Rf and microwave power amplifier design

Provides comprehensive, state-of-the-art coverage of RF and microwave power amplifier design. The book describes both existing and new schematic configurations, theoretical approaches, circuit simulation results, and implementation techniques.

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Grebennikov, Andrei, 1956- (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York, N.Y. : McGraw-Hill Education LLC., c2015.
Edición:2nd edition.
Temas:
Power amplifiers.
Microwave amplifiers.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • A. About the author
  • B. Preface
  • C. Acknowledgment
  • 1. Two-port network parameters and passive elements
  • Traditional network parameters
  • Scattering parameters
  • Interconnections of two-port networks
  • Practical two-port networks
  • Three-port network with common terminal
  • Lumped elements
  • Transmission line
  • References
  • 2. Nonlinear circuit design methods
  • Frequency-domain analysis
  • Time-domain analysis
  • Newton-raphson algorithm
  • Quasilinear method
  • Harmonic balance method
  • X-parameters
  • References
  • 3. Nonlinear active device modeling
  • Power mosfets
  • Mesfets and hemts
  • Bjts and hbts
  • References
  • 4. Impedance matching
  • Main principles
  • Smith chart
  • Matching with lumped elements
  • Matching with transmission lines
  • Types of transmission lines
  • References
  • 5. Power transformers, combiners, and couplers
  • Basic properties
  • Transmission-line transformers and combiners
  • Baluns
  • Wilkinson power dividers/combiners
  • Branch-line hybrid couplers
  • Coupled-line directional couplers
  • References
  • 6. Power amplifier design fundamentals
  • Main characteristics
  • Power gain and stability
  • Stabilization circuit technique
  • Basic classes of operation: a, ab, b, and c
  • Load line and output impedance
  • Classes of operation based on finite number of harmonics
  • Mixed-mode class b and nonlinear effect of collector capacitance
  • Load-pull characterization
  • Linearity
  • Push-pull and balanced power amplifiers
  • Bias circuits
  • Practical aspect of rf and microwave power amplifiers
  • References
  • 7. High-efficiency power amplifiers
  • Overdriven class b
  • Class-f circuit design
  • Inverse class f
  • Class e with shunt capacitance
  • Class e with finite dc-feed inductance
  • References
  • 8. Broadband power amplifiers
  • Bode-fano criterion
  • Matching networks with lumped elements
  • Matching networks with mixed lumped and distributed elements
  • Matching networks with transmission lines
  • Power amplifiers with lossy compensation networks
  • Broadband class-e power amplifiers
  • Practical broadband rf and microwave power amplifiers
  • References
  • 9. Linearization and efficiency enhancement techniques
  • Feedforward amplifier architecture
  • Predistortion linearization
  • Outphasing power amplifiers
  • Envelope tracking
  • Switched-path and variable-load power amplifiers
  • Monolithic hbt and cmos power amplifiers for handset applications
  • References
  • 10. High-efficiency doherty power amplifiers
  • Historical aspect and conventional doherty architectures
  • Efficiency improvement
  • Asymmetric doherty amplifiers
  • Multistage doherty amplifiers
  • Inverted doherty amplifiers
  • Integration
  • Digitally driven doherty amplifier
  • Multiband and broadband capability
  • References.

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