11/08/2024 4:33 a.m.
https://cablematic.com/en/products/pin-compatible-with-anti-theft-tag-eas-rf-82mhz-16x11mm-pack-of-1000-units-XX093/
Pin compatible with anti-theft tag EAS RF 8.2MHz 16x11mm pack of 1000 units
REF: XX093
Specifications
  • Nail or pin compatible with 8.2 MHz EAS RF anti-theft tags.
  • Size (length x diameter): 16 x 11 mm.
  • Silver colored metal pin.
  • Compatible with most anti-theft labels that work using a nail / pin fixing system.
  • Package of 1000 units.
play_button Watch video
More info
PVP
25.55
Price including VAT: 25.55
PVD
22.56
2 years
warranty
14 days
returns
100%
safe

Out of stock

We will notify you when it is back in stock.
More info
Specifications
  • Nail or pin compatible with 8.2 MHz EAS RF anti-theft tags.
  • Size (length x diameter): 16 x 11 mm.
  • Silver colored metal pin.
  • Compatible with most anti-theft labels that work using a nail / pin fixing system.
  • Package of 1000 units.

More info

Special nail or pin compatible with 8.2 MHz EAS RF anti-theft tags. This is a round flat head pin.

Specifications
  • Nail or pin compatible with 8.2 MHz EAS RF anti-theft tags.
  • Size (length x diameter): 16 x 11 mm.
  • Silver colored metal pin.
  • Compatible with most anti-theft labels that work using a nail / pin fixing system.
  • Package of 1000 units.
  • Gross Weight: 1.27 kg
  • Product size (width x depth x height): 16.0 x 11.0 x 11.0 cm
  • Number of packages: 1
  • Packages size: 11.6 x 11.2 x 6.0 cm

Videos

play_button Watch video

Technical terms

  • Hz
  • EAS RF security systems
  • EAS RF Deactivator
Hz
One hertz is one cycle per second, meaning repeating cycle as an event. For example, hertz is applied physics measuring the number of times for a second wave (either acoustic or electromagnetic) is repeated or can be applied, among other uses, to ocean waves that reach the Beach vibrations per second or a solid. The quantity that measures the frequency hertz is called,in this regard, the inverse of the period. One hertz is an oscillation frequency of suffering a particle over a period of one second.

Do you have any question about this product?