下载 >  开发技术 >  硬件开发 > Ampilfier Stability

Ampilfier Stability

运放的稳定性分析是我们经常会遇到的问题。它之所以这么重要是因为,清楚的了解运放设计是否稳定会有以下一些好处: 1 得到最佳的稳定时间以符合系统的要求。 2 如果运放设计不合理导致振荡,您可以采取一些措施来使您的设计恢复稳定同时降低过冲 3 为避免在量产的时候出现一些潜在的问题,您可以采用我们的方法做些分析,以避免这些问题
2011-11-17 上传大小:1.18MB
分享
收藏 举报
Power System Stability And Control--Kundur.pdf

Power System Stability And Control--Kundur

立即下载
Power_System_Stability_And_Control_Kundur

这本书讲了店里系统的基本知识,和详细的建模和分析方法,对初次接触者很有帮助。

立即下载
Power System Stability and Control - (P. Kundur)

电力系统方向权威教科书,英文原版,讲解了电力系统稳定性分析及控制的内容

立即下载
Stability of Time-Delay Systems (Gu KeQin)

Gu老师的著作,关于时滞系统的分析相当全面,强烈推荐

立即下载
Theory_of_elastic_stability_Timoshenko

TIMOSHENCO弹性结构理论 梁的弹性曲屈

立即下载
Asymptotic_stability_and_feedback_stabilization

Asymptotic_stability_and_feedback_stabilization

立即下载
Phase Noise and Frequency Stability in Oscillators

Phase noise and frequency stability in oscillators 毕业设计必读

立即下载
accuracy and stability at numerical algorithms accuracy and stability at numerical algorithms

accuracy and stability at numerical algorithmsaccuracy and stability at numerical algorithmsaccuracy and stability at numerical algorithmsaccuracy and stability at numerical algorithmsaccuracy and stability at numerical algorithms

