Hybrid System
Product Features
Technical Description
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Model No. |
Hestia 1P-0805X |
Hestia 3P-0805X |
Hestia 3P-1005X |
Hestia 3P-1205X |
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PV Input |
Max. DC Input Power(W) |
10400W |
10400W |
13000W |
15600W |
|
PV Input Voltage(V) |
370V (100V~500V) |
550V (150V~800V) |
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MPPT Range(V) |
125~425V |
200V-650V |
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Start-up Voltage(V) |
150V |
150V |
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PV Input Current(A) |
22A+22A |
13A+13A |
26A+13A |
26A+13A |
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No. of MPPT Trackers |
2 |
2 |
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No. of Strings Per MPPT Tracker |
2+2 |
1+1 |
2+1 |
2+1 |
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AC Output |
Rated AC Output and UPS Power(W) |
8000 |
8000 |
10000 |
12000 |
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Max. AC Output Power(W) |
8800 |
8800 |
11000 |
13200 |
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|
Peak Power(off grid) |
2 times of rated power, 10S |
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AC Output Rated Current(A) |
33.4A / 35A |
12A |
15A |
18A |
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Max. AC Current(A) |
36.7A / 38.5A |
18A |
23A |
27A |
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Max. Continuous AC Passthrough (A) |
50A |
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Power Factor |
0.8 leading to 0.8 lagging |
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Output Frequency and Voltage |
50 / 60Hz; 120 / 240Vac (split phase), 208Vac (2 / 3 phase), 230Vac (single phase) |
50/60Hz; 230/400Vac (Three phase) |
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Grid Type |
Split phase; 2 / 3 phase; Single Phase |
Three Phase |
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Current Harmonic Distortion |
THD<3% (Linear load<1.5%) |
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Battery |
Battery Type |
Lithium Ion Phosphate |
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Energy |
5.12KWh |
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Nominal Voltage |
51.2V |
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Working Voltage Range |
44.8~57.6 |
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Scalability |
4pcs |
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Life Span |
6000 cycles |
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Efficiency |
Max. Efficiency |
97.60% |
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Euro Efficiency |
97.00% |
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MPPT Efficiency |
99.90% |
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Protection |
PV Arc Fault Detection |
Integrated |
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PV Input Lightning Protection |
Integrated |
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Anti-islanding Protection |
Integrated |
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PV String Input Reverse Polarity Protection |
Integrated |
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Insulation Resistor Detection |
Integrated |
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Residual Current Monitoring Unit |
Integrated |
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Output Over Current Protection |
Integrated |
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Output Shorted Protection |
Integrated |
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Surge Protection |
DC Type II / AC Type II |
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Standard Compliance |
Grid Regulation |
UL1741, IEEE1547, RULE21, VDE 0126, AS4777, NRS2017, G98, G99, IEC61683, IEC62116, IEC61727 |
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Safety Regulation |
IEC62109-1, IEC62109-2 |
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EMC |
EN61000-6-1, EN61000-6-3, FCC 15 class B |
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Battery Cert. |
IEC62619, IEC60730, EMC, CEC |
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General |
Operating Temperature Range(℃) |
-25~60 ℃ , >45 ℃ Derating |
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Cooling |
Smart cooling |
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Noise(dB) |
<30 dB |
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Communication with BMS |
RS485; CAN |
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Inverter Weight(kg) |
32 |
36.8 |
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Inverter Size(mm) |
420W×670H×233D |
422W×658H×281D |
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Battery Weight(kg) |
45 |
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Battery Size(mm) |
420W×323H×233D |
422W×323H×281D |
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Installation Style |
Wall-mounted |
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Warranty |
5 years |
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Tips About Lithium Battery
Shipping lithium-ion batteries involves several steps to ensure compliance with international and domestic regulations and to ensure safety. Here's a detailed procedure:
1. Classification
Determine the type and classification of the lithium-ion battery:
● UN3480: Lithium-ion batteries.
● UN3481: Lithium-ion batteries contained in equipment or packed with equipment.
2. Regulatory Compliance
Ensure compliance with relevant regulations:
● IATA DGR for air transport.
● IMDG Code for sea transport.
● DOT HMR for transport within the United States.
● UN Model Regulations for general guidelines.
3. Packaging
A. Inner Packaging
● Individual Packaging: Each battery must be placed in individual inner packaging to prevent contact with other batteries or conductive materials.
● Insulation: Use non-conductive materials to insulate battery terminals.
● Strong and Durable: Use sturdy outer packaging that can withstand transportation hazards.
● Cushioning Material: Ensure the batteries are cushioned to prevent movement within the outer packaging.
4. Labeling and Marking
A. Labels
● Lithium Battery Handling Label: Indicates that the package contains lithium batteries and must be handled with care.
● Class 9 Hazard Label: For packages containing significant quantities of batteries or when required by regulations.
B. Markings
● UN Number: Clearly mark the package with the appropriate UN number (UN3480 or UN3481).
● Proper Shipping Name: Include the proper shipping name next to the UN number.
5. Documentation
A. Shipper’s Declaration for Dangerous Goods
● Content: Must include details about the contents, hazards, and handling instructions.
● Format: Ensure the declaration is completed according to regulatory requirements.
B. Packing List
● Detailed List: Include a list of the items being shipped, including the type and quantity of lithium-ion batteries.
C. Emergency Response Information
● Contact Information: Provide emergency contact information and instructions on how to handle emergencies involving the batteries.
D.Required certificates
● Including MSDS, UN38.3, transportation declaration etc.
6. Carrier Requirements
A. Choose a Carrier
● Carrier Policies: Verify the carrier’s specific policies and additional requirements for shipping lithium-ion batteries (e.g., FedEx, UPS, DHL).
B. Training
● Certification: Ensure that all personnel involved in the shipment are trained and certified in handling and shipping dangerous goods.
7. Preparing the Shipment
A. Check State of Charge (SoC)
● SoC Limit: For air transport, ensure the batteries are at or below the 30% state of charge if required by regulations.
B. Weight Limits
● Package Weight: Ensure the weight of the package complies with regulatory limits and carrier policies.
8. Final Inspection
● Inspect Packaging: Ensure all packaging, labeling, and documentation are correct and comply with regulations.
● Secure Packaging: Double-check that all packages are securely closed and ready for transport.
9. Shipping
● Handover: Provide the shipment to the carrier along with all required documentation.
● Tracking: Use tracking services to monitor the shipment and ensure it reaches its destination safely.
10. Post-Shipment
● Documentation Retention: Keep copies of all shipping documents for record-keeping and compliance purposes.
● Follow-up: Ensure the recipient inspects the shipment upon arrival and reports any issues.
By following these steps, shippers can ensure that lithium-ion batteries are transported safely and in compliance with all relevant regulations
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