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On this Program Page
- 1. Program Overview
- 2. Program Details at a Glance
- 3. Eligibility Criteria
- 4. Fee Structure & Certification
- 5. Detailed Curriculum — Three-Phase Structure
- 6. Certification & Accreditation
- 7. Career Outcomes & Placement Support
- 8. Faculty & Industry Mentors
- 9. Recognition & Partnerships
- 10. Charging & Hydrogen Fuel Cell Industry Context
- 11. Industry Testimonials
- 12. Frequently Asked Questions
- 13. How to Apply
Professional Certification — 3 Months — Admissions Open 2026
Professional Certification in Charging Technologies and Hydrogen Fuel Cell Systems
Last updated: February 2026 | Program by DIYguru eMobility Academy | Recognised by NEAT AICTE & ASDC
Admissions Open — Self-Paced for Working Professionals: Master AC/DC charging systems, EVSE architecture, charging standards (CCS, CHAdeMO, Bharat DC/AC), hydrogen fuel cells (PEMFC, SOFC, AFC), green hydrogen production, and fuel cell vehicle engineering. 50+ hours of recorded content across 5 courses. NEAT AICTE & ASDC certified. Lifetime access. One-on-one mentorship. Contact admissions at +91-9910918719 or info@diyguru.org.
1. Program Overview
The Professional Certification in Charging Technologies and Hydrogen Fuel Cell Systems is a 3-month, self-paced program designed to provide working professionals with comprehensive knowledge of EV charging infrastructure design, charging system standards, and hydrogen fuel cell technology for mobility and stationary power applications. From AC/DC charging architectures and EVSE design to PEMFC stack engineering, green hydrogen production, and fuel cell vehicle systems — this program covers the two most critical energy delivery technologies powering the future of zero-emission transport.
The program follows a structured curriculum: Foundation (Month 1) covers EV industry fundamentals, battery technology, motors, electrification, and EV charging technology in depth; Core (Month 2) covers hydrogen as an energy carrier, fuel cell types (PEMFC, SOFC, AFC, MCFC, PAFC), thermodynamics, electrochemistry, and fuel cell stack design; and Advanced (Month 3) covers hydrogen production methods (green, blue, grey), storage systems, distribution infrastructure, the hydrogen economy, and fuel cell electric vehicles (FCEVs).
The global EV charging infrastructure market was valued at USD 32.26 billion in 2024 and is projected to reach USD 125.39 billion by 2030, growing at a CAGR of 25.5% (Grand View Research, 2025). India alone has crossed 29,000 public charging stations as of November 2025 — a 4× increase from 6,586 in 2023 — and will need an estimated 1.32 million stations by 2030 (CII). Simultaneously, the global fuel cell market is projected to grow from USD 5.66 billion in 2025 to USD 18.16 billion by 2030 at a 26.3% CAGR (MarketsandMarkets, 2026), with India's National Green Hydrogen Mission targeting 5 million metric tonnes of green hydrogen production annually by 2030, backed by ₹19,744 crore in government funding and expected to create 600,000+ clean energy jobs.
DIYguru is recognised by the Ministry of Education, NITI Aayog, and NEAT AICTE for its commitment to upskilling in automotive and EV technologies. This program is purely designed for upskilling and reskilling — all content is self-paced and accessible 24/7 via the DIYguru LMS, making it ideal for professionals who cannot attend live classes.
50+
Hours of Content
5
Courses
2
Energy Domains
3
Industry Projects
Designed for Working Professionals: This is a self-paced program with no live class schedule to follow. All 50+ hours of content — recorded lectures, reading materials, and practical guides — are available 24/7 on the DIYguru LMS. You receive one-on-one mentorship for queries and project guidance, dedicated forums for collaboration, and lifetime access to all course materials.
