Modern System-on-Chip designs are increasingly mixed-signal designs that require efficient systematic design methodologies and supporting computer-aided design (CAD) tools to manage the design complexity in the available design time, that is ever decreasing due to tightening time-to-market constraints. The purpose of is to provide an overview of very recent research results that have been achieved as part of the Low-Power Initiative of the European Union, in the field of analog, RF and mixed-signal design methodologies and CAD tools. It is a representative sampling of the current state of the art in this area, with special focus on low-power design methodologies and tools for analog and RF circuits and architectures. Concrete designs, mainly for telecommunication applications, such as low-noise amplifiers, oscillators, filters, but also complete transceiver front-ends, are discussed and analyzed in a methodological way, and their modeling and simulation, both at the circuit level and at the architectural level, are treated. In this way, the eleven contributions of this book combine in a unique way designs with methodologies and CAD that will be interesting to designers and CAD developers, both in industry and academia.
Wambacq / Gerrits / Gielen
Low-Power Design Techniques and CAD Tools for Analog and RF Integrated Circuits jetzt bestellen!
Weitere Infos & Material
Motivation, Context and Objectives.- Analysis and Simulation of RF Subsystems.- Fast: An Efficient High-Level Dataflow Simulator of Mixed-Signal Front-Ends of Digital Telecom Transceivers.- Efficient High-Level Simulation of Analog Telecom Frontends.- High-Level Power Estimation of Analog Front-End Blocks.- Models and Analysis Techniques for Systematic Design and Verification of Frequency Synthesizers.- Nonlinear Symbolic Network Analysis: Algorithms and Applications to RF Circuits.- Approaches to Formal Verification of Analog Circuits.- A Low Power Bicmos 1 GHZ Super-Regenerative Transceiver for ISM Applications.- Low-Voltage Switched-Capacitor Filters.- CMOS Low-Noise Amplifier Design.- Practical Harmonic Oscillator Design.
