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Optimization method for reducing electromagnetic loss of motor

A technology of electromagnetic loss and optimization method, which is applied in the direction of control of generators, motor generators, and electromechanical brakes. It can solve problems such as optimization of electromagnetic losses, influence on electromagnetic losses of motors, and serious magnetic saturation effects, and achieve the goal of reducing electromagnetic losses. Effect

Active Publication Date: 2019-06-25
包头天工电机有限公司
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Problems solved by technology

Compared with traditional industrial frequency motors, the wide speed range of motors for vehicles makes the influence of motor control mode on iron loss intensified, which makes it necessary to calculate the electromagnetic loss under the control of motor SVPWM, and the magnetic saturation effect of the motor stator causes electromagnetic parameters Non-linear changes, especially in the low-speed and high-torque area, the magnetic saturation effect is more serious, which makes the current harmonics generated by the motor during the SVPWM control process change, which in turn affects the electromagnetic loss generated by the motor
At the same time, the electromagnetic loss in the low-speed and high-torque region of the motor is relatively high, which leads to the problem of temperature rise of the motor and limits the increase of the peak torque of the motor. At present, the optimization of electromagnetic loss is mainly for rated working conditions, and there is no solution for low-speed and high-torque motors. Research on the optimization of electromagnetic losses in the region has emerged

Method used

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  • Optimization method for reducing electromagnetic loss of motor
  • Optimization method for reducing electromagnetic loss of motor
  • Optimization method for reducing electromagnetic loss of motor

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Embodiment Construction

[0044] An optimization method for reducing the electromagnetic loss in the low-speed and high-torque region of the motor provided by the present invention will be further explained in detail below in conjunction with the accompanying drawings.

[0045] Such as figure 1 As shown, the method provided by the present invention specifically includes the following steps:

[0046]Step 1. Obtain the dq-axis flux data of the motor under different currents, and establish motor voltage, flux and electromagnetic torque equations considering the magnetic saturation effect according to the relationship between the dq-axis flux and current.

[0047] Step 2: Establishing the SVPWM control model of the motor under nonlinear flux linkage according to the equation established in the step, and obtaining the phase current of the motor under the condition of low speed and high torque.

[0048] Step 3. Based on the phase current obtained in the step 2, establish an electromagnetic loss calculation ...

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Abstract

The invention provides an optimization method for reducing electromagnetic loss of a motor. The method comprises the steps: building a calculation model of the electromagnetic loss of the motor through considering an SVPWM control model under the magnetic saturation effect, so that the optimization method for reducing the electromagnetic loss in the low-speed large-torque region of the motor is obtained, a theoretical basis is provided for improvement of the peak torque of the motor, and multiple effects which are not achieved in the prior art are achieved.

Description

technical field [0001] The present application relates to the field of motor optimization design, in particular to an optimization method for reducing the electromagnetic loss of a motor. Background technique [0002] The peak torque of the motor directly affects the acceleration capability of the motor and plays a vital role in the power performance of the motor. The generation of electromagnetic loss of the motor is closely related to the interaction of the electromagnetic field inside the motor, which is an important factor restricting the peak torque of the motor. The electromagnetic loss of the motor mainly includes winding copper loss, stator iron loss and rotor eddy current loss. Since the eddy current loss in the rotor iron loss is far greater than the hysteresis loss, the rotor iron loss and the permanent magnet eddy current loss are collectively called the rotor eddy current loss. [0003] At present, SVPWM control is widely used in motor control technology. Moto...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02P21/02H02P21/30
CPCH02P21/02H02P21/30
Inventor 张承宁冯艳丽
Owner 包头天工电机有限公司
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