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طراحی مدارهای آنالوگ

دوره‌های دانشگاهی
69 جلسه

سرفصل‌ها

در این درس به مفاهیم اولیه مدارهای الکتریکی و ترانزیستورها پرداخته می شود.

مدرس دوره
حاجی میری
دکتر حاجی میری لیسانس مهندسی برق خود را از دانشگاه صنعتی شریف و فوق لیسانس و دکترا خود را از دانشگاه استنفورد دریافت کرد. او که برنده مدال طلای المپیاد ملی فیزیک و مدال برنز بیست‌و یکمین المپیاد بین‌المللی فیزیک در هلند است، در سال 1998 به عنوان دانشیار مهندسی الکترونیک و رییس آزمایشگاه‌های میکروالکترونیک و نویز به موسسه فنی کالیفرنیا ملحق شد. زمینه‌های اصلی تحقیقات وی طراحی مدارات مجتمع فرکانس بالا است.

دکتر حاجی میری نویسنده کتاب «طراحی نوسان سازهای کم نویز» بوده و چندین نشست آمریکایی و اروپایی برگزار کرده است. او همچنین دستیار سردبیر مجله انتقالات بر مدارها و سیستم‌ها و مجله مدارهای حالت جامد (jssc) موسسه IEEE و عضو هیات برنامه فنی کنفرانس بین‌المللی این مجله و هیات برنامه فنی کنفرانس بین‌المللی طراحی هدفمند رایانه‌ای (ICCAD) می‌باشد. دکتر حاجی‌میری همچنین سردبیر میهمان IEEE Transactions on Microwave Theory and Techniques است. وی برنده مشترک جایزه مقاله 1997 Jack kilby از کنفرانس بین‌المللی مدارهایISSCC بوده و سه بار نیز برنده جایزه همکاری دانشکده IBM و جایزه موسسه ملی علوم CAREER شده است.
فیلم های آموزشی
57:48 ساعت
57:48
Combined Shape Created with Sketch. 69 جلسه
Basic Solid-State Physics: Energy bands, electrons and holes
"43:04
Basic Solid-State Physics: Holes and Electrons, Doping, Carrier Density
"47:41
Basic Solid-State Devices: Distributions, Drift and diffusion, mobility, PN junction diode
"64:49
Basic Solid-State Devices: PN junction, Bipolar Junction Transistor (BJT) basics.
"46:50
Basic Solid-State Devices: BJT continued, forward operation, large signal model
"60:03
Basic Solid-State Devices: BJT, Various Effects, Charge Control Model
"52:32
Basic Solid-State Devices: Ebers-Moll model, small-signal model, cut-off (fT)
"64:48
Basic Solid-State Devices: MOS Capacitor, Accumulation, Inversion, Threshold voltage
"45:18
Basic Solid-State Devices: MOS-capacitor (Cont.), MOSFET, Threshold Calculation
"64:33
Basic Solid-State Devices: MOSFET, I-V Characteristic Detail, Modes of Operation
"44:17
Basic Solid-State Devices: MOSFET I-V, Body-Effect, Velocity Saturation, Small-signal Model
"62:26
Basic Solid-State Devices: MOSFET Capacitance, Small-Signal Model, Cut-Off (fT)
"41:43
Economics of Integrated Circuits, Yield
"64:46
Basic Amplifier Stages (Low Frequency): Common Emitter, Emitter Degeneration, Input/Output R
"57:14
Basic Amplifier Stages (Low Frequency): Common Emitter, Small-Signal Gain, Load Line
"43:35
Basic Amplifier Stages (Low Frequency): Common Collector, Common-Base, Cascade
"52:53
Basic Amplifier Stages (Low Frequency): Increasing the Gain, Active Load
"64:49
Basic Amplifier Stages (Low Frequency): MOS Common Source Amplifier, Source Resistance
"40:26
Basic Amplifier Stages (Low Frequency): Various Loads for MOS Amplifier, Gain and Linearity
"64:46
Basic Amplifier Stages (Low Frequency): Common Drain, Common-Gate, Darlington Pair
"42:36
Basic Amplifier Stages (Low Frequency): Differential Signal, Differential Pair, BJT Amplifier
"61:14
Basic Amplifier Stages (Low Frequency): Differential and Common-Mode Gain, MOS Diff. Pair
"50:20
Basic Amplifier Stages (Low Frequency): Differential Pair, Input Range, Active Load
"64:48
Biasing: Basic Biasing Techniques, Self-Biasing, Discrete Circuit Biasing
"45:44
Biasing: Integrated Biasing Techniques, Bipolar Current Mirrors, Current Sources
"64:39
Biasing: Integrated Biasing Techniques, MOS Current Source, Headroom Improvement
"37:05
Supply-, Process-, and Temperature-Independent Biasing
"84:25
