Nanodegree in EV Modelling & Simulation Engineering

6 Months Nanodegree Program

Nanodegree in EV Modelling & Simulation Engineering

For Electrical & Electronics Engineers

Master the electrical backbone of tomorrow’s mobility — from battery systems and control design to EV simulations and powertrain analysis using MATLAB, Simulink, ANSYS, and Proteus.

Trusted by over 120+ embedded companies worldwide

Program Highlights

Engineer the Electric Future — Power, Control & Simulate with Precision.

Build the skills that power the world’s electric vehicles — from energy systems and control design to simulation-driven engineering.

EV Design Labs: From Circuits to Powertrains

Work hands-on in DIYguru COE simulation labs where you’ll build and test converters, controllers, and full EV systems. Integrate MATLAB-Simulink, Proteus, and ANSYS Electrical to visualize how your circuits translate into real vehicle behavior.

Intelligent System Modeling & Drive-Cycle Optimization

Design and optimize complete EV models across different drive cycles using QSS and MATLAB toolboxes. Analyze energy flow, regenerative braking, and motor efficiency under real-time conditions to improve system performance.

Battery, Control & Thermal Co-Simulation Environment

Simulate BMS logic, motor control, and power electronics under electrical and thermal loads. Experience how temperature, current, and controller design affect battery safety and overall vehicle range.

Adaptive Learning Framework for Engineers

Move from EV fundamentals to advanced simulations through a layered, guided approach. Each module builds upon the previous one, helping electrical and electronics engineers develop complete EV design proficiency without prior automotive experience.

Continuous mentor and technical support

Gain continuous technical mentorship from experts who’ve designed real EV systems. Join live project clinics, simulation reviews, and tool-based troubleshooting sessions to ensure your learning stays industry-aligned.

Embedded KITS

Embedded DIY Kits delivered.

To ensure that the firmware development learning goes alongwith the live classes, we deliver the kit at your doorstep.

Embedded ARM Cortex Based hardware development kit.

Receive a kit developed by DIYguru in collaboration with IIT Delhi, Tadpole Projects, and EVI Technologies.

Enhance your learning with practical, hands-on experience.

Tools included for building and testing EV components.

Software Tools

A Complete Electrical Engineering Pathway into the EV Industry

This Advanced Nanodegree bridges the gap between electrical fundamentals and cutting-edge EV technologies. You’ll design circuits, model complete EV systems, and perform real-time simulations to analyze performance, efficiency, and control. Using industry-standard tools like MATLAB-Simulink, ANSYS Workbench (Electrical), and Proteus, you’ll gain the confidence to innovate in battery systems, converters, and EV control architectures.

Proteus

Circuit Simulation & PCB Design

Simulate embedded circuits and test firmware using Proteus before hardware implementation. Ideal for debugging EV control boards and microcontroller-based modules.

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MATLAB

Data Analysis & Control Design

Use MATLAB for algorithm development, control logic simulation, and battery modeling. Apply analytical tools to design efficient EV powertrain and BMS systems.

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Simulink

Model-Based Design (MBD)

Design, simulate, and validate EV control algorithms with Simulink, connecting block-level models to real-time embedded systems for testing and deployment.

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QSS Toolbox

System Simulation Tools

Perform Quantized State System (QSS)-based simulations to analyze EV system dynamics, improve computation efficiency, and model real-time behavior under load.

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Learn interactively as they break down every detail, making complex Embedded concepts easy to understand and apply.

Experience deep, immersive learning with DIYguru's expert instructors, who bring physical components from our state-of-the-art KITs from Labs directly to your screen.

Curriculum

Syllabus shaped by 120+ Companies

Our DIY curriculum is designed to help embedded companies solve today’s biggest challenges.

Electric Vehicle Essentials – Part 1: Industry Ecosystem & Battery Technology

Gain a complete understanding of EV fundamentals — ecosystem, architecture, and component integration. Learn about vehicle electrification, charging infrastructure, battery systems, and global EV policies driving e-mobility.

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Electric Vehicle Essentials – Part 2: Motors, Electrification & Charging Systems

Master numerical calculations, hybrid system design, and heavy-vehicle electrification. Understand EV safety, powertrain sizing, and high-voltage regulatory standards shaping advanced EV manufacturing.

