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EE 240: Advanced Analog Integrated Circuits

Electrical Engineering 240: Advanced Analog Integrated Circuits (Spring 2011, UC Berkeley). Instructor: Professor Simone Gambini. Analysis and optimized design of integrated analog systems and building blocks. Specific topics include operational and wide-band amplifiers, gain-bandwidth and power considerations, analysis of noise in integrated circuits, low noise design, feedback, precision passive elements, analog switches, comparators, CMOS voltage references, non-idealities such as matching and supply/IO/substrate coupling.

Lecture 15 - Settling Time, Slewing Analysis


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Lecture 01 - Introduction
Lecture 02 - CMOS Technology and Passive Devices
Lecture 03 - Passive Devices, MOS Transistor Models
Lecture 04 - MOSFET Models for Design
Lecture 05 - Electronic Noise
Lecture 06 - Electronic Noise (cont.), Noise Analysis Techniques
Lecture 07 - Noise Analysis Techniques (cont.), Current Sources
Lecture 08 - Current Sources (cont.), Matching
Lecture 09 - Matching (cont.), Operational Transconductance Amplifiers
Lecture 10 - Operational Transconductance Amplifiers (cont.)
Lecture 11
Lecture 12 - Differential OTAs, Folded Cascode OTA
Lecture 13 - Folded Cascode OTA (cont.), Common Mode Feedback
Lecture 14 - Feedback
Lecture 15 - Settling Time, Slewing Analysis
Lecture 16 - Slewing Analysis (cont.), Two-Stage OTAs
Lecture 17 - Two-Stage OTAs, Design Examples
Lecture 18 - Periodic Small Signal Analysis
Lecture 19 - Comparators
Lecture 20 - Comparators (cont.)
Lecture 21 - Dynamic Comparators
Lecture 22 - Dynamic Comparators (cont.), Offset Cancellation
Lecture 23 - Offset Cancellation (cont.)
Lecture 24 - MOS Sample and Hold
Lecture 25 - Device Matching Mechanisms
Lecture 26 - Project Review
Lecture 27 - Analog Scaling