Title :
Impact of wafer thinning on High-K Metal Gate 20nm devices
Author :
Beece, Adam ; Agarwal, Rohit ; Chandrashekhar, S. ; Singh, Jaskirat ; Siddhartha, Siddhartha ; Alapati, Ramakanth ; Parameshwaran, B. ; Dumas, J. ; Alvanos, Tyson
Author_Institution :
Rennselaer Polytech. Inst., Troy, NY, USA
Abstract :
In this paper, the impact of wafer thinning on 20nm High K Metal Gate (HKMG) technology is evaluated. Fully fabricated test wafers are thinned down to well below 100μm, into the range required for 3D integration. The impact on NMOS and PMOS device performance parameters; channel current and threshold voltage (Vt) is investigated. Device reliability is monitored using NBTI (negative bias temperature instability) measurements. It is found that wafer thinning has negligible impact on Vt of I/O devices. However, we have seen a small impact on the channel leakage, and a moderate impact on saturation currents of high performance core devices. The channel current is reduced ~5% for NMOS, while there is a ~10% enhancement in the PMOS device. Device reliability was assessed using NBTI and no degradation is seen on the devices. This confirms that the thinning did not impact the front end of line gate oxide integrity.
Keywords :
MOS integrated circuits; negative bias temperature instability; semiconductor technology; 3D integration; HKMG technology; NBTI measurements; NMOS device performance; PMOS device performance; channel current; device reliability; high K metal gate devices; high K metal gate technology; line gate oxide integrity; negative bias temperature instability measurements; test wafers; threshold voltage; wafer thinning; Coatings; Logic gates; MOS devices; Packaging; Semiconductor device reliability; Silicon;
Conference_Titel :
Electronic Components and Technology Conference (ECTC), 2013 IEEE 63rd
Conference_Location :
Las Vegas, NV
Print_ISBN :
978-1-4799-0233-0
DOI :
10.1109/ECTC.2013.6575836
