• Title/Summary/Keyword: channel-hot-carrier degradation

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A Study on the Channel-Width Dependent Hot-Carrier Degradation of nMOSFET with STI (STI구조를 갖는 nMOSFET의 채널 너비에 따른 Hot-Carrier 열화 현상에 관한 연구)

  • 이성원;신형순
    • Journal of the Institute of Electronics Engineers of Korea SD
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    • v.40 no.9
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    • pp.638-643
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    • 2003
  • Channel width dependence of hot-carrier effect in nMOSFET with shallow trench isolation is analyzed. $I_{sub}$- $V_{G}$ and $\Delta$ $I_{ㅇ}$ measurement data show that MOSFETs with narrow channel-width are more susceptible to the hot-carrier degradation than MOSFETs with wide channel-width. By analysing $I_{sub}$/ $I_{D}$, linear $I_{D}$- $V_{G}$ characteristics, thicker oxide-thickness at the STI edge is identified as the reason for the channel-width dependent hot-carrier degradation. Using the charge-pumping method, $N_{it}$ generation due to the drain avalanche hot-carrier (DAHC) and channel hot-electron (CHE) stress are compared. are compared.

PMOSFET Hot Carrier Lifetime Dominated by Hot Hole Injection and Enhanced PMOSFET Degradation than NMOSFET in Nano-Scale CMOSFET Technology (PMOSFET에서 Hot Carrier Lifetime은 Hole injection에 의해 지배적이며, Nano-Scale CMOSFET에서의 NMOSFET에 비해 강화된 PMOSFET 열화 관찰)

  • 나준희;최서윤;김용구;이희덕
    • Journal of the Institute of Electronics Engineers of Korea SD
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    • v.41 no.7
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    • pp.21-29
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    • 2004
  • Hot carrier degradation characteristics of Nano-scale CMOSFETs with dual gate oxide have been analyzed in depth. It is shown that, PMOSFET lifetime dominate the device lifetime than NMOSFET In Nano-scale CMOSFETs, that is, PMOSFET lifetime under CHC (Channel Hot Carrier) stress is much lower than NMOSFET lifetime under DAHC (Dram Avalanche Hot Carrier) stress. (In case of thin MOSFET, CHC stress showed severe degradation than DAHC for PMOSFET and DAHC than CHC for NMOSFET as well known.) Therefore, the interface trap generation due to enhanced hot hole injection will become a dominant degradation factor in upcoming Nano-scale CMOSFET technology. In case of PMOSFETs, CHC shows enhanced degradation than DAHC regardless of thin and thick PMOSFETs. However, what is important is that hot hole injection rather than hot electron injection play a important role in PMOSFET degradation i.e. threshold voltage increases and saturation drain current decreases due to the hot carrier stresses for both thin and thick PMOSFET. In case of thick MOSFET, the degradation by hot carrier is confirmed using charge pumping current method. Therefore, suppression of PMOSFET hot carrier degradation or hot hole injection is highly necessary to enhance overall device lifetime or circuit lifetime in Nano-scale CMOSFET technology

Hot-carrier Induced MOSFET Degradation and its Lifetime Measurement (Hot-carrier 효과로 인한 MOSFET의 성능저하 및 동작수명 측정)

  • 김천수;김광수;김여환;김보우;이진효
    • Journal of the Korean Institute of Telematics and Electronics
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    • v.25 no.2
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    • pp.182-187
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    • 1988
  • Hot carrier induced device degradation characteristics under DC bias stress have been investigated in n-MOSFETs with channel length of 1.2,1.8 um, and compared with those of LDD structure device with same channel length. Based on these results, the device lifetime in normal operating bias(Vgs=Vds=5V) is evaluated. The lifetimes of conventional and LDD n-MOSFET with channel length of 1.2 um are estimated about for 17 days and for 12 years, respectively. The degradation rate of LDD n-MOSFET under the same stress is the lowest at n-region implnatation dose of 2.5E15 cm-\ulcorner while the substrate current is the lowest at the dose of 1E13cm-\ulcorner Thses results show that the device degradation characteristics are basic measurement parameter to find optimum process conditions in LDD devices and evaluate a reliability of sub-micron device.

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The impact of Spacer on Short Channel Effect and device degradation in Tri-Gate MOSFET (Tri-Gate MOSFET에 SPACER가 단채널 및 열화특성에 미치는 영향)

  • Baek, Gun-Woo;Jung, Sung-In;Kim, Gi-Yeon;Lee, Jae-Hun;Park, Jong-Tae
    • Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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    • 2014.10a
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    • pp.749-752
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    • 2014
  • The device performance of n-channel MuGFET with different fin width, existence of spacer and channel length has been characterized. Tri-Gate structure(fin number=10) has been used. There are four kinds of Tri-Gate with fin width=55nm with spacer, fin width=70nm with spacer, fin width=55nm without spacer, fin width=70nm without spacer. DIBL, subthreshold swing, Vt roll-off, (above Short Channel Effect)and hot carrier stress degradation have been measured. From the experiment results, short Channel Effect with spacer was decreased, hot carrier degradation with spacer and narrow fin width was decreased. Therefore, layout of LDD structure with spacer and narrow fin width is desirable in short channel effect and hot carrier degradation.

