Smart Batteries
- Batteries can be connected in series or parallel. Connected packs will transmit both individual and aggregated battery data.
- BMS can communicate with chargers, battery analyzers, and hosts such as robotics and drones via CAN, SMBus, RS485, etc.
- Wireless communication is supported with Cloud or Fleet Management services via LTE Cat.1, LoRaWAN, and OpenThread Mesh Network.
- Advanced sensors measure battery swelling factor, cell balancing current/voltage/duration, and operating environments.
Big Data Analytics
- Big Data: A timescale and analytical database stores manufacturer data, including pack/cell and electronics serial/lot numbers, and quality assurance testing results. Actual operational data from customers is also collected, including cell/pack voltage, current, temperature, cell balancing, swelling factor, abnormal activities, and events.
- Machine Learning for AI-Ready Solutions: Analyze big data to develop algorithms that optimize battery settings to improve cycle life, capacity, and performance. Identify weak cells for timely preventive maintenance. Optimize charge profiles to shorten charging time while controlling battery temperature and swelling. Achieve robust fail-safe protection.
Value-Added Services
- Free Notifications: Registered users may receive notifications via text message or email regarding firmware updates, critical events, and promotions.
- SoluThium Cloud: Subscribers can access real-time battery status, event notifications, and BDA recommendations. Users can remotely update battery parameters and firmware and also send commands to batteries such as low-temperature preheat.
- Application Integration: Subscribers or third-party service providers can integrate their existing systems with SoluThium Cloud via MQTT or RESTful API