25773: Filters and Network Synthesis
Course Name: Filters and Network Synthesis
Course Number: 25773
Prerequisite(s): 25744 (Electronics Principles and Lab) and 25032 (Electronics 2) or 25203 (Electronics Lab 2)
Co-requisite(s): -
Units: 3
Level: Undergraduate
Last Revision: Fall 2020
Description:
Syllabus:
Course Number: 25773
Prerequisite(s): 25744 (Electronics Principles and Lab) and 25032 (Electronics 2) or 25203 (Electronics Lab 2)
Co-requisite(s): -
Units: 3
Level: Undergraduate
Last Revision: Fall 2020
Description:
The objective of this course is to develop the ability to analyze and design various standard filters such as Butterworth, Chebishev, Inverse Chebishev, Cauer, Bessel of Lowpass, Highpass, Bandpass, and Bandstop types and their synthesis as passive LC, active RC, gm-C and switched-C circuits as used in different applications in various fields of electrical engineering for students.
Syllabus:
- Properties and design of standard filters (Butterworth, Chebishev, Inverse-Chebishev, Cauer, Bessel filters)
- Design of HP, BP, and BS filters using reactance transformation of LP filter
- AP filter design
- Properties of passive LC two-port transfer function
- Synthesis of filters by ladder network
- Synthesis by Darlington method
- LC circuits of standard filters
- Network transformations (reactance, dual, reciprocal, Norton)
- Synthesis of AP filter by lattice network
- Fundamentals of active filters, sensitivity, realization methods
- Second-order sections used in cascade realization
- Simulation methods for active filter realization
- Two and three op-amp filters
- Properties and synthesis of integrated gm-C filters
- Properties and synthesis of integrated Switched-C filters
- L. VanHammar, Analog Filter Design Using MATLAB, 2009
- R. Schaumann et al., Design of Analog Filters, 2001
- A. I. Zverev, Handbook of Filter Synthesis, 1967
- H. G. Dimopolous, Analog Electronic Filters, 2012
Last Update: 2024-05-13