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- Program Highlights
The Advanced Nanodegree Program in EV Engineering, Design, Simulations, and Analysis for Electrical & Electronics Engineers is a comprehensive 24-week training program tailored for students and professionals in the electrical and electronics domains. It covers the full spectrum of electric vehicle engineering—from EV architecture, battery technologies, and motor control to power electronics, powertrain systems, and simulation-based design. Participants gain hands-on experience with industry-standard tools such as MATLAB, Simulink, QSS & ADVISOR toolboxes, and ANSYS for system modeling, circuit design, and structural analysis. With a strong emphasis on power electronics, circuit design, and vehicle simulations, the program equips learners with practical, job-ready skills to innovate and thrive in the evolving EV industry.
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- Admission Closes on 1st Nov
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- Career Opportunities
- EV Design & Prototyping
- Battery Management Systems (BMS) Development
- Powertrain Engineering for Electric Vehicles.
- MATLAB/Simulink Modeling & Simulation for EVs
- Thermal Engineering for Electric Vehicles
- Power Electronics Design & Development
- Structural Analysis Using CAE Tools
- Electric Vehicle Research & Development (R&D)
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EV Design Engineer: Creating and developing electric vehicle design concepts.
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Battery Management System Specialist: Designing and managing efficient battery management systems.
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Powertrain Engineer: Enhancing electric vehicle powertrain design and performance.
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Power Electronics Engineer: Developing reliable power electronics for EV systems.
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MATLAB-Simulink Simulation Engineer: Modeling and simulating EV systems using MATLAB and Simulink.
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Thermal & Structural Analyst: Performing thermal and structural evaluations of EV components.
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R&D Engineer (EV Technologies): Researching and innovating in electric vehicle technologies.
- EV Architecture Design: Expertise in designing vehicle layouts and powertrain systems.
- MATLAB/Simulink Proficiency: Skills in simulation and system modeling.
- Circuit and PCB Design: Expertise in designing circuits using Proteus and KiCad.
- Global Standards Compliance: Understanding international EV and powertrain standards.
- Thermal Analysis: Skills in optimizing heat dissipation and cooling systems.
- Power Electronics Development: Knowledge of inverter and converter design.
- Structural Analysis using ANSYS: Skilled in performing structural integrity and durability analysis of EV components.
- Simulation and Modeling: Proficiency in system and component simulation for EVs.
- Logic Circuitry: Understanding Boolean algebra and logic gates for circuit design.
- EV Modernization: Skills to transition ICE systems to EV frameworks.
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- Tata Motors
- Mahindra Electric Mobility Limited
- Hero Electric
- Ather Energy
- Ola Electric
- TVS Motor Company
- Bajaj Auto
- MG Motor India
- Hyundai Motor India
- Ashok Leyland
- JBM Auto
- Kinetic Green Energy & Power Solutions
- FOR ENTERPRISE
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- Program Outcomes
- Program Curriculum
Module 1: EV Engineering Essentials Part I and II
- Module Description:
- In this foundational module, you’ll explore the essential components and technologies of electric vehicles, covering the transition from internal combustion engines (ICE) to EVs. This part covers EV design principles, key subsystems, and safety considerations, along with battery technologies, power electronics (inverters, converters), and motor systems, with a focus on control strategies and efficiency optimization. You’ll also gain insights into vehicle electrification, voltage distribution, and the latest charging technologies, including standards and fast-charging solutions.
- Module Details:
- Starting with EV Technology: Overview of Electric Vehicles, Components, Key Technologies.
- Understanding ICE to EV Transition: Key Differences, Benefits, Challenges.
- Electric Vehicle Engineering: EV Design Principles, Key Subsystems, Safety Considerations.
- Battery Technology for EV Systems: Battery Chemistries, Energy Density, Charging Cycles
- Power Electronics for EV Systems: Inverters, Converters, Power Management.
- Motor Systems for Electric Vehicles: Types of Motors, Control Strategies, Efficiency Optimization.
- Vehicle Electrification Systems: Vehicle Wiring, Voltage Distribution, High and Low Voltage Components.
- Electric Vehicle Charging Technology: Charging Infrastructure, Standards (CCS, CHAdeMO), Fast Charging Solutions.
