FFD POWER
Making Energy Storage Easy, Everywhere
From High-Performance Batteries to Smart EMS, Engineering Design, and Global Delivery
Standardized Storage Modules for On-grid Applications
We offer a full range of standardized energy storage cabinets and containers to meet the needs of grid-connected systems of any size. Whether it’s a commercial rooftop project or a multi-megawatt utility-scale station, our modular product architecture ensures seamless scaling, fast deployment, and operational reliability.
5.01 MWh Centralized ESS
• 5MWH BESS with 1.25MW(0.25C) / 1.725MW (0.35C)/ 2.5MW(0.5C) PCS options
• PACK-level immersion liquid fire fighting system minimizes fire losses
• Seamless safety: Kentec fire systems, globally certified — no conversion needed
• Built-in EMS, PCS, BMS and Transformer to 10KV , 15KV ,22KV , 35KV
• 400 ms full power response — faster than TSO demands
• Supports VSG, black start, and system networking
• BESS certificate : IEC 62619 , IEC 63056 , UL 9540A , UL 1973
• Grid code : EN 50549-2 , VDE 4110 , VDE 4120
4.18 MWh ,5.01 MWh String-Type ESS
• Flexible by design: 3.76 / 4.18 / 4.6 / 5.12 MWh in the same container
• String system: each PCS with its own battery cluster — longer life, higher performance
• PACK-level immersion liquid fire fighting system minimizes fire losses
• Seamless safety: Kentec fire systems, globally certified — no conversion needed
• Built-in EMS, PCS, BMS and Transformer to 10KV , 15KV ,22KV , 35KV
• Supports VSG, black start, and system networking
• BESS certificate : IEC 62619 , IEC 63056 , UL 9540A , UL 1973
• Grid code : EN 50549-2 , VDE 4110 , VDE 4120 ,CEI-016
215kW/418kWh Liquid Cooling ESS
• Supports 800V AC output, seamlessly matching photovoltaic on-grid inverters
• Easy to transport and adaptable to various installation sites.
• All-in-one design integrating EMS, PCS, and BMS for a more compact system
• Configurable with 10kV / 25kV / 35kV transformers for direct grid connection
• Flexible and easily scalable
• Cost as containerized BESS
• BESS Certificate:IEC61000,IEC62619,IEC63056
• Grid code:EN 50549
125kW/261 kWh Liquid Cooling ESS
• Direct 400V output, more convenient for direct use
• Lower transportation cost – a 40-foot HQ container can hold 10 units
• All-in-one design integrating EMS, PCS, and BMS for a more compact system
• Higher integration, smaller footprint, more flexible and convenient use, and low space requirements
• BESS Certificate:IEC61000,IEC62619,IEC63056 , UL9540A
• Grid code : EN 50549 , CEI 021 , CEI 016 , VDE 4105 ,VDE 4110
Standardized Storage Modules for Smart Micro-Grid Applications
FFD redefines the microgrid: standard, plug-&-play products that turn complexity into simplicity — up to 3 MW and 12 MWh
Centralized Microgrid System
• 500 KW Load , 750 KW PV , 1044 KWH battery
• Integrated BESS/PCS/ MPPT module/ isolation transformer/ STS and maintenance bypass
• Expandable to 6 systems: 3 MW load, 4.5 MW PV, 6.26–12.52 MWh
• Real plug-&-play: just connect cables, program on screen
• BESS Certificate:IEC61000,IEC62619,IEC63056,UL9540A
All-in-One Microgrid System
• 50-80KW load , 100-160KW PV , 261 KWH battery
• Seamless on-grid and off grid transfer
• Expandable to 10 systems to provide up to 800 KW load, 1600KW PV and 2610 KWH
• Generator connection preinstalled
• BESS Certificate:IEC61000,IEC62619,IEC63056,UL9540A
• Gridcode:EN 62109, EN 62477, EN 61000, EN 50549-1, VDE 4105
100 kWh+50kW Hybrid Inverter System
• Air-Cooled System, Cost-Effective
• Compact Design, Rapid Deployment
• Parallel connection up to 10pcs
• Suitable for flexible energy storage applications in small to medium-sized commercial, telecom, and edge computing scenarios
• BESS Certificate:IEC61000,IEC62619
• Gridcode: EN 62109, EN 62477, EN 61000, EN 50549-1, VDE 4105
Standardized Storage Modules for UPS Function Applications
In the energy storage industry, online UPS systems provide uninterrupted power supply for key businesses, effectively coping with challenges such as grid fluctuations, power outages, and unstable renewable energy generation.
Lithium Battery Online UPS
• Supports up to 625kW/1305kWh online UPS system
• Uninterruptible power supply, online UPS solution, no switching time.
• Combines UPS with battery storage for backup and energy optimization.
