A VHDL-AMS modeling methodology for top-down/bottom-up design of RF systems

A VHDL-AMS modeling methodology for top-down/bottom-up design of RF systems

This paper presents a modelling methodology for the top-down/bottom-up design of RF systems based on systematic use of VHDL-AMS models. The model interfaces are parameterizable and pin-accurate. The designer can choose to parameterize the models using performance specifications or device parameters...

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Bibliographische Detailangaben
Hauptverfasser: Maehne, T., Vachoux, A., Giroud, F., Contaldo, M.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Digital signal processing
Frequency shift keying
Frequency synthesizers
Mathematical model
Phase locked loops
Pulse amplifiers
Radio frequency
Transceivers
Transmitters
Voltage-controlled oscillators
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Beschreibung
Zusammenfassung:This paper presents a modelling methodology for the top-down/bottom-up design of RF systems based on systematic use of VHDL-AMS models. The model interfaces are parameterizable and pin-accurate. The designer can choose to parameterize the models using performance specifications or device parameters back-annotated from the transistor-level implementation. The abstraction level used for the description of the respective analog/digital component behavior has been chosen to a good trade-off between accuracy, fidelity, and simulation performance. These properties make the models suitable for different design tasks such as architectural exploration or overall system validation. This is demonstrated on a model of a binary FSK transmitter parameterized to meet very different target specifications. The achieved flexibility and systematic model documentation facilitate their reuse in other design projects.
ISSN:1636-9874