• Title/Summary/Keyword: Short-channel Effect

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A Study on SOI-like-bulk CMOS Structure Operating in Low Voltage with Stability (저전압동작에 적절한 SOI-like-bulk CMOS 구조에 관한 연구)

  • Son, Sang-Hee;Jin, Tae
    • Journal of the Korean Institute of Electrical and Electronic Material Engineers
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    • v.11 no.6
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    • pp.428-435
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    • 1998
  • SOI-like-bulk CMOS device is proposed, which having the advantages of SOI(Silicon On Insulator) and protects short channel effects efficiently with adding partial epitaxial process at standard CMOS process. SOI-like-bulk NMOS and PMOS with 0.25${\mu}{\textrm}{m}$ gate length have designed and optimized through analyzing the characteristics of these devices and applying again to the design of processes. The threshold voltages of the designed NMOS and PMOS are 0.3[V], -0.35[V] respectively and those have shown the stable characteristics under 1.5[V] gate and drain voltages. The leakage current of typical bulk-CMOS increase with shortening the channel length, but the proposed structures on this a study reduce the leakage current and improve the subthreshold characteristics at the same time. In addition, subthreshold swing value, S is 70.91[mV/decade] in SOI-like-bulk NMOS and 63.37[mV/ decade] SOI-like-bulk PMOS. And the characteristics of SOI-like-bulk CMOS are better than those of standard bulk CMOS. To validate the circuit application, CMOS inverter circuit has designed and transient & DC transfer characteristics are analyzed with mixed mode simulation.

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Schottky Barrier MOSFETs with High Current Drivability for Nano-regime Applications

  • Jang, Moon-Gyu;Kim, Yark-Yeon;Jun, Myung-Sim;Choi, Chel-Jong;Kim, Tae-Youb;Park, Byoung-Chul;Lee, Seong-Jae
    • JSTS:Journal of Semiconductor Technology and Science
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    • v.6 no.1
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    • pp.10-15
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    • 2006
  • Various sizes of erbium/platinum silicided n/p-type Schottky barrier metal-oxide-semiconductor field effect transistors (SB-MOSFETs) are manufactured from $20{\mu}m$ to 10nm. The manufactured SB-MOSFETs show excellent DIBL and subthreshold swing characteristics due to the existence of Schottky barrier between source and channel. It is found that the minimization of trap density between silicide and silicon interface and the reduction of the underlap resistance are the key factors for the improvement of short channel characteristics. The manufactured 10 nm n-type SBMOSFET showed $550{\mu}A/um$ saturation current at $V_{GS}-V_T$ = $V_{DS}$ = 2V condition ($T_{ox}$ = 5nm) with excellent short channel characteristics, which is the highest current level compared with reported data.

A Study on the Process & Device Characteristics of BICMOS Gate Array (BICMOS게이트 어레이 구성에 쓰이는 소자의 제작 및 특성에 관한 연구)

  • 박치선
    • The Journal of Korean Institute of Communications and Information Sciences
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    • v.14 no.3
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    • pp.189-196
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    • 1989
  • In this paper, BICMOS gate array technology that has CMOS devices for logic applications and bipolar devices for driver applications is presented. An optimized poly gate p-well CMOS process is chosen to fabricate the BICMOS gate array system and the basic concepts to design these devices are to improve the characteristics of bipolar & CMOS device with simple process technology. As the results hFE value is 120(Ic=1mA) for transistor, and there is no short channel effects for CMOS devices which have Leff to 1.25um and 1.35um for n-channel, respectively, 0.8nx gate delay time of 41 stage ring oscillators is obtained.

