InfoCoBuild

Electrical Engineering 140: Analog Integrated Circuits

Electrical Engineering 140: Analog Integrated Circuits (Fall 2013, UC Berkeley). Instructor: Professor Clark Tu-Cuong Nguyen. Linear Integrated Circuits - Single and multiple stage transistor amplifiers. Operational amplifiers. Feedback amplifiers, 2-port formulation, source, load, and feedback network loading. Frequency response of cascaded amplifiers, gain-bandwidth exchange, compensation, dominant pole techniques, root locus. Supply and temperature independent biasing and references.

Lecture 26 - Feedback Configurations, Feedback Z (Impedance)


Go to the Course Home or watch other lectures:

Lecture 01 - Admin & Overview, Op Amps
Lecture 02 - Device Models I: Bipolar Junction Transistor Modeling
Lecture 03 - Device Models II: BJT Modeling, MOS Transistors
Lecture 04 - Inspection Analysis: BJTs
Lecture 05 - Inspection Analysis: BJTs, MOS Transistors
Lecture 06 - Frequency Response Inspection Analysis
Lecture 07 - Frequency Response Inspection Analysis, Active Loads
Lecture 08 - Active Loads (cont.)
Lecture 09 - Current Sources
Lecture 10 - Supply & Temperature Independent Biasing, Output Swing
Lecture 11 - Output Swing & Dynamic Range, High Swing Current Sources
Lecture 12 - High Swing Current Sources, Current Source Matching
Lecture 13 - Op Amps & Emitter Coupled Pair
Lecture 14 - Source Coupled Pair, Current Mirror Load, Input Offset Voltage
Lecture 15 - Finite Gain BW, High Gain Op Amps
Lecture 16 - High Gain Op Amps, Compensation, Slew Rate
Lecture 17 - Slew Rate, Output Stages
Lecture 18 - Stability
Lecture 19
Lecture 20 - Stability (cont.), Compensation: Narrowbanding & Pole-Splitting
Lecture 21 - Compensation: Narrowbanding & Pole-Splitting, Choosing Cc
Lecture 22 - CMOS Op Amp Compensation, RHP Zero
Lecture 23 - RHP Zero, Nulling the RHP Zero
Lecture 24 - Nulling the RHP Zero, Slew Rate, Settling Time
Lecture 25 - Settling Time, Power Supply Rejection Ratio (PSRR), Feedback
Lecture 26 - Feedback Configurations, Feedback Z (Impedance)
Lecture 27 - Feedback Loading, Feedback by Inspection
Lecture 28 - Feedback by Inspection