FEP-Coated Polyimide Film Market — Resilient, High-Performance Films Powering Innovation 1. Market Estimation & Definition FEP-coated polyimide films—polyimide substrates enhanced by fluorinated ethylene propylene coatings—offer exceptional thermal stability, chemical resistance, and electrical insulation, making them indispensable in electronics, aerospace, automotive, and energy applications. Estimated at USD 155.97 million in 2024, projected to reach USD 237.55 million by 2032, with a CAGR of 5.4%. Alternate forecasts suggest a 2024 valuation of USD 250 million, growing to USD 500 million by 2033 at a stronger CAGR of 8.5%. Another projection places the market at USD 450 million in 2024, anticipated to expand to USD 750 million by 2033, with a 7.3% CAGR. Though estimates vary, they consistently point to a multi-hundred-million-dollar market with growth rates ranging from mid-single digits to nearly 9%. Requset Free Sample Report:https://www.stellarmr.com/report/req_sample/FEP-Coated-Polyimide-Film-Market/1535 2. Market Growth Drivers & Opportunity Technological Demand: The rise of miniaturized electronics, flexible circuits, and electric vehicles is driving use of thin, robust, and thermally stable films. Aerospace & Energy Expansion: These films are vital in space-grade insulation (e.g., multi-layer blankets), solar PV modules, and high-reliability components in aircraft and satellites. Asia-Pacific Momentum: APAC leads in market share (over 40%), bolstered by China’s booming automotive, electronics, and manufacturing sectors. 3. What Lies Ahead: Emerging Trends Ultra-Thin & Flexible Films: Industry trends favor thinner, more flexible substrates to support compact device designs, including emerging 3D-printing applications and advanced release surfaces. Diverse Applications on the Rise: Beyond electronics and aerospace, demand from renewable energy, medical devices, and labeling sectors is accelerating. 4. Segmentation Overview By Application: Pressure-Sensitive Tapes hold the largest 2024 share, prized for adhesion and high-performance needs (e.g., in spacecraft). Other formats include flexible printed circuits, wire & cable, specialty fabrications, and motor/generator components. By End-User Industry: Aerospace leads, especially for thermal insulation and optical reflectors. Additional key sectors: electronics, automotive, labeling, medical, and drilling. By Region: Asia-Pacific dominates (~41%), followed by Europe and North America. China is the regional powerhouse. 5. Country-Level Insight — United States While precise U.S. figures are not separately detailed, North America remains a key market alongside Europe and Asia—a reflection of strong aerospace investment and advanced electronics manufacturing. 7. Press-Release Conclusion The FEP-Coated Polyimide Film Market is on track to grow significantly—from roughly USD 156–250 million in 2024 to between USD 500–750 million by 2032–2033, yielding CAGRs between 5.4% and 8.5%. Fueled by demand in advanced electronics, aerospace, and energy sectors—particularly in APAC—this market is entering a dynamic growth phase. Companies leading the next wave will offer thinner, tailored films optimized for specific performance needs, while navigating raw material and regulatory pressures. About us Phase 3,Navale IT Zone, S.No. 51/2A/2, Office No. 202, 2nd floor, Near, Navale Brg,Narhe, Pune, Maharashtra 411041 +91 9607365656 [email protected]

CT-VT Metering Units Suppliers Looking for trusted CT-VT Metering Units Suppliers? At Macroplast Transformers, we specialize in providing high-quality CT-VT metering units designed for accurate measurement and reliable performance in electrical systems. As one of the leading CT-VT Metering Units Suppliers in India, we ensure durability, precision, and efficiency to meet diverse industrial and utility needs. Choose us for advanced technology, superior quality, and timely delivery of CT-VT metering solutions. Visit: https://www.macroplasttransformers.com/combined-ct-vt-metering-units.html Add: D-18/2, Surajpur Industrial Area,Site-B, Greater Noida, Gautam Buddh Nagar, U.P, India Pin Code - 201306 Ph: +91-9958904598 Email: [email protected]

