Title :
Event driven analog modeling of RF frontends
Author :
Joeres, Stefan ; Groh, Hans-Werner ; Heinen, Stefan
Author_Institution :
RWTH Aachen, Aachen
Abstract :
The modeling language VerilogAMS supports a new double precision datatype (wreal) that enables analog accuracy in the digital simulation domain. It is therefore possible to separate high frequency signal paths, like those in RF frontends, from the rest of the chip, which comes in very handy for fast verification purposes. After an introduction to analog and digital modeling, a strategy to model the RF and LO signal flow path for a bluetooth transceiver system is presented. Especially the nonuniform oversampling, which is introduced through wreal to electrical and vice versa conversion, is analyzed and compared to traditional uniform sampling ratios. The proposed approach is demonstrated for an industrial available RF frontend, including biasing and analog to digital conversion. Simulation comparisons for different complexities of the frontend and different modeling approaches like passband, baseband and transistor level conclude the paper.
Keywords :
Bluetooth; analogue integrated circuits; circuit simulation; hardware description languages; integrated circuit modelling; integrated circuit testing; radiofrequency integrated circuits; sampling methods; transceivers; Bluetooth transceiver system; LO signal flow path; RF frontends; VerilogAMS modeling language; digital simulation domain; event driven analog modeling; integrated circuit verification; nonuniform oversampling; Analog-digital conversion; Baseband; Bluetooth; Digital simulation; Hardware design languages; Passband; RF signals; Radio frequency; Sampling methods; Transceivers; Modeling; VerilogAMS; nonuniform sampling; wreal;
Conference_Titel :
Behavioral Modeling and Simulation Workshop, 2007. BMAS 2007. IEEE International
Conference_Location :
San Jose, CA
Print_ISBN :
978-1-4244-1567-0
DOI :
10.1109/BMAS.2007.4437523
