Working Principle of all-in-one cabinet
Core Logic: Enables flexible power distribution through a closed loop of "energy conversion-storage-release".
Synergy of Core Components:
Energy storage battery: Stores electrical energy in chemical form (e.g., lithium iron phosphate batteries).
Energy Storage Converter (PCS): Converts AC to DC for battery charging; converts DC from batteries to AC for supplying loads or the grid during discharge.
Battery Management System (BMS): Monitors parameters like voltage, temperature, and State of Charge (SOC), preventing overcharging, over-discharging, and overheating to ensure safety and extend lifespan.
Temperature control + fire protection system: Maintains a constant cabinet temperature (20-25°C) and triggers fire suppression and alarms in case of abnormalities.
Intelligent monitoring: Supports remote real-time monitoring, scheduling, and fault early warning.
Workflow:
Charging: Excess external power (e.g., from solar peaks or grid off-peak periods) is converted to DC via PCS and evenly charged into batteries under BMS control.
Discharging: During peak demand or insufficient renewable energy, DC from batteries is converted to AC via PCS and supplied to loads or the grid.
Protection: Operates in low-power monitoring mode when idle; immediately cuts off circuits and activates safety measures in case of abnormalities.
Product Parameters
| MODEL |
OMS-100K |
| Nominal Voltage |
358.4V |
| Nominal Capacity |
280AH |
| Cabinet Size(mm) |
1250*1245*2175 |
| Weight(kg) |
1260KG |
| Charge/discharge power MAX |
140A |
| Protection class |
IP55 |
| Type of firefighting |
Aerosol |
| BATTERY SPECIFICATIONS |
PARAMETER |
| Battery Types |
51.2V-280AH |
| Nominal Capacity (KWh) |
100KWh |
| Recommend Charge/Discharge Current (A) |
100 |
| Max. Charge/Discharge Current(A) |
140 |
| communication |
RS485/CAN |
| Working Temperature |
0ºC~50ºC Charge
-10ºC ~50ºC Discharge |
| Cycle Life |
(0.5C/0.5C-80% D0D)>6000 times |
| AC SPECIFICATIONS |
PARAMETER |
| Rating |
50KW |
| Overloaded |
110% |
| Rated AC Voltage |
400V |
| Rated frequency |
50/60Hz |
| Communication |
Ethernet/Modbus/TCP/IP |
| Inverter Type |
Deye/Solis/Megarevo/Other |
Our Advantages
1.Easy Installation and Efficient Deployment
Traditional systems require on-site design, equipment assembly, and pipeline connection, with construction periods lasting several months. In contrast, energy storage integrated cabinets are factory-prefabricated "plug-and-play" devices. On-site work only involves foundation pouring and cable connection, shortening the deployment cycle to 1-2 weeks and significantly reducing engineering complexity.
2.Modular Design for Flexible Expansion
A single cabinet typically has a capacity of 50-500kWh and supports parallel expansion of multiple units (e.g., 10 cabinets of 50kWh each can form a 500kWh system). Users can select capacity based on initial needs and add cabinets later as required, avoiding the financial pressure of "large one-time investment."
3.Safe, Reliable, and Risk-Controllable
Integrated with triple protection: BMS, temperature control, and fire safety systems. The BMS monitors battery status in real-time; the temperature control system maintains stable ambient conditions; and the fire safety system responds quickly to thermal runaway risks. The cabinet also features insulation design to reduce electric shock hazards.
4.Simplified Maintenance and Reduced Costs
Traditional systems require separate maintenance for batteries, PCS, fire safety equipment, etc., leading to high coordination difficulties. Integrated cabinets achieve centralized management through intelligent monitoring platforms. Fault early warning and remote diagnosis functions reduce on-site maintenance frequency, lowering labor costs.
5.Strong Adaptability for Diverse Scenarios
The cabinet is designed with dustproof, waterproof (IP54/IP65), and impact-resistant features, enabling adaptation to complex environments such as outdoor settings, high temperatures, and extreme cold. It supports switching between grid-connected and off-grid modes to meet electricity demands in various scenarios.
usage scenarios
Thanks to its features of "integration, modularization, and plug-and-play", the energy storage integrated cabinet is suitable for a variety of scenarios, mainly including the following categories:
Energy Efficiency Optimization for Commercial & Industrial Users
Emergency & Backup Power Supply
Grid-Side Auxiliary Services
Distributed Renewable Energy Support (Solar/Wind Power)
Company Profile
Founded in 2000, Baode Lighting Group Co., Ltd. is a high-tech enterprise integrating R&D, design, manufacturing, engineering implementation and service operation of outdoor lighting equipment, solar street lamps, smart street lamps, high-mast lamps, steel pipe power towers, communication towers, traffic equipment, landscape lighting, photovoltaic intelligent applications, etc. With over 20 years of development, the group has won the "Mayor Quality Award" of Gaoyou City twice and is recognized as a "Demonstration Enterprise of Service-oriented Manufacturing" in Jiangsu Province. Baode has obtained more than 100 patents and scientific and technological achievements, including nearly 20 invention patents. It holds multiple professional qualifications, such as Grade I for urban and road lighting engineering, and has passed various system certifications like ISO9001, ISO14001, and ISO45001. Its "Luyou" brand has been awarded "Famous Trademark of Yangzhou" and "Famous Trademark of Jiangsu Province". The group has established long-term partnerships with over 30 companies, including China Railway Group and JinkoSolar, and its products are sold in more than 100 countries and regions. Committed to the corporate spirit of "integrity, hard work, and keeping pace with the times", Baode aims to become a better smart city lighting integration service provider.
Enterprise Exhibition
FAQ
FAQ
1.How long is the service life of an energy storage integrated cabinet, and what factors affect its lifespan?
A typical energy storage integrated cabinet has a service life of 8-15 years, primarily determined by the battery's cycle life (usually 3,000-6,000 charge-discharge cycles for lithium iron phosphate batteries). Key influencing factors include: the battery management system (BMS) performance (preventing overcharging/over-discharging), operating temperature (optimal 20-25°C via thermal control), and usage intensity (frequency of deep charging/discharging). Proper maintenance and avoiding extreme environmental conditions can extend its lifespan.
2.Can energy storage integrated cabinets operate safely in extreme weather conditions like high temperatures or heavy rain?
Yes, they are designed for robust environmental adaptability. Cabinets feature dustproof and waterproof ratings (IP54/IP65), allowing them to withstand heavy rain, dust, and humidity. For temperature resilience, advanced thermal control systems (air conditioning, liquid cooling) regulate internal temperatures, enabling operation in high-temperature (up to 40°C) or cold climates (-20°C or lower). Additionally, anti-corrosion and anti-aging materials protect internal components from weather-related damage.
3.How does the energy storage integrated cabinet switch between grid-connected and off-grid modes, and is manual operation required?
Mode switching is typically automated via the cabinet's intelligent control system, with no manual intervention needed. In grid-connected mode, it charges/discharges according to grid signals or user settings (e.g., peak-shaving). If a grid outage is detected, the system automatically switches to off-grid mode within milliseconds, ensuring uninterrupted power supply to critical loads. Users can also pre-set switching conditions (e.g., grid voltage fluctuations) via the monitoring platform, and manual mode adjustment is available for special scenarios.
Audited Supplier 
){kind=link}