本课程为精品课,您可以登录eeworld继续观看: Lec 44, Nonlinear Op Amp Circuits, Op Amp Nonidealities I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 MSP430入门-Launchpad非易失存储器的使用 如何制作带低音增强的LM386音频放大器 种草 TI 最新最热 LED 驱动产品 TI DLP®技术于3D 机器视觉与自动化光学检测之应用 电子科技大学《通信原理》经典教程(共39讲) 如何使用Coocox 开发 STM32F0 直播回放: 升升不息,瑞萨MCU的固件升级方案 天线原理 哈工大 林澍 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 改造蓝牙键盘 这个蓝牙键盘是以前参加论坛活动时的键盘,今天预备使用它连接平板,发现不能使用,打开一看,里面的电池已经烂了,连电池接口也生锈了,不能继续用。这个键盘使用2颗AAA电池,因为换电池也很麻烦,经常需要的时候发现找不到电池,就想能不能改成锂电池供电。拆键盘的时候,找了一圈没有看到一个螺钉,最后发现这个键盘的外壳没有使用一个螺钉,完全靠卡扣固定。拆开后,键盘分为两半,一半是上面的按键,一半是底部的控制板、电池等。键盘和控制板通过FPC排线连接。主芯片是AB1108,这是台湾玮忠科技的蓝牙芯片 dcexpert 【复旦微车规MCU FM33FT0A 系列】+开箱 板子附带了一块亚克力,应该是放在触摸上用的,这款车规级芯片,主要推广应用是在车载的触摸控制上。板载了调试器。这款评估板还带了一个SPI的屏幕,可以做些显示功能。其两路CAN总线,还有一个LIN总线,接口基本就是按照汽车应用来的。上电后可以直接显示触摸的应用,不过目前测试加一个亚克力板就触摸有问题了,后期看是不是要调整下参数。【复旦微车规MCUFM33FT0A系列】+开箱 流行科技 一种不需要中间变量交换两个变量内容的方法 以前闲聊的时候朋友说有一种方法,不需要中间变量,就可以将两个变量的内容交换。开始我觉得这方法挺玄乎,不过我并不是不相信没有这样的方法,而是认为可能需要某些特定条件,后来闲暇的时候仔细想了想,发现确实存在这样的方法,大多数单片机的汇编指令都可以实现。肯定不是有多个寄存器的单片机,比如除了累加器外还有偏移寄存器,实现就非常简单。LDXaLDYbTAXbTAYa只要四条汇编指令就可以实现,但这肯定不是我们所说的方法。来看看真正的代码。LDAx表示将变量x的内容装入累加器 aimyself 请问KEIL 中 某个文件名后带个 * 号是什么意思?附图 请问KEIL中某个文件名后带个*号是什么意思?比如下图中driver.h后带个*号是什么意思?谢谢大家。请问KEIL中某个文件名后带个*号是什么意思?附图就是这个文件你修改过了,点击保存,*号就没了。内容更改却未保存的提示。 一沙一世 垃圾处理器单相交流电机选购方案 垃圾处理器降低生活垃圾的产生量和含水量,减碳效率,也符合城市污水处理系统发展的方向,很多厂家已经抓住商机,作为垃圾处理器的核心--单相交流电机,怎么才能买到货真价实的电机,如何分辩电机质量的优劣? 作为34年单相交流电机厂家,怎么在品质上获取小有名声呢?平均寿命是同行的2~3倍呢?我们主要抓住5个点 单相交流电机 1、进口轴承 这个小零件是单相交流电机的寿命评估的重要因素,轴承是承受单相交流电机转子高速运转的载体,轴承品质的优劣,影响电机的运转噪音,发热。 2、.工 灞波儿奔 测评汇总:ST NUCLEO-WB09KE 活动详情:【STNUCLEO-WB09KE】更新至2024-11-06测评报告汇总:@rtyu789STNUCLEO-WB09KE-BLE_Peripheral_LiteSTNUCLEO-WB09KE-UART串口STNUCLEO-WB09KE-IIC驱动OLED屏幕STNUCLEO-WB09KE-程序烧录STNUCLEO-WB09KE-开箱@bigbat【NUCLEO-WB09KE】BLE应用架构与分析【NUCLEO-WB09 EEWORLD社区 网友正在看 开关电源之Buck变换器的环路分析与补偿 evaluating-overfitting-via-training-test-split LabVIEW 网络讲坛 第一季之星罗密布-合理布局你的界面 第九讲 输出型外设与51的IO口中--力天手把手教你学单片机之实战篇 2010全球电子峰会:Altera公司 数模混合信号电路设计 循环综合案例 DC diagnostics in automotive audio applications