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MATLAB-SIMULINK Certification Course for EV Design

Learn to model, simulate, and analyze EV systems using MATLAB and Simulink. Gain practical skills in QSS and Advisor toolboxes for performance prediction and drive-cycle-based optimization.

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Certification Course in Electronics & Circuit Design for EV Applications

Understand power electronics, semiconductor devices, and control circuits crucial to EV systems. Design and simulate circuits using Proteus and Arduino for motor control and charging converters.

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Electric Vehicle Design and Simulations with Advanced MATLAB, SIMULINK & QSS

Model advanced EV architectures with MATLAB, Simulink, and QSS. Conduct BMS modeling, energy analysis, and fault simulations for real-world performance testing.

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Advanced Control Systems for EV: MATLAB for Design & Implementation

Learn the advanced techniques of electric vehicle (EV) design and simulation, with a focus on control systems and regulator design using MATLAB.
Understand compensator design, regulator analysis, and model practical systems like DC motors, inverted pendulums, and buck/boost converters.

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Motor Technology and Motor Drive Systems

Explore motor types, control techniques, and power electronics for EV drives. Learn inverter-fed control, torque-speed optimization, and modeling of BLDC, PMSM, and induction motors.

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Advanced Powertrain Development for Electric Vehicles

Learn the practical aspects of electric vehicle powertrain systems. Understand powertrain configurations, modeling, and simulation, while working with tools like SOLIDWORKS and ANSYS & covering key components such as battery management and thermal systems

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Advanced Charging Technologies for EV Systems

Understand EV charging standards, connectors, and V2G systems. Simulate onboard and grid-integrated charging models with MATLAB-Simulink.

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ANSYS Engineering for EV: From Fundamentals to Static Structural Analysis

Perform FEA and structural simulations in ANSYS Workbench. Learn meshing, boundary setup, and static structural analysis relevant to EV chassis and battery systems.

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English Communication for Engineers

To help engineering students and professionals improve their spoken English, technical communication, and presentation confidence for interviews, meetings, and workplace interactions.

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Placement Readiness & Career Preparation

To prepare students for technical and HR interviews, resume building, online assessments, and professional workplace readiness — specifically for roles in EV, Embedded Systems, and Engineering domains.

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Learning Track

Program Outcomes

Simulate, test, and optimize automotive software

By the end of the ADAS & AUTOSAR Advanced Automotive Software Nanodegree, you will be able to:

Design and implement AUTOSAR-compliant software architectures

configure, develop, and integrate software components (SWCs), RTE, and BSW modules using industry tools like DaVinci Configurator and EB Tresos.

Develop and validate ADAS algorithms

design lane detection, object tracking, and path prediction systems using MATLAB & Simulink, integrating real-world sensor data (camera, radar, LiDAR, ultrasonic).

Simulate, test, and optimize automotive software

apply model-based design (MBD) workflows, run Software-in-the-Loop (SIL) and Hardware-in-the-Loop (HIL) tests, and analyze performance in MATLAB’s Automated Driving Toolbox.

Understand and apply Software-Defined Vehicle (SDV) principles

interpret system complexity, communication protocols (CAN, LIN, Ethernet), and ECU-level integration to build scalable, modular automotive software systems.

Deliver industry-ready projects and documentation

complete a capstone project on AUTOSAR architecture design and an ADAS simulation project, demonstrating practical readiness for roles at OEMs, Tier-1 suppliers, and tool vendors.

Gain an industry-recognized certification and career advantage

validate your expertise in automotive software engineering and enhance your career prospects with practical, project-based credentials recognized by leading OEMs and Tier-1 suppliers.

Key Hardware SKILLS DELIVERED

Learn by building — every simulation, every circuit, and every analysis brings you one step closer to becoming an EV systems engineer.

Power Electronics Development

Circuit and PCB Design

Battery Pack Assembly

MATLAB / Simulink Proficiency

Logic Circuitry

Simulation and Modeling

EV Architecture Design

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Program Benifits

Empower your Electrical & Electronics Engineering career with future-ready skills in Electric Vehicle

Gain hands-on experience with industry-standard tools, real-world projects, and certifications that open doors to global roles in next-generation mobility engineering.

