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Showing records 1 to 25 of 681. [First] Page: 1 2 3 4 5 Last
Design and Analysis of Magnetic Coils for Optimizing the Coupling Coefficient in an Electric Vehicle Wireless Power Transfer System
Yang Yang, Jinlong Cui, Xin Cui
March 29, 2023 (v1)
Subject: Other
Keywords: car charging, coil misalignment, coupling coefficient, efficiency, electrical vehicle, wireless power transfer
Although the wireless power transfer (WPT) system for electric vehicles (EVs) provides numerous advantages, there is still a low coupling coefficient and the misalignment between the primary coil and the secondary coil needs to be solved. In this paper, the transmission efficiency and transmitted power were calculated based on Series-Series (SS) compensation topology. The coupling coefficient is related to the coil parameters and misalignments. A simulation study was carried out to explore the variation in the coupling coefficient for different coil configurations under different air gaps and coil misalignments. Moreover, the influence of the internal parameters of the square coil on the coupling coefficient was further studied. Finally, this paper discusses the influence of ferrite cores with a square coil on the coupling coefficient. The results of this paper show that designing the optimal internal parameters of the square coil and the ferrite core can increase the coupling coeffici... [more]
Different Features of Control Systems for Single-Phase Voltage Source Inverters
Zbigniew Rymarski, Krzysztof Bernacki
March 29, 2023 (v1)
Subject: Other
Keywords: control quality, control systems, nonlinear load, passivity-based control, power conversion systems, pulse width modulation, voltage source inverter
The aim of this paper is to determine which type of control loop is better for each particular type of standard voltage source inverter (VSI) load (static, dynamic, nonlinear rectifier resistive-capacitive RC load). A comparison of three different types of controllers for single-phase VSIs is presented. The first two are of the single input single output (SISO)/proportional-integral-derivative controller (PID) and coefficient diagram method (CDM) types, and the third is of the multi-input single output (MISO)/passivity-based control (PBC) type. The selections of the gains for SISO and MISO controllers are presented, including the problem in the choice of PBC controller gains caused by the imperfection of the pulse width modulation (PWM) modulator. For a standard nonlinear rectifier RC load, the new control quality factor (CQF) is defined to distinguish the properties of the controllers. The results show the superiority of the MISO-PBC controller for the RC load; however, for a linear d... [more]
Mixed Detailed and Compact Multi-Domain Modeling to Describe CoB LEDs
László Pohl, Gusztáv Hantos, János Hegedüs, Márton Németh, Zsolt Kohári, András Poppe
March 29, 2023 (v1)
Subject: Other
Keywords: CoB LEDs, finite volume method, Light-emitting diodes, multi-domain modeling, phosphor modeling, power LEDs
Large area multi-chip LED devices, such as chip-on-board (CoB) LEDs, require the combined use of chip-level multi-domain compact LED models (Spice-like compact models) and the proper description of distributed nature of the thermal environment (the CoB substrate and phosphor) of the LED chips. In this paper, we describe such a new numerical solver that was specifically developed for this purpose. For chip-level, the multi-domain compact modeling approach of the Delphi4LED project is used. This chip-level model is coupled to a finite difference scheme based numerical solver that is used to simulate the thermal phenomena in the substrate and in the phosphor (heat transfer and heat generation). Besides solving the 3D heat-conduction problem, this new numerical simulator also tracks the propagation and absorption of the blue light emitted by the LED chips, as well as the propagation and absorption of the longer wavelength light that is converted by the phosphor from blue. Heat generation i... [more]
A Comparison of Lane Marking Detection Quality and View Range between Daytime and Night-Time Conditions by Machine Vision
Darko Babić, Dario Babić, Mario Fiolić, Arno Eichberger, Zoltan Ferenc Magosi
March 29, 2023 (v1)
Subject: Other
Keywords: ADAS, automated driving, lane detection, lane keeping systems, lateral support systems, visibility
Lateral support systems in vehicles have a high potential for reduction of lane departure crashes. To profit from their full potential, such systems should function properly in adverse conditions. Literature indicates that their accuracy varies between day and night-time. However, detailed quantifications of the systems’ performance in these conditions are rare. The aim of this study is to investigate the differences in detection quality and view range of Mobileye 630 in dry daytime and night-time conditions. On-road tests on four rural road sections in Croatia were conducted. Wilcoxon signed-rank test was used to test the difference between the number of quality rankings while absolute average, average difference and standard deviation were used to analyse the view range. Also, a paired samples t-test was used to test the difference between conditions for each line on each road. The overall results confirm that a significant difference in lane detection quality view range exists betwe... [more]
