Low-voltage light emitting devices in silicon IC technology

• Published in: Proceedings of the IEEE International Symposium on Industrial Electronics, 2005. ISIE 2005 Vol. 3; pp. 1145 - 1149 vol. 3
• Main Authors: du Plessis, M., Snyman, L.W., Aharoni, H.
• Format: Conference Proceeding
• Language: English
• Published: IEEE 2005
• Subjects: Africa; BiCMOS integrated circuits; CMOS integrated circuits; CMOS technology; Current density; Electroluminescent devices; Light emitting diodes; Low voltage; Shape; Silicon
• ISBN: 0780387384; 9780780387386
• ISSN: 2163-5137
• DOI: 10.1109/ISIE.2005.1529085

Low-voltage Si-LED operation can be achieved by fabricating devices with heavily doped n/sup +/p/sup +/junctions. Differences are observed between high-voltage avalanche and low-voltage field emission LED performance. The low-voltage devices exhibit a non-linear light intensity L vs. reverse current I relationship at low current levels, but a linear dependency at higher currents, compared to the linear behavior of avalanche devices at all current levels. Three regions of operation are identified for the low-voltage field emission LED's, namely L /spl prop/ I/sup 3/ at low currents, L /spl prop/ I/sup 2/ at medium currents and eventually L /spl prop/ 1 at higher currents. In the low-voltage non-linear region of operation, the shape of the emitted spectrum changes with reverse current. At low reverse current the field emission devices emit more long wavelength radiation than short wavelength radiation. As the reverse current increases, the short wavelength radiation increases relative to the long wavelength radiation, and at higher currents in the linear region of operation the ratio between long and short wavelength radiation remains constant.