Title :
Effects of buried layer geometry on characteristics of double polysilicon bipolar transistors
Author :
O, Kenneth K. ; Scharf, Brad W.
Author_Institution :
Dept. of Electr. & Comput. Eng., Florida Univ., Gainesville, FL, USA
fDate :
5/1/1998 12:00:00 AM
Abstract :
Dependences of electrical characteristics of double polysilicon transistors on n/sup +/ buried islands (subcollector) are examined. By simply modifying layouts of the buried island, the Early voltage (V/sub A/), collector-to-emitter breakdown voltage (BV/sub CEO/), and /spl beta//spl times/V/sub A/ product of transistors are increased from 42, 5.6, and 3070 V to 61, 6.7, and 3820 V, respectively, while the peak cutoff frequency at a V/sub CE/ of 1.5 V is decreased from around 21 to 17 GHz. Exploiting these results, it may be feasible to inexpensively integrate transistors with better f/sub T/-BV/sub CEO/ and f/sub T/-V/sub A/ tradeoffs for analog and power handling characteristics along with transistors optimized for high-speed operation. These results also indicate that the buried island geometry control could be an issue for controlling electrical characteristics for scaled bipolar transistors.
Keywords :
bipolar transistors; electric breakdown; elemental semiconductors; semiconductor device reliability; silicon; 1.5 V; 17 GHz; 3820 V; 6.7 V; 61 V; Early voltage; Si; buried layer geometry; collector-to-emitter breakdown voltage; double polysilicon bipolar transistors; geometry control; high-speed operation; n/sup +/ buried islands; peak cutoff frequency; power handling characteristics; scaled bipolar transistors; subcollector; Bipolar transistors; Breakdown voltage; Current density; Cutoff frequency; Doping; Electric variables; Geometry; Plugs; Shape;
Journal_Title :
Electron Device Letters, IEEE
