Torque Ripple Minimization in Switched Reluctance Machines

Li, Haoding

January 2017

Due to its cheap production costs, simple construction, and robustness, switched reluctance machines are viable candidates for traction motor drive applications in the electrification of transportation. However, high torque ripple and acoustic noise limit the performance of switched reluctance motors (SRM). This thesis considers control methods to reduce the electromagnetic torque ripple in SRM, while also analyzing the impact of these control methods on other aspect of machine performance, such as copper losses and radial force production. Traditionally, SRM is controlled using rectangular current profiles which are excited using discrete pulsations. Timing of these pulsations is quantified with conduction angles, and the performance of the machine at a given operating point can be optimized by carefully choosing these conduction angles. This thesis starts the analysis on controls of SRM using the conduction angle parameters to determine a baseline of torque ripple performance for comparison against advanced control techniques developed afterwards. Recently, current profiling techniques have been developed, and have been shown to have high performance for torque ripple reduction. In this thesis, one such technique is proposed in the form of an optimization problem where the solution of this problem yields an optimized current profile that both minimizes torque ripple while reducing copper losses. The proposed current profiling technique ensures good current tracking, which allow for optimal control performance over a wide speed range. Finally, this thesis shows the torque more generally as one component of the nodal forces in SRM. The other component of the nodal forces is the radial forces, which contributes to the noise, vibrations, and harshness of the machine. In this thesis, modeling of the radial forces has been conducted, and effects of the proposed current profiling technique on radial forces have been shown to comprehensively illustrate the performance of the current profiling technique. / Thesis / Master of Applied Science (MASc)

switched reluctance machines

torque ripple

Design and control strategy for noise and torque-ripple reduction in a variable reluctance motor

Poh, Chung-How

January 2006

The variable reluctance motor (VRM) is known for its structural simplicity, lower cost and capability of higher specific outputs compared with the AC induction motor. These favourable attributes arise from the way the torque is generated. An asymmetric half bridge would commonly be used as the controller for the VRM. It is also a relatively simple circuit because unlike the requirement with an AC induction motor, the imput current for a VRM would only need to be able to travel in one direction.

Electrical Engineering

variable reluctance motor

torque ripple

acoustic noise

minimisation

Advanced Torque Ripple Reduction Methods in Switched Reluctance Motor Drives

Xia, Zekun

January 2020

This thesis presents advanced torque control methods for torque ripple reduction and performance improvement in switched reluctance motor (SRM) drives. A new offline torque sharing function (TSF) method is proposed for torque ripple reduction in SRMs. The proposed TSF achieves lower current tracking error by establishing a new current reference generation strategy. The phase current reference is first derived from the torque command using offline calculations and also from the phase current response that is obtained from the dynamic model of the SRM. Then, an optimization problem is formulated to shape the current reference for the objective of minimizing the torque ripple and copper losses, while maintaining the required average output torque at the given operating speed. The dynamic simulation of the SRM model is also utilized in the optimization problem. A new online TSF method is proposed for torque ripple reduction in SRMs. The proposed TSF takes the current dynamics and induced electromotive force into account by establishing a new online current profile generation technique. First, a primary phase current reference derived from the torque reference is applied to the SRM. Then, the decaying phase current after the turn-off angle is sampled, and it is used to update the current reference. A new online optimization strategy is performed to shape the current reference during the operation of the machine. Owing to the proposed current profile generation technique, the optimization process is decoupled to independently minimize the torque ripple by optimizing the turn-on angle and minimizing copper losses by optimizing the turn-off angle. Compared to the conventional TSFs and existing optimization-based TSFs, the proposed two TSFs achieve accurate torque control, improved torque-speed capability, reduced torque ripple, and better current tracking performance. All the proposed TSF methods are validated by both simulations and experiments on a 3-phase, 12/8 SRM. / Dissertation / Doctor of Philosophy (PhD)

switched reluctance machine

torque ripple

torque control

torque sharing function

Desenvolvimento de uma plataforma digital para a minimização da vibração e da ondulação de torque de um motor de relutância chaveado. / Development of a digital test setup for minimizing the torque ripple and the vibration of a swiched reluctance motor.

