Relying on Ligoo's years of experience in the power BMS field, the energy storage BMS incorporates four layers of safety measures (BMS, fire extinguishing capsules, circuit protection, cloud monitoring), safeguarding against over-temperature, over-current, short circuits, overcharging, over-discharging, and more. It boasts high efficiency (algorithms, battery curves) and intelligence.
Single-person foolproof installation, one-click intelligent configuration via the app, plug-and-play with no maintenance required. Dual protection design coupled with real-time big data AI analysis ensures complete elimination of system safety concerns. It introduces the "X-Energy" architecture, a four-in-one energy management framework for power grid, load, energy storage, and charging, significantly leading in operational efficiency. It also pioneers the "iVolt" smart energy OS system, predicting and actively calling upon various energy sources/appliances for seamless intelligent operation.
Proactive safety protection, individual cell-level battery health management, ultra-long-term battery safety warning. Massive data integration, empowered by intelligent algorithms, intra-cluster battery SOC balance strategies, and power intelligent distribution algorithms, enhancing battery lifespan. Cloud-edge synergy supports both cloud-based and on-premises deployments, providing strong scalability, high reliability, and strong compatibility.
Ligoo technology addresses the safety characteristics of lithium iron phosphate power batteries in new energy passenger cars through optical detection principles and reliable software and hardware development capabilities, achieving reliable full-cycle safety monitoring.
Targeting the safety characteristics of ternary power batteries in new energy passenger cars, it uses high-precision and reliable MEMS gas pressure sensors, enabling high-speed sampling and extremely low power consumption management for full-cycle and high-density air pressure data collection of battery packs.