Fault Diagnosis And Fault Tolerant Control Of Multiphase Voltage Source Converters For Application In Traction Drives PDF Download

Are you looking for read ebook online? Search for your book and save it on your Kindle device, PC, phones or tablets. Download Fault Diagnosis And Fault Tolerant Control Of Multiphase Voltage Source Converters For Application In Traction Drives PDF full book. Access full book title Fault Diagnosis And Fault Tolerant Control Of Multiphase Voltage Source Converters For Application In Traction Drives.

Fault Diagnosis and Fault Tolerant Control of Multiphase Voltage Source Converters for Application in Traction Drives

Fault Diagnosis and Fault Tolerant Control of Multiphase Voltage Source Converters for Application in Traction Drives
Author: Mehdi Salehifar
Publisher:
Total Pages: 164
Release: 2014
Genre:
ISBN:
GET BOOK

Download Fault Diagnosis and Fault Tolerant Control of Multiphase Voltage Source Converters for Application in Traction Drives Book in PDF, ePub and Kindle

There is an increasing demand for vehicles with less environmental impact and higher fuel efficiency. To meet these requirements, the transportation electrification has been introduced in both academia and industry during last years. Electric vehicle (EV) and hybrid Electric vehicle (HEV) are two practical examples in transportation systems. The typical power train in the EVs consists of three main parts including energy source, power electronics and an electrical motor. Regarding the machine, permanent magnet (PM) motors are the dominant choice for light duty hybrid vehicles in industry due to their higher efficiency and power density. In order to operate the power train, the electrical machine can be supplied and controlled by a voltage source inverter (VSI). The converter is subjected to various fault types. According to the statistics, 38% of faults in a motor drive are due to the power converter. On the other side, the electrical power train should meet a high level of reliability. Multiphase PM machines can meet the reliability requirements due to their fault-tolerant characteristics. The machine can still be operational with faults in multiple phases. Consequently, to realize a multiphase fault-tolerant motor drive, three main concepts should be developed including fault detection (FD), fault isolation and fault-tolerant control. This PhD thesis is therefore focused on FD and fault-tolerant control of a multiphase VSI. To achieve this research goal, the presented FD and control methods of the power converter are thoroughly investigated through literature review. Following that, the operational condition of the multiphase converter supplying the electrical machine is studied. Regarding FD methods in multiphase, three new algorithms are presented in this thesis. These proposed FD methods are also embedded in new fault-tolerant control algorithms. At the first step, a novel model based FD method is proposed to detect multiple open switch faults. This FD method is included in the developed adaptive proportional resonant control algorithm of the power converter. At the second step, two signal based FD methods are proposed. Fault-tolerant control of the power converter with the conventional PI controller is discussed. Furthermore, the theory of SMC is developed. At the last step, finite control set (FCS) model predictive control (MPC) of the five-phase brushless direct current (BLDC) motor is discussed for the first time in this thesis. A simple FD method is derived from the control signals. Inputs to all developed methods are the five-phase currents of the motor. The theory of each method is explained and compared with available methods. To validate the developed theory at each part, FD algorithm is embedded in the fault-tolerant control algorithm. Experimental results are conducted on a five-phase BLDC motor drive. The electrical motor used in the experimental results has an in-wheel outer rotor structure. This motor is suitable for electric vehicles. At the end of each part, the remarkable points and conclusions are presented.

Fault Diagnosis for Grid-connected Power Converters

Fault Diagnosis for Grid-connected Power Converters
Author: Tamer Kamel
Publisher:
Total Pages: 0
Release: 2015
Genre: Algorithms
ISBN:
GET BOOK

Download Fault Diagnosis for Grid-connected Power Converters Book in PDF, ePub and Kindle