Measures of Functional Reliability of Two-Lane Highways
Krzysztof Ostrowski, Marcin Budzynski
March 29, 2023 (v1)
Subject: Other
Keywords: empirical research, reliability measures, travel speed, travel time, two-lane highways
Rural two-lane highways are the most common road type both in Poland and globally. In terms of kilometres, their length is by far greater than that of motorways and expressways. They are roads of one carriageway for each direction, which makes the overtaking of slower vehicles possible only when there is a gap in the stream of traffic moving from the opposite direction. Motorways and express roads are dual carriageways that are expected to support high speed travel mainly over long distances. Express roads have somewhat lower technical parameters and a lower speed limit than motorways. Two-lane highways are used for both short- and long-distance travel. The paper presents selected studies conducted in Poland in 2016−2018 on rural two-lane highways and focuses on the context of the need for their reliability. The research was carried out on selected short and longer road sections located in various surroundings, grouped in terms of curvature change rate CCR, longitudinal slopes and cros... [more]
Green Work-Life Balance and Greenwashing the Construct of Work-Life Balance: Myth and Reality
Anuradha Iddagoda, Eglantina Hysa, Helena Bulińska-Stangrecka, Otilia Manta
March 29, 2023 (v1)
Subject: Other
Keywords: employee engagement, employee job performance, green work-life balance, work-life balance
Some of the frequently used buzz words in the corporate sector include green leadership, green human resource management, green employee engagement and green work-life balance. The intention of this article is to identify and examine the logical reasons that govern “green work-life balance” or, in simple terms, “greenwashing” work-life balance. The paper also aims at providing a comprehensive conceptualization of work-life balance, while thoroughly examining the components of measuring the construct. Based on a cross-sectional study in the banking industry with a sample of 170 managerial employees, this study analyzes the impact of work-life balance on employee job performance mediated by employee engagement. Results support the assumed relationship between work-life balance and employee job performance embedded in employee engagement. The theoretical contribution of this study concerns the application of role behavior theory to describe the mechanisms shaping the relationship between... [more]
Time-Sensitive Networking Technologies for Industrial Automation in Wireless Communication Systems
Yoohwa Kang, Sunwoo Lee, Songi Gwak, Taekyeong Kim, Donghyeok An
March 29, 2023 (v1)
Subject: Other
Keywords: 5G, 802.11, industrial automation, low latency, reliability, time-sensitive networking (TSN)
The fourth industrial revolution is accelerating industrial automation. In industrial networks, manufacturing processes require hard real-time communication where the latency is less than 1ms. Time-sensitive networking (TSN) technology over Ethernet already supports deterministic delivery for real-time communication. However, TSN technologies over wireless networks are currently in their initial development stage. Therefore, this study presents an overview of TSN research trends in wireless communications. This paper focuses on 5G networks and IEEE 802.11. We summarize standardization trends for TSN in 5G networks and introduce the TSN technologies for 802.11-based WLAN. Then, we introduce the integration scenario of 5GS with WLAN. This study provides insights into wireless communication technologies for wireless TSN.
Constant-Temperature Anemometer Bandwidth Shape Determination for Energy Spectrum Study of Turbulent Flows
Paweł Ligęza
March 29, 2023 (v1)
Subject: Other
Keywords: bandwidth shape, energy spectrum, hot-wire anemometer, sine test, turbulent flows
Due to their common occurrence and fundamental role in human-realized processes and natural phenomena, turbulent flows are subject to constant research. One of the research tools used in these studies are hot-wire anemometers. These instruments allow for measurements in turbulent flows in a wide range of both velocities and frequencies of fluctuations. This article describes a new indirect method of determining the bandwidth shape of a constant-temperature anemometer. The knowledge of this bandwidth is an important factor in the study of the energy spectrum of turbulent flows.
Why Should We Test the Wideband Transformation Accuracy of Medium Voltage Inductive Voltage Transformers?
