Accessories
Multi-Technology Proximity + Desfire EV3 Encrypted Cards - Pack of 100
The **Verkada EV3 Multi-Technology Cards** (ACC-AC-EV3-MT-1) are multi-technology Proximity + DESFire EV3 encrypted access credentials that combine legacy 125 KHz proximity and 13.56 MHz encrypted technology in a single card, sold in a pack of 100.
SKU ACC-AC-EV3-MT-1
MSRP$1,199
Price is for this item.
Authorized Verkada reseller · cloud licensing configured at checkout
Overview
The Verkada EV3 Multi-Technology Cards (ACC-AC-EV3-MT-1) are multi-technology Proximity + DESFire EV3 encrypted access credentials that combine legacy 125 KHz proximity and 13.56 MHz encrypted technology in a single card, sold in a pack of 100.
- Dual chip type: T5577 (125 KHz proximity) plus MIFARE DESFire EV3 (13.56 MHz encrypted)
- Operates at both 125 KHz and 13.56 MHz frequencies, eliminating the need to manage multiple cards during a migration
- AES 128 bit encryption on the DESFire EV3 side
- Works with all Verkada readers; on the AD34, AD64, AL54-CY, AL54-MS, AF64, TD33, TD53, and TD63 readers, organizations can toggle specific antenna frequencies in Command to disable the low-frequency antenna on critical entry points and acknowledge only the encrypted side
- Standard credit-card form factor: 2.1 in / 54 mm tall, 3.4 in / 85.6 mm wide, 0.035 in / 0.9 mm deep, weighing 0.21 oz / 6.0 g
- Box quantity of 100 cards, backed by a 10 year warranty
Specifications
- Model number
- ACC-AC-EV3-MT-1
- Descriptor
- Multi-technology Proximity + DESFire EV3 Encrypted Cards
- Compatibility
- Works with all Verkada readers
- Chip type
- T5577 MIFARE DESFire EV3
- Frequency
- 125 KHz and 13.56 MHz
- Encryption
- AES 128 bit
- Size
- Height: 2.1in / 54mm, Width: 3.4in / 85.6mm, Depth: 0.035in / 0.9mm
- Weight
- 0.21oz / 6.0g
- Box quantity
- 100 cards
- Warranty
- 10 years
- Antenna control
- The AD34, AD64, AL54-CY, AL54-MS, AF64, TD33, TD53, TD63 readers additionally enable organizations to toggle specific antenna frequencies in Command, so low-frequency antennas can be disabled on critical entry points to only acknowledge the encrypted side.
