A new time-domain simulation method for highly heterogeneous RF circuits

Author

Oliveira, Jorge F. ; Pedro, José C.

Author_Institution

Polytech. Inst. of Leiria, Leiria

fYear

2007

fDate

9-12 Oct. 2007

Firstpage

1161

Lastpage

1164

Abstract

This paper describes a new time-domain simulation method particularly amenable for highly heterogeneous nonlinear RF circuits as modern wireless transceivers that combine analog RF and both analog and digital base-band circuitry. It uses innovative multi-rate Runge-Kutta algorithms applied to the envelope transient method over a time-domain periodic steady-state technique (shooting), to efficiently resolve strongly nonlinear circuits excited by forcing functions of very distinct time-scales and exhibiting slow (latent) and fast-varying (active) state-variables. Attributing different time-steps to these latent and active state-variables speedup gains of more than 1-to-7 in simulation time were obtained for even a circuit example of very small size.

Keywords

Runge-Kutta methods; analogue circuits; radiofrequency integrated circuits; time-domain analysis; transceivers; Runge-Kutta algorithms; analog circuits; digital base-band circuit; heterogeneous circuits; nonlinear circuits; nonlinear radiofrequency circuits; time-domain simulation; wireless transceivers; Automatic control; Circuit simulation; Digital signal processing; Microwave circuits; Nonlinear circuits; Radio frequency; Signal processing algorithms; Steady-state; Time domain analysis; Transceivers; Nonlinear circuits; nonlinear differential equations; simulation;

fLanguage

English

Publisher

ieee

Conference_Titel

Microwave Conference, 2007. European

Conference_Location

Munich

Print_ISBN

978-2-87487-001-9

Type

conf

DOI

10.1109/EUMC.2007.4405405

Filename

4405405