• Title/Summary/Keyword: Magnetization Loss

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Energy Loss Measurement of Non-oriented Electrical Steel Sheets Under Rotational Magnetization (회전자화에 의한 무방향성 전기강판의 철손측정)

  • Son, D.;Kum, Chae
    • Journal of the Korean Magnetics Society
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    • v.10 no.4
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    • pp.178-182
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    • 2000
  • We have constructed a rotational loss measuring system which consists of two yoke system for rotational magnetization and 4-channel transient recording system for Hx, Hy, Bx and By measurements. Using the constructed measuring system, we have mesaured rotational energy loss for non-oriented electrical steel sheets. Rotational energy loss was depending on the angle between B-search coil and H-search coil, and the direction of rotation (clockwise and counter clockwise). The average of the rotational energy losses under clockwise and counter clockwise was independent of the angle between B-search coil and H-search coil, and we could improve measuring uncertainty using the averaged rotational energy losses.

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Evaluation of Microstructures and Mechanical Property of Variously Heat Treated 0.85% Carbon Steel by Magnetic Method (자기적 방법에 의한 0.85% 탄소강의 열처리에 따른 미세조직 및 기계적 성질 평가)

  • Byeon, Jai-Won;Kwun, S.I.
    • Korean Journal of Materials Research
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    • v.13 no.2
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    • pp.81-87
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    • 2003
  • Microstructures and mechanical properties of variously heat treated 0.85% carbon steel(eutectoid steel) were evaluated by magnetic property measurements. Microstructural analysis (pearlite interstellar spacing), measurement of mechanical properties(Rockwell hardness, yield stress, fracture stress) and magnetic properties(coercivity, remanence, hysteresis loss, saturation magnetization) were performed to clarify mutual relationships among these parameters. Water quenched specimens with martensite structure showed much higher coercivity and remanence than air cooled or furnace cooled specimens with pearlite structure. The linear dependence of coercivity and remanence on pearlite interlamellar spacing as well as on Rockwell hardness, yield stress and fracture stress was observed in the pearlitic steel. Hysteresis loss and saturation magnetization showed no distinct trend with pearlite interlamellar spacing.

Magnetization loss characteristics at arbitrary directional magnetic field by perpendicular magnetization loss in YBCO CC stacked conductors (YBCO CC 적층선재의 수직자화 손실 값을 이용한 임의 방향 자화손실 평가)

  • Lee, Ji-Kwang;Lim, Hyoung-Woo;Cha, Guee-Soo;Park, Myung-Jin
    • Proceedings of the KIEE Conference
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    • 2006.07b
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    • pp.655-656
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    • 2006
  • 대부분의 초전도 전력기기의 경우, 초전도 테이프를 솔레노이드나, 팬케�� 형태로 권선해서 사용하게 되고, 이러한 경우에는 권선을 구성하는 테이프들에 흐르는 전류에 의해 발생하는 자계는 권선내의 각각의 테이프에 임의 방향의 외부 인가자계로 작용하여 자화손실을 발생시키므로 초전도 코일에서의 교류손실을 평가하고 예측하기 위해서는 임의방향 자장에 의한 자화손실에 대한 데이터가 필요하다. 수직 자화손실에 대한 측정값으로서 임의방향 자장에 의한 자화손실을 알 수 있다면 코일의 교류손실 평가는 훨씬 쉽게 접근할 수 있을 것이다. 본 논문에서는 측정된 자화손실 값들로부터 각 방향 인가자장에 의한 자화손실과 인가된 자장을 분리하여 수직방향 및 수평방향 성분에 의한 자화손실 측정값의 합과 비교하여 각도별로 두 자화손실의 차이를 살펴보았다.

