Title :
Improvement of poly emitter n-p-n transistor matching in a 0.6 micron mixed signal technology
Author :
Lau, Guenter ; Einbrodt, Wolfgang ; Sieber, Wilfried
Author_Institution :
XFAB Semicond. Foundries AG, Erfurt, Germany
Abstract :
Standard high frequency n-p-n poly emitter transistor pairs show a significant parameter offset during the matching characterization depending on the position on the wafer. Special octagon matching transistors on the other hand have a good matching behavior. The main reason for the offset of the high frequency transistors is a dimensional difference in the emitter cut due to a non-uniform development process of the resist mask for the emitter cut etch and/or proximity effects. By the use of a modified photoresist and development process, the matching characteristics for all used transistor types could be significantly improved.
Keywords :
BiCMOS integrated circuits; bipolar transistors; etching; integrated circuit layout; integrated circuit measurement; masks; photoresists; proximity effect (lithography); 0.6 micron; emitter cut etch; emitter dimensional difference; high frequency transistor offset; matching characteristics; matching characterization; mixed signal BiCMOS process; mixed signal technology; modified photoresist; nonuniform resist mask development process; octagon matching transistors; parameter offset; poly emitter n-p-n transistor matching; proximity effects; standard high frequency n-p-n poly emitter transistor pairs; transistor types; wafer position; BiCMOS integrated circuits; Etching; Foundries; Frequency; Libraries; Proximity effect; Resistors; Resists; Signal processing; Testing;
Conference_Titel :
Microelectronic Test Structures, 2003. International Conference on
Print_ISBN :
0-7803-7653-6
DOI :
10.1109/ICMTS.2003.1197467
