菜单
  
    摘要:    汽车在行驶过程中,由于车轮完全抱死而出现的后轴侧向偏滑、前轮丧失本身转向能力的现象,而ABS系统能够很好地防止以上这些情况的发生,能够最大限度地改善汽车的制动性能,保证了汽车车轮的轮胎与路面间的附着力的变化情况,从而提高汽车在制动过程当中车轮的方向稳定性以及转向操纵能力的目的,满足了汽车在行驶过程中安全的需要。作为一种新型的混合动力电动汽车-插电式混合动力汽车,防抱死制动系统应该与电再生制动同时存在。再生制动系统是混合动力汽车当中的关键技术之一。插电式混合动力汽车最重要特性之一是其回收显著的制动能量的能力。利用再生制动系统可以将插电式混合动力汽车中的电动机被控制作为发电机运行,从而将车辆的动能或位能变换为电能,并储存在能量储存装置中,让能量得以再次利用。
    本论文描述了汽车制动防抱死系统和再生制动系统的发展历史、国内外研究状况、基本原理等,着重对汽车防抱死制动系统模型及车轮轮胎模型等进行相关的数学建模,建立起适用于模拟汽车能够在直线制动过程中的单轮车辆模型,并根据模糊PID控制的性能特点在Matlab/Simulink的环境下对汽车制动系统进行数学建模,以PID控制器作为控制模块,对所建立的汽车ABS制动系统数学模型进行仿真研究,得出仿真曲线,验证汽车制动系统具有良好的制动性能和方向操纵性。21181
    毕业论文关键词:    插电式混合动力汽车;制动系统;Matlab建模仿真
    Plug-in Hybrid Electric Vehicle Brake System Design based on Matlab
    Abstract:     In a moving vehicle, the rear axle side due to wheel fully locked partial slip, front wheel loses itself in ability of the steering, while the ABS system is able to prevent these situations, braking performance to maximize the improvement of vehicle, the changes of tire and road surface adhesion between the vehicle wheels in order to improve the stability, direction of automobile wheel in the braking process and the steering ability, meet the vehicle in motion the process of security needs. As a new type of hybrid electric vehicles and plug-in hybrid vehicle, antilock braking system should exist at the same time, and the electric regenerative braking. Regenerative braking system is one of the key technologies of hybrid vehicles. Plug in hybrid electric vehicle is one of the most important characteristics of the braking energy recovery significantly ability. The regenerative braking system can be motor plug in hybrid electric vehicle is in control as a generator, thus the vehicle kinetic energy and potential energy is transformed into electric energy, and stored in the energy storage device, let the energy to be used again.
    In this paper describes the automobile antilock braking system and regenerative braking system development history, research status at home and abroad, the basic principle, focuses on the related mathematical modeling of antilock braking system model and the tire model were established, suitable for simulation of vehicle capable of single wheel vehicle model in the straight line braking process, and according to the characteristics of fuzzy PID control in the Matlab/Simulink environment of automobile brake system model, a PID control as the control module, the simulation research of mathematical automobile ABS braking system model, gives the simulation curve, verify the car braking system with maneuverability good braking performance and direction.
    Keywords:    Plug-in hybrid electric vehicle; Braking system; Matlab modeling and simulation
    目录
    1    绪论    1
    2    插电式混合动力汽车制动系统简介    2
    2.1    插电式混合动力汽车研究背景和意义    2
  1. 上一篇:文化旅游主题展示设计广富林十里长街设计
  2. 下一篇:基于Rockwell PLC 的储油罐控制系统设计

  1. 基波磁通补偿的串联混合...

  2. 单H桥三电平有源电力滤波器的控制策略研究

  3. PLC柔性制造系统的控制系统设计+梯形图

  4. 含二甲基咪唑分子基介电...

  5. PID控制三容水箱的建模与控制MALAB仿真

  6. MATLAB数字图像处理的空间滤波器设计

  7. MATLAB温室作物蒸腾作用建模与试验

  8. 巴金《激流三部曲》高觉新的悲剧命运

  9. 现代简约美式风格在室内家装中的运用

  10. g-C3N4光催化剂的制备和光催化性能研究

  11. 江苏省某高中学生体质现状的调查研究

  12. NFC协议物理层的软件实现+文献综述

  13. 高警觉工作人群的元情绪...

  14. C++最短路径算法研究和程序设计

  15. 中国传统元素在游戏角色...

  16. 上市公司股权结构对经营绩效的影响研究

  17. 浅析中国古代宗法制度

  

About

优尔论文网手机版...

主页:http://www.youerw.com

关闭返回