本课程为精品课,您可以登录eeworld继续观看: Razavi Electronics2 Lec25- Output Imp. of Followers, Freq. Resp. of Cascodes and Diff. Pairs; ft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 2015 TI 音频创新日 (6) TI 门户网站,音频产品选择工具 C2000™新能源车解决方案_2016 TI 嵌入式产品研讨会实录 天线原理与基本参数 Atmel|SMART 基于Cortex M0+核的MCU Atmel|SMART 基于Cortex M0+核的MCU(全中文版) 开关电源入门视频(BUCK) 2015 TI 音频创新日 (13) 车载放大器介绍 MCP6V01热电偶自动调零参考设计 热门下载 基于FPGA的全数字化交流变频调速系统 印制导线温升与导线宽度及负载电流关系 基于范畴论的本体集成描述 教你如何实现ping操作。提供了详细的代码 "So, You Wanna Be anEmbedded Engineer" book! 单片机和THB6128构成的步进电机控制器设计 RC4加密解密算法 期刊论文:一种语音端点检测方法的探究 2440-core尺寸封装示意图.pdf 第04章 机器人动力学 53页 0.6M.ppt 热门帖子 几本beautiful计算机书 中文名:代码之美原名:BeautifulCode作者:(美)AndyOramGreyWilson译者:BCGroup内容介绍:本书介绍了人类在一个奋斗领域中的创造性和灵活性:计算机系统的开发领域。在每章中的漂亮代码都是来自独特解决方案的发现,而这种发现是来源于作者超越既定边界的远见卓识,并且识别出被多数人忽视的需求以及找出令人叹为观止的问题解决方案。本书33章,有38位作者,每位作者贡献一章。每位作者都将自己心目中对于“美丽的代码”的认识 白丁 液体点滴速度控制装置报告 本帖最后由paulhyde于2014-9-1503:36编辑最近收集到一些关于液体点滴速度控制装置报告感觉不错拿来和大家分享一下液体点滴速度控制装置报告本帖最后由paulhyde于2014-9-1503:37编辑我明明在线为什么显示我离线了呢楼上的仁兄帮帮忙本帖最后由paulhyde于2014-9-1503:37编辑:L本帖最后由paulhyde于2014-9-1503:37编辑:(:L T待鸿 一个USB枚举的问题 我把硬件插上后提示发现新硬件,我测D+线上的电压没有上拉到3.3V,只有2.6V,请问这会不会影响我驱动的安装啊?固件程序单步运行时没有发现有什么问题,USB初始化都正常进行的。但就是驱动安装时就装不上了,驱动是和板子配套的应该不会有什么问题呀。一个USB枚举的问题2.6v应该不会影响到设备的硬件检测(connect中断的产生)吧,参看usb2。0spec的178页的VIH定义。(定义的是2.0V)149页的connectsignaling定义:电压拉高到VIH。不知道怎么 yuanye512 峰值检测电路 本帖最后由paulhyde于2014-9-1503:03编辑波形信号测量时用的峰值检测电路。峰值检测电路本帖最后由paulhyde于2014-9-1503:03编辑虽然是收费的,但是东西不错本帖最后由paulhyde于2014-9-1503:03编辑这么好的资料,多谢楼主多谢了本帖最后由paulhyde于2014-9-1503:03编辑这么好的资料,多谢楼主gsnxir本帖最后由paulhy dzj874754 单片机利用软件进行抗干扰的几种滤波方法 1、限幅滤波法(又称程序判断滤波法)A、方法:根据经验判断,确定两次采样允许的最大偏差值(设为A)每次检测到新值时判断:如果本次值与上次值之差=A,则本次值有效如果本次值与上次值之差A,则本次值无效,放弃本次值,用上次值代替本次值B、优点:能有效克服因偶然因素引起的脉冲干扰C、缺点无法抑制那种周期性的干扰平滑度差2、中位值滤波法A、方法:连续采样N次(N取奇数)把N次 fish001 降低FPGA功耗的设计技巧 使用这些设计技巧和ISE功能分析工具来控制功耗 新一代FPGA的速度变得越来越快,密度变得越来越高,逻辑资源也越来越多。那么如何才能确保功耗不随这些一起增加呢?很多设计抉择可以影响系统的功耗,这些抉择包括从显见的器件选择到细小的基于使用频率的状态机值的选择等。 为了更好地理解本文将要讨论的设计技巧为什么能够节省功耗,我们先对功耗做一个简单介绍。 功耗包含两个因素:动态功耗和静态功耗。动态功耗是指对器件内的容性负载充放电所需的功耗。它很大程度上取决于频率、电压和负载。这三个 lhy 网友正在看 有限状态自动机2 触摸按键控制LED灯 基于ROM的VGA图像显示(弹跳特效)(一) 人工智能中的哲学 生成对抗网络 如何为设计过程创建完美的IP流程 P6.CLB configurable logic block 轨迹规划 计算机控制系统的结构
