Gate-Induced Drain-Leakage (GIDL) Programming Method for Soft-Programming-Free Operation in Unified RAM (URAM)

A soft-programming-free operation method in unified RAM (URAM) is presented. An oxide/nitride/oxide (O/N/O) layer and a floating-body are integrated in a FinFET, thereby providing the versatile functions of a high-speed capacitorless 1T-DRAM, as well as nonvolatile memory, and the mode of the memory cell can be selected and independently utilized according to the designer´s demand. With the utilization of the impact ionization method for 1T-DRAM programming, undesired soft charge trapping into O/N/O gradually shifts the threshold voltage, resulting in an unstable operation in the URAM. In order to avoid such problems associated with soft programming, a gate-induced drain-leakage (GIDL) program method is proposed for improved immunity to disturbance. It is found that the GIDL method effectively suppresses soft programming without sacrificing the sensing current window.