Microwave system engineering principles /

Microwave System Engineering Principles focuses on the calculus, differential equations, and transforms of microwave systems. This book discusses the basic nature and principles that can be derived from thermal noise; statistical concepts and binomial distribution; incoherent signal processing; basi...

Descripción completa

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Raff, Samuel J.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Oxford ; New York : Pergamon Press, �1977.
Temas:
Microwaves.
Microwaves
Micro-ondes.
TECHNOLOGY & ENGINEERING > Mechanical.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Microwave System Engineering Principles; Copyright Page; Dedication; Preface; Table of Contents; CHAPTER I. THERMAL NOISE; 1.1 Basic Nature and Principles Which Can Be Derived From It; 1.2 Noise Bandwidth, Noise Figure, and Noise Temperature; 1.3 Noise Temperature and Noise Figure of Attenuators; 1.4 Cascades; CHAPTER II. STATISTICS AND ITS APPLICATIONS; 2.1 Statistical Concepts, Binomial Distribution; 2.2 Shot Noise; 2.3 The Gaussian Distribution; 2.4 Statistics of Detector Outputs; 2.5 Choice of Detector and Output Type; 2.6 The Bayes Criterion and Likelihood Fuctions.
  • 2.7 Reliability Theory2.8 Telephone Channel Usage; CHAPTER III. SIGNAL PROCESSING AND DETECTION; 3.1 Detection and False Alarm Opportunities; 3.2 Incoherent Signal Processing; 3.3 Coherent Signal Processing; 3.4 ROC Curves and the Calculation of Error Rates; 3.5 Approximate False Alarm Probability; 3.6 Parity Checks; CHAPTER IV. ANTENNAS; 4.1 Definition of Terms; 4.2 Basic Properties; 4.3 Power Transfer; 4.4 Noise Temperature of Antennas; 4.5 Antenna Losses; 4.6 Antenna Pattern Characteristics; 4.7 Beam Widths and Useful Approximations; CHAPTER V. PROPAGATION AND TRANSMISSION LINES.
  • 5.1 Fundamentals of Propagation5.2 LaPlace's Equation and Transmission Line (TEM) Waves; 5.3 Plane Waves; 5.4 Skin Depth and Conductor Losses; 5.5 Attenuation Due to Finite Conductivity; 5.6 Waveguide Propagation; 5.7 Ionospheric Propagation; 5.8 Extraterrestrial Propagation; CHAPTER VI. REFLECTION REFRACTION AND SCATTERING; 6.1 Interfaces Between Homogeneous Media; 6.2 Refraction in Non-Homogeneous Media; 6.3 Useful Rules for Calculating Microwave Reflections and Scattering; 6.4 Water In the Air; CHAPTER VII. SOME SYSTEM CHARACTERISTICS; 7.1 Modulation, Bandwidth and Noise; 7.2 Multiplexing.
  • 7.3 Handling of Voice Communication7.4 Communications Satellites; 7.5 The TL Radio Relay System; 7.6 Radar; REFERENCES; APPENDIX A: IMPORTANT FORMULAE, NUMBERS AND CONCEPTS; I
  • THERMAL NOISE; II
  • STATISTICS; III
  • SIGNAL PROCESSING AND DETECTION; IV
  • ANTENNAS; V
  • PROPAGATION AND TRANSMISSION LINES; VI
  • REFLECTION, REFRACTION AND SCATTERING; VII
  • SOME SYSTEM CHARACTERISTICS; APPENDIX B: TABLE OF SYMBOLS; APPENDIX C: ALTERNATIVE PROOF OF RECIPROCAL PROPERTIES OF 2 PORT LOSSLESS NETWORKS; APPENDIX D: CALCULATION OF MEAN AND VARIANCE OF BINOMIAL DISTRIBUTION.
  • Appendix e: gaussian distribution derivationsappendix f: problems; index.

Ejemplares similares