Secure NFC/RFID Tag Authenticator with Energy Harvesting Protects Sensitive Data Transfer Between Master and Slave Devices

Maxim Integrated's MAX66242 DeepCover(r) Secure Authenticator configures and collects data from any embedded system through its NFC/RFID wireless data communication and simple I² C interfaces.

 Securely authenticate and wirelessly collect data with MAX66242 DeepCover Secure Authenticator
Securely authenticate and wirelessly collect data with MAX66242 DeepCover Authenticator

San Jose, CA—Designers can now perform secure data communication on their embedded systems without needing the host microcontroller, but by simply using a single MAX66242 DeepCover Secure Authenticator from Maxim Integrated Products, Inc. (NASDAQ: MXIM).

The MAX66242 secure authenticator is an advanced tag that combines a wireless / interface with an I²C interface. Designers can now collect vital system data from portable devices even when the main energy source on the master device is not functional. The I²C and wireless RFID/NFC interfaces make it highly flexible and scalable for a wide range of applications. The MAX66242 is especially useful for applications that require additional external functionality, but do not have the space to place a connector. Ideal applications include secure, wireless transfer of medical data or asset tracking.

The MAX66242 enables wireless, contactless data collection between a host and slave device. The integrated, proven SHA-256 cryptographic engine provides symmetric challenge-and-response authentication based on a secret key for data downloads. Needing no separate controller to write data, the MAX66242's I2C interface port can operate as a master port or a slave port for secure data exchanges. The MAX66242 comes with multiple memory programmable options which let a user configure a secure master/slave system and set usage limits using the EEPROM emulation mode to create nonresettable counters. Designers can also use the MAX66242 to set up easy and intuitive WiFi® or Bluetooth® connections as a means to securely storing the pairing codes. It then provides for access control, asset tracking, system alert/wakeup, and authentication of medical sensors for the secure transfer of personal data.

The MAX66242 does not require an external power source. Instead it integrates an energy harvesting capability that can be used to power surrounding ICs like a temp sensor, which is connected via the I²C interface. Using this harvested energy, the MAX66242 provides the energy source to the slave device and gathers data from it. The energy harvesting feature also complements the existing power source in battery-powered devices, so it will extend overall battery life.

Key Advantages

Secure authentication: integrated SHA-256 die-level protection prevents cloning, counterfeiting, and data in applications that must have secure data transfer.

Dual interfaces: wired I²C and wireless ISO 15693 interface provide versatility for many applications.

Energy harvesting: supports two energy-harvested voltage output levels, 1.8V and 3.3V typical; harvests energy even on devices without a power source.

High integration: integrates SHA-256 bidirectional authentication with advanced security ; 32-byte SRAM buffer for fast I²C-to-RFID data transactions; dual interfaces eliminate the need for a separate controller.

"The MAX66242 DeepCover Secure Authenticator enables secure, contactless data collection while eliminating the need to physically touch the device," said Hamed Sanogo, Executive Business Manager at Maxim Integrated. "The energy harvesting capability allows users to harvest power that would otherwise be wasted and collect data securely from any end equipment, even when the master system is not powered."

Availability and Pricing

Specified over the -20°C to +85°C temperature range.

Pricing is available upon request.

About Maxim Integrated

Maxim is the leader in integration. From mobile to industrial solutions, we're making analog smaller, smarter, and more energy efficient. Learn more at www.maximintegrated.com.