Title :
Gate current injection in MOSFET´s with a split-gate (virtual drain) structure
Author_Institution :
IBM Thomas J. Watson Res. Center, Yorktown Heights, NY, USA
fDate :
5/1/1993 12:00:00 AM
Abstract :
Gate current injection into the gate oxide of MOSFETs with a split-gate (virtual drain) structure is examined. The split-gate structure is commonly encountered in flash EEPROM and CCDs. An important parameter characterizing the gate current injection is the ratio phi /sub b// phi /sub i/ (where phi /sub b/ is the effective energy barrier for electron injection into gate oxide, and phi /sub i/, is the impact ionization energy). Measurements of phi /sub b// phi /sub i/ at relatively constant vertical and lateral electric fields are reported. Through the use of a novel triple-gate MOSFET, the drain current as well as the lateral and vertical electric field at the point of injection were independently controlled during the measurements. The measured phi /sub b// phi /sub i/ showed a dependence on gate and drain biases not reported previously.<>
Keywords :
electric fields; impact ionisation; insulated gate field effect transistors; semiconductor device testing; MOSFETs; drain current; electron injection energy barrier; gate current injection; gate oxide; impact ionization energy; lateral electric fields; split-gate structure; triple-gate MOSFET; vertical electric field; virtual drain structure; Cities and towns; Current measurement; EPROM; Electric variables measurement; Electrons; Energy barrier; Impact ionization; MOSFET circuits; Split gate flash memory cells; Voltage;
Journal_Title :
Electron Device Letters, IEEE
