With the rapid development of electric Vehicles (EVs) as well as the promotion and application of Vehicle-to-grid (V2G) technologies, EVs charging loads, as flexible loads, have the potential to participate in the grid services, including peak shaving and valley filling, frequency regulation (FR), emergency power, energy market participation, and so on. Therefore, great attention has been paid to EVs and V2G. Focusing on the interactions between EVs and power system, this book aims to bring readers with basic knowledge of electrical engineering promptly to the frontier of the EVs’ influence on power system and environment. This book may serve as a reference for scientists, electrical engineers, and postgraduate students majoring in electrical engineering or other related fields.
标签: Electric Vehicles System Power on
上传时间: 2020-06-07
上传用户:shancjb
Plug in Electric Vehicles (PEVs) use energy storages usually in the form of battery banks that are designed to be recharged using utility grid power. One category of PEVs are Electric Vehicles (EVs) without an internal-combustion (IC) engine where the energy stored in the battery bank is the only source of power to drive the Vehicle. These are also referred as Battery Electric Vehicles (BEVs). The second category of PEVs, which is more commercialized than the EVs, is the Plug in
标签: Electric Vehicles Grids Smart Plug In in
上传时间: 2020-06-07
上传用户:shancjb
Plug in Electric Vehicles (PEVs) use energy storages usually in the form of battery banks that are designed to be recharged using utility grid power. One category of PEVs are Electric Vehicles (EVs) without an Internal-Combustion (IC) engine where the energy stored in the battery bank is the only source of power to drive the Vehicle. These are also referred as Battery Electric Vehicles (BEVs). The second category of PEVs, which is more commercialized than the EVs, is Plug in Hybrid Electric Vehicles (PHEVs) where the role of the energy storage is to supplement the power produced by the IC engine.
上传时间: 2020-06-07
上传用户:shancjb
Plug in Electric Vehicles (PEVs) use energy storages usually in the form of battery banks that are designed to be recharged using utility grid power. One category of PEVs are Electric Vehicles (EVs) without an Internal-Combustion (IC) engine where the energy stored in the battery bank is the only source of power to drive the Vehicle. These are also referred to as Battery Electric Vehicles (BEVs). The second category of PEVs, which is more commercialized than the EVs, is the Plug in Hybrid Electric Vehicles (PHEVs) where the role of energy storage is to supplement the power produced by the IC engine.
标签: Electric Vehicles Smart Grids in
上传时间: 2020-06-07
上传用户:shancjb
stract With global drivers such as better energy consumption, energy efficiency and reduction of greenhouse gases, CO 2 emission reduction has become key in every layer of the value chain. Power Electronics has definitely a role to play in these thrilling challenges. From converters down to compound semiconductors, innovation is leading to breakthrough technologies. Wide BandGap, Power Module Packaging, growth of Electric Vehicle market will game change the overall power electronic industry and supply chain. In this presentation we will review power electronics trends, from technologies to markets.
