Title :
Signal integrity study of high density through silicon via (TSV) technology
Author :
Bok Eng Cheah ; Kong, Jackson ; Chee Kit Chew ; Kooi Chi Ooi ; Periaman, Shanggar
Author_Institution :
Intel Microelectron. (M) Sdn Bhd, Halaman Kampung Jawa, Malaysia
Abstract :
This paper explores the electrical performance of several multi-channel TSV designs i.e. cross-etched full-plated TSV and cross-etched partial-plated TSV to further improve data transmission bandwidth among the vertically stacked silicon devices. The electrical characteristics of the multi-channel TSV designs were investigated and compared against the conventional TSV design in terms of return loss, insertion loss, near-end (NEXT) and far-end (FEXT) crosstalk. Fullwave electromagnetic simulation data showed the insertion loss performance of the multi-channel TSV designs are at par with the conventional TSV design up-to 50GHz. Meanwhile, the multi-channel TSV designs were found yielding improved NEXT and FEXT crosstalk performance. Transient analyses of respective TSV designs are also included in this paper for more conclusive discussions.
Keywords :
crosstalk; elemental semiconductors; integrated circuit design; integrated circuit packaging; silicon; stacking; three-dimensional integrated circuits; transient analysis; Si; cross-etched full-plated TSV; cross-etched partial-plated TSV; data transmission bandwidth; far-end crosstalk; frequency 50 GHz; full wave electromagnetic simulation data; insertion loss; multichannel TSV designs; near-end crosstalk; return loss; signal integrity study; through silicon via technology; transient analyses; vertically stacked silicon devices; Capacitance; Insertion loss; Silicon; Solid modeling; Three-dimensional displays; Through-silicon vias;
Conference_Titel :
Electronics Packaging Technology Conference (EPTC 2013), 2013 IEEE 15th
Conference_Location :
Singapore
Print_ISBN :
978-1-4799-2832-3
DOI :
10.1109/EPTC.2013.6745684
