Title :
Broadband compact models for transformers integrated on conductive silicon substrates
Author :
Kamgaing, Telesphor ; Petras, Michael ; Miller, Mel
Author_Institution :
Microwave & Mixed-Signal Technol. Lab., Motorola SPS, Tempe, AZ, USA
Abstract :
A broadband scalable lumped-element model for multiport transformers integrated on a silicon substrate is presented. The model is based on a pi-T network for the primary and secondary coils and utilizes only frequency-independent elements to model the frequency-dependent resistive losses. Four-port S-parameters are measured for multiport transformers up to 15 GHz and accurate compact models extracted up to 4 GHz, which covers the fundamental frequency bands and their second harmonics of interest for European and US GSM/EGSM and DCS/PCS cellular bands. Good agreement is obtained between modeled and measured transformer performance attributes.
Keywords :
MMIC; S-parameters; cellular radio; harmonics; high-frequency transformers; integrated circuit modelling; lumped parameter networks; multiport networks; personal communication networks; transformer windings; 15 GHz; 4 GHz; DCS cellular bands; EGSM cellular bands; GSM cellular bands; PCS cellular bands; broadband compact models; broadband scalable lumped-element model; conductive silicon substrates; four-port S-parameters; frequency-dependent resistive losses; frequency-independent elements; fundamental frequency bands; integrated transformers; multiport transformers; pi-T network model; primary coils; second harmonics; secondary coils; Capacitors; Circuits; Coils; Frequency; Impedance matching; Inductance; Inductors; Silicon; Topology; Transformers;
Conference_Titel :
Radio Frequency Integrated Circuits (RFIC) Symposium, 2004. Digest of Papers. 2004 IEEE
Print_ISBN :
0-7803-8333-8
DOI :
10.1109/RFIC.2004.1320652
