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Core Advantages of Tensorpack A
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Optimized LCOS
Leveraging a 1500Vdc high-voltage architecture and high-density 836kWh cabinets, the system significantly reduces Balance of System (BOS) costs and cable losses. This compact design maximizes energy density per square meter, delivering a superior Levelized Cost of Storage (LCOS) for utility-scale investments.
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Resilient String Architecture
Utilizing a granular string architecture, the system achieves effective fault decoupling. This design ensures that a single unit failure has minimal impact on overall capacity, significantly reducing generation loss and safeguarding project yield during maintenance or unexpected outages.
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Versatile Grid Integration
Supporting both string and centralized PCS architectures (690Vac/800Vac), the system offers unmatched adaptability for diverse grid topologies. This flexibility facilitates seamless connection to utility networks, enabling robust services such as frequency regulation, peak shaving, and voltage stabilization.
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Utility-Grade Scalability
Designed for the Gigawatt-hour era, the modular pre-integrated system simplifies transportation and on-site installation. Tensorpack S enables rapid expansion from Megawatt to Gigawatt scales, streamlining project delivery and reducing commissioning time for critical infrastructure projects.
Tensorpack AEnergy Storage System
Targeted for the North American market, Tensorpack A comes with standard output ports that allow direct connection to customer loads. Through slow charging and fast discharging, it facilitates flexible expansion of transformers and effectively reduces demand charges.
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90%Efficiency
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8000Cycles
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15yLifespan
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1.6㎡Footprint
UL1973、UL9540A、UL9540、NFPA68、NFPA69、UN38.3
IEC62619、IEC63056、IEC61000、IEC62477、IEC62040、CEC list
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Canada
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USA
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