Hot spots induced by reverse leakage current flow through the semiconductor-dielectric interface from device PN junction periphery

Hot spots induced by reverse leakage current flow through the semiconductor-dielectric interface from device PN junction periphery

A commercial power silicon diode die was used in a suitable devised experiment with infrared imaging microscope. At 500 V applied reverse voltage, hot spots have been revealed near the junction periphery at 220°C temperature. These hot spots are attributed to non-uniform leakage current flow at the...

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Bibliographische Detailangaben
Hauptverfasser: Obreja, V V N, Obreja, A C, Nuttall, K I
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Aluminum
Image color analysis
Junctions
Microscopy
Semiconductor diodes
Silicon
Temperature
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Beschreibung
Zusammenfassung:A commercial power silicon diode die was used in a suitable devised experiment with infrared imaging microscope. At 500 V applied reverse voltage, hot spots have been revealed near the junction periphery at 220°C temperature. These hot spots are attributed to non-uniform leakage current flow at the junction periphery. At higher applied voltage these small overheated regions can initiate reverse electrical characteristic instability followed by failure. Further advance in the junction passivation process from device technology is required to provide high quality semiconductor-dielectric interface. This could enable reliable operation of some power silicon devices above 200°C junction temperature.
ISSN:1545-827X
2377-0678
DOI:10.1109/SMICND.2010.5650566