Abstract
Fully depleted silicon-on-insulator (FD SOI) devices with 70 nm gate lengths for embedded static random access memory (SRAM) technology were investigated for different SOI film thickness. Transistor performances of 700 µA/µm and 320 µA/µm were obtained for n-type and p-type metal-oxide semiconductor field effect transistor (NMOSFET and PMOSFET) devices, respectively at 1.0 V operation voltage and Ioff=75 nA/µm. Si selective epitaxial growth (SEG) process was well optimized. Both the single raised (SR) and double raised (DR) source/drain process were studied to reduce parasitic series resistance. For the DR process, both NMOSFET and PMOSFET performance are improved by 9 and 13% respectively, compared to the SR process. Drain induced barrier lowering (DIBL) was improved from 100 mV to 13 mV as the SOI film thickness was scaled down from 50 nm to 17 nm. Due to the self-heating effect, the AC current is 15% higher than the DC current for the case of 40 nm SOI thickness. The static noise margin (SNM) for a 1.1 µm2 6T-SRAM cell was 210 mV and ring oscillator speed was improved by 24% compared to bulk devices.
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