立即下载
Small Signal Stability Analysis

Analysis of Small Signal Stability by using Psat tool Box

立即下载
FUZZY CONTROL SYSTEMS DESIGN AND ANALYSIS

A Linear Matrix Inequality Approach 1 INTRODUCTION 1 1.1 A Control Engineering Approach to Fuzzy Control/1 1.2 Outline of This Book/2 2 TAKAGI-SUGENO FUZZY MODEL AND PARALLEL DISTRIBUTED COMPENSATION 5 2.1 Takagi-Sugeno Fuzzy Model/6 2.2 Construction of Fuzzy Model/9 2.2.1 Sector Nonlinearity/10 2.2.2 Local Approximation in Fuzzy Partition Spaces/23 2.3 Parallel Distributed Compensation/25 2.4 A Motivating Example/26 2.5 Origin of the LMI-Based Design Approach /29 2.5.1 Stable Controller Design via Iterative Procedure/30 2.5.2 Stable Controller Design via Linear Matrix Inequalities/34 v vi CONTENTS 2.6 Application: Inverted Pendulum on a Cart /38 2.6.1 Two-Rule Modeling and Control/38 2.6.2 Four-Rule Modeling and Control/42 Bibliography/47 3 LMI CONTROL PERFORMANCE CONDITIONS AND DESIGNS 49 3.1 Stability Conditions/49 3.2 Relaxed Stability Conditions/52 3.3 Stable Controller Design/58 3.4 Decay Rate/62 3.5 Constraints on Control Input and Output /66 3.5.1 Constraint on the Control Input/66 3.5.2 Constraint on the Output/68 3.6 Initial State Independent Condition/68 3.7 Disturbance Rejection/69 3.8 Design Example: A Simple Mechanical System/76 3.8.1 Design Case 1: Decay Rate/78 3.8.2 Design Case 2: Decay RateqConstraint on the Control Input/79 3.8.3 Design Case 3: Stability qConstraint on the Control Input/80 3.8.4 Design Case 4: Stability qConstraint on the Control InputqConstraint on the Output/81 References/81 4 FUZZY OBSERVER DESIGN 83 4.1 Fuzzy Observer/83 4.2 Design of Augmented Systems/84 4.2.1 Case A/85 4.2.2 Case B/90 4.3 Design Example/93 References/96 5 ROBUST FUZZY CONTROL 97 5.1 Fuzzy Model with Uncertainty/98 5.2 Robust Stability Condition/98 5.3 Robust Stabilization/105 References/108 CONTENTS vii 6 OPTIMAL FUZZY CONTROL 109 6.1 Quadratic Performance Function and Stabilization Control/110 6.2 Optimal Fuzzy Controller Design/114 Appendix to Chapter 6/118 References/119 7 ROBUST-OPTIMAL FUZZY CONTROL 121 7.1 Robust-Optimal Fuzzy Control Problem /121 7.2 Design Example: TORA/125 References/130 8 TRAJECTORY CONTROL OF A VEHICLE WITH MULTIPLE TRAILERS 133 8.1 Fuzzy Modeling of a Vehicle with Triple-Trailers/134 8.1.1 Avoidance of Jack-Knife Utilizing Constraint on Output/142 8.2 Simulation Results/144 8.3 Experimental Study/147 8.4 Control of Ten-Trailer Case r 150 References/151 9 FUZZY MODELING AND CONTROL OF CHAOTIC SYSTEMS 153 9.1 Fuzzy Modeling of Chaotic Systems/154 9.2 Stabilization/159 9.2.1 Stabilization via Parallel Distributed Compensation /159 9.2.2 Cancellation Technique/165 9.3 Synchronization/170 9.3.1 Case 1 /170 9.3.2 Case 2 /179 9.4 Chaotic Model Following Control/182 References/192 10 FUZZY DESCRIPTOR SYSTEMS AND CONTROL 195 10.1 Fuzzy Descriptor System/196 10.2 Stability Conditions/197 10.3 Relaxed Stability Conditions/206 10.4 Why Fuzzy Descriptor Systems?/211 References/215 viii CONTENTS 11 NONLINEAR MODEL FOLLOWING CONTROL 217 11.1 Introduction/217 11.2 Design Concept/218 11.2.1 Reference Fuzzy Descriptor System/218 11.2.2 Twin-Parallel Distributed Compensations/219 11.2.3 The Common B Matrix Case/223 11.3 Design Examples/224 References/228 12 NEW STABILITY CONDITIONS AND DYNAMIC FEEDBACK DESIGNS 229 12.1 Quadratic Stabilizability Using State Feedback PDC/230 12.2 Dynamic Feedback Controllers/232 12.2.1 Cubic Parametrization/236 12.2.2 Quadratic Parameterization/243 12.2.3 Linear Parameterization/247 12.3 Example/253 Bibliography/256 13 MULTIOBJECTIVE CONTROL VIA DYNAMIC PARALLEL DISTRIBUTED COMPENSATION 259 13.1 Performance-Oriented Controller Synthesis/260 13.1.1 Starting from Design Specifications/260 13.1.2 Performance-Oriented Controller Synthesis/264 13.2 Example/271 Bibliography/274 14 T-S FUZZY MODEL AS UNIVERSAL APPROXIMATOR 277 14.1 Approximation of Nonlinear Functions Using Linear T-S Systems/278 14.1.1 Linear T-S Fuzzy Systems/278 14.1.2 Construction Procedure of T-S Fuzzy Systems/279 14.1.3 Analysis of Approximation/281 14.1.4 Example/286 CONTENTS ix 14.2 Applications to Modeling and Control of Nonlinear Systems/287 14.2.1 Approximation of Nonlinear Dynamic Systems Using Linear Takagi-Sugeno Fuzzy Models/287 14.2.2 Approximation of Nonlinear State Feedback Controller Using PDC Controller/288 Bibliography/289 15 FUZZY CONTROL OF NONLINEAR TIME-DELAY SYSTEMS 291 15.1 T-S Fuzzy Model with Delays and Stability Conditions/292 15.1.1 T-S Fuzzy Model with Delays/292 15.1.2 Stability Analysis via Lyapunov Approach/294 15.1.3 Parallel Distributed Compensation Control/295 15.2 Stability of the Closed-Loop Systems/296 15.3 State Feedback Stabilization Design via LMIs/297 15.4 H Control/299 15.6 Design Example/300

立即下载
Continuos-Discrete Cubature Kalman filter (CDCKF)

Continuos-Discrete Cubature Kalman filter (CDCKF)的代码

立即下载
Lyapunov Stability

Lyapunov Stability for nonlinear systems. Advanced math.

