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Planar Inductor & Planar Transformer Special

Meder - Standex Planar Inductor / Transformers

Planar Inductors for the PQ20, 26, 32 Sizes 0.4 -6.0 µH, 80A max - Planar magnetics have a better power density and performance compared to equivalent wire wound transformer designs...

 

  • Planar magnetics have a better power density and performance compared to equivalent wire wound transformer designs.
  • Standex-Meder has multiple manufacturing facilities around the world including TS16949 and AS9100 certified and ITAR registered sites.
  • Standex-Meder specializes in customizing designs to specific customer needs for a wide power range. Please contact us to provide the optimal solution for your application.
  • Applications include but are not limited to: switching power supplies, DC/DC converters in distributed power systems, FPGA and low-profile high-current, high current POL converters, feedback control, overload sensing, load drop and shut down detection
  • Markets include Electronics, Telecommunications, Medical, Aerospace, Industrial, Automotive, Appliance and many others

 

Planar Transformer Portfolio

 

New Planar transformers feature high- performance from a compact, low-profile package. These proven designs are ideal for demanding applications where space and weight savings are vital. Industries such as military/aerospace, hybrid vehicles, and alternative energy can benefit from standard or custom Standex-Meder planar designs...

 

Why use Planar transformers?

 

In addition to a substantially reduced profile and light-weight design, Planar transformers provide superior performance and enable certain form factors/topologies.

  • Optimized core cross section lowers core loss
  • Large core surface promotes heat transfer
  • PCB construction yields lowest Cu loss
  • AC resistance and proximity Cu loss are minimized
  • Low turns count improves Cu loss
  • Optimum core window height
  • Fits within core window height
  • Repeatable leakage inductance, capacitance
  • Volumetric efficiency (small size)
  • Low leakage inductance