A back-wafer contacted silicon-on-glass integrated bipolar process. Part II. A novel analysis of thermal breakdown

A back-wafer contacted silicon-on-glass integrated bipolar process. Part II. A novel analysis of thermal breakdown

Analytical expressions for the electrothermal parameters governing thermal instability in bipolar transistors, i.e., thermal resistance R/sub TH/, critical temperature T/sub crit/ and critical current J/sub C,crit/, are established and verified by measurements on silicon-on-glass bipolar NPNs. A min...

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Veröffentlicht in:IEEE transactions on electron devices 2004-01, Vol.51 (1), p.51-62
Hauptverfasser: Nenadovic, N., d'Alessandro, V., Nanver, L.K., Tamigi, F., Rinaldi, N., Slotboom, J.W.
Format: Artikel
Sprache:eng
Schlagworte:
Bipolar transistors
Breakdown
Devices
Exact solutions
Heat transfer
Leakage currents
Mathematical analysis
Semiconductor devices
Silicon on insulator technology
Thermal resistance
Thermoresistivity
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Zusammenfassung:Analytical expressions for the electrothermal parameters governing thermal instability in bipolar transistors, i.e., thermal resistance R/sub TH/, critical temperature T/sub crit/ and critical current J/sub C,crit/, are established and verified by measurements on silicon-on-glass bipolar NPNs. A minimum junction temperature increase above ambient due to selfheating that can cause thermal breakdown is identified and verified to be as low as 10-20/spl deg/C. The influence of internal and external series resistances and the thermal resistance explicitly included in the expressions for T/sub crit/ and J/sub C,crit/ becomes clear. The use of the derived expressions for determining the safe operating area of a device and for extracting the thermal resistance is demonstrated.
ISSN:0018-9383
1557-9646
DOI:10.1109/TED.2003.820654