Course level:Intermediate

Certification Course in Advanced BMS & Battery Pack Engineering for EVs

The advanced course delves into the design, development, and integration of Battery Management Systems (BMS) and battery pack engineering specifically for electric vehicles (EVs). The course covers both the hardware and software aspects of BMS, focusing on battery health monitoring, cell balancing, thermal management, and safety standards. Through real-world case studies and hands-on projects, students will gain expertise in developing and managing efficient and reliable battery systems for EVs.

At a glance

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7,999.00

Course Curriculum

Welcome to the Course!

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Module 1: BMS Hardware
In this module, students will explore the hardware components and configurations that make up a Battery Management System (BMS). It covers the design, integration, reliability, and testing of BMS hardware. Industry case studies will be examined to highlight real-world challenges and innovations. The module also touches on the economic impact of BMS hardware in the EV market, offering insights into the introduction of software control in BMS systems.

Module 2: BMS Software
This module focuses on the software side of BMS, including algorithm development for battery health monitoring. Students will learn how to manage data in BMS software, with examples from the industry, and understand the challenges in software development for BMS. The module also covers advances in BMS algorithms, their integration with EV systems, and market trends. Additionally, it explores security and privacy considerations, along with the principles of cell balancing within the BMS software.

Module 3: Battery Cell Balancing
This module dives deep into the techniques and methods of cell balancing, which is critical for battery pack performance and longevity. Students will learn about industry examples, advancements in cell balancing, and the importance of dynamic cell balancing in Smart BMS systems. The module discusses the challenges and solutions related to cell balancing and its impact on battery safety. Additionally, students will be introduced to thermal management basics and economic considerations in industrial BMS systems.

Module 4: Thermal Management Systems
Thermal management is crucial for the efficient functioning of EV batteries. In this module, students will learn about designing cooling systems for batteries, focusing on hardware considerations and heat management. The module will cover both active and passive cooling technologies and their integration with EV drivetrains. Challenges faced in thermal management and the impact on battery efficiency and lifespan will be discussed. Students will also study the electrical and mechanical design of thermal systems, pack assembly, and the testing processes.

Module 5: Battery Safety, Standards, and Regulations
This module emphasizes the importance of safety in battery design. Students will learn about the industry standards and regulations governing battery safety in electric vehicles. The regulatory landscape for EV batteries, along with real-world case studies, will help students understand the safety measures implemented in practice. This knowledge is vital for ensuring compliance and mitigating risks in battery systems.

Module 6: BMS Communication Technologies
In this module, students will explore various communication protocols used in BMS, such as CAN (Controller Area Network) and LIN (Local Interconnect Network). The module will cover the ISO 11898 standard for CAN in BMS, providing insights into how these protocols ensure reliable communication between the BMS and other EV systems. Advanced communication protocols like FlexRay and Ethernet, which are used in more complex BMS systems, will also be introduced.

Module 7: Advanced Battery Analytics, Monitoring and Lifecycle Management
This module covers techniques for battery monitoring & lifecycle management, which are critical for maintaining battery performance. Students will explore how battery analytics are applied in industry, advancements in monitoring technology, and how they integrate with BMS & powertrain systems. The module includes real-world case studies to highlight the challenges and solutions in battery monitoring, with a focus on maintaining accuracy and reliability.

DIY Projects:

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DIY Projects Included

Project: Development and Integration of a Battery Management System for Electric Vehicles

The project involves designing and implementing an advanced Battery Management System (BMS) using real-time data monitoring and communication protocols to ensure battery health, safety, and efficiency in electric vehicles. The project will focus on key areas such as cell balancing, thermal management, and communication using CAN protocols, ensuring optimal battery performance and longevity.

 

Course Benefits

For Professionals:
  • Expertise in designing and implementing BMS for electric vehicles.
  • In-depth knowledge of communication protocols and battery monitoring technologies.
  • Hands-on experience with real-world BMS projects and industry applications.
  • Enhanced employability in advanced battery and EV-related roles.
  • Knowledge of safety regulations and standards critical to EV battery systems.
For Freshers:
  • Comprehensive understanding of BMS design and development.
  • Exposure to advanced battery technologies and industry standards.
  • Practical experience with software tools and hardware integration for BMS.
  • Strong foundation in battery pack engineering and thermal management.
  • Better job prospects in the EV and battery management sectors.

Technical expertise you will gain

  • Design and develop advanced hardware and software for BMS in electric vehicles.
  • Implement cell balancing, battery health monitoring, and thermal management systems.
  • Integrate BMS with powertrain systems and ensure compliance with safety standards.
  • Work with advanced communication protocols (CAN, LIN, FlexRay) in BMS design.
  • Apply battery analytics and lifecycle management techniques in EV applications.

Who can take this course?

This course is suitable for those who have a basic understanding of electrical and electronic systems, battery fundamentals and familiarity with microcontrollers & communication protocols.

  • Freshers
  • Professionals

Personalized Trainer Support Portal:

  • 24/7 Access to a personalized trainer support portal.
  • One-on-One Mentorship for queries and project guidance.
  • Access to diverse resources, including recorded lectures, reading materials, and practical guides.
  • Dedicated forums for content discussion, insights, and project collaboration.
  • Regular Feedback from trainers for comprehensive understanding and improvement.

At a glance

  • Launching Soon! Stay Tuned!!
7,999.00

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