A new VLSI memory cell using DMOS technology (DMOS cell)

A high-density dynamic memory cell using DMOS technology (DMOS cell) is proposed. A DMOS cell consists of an n-channel DMOSFET as a read gate and a p-channel MOSFET as a write gate with extensive node sharing. Since n-DMOSFET threshold state is nondestructively detected, the readout signal voltage is almost invariant to scaling. The cell area, which is made small by using two polysilicon layers and self-aligned structure, is about 50 percent of the conventional one-transistor memory cell area. An analytic model for DMOS cell readout voltage is proposed. From this model, the optimum DMOS cell structure, which gives more than 0.7-V readout voltage with 2-µm channel length, is found for 5-V power supply operation. Experimental data support this model. A 7-µA readout current per 1-µm channel width is obtained for 400-Å gate oxide test cell. The complete memory operation is confirmed with a 2 × 2 test cell array.