Founded in 2022 by visionary engineers Sheetanshu Tyagi and Rahul Patel, EMO Energy is on a mission to revolutionize electric mobility and contribute to a sustainable future.
The startup, headquartered in Bangalore, is a deep-tech mobility company focused on developing advanced battery-powered solutions for high energy and high power applications, setting the stage for a net-zero future.
Addressing the Charging Challenge
In the rapidly evolving electric vehicle (EV) landscape, one of the most significant challenges remains the efficiency and lifespan of battery systems.
Traditional battery technologies often fall short in terms of charging speeds and lifecycle longevity, hindering widespread EV adoption.
EMO Energy has stepped up to tackle these issues head-on with its innovative tech stack that boasts 20-minute charge speeds and over five years of lifespan for any cell chemistry.
Their flagship product, the ZEN PAC, is an AIS-certified battery pack designed for two- and three-wheelers, allowing fleet operators to achieve a 10x better Total Cost of Ownership (TCO).
By integrating patented Active Thermal Management, an AI-driven Battery Management System (BMS), and a Life Extension Algorithm, EMO Energy aims to redefine the standards of battery performance in the electric mobility sector.
Innovative Product Ecosystem
EMO Energy has developed a comprehensive product ecosystem comprising various battery solutions tailored for different applications:
- ZEN PAC: Ranging from 1.5 to 4 kWh, this battery pack is ideal for smaller vehicles and delivers impressive performance with over 2000 cycles.
- ZEN RIG: A larger battery solution designed for more demanding applications, offering 5 to 100 kWh capacity and 3000 cycles.
- ZEN STAC: A modular platform accommodating capacities from 100 kWh to 1 GWh, suitable for larger systems, with an impressive lifespan of 6000 cycles.
- emo SENS: Utilizing machine learning, this model predicts failure and lifecycle, ensuring a state of charge (SOC) and state of health (SOH) error of less than 1%.
The Journey of EMO Energy
Before launching EMO Energy, co-founders Rahul Patel and Sheetanshu Tyagi spent over a decade working on critical systems for some of the world’s largest EV original equipment manufacturers (OEMs).
Their shared vision of transforming India into a global EV powerhouse fueled their desire to create EMO Energy, where they could innovate and engineer cutting-edge technology that emphasizes safety, reliability, and performance.
The team at EMO Energy has engineered every component of the ZEN RIG from the ground up, subjecting each system to rigorous abuse testing to ensure they can withstand even the harshest environmental conditions.
They have also developed a semi-automated battery assembly process to maximize production efficiency, currently implemented in their manufacturing facility in Mysore.
Key Features of ZEN PAC
- Built to Last: With a capacity of 2 kWh, a weight of 13.5 kg, and operational temperatures ranging from -20 to 60 degrees Celsius, the ZEN PAC is designed for extreme conditions.
- Safety First: Equipped with thermal runaway protection, an ASIL D rated dual-core BMS, and a rugged full-metal construction, safety is at the forefront of EMO’s design philosophy.
- Waterproof: With an IP 68 rating, the ZEN PAC is engineered to prevent water and dust ingress, even under the harshest conditions.
- Impact Resistance: The battery pack can survive multiple drops from heights of up to three meters, thanks to its patented 6D suspension system.
Conclusion
As the world shifts towards electric mobility, EMO Energy is poised to play a pivotal role in driving this transformation.
By addressing critical challenges in battery technology and engineering innovative solutions like the ZEN PAC, EMO Energy is not just contributing to a greener future but also enabling mass EV adoption in India and beyond.
With a world-class team dedicated to fusing hardware, software, and experience, EMO Energy is determined to achieve the impossible and lead the charge towards sustainable transportation.