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.

Expert Team

Mentors & Industry Experts behind this Program

Our philosophy is simple — you get to have a team of diverse, passionate people who are willing to change the future of education in mobility industry and empowers you to do your best work.

Arindam Lahiri

CEO of the Automotive Skills Development Council (ASDC)

Dr. Bijaya Ketan Panigrahi

Professor, Department of Electrical Engineering, Founder Head, Centre for Automotive Research and Tribology (CART), IIT Delhi

Ramesh BS

Head of Academic Initiatives at Altair | Driving Academic Success | Member ASME steering committee – MEED | OC Member – SAE TIFAN, SAE Baja | Internal Quality Assurance cell (IQAC)

Dr. Harpal Theti

Executive Dean- Corporate Relations & Campus Placements across 30+ Schools & 200+ Courses

Dr Sugumaran Permul

CEO – JV Skills, DIYguru – Malaysia

Anil Chhikara

CEO – Bluebolt Electric | Chairman, Startup India Foundation

Abhishek Dwivedi

Co-Founder EVeez

Buddha Chandrasekhar

Chief Coordinating Officer at AICTE, Ministry of Education, India

Jawaad Khan

CEO & Founder – Tadpole Projects

Rahul Soni

Project Incharge – EVI Technologies

Chinmaya Chetan Biswal

BeepKart-2W | Spinny- 4W | Shuttl – EVs in Employee Logistics | MDI | TML

Ankit Khatri

EIR – DIYguru | R&D Testing & validation Engineer at CREATARA | Ex- ICAT

Certifications

Certifications by Govt., Academia & Industry

DIYguru certifications validate hands-on competence in Electric Vehicle technology and digital engineering. Each program blends project-based learning with industry standards, ensuring graduates demonstrate real-world skills aligned with OEMs and Tier-1 suppliers.

Recognized by India’s Automotive Sector Skill Council

DIYguru is recognized under ASDC, India’s sector skill council for the automotive industry, ensuring every certified learner meets national skill standards. The certification signifies employability in EV design, diagnostics, and service roles aligned with India’s automotive skilling framework.

Be career-ready, not just course-ready.

Approved under the AICTE NEAT 3.0 Initiative

DIYguru programs are listed on AICTE’s National Educational Alliance for Technology (NEAT 3.0), a Government of India initiative that recognizes quality ed-tech platforms driving employability in emerging technologies.

Showcase skills that matter to recruiters.

Co-Certified by EICT - IIT Guwahati for Academic Excellence

DIYguru’s flagship Postgraduate Certification in Electric Vehicle Technology is co-certified by EICT - IIT Guwahati, ensuring every module meets the academic rigor and innovation standards of one of India’s premier engineering institutions.

Streamlined job search, complete control.

Industry Certification by iGETiT - Tata Technologies

DIYguru’s EV programs are officially reviewed and certified by Tata Technologies, a global leader in product engineering and digital transformation for OEMs and Tier-1 suppliers.

Authentic connections with real employers.

Eligibility Criteria

The DIYguru Post Graduate Program in Electric Vehicle Technology is designed for learners who want to transform their technical foundation into a career in E-Mobility, EV Design, and Advanced Automotive Engineering.

Engineering graduates (B.E / B.Tech / M.E / M.Tech)

From disciplines such as: Electrical Engineering Electronics & Communication Mechanical / Automobile Engineering Mechatronics / Instrumentation / Power Electronics

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Working Professionals (I)

Professionals currently employed in automotive, energy, manufacturing, or R&D sectors who wish to transition into the EV domain.

Apply now

Working Professionals (II)

Suitable for engineers working in design, testing, software, embedded systems, or maintenance roles seeking specialization in electric mobility.

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Science graduates (B.Sc / M.Sc)

With strong technical background and interest in EV systems.

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Diploma holders

(with relevant experience) may also apply under lateral entry.

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Final-Year Students

Final-year engineering or M.Sc students can enroll provisionally and receive certification post degree completion.

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International Applicants

Open to international learners holding equivalent qualifications in engineering or applied sciences (with English proficiency).

