Submicrometer polysilicon gate CMOS/SOS technology

A process is described for the fabrication of CMOS/SOS submicrometer devices and integrated circuits. The process utilizes the lateral diffusion of boron into polycrystalline silicon and a subsequent anisotropic etchant to define the narrow poly gates. Devices with channel lengths as small as 0.3 micron have been fabricated and characterized. Both avalanche and tunnel injection of carriers into the gate dielectric have been measured and both can have an impact on the limit of voltage operation. At present, these mechanisms appear to place an upper limit of about 8 V on the operating voltage of dynamic circuits containing 0.5-micron channel length devices. The propagation delay of 0.5-micron channel length CMOS/SOS inverters is about 200 ps at 5 V and dynamic binary counters will operate with a maximum input frequency of 550 MHz and 8 V while dissipating 130 mW.