Ferrite Sheets


Soft Materials, Flexible Functionality

Sometimes your design requires flexibility – you can’t be held down by mechanical restraints.  Composed of NiZn to provide high-volume resistance over a broad frequency range, our ferrite sheets suppress EMI while being an innovative approach to operating performance.  Correctly managing magnetic flux improves the overall energy and data transfer in NFC, RFID, and Wireless Power systems, so you can concur a more efficient communication range.  In today’s modern electronic product market, size and weight are important factors to consider when designing a product.  Our ferrite sheets will provide you with the strength and flexibility you need to make powerful, cost-effective, and unquestionably sleek products.

Benefits of Our Ferrite Sheets

Constructed from ultra-thin mixtures of iron, nickel and zinc oxides, our ferrites are characterized by their size, light weight, low cost, and high reliability.  They provide superb EMI reduction while remaining open to normal circuit operation.  Other benefits include:

  • Flexible sheets for 13.56 MHz NFC, RFID application & wireless charging application
  • Made with thin, high-permeability sintered ferrite with PET film and adhesive tape
  • Standard ferrite layer thickness 0.05mm, 0.1mm and 0.2mm
  • Custom size or thickness available upon request
  • Operating temperature -40°C to 85°C or 120°C
  • RoHS compliant


Find or Design Your Ferrite Sheet

Using Laird-manufactured parts, our team of global experts and engineers create a custom design experience that is unrivaled by our competitors.  Explore our robust line of ferrite products or contact an engineer through customer service to discuss your next EMI solution. 



Explore Solutions

  • MHLL Series

    Flexible ferrite sheets for 13.56 MHz NFC, RFID and wireless charging EMI

  • MSLL Series

    Flexible ferrite sheets offer innovation in shielding and reading distance

  • MULL Series

    Improve shielding performance, reliability and RFID reading distance