• Title/Summary/Keyword: Mosfet

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Drain Current Response Delay High Frequency Model of SOI MOSFET with Inductive Parasitic Elements (유도성 기생성분에 의한 드레인전류 응답지연을 포함한 SOI MOSFET 고주파모델)

  • Kim, Gue-Chol
    • The Journal of the Korea institute of electronic communication sciences
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    • v.13 no.5
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    • pp.959-964
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    • 2018
  • In this paper, it was firstly confirmed that the drain current of the depleted SOI MOSFET operated in the high frequency response delay occurs by the inductive parasitic. Depleted SOI MOSFET cannot be applied as a conventional high-frequency MOSFET model because the response delay of the drain current is generated in accordance with the drain voltage fluctuation. This response delay may be described as a non-quasi-static effect, and the SOI MOSFET generated the response delay by the inductive parasitics compared to typical MOSFET. It is confirmed that depleted SOI MOSFET's RF characteristics can be well reproduced with the proposed method including the drain current response delay.

Schottky Barrier Field-Effect Transistor의 소자의 특성 및 성능 비교분석

  • Kim, Gyeong-Tae;Park, Hyeok-Jun;U, Ji-Yun;Park, Yeong-Min
    • Proceeding of EDISON Challenge
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    • 2017.03a
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    • pp.372-375
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    • 2017
  • Metal-oxide-semiconductor Field-Effect transistor (MOSFET)을 대체할 기술로서 제안된 Schottky Barrier MOSFET (SB-MOSFET)가 제시되고 있다. 본 연구에서는 SB-MOSFET와 MOSFET을 다양한 소자 파라미터를 변화시킴으로서 양자역학적 전하수송 계산을 바탕으로 특성을 분석한다. MOSFET과 SB-MOSFET은 채널 두께 ($T_{Si}$)가 감소함에 따라 전류량은 증가하고 SS와 DIBL은 증가하였고 Overlap에서는 SS와 DIBL이 커지고 Underlap에서는 작아짐을 보였고 SB-MOSFET는 특히 그 폭이 컸다. 또한 SB 높이가 낮을수록 SB-MOSFET의 전류량이 증가하고 SS는 감소하였고 마찬가지로 Source와 Drain doping concentration이 낮을수록 MOSFET의 전류량은 증가하고 SS는 감소하였다. MOSFET과 SB-MOSFET의 경향은 대체로 비슷하나 변화량의 차이 등이 있었다.

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The Study on Channel and Doping influence of MOSFET using TCAD (TCAD를 이용한 채널과 도핑 농도에 따른 MOSFET의 특성 분석)

  • 심성택;장광균;정정수;정학기;이종인
    • Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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    • 2000.05a
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    • pp.470-473
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    • 2000
  • The metal-oxide-semiconductor field-effect transistor(MOSFET) has undergone many changes in the last decade in response to the constant demand for increased speed, decreased power, and increased patting density. The devices are scaled down day by day. Therefore, This paper investigates how MOSFET structures influence on transport properties in according to change of channel length and bias and, observes impact ionization between the drain and the gate. This paper proposes three models, i.e., conventional MOSFET, LDD MOSFET and EPI MOSFET. The gate lengths are 0.3$\mu\textrm{m}$ 0.15$\mu\textrm{m}$, 0.075$\mu\textrm{m}$ and scaling factor is λ = 2. We have presented MOSFET's characteristics such as I-V characteristic, impart ionization, electric field, using the TCAD. We have analyzed the adaptive channel and doping influences

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2D Quantum Effect Analysis of Nanoscale Double-Gate MOSFET (이차원 양자 효과를 고려한 극미세 Double-Gate MOSFET)

  • Kim, Ji-Hyun;Son, Ae-Ri;Jeong, Na-Rae;Shin, Hyung-Soon
    • Journal of the Institute of Electronics Engineers of Korea SD
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    • v.45 no.10
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    • pp.15-22
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    • 2008
  • The bulk-planer MOSFET has a scaling limitation due to the short channel effect (SCE). The Double-Gate MOSFET (DG-MOSFET) is a next generation device for nanoscale with excellent control of SCE. The quantum effect in lateral direction is important for subthreshold characteristics when the effective channel length of DG-MOSFET is less than 10nm, Also, ballistic transport is setting important. This study shows modeling and design issues of nanoscale DG-MOSFET considering the 2D quantum effect and ballistic transport. We have optimized device characteristics of DG-MOSFET using a proper value of $t_{si}$ underlap and lateral doping gradient.

A Study on the Design Method of Hybrid MOSFET-CNTFET based SRAM (하이브리드 MOSFET-CNTFET 기반 SRAM 디자인 방법에 관한 연구)

  • Geunho Cho
    • Journal of IKEEE
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    • v.27 no.1
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    • pp.65-70
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    • 2023
  • More than 10,000 Carbon NanoTube Field Effect Transistors (CNTFETs), which have advantages such as high carrier mobility, large saturation velocity, low intrinsic capacitance, flexibility, and transparency, have been successfully integrated into one semiconductor chip using conventional semiconductor design procedures and manufacturing processes. Three-dimensional multilayer structure of the CNTFET semiconductor chip and various CNTFET manufacturing process research increase the possibility of making the hybrid MOSFET-CNTFET semiconductor chip which combines conventional MOSFETs and CNTFETs together in a semiconductor chip. This paper discusses a methodology to design 6T binary SRAM using hybrid MOSFET-CNTFET. By utilizing the existing MOSFET SRAM or CNTFET SRAM design method, we will introduce a method of designing a hybrid MOSFET-CNTFET SRAM and compare its performance with the conventional MOSFET SRAM and CNTFET SRAM.