Fluoropolymers Market to be Driven by increasing population in the Forecast Period of 2025-2032 Fluoropolymers Market, valued at USD 8.63 billion in 2023, is projected to reach USD 13.12 billion by 2030, growing at a CAGR of 6.2% during the forecast period. The surge in demand is being fueled by the increasing use of fluoropolymers in high-performance applications across electronics, automotive, chemical processing, renewable energy, and healthcare industries. Request Free Sample Report:https://www.stellarmr.com/report/req_sample/Fluoropolymers-Market/936 Market Estimation, Growth Drivers & Opportunities Fluoropolymers are high-performance synthetic polymers characterized by their exceptional thermal stability, chemical resistance, low friction, and electrical insulation properties. These attributes make them indispensable in harsh operating environments. Key Growth Drivers: Surge in Electronics Manufacturing: Fluoropolymers are widely used in semiconductors, wire insulation, and flexible printed circuit boards due to their superior dielectric properties and heat resistance. Expansion in EV and Automotive Sector: Fluoropolymers enable lightweight, high-durability components in EV battery systems, fuel lines, and gaskets, contributing to vehicle efficiency and regulatory compliance. Chemical Processing Industry: Fluoropolymers such as PTFE and FEP are used in piping, seals, and coatings for corrosion-prone environments. Growing Renewable Energy Sector: Use in photovoltaic modules and hydrogen fuel cells is expanding fluoropolymer applications in sustainable energy solutions. Opportunities: Rising demand for low-friction, non-stick coatings in cookware and industrial equipment. Increased use in medical devices, especially catheters and tubing, due to biocompatibility and sterilization resistance. Regulatory support for low-emission vehicles and clean energy technologies, increasing fluoropolymer adoption. U.S. Market Trends & Investment (2024 Developments) In 2024, the U.S. market saw a surge in fluoropolymer demand due to a sharp rise in semiconductor fabrication investments and federal backing for electric vehicle infrastructure. The CHIPS and Science Act and the Inflation Reduction Act have directed billions into clean technology and high-tech manufacturing, spurring demand for fluoropolymer-based components. Major players like Chemours and 3M have committed to phasing out legacy PFAS materials and developing next-generation fluoropolymers with reduced environmental impact. In April 2024, Chemours announced an $80 million investment in a new PTFE and PFA compounding facility to serve North American electronics and automotive markets. Meanwhile, U.S. startups are innovating with fluoropolymer recycling and circular economy models. Market Segmentation – Leading Segment Analysis The Fluoropolymers Market is segmented by Type, End-User, and Region. Among these: By Type, Polytetrafluoroethylene (PTFE) holds the largest market share due to its high demand across diverse applications like wiring insulation, gaskets, non-stick coatings, and industrial linings. By End-User, the Electrical & Electronics segment dominates due to the extensive use of PTFE, FEP, and ETFE in high-frequency cables, semiconductor components, and thermal insulation systems. With the expansion of AI, 5G, and consumer electronics, this dominance is expected to continue. Competitive Analysis – Top 5 Global Leaders The fluoropolymers market is moderately consolidated with key global players holding significant shares through technological innovation, vertical integration, and material advancements. The Chemours Company (USA) A spin-off of DuPont, Chemours leads in PTFE (Teflon™) and perfluoroelastomers. In 2024, it accelerated the shift to PFAS alternatives, investing in eco-friendly fluoropolymers and expanding production capacity in Ohio and Mexico. Their innovation in low-GWP (Global Warming Potential) materials is driving demand in EVs and HVAC systems. 3M Company (USA) 3M has historically been a major PFAS supplier but recently announced its exit from PFAS manufacturing by 2025. However, the company is pivoting towards fluoropolymer applications in medical, filtration, and microelectronics, focusing on sustainable product lines and R&D in advanced composites. Daikin Industries Ltd. (Japan) Daikin is one of the largest producers of fluoro-based resins including FEP and PFA. The company is actively investing in high-performance materials for hydrogen storage, fuel cells, and semiconductors, particularly in Asia and Europe. Arkema Group (France) Arkema manufactures Kynar® PVDF fluoropolymers and has gained significant traction in lithium-ion batteries, solar panels, and water filtration systems. In 2024, Arkema expanded its facility in Changshu, China, to meet growing global demand for PVDF in battery separators. Solvay S.A. (Belgium) Solvay offers a wide portfolio of specialty fluoropolymers and is known for its Solef® PVDF. The company is focusing on sustainable mobility and electronics. In Q2 2024, it launched new PVDF grades with enhanced dielectric properties to support next-gen semiconductor packaging. These companies are aligned with global trends of environmental regulation, innovation in sustainable materials, and increased localization of supply chains. Regional Insights – Focus on USA, UK, Germany, France, Japan, and China USA: Holds a major share of the North American market driven by