Title :
Resonant power supply noise reduction using on-die decoupling capacitors embedded in organic interposer
Author :
Nakura, T. ; Kano, M. ; Yoshizawa, M. ; Oyamada, S. ; Hattori, A. ; Asada, K.
Author_Institution :
VLSI Design & Educ. Center, Univ. of Tokyo, Tokyo, Japan
Abstract :
This paper demonstrates an on-die STO thin film decoupling capacitor used for resonant power supply noise reduction. The on-die STO capacitor consists of STO whose dielectric constant is about 20 and is sandwitched by Cu films in an organic interposer on which we can also draw connection wires by Cu deposition. The capacitor was attached directly on our test chip using ball banding technique through PADs connection. Our experimental results using a real silicon chip shows that our on-die STO capacitor achieved significant resonant supply noise reduction. This result also shows that we can reduce the power supply noise without chip area penalty, and also it enables us to modify the noise characteristics even after the chip fabrication process.
Keywords :
capacitors; circuit noise; copper; metallic thin films; organic compounds; permittivity; power supply circuits; strontium compounds; Cu; Cu films; SrTiO3; ball banding technique; connection wires; dielectric constant; noise characteristics; on-die STO thin film decoupling capacitor; organic interposer; resonant power supply noise reduction; Capacitance; Capacitors; MOS capacitors; Noise; Power supplies; Resonant frequency; System-on-chip;
Conference_Titel :
Electrical Design of Advanced Packaging & Systems Symposium (EDAPS), 2014 IEEE
Conference_Location :
Bangalore
DOI :
10.1109/EDAPS.2014.7030823
