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A Space Voltage Vector Modulation Method for Multiphase Inverters

A technology of space voltage vector and modulation method, which is applied in the direction of vector control system, motor generator control, AC motor control, etc. It can solve the problems of poor control effect of multi-phase motors, inability to accurately synthesize the desired voltage vector, etc., and achieve simplified sectors The effect of dividing process, torque ripple reduction, and halving the number of sectors

Active Publication Date: 2021-03-02
FUZHOU UNIV
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Problems solved by technology

[0005] At present, the existing multi-phase inverter space voltage vector modulation methods are basically divided into two categories: the first category is the method of selecting a single basic voltage vector in a control cycle, which has the problem of not being able to accurately synthesize the desired voltage vector, making The control effect of multi-phase motors is poor. The second type is the method of selecting multiple basic voltage vectors in one control cycle to synthesize the desired voltage vector, which is only applicable to the case where the desired voltage of the harmonic plane is 0, and requires the sub-plane The basic voltage vector distribution conforms to the specific case

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  • A Space Voltage Vector Modulation Method for Multiphase Inverters

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Embodiment Construction

[0047] The technical solution of the present invention will be specifically described below in conjunction with the accompanying drawings.

[0048] The present invention proposes a multi-phase inverter space voltage vector modulation method, which is applied to multi-phase inverters to drive multi-phase motors. The block diagram is as follows figure 1 shown. First, the sub-plane is divided into sectors according to the control requirements. The principle of sector division is that the basic voltage vector on the sub-plane has a larger projection amplitude in adjacent sectors, and the sectors are often divided with the basic voltage vector on the sub-plane as the boundary. Assume that there are S kinds of sector division situations, and determine m linearly independent basic voltage vectors selected in each case. These m linearly independent basic voltage vectors have the following characteristics: It has a larger projection amplitude on the plane of , and has a smaller projec...

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Abstract

The invention relates to a novel space voltage vector modulation method for a multi-phase inverter. The method is characterized by dividing each sub-plane into S kinds of sectors according to controlrequirements, and determining m linearly independent basic voltage vectors selected under each condition; carrying out calculating to obtain m expected voltages in each digital control period according to n-phase current on an n-phase motor, electric angle velocity, bus voltage and digital control periods, and expressing the m expected voltages in a vector form; calculating the angle of a synthesized expected voltage vector of each sub-plane in a corresponding plane, and judging the sector where the synthesized expected voltage vector is located and met sector division conditions; selecting mlinearly independent basic voltage vectors, calculating the action time in synthesizing the m linearly independent basic voltage vectors into m expected voltage vectors, and replacing the voltage vector whose action time ti is smaller than 0 with the voltage vector in the opposite direction; and converting the finally output m linearly independent basic voltage vectors and the action time thereofinto duty ratio Dx, outputting the duty ratio Dx to each bridge arm of the n-phase voltage source inverter, and driving the multi-phase motor.

Description

technical field [0001] The invention relates to a multiphase inverter space voltage vector modulation method. Background technique [0002] Multiphase motors have the characteristics of small torque ripple, high reliability, good fault tolerance, and large capacity. They are widely used in low-voltage and high-power applications such as electric vehicles, aviation equipment, and rail transit. The research on their control methods has attracted much attention. The control method determines the output of the multi-phase inverter, and then drives the multi-phase motor to run stably. [0003] Different polyphase motors have different constant power transformation matrices. The constant power transformation matrix decouples and transforms the mathematical model in the natural coordinate system of the polyphase motor to the static Cartesian coordinate system, and decouples the fundamental and harmonic decoupling transformation of the polyphase motor into Multiple sub-planes are c...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H02P21/00H02P21/05H02P25/02H02P27/06
CPCH02P21/00H02P21/05H02P25/02H02P27/06
Inventor 周扬忠陈相屈艾文陈艳慧钟天云
Owner FUZHOU UNIV
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