At Cellex India, our innovation not only maximizes performance but also supports sustainability by reducing material waste and improving end-of-life recyclability. With CELTAN-powered hybrid cells, we are setting a new benchmark in industrial-grade battery efficiency.
We’re engineering the future of energy with our proprietary Advanced Hybrid Cell Chemistry—a next-generation breakthrough that blends the best of lithium-ion technology with enhanced material science. Our hybrid chemistry is designed to deliver:
Superior Energy Density
More power in a smaller footprint—ideal for compact, high-performance applications.
Extended Lifecycle
Engineered for long-term durability with minimal capacity degradation.
Thermal Stability & Safety
Built-in safeguards and heat-resilient components for safe operation in extreme climates.
Fast Charging Capabilities
Optimized electrode materials for significantly reduced charge times.
At the core of every Cellex battery solution lies our Active-Smart Battery Management System (BMS) — a cutting-edge technology designed to intelligently monitor, regulate, and protect your energy storage investments in real-time.
By combining advanced firmware, intelligent circuitry, and AI-assisted response protocols, Cellex’s Active-Smart BMS not only extends battery lifespan but also ensures consistent, safe, and efficient power delivery — whether in electric vehicles, industrial equipment, or renewable energy storage systems.
Continuously monitor voltage, current, temperature, and cell balance across the battery pack.
Protect against overcharging, deep discharge, short circuits, overheating, and other potential hazards.
Self-optimize performance for each application through real-time diagnostics and adaptive power management.
Communicate with external systems via CAN or UART interfaces for seamless integration and control.
Thermal efficiency is crucial for sustained, high-efficiency battery operation — and at Cellex India, our Advanced Thermal Management System is engineered to do exactly that.
Actively dissipate heat during high-performance discharge and fast charging cycles.
Maintain optimal temperature ranges across all battery cells, even in extreme weather or industrial load scenarios.
Prevent thermal runaway, overheating, and fire risks — significantly improving safety metrics.
Support BMS integration for real-time thermal feedback and adaptive cooling control.
Whether it’s a high-load EV battery pack or a rugged industrial unit, our thermal management layer enhances battery reliability, lifespan, and safety — all while reducing energy loss from temperature-induced inefficiencies.
At Cellex, manufacturing is not just about production — it’s a precision-driven craft. Our state-of-the-art manufacturing facility integrates robotic automation, advanced quality control, and smart analytics to deliver battery solutions that are not only powerful but consistently reliable.
Reduce material waste through lean design and process optimization
Ensure micro-level consistency for each batch of lithium-ion cells
Meet global compliance with TÜV, BIS, and ISO-grade protocols
Support custom scalability for defence, EV, telecom, and industrial use cases
Engineered to be safe — even in the most sensitive environments.
Whether it’s a high-load EV battery pack or a rugged industrial unit, our thermal management layer enhances battery reliability, lifespan, and safety — all while reducing energy loss from temperature-induced inefficiencies.