Module 2: Power Electronics and Circuit Design for Electrical and EV Systems
- Module Description:
- This module provides a robust foundation in power electronics and circuit design specific to EV systems. Beginning with semiconductor electronics and diode configurations, you’ll explore rectifiers, filters, clippers, and voltage doubler circuits. Special-purpose diodes and advanced devices like BJTs, FETs, MOSFETs, and IGBTs are introduced, along with amplifier circuits for operational and differential applications. You’ll learn about number systems and logic gate systems, concluding with Proteus-based circuit designing for hands-on practice in simulating circuit components for EV systems.
- Module Details:
- Introduction to Semiconductor Electronics
- Semiconductor and Diode Configuration
- Rectifiers and Filters in Electronics Systems
- Clippers in Electronic Systems
- Clamper & Voltage Doubler Circuits
- Special Purpose Diodes
- BJT and FET Devices
- MOSFET and IGBT Devices
- Amplifier Circuits (Operational & Differential)
- Number Systems and Conversions
- Boolean algebra and logic gate systems
- Proteus based Circuit Designing
- Altium based PCB Design for EV systems
Module 3: Matlab- Simulink, Qss & Advisor Toolbox For Ev Design
- Module Description:
- MATLAB and Simulink are essential for EV system modeling, and this module provides the foundations. You’ll start with MATLAB basics for programming and mathematical modeling, progressing to Simulink for system block diagram modeling. Using the Advisor Toolbox, you’ll simulate vehicle powertrains and explore the QSS Toolbox for quasi-static performance analysis. These tools will enable you to design, develop, and simulate various EV components.
- Module Details:
- Essentials of MATLAB: Programming Basics, Mathematical Modeling
- Design, Develop and Plot in MATLAB: Creating Graphs, Handling Data, Plot Customization
- MATLAB Simulink: Block Diagrams, System Modeling
- Understanding Advisor Toolbox: Vehicle Powertrain Design, Simulations for EVs
- Understanding QSS Toolbox: Quasi-Static Simulation, Performance Analysis for EVs
- Essentials of MATLAB: Programming Basics, Mathematical Modeling
Module 4: Advanced Certification in Electric Vehicle Design and Simulation using MATLAB, SIMULINK, and QSS
- Module Description:
- This advanced module leverages MATLAB-SIMULINK skills to model complex EV simulations. You’ll cover EV architecture, including force analysis (aerodynamic drag, rolling resistance), inverter design, and thermal management. Advanced Simscape modeling provides simulations for electrical, mechanical, and thermal EV systems, while QSS and ADVISOR toolboxes are used for energy efficiency analysis and optimization.
- Module Details:
- Road Load Understanding: Forces Acting on Vehicles, Load Distribution
- Road Load Analysis: Modeling Aerodynamic Drag, Rolling Resistance, Gradient Forces
- Inverter Design and Modeling: Sizing, Efficiency, Thermal Management
- Advanced Simscape Modeling: Electrical, Mechanical, Thermal Modeling for EV Systems
- QSS and ADVISOR Toolbox Applications: Vehicle Design Simulations, Energy Efficiency Analysis
- BMS Modeling and Energy Analysis: Battery Performance Modeling, Energy Flow Simulations
- Road Load Understanding: Forces Acting on Vehicles, Load Distribution
Module 5: Advanced Powertrain Development: Technologies and Innovations for Electric Vehicles
- Module Description:
- This module offers an in-depth study of powertrain systems, focusing on BMS hardware and software essentials. You’ll cover battery cell balancing, thermal management, and layout design, along with powertrain standards and international compliance requirements. The curriculum includes motor sizing, control strategies, and power electronics for improved efficiency. You’ll also engage in powertrain simulations to optimize performance and reliability
- Module Details:
- Essentials of EV Powertrain: Powertrain Components, Design Considerations
- Powertrain in Detail: Hardware and Management: Powertrain Layouts, Transmission, Energy Distribution
- Powertrain Standards and Industry Studies: International Standards for Powertrain Design, Compliance
- Power Electronics for Powertrain: Power Conversion, Efficiency, Reliability
- Motor Technology for Powertrain Systems: Motor Sizing, Control Strategies, Efficiency Improvements
- Powertrain Modelling and Simulations: Simulating Powertrain Performance and Efficiency
Module 6: Certification Course in ANSYS Engineering for Electric Vehicles: Fundamentals to Advanced Structural Analysis
- Module Description:
- Using ANSYS, this module teaches you structural and thermal analysis for EV components. You’ll start with CAD and CAE tools, studying finite element analysis (FEA) and material properties for EVs. This hands-on module includes model setup, meshing, boundary conditions, and structural analysis, concluding with heat transfer simulations to manage thermal dissipation.
