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Alien ALN-9762 Short Inlay (Higgs™ 4) RFID tag ​

Product Overview:

The ALN-9762 “Short” Inlay from Alien Technology is a narrow, high-performance UHF RFID inlay built on the Higgs™ 4 chip. Designed for space-constrained labeling applications, it combines strong global read/write performance with a compact footprint, making it ideal for item-level tagging in retail, logistics, and industrial environments.  

Technical Specifications:

📐 Technical Specifications – Alien ALN-9762 Short Inlay
Chip Alien Higgs™ 4
EPC Memory 128 bits
User Memory 128 bits
TID Memory 32-bit + 64-bit unique serial number
Frequency Range UHF 840 – 960 MHz
Protocol EPCglobal Gen2v2 / ISO 18000-6C
Operating Temperature -40°C to +70°C
Adhesive Options Wet inlay & dry inlay (with permanent adhesive)
Inlay Size Antenna: 70 × 17 mm
Wet Inlay: 73.5 × 21.2 mm
Print Surface Thermal transfer printable (wet inlay)
Read Range Up to 11 meters (depending on antenna setup)

Ideal Solutions & Use Cases

  • Retail item-level tagging (apparel, cosmetics, accessories)
  • Carton, case, and pallet labeling
  • Asset and file folder tracking
  • Supply chain & logistics traceability
  • Applications on plastic or non-metallic surfaces

Key Benefits &  Solutions

Compact & High Performing ​

Narrow format fits small labels without compromising RFID range and accuracy. ​

Dual Memory Support ​

Offers both EPC and user memory for flexible item tracking and on-tag data applications.  

​Global Compatibility

Works across international UHF bands (840–960 MHz), suitable for worldwide deployment.  

Ready to Solve Your RFID Challenges?

Contact our RFID specialists today to discuss how our product can address your specific identification and tracking needs.

We'll work with you to design a solution that improves efficiency, reduces costs, and delivers reliable performance.


Get Started Today!

📞 Contact our technical consultation team

📧 Request samples for testing

📋 Custom your quotation based on your requirements​

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All specifications are subject to standard industry tolerances. Performance may vary based on application environment and conditions. Please consult with our technical team for application-specific guidance.*