Title :
Adaptive modeling and design of highly integrated 3D microwave-millimeter wave radio front-ends
Author_Institution :
Sch. of ECE, Georgia Inst. of Technol., Atlanta, GA, USA
Abstract :
The FDTD and the Haar-based MRTD algorithms are applied to the full-wave modeling of highly integrated 3D microwave and millimeter wave radio front-ends that require the optimization of various components as well as the minimization of the crosstalk between them. The numerical results have demonstrated a very good computational efficiency in the calculation of the scattering parameters, the Q-factor, as well as in the estimation of the radiation pattern, of the packaging effects and of the parasitic crosstalk between neighboring geometries.
Keywords :
Q-factor; S-parameters; crosstalk; finite difference time-domain analysis; microwave circuits; millimetre wave circuits; modelling; modules; packaging; radio receivers; radio transmitters; time-domain synthesis; 3D MM-wave radio front-ends; 3D microwave radio front-ends; FDTD algorithm; Haar-based MRTD algorithm; Q-factor; adaptive design; adaptive modeling; computational efficiency; crosstalk minimization; full-wave modeling; highly integrated radio front-ends; multiresolution time-domain technique; optimization; packaging effects; parasitic crosstalk; radiation pattern estimation; scattering parameters; Biomembranes; Crosstalk; Design optimization; Finite difference methods; Inductors; Millimeter wave technology; Packaging; Q factor; Scattering parameters; Time domain analysis;
Conference_Titel :
Gallium Arsenide Integrated Circuit (GaAs IC) Symposium, 2002. 24th Annual Technical Digest
Conference_Location :
Monterey, California, USA
Print_ISBN :
0-7803-7447-9
DOI :
10.1109/GAAS.2002.1049040