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Admission Process

Journey

Your career guaranteed by
emobility.careers

emobility.careers is DIYguru’s exclusive placement engine — connecting Nanodegree Program students with top recruiters in the EV and e-mobility ecosystem, ensuring every learner moves from classroom to career with confidence.

Know where you stand before you apply

Get a skill-readiness score based on your course performance, projects, and industry assessments. This helps you understand your strengths and bridge gaps before you face interviews.

Be career-ready, not just course-ready.

Turn your learning into a hiring advantage

Your DIYguru projects, certifications, and test scores are automatically integrated into a verified digital profile. Employers can see your technical depth and practical work at a glance.

Showcase skills that matter to recruiters.

Manage every opportunity in one place

Track your applications with EV companies, schedule interviews, and receive updates — all within a single dashboard. No lost emails, no missed chances.

Streamlined job search, complete control.

Trusted by employers, designed for you

Every student profile is pre-validated and recommended only to matched roles, ensuring companies hire confidently and you stand out from the crowd.

Authentic connections with real employers.

emobility.careers is trusted and used by over 110+ future mobility companies

Career Opportunities

Preparing you for 300k+ global specialist talent pool of electrical & electronics engineers in EV design/simulation by 2030.

By completing industry-oriented projects — AUTOSAR-compliant architecture development and ADAS lane-departure warning simulation — participants graduate job-ready for roles in OEMs, Tier-1 suppliers, and automotive software R&D.

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)

EV Design Engineer: Creating and developing electric vehicle design concepts.
Battery Management System Specialist: Designing and managing efficient battery management systems.
Powertrain Engineer: Enhancing electric vehicle powertrain design and performance.
Power Electronics Engineer: Developing reliable power electronics for EV systems.
MATLAB-Simulink Simulation Engineer: Modeling and simulating EV systems using MATLAB and Simulink.
Thermal & Structural Analyst: Performing thermal and structural evaluations of EV components.
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

What recruiters are saying

"DIYguru trained our teams at Bosch in 2019, right at the start of EV adoption in India, delivering far above our expectations. Since then, they have remained a trusted partner, supporting our employees with both LMS access and in-person training across EV domains."

Shashi Kumar R

Lead – Technical Competence Development, L & D Digitalization

"DIYguru graduates come with a hands-on understanding of EV systems — not just theoretical knowledge. They’re able to contribute from day one to our battery testing and pack assembly operations."

Sandeep Nair

Recruitment Lead

“We’ve been consistently impressed by DIYguru-trained engineers. Their grasp on battery design, EV service, repair and diagnostics helps us accelerate product deployment and reduce production time.”

Anjali Mehra

Head of Talent Acquisition

“What stands out is DIYguru’s focus on simulation and hardware validation. The engineers we’ve hired adapt quickly to startup environments — confident with MATLAB, ANSYS, and embedded toolchains.” Rajat Kapoor

Rajat Kapoor

HR Business Partner (Engineering)

“The EV industry needs engineers who can think both technically and systemically — DIYguru graduates bring that balance. Their familiarity with powertrain integration and BMS testing has been a real asset.”

Priya Deshmukh

Learning & Development Manager

“DIYguru’s placement ecosystem delivers candidates who understand the complete EV lifecycle — from design and validation to service diagnostics. That readiness is what the industry truly needs right now.”

Kavita Sharma

HR Operations & Employee Relations Manager

“The engineers we’ve recruited from DIYguru demonstrate excellent command over EV design tools, motor controllers, and safety protocols. Their practical exposure sets them apart from regular graduates.”

Vikram Singh

Head HR

See all recruiters feedbacks

Learners Transformation

Success Stories

Shakir Shah – From DIYguru’s

Introduction: Shakir Shah’s Journey from Nano 9M Program to Battery Engineer at Nexzu Mobility Shakir Shah,

Read post

Success Story: Aman Das –

Introduction: Aman’s Journey from Quality Executive to Quality Advisor in the EV Industry Aman Das’s transition

Read post

Nitin Agarwal’s Journey from Mechanical

Background Nitin Agarwal, a Mechanical Design Engineer from Najibabad, Uttar Pradesh, has always been passionate about

Read post

Arti Soni’s Journey from Electrical

Background Arti Soni, an Electrical and Electronics Engineer from Pune, India, always had a passion for

Read post

"At Infineon, my focus is on advancing power electronics for electric mobility. The training I undertook at DIYguru deepened my understanding of system-level applications and gave me frameworks I could directly connect to our innovation work."

