HID 2001PGGMV iCLASS 16K/2 Proximity Card Credential
Overview
The HID 2001PGGMV is a 16K/2 iCLASS card credential with dual application capability and sequential match number encoding. This card is manufactured in the US and ships in bulk quantities (minimum order 100 units). It integrates with HID access control systems that support iCLASS card technology at 13.56MHz, delivering encrypted credential data to control panels and readers across commercial and enterprise access control deployments.
Compatibility
The 2001PGGMV is compatible with HID access control systems and readers that support iCLASS credentials, including systems using DESFire, MIFARE, HID proprietary protocols, SEOS, and NFC/13.56MHz readers. Verify your panel and reader family against HID's supported credential matrix before bulk ordering — not all legacy or third-party systems accept iCLASS 16K/2 cards without firmware update or hardware change.
Technical Specifications
Memory and Encoding: 16KB total memory with 2 application slots, programmed with sequential match number (SMN) for anti-cloning and replay-attack resistance. This dual-app structure allows simultaneous support of access control and optional secondary applications (e.g., time and attendance, building integration).
Credential Format: Proximity-based iCLASS card at 13.56MHz, encrypted transmission. All cryptographic keys stored on certified secure element hardware per HID specification.
Physical: Standard card form factor with front-gloss / back-gloss finish. Available in black or white with silver-trim baseplate. Packaged dimensions: 3.40″ W × 2.20″ L × 1.40″ H per 100-unit carton (gross weight 0.5 lb).
Manufacturing: US origin, production commenced January 2019. Part of the HID Card Credentials product family.
Installation Notes
Order in batches of 100 minimum. Pre-commission cards in your HID access control system before distribution to users — each card must be enrolled with its unique cryptographic identifier in your panel's credential database. Do not expose unprogrammed cards to readers until enrollment is complete; sequential match number validation will reject unknown credentials.