Daniel Augusto Prudente Corrêa

14 August 2009

A finalidade inicial deste estudo é desenvolver uma metodologia de análise da ondulação de torque de um motor de relutância chaveado especial bifásico com 4 pólos no estator e 2 no rotor (MRC 4/2) através de dados experimentais de aceleração. De forma a validar o método proposto, são apresentados resultados experimentais de aceleração obtidos com dois rotores: o rotor de referência e o rotor otimizado. Uma vez alcançados os objetivos de otimização do torque através da modificação da geometria do rotor, implementou-se um estudo complementar de modo a explorar a vibração e a ondulação de torque, do ponto de vista do acionamento. Desta forma, desenvolveu-se uma plataforma digital de testes, onde os dados de aceleração podem ser monitorados no domínio da frequência, e os parâmetros de controle do acionamento, tais como, a velocidade, os ângulos de ligamento e condução são flexíveis e podem ser alterados através de programa. A plataforma digital foi concebida a partir de um kit de desenvolvimento (eZdsp LF2407A) associado a uma interface de controle serial, desenvolvida a partir de um aplicativo LabView, instalado num microcomputador. / The initial purpose of this study is to develop a methodology of analysis of the torque ripple of a two-phase special SRM 4/2 using acceleration experimental data. In order to validate the proposed method, acceleration experimental results are presented, these results were obtained with two rotors: the reference rotor and the optimized rotor. Once the torque optimization objectives were reached by modifying the rotor geometry, a complementary study from the point of view of motor drive vibration and torque ripple optimization was carried out. Thus, a test digital setup was developed, where the acceleration data could be monitored, in the frequency domain, and the drive control parameters, such as speed, turn-on and dwell angles, and phase current were flexible and could be altered by program. The test digital setup was conceived using a development kit (eZdsp LF2407A) associated with a serial control interface developed on a LabView application, installed in a microcomputer.

Máquinas elétricas

Switched reluctance motor (SRM)

Torque ripple

Vibration

Desenvolvimento de uma plataforma digital para a minimização da vibração e da ondulação de torque de um motor de relutância chaveado. / Development of a digital test setup for minimizing the torque ripple and the vibration of a swiched reluctance motor.

Corrêa, Daniel Augusto Prudente

14 August 2009

A finalidade inicial deste estudo é desenvolver uma metodologia de análise da ondulação de torque de um motor de relutância chaveado especial bifásico com 4 pólos no estator e 2 no rotor (MRC 4/2) através de dados experimentais de aceleração. De forma a validar o método proposto, são apresentados resultados experimentais de aceleração obtidos com dois rotores: o rotor de referência e o rotor otimizado. Uma vez alcançados os objetivos de otimização do torque através da modificação da geometria do rotor, implementou-se um estudo complementar de modo a explorar a vibração e a ondulação de torque, do ponto de vista do acionamento. Desta forma, desenvolveu-se uma plataforma digital de testes, onde os dados de aceleração podem ser monitorados no domínio da frequência, e os parâmetros de controle do acionamento, tais como, a velocidade, os ângulos de ligamento e condução são flexíveis e podem ser alterados através de programa. A plataforma digital foi concebida a partir de um kit de desenvolvimento (eZdsp LF2407A) associado a uma interface de controle serial, desenvolvida a partir de um aplicativo LabView, instalado num microcomputador. / The initial purpose of this study is to develop a methodology of analysis of the torque ripple of a two-phase special SRM 4/2 using acceleration experimental data. In order to validate the proposed method, acceleration experimental results are presented, these results were obtained with two rotors: the reference rotor and the optimized rotor. Once the torque optimization objectives were reached by modifying the rotor geometry, a complementary study from the point of view of motor drive vibration and torque ripple optimization was carried out. Thus, a test digital setup was developed, where the acceleration data could be monitored, in the frequency domain, and the drive control parameters, such as speed, turn-on and dwell angles, and phase current were flexible and could be altered by program. The test digital setup was conceived using a development kit (eZdsp LF2407A) associated with a serial control interface developed on a LabView application, installed in a microcomputer.

Máquinas elétricas

Switched reluctance motor (SRM)

Torque ripple

Vibration

Návrh a simulace synchronního motoru s vnořenými magnety / Design and simulation of interior permanent magnet synchronous machine

Veselý, Petr

January 2018

The master’s thesis deals with the design of a synchronous motor with embedded magnets. First of all, the general theory of synchronous motor, which is focused on field-weakening drive, is described. Then a 6-pole and a 8-pole version of the motor with embded magnet, which has 65 kW and 3000 rpm is complexly designed. Motors are compared with each other and with a motor with surface magnets, that was also designed in this work. Finally, all motors are compared with a mafufactured and measured motor.

