Mobile Energy Storage System
Mobile Energy Storage DC Fast Charging Station for Emergency EV Rescue
Industrial-grade portable EV charger featuring LiFePO₄ technology. 4-in-1 multi-standard compatibility (CCS/CHAdeMO/GBT/NACS). The ultimate mobile power bank for electric vehicles.
Power Rating:
40kW
50kW
60kW
Battery-Integrated Mobile DC Fast Charger Are Ideal For
Whether you need to support fleet operations, emergency roadside assistance, or stabilize a microgrid, this mobile fast dc charger delivers a “double revenue” stream by balancing grid demand and providing flexible power.
Roadside Assistance
Provide emergency DC fast charging to stranded EVs.
Event Management
Temporary high-speed charging for sports events or festivals.
Fleet Depots
Flexible charging without expensive infrastructure upgrades.
Utility Support
Load leveling and grid stabilization.
Why Choose BCH Series Battery-powered Mobile DC Fast Charger?
High-Voltage Energy Storage (Up to 1000V)
Equipped to handle the latest EV architectures, the system supports a wide output voltage range of 200V to 1000V with power options ranging from 40kW to 60kW.
Revenue Generation & Grid Stabilization
Beyond just a charger, this unit acts as a Mobile Energy Storage System that stabilizes power plant output and achieves a dynamic balance between the microgrid and the main grid, offering "Double Revenue" potential.
Industrial-Grade IP54 Protection
Built for the toughest environments, this battery-powered charger features an IP54 rating and is designed to operate reliably in recommended temperatures from 0℃ to 55°C.
Grid-Independent Fast Charging
By utilizing a slow AC input to store energy and providing high-speed DC output, this unit reduces the requirement for grid capacity and minimizes peak-load impact on your local infrastructure.
True Mobility with "Breaking Venue Boundaries"
Designed for maximum flexibility, this unit allows for centralized charging of the internal battery and mobile decentralized discharging, bringing the power directly to the vehicle wherever it is parked.
Universal Global Standards Support
Future-proof your investment with customization for all major global charging standards, including CCS1, CCS2, NACS, CHAdeMO, and GB/T.
Grid-Independent Fast Charging
By utilizing a slow AC input to store energy and providing high-speed DC output, this unit reduces the requirement for grid capacity and minimizes peak-load impact on your local infrastructure.
True Mobility with "Breaking Venue Boundaries"
Designed for maximum flexibility, this unit allows for centralized charging of the internal battery and mobile decentralized discharging, bringing the power directly to the vehicle wherever it is parked.
Universal Global Standards Support
Future-proof your investment with customization for all major global charging standards, including CCS1, CCS2, NACS, CHAdeMO, and GB/T.
High-Voltage Energy Storage (Up to 1000V)
Equipped to handle the latest EV architectures, the system supports a wide output voltage range of 200V to 1000V with power options ranging from 40kW to 60kW.
Revenue Generation & Grid Stabilization
Beyond just a charger, this unit acts as a Mobile Energy Storage System that stabilizes power plant output and achieves a dynamic balance between the microgrid and the main grid, offering "Double Revenue" potential.
Industrial-Grade IP54 Protection
Built for the toughest environments, this battery-powered charger features an IP54 rating and is designed to operate reliably in recommended temperatures from 0℃ to 55°C.
| Product Parameters | |||
|---|---|---|---|
| Product Model | BCH4040 | BCH5050 | BCH6060 |
| Sports event | 40KWH40KW | 50KWH50KW | 60KWH60KW |
| DC Input | Voltage range 500V ~ 750V | ||
| 0-80A | 0-100A | 0-120A | |
| Power factor ≥ 0.99 | |||
| AC input | Voltage range 260V-485V | ||
| 0-32A | |||
| Power factor ≥ 0.99 | |||
| Frequency 45 ~ 65HZ | |||
| Maximum power | 40KW | 50KW | 60KW |
| Voltage range | 200V ~ 1000V (of which 30KW, 40KW optional 200V-750V) | ||
| Output Current | 0-133A | 0-166A | 0-200A |
| Maximum power | 20KW | ||
| Maximum power for DC to charge energy storage | 40KW | 50KW | 60KW |
| Sizes(mm) | 1500*850*650 | ||
| Weight | 670KG | 770KG | 830KG |
| Temperature range | Recommended 0 to 55℃ . | ||
| Humidity range | 5~90%; R.H. non-condensation (non-condensation) | ||
| IP Rating | IP54 | ||
| Applicable standards | Charger: EN61851-1,JEVSG105, Battery: GB/T32960,GB/T2900.41,GB/t31484-2015,gb/t31485-2015,gb/t 31486-2015,q/gx 003-2015;GB/T;CCS; |
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We look forward to hearing from you soon and hope to establish a fruitful
business relationship with your company.
Frequently Asked Questions
How does mobile energy storage realize peak-valley arbitrage in areas with time-of-use electricity prices?
In areas with time-of-use electricity prices, mobile energy storage achieves peak-valley arbitrage by leveraging the price difference between low and high electricity price periods. During the low electricity price period, it is charged with municipal electricity, and during the high electricity price period, it supplies power to EVs for charging. It operates with two charging and two discharging cycles every day, which effectively captures the electricity price difference to gain profits. This mode fully utilizes the energy storage characteristics of mobile energy storage and maximizes the economic benefits under the time-of-use electricity price mechanism.
Can mobile energy storage adjust charging and discharging power according to actual needs in commercial charging stations?
