Title :
Prediction of dark currents in actual devices using new test structure
Author :
Shibusawa, K. ; Murakami, N. ; Mori, T. ; Ajioka, T.
Author_Institution :
OKI Electric Ind. Co. Ltd., Tokyo, Japan
Abstract :
A test structure with four gate-controlled diodes (GCDs) and two junction diodes (with different dimensions) is designed in order to divide a dark current in actual devices into five components corresponding to device structure. Gate bias and temperature dependence reveal that the diffusion current from bulk is dominant in area regions. The G-R current is observed in the local oxidation of silicon (LOCOS) edge and gate edge. When applied to a CCD device, this method can predict the dark current in actual devices. It is found that the noise electron accumulated in one refresh cycle in dynamic RAMs (DRAMs) is increased according to DRAM generation, and that the main component originates from the source/field border region
Keywords :
DRAM chips; integrated circuit testing; oxidation; semiconductor diodes; DRAM generation; LOCOS; dark currents; dynamic RAMs; gate bias; gate-controlled diodes; junction diodes; local oxidation of silicon; refresh cycle; source/field border region; temperature dependence; test structure; Charge coupled devices; DRAM chips; Dark current; Diodes; Electrons; Noise generators; Oxidation; Silicon; Temperature dependence; Testing;
Conference_Titel :
Microelectronic Test Structures, 1993. ICMTS 1993. Proceedings of the 1993 International Conference on
Conference_Location :
Sitges
Print_ISBN :
0-7803-0857-3
DOI :
10.1109/ICMTS.1993.292925
