Grid-connected inverter circuit and control method thereof
An inverter circuit and inverter technology, applied in electrical components, single grid parallel feeding arrangement, AC power input conversion to DC power output, etc., can solve the complex structure of grid-connected inverters and high output harmonic content. problem, to achieve the effect of simple structure and reducing output harmonic content
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example 1
[0035]Example 1, N=3, the inverter is a full-bridge inverter, the N+1-port transformer is a high-frequency self-coupling N+1-port transformer, the 2N-phase rectifier is a 2N-phase full-bridge rectifier, and the 2N+1-port inverter includes 2N+1 switching tubes, that is, in this specific embodiment, the grid-connected inverter circuit is a high-frequency isolated seven-level autotransformer grid-connected inverter single-phase circuit.
[0036] Such as figure 2 As shown, the high-frequency isolated seven-level autotransformer grid-connected inverter single-phase circuit includes a DC power supply 600, a full-bridge inverter 100, a high-frequency autotransformer N+1 port transformer 200, and a 2N-phase full-phase inverter connected in sequence. Bridge rectifier 300, 2N voltage dividing capacitors 400, 2N+1-terminal single-phase inverter 500, wherein the DC power supply 600 is connected to the two bridge arms on the DC side of the mid-high frequency half-bridge inverter part of t...
Embodiment 2
[0037] Embodiment 2, N=3, the inverter is a full-bridge inverter, the N+1-port transformer is a high-frequency auto-coupling N+1-port transformer, the 2N-phase rectifier is a 2N-phase full-bridge rectifier, and the 2N+1-port inverter The inverter is connected to the external three-phase AC system, and the 2N+1 terminal inverter includes 3*(2N+1) switching tubes, that is, in this specific embodiment, the grid-connected inverter circuit is a high-frequency isolated seven-level inverter circuit Autotransformer grid-connected inverter three-phase circuit.
[0038] Such as image 3 As shown, the high-frequency isolated seven-level autotransformer grid-connected inverter three-phase circuit is the same as the above-mentioned embodiment of a seven-level single-phase inverter circuit (embodiment 1 figure 2 ) is that the provided 2N+1 (seven)-terminal single-phase inverter is replaced by a 2N+1 (seven)-terminal three-phase inverter 100, and the three-phase outputs A, B, and C are con...
Embodiment 3
[0039] Embodiment 3, N=5, the inverter is a full-bridge inverter, the N+1-port transformer is a high-frequency self-coupling N+1-port transformer, the 2N-phase rectifier is a 2N-phase full-bridge rectifier, and the 2N+1-port inverter The inverter is connected to the external three-phase AC system, and the 2N+1 terminal inverter includes 2N+1 switch tubes, that is, in this specific embodiment, the grid-connected inverter circuit is a high-frequency isolated thirteen-level autotransformer Voltage grid-connected inverter single-phase circuit.
[0040] Such as Figure 4 As shown, the high-frequency isolated eleven-level autotransformer grid-connected inverter single-phase circuit and the seven-level single-phase inverter circuit (Example 1 figure 2 ) is that two pairs of ports are added to the output terminal of the secondary side of the high-frequency autotransformer (N changes from 3 to 5), and then two full-bridge rectifiers are respectively connected to output 4 more DC leve...
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