GCE LiFePO4 Battery 60S 192V 100A BMS for Solar battery System for UPS ESS Solar energy Home ESS Large Scale ESS Micro Grid ESS Solar Carport ESS
GCE Integrated BMS Overview:
Integrated BMSs are composed of BMS main control board, BMU sampling board, high voltage board, switching power supply, Hall sensor, DC contactor, micro switch, power terminal, structural box, wiring harness, etc.
For home ESS, 60S192V 100A BMS can work with an inverter to construct a perfect home Energy Storage System. BMS typically works with an inverter, charger, UPS, or PCS. In some cases, there will be communication protocols required for the communication between master BMS and another device. The BMS and the inverter work together to realize the energy storage function of peak shaving and valley filling.
GCE HV BMS Configuration:
One complete set of HV 60S192V 100A BMS includes:
Master BMS, Model#: RBMS07S-60S100A and its wire accessories, include 6p temperature sensoring wires and 16p voltage sensoring wires.
There are two different models for integrated BMS, one is a standalone model while the other one is parallel with its cost slightly higher than the standalone model.
GCE HV Integrated Master BMS and Accessories:
GCE integrated BMS Characteristics:
|※ Advanced battery management system---The highly integrated battery management system can realize seamless monitoring.|
|※ Perfect self-checking and running status checking function, with HMI display screen, system running information is clear at a glance.|
|※ Complete and reliable system control and protection strategies, comprehensively guarantee battery safety and escort to extend the life of battery packs.|
|※ Modular design, configurable and expandable---multiple energy storage units can be flexibly combined and expanded into a larger energy storage system.|
|※ Abundant communication interfaces---multiple RS485, CAN, Ethernet, dry contact input and output interfaces, supporting communication with most PCS and monitoring servers on the market.|
|※ The communication interface protocol is flexible---the factory comes with the company's communication protocol, and it can also be adapted to the PCS of different manufacturers according to customer needs.|
|※ The built-in large-capacity memory chip can store a large amount of key operating data.|
|※ Automatic circulation control and automatic parallel/offline control can easily realize the parallel connection of battery packs.|
75s BMS adopts a master-slave integrated design and relay solution to meet the lithium battery demand of multiple strings of small capacity batteries. Greatly reduce the use cost of users;
GCE integrated BMS Technical parameters:
|Item||Specifications and parameters|
|System operating voltage range||120 - 370 VDC|
|Startup mode||DC start|
|balance||Equilibrium type||Passive resistance equalization|
|Balanced current||100mA ± 10mA (when cell at 3.50V)|
|Sampling accuracy||± 2℃|
|Voltage sampling||Sampling accuracy||single-cell ±20mV|
|Communication mode||Can: 1 channel (communication with PCs / UPS)|
|RS485: 1 channel (communication with upper computer / PCS / UPS)|
|Display mode||6-digit LED indicator, including|
|1-bit fault indication, 1-bit operation indication, 4-bit SOC power indication|
|HMI display: optional 3.5 inch|
|(be selected according to customer needs)|
|Short circuit protection||Support 7.5KA 20ms|
|Maximum overload capacity||50A system transient: 70A/10S|
|100A system transient: 150A/10S|
|Alarm level||one Level|
|Protection level||two levels|
|Level 1 cut off charge/discharge|
|Level 2 micro cut-off switch, system power down|
|Withstand voltage rating||1800VDC 1mA 1min|
|Safety certification||Comply with CE certification standards|
|Operating humidity range||<90 RH(40℃±2℃)|
Download linkage of Specification:
GCE 30S-75S integrated BMS specification Ch-EN V2...
High Voltage BMS Application:
GCE high voltage BMS is an intelligent overall solution. We can connect battery modules with different types of strings in series to higher voltage systems, GCE BMS will assign addresses to each connected battery module, and if a cell is damaged, we can easily find and replace it. Multiple battery clusters can also be assigned addresses through DIP switches. We allow 8 battery clusters to be connected in parallel. Of course, you can also connect more battery clusters in parallel to meet your MWh energy storage needs. But our suggestion is that you can use every 8 battery clusters as a battery bank and have N battery banks in parallel. Our BMU can be divided into 8 series, 12-16 series, and 17-24 series of three specifications of PCB. In this way, you can meet the average distribution of your various total strings of batteries.
FAQs about GCE HV BMS: