MAXQ1061-KIT

Evaluation Kit for the MAXQ1061


Description

This EV kit provides a platform for evaluating the capabilities of the MAXQ1061 cryptographic controller with TLS/DLS support that is targeted for strengthening security in embedded systems. This credit card-sized socketed board allows for communication and power through a 10-pin connector to an optional Aardvark I2C/SPI host adapter. Header pins are provided for communication to a generic host processor through SPI or I2C and allows it to be sourced by an external 3.3V power supply. This evaluation kit provides a robust platform for developing and debugging applications targeted for the MAXQ1061.

Key Features

  • 10-Pin Header to Connect to an Optional Aardvark Host Adapter or Generic Host Processor
  • Board Powered by an Aardvark Host Adapter, Host Processor Board or an External Supply to Test Loops
  • Toggle Switches for TLS/AES-SPI Mode and Remote/Local Mode Selection
  • Multicolor LED Indicating Mode Selection

Applications/Uses

  • Certificate Distribution and Management
  • Cybersecurity for Critical Infrastructures
  • Electronic Signature Generation
  • Secure Access Control
  • Smart Metering

Quality and Environmental Data

Request Reliability Report for: MAXQ1061-KIT 
Lead-Free Package Tin (Sn) Whisker Reports

Related Resources


MAXREFDES155
MAXREFDES155#: DeepCover Embedded Security in an IoT: Public-Key Secured Data Paths


MAX32552
DeepCover Secure Cortex-M3 Flash Microcontroller

  • ARM® Cortex M3 Processor Core Allows for Easy Integration into Applications
  • Security Features Facilitate System-Level Protection
  • Integrated Peripherals Reduce External Component Count

MAXQ1061
DeepCover Cryptographic Controller for Embedded Devices

  • Advanced Cryptographic Tool Box Seamlessly Supports Highly Secure Key Storage
  • High-Level Functions Simplify SSL/TLS/DTLS Implementations
  • Extensive Host/System Services Increase Flexibility and Reduce System Cost

MAX32625
Ultra-Low Power, High-Performance ARM Cortex-M4F Microcontroller for Wearables

  • High-Efficiency Microcontroller for Wearable Devices
  • Power Management Maximizes Uptime for Battery Applications
  • Optimal Peripheral Mix Provides Platform Scalability

MAX32626
Ultra-Low Power, High-Performance ARM Cortex-M4F Microcontroller for Wearables

  • High-Efficiency Microcontroller for Wearable Devices
  • Power Management Maximizes Uptime for Battery Applications
  • Optimal Peripheral Mix Provides Platform Scalability