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Core Advantages of Tensorpack M
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Ultimate Integration
Combining high-performance batteries and a hybrid inverter into a single, compact cabinet, this all-in-one architecture minimizes footprint and complexity. The streamlined design reduces external cabling and compatibility issues, offering a sleek, space-saving solution for small commercial premises.
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Flexible Scalability
Designed with a modular architecture, Tensorpack M supports seamless capacity expansion. Users can easily stack battery modules or parallel systems to match growing business energy demands, allowing for a "pay-as-you-grow" investment strategy that prevents over-provisioning.
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Resilient Energy Hub
Featuring direct PV input and UPS-level switching capabilities, the system acts as a robust energy hub. It ensures continuous power during grid outages and intelligently manages solar self-consumption, maximizing energy independence and security for critical business loads.
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Simplified Deployment
Pre-wired and pre-tested at the factory, the system enables rapid, plug-and-play installation. This low-barrier deployment significantly reduces on-site labor costs and commissioning time, making professional energy storage accessible to businesses without specialized engineering teams.
Tensorpack M241Energy Storage System
The Tensorpack M241 energy storage product integrates a 100kW Hybrid inverter and a 241kWh battery system, engineered specifically for micro-grid applications. The Hybrid inverter integrates a hybrid inverter which is capable for grid-forming, and enabling seamless interaction with distributed energy resources. The battery system features cutting-edge 314 LFP cells, a multi-layered BMS, high-voltage controls, and an adaptive environmental management system, ensuring reliability across diverse operating conditions. Designed for high integration, safety, and efficiency, the Tensorpack M series offers plug-and-play deployment and modular scalability, allowing flexible power and energy configurations to match micro-grid demands.
It excels in core applications such as renewable energy integration (e.g., solar/wind hybridization), off-grid operation, peak shaving, island mode resilience, and dynamic load balancing, empowering energy independence and stability for remote, commercial, or industrial micro-grid ecosystems.
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10000Cycles
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20yLifespan
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1.1㎡Footprint
IEC62619,IEC 63056, IEC 62477,IEC 60730, IEC 61000, UN38.3, UN3480
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EU
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China
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UK
Specification
| AC Parameters | |
|---|---|
| Rated Power | 50 kW |
| Wiring Configuration | 3P4W |
| Rated Grid Voltage | 400 V |
| Operating temperature | -25~55℃ |
| Max. Continuous AC Current | 72.17A |
| Rated Grid Frequency | 50Hz/60Hz |
| Critical Load | 3P4W |
| DC Parameters | |
|---|---|
| Cell Type | LFP 306Ah CATL |
| Rated Energy | 109 kWh |
| Voltage Range | 313.6~403.2 V |
| Cycles expected @ 100% DoD | 70% EoL | 25°C +/-5°C | 10000 Times |
| System Parameters | |
|---|---|
| Operating Temperature | -25 ~ 55 ℃ |
| Relative Humidity | 0 to 95% RH, non - condensing |
| Altitude | ≤2000 m |
| Communication Interface | 4G Router (optional) |
| Communication Protocol | Modbus TCP |
| Anti-corrosion | C4,C5(optional) |
| IP Level | Equipment cabinet: IP54 |
| Cooling Method | Air-cooling |
| Fire suppression | Aerosol |
| Certification | IEC62619,IEC 63056, IEC 62477,IEC 60730, IEC 61000, UN38.3, UN3480 |
| Dimension (W*D*H) | 1270x1340x2094 mm |
| Weight | About 1.8T |