Michal Kaczmarek, Ernest Stano
March 29, 2023 (v1)
Subject: Other
Keywords: accuracy of VT, composite error, distorted voltage, harmonics, inductive voltage transformer, phase displacement, self-generation, voltage error, wideband voltage divider
In this paper the results of the tests of the wideband transformation accuracy of medium voltage (MV) inductive voltage transformers (VTs) in the frequencies range from 50 Hz up to 5 kHz are presented. The values of voltage error and phase displacement for transformation of the harmonics of distorted primary voltages are determined. In the case of a typical 50 Hz-type inductive VT with a rated primary voltage equal to (15/√3) kV and (20/√3) kV manufactured by an international company the limiting values of the accuracy classes extension for quality metering required by the standard IEC 61869-6 for the Low Power Instrument Transformers (LPIT) were not exceeded. While, in the same test other MV inductive VTs show poor accuracy and even resonance at multiple frequencies. Unfortunately, this problem also arises from nonlinearity of the magnetization characteristic of their magnetic core. Therefore, for transformation of the sinusoidal voltage in the secondary voltage significant but not ea... [more]
Wake Width: Discussion of Several Methods How to Estimate It by Using Measured Experimental Data
Daniel Duda, Václav Uruba, Vitalii Yanovych
March 29, 2023 (v1)
Subject: Other
Keywords: flatness, NACA 64-618, Particle Image Velocimetry, skewness, wake, wake width
Several methods of defining and estimating the width of a turbulent wake are presented and tested on the experimental data obtained in the wake past an asymmetric prismatic airfoil NACA 64(3)-618, which is often used as tip profile of the wind turbines. Instantaneous velocities are measured by using the Particle Image Velocimetry (PIV) technique. All suggested methods of wake width estimation are based on the statistics of a stream-wise velocity component. First, the expansion of boundary layer (BL) thickness is tested, showing that both displacement BL thickness and momentum BL thickness do not represent the width of the wake. The equivalent of 99% BL thickness is used in the literature, but with different threshold value. It is shown that a lower threshold of 50% gives more stable results. The ensemble average velocity profile is fitted by Gauss function and its σ-parameter is used as another definition of wake width. The profiles of stream-wise velocity standard deviation display a... [more]
A New Multilevel Inverter Topology with Reduced DC Sources
Muhyaddin Rawa, Prem P, Jagabar Sathik Mohamed Ali, Marif Daula Siddique, Saad Mekhilef, Addy Wahyudie, Mehdi Seyedmahmoudian, Alex Stojcevski
March 29, 2023 (v1)
Subject: Other
Keywords: asymmetrical, dc/ac power conversion, multilevel inverter, power converter, pulse width modulation, reduced switch count
The component count for the multilevel inverter has been a research topic for the last few decades. The higher number of power semiconductor devices and sources leads to a higher power loss with the complex control requirement. A new multilevel inverter topology employing the concept of half-Bridge modules is suggested in this paper. It requires a lower number of dc sources and power components. The inverter is controlled using a fundamental frequency switching scheme. With the basic unit being able to produce 13 level voltage waveforms with three dc voltage sources, higher-level inverter configuration has also been discussed in the paper. The performance of the topology is analyzed in the aspects of circuit parameters and found better when compared to similar topologies proposed in recent literature. The comparison provided in the paper set the benchmark of the proposed topology in terms of lower component requirements. The topology is also optimized with two voltage fixing algorithms... [more]
Fast and Accurate 2D Analytical Subdomain Method for Coaxial Magnetic Coupling Analysis
Yusuf Akcay, Paolo Giangrande, Oliver Tweedy, Michael Galea
March 29, 2023 (v1)
Subject: Other
Keywords: analytical method, contactless torque transmission, finite element method, Laplace’s equation, magnetic coupling, magnetic field, permanent magnet, Poisson’s equation
Magnetic couplings (MCs) enable contactless speed/torque transmission via interactions between the magnetic fields of permanent magnets (PMs) rather than a physical mechanical connection. The contactless transmission of mechanical power leads to improvements in terms of efficiency and reliability due to the absence of wear between moving parts. One of the most common MC topologies is the coaxial type, also known as the radial configuration. This paper presents an analytical tool for the accurate and fast analysis of coaxial magnetic couplings (CMCs) using a two-dimensional subdomain approach. In particular, the proposed analytical tool resolves Laplace’s and Poisson’s equations for both air-gap and PM regions. The tool can be used to evaluate the impact of several design parameters on the performance of the CMC, enabling quick and accurate sensitivity analyses, which in turn guide the choice of design parameters. After discussing the building procedure of the analytical tool, its appli... [more]
Consumer Preferences for Electric Vehicle Charging Infrastructure Based on the Text Mining Method
Yuan-Yuan Wang, Yuan-Ying Chi, Jin-Hua Xu, Jia-Lin Li
March 28, 2023 (v1)
Subject: Other
Keywords: charging infrastructure, consumer preferences, natural language processing, public comment assessment, regional differences
