High-efficiency air-cooled systems featuring modular stacking options
for maximum space utilization and seamless capacity expansion.
Easy Expand Architecture
A scalable design architecture that allows for flexible system capacity expansion through
parallel connection based on a standardized rack structure.
Easy Expand Architecture
A scalable design architecture that allows for flexible system capacity expansion through
parallel connection based on a standardized rack structure.
Easy Expand Architecture
Phased Investment Opportunities
Start with the minimum capacity required and incrementally add modules as power demand grows, without the need to build large-scale facilities sized for maximum load from the outset. This effectively reduces the burden of upfront capital expenditure (CAPEX).
Design and Construction Flexibility
The standardized slot-based design enables rapid capacity expansion without complex wiring redesign or large-scale civil works. This allows fast and flexible adaptation to changing business environments and evolving operational demands.
Minimized System Shutdown
Leveraging the advantages of a parallel architecture, new modules can be added or faulty modules replaced while the existing system remains in operation. This prevents power supply gaps during expansion and ensures uninterrupted operational continuity.
Diverse Stack Architecture
Highly adaptable rack configurations: Flexibly deployable vertically for tight footprints or horizontally for low-ceiling zones, overcoming all site layout constraints.
Diverse Stack Architecture
Highly adaptable rack configurations: Flexibly deployable vertically for tight footprints or horizontally for low-ceiling zones, overcoming all site layout constraints.
Diverse Stack Architecture
Optimization of Space Efficiency
In space-constrained environments, racks can be stacked vertically to reduce the occupied footprint, while low-ceiling spaces such as underground facilities allow for a horizontal layout. This customizable design maximizes site utilization across a wide range of installation conditions.
Flexibility in System Design
Rack placement can be optimized not only for battery capacity, but also to secure maintenance access routes and align with the airflow direction of the HVAC system. This enhances both operational efficiency and ease of maintenance.
Simple and Light-weight Air-cooling Technology
A design approach where each battery module possesses
standalone control capabilities and is connected in parallel.
Simple and Light-weight Air-cooling Technology
A design approach where each battery module possesses
standalone control capabilities and is connected in parallel.
Simple and Light-weight Air-cooling Technology
System Lightweighting
The elimination of heavy components such as coolant, pumps, radiators, and piping significantly reduces the overall rack weight. This lowers the structural load on buildings, minimizing installation constraints for locations such as rooftops and indoor environments.
Simplification of Maintenance
With no risk of leakage and a simplified structure, the number of potential failure points is minimized. The elimination of coolant replacement and complex piping inspections significantly reduces ongoing operational expenditure (OPEX).
Optimization of Energy Consumption
Instead of running large-scale cooling equipment continuously, individual fan speeds are precisely controlled based on the internal rack temperature. This effectively manages parasitic load consumed by cooling and improves overall energy efficiency.
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base specifications.
Check our baseline specifications. Download the product catalog for more comprehensive details.