이승훈 scite author profile

In this paper, an NMOS-diode eFuse OTP (One-Time Programmable) memory cell is proposed using a parasitic junction diode formed between a PW (P-Well), a body of an isolated NMOS (N-channel MOSFET) transistor with the small channel width, and an n+ diffusion, a source node, in a DNW (Deep N-Well) instead of an NMOS transistor with the big channel width as a program select device. Blowing of the proposed cell is done through the parasitic junction formed in the NMOS transistor in the program mode. Sensing failures of '0' data are removed because of removed contact voltage drop of a diode since a NMOS transistor is used instead of the junction diode in the read mode. In addition, a problem of being blown for a non-blown eFuse from a read current through the corresponding eFuse OTP cell is solved by limiting the read current to less than 100㎂ since a voltage is transferred to BL by using an NMOS transistor with the small channel width in the read mode.

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Study of a Brain Tumor and Blood Vessel Detection System Using Multiple Fluorescence Imaging by a Surgical Microscope

이현민¹,

김홍래²,

윤웅배³

et al. 2015

Korean Journal of Optics and Photonics

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In this paper, we propose a microscope system for detecting both a tumor and blood vessels in brain tumor surgery as fluorescence images by using multiple light sources and a beam-splitter module. The proposed method displays fluorescent images of the tumor and blood vessels on the same display device and also provides accurate information about them to the operator.To acquire a fluorescence image, we utilized 5-ALA (5-aminolevulinic acid) for the tumor and ICG (Indocyanine green) for blood vessels, and we used a beam-splitter module combined with a microscope for simultaneous detection of both. The beam-splitter module showed the best performance at 600 nm for 5-ALA and above 800 nm for ICG. The beam-splitter is flexible to enable diverse objective setups and designed to mount a filter easily, so beam-splitter and filter can be changed as needed, and other fluorescent dyes besides 5-ALA and ICG are available. The fluorescent images of the tumor and the blood vessels can be displayed on the same monitor through the beam-splitter module with a CCD camera. For ICG, a CCD that can detect the near-infrared region is needed. This system provides the acquired fluorescent image to an operator in real time, matching it to the original image through a similarity transform.

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The comparison of the structural, magnetic, electronic, and optical properties for ZnCoO and Co-precipitation samples

Kim¹,

조용찬²,

Kim³

et al. 2010

J. Korean Phy. Soc.

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이승훈

Study on Improvement of Etch Rate and SiO2 Regrowth in High Selectivity Phosphoric Acid Process

A study on the structural relationships among GWP organizational culture, organizational commitment, job satisfaction, and organizational loyalty in a hotel company

Design of an NMOS-Diode eFuse OTP Memory IP for CMOS Image Sensors

Study of a Brain Tumor and Blood Vessel Detection System Using Multiple Fluorescence Imaging by a Surgical Microscope

The comparison of the structural, magnetic, electronic, and optical properties for ZnCoO and Co-precipitation samples

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