Compact Zip Tie Metal Mount RFID Tag
RFID Product, Versatile Attachment, UV Stable, Wide Angle RFID, Curvatures and Contours
Compact Plastic Zip Tie Metal Mount RFID Tag
- Small and compact
- Quick and secure mounting
- Heat and cold resistant
- Water and impact resistant
The WF-SM-PT103 RFID tag from TROI combines small size, plastic strap mounting, and durable design.
The tag easily and securely mounts on metal surfaces by wrapping the 4" long zip tie around the asset and pulling it tight. This tag can mount on pipes up to 1" outside diameter.
It incorporates a plastic resin encapsulated ceramic tag that is intended to be metal mounted. This size and style of RFID tag is also available with either a screw mount or stainless steel strap mount.
Plastic Resin and Plastic Zip Tie
Materials | Plastic resin and plastic zip tie |
Size (LxWxH) | 0.42 x 0.42 x 0.23 inches 0.08 x 4 x 0.02 inches |
Expected Outdoor Durability | Excellent |
Water Resistance | Excellent |
Chemical Resistance | Fair |
Impact Resistance | Excellent |
Test* | Temperatures and Duration | Results |
Maximum Temperature | Long-term at 400 hr: 212°F (100°C) | No effect on tag. Tag remained the same in appearance and RFID performance/function. There was no sign of peeling, tearing or destruction. The tag read normal after the tests. *Test is not limiting |
Standard at 6 hr: 240°F (115°C) | ||
Short-term at 1 hr: 250°F (121°C) | ||
Minimum Temperature | -40°F (-40°C) | |
Temperature Cycling | The tag was cycled to 194°F at equilibrium for 100 times. Between each cycle, it was air cooled to room temperature and read with an RFID reader. |
RFID Protocol | UHF Class 1 Generation 2 |
Chip Manufacturer | Alien Higgs 3 |
Frequencies | US 902-928* |
Memory | 96 bits EPC |
*Other frequencies available on request
Tested Polarization:
Tag performance was experimentally measured in an anechoic chamber and 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
Optimal Read Range* on Different Material Surfaces:
*Tag performance was measured free of material influence, on a dry wood, window glass, thermoplastic, and steel slabs. Actual read ranges may differ depending on conditions such as environment, tag placements, hardware, etc.