Home – Project Detail
Overview
The ACDC module adopts a high-frequency isolation architecture. It is a modular converter product tailored for small and medium-sized industrial and commercial energy storage systems, supporting both grid-connected and off-grid operations. The module enables bidirectional energy flow and accommodates a super-wide range of battery voltages, making it compatible with various battery types to meet diverse application scenarios. It fits standard cabinet widths and features hot-swappable functionality for easy maintenance.
This power supply is widely used in energy storage, battery formation, emergency power supplies, device aging, and many other fields. It is the top choice for industries requiring bidirectional energy flow.
Product Advantages
Enhanced Safety and Reliability
Higher Efficiency
Smarter and User-Friendly
Lower Cost
More Flexible Configuration
Application Areas
Energy Storage (Electric Vehicle Energy Storage V2G)
With the increasing number of electric vehicles, it is projected that there will be 80 million electric vehicles by 2030. Massive electric vehicles can serve as both flexible loads on the user side and distributed power sources, helping to regulate grid load, shave peaks and fill valleys, absorb renewable energy, and provide auxiliary services such as frequency regulation and backup for the grid, reducing distribution network investment.
This electric vehicle energy storage V2G, or bidirectional DC charging pile, can both charge and discharge with a maximum power of 250kW, covering the power demands of most current DC charging piles. It enables bidirectional energy flow between electric vehicles and the grid, allowing electric vehicles to charge with cheap or off-peak electricity and discharge during peak hours, enabling vehicle owners to earn electricity price differentials. It enhances load flexibility, reduces distribution network investment, absorbs clean energy, boosts the development of the electric vehicle industry, and reduces the land footprint of public charging facilities.
Energy Storage (Grid-Connected/Off-Grid Type)
This product is suitable for small and medium-sized industrial and commercial energy storage, such as peak shaving and valley filling, with configurations like 30kW/60kWh or 50/60kW 100kWh. Paired with STS, it can build small and medium-sized microgrids, providing power to loads during grid outages.
DC Power Supply Aging
DC power supplies, such as charging pile modules, power operation power supplies, and communication power supplies, generate significant power loss when loaded with resistive or electronic loads during production aging. If these DC power supplies are connected to V2G modules during the aging process, electricity can be fed back to the grid, saving at least 95% of electricity, reducing the owner’s electricity costs, and lowering production costs.
| Product Name | Bidirectional Power Module | |
| Product Model | BIM1K100 | |
| AC Side Parameters (Charging Part) | Rated Grid Voltage | 400Vac (380/400/415Vac adjustable) |
| Grid Voltage Range | 304Vac~500Vac | |
| Grid Voltage Frequency | 50/60±5% (50Hz/60Hz dual-mode adaptive) | |
| Voltage System | Three-phase four-wire (3W+PE) / Three-phase five-wire (3W+N+PE) optional | |
| Input Current | ≤57A | |
| Battery Side Parameters (Charging Part) | Power Factor | ≥0.99, full-load |
| Current Harmonics | <3%, full-load | |
| Output Voltage | 200~1000VDC, rated 300VDC | |
| Output Rated Current | 100A | |
| Rated Power | 30kW | |
| Charging Efficiency | 95% Max | |
| Battery Side Parameters (Discharging Part) | Voltage Regulation Accuracy | ±0.5% |
| Current Regulation Accuracy | ±1% | |
| Ripple Coefficient | <1%Vo | |
| Battery Voltage Range | 200~1000VDC, rated 500VDC | |
| Battery Side Parameters (Discharging Part) | Discharging Current | 100A Max |
| V2G (Grid-connected Discharging) | Grid Voltage Range | 304Vac~500Vac |
| Grid Voltage Frequency | 50/60±10% (50Hz/60Hz dual-mode adaptive) | |
| Output Power | 30kW | |
| Efficiency | 95% Max | |
| V2L (Off-grid Discharging) | Load Voltage Frequency | 50/60Hz±1% |
| Load Voltage Adjustment Rate | 380/400/415Vac±1% | |
| Voltage Distortion Rate | ≤3% | |
| Load Voltage Frequency (Repeated, assumed to be a typo in the original, but kept as is) | 50/60Hz±1% | |
| Output Power | 30kVA Max, three-phase output; 10kVA Max, single-phase output | |
| Protection Functions | Overvoltage Protection | Equipped |
| Overcurrent Protection | Equipped | |
| Short-circuit Protection | Equipped | |
| Overtemperature Protection | Equipped | |
| Other Parameters | Operating Temperature | -30~65 ℃, output power derates above 55℃ |
| Storage Temperature | -40~70 ℃ | |
| Noise | <60dB | |
| Dimensions (Width*Depth*Height) | 440*459*86mm | |
| Weight | 20.5Kg | |
| Protection Class | IP20 (single module) | |
| Cooling Method | Intelligent speed regulation, forced air cooling | |
| Certification Standard | Performance/Safety/Environment/EMC | Meets the standards for both charging piles and energy storage converters simultaneously, namely: GB/T 34120-2023, GB/T 34133-2023, NB/T 33001-2018, NB/T 33008-2018 |
SunCare Hospital, a leading healthcare institution committed to sustainable operations and patient well-being, partnered with us to transition its energy source to solar. The project involved the full design and installation of a customized solar power system to reduce operating costs, increase energy reliability, and support the hospital's green initiatives.
This project was designed to meet the hospital’s energy needs while promoting sustainability, reducing costs, and ensuring uninterrupted service for patients and essential medical operations.
We provided a complete solar solution tailored to the hospital’s needs, ensuring performance, safety, and long-term energy savings without disrupting daily operations.
We analyzed usage patterns and infrastructure to design a system that meets specific energy needs.
Our team installed efficiently with zero interruption to hospital operations and strict safety procedures.
We created a solar layout that maximizes efficiency while matching the hospital’s structure and goals.
We integrated smart monitoring and backup support to ensure continuous power for critical medical equipment.
This project is more than just an energy upgrade, it is a commitment to health, sustainability, and community leadership. The SunCare Hospital solar installation reflects how renewable energy can enhance essential services without compromise.
Solarize brings cutting-edge clean energy solutions to life, empowering homes, businesses, and public spaces with sustainable power that transforms everyday living.