Yes, mobile energy storage can flexibly adjust charging and discharging power according to actual needs in commercial charging stations. It supports customized setting of charging power during the low electricity price period and discharging power during the high electricity price period. The “slow charging and fast discharging” mode is adopted, where it is slowly charged with low power when the electricity price is low to ensure sufficient energy storage, and fast discharged with high power during the peak charging period of EVs to meet the fast charging demand of users. This characteristic makes mobile energy storage highly adaptable to the variable charging load of commercial charging stations.
What advantages does mobile energy storage bring to peak-valley arbitrage in industrial parks?
Mobile energy storage has significant advantages for peak-valley arbitrage in industrial parks. On one hand, it can make full use of the time-of-use electricity price policy in industrial parks, charge with low-price municipal electricity during off-peak hours, and supply power for EVs or related equipment in the park during peak hours to earn electricity price difference. On the other hand, its adjustable charging and discharging power can be matched with the energy consumption characteristics of industrial parks, avoiding the impact on the park’s power grid during the charging and discharging process. Meanwhile, it can also serve as a supplementary energy supply device to ensure the stability of the park’s power supply while realizing arbitrage.
Is mobile energy storage suitable for peak-valley arbitrage applications in community parking lots?
Mobile energy storage is very suitable for peak-valley arbitrage applications in community parking lots. Community parking lots have the characteristics of concentrated EV charging demand and obvious peak-valley differentiation. Mobile energy storage can be charged with low-price electricity at night when the electricity price is low and the community power consumption is low, and provide fast charging services for residents’ EVs during the daytime peak period when the electricity price is high. Its “slow charging and fast discharging” mode not only meets the residents’ fast charging needs but also earns electricity price difference. In addition, its mobile nature allows it to be flexibly deployed in different areas of the community parking lot according to the distribution of charging demand.
How does mobile energy storage support peak-valley arbitrage in gas stations while meeting EV charging needs?
In gas stations, mobile energy storage supports peak-valley arbitrage and meets EV charging needs through scientific power management. It charges with low-price municipal electricity during the low electricity price period, stores sufficient energy, and sets a reasonable discharging power according to the daily EV charging demand of the gas station. During the high electricity price period, it discharges to supply power for EV charging, realizing the profit from the electricity price difference. At the same time, its mobile and independent energy supply characteristics do not require large-scale transformation of the gas station’s original power grid, and it can be quickly deployed to meet the sudden increase in EV charging demand in gas stations, improving the service capacity of gas stations.
What is the average total solar EV charging station cost for a small business (2–3 chargers)?
For a small business with 2–3 Level 2 chargers, the average solar ev charging station cost ranges from 15,000–35,000. This includes a 10–15 kW solar system (5,000–18,000), 2–3 EV chargers (1,000–6,000), installation (5,000–8,000), and permits (1,000–3,000). Guangzhou Max Power often reduces this cost by 10–15% through bulk component discounts and streamlined installation, making solar ev charging station accessible for small businesses.
How long does it take to recoup the solar EV charging station cost through savings?
The payback period for solar ev charging station cost typically ranges from 5–10 years. This depends on factors like local energy rates (higher rates mean faster payback), solar irradiance (sunny regions generate more energy), and usage frequency (more charging sessions mean more savings). Guangzhou Max Power provides a customized ROI analysis for each client, using local data to estimate exact payback time—many clients see payback in 6–7 years with typical usage.
Can you customize a solar powered charging station to fit a tight budget?
Absolutely. Guangzhou Max Power offers flexible solar powered charging station customization for budget constraints. For example, we can start with a smaller solar system (5 kW instead of 10 kW) and add more panels later, or use standard-efficiency solar panels instead of premium ones to lower upfront costs. We also prioritize essential components first (e.g., solar panels + chargers) and delay non-urgent upgrades (e.g., battery storage) until the budget allows, ensuring clients get a functional solar powered charging station within their means.
Are there ongoing maintenance costs for your solar EV charging station, and what do they include?
Ongoing maintenance costs for our solar ev charging station are minimal, typically 200–500 per year. This includes annual solar panel cleaning (100–200), charger inspection (50–150), and firmware updates (free for the first 5 years). Guangzhou Max Power also offers optional maintenance plans (500–1,000 per year) that cover repairs and replacements, eliminating unexpected costs and ensuring the solar ev charging station operates at peak efficiency for decades.
Can Max Power provide ODM and OEM services for custom charging stations?
Yes, absolutely. Max Power specializes in providing comprehensive ODM (Original Design Manufacturing) and OEM (Original Equipment Manufacturing) services to help businesses create customized charging solutions that meet their specific brand and market needs.
· ODM (Original Design Manufacturing) Service:
With Max Power’s ODM service, you can design and develop a unique charging station from the ground up. Our expert team will work closely with you to bring your vision to life, ensuring the final product reflects your brand identity and technical requirements. We support you through the entire process—from initial concept and design, engineering, and prototyping to manufacturing and stringent quality control—delivering a charging station that is uniquely yours.
· OEM (Original Equipment Manufacturing) Service:
If you already have a design or specific branding in mind, Max Power’s OEM service is the perfect solution. Simply provide us with your branding elements, such as logos, color schemes, and other visual assets, and we will incorporate them seamlessly into our high-quality charging station models. This allows you to offer a customized product quickly and efficiently, leveraging our manufacturing expertise without the need for extensive development.
By partnering with Max Power for ODM or OEM services, you can launch a branded EV charging station that enhances your business identity, promotes customer loyalty, and demonstrates your commitment to innovation and sustainability. Custom charging stations are ideal for commercial properties, retail locations, fleet operations, and more, helping you stand out in the growing electric vehicle market.