标签: Electronics Materials Power WBG for
上传时间: 2020-06-07
上传用户:shancjb
空天地一体化通信综述,卫星、无人机、地面蜂窝系统协同网络
标签: Satellite-UAV-Vehicle Integrated Networks
上传时间: 2021-10-22
上传用户:yujinsong
一种通用微型飞行控制器设计 105页摘 要 微小型无人机(Micro/Mini UnmannedAerial Vehicle,M【,AV)在现代军事和国民经济中发 挥着越来越重要的作用。飞行控制器是无人机系统的核心,它自动采集无人机的各种飞行参数, 输出舵面/油门指令以控制无人机的姿态和轨迹,使无人机能在没有人工操纵干预的情况下自主 飞行,完成预定的任务。因此,研制高性能的飞行控制器对改善无人机的飞行性能以及提高任 务完成效率都具有重要的意义。 本文着重研究一种通用微型飞行控制器(General Micro Flight Controller,GMFC),以适用 于小型/微型固定翼飞行器、旋翼飞行器、飞艇以及移动机器人的控制。论文的主要工作涉及 GMFC的硬件设计与软件实现,具体内容包括: 1)分析了微型飞行控制器在国内外的研究现状和发展趋势,根据任务需求和设计指标确定 一种通用型、微型化、低功耗、高性能、低成本的嵌入式微型飞行控制器的整体方案。 2)设计了基于ARM的通用微型飞行控制器的硬件系统,包括主控模块、惯性测量单元、 静压高度计、遥控信号接收单元、数据通信模块、电源模块、附加传感器模块等;完成了整个 控制器的PCB制作以及对所有电路的调试工作,使得系统运作正常。 3)研究了基于卡尔曼滤波算法的姿态参考系统,并对姿态参考系统的静态性能和动态性能 进行测试。 4)设计了小型四旋翼飞行器本体平台并对其进行动力学建模仿真; 5)在此基础上,结合四旋翼飞行器试验平台设计了飞行控制律,开发了GMFC的软件系 统,并开展物理实验验证。
标签: 飞行控制器
上传时间: 2022-03-15
上传用户:zhaiyawei
对某四轮独立驱动电动汽车轮毂电机进行研究,设计一种永磁无刷直流电机控制器.以STM32F103RBT6芯片为基础,对电机驱动电路、采样电路和保护电路分别进行硬件设计与分析;同时,采用模块化软件设计方案,对该控制器的软件系统进行升级.实验验证表明:所设计的电机控制器能使电机响应迅速、转速稳定、无超调,且电动车动力输出性能良好.A permanent magnet brushless direct current motor controller was designed by studying the hub motor of a four-wheel independent drive electric Vehicle.Based on STM32 F103RBT6 chip,the hardware design and analysis of motor drive circuit,sampling circuit and protection circuit were carried out respectively.At the same time,modular software design scheme was adopted to upgrade the software system of the controller.Experimental results show that the designed motor controller can ensure the motor fast response,stable speed,no overshoot,and good power output performances.
上传时间: 2022-03-26
上传用户:qingfengchizhu
随着光伏发电系统快速发展,以及电动汽车充电桩的普及,传统的剩余电流保护器无法满足实际需求。介绍了一款B型剩余电流保护器,采用磁调制剩余电流互感器和零序电流互感器采集剩余电流。根据GB/T 22794—2017标准要求,可识别1 kHz及以下的正弦交流、带和不带直流分量的脉动直流、平滑直流等剩余电流信号。经信号调理电路将电压信号送到单片机进行采集和判断。通过试验测试,该样机在测试精度和速度上均符合国家标准的相关要求。The rapid development of photovoltaic power generation systems and the popularity of electric Vehicle charging piles make the traditional residual current protective devices unable to meet the actual demand.This paper proposed a type B residual current protective device,which uses the magnetically modulated residual current transformer and the zero sequence current transformer to acquire the residual current.According to the requirements of GB/T 22794—2017,the type B residual current protective device can detect sinusoidal AC residual current of 1kHz and below 1kHz,pulsating DC residual current with and without DC component,smooth DC residual current and so on.The signal processing circuit sends the voltage signal to the MCU for acquisition and judgment.Through experimental tests,the device meets the relevant requirements of national standards in terms of test accuracy and speed.
标签: 电流保护器
上传时间: 2022-03-27
上传用户:
在传统智能小车驱动电路设计中,较多考虑使用直流电机还是步进电机,电机功率、能耗等性能参数。使用具有armCortexM4内核的STM32嵌入式平台控制四轮的4个直流电机。文章基于PWM技术及PID算法,对四轮进行精准地速度、转向及启停控制,实验表明此小车具有优越各种地形适应能力。In the traditional intelligent car drive circuit design,DC motor or stepping motor,motor power,energy consumption and other performance parameters are considered.The four DC motors with four wheels are controlled by STM32 embedded platform with arm Cortex M4 kernel.Based on the PWM technology and PID algorithm,the accurate ground speed,steering,and start-stop control of the four wheels are carried out.The experiment shows that the Vehicle has the superior adaptability to all kinds of terrains.
上传时间: 2022-04-02
上传用户:
