Circuit and Interconnect Design for RF and High Bit-Rate Applications [electronic resource] / by Hugo Veenstra, John R. Long.

By: Veenstra, Hugo [author.]Contributor(s): Long, John R [author.] | SpringerLink (Online service)Material type: TextTextLanguage: English Series: Analog Circuits And Signal Processing Series: Publisher: Dordrecht : Springer Netherlands, 2008Description: XII, 248 p. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9781402068843Subject(s): Engineering | Computer science | Systems engineering | Engineering | Circuits and Systems | Processor ArchitecturesAdditional physical formats: Printed edition:: No titleDDC classification: 621.3815 LOC classification: TK7888.4Online resources: Click here to access online
Contents:
The Challenge -- Interconnect Modelling, Analysis and Design -- Device Metrics -- Cross-Connect Switch Design -- Bias Circuits Tolerating Output Voltages Above BVCEO -- Design of Synchronous High-Speed CML Circuits, a PRBS Generator -- Analysis and Design of High-Frequency LC-VCOs.
In: Springer eBooksSummary: Realizing maximum performance from high bit-rate and RF circuits requires close attention to IC technology, circuit-to-circuit interconnections (i.e., the ‘interconnect’) and circuit design. Circuit and Interconnect Design for RF and High Bit-rate Applications covers each of these topics from theory to practice, with sufficient detail to help you produce circuits that are ‘first-time right’. A thorough analysis of the interplay between on-chip circuits and interconnects is presented, including practical examples in high bit-rate and RF applications. Optimum interconnect geometries for the distribution of RF signals are described, together with simple models for standard interconnect geometries that capture characteristic impedance and propagation delay across a broad frequency range. The analyses also cover single-ended and differential geometries, so that the designer can incorporate the effects of interconnections as soon as estimated interconnect lengths are available. Application of interconnect design is illustrated using a 12.5 Gb/s crosspoint switch example taken from a volume production part. From the technology perspective, transistor performance and its relationship to design targets for high bit-rate and RF applications is extensively discussed. Traditional figures of merit, such as fT and fmax and their relevance to circuit design are discussed, and new figures of merit are introduced that are shown to be highly valuable for broadband circuit and oscillator design. In addition, an analysis of transistor operation at supply voltages above breakdown voltage BVCEO, is presented.
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The Challenge -- Interconnect Modelling, Analysis and Design -- Device Metrics -- Cross-Connect Switch Design -- Bias Circuits Tolerating Output Voltages Above BVCEO -- Design of Synchronous High-Speed CML Circuits, a PRBS Generator -- Analysis and Design of High-Frequency LC-VCOs.

Realizing maximum performance from high bit-rate and RF circuits requires close attention to IC technology, circuit-to-circuit interconnections (i.e., the ‘interconnect’) and circuit design. Circuit and Interconnect Design for RF and High Bit-rate Applications covers each of these topics from theory to practice, with sufficient detail to help you produce circuits that are ‘first-time right’. A thorough analysis of the interplay between on-chip circuits and interconnects is presented, including practical examples in high bit-rate and RF applications. Optimum interconnect geometries for the distribution of RF signals are described, together with simple models for standard interconnect geometries that capture characteristic impedance and propagation delay across a broad frequency range. The analyses also cover single-ended and differential geometries, so that the designer can incorporate the effects of interconnections as soon as estimated interconnect lengths are available. Application of interconnect design is illustrated using a 12.5 Gb/s crosspoint switch example taken from a volume production part. From the technology perspective, transistor performance and its relationship to design targets for high bit-rate and RF applications is extensively discussed. Traditional figures of merit, such as fT and fmax and their relevance to circuit design are discussed, and new figures of merit are introduced that are shown to be highly valuable for broadband circuit and oscillator design. In addition, an analysis of transistor operation at supply voltages above breakdown voltage BVCEO, is presented.

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