India’s electric mobility and clean energy ambitions are accelerating, placing unprecedented focus on battery technology. As electric vehicles become central to transportation and renewable energy integration grows, the need for safe, efficient, and locally manufactured batteries is more critical than ever. Addressing this challenge requires not just innovation, but deep technical expertise combined with strong execution capabilities. This is where Una Eco is playing an increasingly important role in India’s evolving energy ecosystem.
Batteries as the Core Enabler of Clean Mobility
The PDF highlights that mobility is fundamental to economic growth, enabling access to markets, employment, and essential services. As India moves toward reducing fossil fuel consumption, electric mobility is emerging as a key solution. However, the success of electric vehicles depends heavily on battery performance.
Batteries serve as the primary fuel source for EVs, influencing driving range, charging behavior, safety, and overall efficiency. Limitations such as slow charging, thermal instability, and rapid degradation can slow adoption and reduce user confidence. Overcoming these challenges requires advanced lithium-ion technologies designed for real-world operating conditions.
A Technology-Driven Joint Venture Model
Una Eco Systems Private Limited is structured as a joint venture between VD Networks India Pvt. Ltd. and Fine Eco Solution Corporation (FES) of Japan. This collaboration combines local operational strength with decades of Japanese research and manufacturing expertise in lithium-ion batteries.
VD Networks contributes experience in large-scale infrastructure execution, regulatory processes, and technology-driven transformation within India. FES adds deep specialization in battery chemistry, rapid-charging systems, and automated manufacturing. Together, they aim to accelerate the development of next-generation battery solutions for the Indian market.
Hi-LMO™ Technology and Safety-Centric Design
A key highlight from the PDF is Hi-LMO™, a lithium manganese oxide–based battery technology developed through Japanese technical collaboration. This chemistry is designed to prioritize safety, efficiency, and lifecycle performance.
Hi-LMO™ batteries demonstrate low internal impedance, enabling faster charging and higher usable energy. The technology also offers strong resistance to thermal runaway, a critical requirement for high-temperature environments like India. Controlled temperature rise during high-current operation enhances reliability and reduces long-term degradation.
These characteristics make Hi-LMO™ well suited for demanding EV applications where consistent performance and safety are non-negotiable.
Manufacturing Lithium-Ion Batteries in India
To support growing demand, Una Eco is establishing a greenfield lithium-ion battery assembly facility at Sanand GIDC in Gujarat, as detailed in the PDF. The plant is being commissioned in phases and represents a significant investment in domestic manufacturing capacity.
Local production allows tighter quality control, faster customization, and better alignment with Indian usage conditions. The facility is designed to manufacture battery cells, modules, and integrated battery packs, creating a vertically aligned production ecosystem rather than relying on imports.
This manufacturing approach strengthens Una Eco’s position among Lithium Battery Manufacturers in India, supporting self-reliance while maintaining global quality standards.
Applications Across Vehicle and Energy Segments
The PDF outlines Una Eco’s focus on batteries for multiple applications, including electric mobility and stationary storage. Electric two-wheelers, which form the majority of India’s EV market, require lightweight and efficient battery systems capable of frequent charge–discharge cycles.
At the same time, passenger vehicles demand higher energy density, stable voltage delivery, and strong safety characteristics. Hi-LMO™ technology supports both segments by offering consistent power output and long lifecycle performance, making it suitable for Passenger Vehicle Battery applications as well.
Beyond mobility, Una Eco is also developing battery systems for stationary use cases such as hybrid inverters, battery grids, and renewable energy integration.
Energy Storage and Grid Support
As renewable energy adoption increases, battery storage becomes essential for managing supply fluctuations. The PDF highlights Una Eco’s plans for stationary battery solutions that support grid stability and energy availability.
These Energy Storage Solutions help store excess generation and release power when demand rises, improving overall system efficiency. Lithium-based storage systems are particularly effective in this role due to their high usable energy and stable cycling behavior.
Intelligent Systems and Integration
Una Eco’s roadmap also includes intelligent battery controllers, vehicle control units, and IoT-based monitoring applications. These systems enable better control over charging, discharging, and battery health, ensuring optimized performance throughout the battery lifecycle.
Such system-level integration reflects a shift from standalone products to intelligent, scalable energy platforms designed for long-term use.
Conclusion: Building the Foundation for India’s Energy Transition
The information presented in the PDF positions Una Eco as a company focused on strengthening India’s battery manufacturing and technology ecosystem. By combining Japanese technical expertise, local manufacturing, and safety-first battery design, the company is contributing to the foundation of India’s electric mobility and clean energy future.
As EV adoption and renewable energy integration continue to expand, advanced lithium battery solutions like Hi-LMO™ will play a vital role in enabling reliable, efficient, and sustainable energy systems across the country.
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