Analog Circuit Design: Scalable Analog Circuit Design, High Speed D/A Converters, RF Power Amplifiers / Edition 1by Johan Huijsing
Pub. Date: 01/31/2002
Publisher: Springer US
This tenth volume of Analog Circuit Design concentrates on 3 topics: 1. Scalable Analog Circuits, 2. High-Speed D/A Converters, and 3. RF Power Amplifiers. Each topic is covered by 6 papers, written by international recognized experts on that topic. These papers have a tutorial nature aimed at improving the design of analog circuits. The book is divided into… See more details below
This tenth volume of Analog Circuit Design concentrates on 3 topics: 1. Scalable Analog Circuits, 2. High-Speed D/A Converters, and 3. RF Power Amplifiers. Each topic is covered by 6 papers, written by international recognized experts on that topic. These papers have a tutorial nature aimed at improving the design of analog circuits. The book is divided into three parts:
- Part I, Scalable Analog Circuit Design describes in 6 papers issues of: scalable high-speed design, scalable high-resolution mixed-mode ADC and OpAmp design, scalable high-voltage design for XDSL, scalability of wire-line front ends, reusable IP analog design, and porting CAD analog design.
- Part II, High-Speed D/A Converters describes in 6 papers issues of: Introduction to high-speed D/A converter design, retargetable 12-bit 200-MHz CMOS current steering design, high-speed CMOS D/A converters for upstream cable applications, static and dynamic performance limitations, the linearity challenge of D/A converters for communications, and a 400-MHz, 10-bit charge-domain CMOS D/A converter for low-spurious frequency synthesis.
- Part III, RF Power Amplifiers describes in 6 papers issues of: system aspects, overview and trade-offs, linear transmitter architectures, GaAs microwave SSPAs, Monolithic transformer-coupling in Si-bipolar, and RF power amplifier design in CMOS.
Analog Circuit Design is an essential reference source for analog design engineers and researchers wishing to keep abreast with the latest developments in the field. The tutorial coverage also makes it suitable for use in an advance design course.
- Springer US
- Publication date:
- Edition description:
- Product dimensions:
- 6.10(w) x 9.25(h) x 0.04(d)
Table of ContentsPreface.
Part I: Scalable Analog Circuit Design. Introduction. Scalable High-Speed Analog Circuit Design; M. Vertregt, P. Scholtens. Scalable High Resolution Mixed Mode Circuit Design; R.J. Brewer. Scalable 'High Voltages' Integrated Circuit Design for XDSL Type of Applications; D. Rossi. Scalability of Wire-Line Analog Front-Ends; K. Bult. Reusable IP Analog Circuit Design; J. Hauptmann, A. Wiesbauer, H. Weinberger. Process Migration Tools for Analog and Digital Circuits; K. Francken, G. Gielen.
Part II: High-Speed D/A Converters. Introduction. Introduction to High-Speed Digital-to-Analog Converter Design; R. van de Plassche. Design Considerations for a Retargetable 12b 200MHz CMOS Current-Steering DAC; J. Vital, A. Marques, P. Azevedo, J. Franca. High-Speed CMOS DA Converters for Upstream Cable Applications; R. Roovers. Solving Static and Dynamic Performance Limitations for High Speed D/A Converter; A. Van den Bosch, M. Steyaert, W. Sansen. High Speed Digital-Analog Converters - The Dynamic Linearity Challenge; A.R. Bugeja. A 400-MHz, 10-bit Charge Domain CMOS D/A Converter for Low-Spurious Frequency Synthesis; K. Khanoyan, F. Behbahani, A.A. Abidi.
Part III: RF Power Amplifiers. Introduction. Design Considerations for RF Power Amplifiers demonstrated through a GSM/EDGE Power Amplifier Module; P. Baltus, A. van Bezooijen. Class-E High-Efficiency RF/Microwave Power Amplifiers: Principles of Operation, Design Procedures, and Experimental Verification; N.O. Sokal. Linear Transmitter Architectures; L. Sundström. GaAs Microwave SSPA's: Design and characteristics; A.P. de Hek, F.E. van Vliet. Monolithic Transformer-Coupled RF Power Amplifiers in SI-Bipolar; W. Simbürger, D. Kehrer, A. Heinz,H.D. Wohlmuth, M. Rest, K. Aufinger, A.L. Scholtz. Low Voltage PA Design in Standard CMOS; K. Mertens, M. Steyaert.
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