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AC Loss Characteristics of Stacked BSCCO-2223 Tapes by Using Magnetization Method (자화법을 이용한 적층된 BSCCO-2223 교류손실 특성의 해석)

  • Kang, Hyoung-Ku;Nah, Wan-Soo;Joo, Jin-Ho;Yoo, Jai-Moo;Kim, Kye-Soo
    • Proceedings of the KIEE Conference
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    • 1999.07a
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    • pp.262-264
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    • 1999
  • The AC losses of BSCCO-2223 multifilamentary superconducting tapes were measured using magnetization method and compared with the results of theoretically calculated values. In general, AC losses in multifilamentary superconducting tapes could be quantitatively explained by the simple sum of the Hysteresis and Coupling Loss. As a result of experiment, We found that AC losses of multifilamentary superconducting tape increase rapidly in large magnetic field region.

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Estimation of magnetization loss st arbitrary directional magnetic field by perpendicular magnetization loss in BSCCO tapes (BSCCO 선재의 수직방향 자장에 의한 자화손실 값을 이용한 임의방향 자장에 의한 자화손실 평가)

  • Lee, Ji-Kwang;Park, Myung-Jin;Lim, Hyoung-Woo;Cha, Guee-Soo
    • Proceedings of the KIEE Conference
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    • 2005.07b
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    • pp.1101-1103
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    • 2005
  • 초전도 전력기기에서는 선재를 이용하여 권선한 코일 형태로 적용되므로 코일을 구성하는 각각의 초전도 선재에서는 코일 여자시 임의 방향의 자장이 발생한다. 초전도 코일에서 발생하는 주 교류손실인 자화손실을 예측하기 위해서는 임의 방향 외부자장에 의한 초전도 선재의 자화손실을 알아야 한다. 본 논문에서는 BSCCO선재에서 측정된 임의방향 자장에 의한 자화손실과 수직방향 자장에 의한 자화손실값을 이용하여 초전도 선재에서 자화손실의 자장방향 의존성 및 임의 각도의 인가자장에 의한 자화손실 예측방법을 살펴보았다.

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Mossbauer Study of nano-sized (Li_{0.5x}Fe_{0.5x}Zn_{1-x})Fe_2O_4$ particles

  • J. C. Sur;Kim, T. S.;T. Y. Ha;Lee, J. K.;S. H. Gee;Y. K. Hong;Park, M. H.;D. W. Erickson;P. J. Lamb
    • Proceedings of the Korean Magnestics Society Conference
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    • 2002.12a
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    • pp.92-93
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    • 2002
  • The substituted lithium ferrites combine useful ferromagnetic properties with high Curie temperature ranging from 55$0^{\circ}C$ to 85$0^{\circ}C$, [1] high saturation magnetization, [2] and low microwave dielectric loss.[3] Saturation magnetization of (Z $n_{1-x}$ F $e_{x}$)A[L $i_{0.5x}$F $e_{ 2-0.5x}$]$_{B}$ $O_4$ increased with zinc concentration, followed by a decrease at x = 0.7.[4] This is attributed to a dilution of the A-site with zinc which initially causes an increase in saturation magnetization due to the dominance of the B-site. (omitted)d))d)d))

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Modified Current Differential Relay for Transformer Protection Unaffected by Remanent flux (잔류자속에 무관한 변압기 보호용 수정전류차동 계전기)

  • 강용철;김은숙
    • The Transactions of the Korean Institute of Electrical Engineers A
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    • v.53 no.9
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    • pp.500-506
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    • 2004
  • This paper proposes a modified current differential relay for transformer protection unaffected by the remanent flux. The relay uses the same restraining current as a conventional relay, but the differential current is modified to compensate for the effects of the exciting current. To cope with the remanent flux, before saturation, the relay calculates the core-loss current and uses it to modify the measured differential current. When the core then enters saturation, the initial value of the flux is obtained by inserting the modified differential current at the start of saturation into the magnetization cure. Thereafter, the actual core flux is then derived and used in conjunction with the magnetization curve to calculate the magnetizing current. A modified differential current is then derived that compensates for the core-loss and magnetizing currents. The performance of the proposed differential relay was compared against a conventional differential relay. Results indicate that the modified relay remained stable during severe magnetic inrush and over-excitation because the exciting current was successfully compensated. This paper concludes by implementing the relay on a hardware platform based on a digital signal processor. The relay discriminates magnetic inrush and over-excitation from an internal fault and is not affected by the level of remanent flux.

