An investigation of the intrinsic delay (speed limit) in MTL/I/sup 2/L

Abstract

Experimental devices have been fabricated with different epitaxial thicknesses to find out to what extent the charge storage can be reduced by shallow epitaxy. Such a shallow-epitaxy device is investigated using computer simulation. The injection model is used, into which new charge storage parameters are introduced. The majority of the stored mobile charge is associated with the bottom junction of the n-p-n transistor part, while the charges in the p-n-p's intrinsic base are minor. However, the lateral p-n-p transistor contributes to the intrinsic delay by its high level-injection current gain falloff. Furthermore, the significance of high intrinsic base sheet resistance of the n-p-n transistor for high speed is pointed out. A device is laid out that assumes only existing technologies, yet in the simulation yields intrinsic delays as low as 2 ns for a fan-out of 4.