MAXQ1065
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MAXQ1065

具有ChipDNATM的超低功耗加密控制器,适用于嵌入式器件

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用于信任根、身份验证、安全引导和固件更新、加密以及TLS支持的加密功能

Info : 推荐新设计使用 tooltip
Info : 推荐新设计使用 tooltip
产品详情
特性
  • 使用NIST P-256曲线的ECC计算引擎
    • FIPS-186 ECDSA
    • NIST SP800-56Ar3密钥交换,使用静态统一模型(0e, 2s, ECC CDH),使用SHA-256进行一步密钥派生
    • 使用SP800-90B/A标准进行板载EC密钥生成
  • SHA-2计算引擎
    • NIST FIPS-180-4 SHA2-256、HMAC-SHA-256
  • 具有128和256密钥大小的AES计算引擎
    • ECB、CBC、CCM、GCM密码模式
    • CBC-MAC、CMAC消息认证代码
    • 使用SP800-90A/B标准进行板载AES密钥生成
  • 真随机数发生器(TRNG)
    • 符合NIST SP800-90A/C标准
    • NIST SP800-90B熵源
  • 安全通信
    • TLS/DTLS 1.2握手和记录层
      • ECDSA身份验证
      • ECDHE密钥交换
      • AES-GCM或CCM记录层
    • 基于SP800-56Ar3的密钥交换
  • X.509 v3证书支持
    • 根证书和设备证书存储
    • 板载证书链验证
    • 在支持的曲线上进行ECDSA验证
  • 用于主机微控制器通信的高速接口
    • 10MHz SPI,提供模式0或模式3操作
  • 具有ChipDNA PUF加密功能的8KB用户闪存阵列
  • 唯一、不可更改的工厂编程ID号
  • 防篡改输入可检测系统级入侵
  • 安全工厂配置服务
  • 12引脚、3mm x 3mm TDFN封装
  • -40°C 至 +105°C,1.62V 至 3.63V
  • 低功耗工作:待机模式下为100nA(典型值)

ChipDNA是Maxim Integrated Products, Inc.的商标。
DeepCover是Maxim Integrated Products, Inc.的注册商标。




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MAXQ1065是一款安全协处理器,提供整套加密功能,用于信任根、相互认证、数据机密性和完整性、安全引导、安全固件更新以及通过通用密钥交换和批量加密或完整的TLS支持进行安全通信。该器件集成了用于存储用户数据、密钥、证书和计数器的8KB安全存储空间,以及用户定义的访问控制和生命周期管理。器件还有可配置的输出引脚和防篡改输入引脚。可通过标准SPI接口访问命令。

MAXQ1065具有低功耗,适合电池供电的应用,而且尺寸非常小,引脚数大幅减少,可轻松集成到医疗和可穿戴设备中。其使用寿命和工作范围都很适合长期部署在恶劣环境中。MAXQ1065的生命周期管理便于在器件的主要生命周期阶段采用灵活的访问控制规则。该器件还提供安全密钥加载协议和安全出厂预编程。

DeepCover®嵌入式安全解决方案将敏感数据隐藏在多层先进的安全保护之下,从而提供非常安全的密钥存储。为了防止设备级安全攻击,实施了侵入性和非侵入性对策,包括主动芯片屏蔽、使用ChipDNA PUF技术的密钥加密存储以及外部可调用的算法子例程。

 

应用

  • 反克隆、反伪造、功能和使用控制
  • 证书管理
  • 相互认证
  • 安全引导、安全固件更新
  • 安全通信:密钥交换、TLS
  • 安全数据存储
  • 系统级防篡改保护和完整性

产品技术资料帮助

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ADI公司所提供的资料均视为准确、可靠。但本公司不为用户在应用过程中侵犯任何专利权或第三方权利承担任何责任。技术指标的修改不再另行通知。本公司既没有含蓄的允许,也不允许借用ADI公司的专利或专利权的名义。本文出现的商标和注册商标所有权分别属于相应的公司。

参考资料

参考资料

视频

产品型号 引脚/封装图-中文版 文档 CAD 符号,脚注和 3D模型
MAXQ1065GTC+
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MAXQ1065GTC+T
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软件和型号相关生态系统

软件和型号相关生态系统

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评估套件

评估套件 3

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AD-APARD32690-SL

Arduino Form-factor Development Platform Based on MAX32690 ARM Cortex-M4 Microcontroller

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AD-APARD32690-SL

Arduino Form-factor Development Platform Based on MAX32690 ARM Cortex-M4 Microcontroller

Arduino Form-factor Development Platform Based on MAX32690 ARM Cortex-M4 Microcontroller

特性和优点

  • Allows prototyping of intelligent, secure, and connected industrial field devices
  • Arduino Mega-compatible form factor
  • Two Pmod™-compatible connectors
  • ARM Cortex-M4 Ultra Efficient Microcontroller with integrated Bluetooth 5.2 LE
  • WiFi connectivity
  • Long-range, single-pair 10BASE-T1L Ethernet interface
  • Built-in security for root-of-trust, mutual authentication, data confidentiality and integrity, secure boot, and secure communications
  • Open-source software stack

产品详情

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
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MAXQ1065EVKIT

MAXQ1065评估套件

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MAXQ1065EVKIT

MAXQ1065评估套件

MAXQ1065评估套件

特性和优点

  • 演示MAXQ1065插座板的功能
  • 与树莓派4 B型、树莓派3 B/B+型和树莓派2 B型兼容
  • 与Arduino® UNO母板兼容
  • 提供用于USB 2.0转SPI通信的USB连接器
  • 用于定制接线的简便连接器
  • 工作电压:1.8V和3.3V
  • 在此页面顶部申请完整开发人员软件时提供的软件开发套件(SDK)

产品详情

MAXQ1065 SPI评估套件(EV套件)提供通过个人计算机、Raspberry Pi®、Arduino®兼容板或任何其他母板使用MAXQ1065GTC+功能所需的硬件和软件。该评估套件包括五个采用12引脚TDFN封装的MAXQ1065GTC+器件和一个MAXQ1065 12引脚TDFN评估插座板。

该器件可快速轻松地为嵌入式互联产品实施全面安全保护,无需开发固件。MAXQ1065协处理器可以从一开始就导入设计或添加到现有设计中,以保证器件的机密性、真实性和完整性。

应用

  • 反克隆、反伪造、功能和使用控制
  • 证书管理
  • 相互认证
  • •安全引导、安全固件更新
  • 安全通信:密钥交换、TLS
  • 安全数据存储
  • 系统级防篡改保护和完整性
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AD-SWIOT1L-SL

Software-configurable Analog and Digital I/O with 10BASE-T1L Evaluation and Development Platform

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AD-SWIOT1L-SL

Software-configurable Analog and Digital I/O with 10BASE-T1L Evaluation and Development Platform

Software-configurable Analog and Digital I/O with 10BASE-T1L Evaluation and Development Platform

特性和优点

  • Allows prototyping of intelligent, secure, and connected process control devices
  • Ultimate flexibility in I/O interface configurability through software
  • Embedded processing for implementing self-capable edge devices
  • Long-range single-pair 10BASE-T1L Ethernet interface
  • Power delivery via the 10BASE-T1L interface or from a field supply enabling both low and high power applications
  • Fully isolated design for safe operation
  • Industry standard form factor compatible with DIN rail mounts

产品详情

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.

Specifications
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
工具和仿真

工具及仿真模型 1

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