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 RF Systems, Components, and Circuits Handbook

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 Ferril Losee;

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 Artech House

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 Here is the one and only book you need to get up to speed fast on the latest developments and key applications of radio frequency (RF) engineering technology. This valuable reference tool helps high-tech and non-tech professionals alike gain a solid, broad understanding of the many types of RF systems and equipment in use today.

Clearly written and concise, the book is organized into two sections. Part One provides an easy-to-follow introduction to a wide variety of RF systems including radar, navigation, ECM, and more. You learn the fundamentals of noise/link analysis and analog/digital modulation, as well as key system elements such as amplifiers, oscillators, frequency multipliers, mixers, demodulators, and signal processors.

Part Two identifies and examines various RF circuits and components including transmission lines; waveguides and cavity resonators; antennas; RLC resonant circuits, LC filters, and impedance matching circuits; transformers; semiconductor diodes; RF bipolar and FETs; vacuum and microwave tools; and much more.

Engineers and technologists can find hundreds of easy-to-follow equations to help refresh their understanding of important RF analysis and design concepts. Military officers and other personnel get the timely information they need to choose, operate, and maintain many types of complex military communication systems, and high-technology managers and marketers can use the book to familiarize themselves with RF systems being developed for their companies. This book is also a superb learning tool for RF and engineering students.



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Contents:

1. Introduction to Communication Systems: Background Information and Terminology. Introduction to Communication Services and Systems. Transmission Media.

2. Introduction to Radar, Navigation, and Other RF Systems: Radar Systems. Navigation Systems. Electronic Warfare Systems. Radio Astronomy Systems. Radiometer Systems. Microwave Heating Systems.

3. Radio Frequency Propagation: Antennas. Electromagnetic Waves, Fields, and Power Density. RF Electrical Field Waveforms and Vector Addition. Free-Space Path Loss. Excess Path Loss and Atmospheric Attenuation. Atmospheric Refraction. Diffraction of Radio Waves. Multipath. Ionospheric Propagation. Ground-Wave Propagation. Scatter Propagation. Fiber Optic Cable Propagation. Radar Cross-Section of Targets. Equations for Calculating Propagation Performance for Communication Systems. Equations for Calculating Propagation Performance for Radar Systems.

4. RF Noise and Link Analysis: Concepts of RF Noise and Signal-to-Noise Ratio. Noise Power, Noise Temperature, and Noise Figure. Multiple-Stage Systems With Noise. Types of Noise. Signal-to-Noise Improvement by Use of Integration. Signal-to-Noise Ratio. Communication System Link Analysis. Radar System Link Analysis. Performance Calculations for Radar Systems With Electronic Countermeasures.

5. Modulation Techniques: Pulsed Continuous-Wave Signals. Conventional Amplitude Modulation. Double Sideband Suppressed Carrier Modulation. Vestigial Sideband Modulation. Single-Sideband Modulation. Standard Frequency Modulation. Modulation for Telemetry. Combination Communication and Range-Measurement Systems. Modulation for Radar. Single-Channel Transmitter System. Frequency Division Multiplex Transmitter System. Sample Circuits and Analog-to-Digital Converter Concepts. Time Division Multiplex Transmitter System With Pulse Code Modulation. Two-State Modulation Types for Binary Signals. Four-State and Eight-State Phase-Shift Keying. Sixteen Phase-State Keying (16-PSK). Sixteen Amplitude-Phase Keying.

6. RF Amplifiers, Oscillators, Frequency Multipliers, and Mixers: Amplifiers. Oscillators and Frequency Synthesizers. Frequency Multipliers. Mixers.

7. Modulators and Demodulators: Modulators. Demodulators or Detectors.

8. Older Communication Systems: HF Communication System Using Single-Sideband Modulation. VHF or UHF Ground-to-Air Communication System Using Either Amplitude Modulation or Narrowband FM. Frequency Modulation Broadcast Systems. Microwave Relay Systems. Satellite Relay Communication Systems. Satellite Relay Earth Stations.

9. Current and Future Commercial Communication Systems: Business and Personal Communication Systems. Cellular Telephone Systems. GPS Receivers. Fiber Optic Communication Systems.

10. Radar Systems: Radar Cross-Section of Targets. Radar Clutter. Radar Measurements. Continuous-Wave Radar Systems. Moving-Target Indicator and Pulse Doppler Radars. Signal Processing for Moving-Target Indicator Radars. Tracking Radars.