2. Program Details at a Glance
| Parameter | Details |
|---|---|
| Program Name | Professional Certification in Charging Technologies and Hydrogen Fuel Cell Systems |
| Program Category | Professional Certification — Upskilling & Reskilling |
| Domain | Charging & Energy |
| Duration | 3 Months (Self-Paced, 5 Certification Courses) |
| Learning Mode | 100% Self-Paced: Recorded Lectures + Reading Materials + Practical Guides (24/7 Access via DIYguru LMS). No live classes. |
| Content Volume | 50+ hours of recorded content across 5 courses |
| Mentorship | One-on-one mentor support for queries and project guidance. Dedicated forums for discussion and collaboration. |
| Offered By | DIYguru Educational Research Pvt. Ltd. (eMobility Academy) |
| Certifications Awarded | DIYguru Professional Certification (recognised by NEAT AICTE & ASDC) |
| Course Fee | ₹21,000 + GST — Includes all certifications, mentorship, and placement support. See Section 4. |
| EMI Options | No-Cost EMI available. |
| Eligibility | Working professionals, B.E./B.Tech (EE, ECE, ME, Chemical, Energy Engineering), Diploma + experience, Engineers in power/energy/automotive/infrastructure sectors |
| Key Domains | EV Fundamentals, Battery Technology, AC/DC Charging Systems, EVSE Design, Charging Standards (CCS, CHAdeMO, GB/T, Bharat), Hydrogen as Energy, Fuel Cell Types (PEMFC, SOFC, AFC, MCFC, PAFC), Green Hydrogen Production, Hydrogen Storage & Distribution, Fuel Cell Electric Vehicles (FCEVs) |
| Placement Support | Placement Support via emobility.careers — DIYguru's job portal for EV careers |
| Contact | Phone: +91-9910918719 | Email: info@diyguru.org |
3. Eligibility Criteria
This program is designed for working professionals and engineers seeking to upskill or reskill in EV charging infrastructure and hydrogen fuel cell technology. No prior experience in charging systems or hydrogen is required — the curriculum starts with EV foundations before progressing to advanced fuel cell and charging topics.
| Category | Eligibility Details |
|---|---|
| Working Professionals | Engineers at all levels in power, energy, automotive, infrastructure, oil & gas, or manufacturing sectors seeking to upskill in EV charging and hydrogen technologies. |
| Engineering Graduates | B.E. / B.Tech in Electrical, Electronics, Mechanical, Chemical, Energy Engineering, or related disciplines. |
| Diploma Holders | Diploma in Engineering (Electrical, Mechanical, or related) with relevant industry experience in power or energy sectors. |
| Career Switchers | Power sector engineers, oil & gas professionals, and renewable energy engineers looking to transition into EV charging or hydrogen energy roles. |
| Entrepreneurs | Startup founders and business developers building EV charging networks, hydrogen fueling stations, or fuel cell products. |
Note: This is a self-paced program — ideal for professionals who cannot attend live classes. All content is accessible 24/7. Budget 4–6 hours per week for optimal learning. Check if this program is right for you →
4. Fee Structure & Certification
₹21,000 + GST
Includes: DIYguru Certification (NEAT AICTE & ASDC Recognised) | 50+ Hours Content | 5 Courses | Lifetime Access | Mentorship | Placement Support
What's Included in the Fee
- DIYguru Professional Certification: Recognised by NEAT AICTE (Ministry of Education, Govt. of India) & ASDC (Automotive Skills Development Council). Verifiable online.
- 50+ Hours of Recorded Content: High-quality video lectures across 5 courses covering both EV charging and hydrogen fuel cell domains, accessible 24/7 on the DIYguru LMS
- One-on-One Mentorship: Dedicated mentor support for queries, project guidance, and technical discussions on charging systems and hydrogen technology
- Dedicated Forums: Content discussion, peer collaboration, and project feedback
- Industry Projects: 3+ hands-on projects including EVSE design, hydrogen fuel cell system analysis, and charging infrastructure planning
- Lifetime Course Access: Recorded lectures, study materials, and future module updates — no expiry
- Placement Support: Via emobility.careers — DIYguru's job portal connecting professionals with EV and clean energy recruiters
No-Cost EMI Available: Flexible EMI options at zero additional cost. Contact the admissions team at +91-9910918719 or info@diyguru.org for EMI plans and corporate/group enrolment packages.
5. Detailed Curriculum — Three-Phase Structure
The curriculum is structured in three progressive phases — from EV fundamentals and charging technology through hydrogen fuel cell science to hydrogen production, storage, the hydrogen economy, and fuel cell vehicles.
Foundation — Month 1: EV Essentials & Charging Technology
Build a solid understanding of EV fundamentals, battery technology, motor systems, and EV charging infrastructure — covering AC/DC charging types, EVSE architecture, charging standards, and grid integration.