Analysis of AC Losses in HTS Transformer with Double Pancake Windings (초전도 변압기 교류 손실 해석)

  • Kim Jong-Tae;Kim Woo-Seok;Kim Sung-Hoon;Choi Kyeong-Dal;Joo Hyeong-Gil;Hong Gye-Won;Han Jin-Ho;Lee Hee-Gyoun
    • Proceedings of the KIEE Conference
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    • summer
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    • pp.812-814
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    • 2004
  • AC loss is one of the important parameters in (High Temperature Superconducting)HTS AC devices. Among the HTS AC power devices, the transformer is the essential part in the electrical power system. But unfortunately, the transformer is the worst HTS device concerning AC loss because of very large magnetization loss due to high magnetic field applied to the HTS wire. We calculated the magnetization losses in HTS pancake windings for transformer according to the operating temperature. Two kinds of arrangement of HTS pancake windings were adopted for calculation of AC losses of a shell type transformer, and the analysis results were presented and discussed.

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A Modified Current Differential Relaying Algorithm for Transformer Protection Considered by a Remanent Flux (잔류자속을 고려한 변압기 보호용 수정 전류차동 계전방식)

  • Kang, Y.C.;Jin, E.S.;Won, S.H.;Lim, U.J.;Kang, S.H.
    • Proceedings of the KIEE Conference
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    • 2003.11a
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    • pp.262-265
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    • 2003
  • During magnetic inrush or over-excitation saturation of the core in a transformer draws a large exciting current. This can cause mal-operation of a differential relay. This paper proposes a modified current differential relay for transformer protection. In order to cope with the remanent flux at the beginning. the start of saturation of the core is detected and the core flux at the instant is estimated by inserting the differential current into a magnetization curve. Then, this core flux value can be used to calculate the core flux. The proposed relay calculates the core-loss current from the induced voltage and the core-loss resistance; the relay calculates the magnetizing current from the core flux and the magnetization curve. Finally, the relay obtains the modified differential current by subtracting the core-loss current and the magnetizing current from the conventional differential current. The proposed technique not only discriminates magnetic inrush and over-excitation from an internal fault, but also improves the speed of the conventional relay.

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Machine-Learning Based Optimal Design of A Large-leakage High-frequency Transformer for DAB Converters (누설 인덕턴스를 포함한 DAB 컨버터용 고주파 변압기의 머신러닝 활용한 최적 설계)

  • Eunchong, Noh;Kildong, Kim;Seung-Hwan, Lee
    • The Transactions of the Korean Institute of Power Electronics
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    • v.27 no.6
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    • pp.507-514
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    • 2022
  • This study proposes an optimal design process for a high-frequency transformer that has a large leakage inductance for dual-active-bridge converters. Notably, conventional design processes have large errors in designing leakage transformers because mathematically modeling the leakage inductance of such transformers is difficult. In this work, the geometric parameters of a shell-type transformer are identified, and finite element analysis(FEA) simulation is performed to determine the magnetization inductance, leakage inductance, and copper loss of various shapes of shell-type transformers. Regression models for magnetization and leakage inductances and copper loss are established using the simulation results and the machine learning technique. In addition, to improve the regression models' performance, the regression models are tuned by adding featured parameters that consider the physical characteristics of the transformer. With the regression models, optimal high-frequency transformer designs and the Pareto front (in terms of volume and loss) are determined using NSGA-II. In the Pareto front, a desirable optimal design is selected and verified by FEA simulation and experimentation. The simulated and measured leakage inductances of the selected design match well, and this result shows the validity of the proposed design process.