Investigation of integrated converter circuit and enriched error tolerant fuzzy logic controller based control approach for solar powered EV system

IF 0.8 4区 工程技术 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC
Rajamohana Kuselan, Venkatesan Sundharajan
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引用次数: 0

Abstract

Purpose This study aims to extend the driving range by on-board charging with use of photovoltaic (PV) source, avoiding the dependency on the grid supply and energy storage system in addition to that reduce the conversion complexity influenced on converter section of electric vehicle (EV) system. Design/methodology/approach This paper proposed a PV fed integrated converter topology called integrated single-input multi-output (I-SIMO) converter with enriched error tolerant fuzzy logic controller (EET-FLC) based control technique to regulate the speed of brushless direct current motor drive. I-SIMO converter provides both direct current (DC) and alternating current (AC) outputs from a single DC input source depending on the operation mode. It comprises two modes of operation, act as DC–DC converter in vehicle standby mode and DC–AC converter in vehicles driving mode. Findings The use of PV panels in the vehicle helps to reduce dependence of grid supply as well as vehicle’s batteries. The proposed topology has to remove the multiple power conversion stages in EV system, reduce components count and provide dual outputs for enhancement of performance of EV system. Originality/value The proposed topology leads to reduction of switching losses and stresses across the components of the converter and provides reduction in system complexity and overall expenditure. So, it enhances the converter reliability and also improves the efficiency. The converter provides ripple-free output voltage under dynamic load condition. The performance of EET-FLC is studied by taking various performance measures such as rise time, peak time, settling time and peak overshoot and compared with conventional control designs.
基于集成转换电路和丰富容错模糊控制器的太阳能电动汽车系统控制方法研究
本研究旨在利用光伏电源进行车载充电,以扩大电动汽车的续驶里程,避免对电网供电和储能系统的依赖,并降低对电动汽车系统变流器部分的转换复杂性影响。设计/方法/方法本文提出了一种光伏馈电集成变换器拓扑结构,称为集成单输入多输出(I-SIMO)变换器,采用基于丰富容错模糊控制器(et - flc)的控制技术来调节无刷直流电机驱动的速度。I-SIMO转换器根据工作模式从单个直流输入源提供直流(DC)和交流(AC)输出。它包括两种工作模式,在车辆待机模式下充当DC-DC变换器,在车辆驱动模式下充当DC-AC变换器。在车辆中使用光伏板有助于减少对电网供应和车辆电池的依赖。所提出的拓扑结构必须消除电动汽车系统中的多个功率转换阶段,减少组件数量并提供双输出,以提高电动汽车系统的性能。独创性/价值所提出的拓扑结构可减少转换器各部件的开关损耗和应力,并降低系统复杂性和总体支出。从而提高了变换器的可靠性和效率。该变换器在动态负载条件下提供无纹波输出电压。采用上升时间、峰值时间、稳定时间、峰值超调量等多种性能指标研究了et - flc的性能,并与常规控制设计进行了比较。
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来源期刊
Circuit World
Circuit World 工程技术-材料科学:综合
CiteScore
2.60
自引率
0.00%
发文量
33
审稿时长
>12 weeks
期刊介绍: Circuit World is a platform for state of the art, technical papers and editorials in the areas of electronics circuit, component, assembly, and product design, manufacture, test, and use, including quality, reliability and safety. The journal comprises the multidisciplinary study of the various theories, methodologies, technologies, processes and applications relating to todays and future electronics. Circuit World provides a comprehensive and authoritative information source for research, application and current awareness purposes. Circuit World covers a broad range of topics, including: • Circuit theory, design methodology, analysis and simulation • Digital, analog, microwave and optoelectronic integrated circuits • Semiconductors, passives, connectors and sensors • Electronic packaging of components, assemblies and products • PCB design technologies and processes (controlled impedance, high-speed PCBs, laminates and lamination, laser processes and drilling, moulded interconnect devices, multilayer boards, optical PCBs, single- and double-sided boards, soldering and solderable finishes) • Design for X (including manufacturability, quality, reliability, maintainability, sustainment, safety, reuse, disposal) • Internet of Things (IoT).
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