MAXQ1065
Ultra Low-Power Cryptographic Controller with ChipDNATM for Embedded Devices
Show MoreCryptographic Functions for Root-of-Trust, Authentication, Secure Boot and Firmware Updates, Encryption, and TLS Support
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- ECC Compute Engine Using Curve NIST P-256
- FIPS-186 ECDSA
- NIST SP800-56Ar3 Key Exchange with Static Unified Model, C(0e, 2s, ECC CDH) with One-Step Key Derivation Using SHA-256
- On-Board EC Key Generation with SP800-90B/A
- SHA-2 Compute Engine
- NIST FIPS-180-4 SHA2-256, HMAC-SHA-256
- AES Compute Engine with 128 and 256 Key Sizes
- ECB, CBC, CCM, GCM Cipher Modes
- CBC-MAC, CMAC Message Authentication Codes
- Onboard AES Key Generation with SP800-90A/B
- True Random Number Generator (TRNG)
- NIST SP800-90A/C Compliant
- NIST SP800-90B Entropy Source
- Secure Communication
- TLS/DTLS 1.2 Handshake and Record Layer
- ECDSA Authentication
- ECDHE Key Exchange
- AES-GCM or CCM Record Layer
- SP800-56Ar3-Based Key Exchange
- TLS/DTLS 1.2 Handshake and Record Layer
- X.509 v3 Certificate Support
- Storage of Root and Device Certificates
- Onboard Verification of Chains of Certificates
- ECDSA Verification on Supported Curves
- High-Speed Interface for Host Microcontroller Communication
- 10MHz SPI with Mode 0 or Mode 3 Operation
- 8KB User Flash Array with ChipDNA PUF Encryption
- Unique, Unalterable Factory-Programmed ID Number
- Tamper Input Detects System-Level Intrusion
- Secure Factory Provisioning Service
- 12-Pin, 3mm x 3mm TDFN Package
- -40°C to +105°C, 1.62V to 3.63V
- Low-Power Operation: 100nA (typ) in Standby
ChipDNA is a trademark of Maxim Integrated Products, Inc.
DeepCover is a registered trademark of Maxim Integrated Products, Inc.
The MAXQ1065 is a security coprocessor that provides turnkey cryptographic functions for root-of-trust, mutual authentication, data confidentiality and integrity, secure boot, secure firmware update, and secure communications with generic key exchange and bulk encryption or complete TLS support. The device integrates 8KB of secure storage for user data, keys, certificates, and counters with user-defined access control and life cycle management. It also has a configurable output pin and a tamper input pin. Commands are accessible through a standard SPI interface.
The MAXQ1065's low power consumption makes it suitable for battery-powered applications, and the extremely reduced footprint and pin count allow easy integration into medical and wearable devices. Its lifetime and operating range make it compatible with long-term deployments in harsh environments. The MAXQ1065 life cycle management allows flexible access control rules during the major life cycle stages of the device. Secure key loading protocol and secure factory preprogramming are available.
DeepCover® embedded security solutions cloak sensitive data under multiple layers of advanced security to provide the most secure key storage possible. To protect against device-level security attacks, invasive and noninvasive countermeasures are implemented including active die shield, encrypted storage of keys using the ChipDNA PUF technology, and externally callable algorithmic subroutines.
Applications
- Anti-cloning, Anti-counterfeiting, Feature and Usage Control
- Certificate Management
- Mutual Authentication
- Secure Boot, Secure Firmware Update
- Secure Communication: Key Exchange, TLS
- Secure Data Storage
- System-Level Tamper Protection and Integrity
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MAXQ1065
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ADI has always placed the highest emphasis on delivering products that meet the maximum levels of quality and reliability. We achieve this by incorporating quality and reliability checks in every scope of product and process design, and in the manufacturing process as well. "Zero defects" for shipped products is always our goal. View our quality and reliability program and certifications for more information.
Part Model | Pin/Package Drawing | Documentation | CAD Symbols, Footprints, and 3D Models |
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MAXQ1065GTC+ | Thin Dual Flatpack No Leads |
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MAXQ1065GTC+T | Thin Dual Flatpack No Leads |
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- MAXQ1065GTC+
- Pin/Package Drawing
- Thin Dual Flatpack No Leads
- Documentation
- HTML Material Declaration
- HTML Reliablity Data
- CAD Symbols, Footprints, and 3D Models
- Ultra Librarian
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- MAXQ1065GTC+T
- Pin/Package Drawing
- Thin Dual Flatpack No Leads
- Documentation
- HTML Material Declaration
- HTML Reliablity Data
- CAD Symbols, Footprints, and 3D Models
- Ultra Librarian
- SamacSys
Evaluation Kits 3
MAXQ1065EVKIT
Evaluation Kit for the MAXQ1065
Product Detail
The MAXQ1065 SPI evaluation kit (EV kit) provides the hardware and software necessary to exercise the features of the MAXQ1065GTC+ from a personal computer, a Raspberry Pi®, an Arduino® compatible board or any other motherboard. The EV kit consists of five MAXQ1065GTC+ devices in a 12-pin TDFN package and a MAXQ1065 12-pin TDFN evaluation socket board.
The device makes it fast and easy to implement full security for embedded, connected products without requiring firmware development. The MAXQ1065 coprocessors can be designed-in from the start or added to an existing design to guarantee confidentiality, authenticity, and integrity of the device.
