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SHEPWM adopted T type three-level inverter neutral-point voltage balance control method

A technology of a three-level inverter and a control method, which is applied in the direction of electrical components, output power conversion devices, and conversion of AC power input to DC power output, and can solve problems such as difficulty in meeting high power quality requirements of large power grids, achieve the effect of maintaining the ability to cancel harmonics

Active Publication Date: 2016-06-15
SHANDONG UNIV
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Problems solved by technology

[0002] With the large-scale access of distributed energy sources including photovoltaic power generation systems to the low-voltage distribution network, the power grid puts forward higher requirements on the output current waveform quality of grid-connected inverters. It is difficult for traditional two-level grid-connected inverters to meet large-scale Power grid high power quality requirements

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  • SHEPWM adopted T type three-level inverter neutral-point voltage balance control method
  • SHEPWM adopted T type three-level inverter neutral-point voltage balance control method
  • SHEPWM adopted T type three-level inverter neutral-point voltage balance control method

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Embodiment Construction

[0043] The present invention will be further described below in conjunction with the accompanying drawings and embodiments.

[0044] as figure 1 The T-type three-level inverter structure shown illustrates the inverter control strategy.

[0045] Including parallel three-phase bridge arms, each phase bridge arm includes two IGBT tubes in series, one side of the midpoint of each phase bridge arm is connected in series with two IGBT tubes in different directions, and the other side is connected to a resistor through a filter; in parallel The input terminals of each bridge arm of each bridge arm are connected to the input voltage source; two capacitors are connected in parallel at both ends of the input voltage source, and the connection of the two capacitors is connected to one end of the IGBT tubes in two different directions of each bridge arm, and each IGBT tube is controlled by a control signal drive.

[0046] Two capacitors C are connected in series on the DC side 1 and C ...

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Abstract

The invention discloses an SHEPWM (selective harmonic elimination pulse width modulation) adopted T type three-level inverter neutral-point voltage balance control method. The number of switching angles in each period is determined according to the number of harmonic orders needing to be eliminated; a selective harmonic elimination pulse width modulation switching angle is solved based on a multi-objective particle swarm optimization method to generate a corresponding selective harmonic elimination pulse width modulation signal; the T type three-level inverter neutral-point voltage is collected; the signal is optimized; if the T type three-level inverter neutral-point voltage is within a threshold value range, the T type three-level inverter is not changed and the signal directly enters the three-level inverter; and or otherwise, the switching state is replaced by a corresponding low-vector signal to modify the selective harmonic elimination pulse width modulation signal. The control method provided by the invention has the same function of eliminating low-order harmonics as the conventional SHEPWM; and in addition, the control method can maintain the neutral-point voltage balance and can enable the T type three-level inverter to operate stably and efficiently.

Description

technical field [0001] The invention relates to a middle point voltage balance control method of a T-type three-level inverter adopting SHEPWM. Background technique [0002] With the large-scale access of distributed energy sources including photovoltaic power generation systems to the low-voltage distribution network, the power grid puts forward higher requirements on the output current waveform quality of grid-connected inverters. It is difficult for traditional two-level grid-connected inverters to meet large-scale Grid high power quality requirements. The emergence of T-type three-level grid-connected inverters solves the above problems, such as figure 1 As shown, compared with the traditional two-level inverter, the inverter has the advantages of small harmonics, low switching loss, and small electromagnetic interference; compared with the traditional diode-clamped three-level inverter, the inverter has The number of switches is small, the conduction loss is small, an...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02M7/487H02M7/5395
CPCH02M7/487H02M7/5395
Inventor 张承慧张桐盛杜春水陈阿莲秦昌伟邢相洋
Owner SHANDONG UNIV
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