Battery Packs

We have our own proprietary products that suit a variety of applications in E-mobility starting from 2-Wheelers and 3-Wheeler Application.

Qmax ion Packs powers two wheelers ranging  48V to 72V from 1kWh to 5kWh.

Fixed pack  specifically designed for Loader vehicles powers three wheelers ranging  from 5kWh to 20 kWh for L3 loader and L5 Loader applications. These are fixed Battery packs with ergonomic design and rugged structure.

QMAX ION

More Specification About Battery Packs Standard

  • Swappable packs ranges from 1Kwh – 5kWh ( 48V ,60V , 72V platform )
  • Fixed Pack ranges from 5Kwh – 20kWh ( 48V ,60V platform )
  • CAN 2.0B communication enabled with Bluetooth, Wi-Fi and cloud based platform for Realtime application
  • AIS 156 certified pack
  • NMC, LFP, LTO Chemistries were used in our pack
  • Higher energy density in low volumetric density in vehicle
  • Thermal pads/Paste are used to avoid thermal runaway.

Safety Features

The BMS has multi-level voltage and current protection functions built into it. For discharge protection, our BMS has 3 different levels of protection to increase safety and also extend the life of the battery. Our cell balancing algorithm is more effective to balancing the string level mismatch in battery pack.

Qmax ion BMS having option to Over through air (OTA) firmware updating for calibration and upgrading options. Our BMS having Remote control MOSFET ON and OFF function to safeguard battery pack.

Our BMS having option to store fault count, which will help us to identify the user usage behavior. Critical fault function alerts the user to do the service to avoid the battery failure in future. Based on the fault count, our analytics platform suggest the user to change the usage behavior to increase the battery life and avoid battery failure.

BMS alert function helping the user to avoid the battery failure while in usage condition

Leverage Our IoT Solutions

We believe that intelligent energy management is key to a sustainable and efficient future.

The Internet of Things (IoT) is crucial for Li-Ion battery packs as it enables real-time monitoring and control. IoT integration allows for continuous data collection on battery health, performance, and usage patterns. This data is invaluable for optimizing charging cycles, predicting maintenance needs, and enhancing overall efficiency.

Through IoT connectivity, battery packs can communicate with centralized systems, providing insights that enable proactive decision-making, preventing failures, and prolonging the lifespan of Li-Ion batteries. This connectivity ensures that battery-powered devices, particularly in critical applications like defense and aerospace, operate reliably, contributing to improved safety, sustainability, and performance.