Applications
- Anti-cloning, Anti-counterfeiting, Feature and Usage Control
- Certificate Management
- Mutual Authentication
- Secure Boot, Secure Firmware Update
- Secure Communication: Key Exchange, TLS
- Secure Data Storage
- System-Level Tamper Protection and Integrity
Resources
AD-APARD32690-SL
Arduino Form-factor Development Platform Based on MAX32690 ARM Cortex-M4 Microcontroller
Product Detail
The AD-APARD32690-SL is a platform for prototyping intelligent, secure, and connected field devices. It has an Arduino Mega-compatible form factor and two Pmod™-compatible connectors.
The system includes the MAX32690 ARM Cortex-M4 with FPU-Based Microcontroller and Bluetooth LE 5.2. The MCU is coupled with external RAM (2 x 512 Mb) and Flash (64 Mb) memories to meet the requirements of the most demanding applications. The MAXQ1065 security coprocessor enables state of the art security features such as for root-of-trust, mutual authentication, data confidentiality and integrity, secure boot, and secure communications.
A 10 Mbps single-pair Ethernet link using the ADIN1110 10BASE-T1L MAC/PHY, enables remote data acquisition and system configuration. The 10BASE-T1L interface also supports Single-pair Power over Ethernet (SPoE) and be used for powering the system via an Arduino shield implementing the required power circuitry.
WiFi connectivity is provided via the on-board NINA-W102 multiradio wireless MCU module with internal antenna.
Power can be supplied either via the USB-C connector or via a 2-pin terminal block. The supported input voltage range is 5 V to 28 V.
The system is accompanied by an open-source software stack and associated collateral, enabling a complete experience from evaluation, and prototyping, all the way to production firmware and application development. The open-source software stack also includes drivers and example applications for a wide variety of ADCs, DACs, sensors, and other devices commonly used in industrial applications, further accelerating the development process. An external programmer such as the MAX32625PICO DAPLink, or any other similar programmer supporting the SWD interface, enables firmware programming and debug. The system’s firmware is based on Analog Devices’ open-source no-OS framework which includes all the tools required for embedded code development and debugging as well as libraries, enabling host-side connectivity for system configuration and data transfer over the UART, USB, WiFi, and 10BASE-T1L interfaces.
APPLICATIONS
- Factory automation
- Process control
- Intelligent buildings
- Secure field instruments
- Internet of Things
Resources
AD-SWIOT1L-SL
Software-configurable Analog and Digital I/O with 10BASE-T1L Evaluation and Development Platform
Product Detail
The AD-SWIOT1L-SL provides a complete software and hardware platform for prototyping intelligent, secure, network capable field devices.
The design incorporates the AD74413R Quad-Channel, Software Configurable Input and Output and the MAX14906 Quad-Channel Industrial Digital Output/Digital Input ICs, allowing the multiplexing of several analog and digital functions on four channels which can be independently configurable through software to act as:
- voltage output / input
- current output / input
- digital input / output
- RTD measurement
A 10 Mbps single-pair Ethernet link, using the ADIN1110 10BASE-T1L MAC/PHY, enables remote data acquisition and device configuration. The 10BASE-T1L interface can also be used for powering the system via the Single-pair Power over Ethernet (SPoE) technology using the LTC9111 Powered Device (PD) controller. This way, power and data for the system is provided over the same cable to significantly simplify the cabling infrastructure and cost.
For applications requiring high current capabilities, the system can be powered from an external 24 V supply and up to 1.2 A can be output on any of the channels configured as digital outputs. The power supply solution also includes the ADP1032 high performance, isolated micropower management unit (PMU) to provide power and digital control for software configurable I/O devices in one of the most compact formats. The LT8304 Micropower No-Opto Isolated Flyback Converter completes the power tree to provide isolated power to the digital part of the design.
The on-board MAX32650 Ultralow Power ARM® Cortex®-M4 Microcontroller exposes all the necessary debug and programming features to enable a complete software development experience with the system. It is coupled with a 1 Gb (128 MB) external RAM and a 64 Mb (8 MB) external flash memory to meet the most demanding applications and provide the flexibility to implement any protocol stack. Security features are enabled by the MAXQ1065 security coprocessor.
The system is accompanied by an open-source software stack and associated collateral, enabling a complete experience from evaluation and prototyping all the way to production firmware and applications development. An external programmer such as the MAX32625PICO MAXDAP Programming Adapter, or any other similar programmer supporting the SWD interface, is required to enable firmware programming and debug. The system’s firmware is based on Analog Devices’ open-source no-OS framework which includes all the tools required for embedded code development and debugging as well as libraries enabling host-side connectivity for system configuration and data transfer over the UART or the 10BASE-T1L interfaces. A PC application with a user-friendly graphical interface is provided to enable easy system configuration and displaying the acquired data in different ways.
I/O | |
Channels | 4 Software Configurable IO channels |
Digital input | Type 1 and 3, or Type 2 |
Digital output | High-Side (HS) Switch or Push-Pull (PP) Driver |
Analog input | Voltage (0 V to 10 V), Current (0 mA to 25 mA) |
Analog output | Voltage (0 V to 11 V), Current (0 mA to 25 mA) |
RTD measurements | 2-wire RTD (0 Ω to 1 MΩ) |
Computing Resources | |
CPU | MAX32650 Ultra-Low-Power Arm Cortex-M4 with FPU-Based Microcontroller (MCU) with 3 MB Flash and 1MB SRAM |
Memory | 1 Gb RAM |
Storage | 64 Mb QSPI Flash |
Connectivity | |
Ethernet | 10BASE-T1L |
Power Supply | |
External power | 24 DC @ 6A |
Power over Ethernet | SPoE class 12 |
Operating Conditions | |
Temperature range | -25°C to 60°C |
Resources