The reliability and functionality of power electronic converter systems (PECS) are of critical importance for industrial, commercial, aerospace, and other applications. One of the key requirements to ensure reliable functions of PECS is the behavior of the PECS during fault conditions. Characterizing the behavior of PECS during the fault conditions can provide a perspective for improving the design, protection and fault tolerant control. In general, faults in switching elements of PECS can be classified as Short Circuit (S-C) faults, Open Circuit (O-C) faults, and degradation faults. S-C faults in most cases cause an overcurrent condition that is readily detected and acted upon by standard protection systems, such as over-current, under-voltage or over-voltage protection. However, the degradation faults, as well as O-C faults often do not produce high currents that can trigger fault protection; rather they cause system malfunction or performance degradation. Since the standard protection system may not detect these fault types, their diagnoses become critical for PECS. The main objective of this dissertation is to investigate and develop new fault diagnostic algorithms for a typical single-phase grid-connected power converter with its DC capacitor banks, as well as to identify the unbalance input voltage to the converter. The power converter in this research consists of three main subsystems: the three-phase uncontrolled rectifier, the boost chopper, and the single-phase inverter circuits. The diagnostic algorithms have been investigated, designed, and implemented as follows: detection of unbalance three-phase input voltage, detection of O-C faults in the rectifier circuit, detection of O-C in the boost chopper circuit, detection of O-C in the inverter circuit, and detection of O-C fault and capacitor aging in the DC capacitor banks. The constraint for designing the desired fault diagnostics algorithm is the existing number of sensors in the PECS under study. This constraint is incorporated in this work to allow maximum integration of the developed diagnostics with low and medium size PECS.

Modular Multilevel Converters

Modular Multilevel Converters
Author: Fujin Deng
Publisher: John Wiley & Sons
Total Pages: 372
Release: 2023-03-29
Genre: Technology & Engineering
ISBN: 1119875625
GET BOOK

Download Modular Multilevel Converters Book in PDF, ePub and Kindle

Modular Multilevel Converters Expert discussions of cutting-edge methods used in MMC control, protection, and fault detection In Modular Multilevel Converters: Control, Fault Detection, and Protection, a team of distinguished researchers delivers a comprehensive discussion of fault detection, protection, and tolerant control of modular multilevel converters (MMCs) under internal and external faults. Beginning with a description of the configuration of MMCs, their operation principles, modulation schemes, mathematical models, and component design, the authors go on to explore output control, fault detection, capacitor monitoring, and other topics of central importance in the field. The book offers summaries of centralized capacitor voltage-balancing control methods and presents several capacitor monitoring methods, like the direct and sorting-based techniques. It also describes full-bridge and half-bridge submodule-based hybrid MMC protection methods and alternative fault blocking SM-based MMCs. Readers will also find: A thorough introduction to modular multilevel converters, including circuits, operation principles, modulation, mathematical models, components, and design constraints In-depth discussions of the control of modular multilevel converters, including output control, centralized capacitor voltage control, and individual capacitor voltage control Comprehensive explorations of fault detection of MMCs under IGBT faults, including short-circuit and open-circuit faults, as well as fault-tolerant control of MMCs Fulsome treatments of the control of MMCs under AC grid faults, including discussions of AC-side current control Perfect for electrical engineering researchers, Modular Multilevel Converters: Control, Fault Detection, and Protection, will also earn a place in the libraries of electrical engineers working in industry, as well as undergraduate and graduate students with an interest in MMCs.

Fault-tolerant Control and Fault-diagnosis Design for Over-actuated Systems with Applications to Electric Ground Vehicles

Fault-tolerant Control and Fault-diagnosis Design for Over-actuated Systems with Applications to Electric Ground Vehicles
Author: Rongrong Wang
Publisher:
Total Pages: 172
Release: 2013
Genre:
ISBN:
GET BOOK

Download Fault-tolerant Control and Fault-diagnosis Design for Over-actuated Systems with Applications to Electric Ground Vehicles Book in PDF, ePub and Kindle

This dissertation addresses the fault-tolerant (FT) control and fault detection and diagnosis (FDD) problems for certain over-actuated systems with applications to electric ground vehicles. Two different control effort grouping methods are proposed to transfer the over-actuated system model to a square system to facilitate the controller design. By these control effort grouping method, the dynamics of the nonlinear over-actuated system with actuator faults is further modeled based on a generalized actuator fault model. A sliding mode control technique based FT controller is first designed to attenuate the disturbance and the uncertainty caused by the actuator fault. In order to avoid the possible chatting effects from the sliding model controller, a gain-scheduling robust controller based on the linear-parameter varying (LPV) technology is designed to against the actuator faults. The eigenvalue positions of the system matrix of the closed-loop system are also constrained into a disk to obtain better transient responses. Both of the proposed FT control methods can automatically distribute control efforts to each of the actuators without using the control allocation algorithms. In the FDD design, the actuator redundancy and identicalness are used to estimate the unknown parameter which is a common parameter of the actuators. An observer is employed to estimate the unknown parameter from each respective actuator, and the accurate estimate of the unknown parameter is obtained by rejecting the erroneous estimate of the faulty actuator though a voting scheme. The obtained accurate estimate of the unknown parameter is then adopted to calculate the residuals and detect the actuator fault. The external yaw moment generated from a four-wheel-independently-actuated (FWIA) ground vehicle, together with the automatic steering using an active steering system, make it possible to simultaneously regulate the vehicle lateral velocity and track the desired yaw rate. FT controller design for a FWIA vehicle equipped an active steering system is especially investigated.

