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Stackable All-in-One hybrid solar power system

Hybrid System

Stackable All-in-One hybrid solar power system

ENSMAR Hestia-series is specially designed as hybrid solar power system. The perfect combination of Deye hybrid inverter and ENSMAR LiFePO4 batteries makes it ideal for new installation of household energy storage.

  • ENSMAR Hestia 1P-0805X Hybrid system, 1ph, battery module 5KWh, inverter 8KW
  • ENSMAR Hestia 3P-0805X Hybrid system, 3ph, battery module 5KWh, inverter 8KW
  • ENSMAR Hestia 3P-1005X Hybrid system, 3ph, battery module 5KWh, inverter 10KW
  • ENSMAR Hestia 3P-1205X Hybrid system, 3ph, battery module 5KWh, inverter 12KW

Product Features

▶ All-in-one design, inverter and battery integrated together;

 Inverter and battery module are stackable, easy installation.

 Hybrid inverter, suitable for residential and light commercial use.

 Battery modules are scalable up to 4pcs max

 Self-designed BMS, every battery module is equipped with a standalone one;

 Top brand Grade A LiFePO4 battery cells, prismatic, top class safety;

 Long cycle life energy storage battery (6000 times)

 Inverter certification UL1741, IEEE1547, RULE21, VDE 0126, AS4777, NRS2017, G98, G99, IEC61683, IEC62116, IEC61727, IEC62109-1, IEC62109-2

 Battery certification of IEC62619, UN38.3, CEC approved etc

Technical Description

Model No.

Hestia 1P-0805X

Hestia 3P-0805X

Hestia 3P-1005X

Hestia 3P-1205X

PV Input

Max. DC Input Power(W)

10400W

10400W

13000W

15600W

PV Input Voltage(V)

370V (100V~500V)

550V (150V~800V)

MPPT Range(V)

125~425V

200V-650V

Start-up Voltage(V)

150V

150V

PV Input Current(A)

22A+22A

13A+13A

26A+13A

26A+13A

No. of MPPT Trackers

2

2

No. of Strings Per MPPT Tracker

2+2

1+1

2+1

2+1

AC Output

Rated AC Output and UPS Power(W)

8000

8000

10000

12000

Max. AC Output Power(W)

8800

8800

11000

13200

Peak Power(off grid)

2 times of rated power, 10S

AC Output Rated Current(A)

33.4A / 35A

12A

15A

18A

Max. AC Current(A)

36.7A / 38.5A

18A

23A

27A

Max. Continuous AC Passthrough (A)

50A

Power Factor

0.8 leading to 0.8 lagging

Output Frequency and Voltage

50 / 60Hz; 120 / 240Vac (split phase), 208Vac (2 / 3 phase), 230Vac (single phase)

50/60Hz; 230/400Vac (Three phase)

Grid Type

Split phase; 2 / 3 phase; Single Phase

Three Phase

Current Harmonic Distortion

THD<3% (Linear load<1.5%)

Battery

Battery Type

Lithium Ion Phosphate

Energy

5.12KWh

Nominal Voltage

51.2V

Working Voltage Range

44.8~57.6

Scalability

4pcs

Life Span

6000 cycles

Efficiency

Max. Efficiency

97.60%

Euro Efficiency

97.00%

MPPT Efficiency

99.90%

Protection

PV Arc Fault Detection

Integrated

PV Input Lightning Protection

Integrated

Anti-islanding Protection

Integrated

PV String Input Reverse Polarity Protection

Integrated

Insulation Resistor Detection

Integrated

Residual Current Monitoring Unit

Integrated

Output Over Current Protection

Integrated

Output Shorted Protection

Integrated

Surge Protection

DC Type II / AC Type II

Standard Compliance

Grid Regulation

UL1741, IEEE1547, RULE21, VDE 0126, AS4777, NRS2017, G98, G99, IEC61683, IEC62116, IEC61727

Safety Regulation

IEC62109-1, IEC62109-2

EMC

EN61000-6-1, EN61000-6-3, FCC 15 class B

Battery Cert.

IEC62619, IEC60730, EMC, CEC

General

Operating Temperature Range()

-25~60  , >45  Derating

Cooling

Smart cooling

Noise(dB)

<30 dB

Communication with BMS

RS485; CAN

Inverter Weight(kg)

32

36.8

Inverter Size(mm)

420W×670H×233D

422W×658H×281D

Battery Weight(kg)

45

Battery Size(mm)

420W×323H×233D

422W×323H×281D

Installation Style

Wall-mounted

Warranty

5 years

Tips About Lithium Battery

How To Ship Lithium Ion 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.
B. Outer Packaging
● 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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