• 제목/요약/키워드: Magnetic Sensors

검색결과 563건 처리시간 0.023초

자성 나노바이오센서 기술 (Magnetic Nano-biosensor Technology)

  • 이정록
    • 진공이야기
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    • 제5권1호
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    • pp.4-8
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    • 2018
  • Many devices based on magnetism such as power generators and motors are frequently used in real life. Magnetic materials at nano-scale can be utilized as storage devices such as magnetic tapes and hard disk drives as well as spintronics. In addition to spintronics, magnetic biosensors are another interesting application of magnetic devices at nano-scale. Here, we briefly review magnetic nano-biosensors including Hall-effect sensors, giant magnetoresistive sensors, and tunnel magnetoresistive sensors for many biomedical applications.

Magnetic Sensors and Actuators

  • Pasquale, M.
    • Journal of Magnetics
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    • 제8권1호
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    • pp.60-69
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    • 2003
  • A review of mechanical sensing techniques based on magnetic methods is presented, with special reference to magnetoelastic strain gauges and force sensors. A novel strain sensor based on soft amorphous ribbons is described. Other types of magnetic sensors, for the measurement of torque and displacement are briefly discussed. An overview of magnetic actuators based on giant magnetostrictive materials, with some practical examples, is presented. Recent advances in the development and application of magnetic shape memory materials are discussed, together with the analysis of recent studies for the description of magnetic shape memory phenomena.

자기 메카트로닉스 : 차세대 의공학 및 재활 기기 개발을 위한 센서와 액추에이터의 새로운 접근방법 (Magneto-Mechatronics : A New Approach to Sensors and Actuators for Next-Generation Biomedical and Rehabilitation Devices)

  • 유창호;김성훈
    • 재활복지공학회논문지
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    • 제10권3호
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    • pp.229-236
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    • 2016
  • 자기 센서와 액추에이터는 산업과 의료 분야에서 광범위하게 사용되고 있다. 센서와 액추에이터의 기반의 통합시스템은 기계 및 전자 기기들의 일반적인 조합으로써 메카트로닉스로 정의된다. 최근에 자기 무선 센서와 액추에이터가 개발되어지고, 다양한 분야에서 사용되고 있다. 특히 이 메커니즘은 자성 물질 및 물리적 현상에 관한 것으로 자기의 세기의 따라 달라진다. 그러나 이들 연구의 경계는 명확하지 않다. 따라서, 자기 마이크로 로봇, 자기액추에이터 및 센서들을 포함한 새롭고 정확한 정의가 필요하다. 본 연구에서는 의공학 및 재활을 위한 자기 메카트로닉스의 진보되고 확장된 개념을 혈관 재활을 위한 무선 펌프 시스템과 모션 감지 시스템을 중심으로 소개하고자 한다.

The latest trend in magnetocardiogram measurement system technology

  • Lee, Y.H.;Kwon, H.;Kim, J.M.;Yu, K.K.
    • 한국초전도ㆍ저온공학회논문지
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    • 제22권4호
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    • pp.1-5
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    • 2020
  • Heart consists of myocardium cells and the electrophysiological activity of the cells generate magnetic fields. By measuring this magnetic field, magnetocardiogram (MCG), functional diagnosis of the heart diseases is possible. Since the strength of the MCG signals is weak, typically in the range of 1-10 pT, we need sensitive magnetic sensors. Conventionally, superconducting quantum interference devices (SQUID)s were used for the detection of MCG signals due to its superior sensitivity to other magnetic sensors. However, drawback of the SQUID is the need for regular refill of a cryogenic liquid, typically liquid helium for cooling low-temperature SQUIDs. Efforts to eliminate the need for the refill in the SQUID system have been done by using cryocooler-based conduction cooling or use of non-cryogenic sensors, or room-temperature sensors. Each sensor has advantage and disadvantage, in terms of magnetic field sensitivity and complexity of the system, and we review the recent trend of MCG technology.

Position Recognition System for Autonomous Vehicle Using the Symmetric Magnetic Field

  • Kim, Eun-Ju;Kim, Eui-Sun;Lim, Young-Cheol
    • 센서학회지
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    • 제22권2호
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    • pp.111-117
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    • 2013
  • The autonomous driving method using magnetic sensors recognizes the position by measuring magnetic fields in autonomous robots or vehicles after installing magnetic markers in a moving path. The Position estimate method using magnetic sensors has an advantage of being affected less by variation of driving environment such as oil, water and dust due to the use of magnetic field. It also has the advantages that we can use the magnet as an indicator and there is no consideration for power and communication environment. In this paper, we propose an efficient sensor system for an autonomous driving vehicle supplemented for existing disadvantage. In order to efficiently eliminate geomagnetism, we analyze the components of the horizontal and vertical magnetic field. We propose an algorithm for position estimation and geomagnetic elimination to ease analysis, and also propose an initialization method for sensor applied in the vehicle. We measured and analyzed the developed system in various environments, and we verify the advantages of proposed methods.

