RFID Multi Surface Asset Labels

  • Read range up to 12 ft
  • Custom print and encode labels on site
  • Small form factor and low profile
  • Works well on metal, plastic, glass, wood and containers with liquid

Related products

Description

SmartMark RFID Logo

The RFID Multi Surface Asset Labels features a low-profile design for custom on-site printing and encoding on thermal transfer printers. It not only reads well on metal, but other surfaces such as plastic, glass, wood and containers with liquid as well. You can customize this RFID label with human-readable information such as text, graphics,logos or barcodes.

The RFID Multi Surface Asset Label is perfect for inventory and asset management applications where a small form factor is required. This includes IT, manufacturing, healthcare and retail asset tracking applications.

Additional information

Model Number

WF-SM-M624 Multi Surface RFID Asset Tag

Applications

Identification Labeling, Metal Mount, Retail Product Tracking, Asset Marking, Asset Tracking, Serial labels, Warehouse

Size

2.36" x 0.94"

Overall Thickness

47 mils

Temperature Service Range

-4°F to 181°F

Water Resistance

Very Good

Abrasion Resistance

Good

Solvents Resistance

Very Good

Oil Resistance

Good

UV Resistance

Good

RFID Performance

RFID ProtocolUHF EPC Class 1 Gen 2; ISO 18000-6C
Tag TypePassive Read/Write
Frequency Range902 – 928 MHz (US)
User Memory128 bits
EPC Memory128 bits
ICNXP UCODE 7

*Other single record and dual record chips available.

Tested Polarization:

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

Multi Surface RFID Asset Tag Polarization Image

Optimal Read Range* on Different Material Surfaces:

US Performance

US Multi Surface RFID Asset Tag performance graph

EU Performance

EU Multi Surface RFID Asset Tag Polarization Image performance graph

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