Unlock the potential of high-performance battery systems with tools for testing, optimizing, and managing the energy backbone of electric vehicles.
The 2-Wheeler & 4-Wheeler EV Diagnostic Software KIT provides a robust solution for diagnosing and optimizing the performance of both two-wheel and four-wheel electric vehicles. This kit is equipped with advanced software tools that allow real-time analysis of critical EV components like batteries, motors, controllers, and energy systems. Gain practical experience with comprehensive diagnostics to troubleshoot issues, fine-tune performance, and ensure smooth operation of EVs across various conditions. Whether you’re working on energy efficiency, motor control, or battery health, this kit offers the expertise and tools you need to excel in EV diagnostics.
From BMS integration to energy efficiency, this kit empowers you to build reliable, high-performance battery solutions for the future.
- Learning Outcomes
Master Comprehensive EV Diagnostics
Gain in-depth knowledge of diagnostic techniques to analyze and test essential components in both two-wheeler and four-wheeler electric vehicles, ensuring optimal functionality and performance.
Develop Advanced Troubleshooting Skills
Learn to identify, troubleshoot, and resolve complex issues in electric vehicles, from battery health to motor performance across multiple EV models.
Optimize Energy Efficiency and Performance
Understand how to monitor and optimize key performance indicators, such as energy consumption, motor output, and battery usage, to ensure maximum efficiency and reliability for both 2-wheelers and 4-wheelers.
Hands-On Mastery of Real-Time Software Diagnostics
Use real-time data analysis tools to make data-driven decisions and fine-tune electric vehicles for enhanced performance and energy efficiency.
- Experiments and Learning Modules Comprehensive Diagnostics for 2-Wheelers & 4-Wheelers
Battery Voltage and Current Analysis
Measure and analyze voltage and current across EV components under various load conditions for both two-wheelers and four-wheelers. Identify inefficiencies in the battery system and optimize its performance for extended range and reliability.
Motor Functionality and Control Testing
Diagnose motor performance in real-time under different operational conditions. Learn how to optimize motor control for both two-wheeler and four-wheeler EVs, ensuring maximum efficiency and response.
Energy Consumption and Efficiency Analysis
Conduct in-depth analysis of energy usage in two-wheel and four-wheel EVs under different driving scenarios. Identify areas for improvement in energy management and implement solutions to enhance overall efficiency.
Battery Management System (BMS) Diagnostics
Test and verify the functionality of the BMS for both two-wheeler and four-wheeler EVs, ensuring proper monitoring of battery health, charging cycles, and thermal conditions. Learn to diagnose BMS-related issues to prevent performance degradation and extend battery life.
Dynamic and Static Load Testing
Simulate real-world driving conditions for both vehicle types by applying dynamic and static loads. Analyze how the EVs respond to varying loads, ensuring system integrity and identifying opportunities to improve performance.
Throttle Calibration and Performance Optimization
Fine-tune throttle settings to strike the perfect balance between acceleration, energy consumption, and battery life. This module ensures that both two-wheeler and four-wheeler EVs meet performance expectations while optimizing for energy efficiency.
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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