Title :
Butterworth-Van Dyke model based time-domain representation for SMR resonators
Author :
Boujemaa, Mohamed Ali ; Choubani, Fethi ; Mabrouk, Mohamed
Author_Institution :
Innov´COM, SUPCOM de Tunis, Tunis, Tunisia
Abstract :
When seeking to study the performances of an RF system, the first thought that comes to mind is to measure its frequency domain response, a.k.a the S parameters. Time-domain representation could be more appropriate for numerous application, such as RADAR and complex phased array systems, which makes time-domain characterization methods more attractive and appropriate. In this paper we derive a general time-domain state space model for SMR resonators from the modified Butterworth-Van Dyke lumped equivalent model. The model is implemented under MatIab using the control systems tool box and its simulation results are validated using Advanced Design System (ADS). A resonator which series frequency is 2.05 GHz is used to demonstrate its validity. We also show that the derived model is capable of transient time domain simulation and apply it for a finite energy harmonic signal.
Keywords :
S-parameters; UHF resonators; frequency-domain analysis; lumped parameter networks; phased array radar; state-space methods; time-domain analysis; ADS; Butterworth-Van Dyke model; MatIab; S parameters; SMR resonators; advanced design system; complex phased array systems; control systems tool box; finite energy harmonic signal; frequency 2.05 GHz; frequency domain response; lumped equivalent model; radar systems; time-domain representation; time-domain state space model; transient time domain simulation; III-V semiconductor materials; Micromechanical devices; Time-frequency analysis; Bulk Acoustic Wave devices; MEMS; SMR resonator; Simulation; State Space; Transient response;
Conference_Titel :
Multimedia Computing and Systems (ICMCS), 2014 International Conference on
Conference_Location :
Marrakech
Print_ISBN :
978-1-4799-3823-0
DOI :
10.1109/ICMCS.2014.6911252
