Product Details
Place of Origin: China
Brand Name: GCE
Certification: CE/ROHS/MSDS
Model Number: RBMS-S23-125A-614.4V
Payment & Shipping Terms
Minimum Order Quantity: 1 Set
Price: negotiable with cara@hngce.com
Packaging Details: Corrugated Carton, bundles, pallets, wooden box
Delivery Time: 15-25 days
Payment Terms: FOB/CFR/EXW
Supply Ability: 1000pcs / month
Parallel Loop Current Control: |
Support |
Operating Ambient Temperature: |
-20℃~60℃ |
Color: |
RAL 9005 Black Sand Grain |
Battery Charge And Discharge Management: |
Support |
Current Sampling Accuracy: |
1%FSR |
HMI Display: |
4.2-inch Built-in Screen |
Event Record: |
Support 5000 Records |
System Protection Parameter Setting: |
Support |
Material: |
Metal |
Battery Type: |
LFP NMC LTO |
Apllication: |
ESS Solar Storage,UPS System,battery Power Solution,Commercial And Industrial Energy Storage |
Parallel Loop Current Control: |
Support |
Operating Ambient Temperature: |
-20℃~60℃ |
Color: |
RAL 9005 Black Sand Grain |
Battery Charge And Discharge Management: |
Support |
Current Sampling Accuracy: |
1%FSR |
HMI Display: |
4.2-inch Built-in Screen |
Event Record: |
Support 5000 Records |
System Protection Parameter Setting: |
Support |
Material: |
Metal |
Battery Type: |
LFP NMC LTO |
Apllication: |
ESS Solar Storage,UPS System,battery Power Solution,Commercial And Industrial Energy Storage |
RBMS is a cutting-edge battery management system designed for large-scale high-voltage battery energy storage systems and UPS applications. Utilizing a distributed architecture and modular design approach, RBMS offers high configurability and ease of assembly, debugging, and maintenance. It is a versatile solution suitable for a variety of battery energy storage systems with DC voltage below 600V.
The RBMS product can be easily configured to fit the needs of different projects. As a minimum, it can be set up as a secondary architecture (BMU + RBMS), suitable for battery packs ranging from 10kWh to 100kWh. For larger capacity requirements, it can be integrated into a three-level architecture (BMU + RBMS + SBMS) by cooperating with an industrial computer and battery stack management software. This configuration is ideal for battery packs ranging from 50kWh to 2mWh.
In addition to its highly configurable architecture, RBMS also offers perfect and reliable operation and protection strategies that effectively prolong the service life of the battery pack. With a variety of communication interfaces, it can be directly or indirectly connected to third-party energy management systems for seamless integration and control.
By collaborating with a server and power station battery management system software, the RBMS product can be incorporated into a four-level architecture (BMU + RBMS + SBMS + BBMS). This architecture is suitable for even larger battery packs, ranging from 2mWh to 1000mWh, to meet the varied needs of different projects.
The highly integrated battery management system offers seamless monitoring capabilities.
The perfect self-inspection and operation status detection function, combined with the HMI display screen, allows for clear and concise information on the system's operation.
Reliable and robust system control and protection strategies fully ensure the safety of the battery and extend the battery pack's service life.
Designed with modularity in mind, the system is configurable and expandable. Multiple energy storage units can be flexibly combined to create a larger energy storage system, supporting up to 160 batteries in series.
The system also boasts rich communication interfaces, including multi-channel RS485, CAN, Ethernet, and dry contact input and output interfaces. This allows for communication with most PCS and monitoring servers on the market.
The flexible communication interface protocol includes the company's own protocol, with the ability to adapt to different manufacturers' PCs according to the customer's needs.
The system's capacity is impressive, with a built-in high-capacity memory chip that can store a large amount of crucial operation data. Additionally, an SD card can be added to store historical data of the cells.
The system also features automatic circulation control and automatic parallel/offline control, making it easy to parallel connect battery packs.
