HID 1431LGGZNM Mifare Prox Non-prog Mifare Prog Prox
When you're integrating access control systems that need to bridge legacy proximity hardware with newer Mifare-based platforms, dual-technology credentials eliminate the need for simultaneous card replacements and reader upgrades. The HID 1431LGGZNM delivers both 125 kHz prox and 13.56 MHz Mifare technology in a single credential, allowing staged migrations while maintaining backward compatibility with existing infrastructure.
Key Features
- Dual-technology construction supports both 125 kHz proximity and 13.56 MHz Mifare smart card protocols
- Non-programmable prox side ships with pre-encoded facility code and card number for immediate deployment
- Programmable Mifare side enables custom encoding for secure applications and multi-application use cases
- Standard CR80 credit card dimensions fit existing badge holders and lanyards
- Composite construction provides durability for daily wear in commercial environments
- Compatible with HID prox readers and Mifare-enabled controllers across mixed deployments
- Supports phased technology migrations without requiring simultaneous reader and credential replacement
This credential addresses the practical challenge of technology transitions in installed access control systems. The non-programmable prox side works immediately with your existing HID proximity readers, while the programmable Mifare chip gives you flexibility for secure applications, encrypted authentication, or multi-application scenarios like combining physical access with cashless vending or print management. You can deploy these cards today in prox-only mode, then activate the Mifare functionality as you upgrade readers zone-by-zone.
The programmable Mifare sector lets you encode custom data structures, implement AES encryption, or configure multiple applications on a single card. For deployments requiring both legacy compatibility and forward security, this dual-technology approach reduces deployment complexity and lets you manage migration timelines based on operational requirements rather than forced technology cutover dates. Standard composite construction handles the daily wear patterns typical in corporate, education, and healthcare badge applications.
