EV-Battery Pack Design

EV - Battery Pack Design

A comprehensive guide to designing, developing, and optimizing battery packs for electric and hybrid vehicles. 

About the EV - Battery Pack Design Training

This course provides an in-depth understanding of battery pack design for electric and hybrid vehicles (xEVs). Focusing on both the technical and practical aspects, it covers the latest advancements in battery technologies, design considerations, thermal management, and integration strategies. By the end of this course, you will have the expertise needed to design and optimize efficient, high-performance battery packs for xEVs. 

Learning Experience

Self-Paced Learning
Tips & Tricks
Downloadable Practice Files
Technical Screencasts
Certificate Assessments
Lots of Projects to Practice

EV - Battery Pack Design Training Highlights

This comprehensive course equips you with the skills to design, analyze, and innovate battery packs for electric and hybrid vehicles. From module configuration to safety protocols, explore every aspect of creating efficient and reliable energy storage systems for modern xEVs.

100+ Lessons

Covering basic principles to advanced techniques

35+ Hours

Of focused learning

15+ Industry Standards

Including ISO 26262, IEC 62133

Masterclass Sessions

With industry experts

At the End of the Course, You’ll Be Able To:

  1. Understand the key design principles and requirements for creating efficient and reliable battery packs for xEVs. 
  2. Apply the latest techniques in thermal management to ensure battery performance and longevity. 
  3. Learn how to optimize energy density, efficiency, and longevity in battery pack designs. 
  4. Gain knowledge of ISO 26262, IEC 62133, and other standards critical for battery safety and performance. 
  5. Understand how battery packs integrate with other EV components like motors, inverters, and controllers. 
  6. Develop the skills to diagnose and troubleshoot battery pack performance issues. 

EV-Battery Pack Design Training Topics

EV-Battery Pack Design

Battery Pack Design Fundamentals

EV-Battery Pack Design

Energy Storage Systems (ESS)

EV-Battery Pack Design

Cell Selection and Configuration

EV-Battery Pack Design

Thermal Management

EV-Battery Pack Design

Battery Management System (BMS)

EV-Battery Pack Design

Charging and Discharging Techniques

EV-Battery Pack Design

Safety and Compliance

EV-Battery Pack Design

System Integration

EV-Battery Pack Design

Emerging Technologies in Battery Design

EV-Battery Pack Design

Lab Recorded Sessions - xEV Battery Pack Design

EV-Battery Pack Design

Masterclass Videos

Best Value

EV – Essentials

  • EV basics(jaya)
  • Overview of components
  • Powertrain systems
  • Fundamentals of architecture

Best Value

Energy Storage System

  • Key storage principles
  • Battery chemistries
  • Industry standards
  • Role in EV mobility

Best Value

Battery Pack Design

  • Robust design processes
  • Diagnostics
  • Safety standards
  • Integration expertise

Best Value

Battery Management System

  • BMS architecture
  • Fault detection
  • Optimization tools
  • Advanced troubleshooting

Best Value

High Voltage Systems

  • High voltage design 
  • Advanced safety protocols
  • International standards
  • EV applications

Best Value

Thermal Management System