Course 1: EV Essentials 1 — Industry Ecosystem & Battery Technology
EV technology and ICE-to-EV transition, EV engineering fundamentals, battery technology for EV systems, power electronics, motor systems, vehicle electrification, and EV charging technology. 16+ hours, 4.8★ rating.
Course 2: EV Essentials 2 — Motors, Electrification & Charging Systems
Motor types (BLDC, PMSM, induction), motor control fundamentals, vehicle electrification architecture, EV charging standards (AC Level 1/2, DC fast charging), EVSE design principles, charging connectors (CCS, CHAdeMO, GB/T, Type 2, Bharat DC/AC), grid integration, V2G concepts, and charging infrastructure planning. 7+ hours.
Core — Month 2: Hydrogen & Fuel Cell Technology
Master the science and engineering of hydrogen as an energy carrier and fuel cell technology — from electrochemistry and thermodynamics to fuel cell types, stack design, and performance characteristics.
Course 3: Fundamentals of Hydrogen as Energy & Fuel Cell Technology
Introduction to hydrogen as an energy carrier, hydrogen properties and safety, electrochemistry of fuel cells, thermodynamics of fuel cell systems, fuel cell types — Proton Exchange Membrane (PEMFC), Solid Oxide (SOFC), Alkaline (AFC), Molten Carbonate (MCFC), Phosphoric Acid (PAFC), fuel cell stack architecture and components (MEA, bipolar plates, gas diffusion layers), performance curves and efficiency analysis, and fuel cell degradation mechanisms.
Advanced — Month 3: Hydrogen Economy & Fuel Cell Vehicles
Complete your energy domain expertise with hydrogen production methods, storage systems, distribution networks, the global hydrogen economy, and fuel cell electric vehicle (FCEV) engineering and infrastructure.
Course 4: Hydrogen Production, Storage, Distribution & Economy
Hydrogen production methods — green (electrolysis using renewables), blue (SMR + CCS), grey (SMR), turquoise (methane pyrolysis), and pink (nuclear electrolysis). Electrolysis technologies: alkaline, PEM, and solid oxide electrolysers. Hydrogen storage — compressed gas, liquid hydrogen, metal hydrides, and chemical carriers. Distribution and transportation networks. Hydrogen economy framework, cost analysis, and global policy landscape. India's National Green Hydrogen Mission and ₹19,744 crore outlay.
Course 5: Hydrogen for Transport — Fuel Cell Vehicles & Infrastructure
Fuel cell electric vehicle (FCEV) architecture and powertrain integration — fuel cell stack, hydrogen tank, power electronics, battery hybrid, and electric motor. FCEV vs BEV comparison (range, refueling, payload). Hydrogen refueling station (HRS) design and standards. Heavy-duty transport applications: hydrogen buses, trucks, and rail. Maritime and aviation hydrogen applications. Case studies: Toyota Mirai, Hyundai NEXO, Hyundai XCIENT fuel cell truck, India's hydrogen bus and truck pilot projects under NGHM.
5.2 Key Standards & Protocols Covered
| Domain | Standards & Protocols |
|---|---|
| EV Charging Connectors | CCS Combo 1 & 2 (Combined Charging System), CHAdeMO, GB/T, Type 2 (Mennekes), Bharat DC 001, Bharat AC 001, Tesla NACS |
| Charging Levels | AC Level 1 (120V), AC Level 2 (240V), DC Fast Charging (50–350 kW), Ultra-Fast Charging (350+ kW) |
| Communication Protocols | ISO 15118 (Plug & Charge, V2G), OCPP (Open Charge Point Protocol), OCPI (Open Charge Point Interface) |
| Hydrogen Safety | ISO 19880 (hydrogen fueling stations), ISO 14687 (hydrogen fuel quality), SAE J2601 (hydrogen fueling protocol) |
| Fuel Cell Standards | IEC 62282 (fuel cell technologies), ISO 23273 (fuel cell road vehicles), GTR 13 (global technical regulation — hydrogen/fuel cell vehicles) |
5.3 Industry Projects
| # | Project | Description |
|---|---|---|
| 1 | EV Charging Station Design & Infrastructure Planning | Design a multi-point EV charging station with AC Level 2 and DC fast charging bays. Include EVSE architecture, load calculations, connector selection, grid interconnection, and OCPP-based management system design. |
| 2 | PEMFC Fuel Cell Stack Analysis | Analyse a Proton Exchange Membrane fuel cell stack — performance curves (V-I characteristics), efficiency calculations, thermal management requirements, and degradation assessment for automotive applications. |
| 3 | Green Hydrogen Production Techno-Economic Assessment | Evaluate the techno-economic feasibility of a green hydrogen production facility using PEM electrolysis powered by solar energy. Include LCOH (Levelised Cost of Hydrogen) calculations, storage options comparison, and distribution strategy for a hydrogen refueling station. |
6. Certification & Accreditation
Graduates receive a DIYguru Professional Certification recognised by NEAT AICTE and ASDC. The certification validates competence in EV charging infrastructure and hydrogen fuel cell technology and is verifiable online.