Fabrication and statistical characterization of Nb SQUID sensors for multichannel SQUID system

  • Kim, B.K.;Yu, K.K.;Kim, J.M.;Kwon, H.;Lee, S.K.;Lee, Y.H.
    • 한국초전도ㆍ저온공학회논문지
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    • 제22권4호
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    • pp.62-66
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    • 2020
  • We fabricated superconducting quantum interference devices (SQUIDs) based on Nb Josephson junctions, and characterized the key parameters of the SQUIDs. The SQUIDs are double relaxation oscillation SQUIDs (DROSs) having larger flux-to-voltage transfer coefficient than the standard DC-SQUIDs. SQUID sensors were fabricated by using Nb junction technology consisted of a DC magnetron sputtering and a conventional photolithography process. In multichannel SQUID systems for whole-head magnetoencephalography measurement with a helmet-type SQUID array, we need about 336 SQUID sensors for each system. In this paper, we fabricated a few hundred SQUID sensors, measured the critical current, flux modulation voltage and decided if each tested SQUID can be used for the multichannel systems. As the criterion for the acceptance of the sensors, we chose the critical current and amplitude of the modulation voltage to be 8 ㎂ and 80 ㎶, respectively. The average critical current of the SQUIDs was 10.58 ㎂. The typical flux noise of the SQUIDs with input coil shorted was 2 μΦ0/√Hz at white region.

자기센서를 이용한 위치추정 정밀도 향상 방안에 관한 연구 (A Study on the Method for Improving the Localization Accuracy using the Magnetic Sensors)

  • 김정태;김무선;홍재성
    • 한국정밀공학회지
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    • 제31권2호
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    • pp.133-139
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    • 2014
  • Magnetic Sensors can be employed to localize the unmanned vehicle which is running a predefined path where magnets are embedded for certain spaces. Among various sensor types, sensor arrays of 1-dimensional magnetic sensor have the merit of easy elimination of external magnetic component such as terrestrial magnetism. However, interpolation should be considered in the array sensors in order to increase the precision level because there is a limit in arranging sensors in close interval. We propose the novel interpolation method which can be performed with simple computation and represents the improved accuracy by increasing the linearity of the interaction formula. Demonstration of the linearity and simulation results show the proposed method exhibits the improved accuracy compared to the conventional method.

국방 자기분야 연구를 위한 국방과학연구소 시험시설 (ADD's Test Facilities for National Defense Magnetic Research)

  • 양창섭;정현주;정우진
    • 한국자기학회지
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    • 제24권4호
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    • pp.114-122
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    • 2014
  • 국방과학연구소는 수중 자기 스텔스 분야의 핵심기술 개발, 자기응용 무기체계 연구 및 국방 자기분야의 대군 기술지원 업무 수행을 위해 1990년대 이후로 비자성 실험실과 자기센서 실험실을 운용 중에 있다. 최근 실험실내 주요 시험 장비의 성능을 개량하여 자기 표적에 대한 정밀 측정 및 분석 능력을 향상시켰으며, 무기체계에 적용하기 위한 자기센서들에 대한 정밀 시험 평가 능력을 확보하였다. 본 논문에서는 국방과학연구소 자기 시험 시설의 현황 및 시험 능력에 대해 상세히 기술하고자 한다.

PMN-PZT/Ni 자기-전기 복합체에서 단결정 압전 모드에 따른 자기장 감도 특성 (Magnetic-field Sensitivity of PMN-PZT/Ni Magnetoelectric Composite with Piezoelectric Single Crystal Mode Changes)

  • 박소정;;류정호
    • 센서학회지
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    • 제29권1호
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    • pp.45-50
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    • 2020
  • Magnetoelectric (ME) composites were designed using the PMN-PZT single crystal and Ni foils; the properties and magnetic-field sensitivities of ME composites with different piezoelectric vibration modes (i.e., 31, 32, and 36 modes that depend on the crystal orientation of the single crystal) were compared. In the off-resonance condition, the ME coupling properties of the ME composites with the 32 and 36 piezoelectric vibration modes were better than those of the ME composites with the 31 piezoelectric vibration mode. However, in the resonance condition, the ME coupling properties of the ME composites were almost similar, irrespective of the piezoelectric vibration mode. Additionally, in the off-resonance condition (at 1 kHz), the magnetic-field sensitivity of the ME composites with the 36 piezoelectric vibration mode was up to 2 nT and those of the ME composites with the 31 and 32 piezoelectric vibration modes were up to 5 nT. These magnetic-field sensitivities are similar to those offered by conventional high-sensitivity magnetic-field sensors; the potential of the proposed sensor to replace costly and bulky high-sensitivity magnetic field sensors is significant.

System Requirement Review of Lunar Surface magnetometer on the CLPS program

  • Jin, Ho;Kim, Khan-Hyuk;Lee, Seongwhan;Lee, Hyojeong;Seon, Daerac;Jung, Byungwook;Jang, Yunho;Park, Hyeonhu
    • 천문학회보
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    • 제45권1호
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    • pp.40.1-40.1
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    • 2020
  • The Korea Astronomy and Space Science Institute is participating as a South Korean partner in the Commercial Lunar Payload Services (CLPS)of NASA. In response, the Korea Astronomy and Space Science Institute is currently conducting basic research for the development of four candidate instrument payloads. The magnetic field instrument is one of them and it's scientific mission objective is the moon's surface magnetic field investigation. Therefore, the development requirement of the lunar surface magnetic field instrument were derived and the initial conceptual design was started. The magnetic field instrument has a 1.2 meter boom which has two three-axis fluxgate magnetometer sensors and one gyro sensor to get a attitude information of the boom. The concept of measuring the lunar surface magnetic field will carry out using multiple sensors by placing semiconductor type magnetic field sensors inside the electric box including boom mounted fluxgate sensors. In order to overcome the very short development period, we will use the KPLO (Korean Lunar Pathfinder Orbiter) magnetometer design and parts to improve reliabilities for this instrument. In this presentation, we introduce the instrument requirements and conceptual design for the Lunar surface magnetic field instruments.

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