Introduction to Wireless Communication Circuits.
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| Format: | eBook |
| Language: | English |
| Published: |
Aalborg :
River Publishers,
2018.
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| Series: | River Publishers series in circuits and systems.
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| Subjects: | |
| Online Access: | Connect to the full text of this electronic book |
Table of Contents:
- Front Cover; Half Title Page; RIVER PUBLISHERS SERIES IN CIRCUITS AND SYSTEMS; Title Page
- Introduction to Wireless Communication Circuits; Copyright Page; Foreword; Preface; Contents; List of Figures; List of Tables; List of Abbreviations; Part
- I; Part I
- Part 1; Chapter
- 1 The Amazing World of Wireless Systems; 1.1 Introduction to Communication Circuits; 1.2 Signal Levels and Rayleigh Fading; 1.3 Calculation of the Sensitivity in Different Standards; 1.4 Considerations in Radio Frequency System Design; 1.5 A Basic Understanding of Frequency Synthesizers; 1.6 Conclusion
- 1.7 References and Further Reading1.8 Problems; Chapter 2
- Oscillators; 2.1 An Introduction to Oscillators; 2.2 First Approach: Positive Feedback; 2.3 Second Approach: Negative Resistance/Conductance; 2.4 Oscillator Topologies; 2.4.1 Common-Emitter Oscillator Circuit; 2.4.2 Common-Base Oscillator Circuit; 2.4.3 Common-Collector Oscillator Circuit; 2.4.4 Colpitts versus Hartley Oscillators, a New Insight; 2.5 Crystal Oscillators; 2.5.1 Datasheet of a Family of Crystals; 2.6 Calculation of the Oscillation Frequency Includingthe Device Parasitics; 2.7 Quality Factor of Reactive Elements
- 2.8 Nonlinear Behavior in Amplifiers2.9 A Note on the Modified Bessel Functions of the First Kind; 2.10 Large-Signal Transconductance and Harmonic Tuned Amplifiers; 2.10.1 CASE I: Resonant circuit is tuned to the first harmonic of the input frequency(tuned amplifier case); 2.10.2 CASE II:Resonant circuit is tuned to the second harmonic of the input frequency (frequency multiplier case); 2.11 Differential Bipolar Stage Large-Signal Transconductance; 2.12 Inductive and Capacitive Dividers (Impedance Transformers); 2.12.1 Tapped Capacitive/Inductive Impedance Transformers
- 2.13 Analysis of large-signal Loop Gain of an Oscillator2.13.1 Increasing the Quality Factor and the Frequency Stability with a Crystal; 2.13.2 Oscillator Harmonics Calculation; 2.14 Colpitts Oscillator with Emitter Degeneration; 2.15 MOS Stage Large-Signal Transconductance; 2.16 Differential MOS Stage Large-Signal Transconductance; 2.17 An Oscillator With a Hypothetical Model; 2.18 A MOS Oscillator with Differential Gain Stage; 2.19 Voltage-Controlled Oscillators; 2.19.1 Different Types of Varactors and their Bias; 2.20 Special Topic: Nonlinear Device Fed by Sinusoidal Large-Signal
- 2.21 Datasheet of a voltage-controlled oscillator2.22 Conclusion; 2.23 References and Further Reading; 2.24 Problems; Part
- II; Part II
- Part 2; Chapter 3
- PLL, FM Modulation, FM Demodulation; 3.1 Frequency Modulation; 3.2 Frequency Demodulation; 3.2.1 Phase Detector; 3.2.2 Gilbert Cell as a Phase Detector; 3.2.3 Quadrature Phase (FM) Detector; 3.3 Basics of Phase-Locked Loops and their Application; 3.3.1 The Transfer Function of the First-Order Phased Locked Loop; 3.4 Further Phase-Locked Loop Applications; 3.4.1 Frequency Modulation with Phase-Locked Loop