A Unipolar Pulse Electromagnetic Field Apparatus for Magnetic Therapy: Design, Simulation and Development

• Main Author: Jiang, Yuxiang
• Other Authors: El Saddik, Abdulmotaleb
• Format: Others
• Language: en
• Published: Université d'Ottawa / University of Ottawa 2018
• Subjects: UPEMF
• Online Access: http://hdl.handle.net/10393/37854; http://dx.doi.org/10.20381/ruor-22112

As a magnetic therapy apparatus with medical benefits, the Unipolar Pulse Electromagnetic Field (UPEMF) apparatus is presented to produce unipolar pulsed magnetic waveforms with an intensity, shape, and frequency that meet medical requirements. The unipolar pulse is the most significant advantage, as the implemented apparatus is considered to be the first improvement in Pulse Electromagnetic Fields (PEMFs). The magnetic field is generated by a specially designed electromagnetic unit. In this unit, an electromagnet is concentrated by a designed concentrator to strengthen the magnetic field at the north pole and weaken the field on the opposite end. An electromagnetic shield is adopted to eliminate the effects of the south pole but allow the output from the north pole. Excited by a designed pulsed waveform generator, the electromagnetic unit generates a strong alternating-current magnetic field. In my work, the detailed design and development of the electromagnetic unit for UPEMF are introduced, therein being modeled and tested using Finite Element Method simulations. The model is characterized mathematically in three parts: the concentrator, the electromagnetic shield, and the overall unit. The testing and performance measurements of the actual Unipolar Pulse Electromagnetic Field apparatus are achieved using a Gauss meter and oscilloscope.