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Basic Solid-State Physics: Holes and Electrons, Doping, Carrier Density

Basic Solid-State Physics: Holes and Electrons, Doping, Carrier Density

 
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جلسات فیلم های آموزشی

Basic Solid-State Physics: Energy bands, electrons and holes
Basic Solid-State Physics: Holes and Electrons, Doping, Carrier Density
Basic Solid-State Devices: Distributions, Drift and diffusion, mobility, PN junction diode
Basic Solid-State Devices: PN junction, Bipolar Junction Transistor (BJT) basics.
Basic Solid-State Devices: BJT continued, forward operation, large signal model
Basic Solid-State Devices: BJT, Various Effects, Charge Control Model
Basic Solid-State Devices: Ebers-Moll model, small-signal model, cut-off (fT)
Basic Solid-State Devices: MOS Capacitor, Accumulation, Inversion, Threshold voltage
Basic Solid-State Devices: MOS-capacitor (Cont.), MOSFET, Threshold Calculation
Basic Solid-State Devices: MOSFET, I-V Characteristic Detail, Modes of Operation
Basic Solid-State Devices: MOSFET I-V, Body-Effect, Velocity Saturation, Small-signal Model
Basic Solid-State Devices: MOSFET Capacitance, Small-Signal Model, Cut-Off (fT)
Economics of Integrated Circuits, Yield
Basic Amplifier Stages (Low Frequency): Common Emitter, Emitter Degeneration, Input/Output R
Basic Amplifier Stages (Low Frequency): Common Emitter, Small-Signal Gain, Load Line
Basic Amplifier Stages (Low Frequency): Common Collector, Common-Base, Cascade
Basic Amplifier Stages (Low Frequency): Increasing the Gain, Active Load
Basic Amplifier Stages (Low Frequency): MOS Common Source Amplifier, Source Resistance
Basic Amplifier Stages (Low Frequency): Various Loads for MOS Amplifier, Gain and Linearity
Basic Amplifier Stages (Low Frequency): Common Drain, Common-Gate, Darlington Pair
Basic Amplifier Stages (Low Frequency): Differential Signal, Differential Pair, BJT Amplifier
Basic Amplifier Stages (Low Frequency): Differential and Common-Mode Gain, MOS Diff. Pair
Basic Amplifier Stages (Low Frequency): Differential Pair, Input Range, Active Load
Biasing: Basic Biasing Techniques, Self-Biasing, Discrete Circuit Biasing
Biasing: Integrated Biasing Techniques, Bipolar Current Mirrors, Current Sources
Biasing: Integrated Biasing Techniques, MOS Current Source, Headroom Improvement
Supply-, Process-, and Temperature-Independent Biasing
Compound Amplifier Stages (Low Frequency): Differential-to-Single Conversion, Active Load 1
Compound Amplifier Stages (Low Frequency): Differential-to-Single-Ended Conversion, High Gain
Output Drivers (Low Frequency): Push-Pull, Class-A, Class-B, Efficiency, Distortion
Make a Basic BJT Op-Amp (Low Frequency): the design process (Part-I)
Make a Basic BJT Op-Amp (Low Frequency): the design process (Part-II)
Compound Stages (Low Frequency): MOS Differential-to-Single Ended Converters, Folded Cascade
Low Frequency Behavior Summary (Part-I)
Low Frequency Behavior Summary (Part II)
High Frequency Behavior: Introduction, Transfer Function, Poles, Zeros
High Frequency Behavior: Complete First Order Response Evaluation (Basic Amplifier Stages)
High Frequency Behavior: Common Source, Common Drain, Common Gate
High Frequency Behavior: Zeros in the Transfer Function, Time-Domain Response, Miller Effect
High Frequency Behavior: Nth Order System (first term), Bandwidth Estimation, ZVT
High Frequency Behavior: Design Example, Zero-Value time Constant, Bandwidth Estimation
High Frequency Behavior: Zero-Value Time Constants with Zeros, Complex Poles, Low Cut-off
High Frequency Behavior: Higher Order Terms, Generalized Time and Transfer Constants
High Frequency Behavior: Applications of Generalized Time- and Transfer-Time Constants (1)
High Frequency Behavior: Applications of Generalized Time- and Transfer-Time Constants (2)
High Frequency Behavior: Generalized Time and Transfer Constant (TTC), Uncoupled Time Constants
High Frequency Behavior: Creation of Zeros, Infinite Value Time Constants, Low Cut-Off
Feedback Viewpoint: Introduction, Asymptotic Equality Principle, Types of Feedback
Feedback Viewpoint: Effect on Bandwidth, Nonlinearity, Dynamics, Sensitivity
Feedback Viewpoint: Asymptotic Gain Formula, Return Ratio, Gain Correction Factors, Examples
Feedback Viewpoint: Asymptotic Gain Formula, Return Ratio, More Examples
Feedback Viewpoint: Asymptotic Gain Formula, Example, Cherry Hooper, Pole Splitting/Root Locus
Feedback Viewpoint: Limitations of Return Ratio, General Definition of Return Ratio
Feedback Viewpoint: Impedance Change, Blackman formula, Examples, Types of Feedback
Feedback Viewpoint: Loop Gain, Breaking the Loop, Current and Voltage Loop Gain
Feedback Viewpoint: Properties of Loop Gain, Bilateral Loop Gain, Nested Loops
Stability: Introduction, Transfer Function Under Feedback, Peaking, Routh-Hurwitz Criterion
Stability: Stability Criteria (cont), Conditional Stability, Circuit Example
Stability: Nyquist Criterion (+derivation), Phase and Gain Margin
Stability: Nonlinear Stability Criteria, Circle Criterion
Noise: Random Processes Review, Auto- and Cross Correlation, Power Spectrum
Noise: Spectrum Transfer Function, Johnson(Thermal) Noise Derivation, KT/C noise, Circuit Model
Noise: Physics of Shot Noise, Burst Noise, Flicker Noise (1/f Noise), Power Laws
Noise: Circuit Noise Models in PN junction diode, BJT, MOSFET, noise corner frequency
Noise: Noise in simple amplifiers, Input Referred voltage and Current Noise
Noise: Power Spectrum of Input and Output Noise for Single Stage Amplifier
Noise: Differential Amplifier Noise, Multi-Stage Amplifier Noise
Broadband Amplifiers: Trade-Offs, Gain-Bandwidth vs. Delay Tradeoff, Distributed Amplifier
Compound Amplifier Stages (Low Frequency): Differential-to-Single Conversion, Active Load 2