本课程为精品课,您可以登录eeworld继续观看: Razavi Electronics2 Lec8- Intuitive Study of Bipolar Diff. Pair, CM and Diff. Characs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 ARM Mali 图形处理器开发者中心系列视频 使用低引脚数USB开发工具包(DM164127)在应用中添加USB连接 SYS BIOS 简介(2) —— 定时器和时钟模块 《对话通信原理视频》 模式识别 国防科技大学 蔡宣平 直播回放:富士通 FRAM 无加密算法(频谱)的真赝验证解决方案 安全的革新,世界首创全新的验证方式 emWin实战指南(野火) TI-RSLK 模块 19 - 低功耗蓝牙 热门下载 [资料]-JIS B4313-2002 High-speed steel two-flute twist drills-Technical specifications.pdf [资料]-JIS B3512-2007 可编程序控制器.现场网络标准的试验和检定(1级)(修改件1).pdf [资料]-JIS B6203-1998 升降台式卧铣床 准确度的测试1.pdf [资料]-JIS F8521-2012.pdf [资料]-JIS F8522-2012.pdf [资料]-JIS D4311-1995 汽车用离合器衬片.pdf [-]-jis a1204-2009 土壤粒度分布的试验方法.pdf [资料]-JIS S2006-1994 Vacuum bottles.pdf [资料]-JIS D3636-2003 道路车辆.柴油机燃料喷射泵试验.枢轴型校准喷嘴.pdf [资料]-JIS C8152-1-2012 照明用白色発光ダイオード(LED)の測光方法-第1部:LEDパ.pdf 热门帖子 求教使用高频VCO过程中的其他频率干扰问题,谢谢! 最近在调试一个中频调制电路,其中使用一款VCO—MAX2609来产生本地正弦震荡,该VCO的频率变化范围为540MHz-650MHz,单独调试是能够产生预期的560MHz正弦波。但是由于在整体电路中,数字部分的器件中使用了一个44MHz的晶振,当整体调试时,就发现VCO产生的波形中,存在大量44MHz及其高频分量的频谱,而且幅度都很超过了560MHz的分量,不论怎么修改数字地和模拟地之间的隔离电感都没有办法。请问一下如何消除低频分量?谢谢!求教使用高频VCO过程中的其他频率干扰问题,谢谢! porschehz EVC界面设计! 用EVC开发的软件界面,因为都是用其自带的控件,感觉不美观,请问是不是有什么工具或者软件来美化其界面?EVC界面设计!自绘的,不用控件类派生的,因为在PB里面自绘和行为是分开的,所以从CWnd派生自绘比较好,想做什么就做什么贴图片http://m2.tech.topzj.com/thread-6414-1-1.htmlhttp://m2.tech.topzj.com/thread-6414-1-1.html 532250972 在线等:升压电路 请哪位高人指点一下:我要将电源27V的直流电升高到1000V,该用哪种电路实现呢?在线等:升压电路这个具体方案我不清楚但是你可以使用逆变的方案进行实现基本没什么问题Re:在线等:升压电路功率都没说,应用场合了????Re:在线等:升压电路这个高电压是用来给电容器充电的,研制的设备用在飞机上,所以选用27V直流电源,根据一些计算,电容要选用1000V的,所以要想把电压升高上去Re:在线等:升压电路做个27V供电的振荡器在用个变压器,在滤波,就可以了Re:在线等: yangguangcici 嵌入式系统设计师考试 一、考试说明 1、考试要求: (1)掌握科学基础知识; (2)掌握嵌入式系统的硬件、软件知识; (3)掌握嵌入式系统分析的方法; (4)掌握嵌入式系统设计与开发的方法及步骤; (5)掌握嵌入式系统实施的方法 (6)掌握嵌入式系统运行维护知识; (7)了解信息化基础知识、信息技术引用的基础知识; (8)了解信息技术标准、安全,以及有关法律的基本知识; (9)了解嵌入式技术发展趋势; (1 dj0930 既然T0是51规定的计时器,那么就不应该可以让它定义为全局变量,但却可以,咋回事? 既然T0是51规定的计时器,那么就不应该可以让它定义为全局变量,但却可以,咋回事?$epT0EQU13LFEQU10PUBLICSTARTSAMPSEGMENTCODE;ssfsRSEGSAMPSTART:MOVSCON,#52HMOVTCON,#0D2HMOVTH1,#13SETBTR1LOAD:MOVDPTR,#MSGLOOP:CLRAMOVC meiwenbin 关于wince手写识别的几个问题 麻烦各位了,小弟新手,有几个问题在这里求教:1.wince自带手写识别软件不能识别简体,请问怎样做才能让它识别简体?2.如果要编写一个自己的识别软件,难度大吗?编写的大概步骤是什么?(希望能 比帮助文档具体一点)恳请赐告!谢谢关于wince手写识别的几个问题我也不清楚,帮顶下!2.自己写的话,估计难度还是很有的给大家推荐个好的技术群 大家一起学习啊32759197找一个商用的手写输入法,如汉王集成进去就可以啦 wpbjtu 网友正在看 PCB封装库绘制简介 混频器原理及电路1 傅里叶变换对角化 二次型变换核 从开环频率特性研究闭环系统性能 Atmel Studio 6.2 数据断点_v3_ HUD 抬头显示评估模组 DLP3030-Q1 正交小波充分条件证明 III Molex 新能源汽车低压连接器解决方案