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Hot-Carrier Effects of $BF_2$ Ion-Implanted Surface-Channel LDD PMOSFET ($BF_2$ 이온 주입한 표면 채널 LDD PMOSFET의 Hot-Carrier 효과)

  • 양광선;박훈수;김봉렬
    • Journal of the Korean Institute of Telematics and Electronics A
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    • v.28A no.12
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    • pp.53-58
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    • 1991
  • Hot-carrier induced degradation has been studied for the BF$_2$ ion-implanted surface-channel LDD(P$^{+}$ polysilicon gate) PMOSFET in comparison to the buried-channel structure(N$^{+}$ polysilicon gate) PMOSFET. The conditions for maximum degradation better correlated to I$_{g}$ than I$_{sub}$ for both PMOSFET's. Due to the use of LDD structure on SC-PMOSFET, the substrate current for SC-PMOSFET was shown to be smaller than that of BC-PMOSFET. The gate current was smaller as well, due to the gate material work-function difference between p$^{+}$ and n$^{+}$ polysilicon gates. From the results, it was shown that the surface-channel LDD PMOSFET is more resistant to short channel effect than the buried-channel PMOSFET.

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Characterization of Hot Carrier Mechanism of Nano-Scale CMOSFETs (나노급 소자의 핫캐리어 특성 분석)

  • Na Jun-Hee;Choi Seo-Yun;Kim Yong-Goo;Lee Hi-Deok
    • Proceedings of the IEEK Conference
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    • 2004.06b
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    • pp.327-330
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    • 2004
  • It is shown that the hot carrier degradation due to enhanced hot holes trapping dominates PMOSFETs lifetime both in thin and thick devices. Moreover, it is found that in 0.13 ${\mu}m$ CMOSFET the PMOS lifetime under CHC (Channel Hot Carrier) stress is lower than the NMOSFET lifetime under DAHC (Drain Avalanche Hot Carrier) stress. Therefore. the interface trap generation due to enhanced hot hole injection will become a dominant degradation factor. In case of thick MOSFET, the degradation by hot carrier is confirmed using charge pumping current method and highly necessary to enhance overall device lifetime or circuit lifetime in upcoming nano-scale CMOS technology.

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Hot-Carrier-Induced Degradation in Submicron MOS Transistors (Submicron MOS 트랜지스터의 뜨거운 운반자에 의한 노쇠현상)

  • 최병진;강광남
    • Journal of the Korean Institute of Telematics and Electronics
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    • v.25 no.7
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    • pp.780-790
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    • 1988
  • We have studied the hot-carrier-induced degradation caused by the high channel electric field due to the decrease of the gate length of MOSFET used in VLSI. Under DC stress, the condition in which maximum substrate current occures gave the worst degradation. Under AC dynamic stress, other conditions, the pulse shape and the falling rate, gave enormous effects on the degradation phenomena, especially at 77K. Threshold voltage, transconductance, channel conductance and gate current were measured and compared under various stress conditions. The threshold voltage was almost completely recovered by hot-injection stress as a reverse-stress. But, the transconductance was rapidly degraded under hot-hole injection and recovered by sequential hot-electron stress. The Si-SiO2 interface state density was analyzed by a charge pumping technique and the charge pumping current showed the same trend as the threshold voltage shift in degradation process.

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Effects of Device Layout On The Performances of N-channel MuGFET (소자 레이아웃이 n-채널 MuGFET의 특성에 미치는 영향)

  • Lee, Sung-Min;Kim, Jin-Young;Yu, Chong-Gun;Park, Jong-Tae
    • Journal of the Institute of Electronics Engineers of Korea SD
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    • v.49 no.1
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    • pp.8-14
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    • 2012
  • The device performances of n-channel MuGFET with different fin numbers and fin widths but the total effective channel width is constant have been characterized. Two kinds of Pi-gate devices with fin number=16, fin width=55nm, and fin number=14, fin width=80nm have been used in characterization. The threshold voltage, effective electron mobility, threshold voltage roll-off, inverse subthreshold slope, PBTI, hot carrier degradation, and drain breakdown voltage have been characterized. From the measured results, the short channel effects have been reduced for narrow fin width and large fin numbers. PBTI degradation was more significant in devices with large fin number and narrow fin width but hot carrier degradation was similar for both devices. The drain breakdown voltage was higher for devices with narrow fin width and large fin numbers. With considering the short channel effects and device degradation, the devices with narrow fin width and large fin numbers are desirable in the device layout of MuGFETs.

Electrical instabilities in p-channel polysilicon TFTs: role of hot carrier and self-heating effects

  • Fortunato, G.;Gaucci, P.;Mariucci, L.;Pecora, A.;Valletta, A.
    • 한국정보디스플레이학회:학술대회논문집
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    • 2007.08b
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    • pp.1065-1070
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    • 2007
  • The effects of hot carriers and self-heating on the electrical stability of p-channel TFTs have been analysed combining experimental data and numerical simulations. While hot carrier effects were shown not to induce appreciable degradation, self-heating related instability was found to more seriously affect the device characteristics. New models have been developed to explain the reported results.

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Hot carrier effects and device degradation in deep submicrometer PMOSFET (Deep submicrometer PMOSFET의 hot carrier 현상과 소자 노쇠화)

  • 장성준;김용택;유종근;박종태;박병국;이종덕
    • Journal of the Korean Institute of Telematics and Electronics A
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    • v.33A no.4
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    • pp.129-135
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    • 1996
  • In this paper, the hot carrier effect and device degradation of deep submicrometer SC-PMOSFETs have been measured and characterized. It has been shown that the substrate current of a 0.15$\mu$m PMOSFET increases with increasing of impact ionization rate, and the impact ionization rate is a function of the gate length and gate bias voltage. Correlation between gate current and substrate current is investigated within the general framework of the lucky-electron. It is found that the impact ionization rate increases, but the device degradation is not serious with decreasing effective channel length. SCIHE is suggested as the possible phusical mechanism for enhanced impact ionization rate and gate current reduction. Considering the hot carrier induced device degradation, it has been found that the maximum supply voltage is about -2.6V for 0.15$\mu$m PMOSFET.

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