Title :
A new physics based dynamic electro thermal large signal model for RF LDMOS FETs
Author :
Versleijen, M.P.J.G. ; Bloem, V.J. ; van Steenwijk, J.A. ; Yanson, O.I.
Author_Institution :
Philips Semicond., Nijmegen, Netherlands
Abstract :
This paper describes a new large signal model for RF LDMOS devices using a physics based sub-circuit model composed of standards public domain non-linear model building blocks. The model realizes accurate temperature and geometry scaling. The built-in thermal node gives an accurate description of terminal characteristics for static and dynamic temperature conditions. An efficient and straightforward parameter extraction procedure has been defined based on a concise set of measurements. The RF large signal simulation capabilities are demonstrated by comparison with 1-tone and 2-tone load pull measurements for small on-wafer measured (<5W) and large in-fixture measured (>10W) devices. The model is presently used for predictive circuit simulation of LDMOS MMICs and discrete power devices.
Keywords :
MOSFET; field effect MMIC; microwave field effect transistors; microwave technology; semiconductor device models; LDMOS MMIC; MOSFET; RF LDMOS FET; built-in thermal node; discrete power devices; dynamic electro thermal large signal model; dynamic temperature conditions; geometry scaling; load pull measurements; microwave power FET; microwave technology; nonlinear model building blocks; parameter extraction; predictive circuit simulation; semiconductor device modeling; static temperature conditions; subcircuit model; Circuit simulation; FETs; Geometry; Parameter extraction; Physics; Predictive models; RF signals; Radio frequency; Solid modeling; Temperature;
Conference_Titel :
Microwave Symposium Digest, 2004 IEEE MTT-S International
Print_ISBN :
0-7803-8331-1
DOI :
10.1109/MWSYM.2004.1335792
