The reduction of emitter-collector shorts in a high-speed all-implanted bipolar technology

One of the main yield limiting mechanisms in the fabrication of shallow-junction bipolar integrated circuits is emitter-to-collector ( E-C ) leakage. This paper describes the progress made in reducing the E-C leakage defect density in an all-implanted integrated circuit technology, which features em...

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Veröffentlicht in:IEEE transactions on electron devices 1981-12, Vol.28 (12), p.1508-1514
Hauptverfasser: Parrillo, L.C., Payne, R.S., Seidel, T.E., Robinson, M., Reutlinger, G.W., Post, D.E., Field, R.L.
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Sprache:eng
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Zusammenfassung:One of the main yield limiting mechanisms in the fabrication of shallow-junction bipolar integrated circuits is emitter-to-collector ( E-C ) leakage. This paper describes the progress made in reducing the E-C leakage defect density in an all-implanted integrated circuit technology, which features emitters approximately 0.5 µm deep and bases approximately 0.3 µm wide. Tile median E-C short density was reduced from approximately 2 × 10 4 to approximately 200/cm 2 of active emitter area in the course of this study. The processing changes that were adopted to reduce or eliminate the fatal defects include the use of both very low and very high temperature oxidation conditions to eliminate oxidation induced stacking faults (OSF's). A new epitaxial growth technique has reduced the slip dislocation density by more than an order of magnitude. The extended misfit dislocation arrays have been eliminated in both the collector contact and isolation diffusions by reducing the dopant concentrations in each region. Further, dislocation networks arising from buried layer and emitter regions, have been eliminated by limiting the oxygen concentration in their respective drive-in steps.
ISSN:0018-9383
1557-9646
DOI:10.1109/T-ED.1981.20638