• Title/Summary/Keyword: 채널도핑

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Analysis of Drain Induced Barrier Lowering of Asymmetric Double Gate MOSFET for Channel Doping Concentration (비대칭 DGMOSFET의 채널도핑농도에 따른 드레인 유도 장벽 감소현상 분석)

  • Jung, Hakkee;Kwon, Ohshin
    • Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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    • 2015.10a
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    • pp.858-860
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    • 2015
  • 본 연구에서는 비대칭 이중게이트 MOSFET의 채널 내 도핑농도에 대한 드레인 유도 장벽 감소 현상에 대하여 분석하고자한다. 드레인 유도 장벽 감소 현상은 드레인 전압에 의하여 소스 측 전위장벽이 낮아지는 효과로서 중요한 단채널 효과이다. 이를 분석하기 위하여 포아송방정식을 이용하여 해석학적 전위분포를 구하였으며 전위분포에 영향을 미치는 채널도핑 농도뿐만이 아니라 상하단 산화막 두께, 하단 게이트 전압 등에 대하여 드레인 유도 장벽 감소 현상을 관찰하였다. 결과적으로 드레인 유도 장벽 감소 현상은 채널도핑 농도에 따라 큰 변화를 나타냈다. 단채널 효과 때문에 채널길이가 짧아지면 도핑농도에 따른 영향이 증가하였다. 도핑농도에 대한 드레인유도장벽감소 현상의 변화는 상하단 산화막 두께에 따라 큰 변화를 보였으며 산화막 두께가 증가할수록 도핑농도에 따른 변화가 증가하는 것을 알 수 있었다. 또한 하단게이트 전압은 그 크기에 따라 도핑농도의 영향이 변화하고 있다는 것을 알 수 있었다.

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Dependence of Channel Doping Concentration on Drain Induced Barrier Lowering for Asymmetric Double Gate MOSFET (비대칭 이중게이트 MOSFET에 대한 DIBL의 채널도핑농도 의존성)

  • Jung, Hakkee
    • Journal of the Korea Institute of Information and Communication Engineering
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    • v.20 no.4
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    • pp.805-810
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    • 2016
  • The dependence of drain induced barrier lowering(DIBL) is analyzed for doping concentration in channel of asymmetric double gate(DG) MOSFET. The DIBL, the important short channel effect, is described as lowering of source barrier height by drain voltage. The analytical potential distribution is derived from Poisson's equation to analyze the DIBL, and the DIBL is observed according to top/bottom gate oxide thickness and bottom gate voltage as well as channel doping concentration. As a results, the DIBL is significantly influenced by channel doping concentration. DIBL is significantly increased by doping concentration if channel length becomes under 25 nm. The deviation of DIBL is increasing with increase of oxide thickness. Top and bottom gate oxide thicknesses have relation of an inverse proportion to sustain constant DIBL regardless channel doping concentration. We also know the deviation of DIBL for doping concentration is changed according to bottom gate voltage.

Analysis of Drain Induced Barrier Lowering of Asymmetric Double Gate MOSFET for Channel Doping Profile (비대칭 DGMOSFET의 채널도핑분포함수에 따른 드레인 유도 장벽 감소현상 분석)

  • Jung, Hakkee
    • Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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    • 2015.10a
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    • pp.863-865
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    • 2015
  • 본 연구에서는 비대칭 이중게이트 MOSFET의 채널 내 도핑농도분포에 대한 드레인유도장벽감소(Drain Induced Barrier Lowering; DIBL)에 대하여 분석하고자한다. DIBL은 드레인 전압에 의하여 소스 측 전위장벽이 낮아지는 효과로서 중요한 단채널 효과이다. 이를 분석하기 위하여 포아송방정식을 이용하여 해석학적 전위분포를 구하였으며 전위분포에 영향을 미치는 채널도핑농도의 분포함수변화에 대하여 DIBL을 관찰하였다. 채널길이, 채널두께, 상하단 게이트 산화막 두께, 하단 게이트 전압 등을 파라미터로 하여 DIBL을 관찰하였다. 결과적으로 DIBL은 채널도핑농도분포함수의 변수인 이온주입범위 및 분포편차에 변화를 나타냈다. 특히 두 변수에 대한 DIBL의 변화는 최대채널도핑농도가 $10^{18}/cm^3$ 정도로 고도핑 되었을 경우 더욱 현저히 나타나고 있었다. 채널길이가 감소할수록 그리고 채널두께가 증가할수록 DIBL은 증가하였으며 하단 게이트 전압과 상하단 게이트 산화막 두께가 증가할수록 DIBL은 증가하였다.

