Journal of Information Technology Applications and Management

Korea Data Strategy Society (한국데이터전략학회)
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Economic Analysis of Optical Communication Control System in High Voltage Magnetizer

고전압 착자기에서의 누전 사고 방지를 위한 광통신 제어시스템의 도입 방안과 경제성 분석

  • Bae, Young Woo (Korea Industrial Electronics Co., Ltd.) ;
  • Kim, Wooju (Department of Industrial Engineering, Yonsei University) ;
  • Hong, June Seok (Department of Management Information Systems, Kyonggi University)
  • Received : 2018.12.16
  • Accepted : 2019.12.24
  • Published : 2019.12.31
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Abstract

Demand for high power motors is rapidly increasing as the 4th industry and convergence technology has recently emerged. In order to produce high-strength permanent magnets, the magnets used for magnetization have been increased from DC 300V in the 1970s to DC 2.5kV in the 2010s, Up to DC 10kV in the 2030s, It is expected that higher voltage will be used to magnetize. However, in the case of a magnetizer using an existing electric signal control device, it is necessary to use a control device with a high-voltage insulation function in case a high voltage used for magnetization is leaked to the control device. If a short circuit accident occurs, the controller must be shut down and serious problems such as excessive repair costs arise. In this study, a control system adopting optical communication method instead of electric signal control method is proposed to prevent leakage currents in high-voltage magnetizer. We design a transmitter(Tx) and a receiver(Rx) device for the optical communication control device and implemented a prototype connecting the optical cable. In order to demonstrate the utility of high-voltage magnetizer using the optical communication control device, we analyzed the initial cost and the yearly cost for the years to analyze the net present value. As a result, In the case of the low-voltage magnetizer, the electric signal control method cost less, As the operating voltage of the magnetizer becomes higher. It is confirmed that it takes less cost when the optical communication control device is used.

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References

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