Compound Amplifier Stages (Low Frequency): Differential-to-Single Conversion, Active Load 1
"36:26
Compound Amplifier Stages (Low Frequency): Differential-to-Single-Ended Conversion, High Gain
"61:12
Output Drivers (Low Frequency): Push-Pull, Class-A, Class-B, Efficiency, Distortion
"55:08
Make a Basic BJT Op-Amp (Low Frequency): the design process (Part-I)
"64:48
Make a Basic BJT Op-Amp (Low Frequency): the design process (Part-II)
"59:36
Compound Stages (Low Frequency): MOS Differential-to-Single Ended Converters, Folded Cascade
"64:36
Low Frequency Behavior Summary (Part-I)
"49:41
Low Frequency Behavior Summary (Part II)
"34:00
High Frequency Behavior: Introduction, Transfer Function, Poles, Zeros
"57:08
High Frequency Behavior: Complete First Order Response Evaluation (Basic Amplifier Stages)
"48:01
High Frequency Behavior: Common Source, Common Drain, Common Gate
"67:09
High Frequency Behavior: Zeros in the Transfer Function, Time-Domain Response, Miller Effect
"42:25
High Frequency Behavior: Nth Order System (first term), Bandwidth Estimation, ZVT
"47:05
High Frequency Behavior: Design Example, Zero-Value time Constant, Bandwidth Estimation
"52:00
High Frequency Behavior: Zero-Value Time Constants with Zeros, Complex Poles, Low Cut-off
"75:50
High Frequency Behavior: Higher Order Terms, Generalized Time and Transfer Constants
"27:12
High Frequency Behavior: Applications of Generalized Time- and Transfer-Time Constants (1)
"58:29
High Frequency Behavior: Applications of Generalized Time- and Transfer-Time Constants (2)
"45:30
High Frequency Behavior: Generalized Time and Transfer Constant (TTC), Uncoupled Time Constants
"58:32
High Frequency Behavior: Creation of Zeros, Infinite Value Time Constants, Low Cut-Off
"57:45
Feedback Viewpoint: Introduction, Asymptotic Equality Principle, Types of Feedback
"56:32
Feedback Viewpoint: Effect on Bandwidth, Nonlinearity, Dynamics, Sensitivity
"46:10
Feedback Viewpoint: Asymptotic Gain Formula, Return Ratio, Gain Correction Factors, Examples
"51:33
Feedback Viewpoint: Asymptotic Gain Formula, Return Ratio, More Examples
"64:38
Feedback Viewpoint: Asymptotic Gain Formula, Example, Cherry Hooper, Pole Splitting/Root Locus
"24:39
Feedback Viewpoint: Limitations of Return Ratio, General Definition of Return Ratio
"17:53
Feedback Viewpoint: Impedance Change, Blackman formula, Examples, Types of Feedback
"58:08
Feedback Viewpoint: Loop Gain, Breaking the Loop, Current and Voltage Loop Gain
"46:17
Feedback Viewpoint: Properties of Loop Gain, Bilateral Loop Gain, Nested Loops
"52:17
Stability: Introduction, Transfer Function Under Feedback, Peaking, Routh-Hurwitz Criterion
"51:39
Stability: Stability Criteria (cont), Conditional Stability, Circuit Example
"23:44
Stability: Nyquist Criterion (+derivation), Phase and Gain Margin
"27:45
Stability: Nonlinear Stability Criteria, Circle Criterion
"38:21
Noise: Random Processes Review, Auto- and Cross Correlation, Power Spectrum
"25:15
Noise: Spectrum Transfer Function, Johnson(Thermal) Noise Derivation, KT/C noise, Circuit Model
"85:40
Noise: Physics of Shot Noise, Burst Noise, Flicker Noise (1/f Noise), Power Laws
"25:37
Noise: Circuit Noise Models in PN junction diode, BJT, MOSFET, noise corner frequency
"43:25
Noise: Noise in simple amplifiers, Input Referred voltage and Current Noise
"58:50
Noise: Power Spectrum of Input and Output Noise for Single Stage Amplifier
"41:10
Noise: Differential Amplifier Noise, Multi-Stage Amplifier Noise
"18:23
Broadband Amplifiers: Trade-Offs, Gain-Bandwidth vs. Delay Tradeoff, Distributed Amplifier
"33:42
Compound Amplifier Stages (Low Frequency): Differential-to-Single Conversion, Active Load 2
"36:26