A compatible NMOS, CMOS metal gate process

An MOS LSI technology is presented, which allows the efficient fabrication of n-MOS and CMOS circuits on the same chip, a capability, which has become highly desirable in view of recent advances in circuit design, particularly analog-digital interfaces. The process starts from a p-type substrate. An n-well is formed by ion implantation. An additional implantation simultaneously sets the p-channel and n-channel threshold voltages as well as the field threshold above the substrate. The implanted field provides high density and simple processing. A third implantation step adjusts the threshold voltage of the n-channel depletion load transistor. Supply voltages up to 20 V are possible. Process modeling data are presented both by theoretical consideration and the measurement of actual profiles of the well and threshold dependence on energy, dose, and drive-in conditions. Distributions of the electrical parameters are rather narrow with standard deviations of thresholds <150 mV. Transconductance constants are typically 9 and 29 µA . V^-2for p-and n-channel transistors, respectively. CMOS inverter gain is 250 for channel lengths of 10 and 25 µm, respectively.