Title :
Radiation Tolerance of NROM Embedded Products
Author :
Lisiansky, M. ; Cassuto, Gil ; Roizin, Yakov ; Corso, Domenica ; Libertino, Sebania ; Marino, Antonio ; Lombardo, Salvatore A. ; Crupi, Isodiana ; Pace, Calogero ; Crupi, Felice ; Fuks, David ; Kiv, Arik ; Della Sala, Ernesto ; Capuano, Giuseppe ; Palumbo
Author_Institution :
Tower Semicond. Ltd., Migdal HaEmek, Israel
Abstract :
Radiation tolerance of NROM memories is demonstrated at the level of industrial 4 Mbit memory embedded modules, specifically not designed for operation in radiation harsh environments. The memory fabricated in 0.18 um technology remains fully functional after total ionization doses exceeding 100 krad. The tests were performed by irradiating with γ-rays ( 60Co source) and 10 MeV 11B ions in active (during programming/erase and read-out) and passive (no bias) modes. Comprehensive statistics were obtained by using large memory arrays and comparison of the data with the parameters of irradiated single cells allowed deep understanding of the physical phenomena in the irradiated NROM devices for both moderate (<;1 Mrad) and large (> 1 Mrad) TID. The obtained data is currently employed in the design of the new generation of NROM memories, having improved radiation tolerance.
Keywords :
gamma-ray effects; radiation hardening; read-only storage; silicon compounds; γ-ray irradiation; 11B ions source; 60Co source; Si3N4; ionization doses; memory arrays; nitride read-only memory; passive modes; radiation hardening; radiation tolerance; Capacitors; Charge carrier processes; Current measurement; Gas insulated transmission lines; Ionization; Ions; Logic gates; Nonvolatile memory; Performance evaluation; Radiation effects; Radiation hardening; SONOS devices; Shipbuilding industry; Silicon; Space technology; Testing; Floating gate memories; ONO; radiation effects; radiation hardening;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2010.2052286