The construction of charging infrastructure has a positive effect on promoting the diffusion of new energy vehicles (NEVs). This study uses natural language processing (NLP) technology to explore consumer preferences for charging infrastructure from consumer comments posted on public social media. The findings show that consumers in first-tier cities pay more attention to charging infrastructure, and the number of comments accounted for 36% of the total. In all comments, consumers are most concerned about charging issues, national policy support, driving range, and installation of private charging piles. Among the charging modes of charging piles, direct current (DC) fast charging is more popular with consumers. The inability to find public charging piles in time to replenish power during travel or high energy consumption caused by air conditioning is the main reason for consumers’ range anxiety. Increasing battery performance, improving charging convenience, and construction of batter... [more]
Shielded Capacitive Power Transfer (S-CPT) without Secondary Side Inductors
Suziana Ahmad, Aam Muharam, Reiji Hattori, Anyu Uezu, Tarek M. Mostafa
March 28, 2023 (v1)
Subject: Other
Keywords: capacitive, class-E inverter, wireless power transfer
In this study, we propose a four-plate structure with two shielding plates to produce shielded capacitive power transfer (S-CPT) at an operating frequency of 6.78 MHz for a 10 W system. By eliminating the inductors at the secondary side to form an asymmetrical topology, an S-CPT system was developed with a class-E power amplifier. Using MATLAB software, analysis was performed to obtain the parameters in the S-CPT system regarding resonance and impedance matching, and the proposed coupler structure was investigated through electric field simulation. The shield plate voltage stability was also investigated by analysing both the simulation and hardware experiment results. A prototype of S-CPT was established to validate the analysis results and to demonstrate the voltage at the shield plate of the proposed coupler structure. The experimental results are in good agreement with the simulation results. The proposed S-CPT exhibits an AC−AC efficiency of 84%, with a 56% voltage ground stabilit... [more]
Wake Flow Investigation on Notchback MIRA Model by PIV Experiments
Yingchao Zhang, Jinji Li, Zijie Wang, Qiliang Wang, Hongyu Gong, Zhe Zhang
March 28, 2023 (v1)
Subject: Other
Keywords: 3D flow structure, MIRA notchback model, PIV method
To deepen our understanding of the flow field and flow mechanism of a car-like model, in this paper, an experimental investigation of the flow field of MIRA notchback 1/8 scale model is carried out using Particle Image Velocimetry (PIV) method. The tests are conducted in an open circuit wind tunnel at a Reynolds number of 9.16×105. In order to obtain the detailed flow field structure of the notchback model, the PIV method was used to capture the flow field images from three orthogonal directions. By studying the vorticity and velocity vector figures of both the time-averaged and instantaneous states, a three-dimensional flow field schematic of the notchback model is summarized, and the formation mechanism and development process of the vortices are analyzed. This study not only provides an intuitive display of the three-dimensional flow field structure of the MIRA notchback model but, more importantly, it provides a reference for the development of automobile aerodynamic drag reduction... [more]
Technical Limits of Passivity-Based Control Gains for a Single-Phase Voltage Source Inverter
Zbigniew Rymarski, Krzysztof Bernacki
March 28, 2023 (v1)
Subject: Other
Keywords: control law, non-linear load, passivity-based control, voltage source inverter
Passivity-based control (PBC) seems to be predicted for the control algorithms in the voltage source inverters (VSI) for voltage backup systems. This paper presents limitations of the improved (IPBC) version of the PBC (directly measuring the output voltage) maximum voltage and current gains. In a microprocessor-controlled inverter, these depend on the PWM modulator dynamic properties, the switching frequency, the modulation index value (avoiding modulator saturation and enabling the rapid increase of the filter inductor current), and the parameters of the VSI output filter. A single switching period delay of the digital PWM modulator was considered in the theoretical calculations based on a discrete inverter model. The simulations for the standard nonlinear rectifier RC load enabled the initial adjustment of the IPBC border gains, which depended on the switching frequency. Some small harmonics oscillations of the output voltage were acceptable for the test rectifier RC load or dynamic... [more]
Conveyor Intermediate TT Drive with Power Transmission at the Return Belt
Piotr Bortnowski, Adam Gładysiewicz, Lech Gładysiewicz, Robert Król, Maksymilian Ozdoba
March 28, 2023 (v1)
Subject: Other
Keywords: conveyor belt, drive efficiency, friction coefficient, friction coupling, intermediate drive, linear booster drive
Intermediate linear booster drive can solve many problems of transport by long route conveyors. At the same time, operating costs are significantly reduced. There are solutions using intermediate belt drives, usually involving friction coupling in the carry belt. From a theoretical point of view, it is possible to transmit the friction force on an additional section in the return belt. The article presents a theoretical and experimental analysis of this solution and a comparison with a drive operating in a conventional solution. The transferred forces, the variability of the belt tension as well as the efficiency and stability of the drive for both solutions were compared. The use of additional coupling in the return belt makes it possible to increase the transmitted friction force and achieve a better rate of electricity consumption. The solution can be useful in currently existing intermediate drives, where it is possible to support the return side and transmit power.
An Integrated Approach to Study Cement-to-Formation Bonding
Arpita P. Bathija, Peter J. Boul
March 28, 2023 (v1)
Subject: Other
Keywords: cement bond strength, cement shear bond, oil-well cementing
It is crucial to assess the bond strength of the cement−formation interface while developing novel cements for efficient zonal isolation. An integrated method is presented to investigate the failure mechanism in cement and formation rock under downhole reservoir temperature and pressure conditions using a triaxial experimental setup. The acoustic emission count, strain, and velocity data aid in inferring the fracture process that led to the failure of a specimen. Although most specimens investigated exhibit the three dominant events of compaction, multi-cracking, and sliding, there are variations in the basic structure of each specimen. Furthermore, the insight obtained about the internal structure of the specimen points to its strength and damage tolerance, both of which are vital requirements for bonding. This method can distinguish between a standard cement and modified cement very effectively and help in pairing the appropriate cement formulation for a formation rock.
Infrastructure Safety from the Perspective of Resilience Theory
Xu-Yang Cao, Ji-Gang Xu, De-Cheng Feng
March 28, 2023 (v1)
Subject: Other
With the rapid development of urbanization, the scales of urban population and land use are tremendously expanding [...]
The Design and Optimization of Ground-Side Coils for Dynamic Wireless Power Transfer Considering Coupling Variations
Wenbo Wang, Junjun Deng, Zhenpo Wang, Shuo Wang
March 28, 2023 (v1)
Subject: Other
Keywords: dynamic wireless power transfer, magnetic coupler, multi-objective optimization, short segmented system
Dynamic wireless power transfer (DWPT) has attracted widespread attention for its charging flexibility; short-segmented DWPT systems are more suitable for EV charging scenarios because of their higher charging efficiency and lower electromagnetic radiation, compared to long-track DWPT systems. For short-segmented DWPT systems, the structural design of the ground-side coil affects the coupling characteristics of the system, while simultaneously the electric vehicle driving speed and coil arrangement also cause coupling variations, and this will inevitably have an impact on the system’s performance. Therefore, this paper demonstrates the coupler design of a short-segmented system for electric vehicles, focusing on the optimization of ground-side coil. The coupling variations causing by driving speed of EV and coil arrangement are taken into account. Considering the tradeoffs and restrictions, a multi-objective optimization process of coils in DWPT systems is proposed based on the Pareto... [more]
Analysis and Comparison of Two Permanent-Magnet Width-Modulation Arrays for Permanent Magnet Linear Synchronous Motor
Meizhu Luo, Jian Duan, Zhaoxi Yi
March 28, 2023 (v1)
Subject: Other
Keywords: permanent magnet linear synchronous motor (PMLSM), permanent-magnet (PM) width-modulation array, PM eddy current, thrust ripple
Permanent-magnet (PM) width-modulation array is designed to solve the issues resulting from big pole-pitches of PMLSMs in high-speed and high-precision systems. PM width-modulation array provided in this paper is a kind of segmented magnetic-pole structure, featuring low PM eddy currents and low thrust ripples. First, the magnetomotive force (MMF) excited by the PM width-modulation array is analyzed to prove its feasibility, the PM eddy current of the novel array is studied to show its advantage in high-speed applications, and the electromagnetic models of two PM width-modulation arrays are established, which are designed by the equal area method and the triangular modulation method, respectively. Then, the thrust features and the PM usage amounts of the two PM width-modulation arrays are analyzed by the finite element method (FEM) and the performance comparisons are presented. The prototype is manufactured and tested to verify the analytical results. The experimental data agree well w... [more]
Variable Weighting Coefficient of EMF-Based Enhanced Sliding Mode Observer for Sensorless PMSM Drives
Fuqiang Cao, Quntao An, Jianqiu Zhang, Mengji Zhao, Siwen Li
March 28, 2023 (v1)
Subject: Other
Keywords: approaching velocity, low carrier ratio, permanent magnet synchronous motor (PMSM), sensorless control, sliding mode observer (SMO)
