• Title/Summary/Keyword: Double Snapback

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Determination of optimal ion implantation conditions to prevent double snapback of high voltage operating DDDNMOS device for ESD protection (고전압 정전기 보호용 DDDNMOS 소자의 더블 스냅백 방지를 위한 최적의 이온주입 조건 결정)

  • Seo, Yong-Jin
    • Journal of IKEEE
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    • v.26 no.3
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    • pp.333-340
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    • 2022
  • Process and device simulations were performed to determine the optimal ion implantation conditions to prevent double snapback of high voltage operating DDDNMOS (double diffused drain N-type MOSFET) device for ESD protection. By examining the effects of HP-Well, N- drift and N+ drain ion implantation on the double snapback and avalanche breakdown voltages, it was possible to prevent double snapback and improve the electrostatic protection performance. If the ion implantation concentration of the N- drift region rather than the HP-Well region is optimally designed, it prevents the transition from the primary on-state to the secondary on-state, so that relatively good ESD protection performance can be obtained. Since the concentration of the N- drift region affects the leakage current and the avalanche breakdown voltage, in the case of a process technology with an operating voltage greater than 30V, a new structure such as DPS or colligation of optimal process conditions can be applied. In this case, improved ESD protection performance can be realized.

High Current Behavior and Double Snapback Mechanism Analysis of Gate Grounded Extended Drain NMOS Device for ESD Protection Device Application of DDIC Chip (DDIC 칩의 정전기 보호 소자로 적용되는 GG_EDNMOS 소자의 고전류 특성 및 더블 스냅백 메커니즘 분석)

  • Yang, Jun-Won;Kim, Hyung-Ho;Seo, Yong-Jin
    • Journal of Satellite, Information and Communications
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    • v.8 no.2
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    • pp.36-43
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    • 2013
  • In this study, the high current behaviors and double snapback mechanism of gate grounded_extended drain n-type MOSFET(GG_EDNMOS) device were analyzed in order to realize the robust electrostatic discharge(ESD) protection performances of high voltage operating display driver IC(DDIC) chips. Both the transmission line pulse(TLP) data and the thermal incorporated 2-dimensional simulation analysis as a function of ion implant conditions demonstrate a characteristic double snapback phenomenon after triggering of bipolar junction transistor(BJT) operation. Also, the background carrier density is proven to be a critical factor to affect the high current behavior of the GG_EDNMOS devices.

Improvements of Extended Drain NMOS (EDNMOS) Device for Electrostatic Discharge (ESD) Protection of High Voltage Operating LDI Chip (고전압용 LDI 칩의 정전기 보호를 위한 EDNMOS 소자의 특성 개선)

  • Yang, Jun-Won;Seo, Yong-Jin
    • Journal of Satellite, Information and Communications
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    • v.7 no.2
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    • pp.18-24
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    • 2012
  • High current behaviors of the extended drain n-type metal-oxide-semiconductor field effects transistor (EDNMOSFET) for electrostatic discharge (ESD) protection of high voltage operating LDI (LCD Driver IC) chip are analyzed. Both the transmission line pulse (TLP) data and the thermal incorporated 2-dimensional simulation analysis demonstrate a characteristic double snapback phenomenon after triggering of biploar junction transistor (BJT) operation. Also, background doping concentration (BDC) is proven to be a critical factor to affect the high current behavior of the EDNMOS devices. The EDNMOS device with low BDC suffers from strong snapback in the high current region, which results in poor ESD protection performance and high latchup risk. However, the strong snapback can be avoided in the EDNMOS device with high BDC. This implies that both the good ESD protection performance and the latchup immunity can be realized in terms of the EDNMOS by properly controlling its BDC.

Characteristics of Double Polarity Source-Grounded Gate-Extended Drain NMOS Device for Electro-Static Discharge Protection of High Voltage Operating Microchip (마이크로 칩의 정전기 방지를 위한 DPS-GG-EDNMOS 소자의 특성)

  • Seo, Yong-Jin;Kim, Kil-Ho;Lee, Woo-Sun
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2006.06a
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    • pp.97-98
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    • 2006
  • High current behaviors of the grounded gate extended drain N-type metal-oxide-semiconductor field effects transistor (GG_EDNMOS) electro-static discharge (ESD) protection devices are analyzed. Simulation based contour analyses reveal that combination of BJT operation and deep electron channeling induced by high electron injection gives rise to the 2-nd on-state. Thus, the deep electron channel formation needs to be prevented in order to realize stable and robust ESD protection performance. Based on our analyses, general methodology to avoid the double snapback and to realize stable ESD protection is to be discussed.