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NEW POLY-SI TFT'S WITH SELECTIVE DOPED REG10N IN THE CHANNEL (선택적으로 도핑된 채널을 가지는 새로운 다결정 실리콘 박막 트랜지스터)

  • Jung, Sang-Hoon;Lee, Min-Cheol;Jeon, Jae-Hong;Han, Min-Koo
    • Proceedings of the KIEE Conference
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    • 1999.07d
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    • pp.1836-1838
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    • 1999
  • 다결정 실리콘 박막 트랜지스터(TFT)의 누설전류를 줄이기 위하여 채널의 중간에 선택적으로 도핑된 영역을 가진 새로운 다결정 실리콘 TFT를 제안한다. 제안된 TFT에서는 채널의 일부가 선택적으로 도핑되어 채널 전체에 걸리는 전기장이 재분배된다. 제안된 n-채널 TFT는 $V_{GS}$<0, $V_{DS}$>0인 조건에서, 대부분의 전기장이 드레인 접합에 형성되는 공핍영역과, 도핑된 영역 중 소오스 쪽과 도핑되지 않은 채널 사이에 형성되는 공핍영역에 각각 나뉘어 걸린다. 기존의 다결정 실리콘 TFT와 비교할 때 드레인 접합에서 걸리는 전기장은 1/2로 감소하였고, 이에 따라 드레인 접합에서 생성되는 전자-홀 쌍도 현저히 감소하였다. 더구나 제안된 TFT의 온-전류는 기존의 TFT와 비교했을 때 거의 같거나 약간 감소하였으며 이에 따른 온/오프 전류비가 현저히 향상되었음을 실험을 통해 확인할 수 있었다.

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Analysis of Subthreshold Swing for Doping Distribution Function of Asymmetric Double Gate MOSFET (도핑분포함수에 따른 비대칭 MOSFET의 문턱전압이하 스윙 분석)

  • Jung, Hakkee
    • Journal of the Korea Institute of Information and Communication Engineering
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    • v.18 no.5
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    • pp.1143-1148
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    • 2014
  • This paper has analyzed the change of subthreshold swing for doping distribution function of asymmetric double gate(DG) MOSFET. The basic factors to determine the characteristics of DGMOSFET are dimensions of channel, i.e. channel length and channel thickness, and doping distribution function. The doping distributions are determined by ion implantation used for channel doping, and follow Gaussian distribution function. Gaussian function has been used as carrier distribution in solving the Poisson's equation. Since the Gaussian function is exactly not symmetric for top and bottome gates, the subthreshold swings are greatly changed for channel length and thickness, and the voltages of top and bottom gates for asymmetric double gate MOSFET. The deviation of subthreshold swings has been investigated for parameters of Gaussian distribution function such as projected range and standard projected deviation in this paper. As a result, we know the subthreshold swing is greatly changed for doping profiles and bias voltage.