semiconductor, defense, and electric vehicle sectors. Government incentives and a shift to non-PFAS fluoropolymers are key growth levers. UK: The UK fluoropolymer market is influenced by strict chemical safety regulations and demand from aerospace and electronics industries. Growth is supported by strong R&D activity and emphasis on low-emission materials. Germany: Europe’s manufacturing hub, Germany leads in the use of fluoropolymers in automotive and industrial applications. Companies are benefiting from the transition to hydrogen energy and EVs, where fluoropolymers play a critical role in system integrity and insulation. France: A key contributor to the European market, France is emphasizing circular economy frameworks and sustainable production. Arkema’s innovations and government backing of battery manufacturing are enhancing domestic demand. Japan: Japan is investing in advanced battery technology and high-tech materials. Companies like Daikin and AGC are developing next-gen fluoropolymers for AI and IoT devices, sustaining Japan’s global leadership in electronics. China: The world’s largest manufacturer and consumer of fluoropolymers. Government focus on solar energy, electric vehicles, and semiconductors is boosting demand. China is also rapidly scaling PVDF and ETFE production, catering to both domestic and export markets. Conclusion The global fluoropolymers market is on an upward trajectory, driven by the convergence of technological innovation, environmental regulation, and rising demand from clean energy, electronics, and automotive sectors. As the industry transitions away from harmful PFAS-based chemistries, there is a significant opportunity for next-gen, sustainable fluoropolymers to redefine market standards. About us Phase 3,Navale IT Zone, S.No. 51/2A/2, Office No. 202, 2nd floor, Near, Navale Brg,Narhe, Pune, Maharashtra 411041 +91 9607365656 [email protected]

Distribution vs Power Transformers: What Leading Manufacturers Say When a city is developing, the development officers and civic bodies have to make a vital decision- whether to install new power transformers or distribution transformers. This choice is important as it directly impacts the longevity, performance and sustainability of the electrical network. Over-reliance on any of these transformers can be dangerous. For instance, if there is a power transformer supplying electricity but with a lack of sufficient distribution transformers, the electrical grid may face frequent overloads. Similarly, if the load capacity of the power transformer is inadequate and not optimized, the city might face frequent power outages. Therefore, the insights from the right Transformers Manufacturers matter a lot in this critical decision. In this blog, we will explore and learn about what the Power Transformers Suppliers and Distribution Transformers Suppliers have to say. Visit: https://www.macroplasttransformers.com/blog/distribution-vs-power-transformers-what-leading-manufacturers-say/ Add: D-18/2, Surajpur Industrial Area,Site-B, Greater Noida, Gautam Buddh Nagar, U.P, India Pin Code - 201306 Ph: +91-9958904598 Email: [email protected]

Solid Oxide Fuel Cell Market to be Driven by increasing population in the Forecast Period of 2025-2032 Solid Oxide Fuel Cell (SOFC) Market is projected to grow from USD 2.9 billion in 2023 to USD 12.9 billion by 2030, at a CAGR of 23.6%. This significant growth is fueled by rising global interest in low-emission energy technologies, increased investments in hydrogen infrastructure, and the rapid deployment of SOFC systems across commercial, industrial, and residential applications. Request Free Sample Report:https://www.stellarmr.com/report/req_sample/Solid-Oxide-Fuel-Cell-Market/271 Market Estimation, Growth Drivers & Opportunities Solid oxide fuel cells are advanced electrochemical devices that convert chemical energy into electrical energy using a solid oxide electrolyte. Their high efficiency, fuel flexibility, and ability to operate at elevated temperatures make them a prime candidate for distributed power generation, auxiliary power units, and combined heat and power (CHP) systems. Growth Drivers: Decarbonization Pressure Across Industries: The growing global emphasis on reducing carbon emissions in power generation and transportation is accelerating the adoption of SOFCs. Rise in Distributed Power Generation: Businesses and homes are increasingly adopting decentralized energy systems for reliability and cost control. Hydrogen Economy Evolution: SOFCs play a pivotal role in hydrogen-based systems, providing flexibility to use hydrogen or syngas as fuel. Government Subsidies & R&D Incentives: Many countries have introduced subsidies and funding programs to accelerate SOFC development and commercialization. Key Opportunities: Integration of SOFC