In the field of permanent magnet synchronous motor (PMSM) control, the sliding mode observer (SMO)-based sensorless control is widely used; however, the actual control input of the current observation function is asymmetric. It can lead to different velocities of the estimated currents approaching to the actual currents and will make the current and back EMF fluctuations more severe, and result in more skewed angle and speed estimates, especially at a lower carrier ratio. In response to the above problems, this paper proposes a variable weighting coefficient of an EMF-based sliding mode observer (VWC-SMO). Unlike the traditional sliding mode observers, the weighted sliding mode switching variables and their bandpass-filtered values are used as the input of the current observer in the VWC-SMO. Thereby, the asymmetry of the control input in the current observation function can be well-suppressed, and almost the same approaching velocity on the two sides of the sliding surface can be obta... [more]
Observer Based Improved Position Estimation in Field-Oriented Controlled PMSM with Misplaced Hall-Effect Sensors
Mengji Zhao, Quntao An, Changqing Chen, Fuqiang Cao, Siwen Li
March 28, 2023 (v1)
Subject: Other
Keywords: dual observer, Hall-effect sensors, permanent magnet synchronous motor, speed and position estimation
Low resolution Hall-effect sensors have been commonly applied in PMSM drives for the reason of cost and volume. Generally, rotor speed and position are estimated inaccurately due to the installation error of the sensors. The inaccurate position degrades the performance of current control and also increases torque ripples, which aggravates mechanical vibration and noise. An improved dual observer is proposed in this paper to suppress the impact of misplaced Hall-effect sensors and improve estimation accuracy. By a cascading dual Luenberger observer and combining feedback decoupling control, the low-order noises produced by the deviation of Hall signals are effectively suppressed. The effectiveness of the proposed method is verified by experimental results.
Analysis and Design of Wireless Power Transfer Systems Applied to Electrical Vehicle Supercapacitor Charge Using Variable-Resistance-Based Method
Yuyu Geng, Tao Wang, Shiyun Xie, Yi Yang
March 28, 2023 (v1)
Subject: Other
Keywords: characteristic analysis, supercapacitor charging, variable-resistance-based, wireless power transfer
Supercapacitors (SCs) are widely used as energy storage devices in many practical applications of wireless power transfer. However, the modeling and analysis of a wireless power transfer system are seldom based on SC load; thus, the effects of the charging process on the wireless power transfer system cannot be analyzed clearly. In this paper, a variable-resistance-based method is proposed for the modeling and analysis of the process of constant current charging. First, how to make an SC equivalent in variable resistance is described, and the relationship between SC and variable resistance is considered. Next, the charging process, including charging current, voltage, power and transfer efficiency, is analyzed in detail. Furthermore, the effects of transmitting side voltage and frequency offset on this system are studied, and the optimal design method for an SC-load WPT system is provided on a preliminary basis. Finally, the theoretical derivation and analysis are verified by means of... [more]
Simulation, Verification and Optimization Design of Electromagnetic Vibration and Noise of Permanent Magnet Synchronous Motor for Vehicle
Jie Xu, Lijun Zhang, Deijian Meng, Hui Su
March 28, 2023 (v1)
Subject: Other
Keywords: bench test in anechoic chamber, finite element method (FEM), multiphysics coupling model, permanent-magnet synchronous motor (PMSM), rotor skewing, vibration and noise
Aiming at the electromagnetic vibration and noise problem of an 8-pole 48-slot permanent magnet synchronous motor for a vehicle, the multi-physics coupling simulation model of the motor is introduced to optimize the rotor structure of the motor to reduce the vibration and noise of the permanent magnet synchronous motor. The effectiveness of the research method is verified by the bench test in the anechoic chamber. Finite element software was used to establish the stator core and system model considering the anisotropy of materials, and the simulation model was verified by modal experiment. For the 2in1 electric drive system, the electromagnetic-structure-acoustic multi-physics coupling noise prediction model is established. Based on the three-dimensional distributed electromagnetic force excitation, the electromagnetic radiation noise of the motor under full load acceleration is calculated, and the characteristics of electromagnetic noise are analyzed. The accuracy of the electromagnet... [more]
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