Analysis and Design of Autonomous Microwave Circuits - Market Research Reports

Welcome - Home - Register - Login - Help/FAQ - 0 items

Search
Enter keywords, a title or
a report id number below.

Advanced


	Select a currency for use throughout the site

Viewing report

Order by Fax
Printer Friendly
PDF Brochure
Send to Friend
Enquire before Buying

| More

Hard Copy

Analysis and Design of Autonomous Microwave Circuits
John Wiley and Sons Ltd, Jan 2009, Pages: 704



		Description


	Table of Contents



		Author



		Enquire before Buying



		Send to a Friend

Preface.
1. Oscillator Dynamics.

1.1. Introduction.

1.2. Operational Principle of Free-Running Oscillators.

1.3. Impedance-Admittance Analysis of an Oscillator.

1.4. Frequency-Domain Formulation of an Oscillator Circuit.

1.5. Oscillator Dynamics.

1.6. Phase Noise.

2. Phase Noise.

2.1. Introduction.

2.2. Random Variable and random Processes.

2.3. Noise Sources in Electronic Circuits.

2.4. Derivation of the Oscillator Noise Spectrum Using Time-Domain Analysis.

2.5. Frequency-Domain Analysis of a Noisy Oscillator.

3. Bifurcation Analysis.

3.1. Introduction.

3.2. Representation of Solutions.

3.3. Bifurcations.

4. Injected Oscillators and Frequency Dividers.

4.1. Introduction.

4.2. Injection-Locked Oscillators.

4.3. Frequency Dividers.

4.4. Subharmonically and Ultrasubharmonically Injection-Locked Oscillators.

4.5. Self-Oscillating Mixers.

5. Nonlinear Circuit Simulation.

5.1. Introduction.

5.2. Time-Domain Integration.

5.3. Fast Time-Domain Techniques.

5.4. Harmonic Balance.

5.5. Harmonic Balance Analysis of Autonomous and Synchronized Circuit.

5.6. Envelope Transient.

5.7. Conversion Matrix Approach.

6. Stability Analysis Using Harmonic Balance.

6.1. Introduction.

6.2. Local Stability Analysis.

6.3. Stability Analysis of Free-Running Oscillators.

6.4. Solution Curves Versus a Circuit Parameter.

6.5.Global Stability Analysis.

6.6. Bifurcation Synthesis and Control.

7. Noise Analysis Using Harmonic Balance.

7.1. Introduction.

7.2. Noise in Semiconductor Devices.

7.3. Decoupled Analysis of Phase and Amplitude Perturbations in a Harmonic Balance System.

7.4. Coupled Phase and Amplitude Noise Calculation.

7.5. Carrier Modulation Approach.

7.6. Conversion Matrix Approach.

7.7. Noise in Synchronized Oscillators.

8. Harmonic Balance Techniques for Oscillator Design.

8.1. Introduction.

8.2. Oscillator Synthesis.

8.3. Design of Voltage-Controlled Oscillators.

8.4. Maximization of Oscillator Efficiency.

8.5. Control of Oscillator Transients.

8.6. Phase Noise Reduction.

9. Stabilization Techniques for Phase Noise Reduction.

9.1. Introduction.

9.2. Self-Injection Topology.

9.3. Use of High-Q Resonators.

9.4. Stabilization Loop.

9.5. Transistor-Based Oscillators.

10. Coupled-Oscillator Systems.

10.1. Introduction.

10.2. Oscillator Systems with Global Coupling.

10.3. Coupled-Oscillator Systems for Beam Steering.

11. Simulation Techniques for Frequency-Divider Design.

11.1. Introduction.

11.2. Types of frequency dividers.

11.3. Design of Transistor-Based Regenerative Frequency Dividers.

11.4. Design of Harmonic Injection Dividers.

11.5. Extension of the Techniques to Subharmonic Injection Oscillators.

12. Circuit Stabilization.

12.1. Introduction.

12.2. Unstable Class AB Amplifier Using Power Combiners.

12.3. Unstable Class E/F Amplifier.

12.4. Unstable Class E Amplifier.

12.5. Stabilization of Oscillator Circuits.

12.6. Stabilization of Multifunction MMIC Chips.

Index.

Product samples

A sample for this product is available. Please Login/Register to download this sample.

Customers who bought this item also bought

The Design of Modern Microwave Oscillators for Wireless Applications: Theory and Optimization

Crystal Oscillators 2008: The Decade Ahead

Global Crystal Oscillator Industry Report, 2007

Global Crystal Oscillator Industry Report, 2007

RF Circuit Design

Wireless Transceiver Design: Mastering the Design of Modern Wireless Equipment and Systems

CMOS: Circuit Design, Layout, and Simulation, 2nd, Revised Edition

Fundamentals of RF and Microwave Transistor Amplifiers

Advanced Digital Signal Processing and Noise Reduction, 4th Edition

World Harmonic Filter Markets

Low-Noise Systems in the Deep Space Network

Phase-Lock Basics, 2nd Edition

Top of page