本课程为精品课,您可以登录eeworld继续观看: Lec 22, Common-Emitter Stage with Degeneration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 机器学习 (台大李宏毅) 用TI SimpleLink Wi-Fi CC3200让物联网成真3 LPCOpen软件平台及其使用介绍 电源设计小贴士13:小心别被电感磁芯损耗烫伤 IC后端设计 带有全新传感器和智能模拟IC的手势识别技术演示 代码规范与程序框架 工业4.0导论 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 c6678 sys/bios 增加hwi中断不触发,裸机情况下发送成功 程序如图,我联系方式:邮箱:shanght1@sina.comqq:519618753请大佬给予帮助!c6678sys/bios增加hwi中断不触发,裸机情况下发送成功hwi用的是hyperlink中断功能 小小白吖 stm32的坏片率有点高啊! 老板觉得STM32性价比比较高.最近一个项目,就选了它.STM32F103RD刚开始样机阶段,就发现有几片IO工作不正常,以为是焊接没注意,静电打坏了,之类的.现在进入小批量生产的时候.现象又发生了....常规的防静电都很规范...只能怀疑是坏片了.100片2片IO异常,1片电源,地短路.........目前我们发现的问题有两种1.PD口,整个口输入读取错误.2.电源,地断路.其他项目STM 上树的猪 利用 Linear-in-dB Log Amp 射频功率检测器和高效切换器增强CDMA PA功率 高数据速率的需求推动着移动通信系统从2G向3G迁移。这些系统中更高的数据速率为移动电话射频设计增加了更多的性能和规格要求。 为了在所占用频段上实现最高的频宽效率,第三代移动通信系统采用了提高频谱利用效率的线性调制方式,如正交相移键控、8相移键控和正交幅度调制等。 这些非固定的包络调制方法要求在传输路径中使用线性射频功率放大器,以保持良好的邻道功率抑制比率(ACPR)和误差向量调制(EVM)特性。CDMA使用的典型线性射频功率放大器采用A类结构,以满足线性度的要求。教 JasonYoo 四2输入与非门 四2输入与非门的型号是CC4011,其引脚功能表请看下图,其内部有4个与非门。我在电路中只使用了其中3个,也就是1、2、4路,第三路(8、9、10引脚)没有用。大家都在说CMOS电路的不用引脚不能悬空,尤其与非门这类逻辑电路的输入引脚一定不能悬空,容易引起误动作等等,但是电路CC4011的输入是4个与非门,相互应该是独立的,我将不用的第三路3个引脚(8、9输入,10输出)都悬空可以吗?如果不可以这样做会有什么隐患?如果可以悬空,又有什么说法吗?另外在CC4011正常加电时,悬空的8、9两 wcqs01 秀秀论坛寄来的奖品 准备开箱了所有套件有两张SD卡粘在盒子上,L和A的ROM可以看到适配器,换插头那种开发板,开发板,正面背面用料很足,无线模块用的板载天线,还预留了天线用的插孔谢谢EEworld,礼物非常喜欢!秀秀论坛寄来的奖品开始直接上大图了,打开很卡,谢谢会跳舞的鱼的提醒 wstt 学学绕制高频变压器 变压器参数需:磁芯:EE22原边:134T(1-3脚),辅助:32T(5-4脚),输出:15T(10-9脚)原边电感:138010%uH漏感:44uH引脚分布图:特别注意:绕制方法为网上下载,其中变压器绕制方法是对的,但其中存在着很多问题(比如,正规变压器的绕组的头和尾是要添加铁氟龙套管的,每一层之间也得打挡墙增加绝缘,要使变压器耦合好,通常的做法是三明治绕法,比如,1-3先绕35圈然后10-9,然后3-2绕35圈,然后绕5- qwqwqw2088 网友正在看 离散系统稳定判定(1) 冲击响应不变法 485模块分析——背光灯、蜂鸣器与按键 第五章 循环控制结构程序03 静态工作点的稳定 如何防止黑客入侵我的系统? Fujitsu FRAM 频谱验证解决方案 MB94R340 二维小波 二维小波的分解与合成算法 预备知识
