Title :
Advanced modeling technique for bandpass continuous-time delta-sigma modulators
Author :
Honarparvar, Mohammad ; Landry, Rene ; Nabki, Frederic ; Sawan, Mohamad
Author_Institution :
LASSENA Res. Lab., Ecole de Technol. Super., Montreal, QC, Canada
Abstract :
Transistor-level simulations of complex circuits such as delta-sigma modulators (DSMs) that are used to generate highly accurate results are time consuming because of the nonlinear and switched nature of such systems. Therefore, high-level system modeling is required to reduce the simulation time and allow for effective initial design or successive iterations between system-level and transistor-level simulations. Accordingly, a precise behavioral modeling technique for radiofrequency (RF) continuous time (CT) DSM is presented. The main contribution of this work is the differential nature of the RF CT-DSM model in MATLAB such that is it suited for co-simulation in a circuit simulator environment. The modeling technique and simulation methodology are demonstrated toward the implementation of a 4th order RF CT-DSM in MATLAB/SIMULINK environment and a description for each block is provided.
Keywords :
band-pass filters; continuous time filters; delta-sigma modulation; high level synthesis; Matlab-Simulink environment; RF CT-DSM model; advanced modeling technique; bandpass continuous-time delta-sigma modulators; circuit simulator environment; complex circuits; high-level system modeling; radiofrequency continuous time delta-sigma modulators; simulation time reduction; successive iterations; transistor-level simulations; Clocks; Delays; Integrated circuit modeling; Jitter; Mathematical model; Modulation; Radio frequency; Band-pass topology; Continuous-time circuit; Delta sigma modulator; differential circuits;
Conference_Titel :
New Circuits and Systems Conference (NEWCAS), 2014 IEEE 12th International
Conference_Location :
Trois-Rivieres, QC
DOI :
10.1109/NEWCAS.2014.6934052