11. Transmission Lines and Transmission Line Devices: Two-Wire Transmission Lines. Coaxial Transmission Lines. Coaxial Cable Connectors. Microstrip Transmission Lines. Stripline Transmission Lines. Characteristics of Transmission Lines. The Smith Chart. Impedance Matching Using the Smith Chart. Coaxial Terminations. Coaxial Directional Couplers. Baluns. Two-Wire Transmission Line Impedance Transformer. Stripline and Microstrip Circuits. Ferrite Circulators and Isolators. Coaxial Electromechanical Switches. Pin Diode Switches. Sparkgap Switches for Lightning Protection.

12. Waveguides and Waveguide-Related Components: Introduction to Waveguides. Rectangular Waveguides. Higher Order Modes in Rectangular Waveguides. Launching the TE Mode Using a Coaxial Line Input. Characteristic Wave Impedance for Waveguides. Other Types of Waveguides. Waveguide Hardware. Waveguide Hybrid Junctions. Waveguide Impedance Matching. Waveguide Resistive Loads and Attenuators. Waveguide Directional Couplers. Waveguide Ferrite Isolators, Circulators, and Switches. Waveguide Detectors and Mixers. Gas-Tube Switches. Duplexers. Cavity Resonators.

13. Antennas: Monopole Antennas. Dipole Antennas. Yagi-Uda Antennas. Sleeve Antennas. Loop Antennas. Helical Antennas. Spiral Antennas. Log-Periodic Antennas. Slot Antennas. Notch Antennas. Horn Antennas. Lens Antennas. Antenna Arrays. Planar Arrays. Scanning Methods. Flat-Plate Reflector Type Antennas. Parabolic Reflector Antennas.

14. Lumped Constant Components and Circuits: Conductors and Skin Effect. RF Resistors. Inductors and Inductive Reactance. RF Chokes. Capacitors and Capacitive Reactance. Series Resonant RLC Circuits. Parallel Resonant RLC Circuits. Complex Resonant Circuits. The Use of the Smith Chart for Circuit Analysis. S-Parameters. Impedance Matching Using LC Circuits. Impedance-Matching Design Using the Smith Chart. LC Filters.

15. RF Transformer Devices and Circuits: Conventional Transformers. Magnetic Core Material for RF Transformers. Tuned Transformers. High-Frequency Wideband Conventional RF Transformers. Transmission-Line Transformers. Power Combiners and Splitters.

16. Piezoelectric, Ferrimagnetic, and Acoustic Devices and Circuits: Quartz Crystal Resonators and Oscillators. Monolithic Crystal Filters. Ceramic Filters. Dielectric Resonant Oscillators. YIG Resonators and Filters. Surface Acoustic Wave Delay Lines. Surface Acoustic Wave Delay Line Oscillators. Bulk Acoustic Wave Delay Lines.

17. Semiconductor Diodes and Their Circuits: Semiconductor Materials. Ordinary Junction Diodes. Zener Diodes. Schottky-Barrier Diodes. Pin Diodes. Varactor Diodes. Step-Recovery Diodes. Microwave Tunnel Diodes and Circuits. Microwave Gunn Diodes and Circuits. Microwave Impatt Diodes. Semiconductor IR Laser Diodes. Light-Emitting Diodes. IR Photodiodes.

18. Bipolar and Field-Effect Transistors and Their Circuits: Bipolar Junction Transistors. BJT Amplifier Configurations. Field Effect Transistors and Circuits. Comparison of FET and BJT Amplifiers. High Electron Mobility Transistors and Heterojunction Bipolar Transistors. DC Bias Circuits for BJT Amplifiers. Bias Circuits for FET Amplifiers. Stability With BJT and FET Amplifiers. Impedance Matcing. Design Methods With S-Parameters. Manufacturers Data Sheets for Transistors.

19. High-Power Vacuum Tube Amplifiers and Oscillators: Grid Tubes. Microwave Tubes and Circuits.



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Currently a part-time consultant, Ferril Losee has more than 40 years electrical engineering experience, both as an industry professional and a university instructor. His recent research activity has included the design of a high performance air-to-ground military communication systems and a dynamic radar cross section measurement system.

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