Analog CMOS Design
Transcript of Analog CMOS Design
Teaching Methodology & Subject detailing Subject: Analog CMOS Design
(M.E. – VLSI & Embedded Systems 2013 Course)
Prepared by: Dr. M. B. Mali
Note: Books R2 & R4 are for additional reading.
References
R1. Thomas Lee, “The Design of CMOS Radio – Frequency Integrated Circuits”, Second edition,
Cambridge.
R2. B. Razavi, Design of Analog CMOS Integrated Circuits, McGraw-Hill
R3. P. E. Allen and D. R. Holberg, CMOS Analog Circuit Design, Second Edition, Oxford
University Press
R4. P. Gray, P. J. Hurst, S. H. Lewis and R. Meyer, Analysis and Design of Analog Integrated
Circuits, Fourth Edition,Wiley, 2001. (Low Price Edition)
Module Topic Reference/Text Book
Page No.
I Current sources and References
MOSFET as switch, diode and active resistor R3: 113 – 126
MOS Small-signal Models R3: 87 – 91
Common Source Amplifier, The CMOS Inverter as an
Amplifier
R3: 168 – 180
Weak inversion; Short channel regime R1: 180 – 185
Current sinks and sources; Current mirrors R3: 126 – 143
Current and voltage references, band gap reference R3: 143 – 159
II CMOS Opamp
Inverters R3: 168 – 180
cascode R3: 199 – 211
differential amplifiers R3: 180 – 198
Output amplifier R3: 218 – 229
Opamp R3: 269 – 281
high speed opamp R3: 368 – 371
micro power opamp R3: 393 – 395
low noise opamp R3: 402 – 406
III Low and High Bandwidth Design
Digital to Analog Converters ( No numerical) R3: 613 – 634
switched capacitors R3: 493 – 504
Analog to Digital Converters ( No numerical) R3: 652 – 697
Bandwidth estimation open and short circuit techniques R1: 234 – 258
Zeros as bandwidth enhancers R1: 271 – 282
Tuned amplifiers R1: 290 – 297
IV Low Noise Amplifier
Low Noise Amplifier (LNA) design, noise and power trade
off, optimizations
R1: 364 – 390
Design of mixer R1: 404 – 427