HID iCLASS Cards

1.HID 340x – MIFARE Classic SE™ Card

iCLASS SE 340x - MIFARE Classic SE™ Smart Card

HID’s iCLASS® SIO-Enabled (iCLASS® SE™) smart cards   with MIFARE® technology are part of the next-generation   SIO-enabled access control platform and open ecosystem   based on HID’s Trusted Identity Platform™ (TIP)   architecture. Going beyond the traditional smart card model,   HID Global’s next generation access control platform offers a   secure, standards-based, technology-independent and  flexible  identity data structure based on Secure Identity Object (SIO), a new HID portable credential methodology.

HID MIFARE credentials have the memory structure and  capacity to store multiple applications on a single credential.  Securely separated sectors that are each protected by a set of  two keys and programmable access conditions allow complex  applications and provide for future expansion. The data on the card is protected with encryption keys used in the mutual  authentication process.

 Key Features of the iCLASS® SE smart card with   MIFARE technology features:

  • Ensures data authenticity and privacy through the multi-layered security of HID’s SIO.
  • HID Global’s TIP for secure provisioning.
  • SIO data binding inhibits data cloning by binding an object to a specific credential.
  • New access control platform that offers secure, standards-based, technology-independent and flexible identity data structure.

The iCLASS® SE card with MIFARE technology is a 13.56        MHz read/write contactless smart card is a credit card-sized    credential that can be used for diverse applications such as    physical access control, PC logon, biometric verification, time    and attendance, cashless vending, public transportation,    airline ticketing and customer loyalty programs.

2. HID 38xx SIO-Enabled MIFARE DESFire EV1 + Prox Card

iCLASS SE 38xx SIO-Enabled MIFARE DESFire EV1 + Proximity Smart Card

HID Global’s SIO-Enabled MIFARE® DESFire® EV1 + Proximity cards are part of the next-generation access control platform and open ecosystem based on HID’s Trusted Identity Platform® (TIP™) architecture. HID Global’s new access control platform extends beyond the traditional smart card model to offer a secure, standards-based, technology-independent and flexible identity data structure based on Secure Identity Object™ (SIO), HID’s new portable credential methodology. The MIFARE DESFire EV1 + Proximity Smart Card 13.56 MHz read/write contactless smart card technology can be used for diverse applications such as physical access control, PC logon, biometric verification, time and attendance, cashless vending, public transportation, airline ticketing and customer loyalty programs.

Key Features of the 38xx SIO-Enabled MIFARE DESFire EV1 + Proximity Smart Card:

  • Ensures data authenticity and privacy through the multi-layered security of HID Global’s SIO.
  • HID Global’s TIP for secure provisioning.
  • SIO data binding inhibits data cloning by binding an object to a specific credential.
  • 125 KHz Proximity with convenient read range and flexible format programming.

3.HID 370x – MIFARE DESFire EV1 SE™ Card

iCLASS SE 370x - MIFARE DESFire EV1 SE™ Smart Card

HID iCLASS SIO-Enabled (iCLASS SE™) smart cards with MIFARE® DESFire® EV1 are part of the next-generation access control platform and open ecosystem based on HID’s Trusted Identity Platform (TIP) architecture. HID Global’s new access control platform extends beyond the traditional smart card model to offer a secure, standards-based, technology-independent and flexible identity data structure based on Secure Identity Object (SIO), a new portable credential methodology from HID Global.

Key Features of the MIFARE DESFire EV1 SE Smart Card:

  • Ensures data authenticity and privacy through the multi-layered security of HID’s SIO.
  • HID Global’s TIP for secure provisioning.
  • SIO Data Binding – Inhibits data cloning by binding an object to a specific credential.
  • New access control platform that offers secure, standards-based,technology-independent and flexible identity data structure.