HID 1434NSSNN Mifare Keyfob 1K Non-prog F- STD H
When you need a cost-effective credential for large-scale deployments where card programming happens at the reader level rather than during enrollment, this non-programmable MIFARE 1K keyfob solves the distribution challenge. You issue credentials in volume, program access rights at the system level, and avoid the bottleneck of pre-encoding hundreds or thousands of tags before deployment.
Key Features
- MIFARE Classic 1K chip providing 1024 bytes of read/write memory organized in 16 sectors
- Non-programmable format — credentials ship ready to encode via your access control system
- Compact keyfob form factor designed for attachment to key rings and lanyards
- 13.56 MHz contactless technology with typical read range up to 10 cm depending on reader antenna
- Durable enclosure protects chip and antenna from daily wear in high-use environments
- HID manufacturing ensures consistent read performance across multi-site installations
- Compatible with MIFARE-enabled readers from HID and third-party manufacturers
This credential format works well for situations where you're managing access across multiple facilities or issuing temporary credentials at high volume. The non-programmable architecture means you don't invest time encoding each tag during the provisioning process — instead, you load them into your system inventory and let the access control platform handle rights assignment and sector writing when users first present credentials. This reduces deployment time and eliminates the need for dedicated encoding workstations during large rollouts.
The MIFARE 1K chipset provides adequate memory for most standard access control applications including multi-door rights, time zone restrictions, and basic cardholder data. The keyfob format is appropriate for environments where badge clips aren't practical or where users prefer keeping credentials with personal items rather than wearing them visibly. Standard sector structure ensures compatibility with existing MIFARE infrastructure without requiring reader firmware updates or system reconfiguration.