• Suitable for data centers, hospitals, emergency agencies and other application scenarios
Ready to go All bess scenarios
At FFD Power, we specialize in delivering advanced Battery Energy Storage System (BESS) solutions designed to meet the demands of various applications, including peak-valley arbitrage, renewable energy integration, demand response, grid enhancement, and microgrids. Our expertise also extends to the most challenging BESS application—Frequency Containment Reserve (FCR).
Why FCR is Different
Frequency Containment Reserve (FCR) is crucial for maintaining grid stability, requiring precise and rapid response capabilities. Unlike other applications that may focus on energy optimization or integration, FCR demands highly specialized technology and intricate algorithms to keep the grid balanced in real-time. The complexity involved in managing FCR can be daunting, but this is where we excel.
Our Ready-to-Use FCR Solution
At FFD Power, we simplify the complexities of FCR by integrating our advanced Energy Management Architecture (EMA) with Kehua’s Power Conversion System (PCS). Our pre-installed solution is designed to be turnkey, providing everything needed to implement FCR effortlessly. This ready-to-use package ensures seamless operation, compliance with grid standards, and the reliability required to support critical aspects of grid stability.
- 47.5 Hz – 49.0 Hz not less than 30 minutes
- 49.0 Hz – 51.0 Hz without limitation
- 51.0 Hz – 51.5 Hz not less than 30 minutes
Our BESS can remain connected to the grid and continue operating with a frequency change rate of up to 1.7 Hz/s.
Our BESS can adjust active power when the frequency deviates beyond the insensitivity zone of 50.2 Hz to 50.5 Hz, with a static range of 0.1% to 12%. The static setting should be adjusted in the EMS.
It is capable of responding to frequency deviations with a delay of no more than 300 ms, measured at the inverter output.
Our BESS can adjust active power when the frequency deviates beyond the insensitivity zone of 49.8 Hz to 49.5 Hz, with a static range of 0.1% to 12%. The static setting should be adjusted in the EMS.
It is capable of responding to frequency deviations with a delay of no more than 300 ms, measured at the inverter output.
Our BESS is equipped with an interface (input port) that allows for the adjustment of active power output within 10 seconds of receiving a command at the input port.
Our BESS can automatically reconnect to the grid after an unplanned outage or during transmission system recovery under the following conditions:
- Frequency range: 49.9-50.1 Hz
- Voltage range: 0.9-1.1 voltage ratio
- Minimum delay time: 60 seconds
- Maximum gradient of increase in output active power: ≤ 20% Pmax/min
Our BESS is capable of remaining connected to the grid and operating effectively at a frequency change rate of up to 1.7 Hz/s.
Our BESS is capable of maintaining stable operation during short-circuits, considering the actual line voltage values relative to the mains voltage level at the point of connection, both before and after the fault.
Our BESS is capable of generating reactive power within its technical capacity, should such a requirement be established by the Transmission System Operator (TSO).
Our BESS is equipped with a Power Oscillation Damping (POD) function, specifically designed to stabilize and dampen power fluctuations in the grid.
Industry energy arbitrage is a strategic application of energy storage systems that enables industrial users to optimize electricity costs by shifting energy usage across time periods. By charging storage during off-peak hours when electricity prices are low and discharging during peak periods when prices are high, the system effectively reduces overall energy expenses. This practice is particularly valuable in regions with time-of-use tariffs or demand charges, helping industries lower operational costs and improve energy efficiency. Typical scenarios include factories, data centers, and other high-load facilities aiming to stabilize energy expenditure while enhancing grid interaction and sustainability.
PV self-consumption systems represent a key application of distributed energy in the renewable energy landscape, enabling users to directly utilize the electricity generated by photovoltaic panels. By prioritizing on-site solar energy usage before exporting excess to the grid, these systems enhance energy efficiency and reduce reliance on external power sources. When combined with energy storage, PV self-consumption can be extended beyond daylight hours, further maximizing solar utilization. This approach supports lower electricity bills, carbon emission reduction, and improved energy autonomy. Typical use cases include residential rooftops, commercial buildings, and industrial facilities aiming to optimize solar investment and achieve greater sustainability.
An EV charging station integrated with energy storage and renewable energy sources represents a forward-looking solution in the new energy ecosystem. These stations not only supply efficient charging services for electric vehicles but also balance grid load and enhance power reliability. By incorporating solar power and battery storage, they can reduce peak demand charges, enable off-grid operation during outages, and support energy arbitrage. This model is ideal for urban infrastructure, highway service areas, and commercial parking facilities aiming to promote green mobility and reduce carbon emissions while optimizing energy usage.
Microgrid applications represent a transformative approach to local energy management, enabling the integration of distributed energy resources such as solar, wind, and energy storage into a self-sustained system. Operating either connected to the main grid or in islanded mode, microgrids enhance energy resilience, improve power quality, and reduce reliance on centralized utilities. They offer flexible and efficient energy solutions tailored to specific site needs, from remote communities and campuses to factories and critical infrastructure. Microgrids are key to accelerating the transition toward a low-carbon, decentralized energy future.