systems into smart grids and renewable energy systems. Adoption in data centers and telecom infrastructure to ensure uninterrupted, clean backup power. Collaboration between OEMs and energy companies to commercialize large-scale SOFC power plants. U.S. Market Trends & 2024 Investment Highlights In 2024, the United States continued to lead innovation and commercialization in the SOFC sector. The Department of Energy funded over $100 million toward advanced fuel cell research under its Hydrogen and Fuel Cell Technologies Office (HFTO). Major companies like Bloom Energy expanded production facilities and launched new modular SOFC systems for data centers and critical infrastructure. Public-private partnerships in California and New York promoted grid-connected SOFCs to enhance power stability and reduce emissions. Market Segmentation – Leading Segments by Share By Application: Stationary Power Generation dominates the market with the largest share, driven by growing demand for clean, uninterrupted power across commercial buildings, hospitals, and industrial facilities. By End-User: Commercial & Industrial Sectors lead the market due to increasing demand for efficient backup and primary power sources, particularly in data centers, manufacturing units, and utility services. Competitive Analysis – Top 5 Companies & Strategic Developments 1. Bloom Energy Corporation As the global leader in SOFC technology, Bloom Energy expanded its reach in 2024 by unveiling high-density fuel cell servers tailored for data centers. The company also partnered with SK ecoplant in South Korea to scale hydrogen-powered SOFC installations. 2. Mitsubishi Power Mitsubishi focused on developing large-scale, grid-connected SOFC systems for Japan and Southeast Asia. It introduced a 1MW hybrid system and collaborated with renewable developers to support long-duration clean power solutions. 3. Aisin Seiki Co., Ltd. Aisin enhanced its residential SOFC units for the Japanese market and began exploring European deployment. It also invested in high-temperature material R&D to improve fuel cell lifespan and efficiency. 4. Ceres Power Holdings plc Ceres licensed its SteelCell technology to global OEMs and continued joint ventures with Bosch and Weichai to commercialize SOFC systems in Europe and China. In 2024, it launched a 5kW fuel-flexible unit designed for commercial heating systems. 5. Convion Ltd. Finland-based Convion ramped up commercialization of modular SOFC units for distributed power. The company expanded its microgrid pilot programs across the EU and launched ammonia-fed SOFC solutions for off-grid applications. Regional Analysis – USA, UK, Germany, France, Japan, and China USA: The U.S. holds a dominant position, driven by federal investment, strong commercial adoption, and companies like Bloom Energy. Several states offer incentives for clean energy systems, including SOFC installations. UK: The UK government is funding hydrogen and fuel cell technology under its Net Zero Strategy. SOFC research is growing through partnerships with universities and startups, particularly in grid balancing and microgrid applications. Germany: Germany’s Energiewende transition is propelling fuel cell integration into renewable-heavy grids. The country is prioritizing hydrogen infrastructure and supporting residential and industrial SOFC demonstration projects. France: France is investing in hydrogen valleys and clean energy hubs, many of which include SOFC pilot programs for local energy resilience and backup power solutions. Japan: Japan remains a global SOFC leader through its ENE-FARM initiative. Residential and small commercial units are widely adopted, and government support continues to fund R&D for hydrogen and ammonia-fed SOFC systems. China: China is scaling its fuel cell industry, especially through its National Fuel Cell Demonstration program. Partnerships with global SOFC technology providers are driving adoption across transportation, utilities, and industrial segments. Conclusion & Outlook The Solid Oxide Fuel Cell Market is witnessing a transformative phase, underpinned by rapid decarbonization, the expansion of the hydrogen economy, and rising demand for high-efficiency distributed energy solutions. As manufacturing scales and fuel cell costs decline, SOFCs are becoming viable for mainstream applications in both developed and developing economies. Key Opportunities Moving Forward: Expansion into hybrid systems combining SOFCs with batteries or renewables. Adoption in remote and off-grid power markets. Cross-border technology partnerships to fast-track commercialization. Solid oxide fuel cells are set to become a cornerstone of future clean energy strategies, promising efficiency, reliability, and environmental sustainability across multiple sectors. About us Phase 3,Navale IT Zone, S.No. 51/2A/2, Office No. 202, 2nd floor, Near, Navale Brg,Narhe, Pune, Maharashtra 411041 +91 9607365656 [email protected]

