T60006-L2009-W914 -  Vacuumschmelze  -  Vacuumschmelze

  • Product Code: T60006-L2009-W914
  • Product name : T60006-L2009-W914
  • Manufacturer Vacuumschmelze
  • Stock Qty: (Out Of Stock)
    • Pricing:
    • 3.81 USD

    • 1 or more 3.81 USD
    • 10 or more 3.35 USD
    • 25 or more 2.98 USD
    • 100 or more 2.60 USD
    • 250 or more 2.32 USD
    • 450 or more 2.02 USD
    • 1000 or more 1.60 USD
    • 2000 or more 1.50 USD
  • Ship From: Pune, India
  • Weight: 1.10g
  • Out Of Stock
    T60006-L2009-W914

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Product Specification
Product Cores-Toroids
Product Type Nanocrystalline
Product Description Core Toroids / core Rings Core 9.8x6.5x4.5 25.5uH@10kHz
Product Category Vitroperm
Technical Specification
Frequency Range 10 kHz
Inductance 25.5 uH
RoHS Yes
Limiting Dimensions (in mm)
Inside Diameter (Di) 5.1 mm
Outside Diameter (Da) 11.2 mm
Outside Height (H) 5.8 mm
Product Datasheet
1 T60006-L2009-W914 
Vacuumschmelze

                         

T60006-L2009-W914 (T60006L2009W914) 

NANOCRYSTALLINE VITROPERM CORES:


VAC- VITROPERM cores are available with different AL-levels for many core sizes. Thus, saturation-resistant solutions are available for various fields of applications. If the common mode currents exceed the saturation currents (Icm) of the cores or chokes, cores with higher saturation resistance must be used. High al values (high μ) are more suitable for typical single-phase applications with low unbalanced current (e.g. switched-mode power supplies), while cores with ower AL values are often used in 3-phase applications with high unbalanced currents (e.g. frequency converters with long motor cables).


The high permeability of the nanocrystalline core material achieves superior characteristics at low and middle frequencies, as well as in the high frequency range, when an optimized winding arrangement is chosen.


Common Mode Chokes with toroidal tape wound cores of VITROPERM® allow the effective attenuation of asymmetrical and conducted high frequency noise. 

Tags: T60006-L2009-W914, Vacuumschmelze, Nanocrystalline Cores