Souvik Hazra
Senior Manager at Infineon Technologies

"The EV program at DIYguru strengthened my knowledge of control systems and their application in electric powertrains. It has been directly beneficial to my role at Cummins in advancing EV solutions."

Sharad Yeola
Application Controls Lead Cummins Inc.

"The EV Controls modules at DIYguru gave me clarity on inverter–motor interaction, torque control, and drive cycle efficiency. The structured projects mirrored real automotive use cases, which I could directly relate to my work at General Motors."

Mokarram Iqbal
Propulsion Controls at General Motors

"DIYguru’s EV program provided me with a clear understanding of emerging technologies and industry trends. It has been instrumental in shaping my research and strategy work at Suzuki in the electric mobility space."

Mrinal Kumar
Strategy Consultant & Research at Suzuki Motor Corporation

"In my work on EV battery management systems at Mercedes-Benz, I needed both depth in cell balancing strategies and clarity on integration concepts. The training at DIYguru addressed these areas with precision, adding real value to my R&D responsibilities."

Jagatjit Barik
Senior Research & Development Engineer- BMS (xEV) at Mercedes-Benz

"Working on electrified platforms in construction and forestry equipment demands clarity on high-voltage safety, diagnostics, and drivetrain integration. The training at DIYguru helped me bridge the gap between conventional machinery and emerging EV systems, aligning directly with John Deere’s move into hybrid and electric solutions."

Washid Ali
Technical Information Specialist - Construction and Forestry Division- John Deere India Private Limited

"Working on EV integration projects at Hydro One required a solid understanding of charging infrastructure, grid load balancing, and V2G systems. The training I took from DIYguru bridged these areas with practical case studies, making it easier to translate concepts into real project execution."

Hashir Sher
Project Manager at Hydro One

"The EV Powertrain Integration Program at DIYguru provided me with deep insights into system-level design and practical integration. It has been highly valuable for my work in new product development at Exide"

Yash Anjne
Sr. Engineer - NPD at Exide Energy Solutions Ltd.

"The Solar Integrated EV program at DIYguru gave me a strong foundation in combining renewable energy with electric mobility. The concepts and practical insights have been directly useful in my engineering role at L&T Defence."

Raghavendra Mogaveera
Electrical Engineer at L&T Defence

View all feedbacks

Learners Transformation

Don't just take our words for it!

"DIYguru transformed my career in just six months. Their comprehensive EV & Embedded Systems Nano degree equipped me with essential skills, leading to a prestigious job at Sandip University.
I’m grateful for the life-changing education and support."

Chandan Kumar Karn

Head of eMobility Division - Sandip University

"I have been a student of DIYguru PG Program of EV Technology and DIYguru has helped me in transforming my journey, consistently exceed my expectations.
Pretty good experience at hardware-enabled workshop because as a mechanical engineer, we understood the electrical part very easily."

Satyam Pandey

Engineer at Bearing India Pvt. Ltd

"The knowledge and support I received from DIYguru have been invaluable. They have a deep understanding of EV and have helped me navigate complex career path with ease.
Overall DIYguru training program is very good initiative to developed better practice understanding."

Deepak Sharma

Head of Mobiity Division at CSJM

Case Study

Case Studies: Why Organizations Trust in DIYguru.

HL Mando BMS (Battery Management System) Training

Why DIYguru EV Programs Stand Out

A modern, feature-rich learning path — benchmarked against generic e-learning providers.

