| Popis: |
Stacked-gate memory devices have been realized which for the first time demonstrate efficient hot carrier writing for drain-source bias, V/sub DS/, down to 2.5 V. Writing is achieved by channel initiated secondary electron injection, which permits writing for qV/sub DS/ below the 3.2 eV oxide barrier. Writing times of 1 ms are achieved for floating gate voltages V/sub FG/ as low as 1.2 V, with V/sub DS/=-V/sub BS/=2.5 V, voltages which can easily be derived from a single scaled power supply, the back-gate bias generated by low-current charge pumping. No high voltage transistors are required for writing or V/sub T/ convergence. Moreover, because the devices are based on a fully scaled 0.25 /spl mu/m CMOS process, NV-memory arrays can be easily integrated with a minimum of additional process steps. Tight V/sub T/ convergence together with low voltage operation and scaling compatibility makes them ideal candidates for Giga-bit Flash. |