| # | Certification | Description |
|---|---|---|
| 1 | DIYguru eMobility Academy | Professional Certification from DIYguru Educational Research Pvt. Ltd. — India's leading eMobility upskilling platform. Verifiable online and recognised by major energy companies and automotive OEMs. |
| 2 | NEAT AICTE Recognition | Recognised by the National Educational Alliance for Technology, Ministry of Education, Government of India. Validates technical competence in EV charging and hydrogen fuel cell engineering. |
| 3 | ASDC Recognition | Recognised by the Automotive Skills Development Council (under NSDC, Ministry of Skill Development & Entrepreneurship). Validates industry-aligned automotive and clean energy skills. |
Note: This Professional Certification does not include IIT Jammu certification. For IIT Jammu collaboration programs with live classes, campus immersion, and hardware labs, see the 6-month Nanodegree programs.
7. Career Outcomes & Placement Support
The program prepares professionals for roles across two of the fastest-growing sectors in clean mobility — EV charging infrastructure and hydrogen energy. India needs an estimated 1.32 million charging stations by 2030, while the National Green Hydrogen Mission is expected to create 600,000+ clean energy jobs. Professionals with dual expertise in both charging and hydrogen technologies are among the most sought-after in the e-mobility ecosystem.
7.1 Career Profiles — EV Charging & Infrastructure
| Job Role | Experience | Salary Range (₹ LPA) |
|---|---|---|
| EV Charging Infrastructure Engineer | 0–3 years | ₹4–10 LPA |
| EVSE Design Engineer | 1–5 years | ₹5–14 LPA |
| Charging Station Project Manager | 2–5 years | ₹6–16 LPA |
| Power Electronics Engineer (Charging) | 2–5 years | ₹6–16 LPA |
| Smart Grid / V2G Engineer | 2–5 years | ₹6–15 LPA |
7.2 Career Profiles — Hydrogen & Fuel Cell
| Job Role | Experience | Salary Range (₹ LPA) |
|---|---|---|
| Hydrogen Energy Engineer | 0–3 years | ₹4–12 LPA |
| Fuel Cell Systems Engineer | 1–5 years | ₹5–15 LPA |
| Green Hydrogen Project Engineer | 2–5 years | ₹6–18 LPA |
| Hydrogen Refueling Station Engineer | 1–4 years | ₹5–14 LPA |
| Clean Energy Consultant (H₂ & EV) | 3–7 years | ₹8–20 LPA |
Sources: PayScale India (2026), Naukri, Glassdoor, DIYguru Placement Data. Hydrogen and EV charging roles carry a 25–50% premium over traditional energy roles. Bengaluru, Pune, Hyderabad, Chennai, Gujarat, and NCR offer the highest compensation.
7.3 Placement Support — emobility.careers
emobility.careers is DIYguru's job portal for the EV and e-mobility ecosystem. Certified professionals receive:
- Placement Support: Job listings, career guidance, and resume support through the emobility.careers platform
- Industry Partner Network: Tata Power (EV Charging), BPCL, HPCL, IOCL, Adani Green, NTPC, Fortum Charge & Drive, Statiq, Bolt.Earth, Ather Energy, ChargeZone, Bosch, L&T Technology Services, and 300+ more
- Career Resources: EV and hydrogen career blueprints, skill gap analysis, and interview preparation for charging and clean energy roles
Important: This program provides placement support, not placement assurance. Placement support includes access to the emobility.careers platform, job listings, and career guidance resources.
