Commercialized battery restoration equipment developed with in-house technology.
point 01.
Application of AI System
Restoration equipment autonomously detects and restores batteries.
point 02.
Implementation of Heat Dissipation System
The restoration equipment independently detects battery temperature and performs self-restoration.
point 03.
Use of 3D Multi-Pulse Wave Technology
Applied IN/OUT alternating pulse waves instead of uniform current waves.
Core Technology
01
ECOU Co., Ltd.’s ES-K9000 utilizes 3D multi-dimensional pulse waves and is equipped with an AI (artificial intelligence) program, allowing automatic adjustment and restoration based on the battery’s condition for user convenience.
02
It is developed to separate and decompose sulfate buildup on battery plates using 3D multi-dimensional pulse waves and electrical signals, while powerfully discharging internal heat and unnecessary voltage to minimize plate damage and maintain long-term stable performance.
03
In long-used batteries, imbalances in internal electrolytes and current deviations between cells can occur, resulting in maintained voltage but insufficient current output. The ES-K9000 addresses this issue by equalizing current flow between cells.
04
ECOU Co., Ltd. is equipped with the world’s first AI-powered battery restoration system, which accurately detects the internal condition of the battery during the restoration process. The AI system continuously monitors the current and voltage of each cell in real time to perform the most optimal restoration operations.
03
In long-used batteries, imbalances in internal electrolytes and current deviations between cells can occur, resulting in maintained voltage but insufficient current output. The ES-K9000 addresses this issue by equalizing current flow between cells.
04
ECOU Co., Ltd. is equipped with the world’s first AI-powered battery restoration system, which accurately detects the internal condition of the battery during the restoration process. The AI system continuously monitors the current and voltage of each cell in real time to perform the most optimal restoration operations.
