A 76 mm/sup 2/ 8 Mb chain ferroelectric memory

This paper demonstrates the first 8-Mb chain ferroelectric RAM (chain FeRAM) with 0,25-/spl mu/m 2-metal CMOS technology. A small die of 76 mm/sup 2/ and a high average cell/chip area efficiency of 57.4 % have been realized by introducing not only chain architecture but also four new techniques: 1) a one-pitch shift cell realizes small cell size of 5.2 /spl mu/m/sup 2/; 2) a new hierarchical wordline architecture reduces row-decoder and plate-driver areas without an extra metal layer; 3) a small-area dummy cell scheme reduces dummy capacitor size to 1/3 of the conventional one; and 4) a new array activation scheme reduces dataline and second amplifier areas. As a result, the chain architecture with these new techniques reduces die size to 65% of that of the conventional FeRAM. Moreover a ferroelectric capacitor overdrive scheme enables sufficient polarization switching, without overbias memory cell array. This scheme lowers the minimum operation voltage by 0.23 V, and enables 2.5-V V/sub dd/ operation. Thanks to fast cell plateline drive of chain architecture, the 8-Mb chain FeRAM has achieved the fastest random access time, 40 ns, and read/write cycle time, 70 ns, at 3.0 V so far reported.