Transform Conventional Vehicles into Electric Powerhouses with Advanced Retrofit Solutions
EV Retrofitment Solution Kit
The EV Retrofitment Solution Kit offers a comprehensive, hands-on approach to converting traditional vehicles into electric vehicles (EVs). This innovative kit includes everything you need to explore the entire retrofitting process, from system design and integration to testing and performance optimization. You’ll learn to implement state-of-the-art motor control, battery management, and energy recovery systems, ensuring that retrofitted vehicles meet the highest performance and safety standards. Gain the expertise to lead the EV revolution by transforming conventional vehicles into eco-friendly electric powerhouses.
Prepare yourself for a future where retrofitting becomes a key driver in the EV revolution.
- Experiments and Learning Modules
Master EV Retrofitting Techniques
Gain comprehensive knowledge and practical skills to convert internal combustion engine vehicles into fully functional electric vehicles, using cutting-edge technology and tools.
Expertise in Vehicle System Integration
Learn how to integrate electric motors, batteries, and control systems into existing vehicle frameworks, ensuring smooth operation and enhanced performance.
Advanced Troubleshooting and System Diagnostics
Acquire expert troubleshooting skills to diagnose and resolve technical challenges during the retrofit process, ensuring the safety, efficiency, and reliability of converted vehicles.
Optimize Vehicle Performance
Learn to optimize retrofitted vehicles for performance, energy efficiency, and longevity, using data-driven insights to refine battery management, motor control, and regenerative braking systems.
System Functionality Testing
Ensure all components, including the electric motor, battery, throttle, pedal assist, and brake levers, function seamlessly after installation. Verify smooth operation under various conditions to ensure vehicle safety.
Battery Management and Safety Features
Test and integrate battery management systems (BMS) to monitor battery health, manage charge/discharge cycles, and implement safety mechanisms to prevent overcharging or overheating.
Motor Functionality and Control
Implement advanced motor control systems and evaluate their effectiveness under different operational demands. Learn how to optimize motor performance for durability, speed, and efficiency.
Dynamic and Static Load Testing
Simulate real-world driving conditions to evaluate the retrofitted vehicle’s response to various loads and operational stresses. Ensure structural integrity and performance across different driving scenarios.
Throttle and Pedal Assist Optimization
Fine-tune the throttle and pedal assist system to achieve an optimal balance between acceleration, energy use, and battery life, ensuring the retrofitted vehicle meets performance expectations.
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
Explore our success stories to see how we have helped businesses like yours overcome challenges and achieve tangible results.
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