Unlock the potential of high-performance battery systems with tools for testing, optimizing, and managing the energy backbone of electric vehicles.
The Advanced Battery System KIT is designed to provide you with the tools and expertise needed to develop, test, and optimize high-performance battery systems for electric vehicles and other advanced applications. This kit equips you with the latest in battery technology, including monitoring systems, thermal management, and energy efficiency tools. With hands-on experience, you’ll learn to design safe, reliable, and efficient battery systems that can meet the demands of modern electric mobility, ensuring long-lasting performance and safety in every charge.
From BMS integration to energy efficiency, this kit empowers you to build reliable, high-performance battery solutions for the future.
- Learning Outcomes
Master Battery System Design and Testing
Gain in-depth knowledge of designing advanced battery systems, covering everything from cell selection and pack assembly to charging/discharging protocols and safety management.
Optimize Energy Storage and Efficiency
Learn to maximize battery efficiency by optimizing energy storage, reducing power loss, and improving thermal management, ensuring batteries perform efficiently even under demanding conditions.
Develop Advanced Troubleshooting Skills
Acquire critical skills to diagnose, test, and troubleshoot complex battery systems, ensuring they operate safely and reliably under different operating conditions.
Implement Battery Management Systems (BMS)
Learn to implement and refine BMS solutions that monitor battery health, manage charging cycles, and ensure overall safety and longevity for electric vehicle battery systems.
- Experiments and Learning Modules: Comprehensive Mastery of Battery System Design
Battery Health Monitoring and Diagnostics
Learn to develop and implement advanced battery health monitoring systems that track voltage, current, and temperature across multiple cells. Diagnose performance issues and implement solutions to maintain optimal battery performance over time.
Thermal Management for Battery Longevity
Implement thermal management systems to prevent overheating, improve energy efficiency, and extend battery life. Develop thermal shutdown circuits and ensure batteries remain within safe operating temperatures under various load conditions.
Energy Efficiency and Load Balancing
Explore techniques to maximize energy efficiency, reduce power loss, and implement load balancing systems to ensure uniform energy distribution across battery packs. Test efficiency under dynamic load conditions to optimize for real-world performance.
Battery Fault Protection Systems
Develop fault protection circuits to safeguard battery packs against common issues like overvoltage, undervoltage, and short circuits. Learn to design and implement safety features such as remote emergency shutdowns and overcurrent protection.
Battery Management System (BMS) Testing and Optimization
Master the use of BMS for real-time monitoring of battery health and energy flow. Learn to optimize BMS algorithms for accurate State of Charge (SoC) and State of Health (SoH) estimation, ensuring efficient charging and discharging cycles.
Battery Aging and Capacity Analysis
Perform in-depth analysis of battery aging to predict capacity loss over time. Learn to test batteries under different charging and discharging cycles to evaluate degradation and implement solutions for prolonging battery life.
Comprehensive EV & Embedded Hardware Testing Kits for Mobility applications.
1. Two Wheeler Hardware simulator & Testbench
Specialized training in two-wheeler EV sector equips engineers and students with skills in EV performance testing, battery management, motor load analysis and safety.
2. Charging station simulator and Testbench
Hardware training in EV charging technology prepares learners to design and maintain efficient, safe, and scalable EV charging infrastructure covering international standards, safety protocols, and energy management.
3. EV Retro-fitment solution
Offering skills for converting ICE vehicles to electric, meeting market needs and promoting sustainable transport. It covers technical expertise, safety, and compliance, leading to job and entrepreneurial opportunities.
4. Hydrogen Fuel Cell System Test Kit
This kit offers testing and optimization for fuel cell stacks, hydrogen flow, and energy output, making it a valuable tool for next-gen mobility solutions.
5. EV Embedded System development KIT for advanced vehicle application
Offering a comprehensive solution for designing, testing, and developing advanced vehicle applications, including battery management, motor control, and real-time vehicle diagnostics.
6. EV In-house manufacturing & Development KIT
Kit provides all the essential tools and components for building and prototyping electric vehicles, supporting the entire development process from concept to production.
7. EV 2-Wheeler Diagnostic KIT
Comprehensive toolset designed to diagnose, troubleshoot, and optimize electric two-wheelers. Equipped with advanced testing equipment and software.
8. Advanced Battery System KIT
Designed for developing, testing, and optimizing high-performance battery systems. It provides tools for monitoring battery health, managing thermal conditions, and ensuring efficient energy storage
Hardware Labs
Center of Excellence at Industry & Academia
The EV Embedded System Test KIT , also known as Hardware Lab – 5, provides participants with a hands-on learning experience focused on embedded systems for electric vehicles (EVs). Learn to integrate and test embedded components such as sensors, actuators, and controllers using the EV Embedded System Test KIT.
The 2-Wheeler Chassis Dynamometer KIT Hardware Enabled E-Mobility Workshop, also referred to as Hardware Lab – 4, is designed to provide participants with practical, hands-on experience in testing and analyzing the performance of electric two-wheelers.
The 2-Wheeler Test Bench KIT Hardware Enabled E-Mobility Workshop—also known as Hardware Lab – 3—offers participants a hands-on learning experience in testing and validating electric two-wheeler performance.
The EVSE (Electric Vehicle Supply Equipment) Testing Kit Hardware Enabled E-Mobility Workshop, also known as Hardware Lab – 2, offers a comprehensive, hands-on learning experience for participants interested in the charging infrastructure that powers electric vehicles (EVs).
15+ State of the Art E-Mobility COE Labs at
- R&D Academia
Client results
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