- Module Details:
- Introduction to CAD/CAE and ANSYS: Overview of CAD Tools, ANSYS for Engineering Design
- Fundamentals of FEA and Material Properties: Finite Element Analysis, Material Selection for EVs
- ANSYS Project Setup and Geometry Handling: Building CAD Models, Importing into ANSYS
- Meshing, Analysis Setup, and Structural Analysis: Mesh Generation, Boundary Conditions, Load Applications
- Heat Transfer Analysis: Thermal Analysis, Heat Dissipation in EV Systems
- Modal Analysis in ANSYS
- CFD Analysis: Computational fluid analysis for EV Systems
- Industrial case studies:ANSYS based 3D Analysis
- Skills Covered
EV Architecture Design
Battery Optimization
MATLAB/Simulink Proficiency
Circuit and PCB Design
Global Standards Compliance
Thermal Analysis
Power Electronics Development
Simulation and Modeling
Logic Circuitry
EV Modernization
- Benefits
- Strong Foundation: Learn EV basics and essential technologies.
- Hands-On Experience: Gain practical skills with industry-standard tools.
- Job-Ready Skills: Acquire the competencies needed for immediate employability.
- Sustainability Focus: Be part of the green and innovative EV industry.
- Career Kickstart: Begin a promising career in the high-demand EV sector.
- Skill Enhancement: Upgrade expertise to stay competitive in the EV industry.
- Tool Mastery: Gain hands-on experience with MATLAB, ANSYS, and design software.
- EV Integration: Learn to integrate systems for real-world EV challenges.
- Career Growth: Open doors to higher roles in a growing industry.
- Industry Alignment: Stay updated with the latest EV technologies and standards.
- EV Systems Expertise: Comprehensive understanding of electric vehicle components and technologies.
- Battery Management: Skills in optimizing battery health, energy density, and charging cycles.
- Powertrain Design: Proficiency in developing and optimizing EV powertrains for performance.
- MATLAB/Simulink Modeling: Expertise in simulating EV components and systems using MATLAB and Simulink.
- ANSYS for Analysis: Ability to conduct structural and thermal analysis of EV systems using ANSYS.
- Charging Infrastructure: Knowledge of EV charging standards, infrastructure, and fast- charging solutions.
- Power Electronics: Skills in designing and optimizing inverters, converters, and power management systems.
- Thermal Management: Understanding cooling systems and heat dissipation for efficient EV operation.
- ICE to EV Transition: Expertise in transitioning internal combustion engine vehicles to electric.
- EV Innovation: Ability to lead and contribute to advancements in sustainable EV technologies.
- Projects
Advanced EV Powertrain and Battery Pack Modeling and Simulations
Develop and simulate a complete EV powertrain and battery pack model, analyzing performance and energy efficiency.
Design and Optimization of an Electric Powertrain
Design an optimized powertrain for urban EVs, focusing on thermal management and charging solutions for extended range.
Advanced EV design and simulation analysis
Conduct advanced design and simulation of EV components, analyzing stress, safety, and performance factors.
Advanced Non-Linear Transient Analysis of Engineering Component System
Perform transient analysis on engineering components under dynamic loads, assessing non-linear behavior.
- Mode of Learning
Complete on-site
classroom program
Location: Mumbai
LIVE + Recorded + Onsite + Hardware + Workshop
LIVE + Weekend on-site sessions
Location: Pune, Delhi
LIVE + Recorded + Hardware + Workshop
Location: Global
- Tools Covered
Hardware Labs Access
Two-Wheeler Simulator & Test Bench
The 2 Wheeler Simulator & Testbench focuses on evaluating EV battery performance, including voltage, current, discharge profiles, and capacity testing under various load conditions. It also covers Battery Management System (BMS) testing and dynamic load analysis to optimize electric bike performance and safety.
LAB 1
Charging Station Simulator and Test Bench
The Charging Station Simulator and Test Bench covers experiments focusing on the efficiency, behavior, and safety features of EV charging systems. It includes the measurement of voltage, current, and power consumption during charging, and tests security features like RFID and OTP-based authentication. Key areas include energy efficiency analysis, protection unit testing, and charging behavior under different conditions
LAB 2
EV In-house manufacturing & Development KIT
The EV In-house Manufacturing & Development KIT provides all the essential tools and components for building and prototyping electric vehicles, supporting the entire development process from concept to production. It includes equipment for battery monitoring, motor control, system integration, and real-time data analysis, ensuring seamless development for EV projects
LAB 5
Hardware Lab Attendees
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