Title :
A new polysilicon process for a bipolar device-PSA technology
Author :
Okada, Kenji ; Aomura, Kunio ; Nakamura, Toshio ; Shiba, Hiroshi
fDate :
4/1/1979 12:00:00 AM
Abstract :
A new polysilicon process has been developed to obtain high packing density, high speed, and low-power LSIs. The new process, called the polysilicon self-aligned (PSA) method is based on a new fabrication concept for dimensional reduction and does not require fine patterning and accurate mask alignment. For an application example of this new method, an ECL gate with 0.6 ns delay time, 0.5 pJ power-delay product, and 6400 /spl mu/m/SUP 2/ gate area has been achieved. Furthermore, by introducing a polysilicon diode (PSD) and Schottky barrier diode (SBD) to the PSA method, a low-power Schottky-diode-transistor-logic (SDTL) gate with 1.6 ns delay time, 0.8 pJ power-delay product, and 2000 /spl mu/m/SUP 2/ gate area has been successfully developed.
Keywords :
Bipolar integrated circuits; Emitter-coupled logic; Integrated circuit technology; Large scale integration; Schottky-barrier diodes; bipolar integrated circuits; emitter-coupled logic; integrated circuit technology; large scale integration; Crystallization; Delay effects; Fabrication; Large scale integration; Logic gates; Oxidation; Parasitic capacitance; Resistors; Schottky diodes; Silicon;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.1979.1051179
