Title :
Deep-submicrometer large-angle-tilt implanted drain (LATID) technology
Author :
Hori, Takashi ; Hirase, Junji ; Odake, Yoshinori ; Yasui, Takatoshi
Author_Institution :
Matsushita Electric Ind. Co. Ltd., Osaka, Japan
fDate :
10/1/1992 12:00:00 AM
Abstract :
Deep-submicrometer large-angle-tilt implanted drain (LATID) technology is described. It is found by Monte Carlo process simulation and SIMS measurements that a sufficiently long n- region can be formed under the gate by taking advantage of large-angle-tilt implant and successfully without ion channeling by taking care of the implant direction. A design that offsets the n+ implant by sidewall spacers to suppress the n+-gate overlap to zero while keeping the n- region fully overlapped with the gate is found to be crucial for improved performance and reliability. The device performance, such as current drivability and short-channel effects, is described, and the circuit speed is investigated. Hot-carrier effects such as lateral electric field and device lifetime over a wide range of drain structures are also investigated. The tradeoff between device performance and hot-carrier reliability in deep-submicrometer LATID FETs is discussed
Keywords :
CMOS integrated circuits; Monte Carlo methods; circuit reliability; doping profiles; hot carriers; integrated circuit technology; ion implantation; secondary ion mass spectra; semiconductor process modelling; IC fabrication; LATID FETs; Monte Carlo process simulation; SIMS measurements; circuit speed; current drivability; deep submicron devices; device lifetime; hot-carrier reliability; large-angle-tilt implanted drain; lateral electric field; short-channel effects; sidewall spacers; CMOS technology; Capacitance; Circuits; Degradation; Guidelines; Hot carriers; Implants; Monte Carlo methods; Space technology; Voltage;
Journal_Title :
Electron Devices, IEEE Transactions on
