Title :
Deep trench capacitor in three dimensional through silicon via keepout area for electrostatic discharge protection
Author :
Habib, Nazmul ; Muhammad, Mujahid ; Bickford, Jeanne ; Safran, John ; Ginawi, Ahmed Y. ; Towler, Fred J.
Author_Institution :
Syst. & Technol. Group, IBM Corp., Essex Junction, VT, USA
Abstract :
To fully enable and leverage the power of advanced processors, products must have abundant cache memory with much shorter access paths without increasing chip size. This requires growing products in the z-direction by building stacked chips (3D chips). To optimize 3D product costs, the area consumed by other processing requirements such as electrostatic discharge (ESD) protection needs to be as efficient as possible. Placing ESD structures made with deep trench capacitors in three dimensional Through silicon via keepout areas optimizes silicon area since these structures enable placement of ESD devices in space that would otherwise not be used.
Keywords :
cache storage; capacitors; electrostatic discharge; elemental semiconductors; isolation technology; logic design; microprocessor chips; three-dimensional integrated circuits; 3D chips; 3D product costs; 3D through silicon via keepout area; ESD devices; ESD protection; ESD structures; Si; access paths; advanced processors; cache memory; chip size; deep trench capacitor; electrostatic discharge protection; silicon area; stacked chips; z-direction; Capacitance; Capacitors; Clamps; Electrostatic discharges; Product design; Silicon; Three-dimensional displays; TSV keep out zone; deep trench capacitor; electrostatic discharge; stacked chips; three dimensional; through silicon via;
Conference_Titel :
Advanced Semiconductor Manufacturing Conference (ASMC), 2015 26th Annual SEMI
Conference_Location :
Saratoga Springs, NY
DOI :
10.1109/ASMC.2015.7164433
