Spectrum analyzer theory and applications

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Title:

Personal Author:

Engelson, Morris

Publication Information:

Dedham, Mass. : Artech House, 1974

ISBN:

9780890060247

Subject Term:

Spectrum analyzers

Modulation (Electronics)

Added Author:

Telewski, Fred

Available:*

Library	Item Barcode	Call Number	Material Type	Item Category 1	Status
Searching... PSZ KL	30000001260516	TK7879.4.E53 1974	Open Access Book	Book	Searching... Unknown
Searching... PSZ KL	30000000852156	TK7879.4.E53 1974	Open Access Book	Book	Searching... Unknown

On Order

Preface	p. v
Table of Contents	p. vii
Chapter 1 Spectrum Analyzers
1.1 Introduction	p. 1
1.2 Constructing a Spectrum Analyzer	p. 2
1.3 The Sweeping Signal System	p. 6
1.4 Types of Signals	p. 7
1.5 Examples	p. 8
1.6 Exercises	p. 10
Chapter 2 Spectrum Theory
2.1 Time and Frequency Domain	p. 13
2.2 Orthogonal Functions	p. 16
2.3 The Properties of Sinewaves	p. 17
2.4 The Fourier Series	p. 25
2.5 Do Spectral Lines Exist?	p. 28
2.6 Response of Circuits to Signals	p. 29
2.7 Proofs and Examples	p. 31
2.8 Exercises	p. 35
Chapter 3 Fourier Analysis
3.1 Fourier Series	p. 37
3.2 Fourier Applications	p. 40
3.3 Superposition	p. 44
3.4 Gibbs Phenomenon	p. 47
3.5 Continuous -- Dense Spectrum	p. 49
3.6 Fourier Integral	p. 54
3.7 Reconciling Theory and Measurement	p. 56
3.8 Proofs and Tables	p. 58
3.9 Examples	p. 67
3.10 Exercises	p. 72
Chapter 4 Modulation Theory
4.1 Introduction	p. 75
4.2 Amplitude Modulation	p. 76
4.3 Angle Modulation	p. 80
4.4 Bessel Functions	p. 82
4.5 The FM Spectrum	p. 86
4.6 Combined Modulation	p. 89
4.7 Time Domain and Frequency Domain	p. 91
4.8 Examples	p. 95
4.9 Exercises	p. 96
Chapter 5 The Sweeping-Signal Spectrum Analyzer
5.1 Introduction	p. 99
5.2 The CW Response	p. 100
5.3 Pusled Signals	p. 105
5.4 Sensitivity	p. 109
5.5 Convolution	p. 112
5.6 Examples	p. 113
5.7 Exercises	p. 116
Chapter 6 The Measurement Problem
6.1 Introduction	p. 119
6.2 Types of Measurements	p. 119
6.3 Measurement Limitations	p. 120
6.4 Absolute Frequency	p. 121
6.5 Swept Front End	p. 125
6.6 Amplitude Measurements	p. 126
6.7 Calibrated, Spurious-Free Analyzer	p. 133
6.8 Examples	p. 135
6.9 Exercises	p. 139
Chapter 7 Amplitude Modulation
7.1 Basic Relationships	p. 141
7.2 Measuring AM	p. 142
7.3 Other Forms of AM	p. 144
7.4 Exercises	p. 147
Chapter 8 Frequency Modulation
8.1 Basic Relationships	p. 149
8.2 Narrowband FM	p. 150
8.3 Wideband FM	p. 156
8.4 Ultrawideband	p. 163
8.5 Determining Modulation Rate For Unresolved Signal	p. 164
8.6 Combined AM and FM	p. 165
8.7 Multitone FM	p. 167
8.8 Intensification Effects	p. 168
8.9 Exercises	p. 169
Chapter 9 Pulsed RF
9.1 Basic Relationships	p. 171
9.2 Radar Performance	p. 175
9.3 Effect of Pulse Shape	p. 176
9.4 Effect of FM	p. 178
9.5 Percentage of Missing Pulses Determination	p. 181
9.6 Measuring Modulator On/Off Ratio	p. 183
9.7 Effect of Control Settings	p. 185
9.8 Reconciling Theory and Measurement	p. 192
0.9 Exercises	p. 196
Chapter 10 Miscellaneous Applications
10.1 Waveform Analysis	p. 199
10.2 Random Noise Measurement	p. 202
10.3 Distortion Measurement	p. 208
10.4 Component Transfer-Characteristic Measurement	p. 209
10.5 Synchronized Sweeper Techniques	p. 211
10.6 EMI Measurements	p. 214
10.7 Telemetry Subcarrier Tests	p. 215
10.8 Signal Purity Measurements	p. 218
10.9 Doppler Velocity Measurement	p. 221
10.10 Using Transducers	p. 222
10.11 Using Manual Sweep	p. 224
10.12 Exercises	p. 226
Chapter 11 Definitions of Terms
11.1 Introduction	p. 229
11.2 Tektronix Definitions	p. 229
11.3 IEEE Definitions	p. 234
11.4 Explanation, Measurement Methods	p. 245
Appendix	p. 247
Bibliography	p. 267
Index	p. 269

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Table of Contents