Analysis of Subthreshold Current Deviation for Channel Doping of Double Gate MOSFET (이중게이트 MOSFET의 채널도핑에 다른 문턱전압이하 전류 변화 분석)

  • Jung, Hakkee
    • Journal of the Korea Institute of Information and Communication Engineering
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    • v.17 no.6
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    • pp.1409-1413
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    • 2013
  • This paper analyzed the change of subthreshold current for channel doping concentration of double gate(DG) MOSFET. Poisson's equation had been used to analyze the potential distribution in channel, and Gaussian function had been used as carrier distribution. The potential distribution was obtained as the analytical function of channel dimension, using the boundary condition. The subthreshold current had been analyzed for channel doping concentration, and projected range and standard projected deviation of Gaussian function. Since this analytical potential model was verified in the previous papers, we used this model to analyze the subthreshold current. As a result, we know the subthreshold current was influenced on parameters of Gaussian function and channel doping concentration for DGMOSFET.

Channel Doping Concentration Dependent Threshold Voltage Movement of Asymmetric Double Gate MOSFET (비대칭 이중게이트 MOSFET의 도핑농도에 대한 문턱전압이동)

  • Jung, Hakkee
    • Journal of the Korea Institute of Information and Communication Engineering
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    • v.18 no.9
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    • pp.2183-2188
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    • 2014
  • This paper has analyzed threshold voltage movement for channel doping concentration of asymmetric double gate(DG) MOSFET. The asymmetric DGMOSFET is generally fabricated with low doping channel and fully depleted under operation. Since impurity scattering is lessened, asymmetric DGMOSFET has the adventage that high speed operation is possible. The threshold voltage movement, one of short channel effects necessarily occurred in fine devices, is investigated for the change of channel doping concentration in asymmetric DGMOSFET. The analytical potential distribution of series form is derived from Possion's equation to obtain threshold voltage. The movement of threshold voltage is investigated for channel doping concentration with parameters of channel length, channel thickness, oxide thickness, and doping profiles. As a result, threshold voltage increases with increase of doping concentration, and that decreases with decrease of channel length. Threshold voltage increases with decrease of channel thickness and bottom gate voltage. Lastly threshold voltage increases with decrease of oxide thickness.

Drain Induced Barrier Lowering of Asymmetric Double Gate MOSFET for Channel Doping Profile (비대칭 DGMOSFET의 도핑분포함수에 따른 DIBL)

  • Jung, Hakkee
    • Journal of the Korea Institute of Information and Communication Engineering
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    • v.19 no.11
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    • pp.2643-2648
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    • 2015
  • This paper analyzes the phenomenon of drain induced barrier lowering(DIBL) for doping profiles in channel of asymmetric double gate(DG) MOSFET. The DIBL, the important short channel effect, is described as lowering of source barrier height by drain voltage. The analytical potential distribution is derived from Poisson's equation to analyze the DIBL, and the DIBL is observed according to the change of doping profile to influence on potential distribution. As a results, the DIBL is significantly influenced by projected range and standard projected deviation, the variables of channel doping profiles. The change of DIBL shows greatly in the range of high doping concentration such as $10^{18}/cm^3$. The DIBL increases with decrease of channel length and increase of channel thickness, and with increase of bottom gate voltage and top/bottom gate oxide film thickness.

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.

Relation of Conduction Path and Subthreshold Swing for Doping Profile of Asymmetric Double Gate MOSFET (비대칭 DGMOSFET의 도핑분포함수에 따른 전도중심과 문턱전압이하 스윙의 관계)

  • Jung, Hakkee
    • Journal of the Korea Institute of Information and Communication Engineering
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    • v.18 no.8
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    • pp.1925-1930
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    • 2014
  • This paper has analyzed the relation of conduction path and subthreshold swing for doping profile in channel of asymmetric double gate(DG) MOSFET. Since the channel size of asymmetric DGMOSFET is greatly small and number of impurity is few, the high doping channel is analyzed. The analytical potential distribution is derived from Possion's equation, and Gaussian distribution function is used as doping profile. The conduction path and subthreshold swing are derived from this analytical potential distribution, and those are investigated for variables of doping profile, projected range and standard projected deviation, according to the change of channel length and thickness. As a result, subthreshold swing is reduced when conduction path is approaching to top gate, and that is increased with a decrease of channel length and a increase of channel thickness due to short channel effects.