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    Addressing Design Challenges in EV Charging Infrastructure

    July 25, 2024
    Overcome key design challenges in EV charging and infrastructure with insights into EMI mitigation, power distribution techniques, and bi-directional charging methods. Equip yourself with future-ready skills for optimizing your EV charging design.

    Discover practical engineering solutions for EV charging infrastructure challenges. This guide offers in-depth knowledge of both the technical components and design hurdles, with insights into effective strategies for mitigating electromagnetic interference (EMI), advanced techniques for managing power distribution such as load shedding and peak shaving, and methods for facilitating bi-directional charging. Equip yourself with futureready skills and practical solutions to enhance and innovate within the growing field of electric vehicle infrastructure.

     

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    A Designer's Guide to Lithium (Li-ion) Battery Charging

    This designer's guide helps you discover how you can safely and rapidly charge lithium (LI-ion) batteries to 20%-70% capacity in about 20-30 minutes.

    How automotive-qualified electromagnetic-compliant 3.3V CAN FD transceivers improve ECU performance

    Modern automotive systems rely on ECUs and CAN bus protocols for critical functions. TI's new 3.3V CAN FD transceivers, TCAN3403-Q1 and TCAN3404-Q1, eliminate the 5V rail, simplifying...

    The Basics of Current Sensors

    This article describes the advantages of open-loop sensors over closed-loop current sensors. Examples of LEM and Honeywell open-loop sensors are described.

    Parallel LDO Architecture Design Using Ballast Resistors

    This paper presents a method to calculate the optimum ballast resistance and minimum number of parallel LDOs required to meet a series of system requirements.