+612 9045 4394
 
CHECKOUT
Microwave and RF Circuits : Analysis, Synthesis and Design - Max W. Medley

Microwave and RF Circuits

Analysis, Synthesis and Design

Hardcover Published: 19th December 1992
ISBN: 9780890065464
Number Of Pages: 592

Share This Book:

Hardcover

RRP $461.99
$319.75
31%
OFF
or 4 easy payments of $79.94 with Learn more
Ships in 7 to 10 business days

Provides coverage of the most efficient and effective methods of network analysis optimization and synthesis. A step-by-step guide to every aspect of the RF and microwave circuit design process - starting with a set of specifications and ending with hardware that performs as modeled the first time.

Prefacep. xi
Network Characterizationp. 1
Network Representationsp. 1
Z-Parameter Representationp. 2
Y-Parameter Representationp. 4
H-Parameter Representationp. 5
G-Parameter Representationp. 6
ABCD-Parameter Representationp. 7
Parameter Conversionsp. 8
Network Connectionsp. 11
The Cascade Connectionp. 11
The Parallel Connectionp. 13
The Series Connectionp. 14
The Series-Parallel Connectionp. 17
The Parallel-Series Connectionp. 19
S-Parametersp. 21
S-Parameter Conversionsp. 25
Generalized S-Parametersp. 30
Signal Flow Graphsp. 35
The S-Parameter Cascade Connectionp. 40
S-Parameter Parallel and Series Connections [18]p. 43
Indefinite S-Parametersp. 47
N-Port Networks With N-Terminalsp. 54
Referencesp. 59
Network Analysisp. 61
Circuit Elementsp. 62
Series and Shunt Impedancep. 62
Transmission Linesp. 67
The Ideal Transformerp. 71
Voltage and Current Sourcesp. 73
Network Analysisp. 75
S-Parameter Analysis Using the Connection Matrixp. 78
S-Parameter Analysis Using Explicit Expressionsp. 81
Nodal Analysisp. 85
Network Characterizationp. 99
Active and Passive Networksp. 100
Stabilityp. 103
Conjugately Matched Two-Portsp. 115
Transducer Power Gainp. 118
Maximum Available Gainp. 121
Available Power Gainp. 122
Operating Power Gainp. 123
Constant Gain Contoursp. 124
Mismatch Lossp. 129
Voltage Gainp. 135
Noise Figurep. 136
Power Amplifiersp. 143
Active Device Conversionsp. 143
Referencesp. 146
Mapping and Optimizationp. 149
Mappingp. 149
Mapping Theory and the Bilinear Transformp. 150
The Smith Chartp. 157
Impedance Matching Using the Smith Chartp. 163
Source and Load Mappingsp. 171
Multiport Mappingsp. 178
Mapping Applicationsp. 187
Feedback Amplifier Mappingp. 187
Active Isolatorp. 191
Reflection Amplifierp. 192
Optimizationp. 209
Error Functionsp. 214
Optimization Specificationsp. 222
Direct Search Optimization Methodsp. 232
Indirect Search Optimization Methodsp. 238
Optimization Strategyp. 247
Referencesp. 248
Modern Network Synthesisp. 251
Introduction To Network Synthesisp. 251
Element Extractionp. 256
The Approximation Problemp. 259
Low-Pass Filter Synthesisp. 262
The Butterworth or Maximally Flat Low-Pass Filterp. 262
The Chebyshev or Equal-Ripple Low-Pass Filterp. 267
The Inverse Chebyshev Low-Pass Filterp. 272
The Elliptic Low-Pass Filterp. 279
Phase Approximationp. 280
Frequency And Impedance Scalingp. 285
Bandpass Filter Synthesisp. 288
Low-Pass to Bandpass Transformationp. 288
Bandpass Approximationp. 293
High-Pass Filter Synthesisp. 299
Bandstop Filter Synthesisp. 300
Termination Adjustmentp. 304
Network Transformationsp. 305
Transformer Networksp. 312
Singly Terminated Networksp. 317
Conclusionp. 324
Referencesp. 324
Distributed Network Synthesisp. 327
Distributed Equivalencep. 330
The Transmission Line Elementp. 334
The Double-Length TLEp. 340
Distributed Network Transformationsp. 343
Distributed Approximationsp. 361
Cascaded Transmission Line Networksp. 362
Networks With TLEs and Low-Pass Stubsp. 367
Networks With TLEs and High-Pass Stubsp. 375
Bandpass and Bandstop Approximationsp. 381
Impedance-Transforming Networksp. 390
High-Pass Elementsp. 392
Low-Pass Elementsp. 394
Transmission Line Elementsp. 398
Conclusionp. 401
Referencesp. 402
Impedance Matching and Modelingp. 405
Synthesis Of Impedance-Matching Networksp. 406
Lumped-Element GBW Limitationsp. 413
Ideal GBW Limitationsp. 417
Distributed-Element GBW Limitationsp. 420
Load Modelingp. 423
Distributed Modelsp. 426
Complex Load Modelsp. 435
Negative-Image Modelsp. 440
Doubly Terminated Matching Networksp. 456
Sloped Approximationsp. 472
The Real Frequency Matching Techniquep. 477
Impedance From Resistance or Reactance Functionsp. 478
Computing Reactance From Discrete Resistance Functionsp. 484
Impedance-Matching Using Resistance Functionsp. 488
Summaryp. 494
Referencesp. 495
Practical Applicationsp. 499
Directional Couplersp. 501
Balanced Amplifiersp. 509
A 4.0- to 8.0-Ghz Balanced Amplifierp. 516
Microstrip Designp. 521
Microstrip Couplersp. 521
Microstrip Discontinuitiesp. 522
A Microstrip Balanced Amplifierp. 526
Mmic Designp. 542
Feedback Amplifiersp. 543
Resistive Compensated Amplifiersp. 551
Mmic Resistive Compensated Amplfierp. 554
Summaryp. 562
Referencesp. 324
Indexp. 567
Table of Contents provided by Syndetics. All Rights Reserved.

ISBN: 9780890065464
ISBN-10: 0890065462
Series: Microwave Library
Audience: Professional
Format: Hardcover
Language: English
Number Of Pages: 592
Published: 19th December 1992
Publisher: Artech House Publishers
Country of Publication: US
Dimensions (cm): 22.9 x 15.2  x 3.6
Weight (kg): 1.13