MONIGEAR battery monitoring system monitors key parameters such as voltage, internal resistance, negative column temperature and group charge and discharge current of each single battery in real time, and analyzes and determines the running status of the battery and the health status of the battery SOH. Achieves early diagnosis and early warning of battery deterioration, and timely alarms when the battery system is abnormal.

The MONIGEAR battery monitoring system adopts a single battery monitoring module installation topology structure, greatly reducing construction and maintenance costs. And the single monitoring scheme effectively controls the length of the battery monitoring line, improving the overall electrical safety of the battery system.

Professional anti-interference

In many complex application environments with strong electromagnetic interference, it is easy to cause monitoring modules to be unable to measure normally. However, our monitoring sensor measurement circuit adopts advanced anti-interference technology, effectively filtering out interference from charging equipment and load circuits, obtaining stable and accurate measurement values, and ensuring the effectiveness of the battery monitoring system.

IoT products

In addition to supporting multiple communication protocols to access upper computer center management software such as GNC protocol, ModbusTCP, etc., as an IoT product for future IoT applications, the MONIGEAR battery monitoring system adopts the MQTT protocol, which provides specialized adaptation for mainstream IoT cloud services such as Alibaba, Baidu, Tencent, AWS, Azure, etc. The data transmission adopts TLS security encryption method to ensure the confidentiality and integrity of data, and supports simultaneous access to two cloud platforms. It can send data to two centers simultaneously, achieving redundant backup systems.

Combining professional reliability and convenient usability

As an auxiliary monitoring system for batteries, the MONIGEAR battery monitoring system adopts a low-power design to minimize the impact on batteries, while improving its electrical safety, ensuring its reliable operation without affecting the normal operation of batteries, and achieving professional reliability of the auxiliary monitoring system.

While maintaining professional reliability, the MONIGEAR battery monitoring system achieves convenient operation and improves efficiency and reliability through supporting equipment configuration tools, intuitive LED breathing lights on sensors, and self checking functions on sensors.

low power consumption：Ultra low static current: less than 5mA (12V module) or less than 10mA (2V module). Reduce the demand for monitoring modules to obtain electricity from batteries, and the impact of monitoring modules on the battery's own state can be basically ignored.

Electrical safety: The isolation and withstand voltage between the communication bus electrical of the monitoring module and the battery pole electrical can reach 3000Vrms. The internal measurement circuit and power supply circuit of the monitoring module are both equipped with overcurrent protection circuits.

Hardware self-test: The sensor hardware self-check function generates an alarm when its circuit is faulty or its working conditions exceed the threshold. Improve the safety of the monitoring system itself and the effectiveness of the monitoring data.

Configuration tool：Facilitates batch installation and quick configuration of products. Supports online remote upgrade. Facilitate product deployment and maintenance, and effectively reduce labor costs.

LED indicator：The device side can judge the health status of each battery according to the preset threshold of each monitoring quantity. Combined with the two-color LED breathing light design on the single monitoring module, the SOH health status of the monitored battery can be visually displayed. At the same time as a communication indicator, easy to find and locate each module.