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Improvement of ESD Protection Performance of High Voltage Operating EDNMOS Device with Double Polarity Source (DPS) Structure (DPS(Double Polarity Source) 구조를 갖는 고전압 동작용 EDNMOS 소자의 정전기 보호 성능 개선)

  • Seo, Yong-Jin;Yang, Jun-Won
    • Journal of Satellite, Information and Communications
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    • v.9 no.2
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    • pp.12-17
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    • 2014
  • In this paper, modified EDNMOS device with DPS (double polarity source) structure are suggested to realize stable and robust ESD (electrostatic discharge) protection performance of high voltage operating microchip. This DPS structure inserts the P+ diffusion layer on N+ source side, which in intended to block lateral extension of the electron rich region from N+ source side. Based on our simulation results, the inserted P+ diffusion layer effectively prevents the formation of deep electron channeling induced by high electron injection. As a result, our proposed DPS_EDNMOS devices could overcome the double snapback effect of conventional Std_EDNMOS device.

Design of ESD Protection Circuit with improved Snapback characteristics Using Stack Structure (스텍 구조를 이용한 향상된 스냅백 특성을 갖는 ESD 보호회로 설계)

  • Song, Bo-Bae;Lee, Jea-Hack;Kim, Byung-Soo;Kim, Dong-Sun;Hwang, Tae-Ho
    • Journal of IKEEE
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    • v.25 no.2
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    • pp.280-284
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    • 2021
  • In this paper, a new ESD protection circuit is proposed to improve the snapback characteristics. The proposed a new structure ESD protection circuit applying the conventional SCR structural change and stack structure. The electrical characteristics of the structure using penta-well and double trigger were analyzed, and the trigger voltage and holding voltage were improved by applying the stack structure. The electron current and total current flow were analyzed through the TCAD simulation. The characteristics of the latch-up immunity and excellent snapback characteristics were confirmed. The electrical characteristics of the proposed ESD protection circuit were analyzed through HBM modeling after forming a structure through TCAD simulator.

Simulation-based ESD protection performance of modified DDD_NSCR device with counter pocket source structure for high voltage operating I/O application (고전압 동작용 I/O 응용을 위해 Counter Pocket Source 구조를 갖도록 변형된 DDD_NSCR 소자의 ESD 보호성능 시뮬레이션)

  • Seo, Yong-Jin;Yang, Jun-Won
    • Journal of Satellite, Information and Communications
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    • v.11 no.4
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    • pp.27-32
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    • 2016
  • A conventional double diffused drain n-type MOSFET (DDD_NMOS) device shows SCR behaviors with very low snapback holding voltage and latch-up problem during normal operation. However, a modified DDD_NMOS-based silicon controlled rectifier (DDD_NSCR_CPS) device with a counter pocket source (CPS) structure is proven to increase the snapback holding voltage and on-resistance compare to standard DDD_NSCR device, realizing an excellent electrostatic discharge protection performance and the stable latch-up immunity.

Characteristics of Extended Drain N-type MOSFET with Double Polarity Source for Electrostatic Discharge Protection (정전기 보호를 위한 이중 극성소스를 갖는 EDNMOS 소자의 특성)

  • Seo, Yong-Jin;Kim, Kil-Ho;Park, Sung-Woo;Lee, Sung-Il;Han, Sang-Jun;Han, Sung-Min;Lee, Young-Keun;Lee, Woo-Sun
    • Proceedings of the KIEE Conference
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    • 2006.10a
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    • pp.97-98
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    • 2006
  • High current behaviors of extended drain n-type metal-oxide-semiconductor field effects transistor (EDNMOS) with double polarity source (DPS) for electrostatic discharge (ESD) protection are analyzed. Simulation based contour analyses reveal that combination of bipolar junction transistor operation and deep electron channeling induced by high electron injection gives rise to the second on-state. Therefore, the deep electron channel formation needs to be prevented in order to realize stable and robust ESD protection performance. Based on our analyses, general methodology to avoid the double snapback and to realize stable ESD protection is to be discussed.

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Design of a Gate-VDD Drain-Extended PMOS ESD Power Clamp for Smart Power ICs (Smart Power IC를 위한 Gate-VDD Drain-Extened PMOS ESD 보호회로 설계)

  • Park, Jae-Young;Kim, Dong-Jun;Park, Sang-Gyu
    • Journal of the Institute of Electronics Engineers of Korea SD
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    • v.45 no.10
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    • pp.1-6
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    • 2008
  • The holding voltage of the high-voltage MOSFETs in snapback condition is much smaller than the power supply voltage. Such characteristics may cause the latcup-like problems in the Smart Power ICs if these devices are directly used in the ESD (Electrostatic Discharge) power clamp. In this work, a latchup-free design based on the Drain-Extended PMOS (DEPMOS) adopting gate VDD structure is proposed. The operation region of the proposed gate-VDD DEPMOS ESD power clamp is below the onset of the snapback to avoid the danger of latch-up. From the measurement on the devices fabricated using a $0.35\;{\mu}m$ BCD (Bipolar-CMOS-DMOS) Process (60V), it was observed that the proposed ESD power clamp can provide 500% higher ESD robustness per silicon area as compared to the conventional clamps with gate-driven LDMOS (lateral double-diffused MOS).