Wireless power transfer (WPT): Revisiting Various Technology

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Current wireless power transfer (WPT) technology can only allow power transfer over a limited distance because, as the distance between the transmitter (Tx) and receiver (Rx) coils increases, the power transfer efficiency (PTE) decreases with a steep slope, while the electromagnetic field (EMF) leakage increases. In order to increase the PTE and decrease the EMF leakage simultaneously, we need to develop a method to concentrate the magnetic fields between the TX and Rx coils. In this talk, new approach of WPT based on novel metamaterial structure  is discussed. Metamaterials can confine the magnetic fields between the TX and Rx coils by negative relative permeability, including the reduction in leakage, hence promissing technology for mediacl applications.


  Date and Time

  Location

  Hosts

  Registration


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  • Synergy Microwave Corp
  • Paterson, New Jersey
  • United States
  • Building: 201 McLean Boulevard
  • Contact Event Host

  • Ajay Kumar Poddar, Phone: (201)560-3806) (Email: akpoddar@synergymwave.com)

  • Co-sponsored by MTT/AP-S & ED/CAS
  • Starts 20 April 2016 03:00 PM UTC
  • Ends 25 April 2016 03:00 PM UTC
  • No Admission Charge

  Speakers

Dr. Ing. habil Ajay K. Poddar

Topic:

Wireless power transfer (WPT): Revisiting Various Technology

Current wireless power transfer (WPT) technology can only allow power transfer over a limited distance because, as the distance between the transmitter (Tx) and receiver (Rx) coils increases, the power transfer efficiency (PTE) decreases with a steep slope, while the electromagnetic field (EMF) leakage increases. In order to increase the PTE and decrease the EMF leakage simultaneously, we need to develop a method to concentrate the magnetic fields between the TX and Rx coils. In this talk, new approach of WPT based on novel metamaterial structure  is discussed. Metamaterials can confine the magnetic fields between the TX and Rx coils by negative relative permeability, including the reduction in leakage, hence promissing technology for mediacl applications.

Biography:

Reserach Group, Oreadea University, Romania

Email:

Address:Oradea, Romania

Dr. Ing. habil Ajay K. Poddar

Topic:

Wireless power transfer (WPT): Revisiting Various Technology

Biography:

Email:

Address:Oradea, Romania





Agenda

4:PM-6:00PM: Talk You don't have to be IEEE member to attend the talk.