On-board Charger Market Size To Grow At A CAGR Of 18.5% In The Forecast Period Of 2025-2032 On-Board Charger (OBC) Market is projected to grow from USD 6.0 billion in 2023 to USD 19.7 billion by 2030, at an impressive CAGR of 18.5% during the forecast period. This exponential growth is attributed to the surging adoption of electric vehicles (EVs), rapid technological advancements in charging systems, and government initiatives aimed at supporting the electrification of transportation. Request Free Sample Report:https://www.stellarmr.com/report/req_sample/On-board-Charger-Market/1548 Market Estimation, Growth Drivers & Opportunities On-board chargers are critical components in EVs that convert AC power from charging stations into DC power to recharge vehicle batteries. As EV adoption increases worldwide, the demand for efficient, compact, and fast-charging OBCs is rising concurrently. Key growth drivers include: Rising Global EV Sales: The expansion of the electric mobility ecosystem has created a substantial market for reliable and high-performance OBCs, especially in mid-to-high-end EVs and plug-in hybrid electric vehicles (PHEVs). Government Incentives & Emission Norms: Regulatory bodies across the U.S., EU, and Asia-Pacific are implementing strict emission norms and offering subsidies for EV adoption, boosting OEM investments in OBC technologies. Advancements in Semiconductor Technology: The introduction of wide-bandgap semiconductors like silicon carbide (SiC) and gallium nitride (GaN) in OBCs has enabled higher power densities, faster charging, and reduced energy loss. Vehicle-to-Grid (V2G) and Bi-Directional Charging: As smart grid systems evolve, bi-directional charging technology is gaining prominence. OBCs with V2G compatibility allow EVs to supply energy back to the grid, transforming them into dynamic energy storage units. Opportunities exist in integrating OBCs with smart home systems, the development of modular and scalable OBC platforms, and leveraging AI-driven power management systems for optimized charging. U.S. Market Trends and Investments (2024–2025) The United States is one of the fastest-growing OBC markets, backed by policy support and infrastructure development. Infrastructure Expansion: The U.S. government’s continued investment in EV infrastructure, including AC charging stations, is fueling demand for high-efficiency OBCs. OEM Initiatives: Major automotive players like Tesla, Ford, and General Motors are enhancing their EV lineups with more powerful and integrated charging systems. These include 11 kW and 22 kW OBC modules with intelligent charge monitoring. Technological Leadership: U.S.-based tech companies are leading in developing V2G-ready OBCs, which are becoming integral to energy grid resilience and smart home integration. Standardization Push: U.S. regulatory agencies are promoting the adoption of universal charging protocols, increasing the compatibility of OBC systems with various public and private charging networks. Market Segmentation – Leading Share By Vehicle Type: Battery Electric Vehicles (BEVs) account for the largest share, due to their complete reliance on electrical energy for propulsion. Plug-in Hybrid Electric Vehicles (PHEVs) also contribute significantly, with rising sales globally. By Power Output: 11 kW OBCs dominate the market due to their balance between cost and charging time, especially in residential applications. 22 kW and above OBCs are gaining traction in premium vehicles and commercial fleets, offering ultra-fast charging capabilities. By Propulsion Type: Single-phase chargers are prominent in residential settings. Three-phase chargers are preferred in commercial applications for faster energy transfer. Competitive Analysis – Top 5 Companies Delta Electronics Inc. Delta is a global leader in power management solutions and provides a wide range of high-efficiency OBCs for electric vehicles. The company focuses on bi-directional, compact, and scalable platforms compatible with global charging standards. STMicroelectronics Known for its power semiconductors and integrated solutions, STMicroelectronics is investing heavily in GaN-based OBCs that enhance energy efficiency and reduce system complexity for OEMs. LG Electronics LG provides integrated EV components including OBCs with high energy density and thermal efficiency. The company has announced expansion in its EV component production in North America. Toyota Industries Corporation As a pioneer in hybrid and electric powertrains, Toyota has developed proprietary OBC systems with enhanced safety and V2G features. It continues to innovate in high-output, water-cooled OBC modules. Bel Power Solutions