Partner-verified curriculum ASDC • NEAT • IIT • TATA eMobility.careers placement support Multi-location EV labs

Feature / USP	DIYguru	Other Platforms
Industry-aligned curriculum Partner-backed Designed with real EV workforce upskilling at Hyundai, Bosch, L&T, Daimler, Sonalika, John Deere & Eaton. (See Case Studies section)	Verified with partners	Varies; often generic
Hands-on labs & workshops with 3 Weeks access to 4-Wheeler Hardware & Diagnostic Labs (ev.care) Access available in Delhi • Pune • Malaysia • Saudi Arabia • Germany.	Real hardware rigs	Limited simulators
Placement engine & employer network with access to eMobility.careers dedicated job portal Portfolio, interview prep, role mapping, referrals with exclusive, EV-focused listings with role-skill mapping and recruiter access.	EV-specific portal	Generic boards
Option to choose from Government & industry certification pathways ASDC (Govt. of India) • NEAT AICTE (Ministry of Education) • IIT (Jammu/Guwahati) • TATA Technologies.	Multiple pathways	Limited/none
Hybrid learning (Live + Self-paced + Hands on + Mentor hours from IITs & TATA Technologies)	Structured pathway	Video-only often
Certification tracks (M.Tech. > PG > Nano > Micro-credentials)	Multiple levels	Single level
Employer-ready portfolio, english communication classes & viva prep Templates, rubrics, code review, mock interviews day.	Included	Occasional
Embedded kit delivery to your doorstep with Capstone on real EV datasets 20+ guided experiments on batteries, chargers, sensing, and control.	20+ experiments included	Limited kits
Corporate collaboration & real tools exposure through Mentor feedback loops & doubt clearing session with instant support through whatsapp groups	one to one	Community only
Support for working professionals (weekend cohorts, bridge modules)with outcome mapping: role-based skill tracks (BMS, Motor, EVSE, Thermal, Data)	Structured	Irregular
Ethics, safety & compliance embedded (ISO 26262, HV safety, AIS/BIS awareness)	Integrated	Minimal
Transparent skill diagnostics & KPIs with outcomes (projects → roles → salaries)	Mapped	Rare

Note: “Other Platforms” is a generalized comparison. Actual availability may differ per provider.

Frequently Asked Questions - FAQs

What is the DIYguru Embedded Systems Nanodegree Program?

The DIYguru Embedded Systems Nanodegree is a specialized 6-month industry-driven program designed to provide hands-on experience in microcontrollers, firmware development, embedded C programming, communication protocols (CAN, I2C, SPI), and real-world project integration for automotive and EV applications.
Who is eligible to apply for this Nanodegree?

The program is open to engineering students, graduates, and professionals from Electronics, Electrical, Instrumentation, or Computer Science backgrounds who wish to upskill in embedded system design and applications in the EV sector.
What certification will I receive after completing the program?

Upon completion, you’ll receive a DIYguru Nanodegree Certificate co-branded with industry partners like Tata Technologies & IITs depending on the addon certification, validating your practical skills and readiness for embedded system and EV roles.
What is the duration and structure of the Embedded Systems Nanodegree?

The course runs for 6 months and follows a structured learning path with live instructor-led sessions, self-paced video modules, weekly quizzes, and capstone projects focusing on STM32 microcontrollers and automotive-grade applications.
What topics and tools are covered in this program?

You’ll learn: Embedded C programming following MISRA standards ARM Cortex-M architecture Communication interfaces: CAN, SPI, I2C, UART RTOS basics and task scheduling STM32 development & debugging Integration with sensors and actuators Battery Management System (BMS) interface fundamentals
Is there a hands-on or lab component in this Nanodegree?

Yes. Every module includes hardware-based labs and simulations using STM32 boards and diagnostic tools. Learners also complete a capstone project integrating sensors and communication protocols into a real-world embedded application.
Does the program include placement or career support?

Absolutely. DIYguru provides placement assistance, career mentorship, and interview preparation. Students are also matched with hiring partners in the EV and embedded systems domains through DIYguru’s placement cell.
What are the career opportunities after completing the Embedded Nanodegree?

Graduates can pursue roles such as: Embedded Systems Engineer Firmware Developer Automotive Embedded Engineer EV Systems Integrator IoT Hardware Engineer You’ll be job-ready for positions in automotive, robotics, and IoT industries.
Can working professionals enroll part-time?

Yes. The Nanodegree is designed for flexibility with weekend live classes and self-paced recordings, making it ideal for working professionals looking to transition or upskill in embedded systems and automotive electronics.

Still have questions?

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