Research Catalog

Microwave differential circuit design using mixed-mode S-parameters

Title
Microwave differential circuit design using mixed-mode S-parameters / William R. Eisenstadt, Bob Stengel, Bruce M. Thompson.
Author
Eisenstadt, William Richard.
Publication
Boston : Artech House, [2006], ©2006.

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Additional Authors
  • Stengel, Robert.
  • Thompson, Bruce M.
Description
xvi, 226 pages : illustrations; 24 cm +
Series Statement
Artech House microwave library
Uniform Title
Artech House microwave library.
Subjects
Bibliography (note)
  • Includes bibliographical references and index.
Contents
1. Differential Circuit Technology -- 1.1. Introduction -- 1.2. Digital Versus Analog Signal Integrity -- 1.3. Signal Integrity Issues -- 1.3.1. Rise Time, Fall Time, Duty Cycle, and Period -- 1.3.2. Jitter -- 1.3.3. Bit Error Rate -- 1.3.4. Isolation -- 1.4. Interconnect Discontinuities -- 1.5. Differential Circuit Definitions -- 1.6. Electromagnetic Coupling -- 1.7. Common-Mode Impedance Rejection of Differential Circuits -- 1.8. Increased Distortion-Free Dynamic Range with Differential Circuits -- 1.9. Nonlinear Even-Order Distortion Improvement with Differential Circuits -- 1.10. Conclusions -- 2. Mixed-Mode S-Parameters -- 2.1. Introduction -- 2.2. Mode Definitions -- 2.3. Mode-Specific Waves and Impedances -- 2.4. Normalized Power Waves -- 2.5. Mixed-Mode Scattering Parameters -- 2.6. Standard S-Parameter/Mixed-Mode S-Parameter Transformation -- 2.7. Conclusions -- 3. Transmission Lines and Systems -- 3.1. Introduction -- 3.2. Traveling Waves and Transmission-Line Concepts -- 3.3. Mode Specific S-Parameters-Isolated Transmission Lines -- 3.4. Mode Specific S-Parameters-Coupled Transmission Lines -- 3.5. Time-Domain Analysis-Coupled Transmission Lines -- 3.6. Distributed Mixed-Mode S-Parameter to R, L, G, and C Model -- 3.7. Single-Ended Signal Application in Mixed-Mode Terms -- 3.8. Conclusions -- 4. Differential Low-Noise Amplifier -- 4.1. Introduction -- 4.2. DLNA Implementation -- 4.2.1. Ideal Mixed-Mode S-Parameters -- 4.2.2. Practical Matching Limitations -- 4.2.3. Noise Rejection -- 4.2.4. Common-Mode Gain -- 4.3. DLNA S-Parameters, S[subscript dd] -- 4.4. Neutralized DLNA -- 4.5. Passive Circuits -- 4.6. Impedance Matching -- 4.7. Cross-Mode Parameters -- 4.8. Common-Mode Rejection -- 4.9. Supply and Ground Response -- 4.10. Common-Mode Signal Postprocessing -- 4.11. Noise Figure -- 4.12. Balanced Signal Losses -- 4.13. Distortion Analysis -- 4.14. Odd-Order Distortion -- 4.15. Even-Order Distortion -- 4.16. Conclusions -- 5. Power Splitter and Combiner Analysis -- 5.1. Introduction -- 5.2. Wilkinson Impedance Transformer Splitter/Combiner -- 5.3. Splitter/Combiner Mixed-Mode S-Parameter Matrix -- 5.4. Splitter/Combiner Standard S-Parameter Matrix -- 5.5. Mixed-Mode Splitter/Combiner S[superscript mm] = MS[superscript std] M[superscript -1] -- 5.6. Splitter General-Purpose Analysis/Specifications -- 5.7. Combiner General-Purpose Analysis/Specifications -- 5.8. Hybrid Splitter/Combiner and Mixed-Mode S-Parameters -- 5.9. Transformer Sigma/Delta Hybrid Implementation -- 5.10. Transformer 90[degree] Hybrid Implementation -- 5.11. Summary-Mixed-Mode S-Parameters Applied to Baluns and Hybrids -- 6. Mixed-Mode Analysis Applied to Four-Ports and Higher -- 6.1. Introduction -- 6.2. Impedance (Z), Admittance (Y), Hybrid (H), ABCD, Chain (T), and Scattering (S) Parameter Network Matrix Models -- 6.3. Differential Band-Pass Filter -- 6.4. Dual Directional Coupler -- 6.5. Differential Isolator -- 7. Mixed-Mode and Time Domain -- 7.1. Introduction -- 7.2. Steady State AC Network Response -- 7.3. Impulse Response -- 7.4. Representation of Signals by a Continuum of Impulses -- 7.5. Impulse Response -- 7.6. Step Response and TDR -- 7.7. Impulse Transmission Response and TDT -- 7.8. Parallel, Cascade, and Feedback Connections -- 7.9. Summary of S-Parameter Applications in the Time Domain.
ISBN
1580539335 (alk. paper)
LCCN
2005057086
OCLC
  • ocm62679927
  • SCSB-5250109
Owning Institutions
Columbia University Libraries