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Dependence of Subthreshold Current for Channel Structure and Doping Distribution of Double Gate MOSFET (DGMOSFET의 채널구조 및 도핑분포에 따른 문턱전압이하 전류의존성)

  • Jung, Hak-Kee
    • Journal of the Korea Institute of Information and Communication Engineering
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    • v.16 no.4
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    • pp.793-798
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    • 2012
  • In this paper, dependence of subthreshold current has been analyzed for doping distribution and channel structure of double gate(DG) MOSFET. The charge distribution of Gaussian function validated in previous researches has been used to obtain potential distribution in Poisson equation. Since DGMOSFETs have reduced short channel effects with improvement of current controllability by gate voltages, subthreshold characteristics have been enhanced. The control of current in subthreshold region is very important factor related with power consumption for ultra large scaled integration. The deviation of threshold voltage has been qualitatively analyzed using the changes of subthreshold current for gate voltages. Subthreshold current has been influenced by doping distribution and channel dimension. In this study, the influence of channel length and thickness on current has been analyzed according to intensity and distribution of doping.

Analysis of electron mobility in LDD region of NMOSFET (NMOSFET에서 LDD 영역의 전자 이동도 해석)

  • 이상기;황현상;안재경;정주영;어영선;권오경;이창효
    • Journal of the Korean Institute of Telematics and Electronics A
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    • v.33A no.10
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    • pp.123-129
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    • 1996
  • LDD structure is widely accepted in fabricating short channel MOSFETs due to reduced short channel effect originated form lower drain edge electric field. However, modeling of the LDD device is troublesome because the analysis methods of LDD region known are either too complicated or inaccurate. To solve the problem, this paper presents a nonlinear resistance model for the LDD region based on teh fact that the electron mobility changes with positive gate bias because accumulation layer of electrons is formed at the surface of the LDD region. To prove the usefulness of the model, single source/drain and LDD nMOSFETs were fabricated with 0.35$\mu$m CMOS technolgoy. For the fabricated devices we have measured I$_{ds}$-V$_{gs}$ characteristics and compare them to the modeling resutls. First of all, we calculated channel and LDD region mobility from I$_{ds}$-V$_{gs}$ characteristics of 1050$\AA$ sidewall, 5$\mu$m channel length LDD NMOSFET. Then we MOSFET and found good agreement with experiments. Next, we use calculated channel and LDD region mobility to model I$_{ds}$-V$_{gs}$ characteristics of LDD mMOSFET with 1400 and 1750$\AA$ sidewall and 5$\mu$m channel length and obtained good agreement with experiment. The single source/drain device characteristic modeling results indicates that the cahnnel mobility obtained form our model in LDD device is accurate. In the meantime, we found that the LDD region mobility is governed by phonon and surface roughness scattering from electric field dependence of the mobility. The proposed model is useful in device and circuit simulation because it can model LDD device successfully even though it is mathematically simple.

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Breakdown Voltages Deviation for Channel Dimension of Double Gate MOSFET (이중게이트 MOSFET의 채널구조에 따른 항복전압 변화)

  • Jung, Hakkee
    • Journal of the Korea Institute of Information and Communication Engineering
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    • v.17 no.3
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    • pp.672-677
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    • 2013
  • This paper have analyzed the change of breakdown voltage for channel dimension of double gate(DG) MOSFET. The breakdown voltage to have the small value among the short channel effects of DGMOSFET to be next-generation devices have to be precisely analyzed. The analytical solution of Poisson's equation have been used to analyze the breakdown voltage, and Gaussian function been used as carrier distribution to analyze closely for experimental results. The breakdown voltages have been analyzed for device parameters such as channel thickness and doping concentration, and projected range and standard projected deviation of Gaussian function. Since this potential model has been verified in the previous papers, we have used this model to analyze the breakdown voltage. As a result, we know the breakdown voltage is influenced on Gaussian function and device parameters for DGMOSFET.