立即下载
Notepad++ HexEditor 0.9.6 非原作者版本

自己对HexEditor做了些修改,改动写在博客(http://blog.csdn.net/q408384053/article/details/51347272)上。 主要做了下面修改: 1.无论从后往前选择还是从前往前选择文本,都能够复制16进制内容。 2.del和back键都能够删除16进制值。(以前del只能删除选中的内容) 3.注释掉了一行导致npp崩溃的代码,我没深究这行代码的作用。(当进入16进制编辑的界面,关闭当前文档或者关闭Notepad++,notepad++关闭会出现问题)。 4.修复了一个bug,当在16进制编辑界面,选中16进制内容,长按ctrl+c,notepad++会崩溃。 5.在16进制编辑界面中,ins键对右侧的dump区域有影响了(可以选择插入字符,也可选择覆盖字符),对左侧没有影响。 6.把版本号改成了0.9.6。

立即下载
Boundedness and Input-to-State Stability

非线性控制系统中有界性、ISS概念、定理、证明

立即下载
Conditions for stability of linear continuous

Conditions for stability of linear continuous

立即下载
Stability Theory of Switched Dynamical Systems

Stability Theory of Switched Dynamical Systems

立即下载
Analytic Stability Margin Design for Unstable and Nonminimum-Phase Plants

Analytic Stability Margin Design for Unstable and Nonminimum-Phase Plants Analytic Stability Margin Design for Unstable and Nonminimum-Phase Plants

立即下载
Stability of RF amplifier 030421.pdf

Stability of RF amplifier 030421.pdf

立即下载
Exponential Stability of SDE

Exponential Stability, stochastic differential equation

立即下载
Practical Bifurcation and Stability Analysis

国外经典的实战分支理论与稳定性分析教材。很新的教材

立即下载
关闭
img

spring mvc+mybatis+mysql+maven+bootstrap 整合实现增删查改简单实例.zip

资源所需积分/C币 当前拥有积分 当前拥有C币
5 0 0
点击完成任务获取下载码
输入下载码
为了良好体验,不建议使用迅雷下载
img

Ampilfier Stability

会员到期时间: 剩余下载个数: 剩余C币: 剩余积分:0
为了良好体验,不建议使用迅雷下载
VIP下载
您今日下载次数已达上限(为了良好下载体验及使用,每位用户24小时之内最多可下载20个资源)

积分不足!

资源所需积分/C币 当前拥有积分
您可以选择
开通VIP
4000万
程序员的必选
600万
绿色安全资源
现在开通
立省522元
或者
购买C币兑换积分 C币抽奖
img

资源所需积分/C币 当前拥有积分 当前拥有C币
5 4 45
为了良好体验,不建议使用迅雷下载
确认下载
img

资源所需积分/C币 当前拥有积分 当前拥有C币
5 0 0
为了良好体验,不建议使用迅雷下载
VIP和C币套餐优惠
img

资源所需积分/C币 当前拥有积分 当前拥有C币
5 4 45
您的积分不足,将扣除 10 C币
为了良好体验,不建议使用迅雷下载
确认下载
下载
您还未下载过该资源
无法举报自己的资源

兑换成功

你当前的下载分为234开始下载资源
你还不是VIP会员
开通VIP会员权限,免积分下载
立即开通

你下载资源过于频繁,请输入验证码

您因违反CSDN下载频道规则而被锁定帐户,如有疑问,请联络:webmaster@csdn.net!

举报

若举报审核通过,可返还被扣除的积分

  • 举报人:
  • 被举报人:
  • *类型:
    • *投诉人姓名:
    • *投诉人联系方式:
    • *版权证明:
  • *详细原因: