本课程为精品课,您可以登录eeworld继续观看: Razavi Electronics2 Lec40- Current-Current Feedback, App. of Feedback in Power Management继续观看 课时1:Electronics 1, Lec 1, Intro., Charge Carriers, Doping 课时2:Lec 2. Doping, Drift 课时3:Lec 3. Diffusion, Intro. to PN Junction 课时4:Lec 4, PN Junction in Equilibrium & Reverse Bias 课时5:Lec 5, PN Junction in Forward Bias, Intro. to Diodes 课时6:Lec 6, Diode Models 课时7:Lec 7, Analysis of Diode Circuits I 课时8:Lec 8, Analysis of Diode Circuits II 课时9:Lec 9, Other Examples of Diode Circuits, Half-Wave Rectifier 课时10:Lec 10, Half-Wave Rectifier with Different Loads 课时11:Lec 11, Full-Wave Rectifier 课时12:Lec 12, Limiters and Voltage Doublers 课时13:Lec 13, Bipolar Transistor Structure & Operation 课时14:Lec 14, Bipolar Transistor Characteristics, Intro. to Biasing 课时15:Lec 15, Transistor Biasing, Transconductance 课时16:Lec 16, Large-Signal & Small-Signal Operation 课时17:Lec 17, Bipolar Small-Signal Model, Early Effect 课时18:Lec 18, PNP Transistor 课时19:Lec 19, Evolution of Ampifiers 课时20:Lec 20, Common-Emitter Stage 课时21:Lec 21, Input & Output Impedances 课时22:Lec 22, Common-Emitter Stage with Degeneration 课时23:Lec 23, More on Emitter Degeneration 课时24:Lec 24, Biasing Techniques I 课时25:Lec 25, Biasing Techniques II 课时26:Lec 26, Common-Base Stage 课时27:Lec 27, Emitter Followers 课时28:Lec 28, Emitter Follower & Summary 课时29:Lec 29, Intro. to MOSFETs 课时30: Lec 30, MOS Characteristics I 课时31:Lec 31, MOS Characteristics II 课时32:Lec 32, Biasing, Transconductance 课时33:Lec 33, Large-Signal & Small-Signal Operation 课时34:Lec 34, MOS Small-Signal Model, PMOS Device 课时35:Lec 35, Common-Source Stage I 课时36:Lec 36, Common-Source Stage II 课时37:Lec 37, Common-Source Variants 课时38:Lec 38, Common-Source Stage with Degeneration 课时39:Lec 39, Biasing Techniques, Intro. to Common-Gate Stage 课时40:Lec 40, Common-Gate Stage 课时41: Lec 41, Source Followers & Summary 课时42:Lec 42, Op Amp Circuits 1 课时43:Lec 43, Op Amp Circuits II 课时44:Lec 44, Nonlinear Op Amp Circuits, Op Amp Nonidealities I 课时45:Lec 45, Op Amp Nonidealities II 课时46:Razavi Basic EE Lec 1_2 课时47:Razavi Basic EE Lec 1_2 课时48:Test Video 课时49:Razavi Electronics2 Lec1- Introduction, Cascode Current Sources 课时50:Razavi Electronics2 Lec2- MOS and Bipolar Cascode Current Sources, Intro. to Cascode Amplifiers 课时51:Razavi Electronics2 Lec3- MOS and Bipolar Cascode Amplifiers 课时52:Razavi Electronics2 Lec4- Additional Cascode Examples, Cascode Amp with PMOS Input 课时53:Razavi Electronics2 Lec5- Problem of Biasing; Intro. to Current Mirrors 课时54:Razavi Electronics2 Lec6- Current Mirror Examples, Proper Scaling, Bipolar Current Mirrors 课时55:Razavi Electronics2 Lec7- Problem of Noise Coupling, Intro. To Differential Pair 课时56:Razavi Electronics2 Lec8- Intuitive Study of Bipolar Diff. Pair, CM and Diff. Characs 课时57:Razavi Electronics2 Lec9- Large-Signal Analysis of Bipolar Differential Pair 课时58:Razavi Electronics2 Lec10. Small-Signal Analysis of Bipolar Differential Pair 课时59:Razavi Electronics2 Lec 11- Additional Examples of Bipolar Diff Pairs 课时60:Razavi Electronics2 Lec12- Large-Signal Analysis of MOS Differential Pair 课时61:Razavi Electronics2 Lec13- Additional Analysis of MOS Differential Pair 课时62:Razavi Electronics2 Lec14- Small-Signal Analysis of MOS Differential Pair 课时63:Razavi Electronics2 Lec15- High-Gain Differential Pairs, Intro. to Diff. Pair with Active Load 课时64:Razavi Electronics2 Lec16- Small-Signal Behavior of Diff. Pair with Active Load 课时65:Razavi Electronics2 Lec17- Introduction to Frequency Response- Basic Concepts 课时66:Razavi Electronics2 Lec18- Useful Frequency Response Concepts, Finding Poles by Inspection 课时67:Razavi Electronics2 Lec19- Miller Effect, High-Frequency Model of Bipolar Transistors 课时68:Razavi Electronics2 Lec20- Examples of Capacitances in Bipolar Circuits, High-Freq. Model of MOSFETs 课时69:Razavi Electronics2 Lec21- Computation of Freq. Resp., Freq. Resp. of Common-Emitter-Source Stages 课时70:Razavi Electronics2 Lec22- Dominant-Pole Approx., Resp. of CE-CS & Common-Base-Gate Stage 课时71:Razavi Electronics2 Lec23- Examples of High-Speed Circuits, Response of Common-Base-Gate Stage 课时72:Razavi Electronics2 Lec24- Response of Emitter-Source Followers, Input & Output Impedances 课时73:Razavi Electronics2 Lec25- Output Imp. of Followers, Freq. Resp. of Cascodes and Diff. Pairs; ft 课时74:Razavi Electronics2 Lec26- Additional Examples of Frequency Response, Cascaded Stages 课时75:Razavi Electronics2 Lec27- Intro. To Feedback, General Feedback System 课时76:Razavi Electronics2 Lec28- Feedback Examples, Concept of Loop Gain 课时77:Razavi Electronics2 Lec29- Application Examples of Feedback, Properties of Feedback Systems 课时78:Razavi Electronics2 Lec30- A Closer Look at Properties of Feedback Systems 课时79:Razavi Electronics2 Lec31- Foundations for Feedback Analysis- Types of Amplifiers 课时80:Razavi Electronics2 Lec32- Foundations for Feedback Analysis- Sense & Return Mechanisms 课时81:Razavi Electronics2 Lec33- Feedback Circuit Examples, Sign of Feedback 课时82:Razavi Electronics2 Lec34- Four Feedback Topologies, Voltage-Voltage (Shunt-Series) Feedback 课时83:Razavi Electronics2 Lec35- Examples of Voltage-Voltage Feedback 课时84:Razavi Electronics2 Lec36- Additional Examples of Voltage-Voltage Feedback 课时85:Razavi Electronics2 Lec37- Voltage-Current (Shunt-Shunt) Feedback 课时86:Razavi Electronics2 Lec38- Examples of Voltage-Current Feeback, Current-Voltage-Feedback 课时87:Razavi Electronics2 Lec39- Application Examples of Feedback, More on