Analysis of Breakdown Voltages Deviation for Channel Dimension of Double Gate MOSFET (DGMOSFET의 채널구조에 따른 항복전압변화에 대한 분석)

  • Jung, Hakkee;Han, Jihyung;Jeong, Dongsoo;Lee, Jongin
    • Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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    • 2012.10a
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    • pp.811-814
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    • 2012
  • This paper have analyzed the change of breakdown voltage for channel dimension of double gate(DG) MOSFET. The breakdown voltage to have the small value among the short channel effects of DGMOSFET to be next-generation devices have to be precisely analyzed. The analytical solution of Poisson's equation have been used to analyze the breakdown voltage, and Gaussian function been used as carrier distribution to analyze closely for experimental results. The breakdown voltages have been analyzed for device parameters such as channel thickness and doping concentration, and projected range and standard projected deviation of Gaussian function. Since this potential model has been verified in the previous papers, we have used this model to analyze the breakdown voltage. Resultly, we know the breakdown voltage is influenced on Gaussian function and device parameters for DGMOSFET.

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Size Scaling에 따른 Gate-All-Around Silicon Nanowire MOSFET의 특성 연구

  • Lee, Dae-Han;Jeong, U-Jin
    • Proceeding of EDISON Challenge
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    • 2014.03a
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    • pp.434-438
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    • 2014
  • CMOS의 최종형태로써 Gate-All-Around(GAA) Silicon Nanowire(NW)가 각광받고 있다. 이 논문에서 NW FET(Field Effect Transistor)의 채널 길이와 NW의 폭과 같은 size에 따른 특성변화를 실제 실험 data와 NW FET 특성분석 simulation을 이용해서 비교해보았다. MOSFET(Metal Oxide Semiconductor Field Effect Transistor)의 소형화에 따른 쇼트 채널 효과(short channel effect)에 의한 threshold voltage($V_{th}$), Drain Induced Barrier Lowering(DIBL), subthreshold swing(SS) 또한 비교하였다. 이에 더하여, 기존의 상용툴로 NW를 해석한 시뮬레이션 결과와도 비교해봄으로써 NW의 size scaling에 대한 EDISON NW 해석 simulation의 정확도를 파악해보았다.

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EDISON 시뮬레이션을 활용한 실리콘 나노선 전계 효과 트랜지스터의 소자변수 분석

  • Sin, Jong-Mok;Park, Ju-Hyeon;Yu, Jae-Yeong
    • Proceeding of EDISON Challenge
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    • 2013.04a
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    • pp.210-213
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    • 2013
  • 실리콘 나노선 전계 효과 트랜지스터(Field Effect Transisor: FET)의 특성을 시뮬레이션을 통해 연구하였다. 일반적인 트랜스컨덕턴스(transconductance) 값을 이용하여 소자의 전계 효과 이동도(field effect mobility)를 추출했고, Y-function 방법을 이용하여 저전계 이동도(low field mobility)와 문턱전압(threshold voltage)를 구했다. 채널길이가 10nm로 매우 짧을 때와 100nm의 일반적인 길이 일 때의 전하 이동도 특성을 비교하여 Si 나노선 FET의 쇼트 채널 효과(short channel effect)를 보았다.

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A Study on the Reduction of Current Kink Effect in NMOSFET SOI Device (NMOSFET SOI 소자의 Current Kink Effect 감소에 관한 연구)

  • Han, Myoung-Seok;Lee, Chung-Keun;Hong, Shin-Nam
    • Journal of the Korean Institute of Telematics and Electronics T
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    • v.35T no.2
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    • pp.6-12
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    • 1998
  • Thin film SOI(Silicon-on-insulator) device offer unique advantages such as reduction in short channel effects, improvement of subthreshold slope, higher mobility, latch-up free nature, and so on. But these devices exhibit floating-body effet such as current kink which inhibits the proper device operation. In this paper, the SOI NMOSFET with a T-type gate structure is proposed to solve the above problem. To simulate the proposed device with TSUPREM-4, the part of gate oxide was considered to be 30nm thicker than the normal gate oxide. The I-V characteristics were simulated with 2D MEDICI. Since part of gate oxide has different oxide thickness, the gate electric field strength is not same throughout the gate and hence the impact ionization current is reduced. The current kink effect will be reduced as the impact ionization current drop. The reduction of current kink effect for the proposed device structure were shown using MEDICI by the simulation of impact ionization current, I-V characteristics, and hole current distribution.

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