Title :
Multi-Layer High-K Tunnel Barrier for a Voltage Scaled NAND-Type Flash Cell
Author :
Ramaswamy, Nirmal ; Yeh, Chun-Chen ; Krishnamohan, Tejas ; Gowda, Srivardhan ; Rocklein, Noel ; Brewer, Rhett ; Graettinger, Thomas ; Min, Kyu
Author_Institution :
Micron Technol., Inc., Boise, ID
Abstract :
Low-voltage program/erase (P/E) operations of a NAND-type flash cell have been demonstrated using a multi-layer tunnel barrier. The concept is to achieve low voltage P/E operations similar to a scaled tunnel barrier without compromising retention by exploiting a multi-layer tunnel oxide consisting of a low-k, high-k and low k material. In this study, barrier engineered tunnel oxides of SiO2-HfOx-SiO2 and SiO2- ZrOx-SiO2 were explored using a Metal-Insulator-Nitride-Oxide- Silicon (MINOS) capacitor with a TiN gate electrode. The device programmed/erased at 16/-22 V for 1 ms and it had a memory window of 6 V. The cell showed less than 2 V charge loss after 27 hours when programmed to a 5 V initial window. The proposed high-K tunnel barrier is a promising alternative for tunnel oxide for sub-35 nm NAND Flash technology.
Keywords :
MIS capacitors; NAND circuits; flash memories; hafnium compounds; semiconductor storage; silicon compounds; tunnelling; zirconium compounds; SiO2-HfOx-SiO2; SiO2-ZrOx-SiO2; TiN; barrier engineered tunnel oxides; charge loss; gate electrode; low-voltage program-erase operations; metal-insulator-nitride-oxide-silicon capacitor; multilayer tunnel barrier; scaled tunnel barrier; voltage scaled NAND-type flash cell; Capacitors; Current density; Hafnium oxide; High K dielectric materials; High-K gate dielectrics; Leakage current; Low voltage; Metal-insulator structures; Space vector pulse width modulation; Tin;
Conference_Titel :
Microelectronics and Electron Devices, 2009. WMED 2009. IEEE Workshop on
Conference_Location :
Boise, ID
Print_ISBN :
978-1-4244-3551-7
Electronic_ISBN :
978-1-4244-3552-4
DOI :
10.1109/WMED.2009.4816146