Specializing in advanced power conversion, Bel Power Solutions supplies compact, rugged OBCs suitable for commercial vehicles and heavy-duty applications. Their focus is on high-wattage, three-phase units for fleet electrification. These players are heavily focused on R&D, partnerships with OEMs, and developing scalable, high-performance charging platforms to gain competitive advantage. Regional Analysis – USA, UK, Germany, France, Japan, China United States: With strong policy support, OEM investments, and a growing EV fleet, the U.S. is one of the largest markets for advanced OBC systems. Technological leadership and local manufacturing are key growth enablers. United Kingdom: The UK’s ambitious EV targets and incentives for residential charging installations are propelling demand for compact, smart OBCs. Germany: As Europe’s automotive hub, Germany leads in OBC innovation with firms integrating 800V charging architectures and promoting homegrown semiconductor usage. France: Government incentives for EV adoption and a well-developed charging network are pushing local OBC demand, especially in affordable EV segments. Japan: Known for hybrid dominance, Japan is shifting toward BEVs with next-gen OBCs supporting compact EVs and smart city integration. China: As the largest EV producer globally, China commands significant OBC production. Government subsidies, domestic EV manufacturing, and fast-charging initiatives fuel market dominance. Conclusion & Strategic Outlook The On-Board Charger Market is evolving rapidly, becoming a cornerstone of the global transition to electric mobility. With increasing vehicle electrification, smart grid integration, and energy efficiency demands, OBC manufacturers have significant opportunities to innovate and scale. About us Phase 3,Navale IT Zone, S.No. 51/2A/2, Office No. 202, 2nd floor, Near, Navale Brg,Narhe, Pune, Maharashtra 411041 +91 9607365656 [email protected]

PVC Electrical Pipe Manufacturers Looking for reliable PVC Electrical Pipe Manufacturers in India? Visit Ashish Pipes, a trusted name in high-quality PVC electrical piping solutions. As leading PVC Electrical Pipe Manufacturers, we ensure durability, safety, and performance across industrial and residential installations. Our products are engineered for superior insulation and long-lasting use. Choose Ashish Pipes for premium PVC electrical pipes that meet all standards and project needs. Visit: https://www.ashishpipes.in/pvc-conduit-pipes/ Add: B-57 & 58, Sector-81,Phase II, Noida Ph: 0120-42-222-07 Email: [email protected]

Electrical Conduits Manufacturers in UP Ashish Pipes is one of the leading Electrical Conduits Manufacturers in UP, offering high-quality and durable conduit solutions for safe and efficient electrical installations. Our products are designed to meet industrial standards and ensure long-lasting performance. With advanced manufacturing facilities in Noida, we cater to the growing needs of construction and electrical industries across Uttar Pradesh. Choose Ashish Pipes for reliable and affordable electrical conduits manufacturers in UP. Visit: https://www.ashishpipes.in/electrical-conduits-up/ Add: B-57 & 58, Sector-81,Phase II, Noida Ph: 0120-42-222-07 Email: [email protected]

PVC Electrical Pipe Manufacturers Ashish Pipes is one of the leading PVC Electrical Pipe Manufacturers in India, offering high-quality, durable, and cost-effective electrical conduit solutions. Our PVC pipes are designed to provide excellent protection for wiring in residential, commercial, and industrial setups. As trusted PVC Electrical Pipe Manufacturers, we ensure superior strength, fire resistance, and easy installation. Choose Ashish Pipes for reliable and efficient electrical piping systems that meet all industry standards. Visit: https://www.ashishpipes.in/pvc-conduit-pipes/ Add: B-57 & 58, Sector-81,Phase II, Noida Ph: 0120-42-222-07 Email: [email protected]

How to Choose the Right Transformers Supplier for Industrial Applications? Transformers play an instrumental role in electrical systems. Transformers ensure efficient electricity transfer and voltage regulation. It becomes very crucial for us to make an informed decision while choosing one of the top Transformers Suppliers for your needs. However, owing to a large number of transformer suppliers, it can become challenging to select the right one. In this blog, we will discuss some key factors that you must consider when selecting one of the best suppliers for your electrical setup. Visit the blog for complete details: https://www.macroplasttransformers.com/blog/how-to-choose-the-right-transformers-supplier-for-industrial-applications/ Add: D-18/2, Surajpur Industrial Area,Site-B, Greater Noida, Gautam Buddh Nagar, U.P, India Pin Code - 201306 Ph: +91-9958904598 Email: [email protected]