Title :
Measurement of transient heating in a 1.1 mu m PMOSFET using thermal imaging
Author :
Haik, N. ; Gat, D. ; Sadon, R. ; Nissan-Cohen, Y.
Author_Institution :
Dept. of Electr. & Comput. Eng., Ben-Gurion Univ. of the Negev, Beer-Sheva, Israel
Abstract :
Measurements of transient heating in a 1.1- mu m PMOSFET, located in a 1.5- mu m*1.5-mm die and mounted on a gold-plated ceramic package are reported. Steady-state temperature profiles in a range of 500 mu m from midchannel are also presented . Temperatures were measured using the thermal imaging technique. The steady-state temperature in the device reached after 3 min of operation at mod V/sub gs/ mod = mod V/sub ds/ mod =5 V, was 322 K, and the rise time was 2 min. Theoretical results based on the analytical model of D. K. Sharma and K.V. Ramanathan (1983), in which a two-dimensional heat-diffusion equation is solved, are also presented. The theoretical calculations predict a 16-s rise time and a midchannel temperature of 371 K after 3 min of operation. The disagreement is most probably incurred by a simplified boundary condition used in the model. It seems that the model cannot sufficiently describe the actual heating in MOSFETs for VLSI.<>
Keywords :
MOS integrated circuits; VLSI; insulated gate field effect transistors; 1.1 micron; 1.5 mm; 3 min; 322 K; 5 V; MOSFETs; PMOSFET; VLSI; midchannel temperature; model; rise time; steady-state temperature; theoretical calculations; thermal imaging; transient heating measurement; Analytical models; Boundary conditions; Ceramics; Equations; Heating; MOSFET circuits; Packaging; Steady-state; Temperature distribution; Temperature measurement;
Journal_Title :
Electron Device Letters, IEEE
