Industries we’ve excelled in
DC-DC
The MXWL DC-DC Converter is a high-efficiency power solution for electric two- and three-wheelers. With a 26-65VDC input range, it delivers a stable 14.2VDC output, achieving >95% efficiency. Available in 10A and 20A variants, it features an IP67-rated aluminum casing for durability and protection against dust, water, and vibrations. Advanced safety mechanisms, including overvoltage, overcurrent, and short-circuit protection, ensure reliable performance and long-term stability. Compliant with AIS004, AIS138, and RoHS standards, and equipped with CAN communication, it is ideal for electric two- and three-wheeler applications requiring precision, durability, and performance in demanding environments.
Charger
The MXWL Portable Charger Rev2 (750W) is a high-performance charging solution designed specifically for electric two-wheelers. Delivering 750W of continuous power, it supports CC-CV and trickle charging to enhance battery life and efficiency. With an IP66-rated enclosure, it offers protection against dust and water, making it suitable for various environments. Built-in overvoltage, overcurrent, and short-circuit protection ensures safety, while CAN communication and LED indicators provide real-time status updates. Compact, lightweight, and air-cooled for efficient performance, this charger is designed to keep your electric two-wheeler powered reliably—whether at home or on the go.
CT-Lite SLC
The CT-Lite SLC is a compact Battery Management System designed for cost-competitive electric mobility like cycles, mopeds, and kick scooters, featuring 8–16 voltage sensing channels and a continuous current performance of 70 A. This chemistry-agnostic system delivers precision monitoring with ± 2% SoC estimation accuracy, intelligent passive balancing up to 210 mA per cell, and supports hot-swappable paralleling for up to four batteries to maximize standby life.
AVA SLC
The AVA-SLC variant is a specialized, 14S cell configuration BMS that offers the high-precision intelligence of the AVA series in a cost-optimized, compact form factor for moped and scooter setups. It utilizes proprietary thermal safety algorithms to detect runaway conditions in under 3 μs and maintains ultra-low power consumption with a sleep mode under 300 μA, ensuring safety and performance without compromising the space constraints of modern electric vehicles.
IoT
The Maxwell IoT module, or Telematics Control Unit (TCU), is a secure gateway connecting EVs to the cloud via 4G LTE and Bluetooth 5.0, featuring multi-constellation GNSS with sub-10m accuracy for global fleet tracking. It employs robust symmetric and asymmetric hardware-level encryption for data security and integrates a 3-axis accelerometer and gyroscope to track vehicle stability, supporting geofencing, remote health monitoring, and on-device logging for up to 180 days.
Battery Chemistry
Our modular algorithms support Sodium, Solid State, and other chemistries with user-defined, flexible thresholds.
Vehicle-to-Grid
Predictive, grid-aware BMS uses machine learning (ML) to safely enable V2G participation without compromising range.
X-in-One integration
Integrated solutions combine standalone components for faster Go-to-Market and significant value addition for customers.
Localization
All advanced electronics are built entirely in India on our in-house, state-of-the-art SMT line in Aurangabad.
Latest Insight
Navigating the New EU Battery Regulations: What You Need to Know
In a rapidly evolving landscape where sustainability and safety are paramount, the European Union has introduced groundbreaking regulations to govern the battery industry. Regulation 2023/1542, approved in July 2023, heralds a new era of standardised practices aimed at promoting environmental
MOSFET vs Contactor Based BMS: What’s the difference?
In the electrifying world of Battery Management Systems (BMS), choosing between MOSFETs (Metal-Oxide-Semiconductor Field-Effect Transistors) and contactors can make or break your battery system’s performance. Buckle up as we dive into this comprehensive technical comparison