Integrated Filter Design
Dr. Randy Geiger sir
(Author of "VLSI Techniques for Analog and Digital Circuits" )
Willard and Leitha Richardson Professor
Phone: 515-294-7745
Fax: 515-294-3637
e-mail rlgeiger@iastate.edu
Office: Room 2133 Coover
Surface: Department of Electrical and Computer Engineering
Iowa State University
Ames, Iowa 50011
Teaching Activities Randy Geiger's teaching is dominantly focused to the greater electronics and circuits area at both the undergraduate and graduate level. He regularly teaches undergraduate courses in electronics and analog and digital VLSI design. Undergraduate courses he has taught in recent semesters include EE 201, EE 203, EE 230, EE 330, EE 434 and EE 435. At the graduate level his teaching is primarily in the analog and mixed-signal VLSI design area. Recent graduate courses he has taught include EE 501, EE 505 and EE 508.
Research Activities Research interests are dominantly in the analog and mixed-signal VLSI field and on applications of this technology in other disciplines. Recent research projects have focused on design and testing of both analog to digital (ADC) and digital to analog (DAC) converters, op amp design, integrated filter design, temperature sensors, voltage references, and design and layout strategies for performance optimization and yield enhancement.
Background Randy Geiger received the BS degree in electrical engineering and the MS degree in mathematics from the University of Nebraska and the PhD degree in electrical engineering from Colorado State University. From 1977 to 1990 he was a faculty member in the Electrical Engineering Department at Texas A&M University and since 1991 he has been a member of the faculty in the Department of Electrical and Computer Engineering at Iowa State University where he currently holds the title Willard and Leitha Richardson Professor. He is a past president of the IEEE Circuits and Systems Society (CAS), a past chair of the Transactions Committee of the IEEE Periodicals Council, and a past member of the IEEE Publications Board. He was the recipient of the IEEE Millennium Medal and the IEEE CAS Society Golden Jubilee Award, and is a Fellow of the IEEE.
Course Description:
Filter design concepts. Approximation and synthesis. Transformations. Continuous-time and discrete time filters. Discrete, active and integrated synthesis techniques
Lecture notes
- Week 1 ( Lecture 1, Lecture 2, Lecture 3)
- Week 2 ( Lecture 4, Lecture 5, Lecture 6)
- Week 3 ( Holiday, Lecture 7, Lecture 8)
- Week 4 ( Lecture 9, Lecture 10, Lecture 11 )
- Week 5 ( Lecture 12, Lecture 13, Lecture 14)
- Week 6 ( Lecture 15, Lecture 16, Lecture 17)
- Week 7 ( Lecture 18, Lecture 19, Lecture 20 )
- Week 8 ( Lecture 21, Lecture 22, Lecture 23)
- Week 9 ( Lectrue 24, Lecture 25 , Lecture 26 )
- Week 10 ( Lecture 27, Lecture 28, Lecture 29 )
- Week 11 ( Lecture 30, Lecture 31, Lecture 32 )
- Week 12 ( Lecture 33, Lecture 34, Lecture 35 )
- Week 13 ( Lecture 36, Lecture 37, Lecture 38)
- Week 14 ( Lecture 39, Lecture 40, Lecture 41 )
- Week 15 ( Lecture 42, Lecture 43, Lecture 44 )
- Summary ( Lecture 1-44 Combined)
Homework Assignments
Lab Handouts
Additional Reading
-
VLSI Design Techniques for Analog and Digital Circuits, Geiger/Allen/Strader
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