- ChB1-1 MOS structure with quizzes
- ChB1-2 MOS transistor with quizzes
- ChB1-3 MOSFET channel formation with quizzes
- ChB1-4.1 IV Characteristics with quizzes
- ChB1-4.2 Example IV characteristics
- ChB1-5 Channel length mod and body effect
- ChB1-6 PMOSFET with quizzes
- ChB1-7 MOSFET Characteristics with quizzes
- ChB2-1 Operating point with quizzes
- ChB2-2 Examples v2.0
- ChB2-3 Self-bias and current source with quizzes
- ChB3-1 biasing and amplification with quizzes
- ChB3-2 Transconduction with quizzes
- ChB3-3 Small signal model with quizzes
- ChC1-1 Single stage amplifiers with quizzes
- ChC1-2.1 saturation mode CS resistive with quizzes
- ChC1-2.2 small signal CS resistive with quizzes
- ChC1-3.1 operation CS diode load with quizzes
- ChC1-3.2 small signal CS diode load with quizzes
- ChC1-4 CS current load with quizzes
- ChC1-5.1 operation_CS degeneration resistor with quizzes
- ChC1-5.2 transconductance CS degeneration resistor with quizzes
- ChC1-5.3 resistance and gain CS degeneration resistor with quizzes
- ChC2-1.1 operation Common gate with quizzes
- ChC2-1.2 small signal Common gate with quizzes
- ChC2-1.3 generalized behavior Common gate with quizzes
- ChC2-1.4 examples Common gate
- ChC2-2.1 basics Common drain with quizzes
- ChC2-2.2 with biasing Common drain with quizzes
- ChC2-2.3 supply independent biasing Common drain with quizzes
- ChC3-1 Cascode Stages Introduction with quizzes
- ChC3-2.1.1 Cascode stages bipolar with quizzes
- ChC3-2.1.2 Cascode stages bipolar with quizzes
- ChC3-2.2 Cascode Stages MOS with quizzes
- ChC3-3.1 Cascode Stages transconductance with quizzes
- ChC3-3.2 Cascode Stages gain with quizzes
- ChC4-1 Current Mirrors basic concepts with quizzes
- ChC4-2 Current Mirrors MOS examples no quizzes
- ChD1-1.1 Basic concepts of DA with quizzes
- ChD1-1.2 Bipolar differential amplifiers basics with quizzes
- ChD1-1.3 common mode CMOS Differential amplifiers basics v2.0 with quizzes
- ChD1-2.1 large signal CMOS Differential amplifiers basics v2.0 with quizzes
- ChD1-2.2 p0-9 large signal Bipolar differential amplifier with quizzes
- ChD1-2.2 p0-9 large signal Bipolar differential amplifier with quizzes
- ChD2-1.1 small signal Bipolar differential amplifier with quizzes
- ChD2-1.3 examples half-circuit small signal Bipolar differential amplifier
- ChD2-1.3 examples half-circuit small signal Bipolar differential amplifier
- ChD2-1.4 Cascode Bipolar differential amplifier no quizzes
- ChD2-2.1 CMOS DA small signal analysis with quizzes
- ChD2-2.2 examples CMOS DA small signal analysis no quizzes
- ChD3-1 DA signle-ended with quizzes
- ChD3-2.1 small signal DA signle-ended with quizzes
- ChD3-2.2 gm and rout DA signle-ended with quizzes
- ChD4-1.1 basics Opamp circuit as black block
- ChD4-1.2 inverting amp. Opamp circuit as black block basics
- ChD4-2.1 general impedance integrator Opamp as a black block
- ChE1-1.1 Concept Frequency responses with quizzes
- ChE1-1.2 p9-13 Bode plot Frequency responses with quizzes
- ChE1-2.1 load capacitor passive filter with quizzes
- ChE2-1.1 ex1-2 load in amplifier basic frequency response with quizzes
- ChE2-1.2 ex3 load in amplifier basic frequency response no quizzes
- ChE2-2.1 coupling input amplifier frequency response with quizzes
- ChE2-2.2 coupling output amplifier frequency response no quiz
- ChE2-3.1 coupling and load in amplifier - 1 no quizzes
- ChE2-3.2 coupling and load in amplifier
- ChE2-4 bypass amplifier frequency response with quizzes
- ChF1-1 introduction Basic feedback concepts with quizzes
- ChF1-2 loop gain and merits Basic feedback concepts with quizzes
- ChF1-3 examples Basic feedback concepts with quizzes
想彻底搞懂放大器?场效应管的核心分析技巧都在这里了
最近收到很多同学的私信,都在问放大器原理与分析课程中关于MOSFET的实战问题。今天我们就来重点聊聊这个让很多电子专业学生头疼的话题。
为什么这门课特别值得学?
咱们先从实际场景说起:上周有个大四同学在做毕业设计时,发现用仿真软件搭的MOSFET放大器老是工作不正常。这种问题其实90%都出在对大信号理解不够透彻。
这门课最大的特色就是结合图解法和数学推导,把看似复杂的放大电路掰开了揉碎了解释。比如我们会用一个真实的共源极放大电路案例,带着大家手把手分析:
- 电源电压选5V还是12V?
- 偏置电阻取值怎么定?
- 为什么输出波形会失真?
核心内容详解
首先必须明确:所有放大器分析都建立在器件正常工作状态下。我们花整整一讲的篇幅,详细讲解如何确保MOSFET始终工作在饱和区。通过几个精心设计的仿真实验,你会直观看到:
当Vgs变化时,哪些参数会突然跳变?什么样的偏置会让电路"罢工"?这些都是企业面试常问的实际问题。
在小信号建模部分,我们打破常规教材的套路。先带大家用万用表实测几组数据,再反推小信号参数。你会发现:书本上那些抽象的gm、ro参数,原来都是可以摸得着的。
课程精华模块
- 大信号分析的三大黄金法则
- 图解法的五种实用技巧
- 从非线性到线性的转换奥秘
- 实测与仿真的对比验证
适合哪些人学习?
这门课特别适合:
- 正在学模电的大二大三同学
- 准备硬件岗面试的应届生
- 工作中需要调试放大电路的工程师
我们会准备从基础到进阶的阶梯式案例。哪怕你之前只是听说过MOSFET,通过课程中的面包板实操环节,保证你能亲手做出可用的放大电路。
学习后的收获
完成课程后,你将能够:
- 独立分析任意MOSFET放大电路的工作状态
- 快速判断电路是否工作在饱和区
- 精准计算各类小信号参数
- 排查常见的放大器故障
最重要的是,你会建立一套分析放大电路的完整思维框架。以后再遇到类似的电路,就知道从哪个角度入手分析了。
记住:真正的高手不是背公式,而是懂得公式背后的物理意义。这就是我们课程要帮你达到的目标。