Current-Voltage Feedback 课时88:Razavi Electronics2 Lec40- Current-Current Feedback, App. of Feedback in Power Management 课时89:Razavi Electronics2 Lec41- Effect of Loading in Feedback, Opening the Loop Properly 课时90:Razavi Electronics2 Lec42- Accurate Analysis of Feedback Circuits 课时91:Razavi Electronics2 Lec43- Intro. To Instability in Feedback Systems 课时92:Razavi Electronics2 Lec44- Bode’s Rules, Stability Condition, Circuit Examples 课时93:Razavi Electronics2 Lec45- Additional Stability Examples, Phase Margin, Freq. Compensation 课程介绍共计93课时,3天13小时10分11秒 拉扎维模拟集成电路教程(英语字幕) 模拟电路设计的圣经,由模电大师拉扎维亲自讲授! Fundamentals Of Microelectronics http://download.eeworld.com.cn/detail/CMOS/604061 传感器建模设计问题制造和实际应用的发展 http://download.eeworld.com.cn/detail/CMOS/604060 上传者:JFET 猜你喜欢 直播回放:TI 专为楼宇自动化传感器应用而生的低功耗无线技术 设计指南-选择用于DC-DC转换器输出的电容,电感 用于白电等家电市场: 高性能开关电源 - 28V DC-DC同步降压转换器 怎样设置并使用12 V DC-DC转换器评估板 射频集成电路设计 原子教你玩STM32 面向 RF 应用的低相位噪声频率合成器 具有bootloader功能和闪烁LED的CapSense触摸感应项目 热门下载 电源入门小知识 微机原理与接口技术课程设计题目详细要求 一种模拟电路故障诊断方法 物联网汇总 Telit-GSM-GPRS-CDMA-WCDMA-Modu 华为硬件工程师手册 MFRC522中文手册 实用电子元器件与电路基础 (施瓦茨) 10个常见的镜头术语 ANTENNA NEAR FIELD 热门帖子 谁能看出来这是在做什么实验? 本帖最后由jameswangsynnex于2015-3-319:49编辑最近做一个小东西,解决了我很大问题,想写贴子出来分享一下又不知道该如何下手,因为文化水平不够,问了几个高学历的经常在此类论坛里混的朋友,一个们说贴图,然后写上说明。这个哥不错,还省事,这个贴子俺就照做,看看效果。这是原理图把SATA线插到光驱槽里用名片顶住防止数据线松动插上硬盘一端装到硬盘盒里最后效果性能测试检测到硬件分区提示分区我的电脑里的分区谁能看出来这是在做什么实验?本帖 littleshrimp 按键控制LEI流水灯 本帖最后由lgl80238023于2014-11-2122:36编辑 各位大侠,我写了个按键控制LED流向的程序,不按按键为正常顺序按下后,反向流动,为什么我加了按键后流水灯就不流动了啊?仿真看是可以的,下载到开发板就不流动了,不加按键可以的,求助啊按键控制LEI流水灯题目的写错了,能稍微认真点不粗略看了下,如果仿真可以,下载进去不行的话可能是regKEY_TIME_CNT;这个定义太长了你现在时钟频率多少学习中.................. lgl80238023 Linux编程白皮书 书籍简介:《Linux编程白皮书》是由一群Linux高手所写的,它由五个部分组成——是Linux文档工程的一个印刷版本。该书描述了关键的设计概念,以及系统和Linux内核子系统的概念系统结构和具体的系统结构。全书是从Linux操作系统的心脏——内核开始进行深入介绍的。所介绍的知识包括Linux硬件和软件基础、内核机制、进程、模块、结构及源代码、Linux内核模块编程指南,把应用程序移植到Linux下,以及对网络的讨论等等。Linux技术背景: 呱呱 Timer实验中TCR的配置 在CCS3.3自带的Timer例程中,配置TCR寄存器中域值,采用的是如下的方式#defineTIMER_CTRLTIMER_TCR_RMK(\\TIMER_TCR_IDLEEN_DEFAULT,/*IDLEEN==0*/\\TIMER_TCR_FUNC_OF(0),/*FUNC==0*/\\TIMER_TCR_TLB_RESET,/*TLB==1,timer mengyang 嘿嘿,我的东西也到了!!! 感谢EEWROLD!嘿嘿,我的东西也到了!!!无图无真相是啊,我们大家都不知道什么东西到了,没图没真相!是啊大家是什么多不知道啊上个图一而是可以的啊不是表情啊http://bbs.eeworld.com.cn/thread-450495-1-1.html看链接youki12345发表于2014-11-2113:29http://bbs.eeworld.com.cn/thread-450495-1-1.html 链接看了,你挑选的什么? youki12345 【TI 无线主题征集】+ IoT家庭网关 + 智能照明 有机会接触了一下TI的物联网的产品,关于家庭照明的东西,在这里给大家分享一下。这个主要是通过手机客户端或者通过云端来远程控制灯板的颜色、亮灭、饱和度等一些功能。因为TI提供了全部的代码,所以开发者可以发会自己的想象力,添加自己喜欢的功能。整个模块是基于ZigBee协议的和TCP/IP协议的。这篇文章介绍的是使用Android客户端通过手机端控制ZigBee灯板的。下面就来看看各个模块吧。下面图片是三个ZigBee灯板,每个灯板有三个LED灯,分别是红、绿、蓝和白色的,灯 574433742 网友正在看 函数返回值基本数据类型 微分方程求解 DMA核的应用 7.3 信号调节:什么是眼图 第6.3讲 Uboot启动流程详解-board_init_f函数执行过程 几种典型的模拟式传感器(五) 第8章 LabVIEW的信号调理 Kinematics of Closed Chains