Fault Tolerant Control for Critical Machine-inverter Systems Used in Automotive Industry

Fault Tolerant Control for Critical Machine-inverter Systems Used in Automotive Industry
Author: El Hadji Sidath Diao
Publisher:
Total Pages: 0
Release: 2014
Genre:
ISBN:
GET BOOK

Download Fault Tolerant Control for Critical Machine-inverter Systems Used in Automotive Industry Book in PDF, ePub and Kindle

During the last decade, Fault Tolerant Control (FTC) has become an increasingly interesting topic in automotive industry. The operation of electrical drives is highly dependent on feedback sensors availability. With the aim of reaching the required level of availability in transportation applications, the drive is equipped with a DC voltage sensor, three current sensors (due to safety requirements in electric vehicle standards) and a position sensor. This PhD is a contribution to the study of an electrical drive fault tolerant control. The objective is to have a system, which can adaptively reorganizes itself at a sensor failure occurrence. Consequently, strategies are defined from the early preliminary design steps, so as to facilitate fault detection, fault isolation and control reconfiguration. To this purpose, our work goes from theoretical studies toward experimental validations through the model simulation using control theory.In this thesis, FTC algorithms are developed for the rotor position, the phase currents and DC link voltage sensors. The experimentally validation is perform with an electrical drive composed of a Permanent Magnet Synchronous Machine and a 3H bridge inverter. Thus, the developed methods are evaluated experimentally through real time fault injection, with an emphasis on the detection time.

High-Power Converters and AC Drives

High-Power Converters and AC Drives
Author: Bin Wu
Publisher: John Wiley & Sons
Total Pages: 476
Release: 2017-01-17
Genre: Science
ISBN: 1119156033
GET BOOK

Download High-Power Converters and AC Drives Book in PDF, ePub and Kindle

A comprehensive reference of the latest developments in MV drive technology in the area of power converter topologies This new edition reflects the recent technological advancements in the MV drive industry, such as advanced multilevel converters and drive configurations. It includes three new chapters, Control of Synchronous Motor Drives, Transformerless MV Drives, and Matrix Converter Fed Drives. In addition, there are extensively revised chapters on Multilevel Voltage Source Inverters and Voltage Source Inverter-Fed Drives. This book includes a systematic analysis on a variety of high-power multilevel converters, illustrates important concepts with simulations and experiments, introduces various megawatt drives produced by world leading drive manufacturers, and addresses practical problems and their mitigations methods. This new edition: Provides an in-depth discussion and analysis of various control schemes for the MV synchronous motor drives Examines new technologies developed to eliminate the isolation transformer in the MV drives Discusses the operating principle and modulation schemes of matrix converter (MC) topology and multi-module cascaded matrix converters (CMCs) for MV drives, and their application in commercial MV drives Bin Wu is a Professor and Senior NSERC/Rockwell Automation Industrial Research Chair in Power Electronics and Electric Drives at Ryerson University, Canada. He is a fellow of Institute of Electrical and Electronics Engineers (IEEE), Engineering Institute of Canada (EIC), and Canadian Academy of Engineering (CAE). Dr. Wu has published more than 400 papers and holds more than 30 granted/pending US/European patents. He co-authored several books including Power Conversion and Control of Wind Energy Systems and Model Predictive Control of Wind Energy Conversion Systems (both by Wiley-IEEE Press). Mehdi Narimani is a Postdoctoral Research Associate with the Department of Electrical and computer Engineering at Ryerson University, Canada, and Rockwell Automation Canada. He is a senior member of IEEE. Dr. Narimani is author/co-author of more than 50 technical papers and four US/European patents (issued/pending review). His current research interests include power conversion, high power converters, control of power electronics, and renewable energy systems.

Control of Multilevel Converters for Voltage Balancing and Fault-tolerant Operations

Control of Multilevel Converters for Voltage Balancing and Fault-tolerant Operations
Author: Aparna Saha
Publisher:
Total Pages: 121
Release: 2017
Genre: Electric current converters
ISBN:
GET BOOK

Download Control of Multilevel Converters for Voltage Balancing and Fault-tolerant Operations Book in PDF, ePub and Kindle

Multilevel converters (MLC) have been widely accepted in recent times for high power and medium to high voltage applications. Developments in semiconductor technology and commercial availability of high power switches have made two-level voltage-source converters (VSC) feasible for high power applications; however, for high voltage and high power systems, instead of using switches with high voltage ratings, it is beneficial to connect multiple low-voltage rated switches in series in multilevel approach. Compared to conventional two-level VSCs, MLCs have better capability to (i) lower harmonic distortion of the AC-side waveforms, (ii) decrease the dv/dt switching stresses, and (iii) reduce the switching losses. Moreover, MLCs are easily configurable with multiple renewable energy sources such as solar power, wind power, and fuel cells. Among diverse MLC topologies, diode-clamped converter (DCC) configuration is analyzed in this dissertation. The salient feature of DCC topology is that all three phases of the converter share a common DC bus voltage which minimizes total capacitor requirements. However, DCCs have their own limitations such as the voltage balancing among the converter cells and control complexity. Due to the series connection of the dc-capacitor cells, the voltage sharing among the cells deteriorates during certain operating conditions. To have increased number of voltage levels at the output, DCCs require a higher number of power semiconductor switches and associated electronic components. That means multilevel DCCs are more difficult to control and more expensive than two-level VSCs. There is also a much higher possibility of a device failing. To improve the reliability and performance stability of the overall converter system, an easily configurable controller with a fault-tolerant capability is essential. This dissertation presents the development of generalized control algorithms and a novel converter topology to address the inherent technical issues associated with the higher-level DCC system. A unique space-vector pulse width modulation (SVPWM) based controller is developed for 3-level and 5-level DCC with minimal switching operation that ensures voltage balancing and minimizes switching loss. The effectiveness of the proposed SVPWM controller is further validated through multilevel DCC operations at high modulation index without any additional balancing circuitry. The fault-tolerant capabilities of multilevel DCC are also improved by using a new SVPWM controller, which ensures continuous operation under certain device failures. Moreover, a novel three-phase multilevel DCC topology is proposed that reduces the power electronic device counts remarkably with the increase of output voltage levels while maintaining control flexibility. The developed control algorithms are implemented in the DCC topology and their operations are experimentally verified.

Modular Multilevel Converters

Modular Multilevel Converters
Author: Sixing Du
Publisher: John Wiley & Sons
Total Pages: 386
Release: 2018-02-22
Genre: Science
ISBN: 1119367239
GET BOOK

Download Modular Multilevel Converters Book in PDF, ePub and Kindle

An invaluable academic reference for the area of high-power converters, covering all the latest developments in the field High-power multilevel converters are well known in industry and academia as one of the preferred choices for efficient power conversion. Over the past decade, several power converters have been developed and commercialized in the form of standard and customized products that power a wide range of industrial applications. Currently, the modular multilevel converter is a fast-growing technology and has received wide acceptance from both industry and academia. Providing adequate technical background for graduate- and undergraduate-level teaching, this book includes a comprehensive analysis of the conventional and advanced modular multilevel converters employed in motor drives, HVDC systems, and power quality improvement. Modular Multilevel Converters: Analysis, Control, and Applications provides an overview of high-power converters, reference frame theory, classical control methods, pulse width modulation schemes, advanced model predictive control methods, modeling of ac drives, advanced drive control schemes, modeling and control of HVDC systems, active and reactive power control, power quality problems, reactive power, harmonics and unbalance compensation, modeling and control of static synchronous compensators (STATCOM) and unified power quality compensators. Furthermore, this book: Explores technical challenges, modeling, and control of various modular multilevel converters in a wide range of applications such as transformer and transformerless motor drives, high voltage direct current transmission systems, and power quality improvement Reflects the latest developments in high-power converters in medium-voltage motor drive systems Offers design guidance with tables, charts graphs, and MATLAB simulations Modular Multilevel Converters: Analysis, Control, and Applications is a valuable reference book for academic researchers, practicing engineers, and other professionals in the field of high power converters. It also serves well as a textbook for graduate-level students.