KOR

Electromagnet for magnetic resonance-based spectrometer

Business background

Future plan

  1. Development of 1[T]-grade normal conduction electromagnet capable of forming a balanced magnetic field

  2. Development of DC power supply unit powered by normal conduction electromagnet

  3. Development of mapper device capable of measuring 1[T]-grade magnetic field

Business history

  1. Φ200mm field strength=1[T]
  2. Output: DC500[A], 150[V] Long-term stability:24.4μA/A
  3. 1[T], Uniformity of magnetic field: 40ppm

Quantitative objectives and progress

Evaluation items Target value Measurement method (Specifications, Conditions, Calculation of results, etc.)
1[T]-grade normal conduction electromagnet 1Tesla Achieving 1 Tesla of magnetic field strength at Φ200mm inner diameter of bore
DSV 4cm uniform distribution of magnetic field 1Tesla Achieving ±40ppm uniform distribution of magnetic field at DSV 40mm
DC power supply unit Input: 500A 150V Output: DC500[A], 150[V] Current stability: Goal of 24.4μA/A

Expected results

  • Commercialization of electromagnet for NMR spectrometer system for small bores

  • Local commercialization of MRI applied with normal conduction electromagnet

  • Developing and securing own technologies while enhancing international competitiveness

  • Development of solenoid electromagnet bore DSV-BASED magnetic field measurement technology

Business history

Applicable to analysis of water quality, components of fine dust, food stability, biomedical and new drugs, medical diagnosis, cancer treatment, small animal research, etc.

Test reports from accredited test agencies and objective evidence

  • Calibration report

    Measurement device (Magnetometer, Probe)

  • Test report

    Electromagnet (strength and uniformity of magnetic field)

  • Test report

    Electromagnet (strength and uniformity of magnetic field)