8. Faculty & Industry Mentors
The program is developed and mentored by DIYguru's energy and charging technology team and industry experts from global automotive and energy companies.
8.1 DIYguru Program Team
| Name | Role | Specialisation |
|---|---|---|
| Saurabh Kumar | Program Delivery — EV Automotive | ADAS, AUTOSAR, Embedded Systems |
| Rahul Kumar | Program Lead — EV Engineering | EV Powertrain & Charging Technology |
| Arman Ansari | Program Delivery — EV Simulations | Simulation & Designing |
| Ankit Khatri | Program Delivery — EV Automotive | Automotive Engineering | Ex-ICAT |
| Divyvani Metla | Program Lead — EV Engineering | Technical Operations & Engineering |
| Vasheel | Program Delivery — Technical Admin | Motor & Drive Systems |
8.2 Advisory & Industry Mentors
| Name | Designation |
|---|---|
| Arindam Lahiri | CEO, 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, Altair | Member ASME Steering Committee |
| Buddha Chandrasekhar | Chief Coordinating Officer, AICTE, Ministry of Education, India |
| Jawaad Khan | CEO & Founder – Tadpole Projects |
| Rahul Soni | Project Incharge – EVI Technologies |
9. Recognition & Partnerships
9.1 Government Recognition
- NEAT AICTE — National Educational Alliance for Technology, Ministry of Education, Government of India
- ASDC — Automotive Skills Development Council (under NSDC, Ministry of Skill Development)
- NITI Aayog — Recognised for contribution to mobility upskilling
- Startup India (DPIIT Recognised)
- MSME Registered
- ISO 9001:2015 Certified
- NASSCOM Member
9.2 Industry Hiring Partners (Selected)
Tata Power (EV Charging), BPCL, HPCL, IOCL, Adani Green Energy, NTPC, Fortum Charge & Drive India, Statiq, Bolt.Earth, ChargeZone, Bosch, KPIT Technologies, Continental, Tata Motors, Ola Electric, Ather Energy, L&T Technology Services, Siemens India, Schneider Electric, and 300+ additional enterprise partners.
10. Charging & Hydrogen Fuel Cell Industry Context
| Indicator | Data | Source |
|---|---|---|
| Global EV Charging Market (2024) | USD 32.26 Billion | Grand View Research, 2025 |
| Global EV Charging Market (2030) | USD 125.39 Billion (25.5% CAGR) | Grand View Research, 2025 |
| India EV Charging Stations (Nov 2025) | 29,000+ public stations (4× from 2023) | Industry Data, 2025 |
| India Charging Stations Needed by 2030 | 1.32 Million stations | CII Report, 2025 |
| India EV Charging Market (2024) | USD 348.5 Million → USD 1,652M by 2030 (27.67% CAGR) | NextMSC, 2025 |
| Global Fuel Cell Market (2025) | USD 5.66 Billion | MarketsandMarkets, 2026 |
| Global Fuel Cell Market (2030) | USD 18.16 Billion (26.3% CAGR) | MarketsandMarkets, 2026 |
| Global FCEV Market (2030) | USD 20.40 Billion (45.16% CAGR) | Mordor Intelligence, 2025 |
| India Green Hydrogen Mission Target | 5 MMT/year by 2030, ₹19,744 crore outlay | Govt. of India (MNRE), 2023 |
| India Green Hydrogen Jobs by 2030 | 600,000+ clean energy jobs | National Green Hydrogen Mission |
| India Green Hydrogen Market (2030) | ~USD 8 Billion | NITI Aayog, 2025 |
11. Industry Testimonials
The program is trusted by professionals from leading energy and automotive companies who have upskilled through DIYguru's charging and clean energy curriculum:
| Professional | Feedback |
|---|---|
| Power Sector Engineer | "Coming from a conventional power background, this program gave me the complete picture of EV charging infrastructure — from EVSE design to grid integration and the emerging hydrogen economy. The hydrogen modules were particularly valuable as my company is evaluating fuel cell projects." |
| EV Charging Startup Founder | "The DIYguru course covered everything I needed — charging standards, connector types, OCPP protocols, and business planning for charging networks. The hydrogen modules added a future-proof dimension to my understanding of clean mobility." |
Recruiter testimonial: Shashi Kumar R (Lead – Technical Competence Development, Bosch): "DIYguru trained our teams at Bosch in 2019, right at the start of EV adoption in India, delivering far above our expectations."
