Banerjee A. Automated Electronic Filter Design: With Emphasis on Distributed Filters

2nd edition. — Springer, 2018. — 134 p. — ISBN: 978-3-319-61553-0.This book describes a novel, efficient and powerful scheme for designing and evaluating the performance characteristics of any electronic filter designed with predefined specifications. The author explains techniques that enable readers to eliminate complicated manual, and thus error-prone and time-consuming, steps of traditional design techniques. The presentation includes demonstration of efficient automation, using an ANSI C language program, which accepts any filter design specification (e.g. Chebyschev low-pass filter, cut-off frequency, pass-band ripple etc.) as input and generates as output a SPICE(Simulation Program with Integrated Circuit Emphasis) format netlist. Readers then can use this netlist to run simulations with any version of the popular SPICE simulator, increasing accuracy of the final results, without violating any of the key principles of the traditional design scheme.Introduction and Problem Statement.Automated Electronic Filter Design Scheme.
The Framework.
Normalized Butterworth Filter.
Practical Normalized Low Pass Butterworth Filter.
Normalized Chebyschev Low Pass Filter.
Normalized Inverse Chebyschev Filter.
Normalized Bessel Filter.
Denormalizing Prototype Filters to Real World Filters.
Filter Transformations.
Automated Filter Design Scheme.
Low Pass to Band Pass Filter Conversion Example.Automated Electronic Filter Design Scheme Implementation and Design Examples.Automated Electronic Filter Design Scheme.
Designing Filters with New Scheme.
Seventh Order Low Pass Butterworth Filter: Simplified Scheme Implementation.
Eighth Order High Pass Bessel Filter: Simplified Scheme Implementation.
Eighth Order Band Pass Chebyschev Filter: Simplified Scheme Implementation.
Designing Filters with New Scheme: Full Blown Implementation.
Chebyschev High Pass Filter: Calculated Order 3 Cut Off Frequency 21 MHz Pass Band Ripple 0.45 dB.
Chebyschev Band Pass Filter: Series Connection of High Pass and Low Pass Filters.
Effect of Non-ideal Reactive Elements on Filter Behavior and Performance and Design Space Exploration.
SPICE: Electronic Circuit Performance Evaluation Gold Standard.Distributed Electronic Filter Design Foundations.
Basic Transmission Line.
ТЕМ, ТЕ and TM Propagation Modes.
Equivalent Current-Voltage, Network Concepts, Admittance [Y], Impedance fZ], Scattering [S] and ABCD Matrices.
Microstrip Transmission Line and Intrinsic Properties.
Special Microstrip Structures: Half/Quarter Wave Plates and Microstrip Discontinuities.
Special Microstrip Structures Coupled Parallel Microstrips.
Microstrip Periodic Structures.
Image Networks and Impedances.
Insertion Loss Scheme for Electronic Filter Design.
Coupled Parallel Microstrip Pairs, Even/Odd Mode.
Microstrip Band Pass Filter Using Capacitively.
Capacitively Coupled Shunt Resonator Band Pass Filter.
Stepped Impedance Low Pass Filter.Automated Distributed Electronic Filter Design and SPICE Performance Analysis.
Why Automate - Kirschning and Jensen Model.
Fourth Order Butterworth Coupled Parallel Microstrip Band Pass Filter Design and SPICE Performance Analysis.
Cohn Direct Coupled Third Order 750 MHz Center Frequency 100 MHz Bandwidth Band Pass Filter.
Fifth Order 0.5 dB Pass Band Ripple Chebyschev Band Pass Filter Using End Capacitively Coupled Resonators (Microstrips).
Capacitively Coupled Shunt Resonator Seventh Order Chebyschev Band Pass Filter Design.
5.75 GHz Cut Off 0.5 dB Pass Band Ripple Stepped Impedance Chebyschev Seventh Order Low Pass Filter and SPICE Performance Analysis.Appendix A: Using the Automated Filter Design Tool.
Appendix B: Richard’s Transformation and Kuroda’s.
Identities.