A Thermal Isolation Technique Using Through-Silicon Vias for Three-Dimensional ICs
Electron Devices, IEEE Transactions(2013)
Abstract
This brief proposes a guard ring using through-silicon vias (TSVs) to isolate thermal coupling in a 3-D integrated circuit (3-D IC). To verify this idea, simulation and measurement are carried out. A ring oscillator (RO) is implemented in a 65-nm CMOS and then measured in four different conditions. The results show that, without affecting the inherent electrical performance of the RO, the designed TSV ring shields the RO from high-temperature environments. The oscillation frequency shifting is mitigated from 5.96 MHz without TSV to 2.11 MHz with the proposed TSV ring. This TSV-based structure provides a good option to alleviate thermal coupling in a highly integrated 3-D IC.
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Key words
cmos analogue integrated circuits,cmos process,ring oscillator (ro),high-temperature environments,frequency 5.96 mhz to 2.11 mhz,through-silicon via (tsv),size 65 nm,oscillation frequency shifting,three-dimensional integrated circuits,three-dimensional integrated circuit (3-d ic),thermal coupling isolation technique,guard ring,ring oscillator,three-dimensional integrated circuit,thermal isolation,3d ic,through-silicon via,oscillators,tsv ring,heating,couplings,three dimensional integrated circuit,through silicon via,metals
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