Title :
Design methodology and size limitations of submicrometer MOSFETs for DRAM application
Author :
Lee, Win-how ; Osakama, Todomu ; Asada, Kunihiro ; Sugano, Takuo
Author_Institution :
Dept. of Electron. Eng., Tokyo Univ., Japan
fDate :
11/1/1988 12:00:00 AM
Abstract :
A design methodology of submicrometer MOSFETs for a one-transistor DRAM cell is proposed, taking into account physical limiting phenomena such as (1) avalanche breakdown at the drain junction, (2) bulk punchthrough, (3) short-channel effect, and (4) hot-electron effect, and circuit-performance requirements such as (5) leakage current, (6) access delay, (7) noise margin and (8) α-particle-induced soft error. It has been found that a minimum metallurgical channel length is 0.42 μm at a circuit voltage of 2.8 V for a planar cell structure. Although these parameters are derived assuming a planar cell, the presented design method can be applied to advanced cell structures, such as stacked and trench cell structures, by setting adjustable design parameters for the area and capacitor factors of a memory cell
Keywords :
electron device noise; hot carriers; impact ionisation; insulated gate field effect transistors; leakage currents; random-access storage; α-particle-induced soft error; 0.42 micron; 2.8 V; access delay; advanced cell structures; avalanche breakdown; circuit voltage; circuit-performance requirements; design methodology; drain junction; hot-electron effect; leakage current; metallurgical channel length; noise margin; one-transistor DRAM cell; planar cell structure; punchthrough; short-channel effect; size limitations; submicron MOSFET; trench cell structures; Avalanche breakdown; Capacitance; Capacitors; Delay effects; Design methodology; Electron traps; Leakage current; MOSFETs; Random access memory; Switches;
Journal_Title :
Electron Devices, IEEE Transactions on
