the N first switching cells, N being an integer greater than or equal to 2,N−
1 pairs of capacitors, a first capacitor of each of the N−
1 pairs of capacitors being connected between one of the N−
1 intermediate points of a first one of the two switching branches and one of N−
1 second middle points, a second capacitor of each of the N−
1 pairs of capacitors being connected between one of the N−
1 intermediate points of a second one of the two switching branches and one of the N−
1 second middle points, the first capacitor of each of the N−
1 pairs of capacitors and the second capacitor of each of the N−
1 pairs of capacitors being connected to one another by one of the N−
1 second middle points,N second switching cells, one of the N second switching cells being connected between the output terminal and one of the N−
1 second middle points, and each of the other of the N second switching cells being connected between two middle points, the two middle points including at least one of the N−
1 second middle points, andcontrol means for controlling the N first switching cells and the N second switching cells, wherein the control means is capable of controlling the switching of the N first switching cells and the N second switching cells according to a control law, and the control law is such that a current flows, for at least one given value of the alternating output voltage, through a first capacitor of a first pair of the N−
1 pairs of capacitors in a first direction during a first phase, then in a second direction opposite the first direction through the first capacitor of the first pair of the N−
1 pairs of capacitors during a second phase. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
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20. A bidirectional system, comprising:
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a first input terminal and a second input terminal; a first voltage generator and a second voltage generator connected in series between the input terminals and being connected to one another at a first middle point; an output terminal, a first switching branch and a second switching branch, each of the first switching branch and the second switching branch is connected between the output terminal and a respective one of the first input terminal and the second input terminal, each of the first switching branch and the second switching branch including a plurality of first switching cells, two of the plurality of first switching cells of the first switching branch being connected to one another at a first intermediate point and two of the plurality of first switching cells of the second switching branch being connected to one another at a second intermediate point; a first capacitor and a second capacitor, the first capacitor being connected between the first intermediate point a second middle point, the second capacitor being connected between the second intermediate point and the second middle point, the first capacitor and the second capacitor being connected to one another at the second middle point; a plurality of second switching cells, a first one of the second switching cells being connected between the output terminal and the second middle point, and a second one of the second switching cells being connected between the second middle point and the first middle point; and control means for controlling the plurality of first switching cells and the plurality of second switching cells, wherein the control means is capable of controlling the switching of the plurality of first switching cells and the plurality of second switching cells according to a control law, and the control law is such that a current flows, for at least one given value of an alternating output voltage, through one of the first capacitor and the second capacitor in a first direction during a first phase, then in a second direction opposite the first direction through the same one of the first capacitor and the second capacitor during a second phase.
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Specification
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Current AssigneeGE Energy Power Conversion Technology Limited (General Electric Company)
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Original AssigneeGE Energy Power Conversion Technology Limited (General Electric Company)
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InventorsSoua, Samir
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Primary Examiner(s)Laxton, Gary L
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Assistant Examiner(s)DANG, TRINH Q
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Application NumberUS13/474,649Publication NumberTime in Patent Office1,139 DaysField of Search363/131, 363/17, 363/51, 363/132, 363/55, 363/57, 363/98, 363/41, 363/138, 363/97, 363/133, 363/134, 363/95, 363/136, 363/137, 363/37, 363/39, 363/123, 363/126, 363/35, 363/36, 363/56.01, 363/56.02US Class Current1/1CPC Class CodesH02M 1/0095 Hybrid converter topologies...H02M 7/4837 Flying capacitor convertersH02M 7/487 Neutral point clamped inver...
