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Inductors & Chokes

Introduction

Salzer engineers are experienced and ready to design a custom Toroidal Inductors, PF correction chokes/Invertor Chokes and EMI filters and power supply filtering chokes for OEM applications. In the absence of other specifications, we will use the default criteria referenced in the Standard Line.


Detail Decription

Toroidal Inductors are electronic components, typically consisting of a circular ring-shaped Magnetic core of iron powder, ferrite or other material around which wire is coiled to make an inductor. Toroidal coils are used in a broad range of applications, such as high-frequency coils and transformers. Toroidal inductors can have higher Q factors, higher inductance and No noise.


Detail Decription

Specification- EMI Filter chokes- Range: 0.1 to 100 mH, Up to 20 Amps

  • Common-mode chokes, where two coils are wound on a single core, are useful for prevention of electromagnetic interference (EMI) and radio frequency interference (RFI) from power supply lines and for prevention of malfunctioning of electronic equipment. They pass differential currents (equal but opposite), while blocking common-mode currents
  • Common Mode Toroidal Chokes with separated windings for filtering supply lines having in-phase signals of equal amplitude

Specification-Power Supply Filtering Chokes Range: 0.1 to 100 mH, Up to 20 Amps

  • High capacity linear storage chokes
  • Toroidal filter chokes
  • Differential mode toroid's
  • Power inductors
  • High stability storage chokes
  • Miniature high current surface mount inductors
  • High stability inductor
  • High Frequency operation
  • In house Mold shop
  • User friendly mounting pin configuration
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Specification-Power Factor correction & Invertor chokes Range : 40 KVA to 250 KVA, Up to 300 Amps

  • Toroidal Inductors are electronic components, typically consisting of a circular ring-shaped Magnetic core of iron powder, ferrite or other material around which wire is coiled to make an inductor. Toroidal coils are used in a broad range of applications, such as high-frequency coils and transformers. Toroidal inductors can have higher Q factors, higher inductance and No noise.