Cargando…

Radio Frequency Integrated Circuit Design.

This newly revised and expanded edition of the 2003 Artech House classic, Radio Frequency Integrated Circuit Design, serves as an up-to-date, practical reference for complete RFIC know-how. The second edition includes numerous updates, including greater coverage of CMOS PA design, RFIC design with o...

Descripción completa

Detalles Bibliográficos
Clasificación:	Libro Electrónico
Autor principal:	Rogers, John (John W. M.)
Otros Autores:	Plett, Calvin
Formato:	Electrónico eBook
Idioma:	Inglés
Publicado:	Norwood : Artech House, 2010.
Edición:	2nd ed.
Temas:	Radio circuits > Design and construction. Radio frequency integrated circuits > Design and construction. Radio circuits > Design and construction Radio frequency integrated circuits > Design and construction
Acceso en línea:	Texto completo

Tabla de Contenidos:

Radio Frequency Integrated Circuit Design Second Edition; Contents; Foreword to the First Edition; Preface; Acknowledgments; Chapter 1 Introduction to Communications Circuits; 1.1 Introduction; 1.2 Lower Frequency Analog Design and Microwave Design Versus Radio-Frequency Integrated Circuit Design; 1.2.1 Impedance Levels for Microwave and Low-Frequency Analog Design; 1.2.2 Units for Microwave and Low-Frequency Analog Design; 1.3 Radio-Frequency Integrated Circuits Used in a Communications Transceiver; 1.4 Overview; References; Chapter 2 Issues in RFIC Design: Noise, Linearity, and Signals.
2.1 Introduction2.2 Noise; 2.2.1 Thermal Noise; 2.2.2 Available Noise Power; 2.2.3 Available Power from Antenna; 2.2.4 The Concept of Noise Figure; 2.2.5 The Noise Figure of an Amplifier Circuit; 2.2.6 Phase Noise; 2.3 Linearity and Distortion in RF Circuits; 2.3.1 Power Series Expansion; 2.3.2 Third-Order Intercept Point; 2.3.3 Second-Order Intercept Point; 2.3.4 The 1-dB Compression Point; 2.3.5 Relationships Between 1-dB Compression and IP3 Points; 2.3.6 Broadband Measures of Linearity; 2.4 Modulated Signals; 2.4.1 Phase Modulation; 2.4.2 Frequency Modulation.
2.4.3 Minimum Shift Keying (MSK)2.4.4 Quadrature Amplitude Modulation (QAM); 2.4.5 Orthogonal Frequency Division Multiplexing (OFDM); References; Chapter 3 System Level Architecture and Design Considerations; 3.1 Transmitter and Receiver Architectures and Some Design Considerations; 3.1.2 Direct Conversion Transceivers; 3.1.3 Low IF Transceiver and Other Alternative Transceiver Architectures; 3.2 System Level Considerations; 3.2.1 The Noise Figure of Components in Series; 3.2.2 The Linearity of Components in Series; 3.2.3 Dynamic Range; 3.2.4 Image Signals and Image Reject Filtering.
3.2.5 Blockers and Blocker Filtering3.2.6 The Effect of Phase Noise on SNR in a Receiver; 3.2.7 DC Offset; 3.2.8 Second-Order Nonlinearity Issues; 3.2.9 Receiver Automatic Gain Control Issues; 3.2.10 EVM in Transmitters Including Phase Noise, Linearity, IQ Mismatch, EVM with OFDM Waveforms, and Nonlinearity; 3.2.11 ADC and DAC Specifications; 3.3 Antennas and the Link Between a Transmitter and a Receiver; References; Chapter 4 A Brief Review of Technology; 4.1 Introduction; 4.2 Bipolar Transistor Description; 4.3 b Current Dependence; 4.4 Small-Signal Model; 4.5 Small-Signal Parameters.
4.6 High-Frequency Effects4.6.1 fT as a Function of Current; 4.7 Noise in Bipolar Transistors; 4.7.1 Thermal Noise in Transistor Components; 4.7.2 Shot Noise; 4.7.3 1/f Noise; 4.8 Base Shot Noise Discussion; 4.9 Noise Sources in the Transistor Model; 4.10 Bipolar Transistor Design Considerations; 4.11 CMOS Transistors; 4.11.1 NMOS Transistor Operation; 4.11.2 PMOS Transistor Operation; 4.11.3 CMOS Small-Signal Model; 4.11.4 fT and fmax for CMOS Transistors; 4.12 Practical Considerations in Transistor Layout; 4.12.1 Typical Transistors; 4.12.2 Symmetry; 4.12.3 Matching.

Radio Frequency Integrated Circuit Design.

Ejemplares similares