PowerSync Energy management system with Scada configuration
Revolutionary Energy Management: PowerSync EMS delivers simplicity, reliability, and versatility for all your energy needs.
Designed for You: Perfect for industrial, renewable, and grid applications.
Two-Step Setup:
Specify the number of standardized BESS (Battery Energy Storage System) cabinets.
Assign unique IDs to each cabinet.
Effortless Deployment: Connect power and communication cables, and your system is ready.
No Expertise Needed: Designed for quick configuration, saving time and costs.
Siemens at the Core: Leverages Siemens’ world-renowned PLC technology for flawless operation.
Global Standard: Trusted worldwide for performance and dependability.
Built to Last: Ensures consistent, reliable energy management for any scale.
Ultimate Security: Keep full control with local operation on your own server or computer.
Robust Protection: Advanced cybersecurity safeguards your data and operations.
Flexible Operation:
Offline Mode: Disconnect from the public internet for maximum privacy and security.
Local Monitoring: Manage everything using your local computer or server.
On-Demand Support: Reconnect to the internet for secure remote maintenance or troubleshooting when needed.
Your System, Your Rules: Industry-leading security with the flexibility to balance privacy and support.
Versatile Applications: Choose from preconfigured modes to match your goals:
PV Self-Consumption: Maximize solar energy use to reduce grid reliance.
Renewable Energy Arbitrage: Optimize energy trading for cost savings.
Transformer Enhancement: Boost efficiency and extend equipment life.
Industrial Arbitrage: Lower costs through smart energy scheduling.
Microgrid: Enable resilient, independent energy systems.
UPS System: Ensure uninterrupted power for critical operations.
Frequency Containment Reserve (FCR): Support grid stability with fast response.
Ready to Go: Select a scenario and start optimizing immediately.
Four-Tier User System: Manage access with a structured hierarchy:
Higher-level users can control devices assigned to lower-level users.
Enables efficient oversight for multi-site or multi-team operations.
Centralized Management: Monitor and control all devices from a secure cloud platform when connected.
Scalable Control: Perfect for organizations with complex management needs, ensuring flexibility and authority.
Engineering Support that Goes Beyond the Box
No two energy storage projects are the same — site conditions, voltage levels, and grid requirements all vary by region.FFD POWER supports your project with a full set of localized engineering deliverables and technical expertise to ensure smooth installation, compliance, and long-term operation.
Global Projects
We’ve delivered systems across more than 50 countries, and we’ll guide you through complex certifications and standards wherever your project is.
ISO 9001
International standard for quality management systems (QMS)
ISO 27001
International standard for information security management systems (ISMS).
ISO 27001
international standard for occupational health and safety management systems (OHSMS)
EN 50549-1/2
European standard that defines requirements for the connection of generating plants (like PV or ESS) to the public low-voltage or medium-voltage grid
VDE 4105/4110/4120
Germany grid codes that define connection requirements for energy generation systems at low, medium, and high voltage levels respectively
CEI 021/016
Italian grid connection standards for low-voltage and medium/high-voltage generation systems, including PV and battery storage
IEC 62619
Safety certification standard for lithium-ion cells and battery systems used in industrial applications.
IEC 63056
Safety standard for secondary lithium batteries for use in stationary applications, such as energy storage systems (ESS)
EN IEC 61000
Series of standards addressing electromagnetic compatibility (EMC) requirements for electrical and electronic equipment
UN 38.3
Safety standard that specifies testing requirements for lithium batteries during transportation
UL 9540A
Test method for assessing the fire and thermal propagation behavior of energy storage systems
MSDS
Document that provides safety information about a material, including its chemical properties, hazards, handling, storage, and emergency measures.
For privacy and confidentiality considerations, some projects are not publicly available or can only be presented with partial information.
Our Company Events
Stay up to date with the latest developments from our company. Here you’ll find updates on corporate milestones, product innovations, industry events, partnerships, and more. As a leader in the energy storage sector, we are committed to sharing insights and progress that shape the future of sustainable power.
FFD POWER Celebrates Successful Participation at Bulgaria Energy Storage Expo
Share: Facebook-f Linkedin-in Youtube News FFD POWER Shines at Bulgaria Energy Storage Expo 2025 Share: Facebook-f Linkedin-in Youtube FFD POWER proudly participated in the Bulgaria
FFD POWER Hosts Belgian Clients, Galaxy 5015 String-Type Container Energy Storage System Draws Strong Interest
News FFD POWER Hosts Belgian Clients, Galaxy 5015 String-Type Container Energy Storage System Draws Strong Interest Share: Facebook-f Linkedin-in Youtube Recently, FFD POWER headquarters welcomed
What is a Microgrid? Concepts, Applications, and FFD POWER Solutions
News What is a Microgrid? Concepts, Applications, and FFD POWER Solutions Share: Facebook-f Linkedin-in Youtube A microgrid is a small-scale energy network that can operate