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SPI to UART Safety Monitoring Bridge

Fastest BMS Communication Interface that Can Act As a Redundant Microcontroller

产品详情

主要特征

简化框图

Technical Docs

数据资料 SPI to UART Safety Monitoring Bridge Sep 21, 2021

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主要特征

  • Supports Maxim’s Battery Management UART Protocol 
  • Supports ASIL D Functional Safety Requirements
    • Automated On-Chip Communication Verification with Simplified Host Reporting
    • Always-On Daisy-Chain Fault Polling with Fault Type and Fault Location
  • Integrated System Watchdog with Redundant Daisy-Chain Controller
    • Programmable System Recovery
    • Programmable Memory for Daisy-Chain Configuration
    • Programmable Contactor Control
  • Integrated Cell Balancing while Microcontroller is in Sleep Mode
    • Safe Long Term Balancing Monitoring with Programmable Interrupts
  • UART Baud Rate Programmable Up to 4Mbps
  • SPI Interface Up to 10MHz
  • 1.71V to 5.5V Operation
  • Ultra-Low Quiescent Current
  • Operating Temperature Range from -40°C to +125°C
       (AEC-Q100)

应用/用途

  • Battery Management Systems (BMS)
  • Electric and Hybrid Electric Vehicles (EV/HEV)
  • Energy Storage Systems (ESS)

描述

The MAX17851 SPI to UART safety monitoring bridge translates communication from SPI format to universal asynchronous receiver transmitter (UART) format specially designed to interface with Maxim's Battery Management Data Acquisition System.  The safety monitoring bridge enables robust communication with baud rates extending up to 4Mbps in both single and dual daisy-chain system architectures. High throughput, dual UART systems can read 96 cells of battery voltages within 1173us.

The UART is ISO26262 compliant for automotive safety integrity level (ASIL) D systems providing detection of message corruption, delay, loss, and insertion through the embedded UART communication lock step safety measure state machine (LSSM). The {{max_num}} self verifies all communication within the message payload to simplify the software development on the host microcontroller.

Additionally, the MAX17851 monitors the host microcontroller to detect any failures. In the event of a communication failure with the host, the MAX17851 first tries to automatically recover communication. If unsuccessful, it assumes control. The MAX17851 can then optionally re-configure the daisy chain network that allows battery conditions to continue to be monitored.  This allows for continued safe system operation.  Lastly, the MAX17851 provides contactor signalling in the event that the battery conditions fall outside of the programmed range, putting the complete system into a failsafe state.

简化框图

MAX17851: Simplified Application Diagram MAX17851: Simplified Application Diagram Zoom icon

Technical Docs

数据资料 SPI to UART Safety Monitoring Bridge Sep 21, 2021

支持和培训

在Maxim的知识库中搜索技术问题的答案

过滤搜索

Maxim的专业工程师团队也会为您解答相应的技术问题,请访问Maxim的 支持中心