Bezsensorové řízení BLDC motoru / Sensorless control of BLDC motor

Hrbáč, Zbyněk

January 2014

This thesis is focused on the sensorless control of BLDC motor using the Extended Kalman filter. In the first section, process of EKF implementation for estimating rotor speed and electrical angle is described. For this estimation, EKF uses non-linear BLDC motor model and some measurement containing random noise. Second part deals with designing methodology to measure and estimate the quality of BLDC motor sensorless control. Best results were achieved with total current entering power electronics ripple analyzation. In the last section, several BLDC sensorless control algorithms were evaluated.

Control of Pseudo-Sinusoidal Switched Reluctance Motor with Zero Torque Ripple and Damped Input Current Ripple

Du, Le

12 June 2013

Switched reluctance motor(SRM)drives are favored in many industrial applications because of their cost advantage and ruggedness. However, the torque ripple and bus current ripple of SRM restrict its application range  compared with traditional AC and DC motors due to the doubly salient pole structure and the highly non-linear coupling between torque, rotor position and phase current. As a result of the torque ripple on the shaft, unwilling large acoustic noises are generated. The large current ripple at the DC bus input requires large electrolytic capacitors for attenuation. However, electrolytic capacitors are of low reliability, which will reduce the duration of the control system. Because of these disadvantages, the acceptance of SRM by the industry, especially in servo-type applications which require stationary torque at low speed, is quite slow. In order to obtain high quality control, there have been many efforts in developing techniques for torque ripple attenuation. Primarily, two approaches are used to give a smooth torque. One is to improve the magnetic design, the other is to use sophisticated control techniques. Some torque control techniques have been proved to obtain a relatively good performance by simulations and experimental results. This thesis gives an alternative torque ripple minimization technique. Simulations and Experiments are conducted to show the effectiveness of this new control scheme. Under this new control scheme, the current controller are much easier to be designed under high speed application, which could be an advantage of it. First, the SRM operating principle is presented. The torque of SRM is produced by the tendency of its moveable part shifting to a position where the inductance of the exited winding is maximized. The torque ripple origin is discussed in terms of both magnetization and control. The torque ripple is produced during phase commutation interval because the phase current cannot rise from zero to the nominal value instantaneously due to the existence of the phase inductance. Second, a new torque control scheme is proposed. The new torque control of SRM is split into two cascade sub-tasks. At first, a current reference for ripple free torque is determined. Then a current controller is designed to regulate the current in the stator winding to reference value. Simulations are conducted to verify the effective of this torque control scheme in both ideal 'sinusoidal' SRM and a 'Pseudo-Sinusoidal' SRM. Finally, a motor drive control system is built to implement the new control scheme. The motor is tested under different speeds to see the torque ripple produced in different speed ranges. As a conclusion, the new control algorithm for constant torque and damped input bus current ripple is investigated. The advantages of this new torque control method are listed in the paper. Simulation and experimental results show the effectiveness of this new control method. / Master of Science

Switched Reluctance Motor

Torque Ripple

Power Ripple

Current Profiling

Pulsating Input Current

Control Scheme

Cogging Torque, Torque Ripple and Radial Force Analysis of Permanent Magnet Synchronous Machines

Islam, Mohammed Rakibul

09 June 2009

No description available.

Electrical Engineering

PMSM design

magnet pole shaping

skew

cogging torque

torque ripple

radial pressure

noise and vibration

Evaluation of a Novel Axial Flux Variable Reluctance Machine

Hines, Derek Braden

01 June 2012

The objective of this thesis is to determine the feasibility of a novel axial flux variable reluctance machine design. The design aims to compete with prevalent rare-earth permanent magnet machines while also implementing an innovative torque ripple minimization strategy. Given the fundamental operating principles, a selection of dimensions, materials, and excitations are prepared for the machine. Special attention is given to the rotor profile which is crucial to operation. Finite element analysis software is used to evaluate a three-dimensional model in terms of inductance and torque. The ultimate potential of the machine is discussed and recommendations for improvement are proposed.

reluctance machine

axial flux

torque ripple

finite element analysis

Power and Energy