12. Frequently Asked Questions
Q1. Who is this program designed for?
This program is designed for working professionals looking to upskill or reskill in EV charging and hydrogen fuel cell technology. It is ideal for power sector engineers, energy professionals, automotive engineers, oil & gas professionals transitioning to clean energy, infrastructure planners, and entrepreneurs building EV charging or hydrogen fueling businesses. No prior experience in charging or hydrogen is required.
Q2. What is the fee and what does it include?
The program fee is ₹21,000 + GST. This includes DIYguru Professional Certification (NEAT AICTE & ASDC recognised), 50+ hours of recorded content across 5 courses (EV Charging + Hydrogen Fuel Cells), lifetime access, one-on-one mentorship, dedicated forums, 3+ industry projects, and placement support via emobility.careers. No-Cost EMI options are available.
Q3. Are there live classes?
No. This is a 100% self-paced program. All content — recorded lectures, reading materials, and practical guides — is available 24/7 on the DIYguru LMS. You receive one-on-one mentorship for queries and project guidance, but there is no live class schedule. This makes it ideal for working professionals with unpredictable schedules.
Q4. What certifications will I receive?
Graduates receive a DIYguru Professional Certification recognised by NEAT AICTE (Ministry of Education, Government of India) and ASDC (Automotive Skills Development Council). The certificate is verifiable online. This program does not include IIT Jammu certification — for that, see the 6-month Nanodegree programs.
Q5. Is there placement assurance?
This program provides placement support, not placement assurance. Placement support includes access to the emobility.careers job portal, job listings from 300+ industry partners, career guidance, and resume support. For programs with enhanced placement assistance, see the Nanodegree or PG programs.
Q6. Why does this program cover both charging and hydrogen?
EV charging and hydrogen fuel cells represent the two primary energy delivery systems for zero-emission transport. Charging dominates passenger EVs today, while hydrogen is critical for heavy-duty transport, long-haul logistics, and energy storage. Professionals with dual expertise are uniquely positioned for roles at OEMs, energy companies, infrastructure developers, and government agencies planning the energy transition. India's dual push — 1.32 million charging stations plus 5 MMT green hydrogen by 2030 — makes this combination highly strategic.
Q7. What is the time commitment per week?
Budget 4–6 hours per week for optimal learning across the 3-month duration. Since the program is self-paced with lifetime access, you can accelerate or slow down based on your schedule. Most working professionals complete the program in 10–14 weeks.
Q8. What is the hydrogen job market like in India?
India's National Green Hydrogen Mission is expected to create 600,000+ clean energy jobs by 2030, backed by ₹19,744 crore in government funding. Major players — NTPC, Adani Green, Reliance Industries, BPCL, GAIL, Indian Oil — are all investing heavily in hydrogen production, storage, and distribution. As of 2025, 158 green hydrogen projects are at various stages of development across India, and 5 pilot projects for hydrogen buses and trucks are underway. The demand for hydrogen-skilled engineers far exceeds supply, making it one of the highest-growth career domains in clean energy.
13. How to Apply
Apply for the Professional Certification in Charging Technologies & Hydrogen Fuel Cell Systems
Applications are open for 2026. Upskill in EV charging design, EVSE architecture, charging standards, hydrogen fuel cells, green hydrogen production, and FCEV engineering — self-paced, from anywhere, at your own schedule.
Enrol Now → Check Your Eligibility →
Enrolment Process: (1) Check your fit using the Course Advisor Tool. (2) Submit your enrolment via the Enrol Now button above or contact the admissions team. (3) Complete the fee payment (full or EMI). Opt for the Embedded DIY Kit add-on (₹10,000) at this stage if desired. (4) Access the DIYguru LMS immediately and start learning at your own pace. (5) Complete courses, submit projects, and earn your Professional Certification. The entire enrolment process takes 1–2 business days.
© 2026 DIYguru Educational Research Pvt. Ltd. All rights reserved. NEAT AICTE & ASDC recognised. CIN: U80902DL2017PTC323930.