Solution 1:
160S 512V125A BMS *1sets
16S BMU * 10 pcs
16S wire harness with 600mm length * 10 sets
Solution 2:
160S 512V125A BMS *1sets
20S BMU * 8 pcs
20S wire harness with 600mm length * 8 sets
| Basic parameters |
Max Current
|
125A
|
|
Max voltage
|
350V, 600V(Matching use to rated voltage) | |
|
Power Consumption
|
≤15W
|
|
|
Current sampling accuracy
|
1%FSR
|
|
|
Insulation withstand voltage
|
2800VDC <1mA 1min
|
|
|
Protection level
|
IP20
|
|
| Size(W*H*D) | 482*132*500(mm) | |
| Net weight |
10Kg
|
|
|
Communication
Port
|
Communication port with
BMU
|
CAN
|
|
Communication port with
UPS
|
RS485/CAN
|
|
|
Communication port with
SBMS
|
RS485/CAN
|
|
|
Communication with
monitoring software
|
Ethernet
|
|
|
Battery
charge&discharge
Management
|
available
|
|
| Battery Temperature Management | available | |
|
IAP Upgrade
|
available | |
|
System Protection parameter setting
|
available
|
|
|
Short circuit protection
|
available(750V 20KA 20ms)
|
|
|
Pre-charge function
|
available
|
|
|
Parallel circulation control
|
available
|
|
|
Event record
|
Available 5000 Events
|
|
|
DC power Start
|
available (battery powered, municipal power as on / off signal)
|
|
|
Optional
Features
|
Insulation detection
|
Applicable to system voltage ≧300V
|
|
HMI display(External)
|
4.3”or 7”display(Optional)
|
|
|
Stand-alone or parallel function
|
Set up before shipping.
|
|
|
Dry contact
|
Maximum 2 dry contact outputs
|
|
|
Other
|
Appearance&Color
|
RAL9005 Black sand grain
|
|
Installation method
|
Suitable for standard 19-inch cabinet installation
|
|
|
Incoming and outgoing line mode
|
Front side in and front side out
|
|
|
Operating ambient temperature
|
-20℃~60℃
|
|
|
Operating ambient humidity
|
5%~75%RH
|
|
|
Comply with National standards
|
GB/T 16935.1 GB/T 17626.2 GB/T 17626.5
|
|
|
Safety Certification
|
Comply with CE certification standards
|
Solar energy has long been hailed as a promising source of renewable energy. With the development of technology, various applications have emerged to fully utilize the potential of solar energy. One important aspect of solar energy utilization is energy storage. It has become increasingly crucial to store solar energy for later use, especially in areas without a reliable power grid.
Solar PV power plants are large-scale installations that convert solar energy into electricity. However, the power output of these plants is not always consistent due to weather conditions and time of day. To ensure a stable and reliable power supply, PV power plants require energy storage systems. These systems can store excess energy during peak production hours and release it during periods of low production, providing a steady supply of electricity to the grid.
In remote areas or islands, off-grid energy storage systems are crucial for accessing a reliable power supply. These systems utilize solar energy to power homes and businesses that are not connected to the main power grid. Energy storage allows for continuous power supply even during periods of low or no solar energy production.
The integration of solar energy storage with optical storage technology allows for more efficient use of solar energy. Optical storage charge integration applications can accurately track and store solar energy according to demand, reducing waste and maximizing energy usage.
Micro-grid applications refer to the use of small-scale power systems that can operate independently or in conjunction with the main power grid. This decentralized approach helps improve the efficiency and reliability of the power supply, especially in areas with unreliable grid infrastructure. Solar energy storage systems are essential components of micro-grid applications as they allow for a more stable and secure power supply.
Uninterruptible power supply (UPS) systems are used to provide emergency backup power in case of grid failures. Solar energy storage systems can be integrated with UPS systems, providing a reliable and renewable source of emergency power.
In some regions, the power system operates on 220V DC instead of AC. Solar energy storage systems can be customized to provide this specific type of power supply, making them adaptable to different power system requirements.
Aside from residential use, commercial and industrial facilities can also greatly benefit from solar energy storage systems. These systems can help reduce electricity costs by storing excess energy during peak production hours and releasing it during periods of high demand. They also provide backup power in case of power grid failures.
The Energy Storage BMS is carefully packaged to ensure safe and secure delivery to our customers. Each component is individually wrapped and protected to prevent any damage during transportation.
Our packaging materials are environmentally friendly and recyclable. We believe in reducing our carbon footprint and making a positive impact on the environment.
Once the product is packaged, it is then labeled and marked with all necessary shipping information, including the customer's address and contact details.
We work with trusted shipping partners to ensure timely and efficient delivery of our products. Our shipping team carefully monitors each shipment to ensure it arrives at its destination in perfect condition.
For international orders, we comply with all customs regulations and provide necessary documentation for smooth delivery.
Thank you for choosing our Energy Storage BMS. We are committed to delivering high-quality products and exceptional customer service.
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