RFID Shipping Labels

  • Read range up to 36 feet
  • Track valuable shipments, containers, and other packages
  • Great for supply chain and asset management
  • Custom designs, materials, and other inlays available

Related products

Description

SmartMark RFID Logo

Frick’s RFID Shipping Labels are great for product identification, asset tracking, inventory control and supply chain management. These versatile RFID package labels are available in a wide variety of material, RFID inlay and label adhesive combinations to suit your application. High print quality gives logos, graphics and messaging a professional look. Use for tracking packaged goods, containers, crates, pallets and more.

Additional information

Model Number

WF-SM-01 RFID Shipping Labels

Applications

Identification Labeling, Container Tagging, Manufacturing, Product Marking, Warehouse

Material

Glossy Paper

Overall Thickness

1 mil ± 10%

Expected Outdoor Life

< 1 year

Temperature Service Range

-40º F to 160ºF

Minimum Application Temperature

40ºF

Water Resistance

Poor

Oil Resistance

Poor

Solvents Resistance

Fair

UV Resistance

Fair

Abrasion Resistance

Poor

Adhesive

Genergal purpose adhesive

Adhesion

Adhesion to HSE Plastics: Good, Adhesion to LSE Plastics: Good, Adhesion to Glass at 72 hr. dwell: Excellent, Adhesion to Steel at 72 hr. dwell: Excellent

Shelf Life

1 Year, Stored at 70F and 50% Relative Humidity

RFID Performance

RFID ProtocolUHF Class 1 Generation 2
Tag TypePassive Read/Write
Frequency Range840 – 960 MHz (Global)
EPC Memory96 bits
ICAlien® Higgs® 3

*Other single record and dual record chips available.

Tested Polarization:

Tag performance was experimentally mesaured in an anechoic chamber with a known set of experimental variables. The antenna used for measurements was linearly polzarized and of monostatic configuration. The direction of tested polarization is as follows.

RFID Paper Label Polarization Image

Optimal Read Range* on Different Material Surfaces:

RFID Paper Label Read Range Graph

*Tag performance was measured free of material influence. Actual read ranges may differ depending on conditions such as environment, tag placements, hardware, etc.