制动

其转向和制动装置都完全符合一辆运动型汽车的标准。

The steering and braking are exactly what you want from a sporty car .

初步调查显示是空中客车上的制动系统失灵。

Preliminary investigations show the braking system on the Airbus had failed .

放出钢丝绳时要制动。

Check a cable when it 's running out .

这汽车的制动很平稳。

The car has a very smooth braking action .

目的：研究激光辅助制动精子是否引起精子核DNA损伤。

Objective : To determine whether laser-assisted immobilization of sperm damages sperm DNA .

P级TA饱和对数字式比率制动特性差动保护的影响

Impaction of P-type CT saturation on digital ratio-restrained differential protection

基于DSP交流伺服电机控制的制动系统的设计

Design of the Brake System of the AC Servo Motor Control Based on DSP

具有ABS的汽车制动性能实验模拟系统

Simulating experiment system of braking performance for motor vehicle with ABS

应用虚拟仿真软件ADAMS进行半挂汽车列车制动动力学分析

Dynamics Analysis of Tractor-Semitrailer Braking Using Virtual Simulation Software ADAMS

结合VR技术的汽车制动方向稳定性探讨

Study of Braking Direction Stability in Vehicles Based on VR Technique

离合式（CV型）高速棒材飞剪机的启制动特性分析研究

Analysis and study of startup and brake feature of CV high speed flying shear

本文主要研究了汽车防抱死制动系统（ABS，Anti-lockbrakingsystem）仿真试验中的动力学建模问题。

This paper discusses the founding of the vehicle dynamics model which can be used in ABS ( Anti-lock Braking System ) .

HEV再生制动过程中CVT速比控制策略

Study and Simulation on Control Strategy for CVT Ratio in HEV when Regenerative Braking

KJ系列提升机制动系统的技术改造

Technical Improvement of Brake System with KJ Series Hoister

通过加入Cu、Cr元素进行微合金化处理改善了制动鼓显微组织和力学性能，以提高制动鼓的工作寿命。

The microstructrue and mechanical properties of wear brake drum were improved by means of microalloying with Cu and Cr to increase its service life .

单轮防抱死制动系统（ABS）可由二维分段非线性微分方程描述。

An antilock braking system ( ABS ) with single wheel can be described by two dimension piecewise nonlinear differential equations .

并用C语言编写了数据采集程序，完成自车速度的计算、转向、制动、油门位置信息的采集；

The data collection program of the system is made by language C , it calculates own vehicle 's speed , and collects the information of steering , braking and accelerating pedal 's position .

八十年代，汽车技术引人注目的成就之一就是防抱制动系统ABS的应用和推广。

In the eighties , one of the most important achievements of automobile technology is the application and spread of Anti - lock Brake System .

JH挂车双级断气制动系

A Two-stage Air-break brake System for JH Model Trailers

分析表明：ABS能防止车轮被制动抱死，提高汽车制动时的方向稳定性和转向操纵能力；

The analysis indicates that ABS can prevent wheels from locking , and raise the direction steadiness and the steering ability of automobiles under hard braking ;

分析汽车防抱死制动系统（ABS）的主要特点，简要介绍ABS的工作原理、发展过程及应用现状，对ABS的关键技术&ABS的控制方法作了详细的分析。

The author analyses the main characteristic of the automotive anti , lock brake system , introduces its working principle , developing process and application situation ;

汽车防抱制动系统（简称ABS）广泛采用的是逻辑门限值控制，这对于非线性系统是一种有效的控制方法。

Logic gate limiting value control which is an efficient control method in nonlinear system is widely applied in automobile anti blocking brake system ( ABS ) .

仿真结果表明：在不同的路面，汽车均能保持在最佳滑移率附近进行制动，制动时间及距离比较理想，满足ABS的安全性能要求。

The simulation verifies : vehicle may be braked around best anti-slide rate on different road ; brake time and distance reach ideal result and meet ABS requirements .

阐述了ABS（防抱死制动系统）的基本结构、原理和控制特点，描述了通用的ABS模型以及在仿真中用到的模型参数。

Illustrates basic operations and control features of ABS system , To verify the models , it makes comparison between pressure cycle produced by module and engineering rate .

并根据建立的车辆系统模型、车轮轮胎模型、制动系统模型，基于MATLAB／Simulink对ABS液压力调节器进行了压力模拟仿真。

Meanwhile vehicle dynamics models and simulation , including vehicle system model , vehicle tyre model and brake model are established for real-time simulation with MATLAB / Simulink software .

电子机械制动系统（EMB）简介

A Brief Introduction to Electromechanical Braking System

仿真为EP阀电磁系统的优化设计提供了理论依据，对提高城轨交通车辆电空制动系统的稳定性和可靠性具有重要的应用价值和现实意义。

The result has offered the theoretical basis for the design optimization of EP solenoid valve , which has a great application value and practical significance .

JZ-7型空气制动机自动制动作用初探

A preliminary study of automatic brake action for JZ-7 air brakes

SYS（25K）型机车车辆综合试验车制动系统简介

Brief Description of the Braking Systems for the SYS_25K Comprehensive Test Car for Locomotives and Rolling Stock

理论分析和实践经验都说明，为了保证起制动过程中速度不超调，采用带速度微分反馈的速度调节器比一般常用的近似比例积分（PI）调节器更为合理。

Both in theoretical analysis and practical experience show that in order to get the transient respones without overshoot , speed regulator with speed derivative feedback is more reasonable than ordinary PI regulator .