Short Channel n-MOSFET의 Breakdown 전압

  • Kim, Gwang-Su;Lee, Jin-Hyo
    • ETRI Journal
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    • v.9 no.1
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    • pp.118-124
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    • 1987
  • Short channel n-MOSFET의 드레인-소오스 사이의 breakdown은 단순한 접합 breakdown이 아닌 avalanche-induced breakdown으로 p-MOSFET, long channel n-MOSFET의 breakdown 전압보다 훨씬 작은 값을 갖는다. Short channel n-MOSFET의 breakdown의 특징은 current-controlled 부저항 특성(snapback)이 나타나고, 게이트 전압에 따라 breakdown 전압보다 작은 sustainning 전압이 존재한다. 이와 같은 sustainning 전압은 short channel n-MOSFET의 안정한 동작에 또 하나의 제한 요소가 될 수 있다. 따라서 공정 및 회로 시뮬레이션을 위해, short channel n-MOSFET의 avalanche breakdown 현상에 대한 정확한 분석이 요구된다. Short channel n -MOSFET의 avalanche breakdown 현상을 분석하기 위해서Parasitic bipolar transistor를 도입한 분석적 모델을 이용하였다.

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A Power MOSFET with Self Current Limiting Capability (전류 제한 능력을 갖는 전력 MOSFET)

  • 윤종만;최연익;한민구
    • Journal of the Korean Institute of Telematics and Electronics A
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    • v.32A no.10
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    • pp.25-34
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    • 1995
  • A new vertical power MOSFET with over-current protection capability is proposed. The MOSFET consists of main power MOSFET cell, sensing MOSFET cell and lateral npn bipolar transistor. The proposed MOSFET may be fabricated by a conventional DMOS process without any additional fabrication step. Overcurrent state is sensed by the newly designed lateral bipolar transistor. Mixed-mode simulations proved that the overcurrent protection is achieved by the proposed MOSFET successfully with a small protection area less than 0.2 % of the total die area.

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A Study on 600 V Super Junction Power MOSFET Optimization and Characterization Using the Deep Trench Filling (Deep Trench Filling 기술을 적용한 600 V급 Super Junction Power MOSFET의 최적화 특성에 관한 연구)

  • Lee, Jung-Hoon;Jung, Eun-Sik;Kang, Ey-Goo
    • Journal of the Korean Institute of Electrical and Electronic Material Engineers
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    • v.25 no.4
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    • pp.270-275
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    • 2012
  • Power MOSFET(metal oxide silicon field effect transistor) operate voltage-driven devices, design to control the large power switching device for power supply, converter, motor control, etc. But on-resistance characteristics depending on the increasing breakdown voltage spikes is a problem. So 600 V planar power MOSFET compare to 1/3 low on-resistance characteristics of super junction MOSFET structure. In this paper design to 600 V planar MOSFET and super junction MOSFET, then improvement of comparative analysis breakdown voltage and resistance characteristics. As a result, super junction MOSFET improve on about 40% on-state voltage drop performance than planar MOSFET.

New RF Empirical Nonlinear Modeling for Nano-Scale Bulk MOSFET (나노 스케일 벌크 MOSFET을 위한 새로운 RF 엠피리컬 비선형 모델링)

  • Lee, Seong-Hearn
    • Journal of the Institute of Electronics Engineers of Korea SD
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    • v.43 no.12 s.354
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    • pp.33-39
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    • 2006
  • An empirical nonlinear model with intrinsic nonlinear elements has been newly developed to predict the RF nonlinear characteristics of nano-scale bulk MOSFET accurately over the wide bias range. Using an extraction method suitable for nano-scale MOSFET, the bias-dependent data of intrinsic model parameters have been accurately obtained from measured S-parameters. The intrinsic nonlinear capacitance and drain current equations have been empirically obtained through 3-dimensional curve-fitting to their bias-dependent curves. The modeled S-parameters of 60nm MOSFET have good agreements with measured ones up to 20GHz in the wide bias range, verifying the accuracy of the nano-scale MOSFET model.

Electric Characteristics and Modeling of Asymmetric n-MOSFETs for Improving Packing Density (집적도 향상을 위한 비대칭 n-MOSFET의 전기적 특성 및 모델링)

  • Gong, Dong-Uk;Lee, Jae-Seong;Nam, Gi-Hong;Lee, Yong-Hyeon
    • Journal of the Institute of Electronics Engineers of Korea SD
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    • v.38 no.7
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    • pp.464-472
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    • 2001
  • Asymmetric n-MOSFET's for improving packing density have been fabricated with 0.35 ${\mu}{\textrm}{m}$ CMOS process. Electrical characteristics of asymmetric n-MOSFET show a lower saturation drain current and a higher linear resistance compared to those of symmetric devices. Substrate current of asymmetric MOSFET is lower than that of symmetric devices. Asymmetric n-MOSFET's have been modeled using a parasitic resistance associated with abnormally structured drain or source and a conventional n-MOSFET model. MEDICI simulation has been done for accuracy of this modeling. Simulated values of reverse as we11 as forward saturation drain current show good agreement with measured values for asymmetric device.

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