SUN-3.6 5 6K-SG03LP1-EU
Efficient, reliable, and feature-packed, the Hybrydowy falownik Deye SUN-3.6/5/6K-SG03LP1-EU is designed to optimize solar energy usage for residential and commercial applications. This guide provides insights into its key features, installation requirements, and operating modes to help you get the most out of your investment.
Kompleksowy przegląd produktów
To falownik hybrydowy1 combines the functions of an inverter, solar charger, and battery charger into a compact, high-performing unit. It ensures uninterrupted power supply and efficient energy management, making it ideal for modern solar systems.
Kluczowe cechy:
- Self-consumption and grid feed-in support: Allows energy optimization by prioritizing solar or battery usage.
- Wiele trybów pracy: Supports on-grid, off-grid, and UPS functionality.
- Programmable settings: Configure battery charging voltage/current and operation priorities via an LCD panel.
- Overload protection: Safeguards against temperature surges and short circuits.
- Podwójne trackery MPPT2: Maximizes solar energy harvest under varying sunlight conditions.
- WiFi monitoring: Enables remote energy monitoring and management.
- Battery compatibility: Supports advanced lithium battery systems for enhanced performance.
Specyfikacja techniczna
| Model | SUN-3.6K-SG03LP1-EU | SUN-5K-SG03LP1-EU | SUN-6K-SG03LP1-EU |
|---|---|---|---|
| Moc znamionowa | 3.6 kW | 5.0 kW | 6.0 kW |
| Zakres napięcia MPPT | 150V-425V | 150V-425V | 150V-425V |
| Wydajność | Do 98% | Do 98% | Do 98% |
| Max. Input Voltage | 500V | 500V | 500V |
| Zakres napięcia akumulatora | 48V | 48V | 48V |
| Liczba MPPT | 2 | 2 | 2 |
| Max. AC Output Current | 16A | 22A | 27A |
Instalacja i wymagania przestrzenne
Pre-Installation Checklist
Before installing the inverter, ensure all necessary tools and parts are ready. Each package includes the following:
- Wall mounting bracket
- Stainless steel bolts and screws
- Magnetic rings for wiring
- Battery temperature sensor
- User manual
Installation Environment
To maximize performance and lifespan, consider the following:
- Umieszczenie: Install on a vertical, load-bearing wall away from direct sunlight and rain.
- Clearance: Maintain at least 50 cm clearance on all sides for proper heat dissipation.
- Temperatura3: Operate within -40°C to 60°C for optimal efficiency.
Mounting Instructions
- Prepare the Wall: Drill four 62-70mm deep holes using the recommended drill head.
- Fix the Mounting Bracket: Secure the bracket with expansion bolts.
- Hang the Inverter: Align the inverter’s hooks with the bracket and fasten it securely.
Wytyczne dotyczące baterii i podłączenia do sieci
Battery Connection
Proper battery connection is crucial for safe and efficient operation. Follow these steps:
- Use appropriately sized cables (refer to the table below).
- Ensure correct polarity: positive (+) to positive and negative (-) to negative.
- Fasten battery connectors4 using a torque wrench (5.2 Nm).
Zalecane rozmiary kabli:
| Model | Rozmiar przewodu (AWG) | Kabel (mm²) | Wartość momentu obrotowego (Nm) |
|---|---|---|---|
| 3,6 kW | 2 AWG | 25 mm² | 5.2 |
| 5.0kW | 1 AWG | 35 mm² | 5.2 |
| 6.0kW | 0 AWG | 50 mm² | 5.2 |
Grid and Backup Load Connection
- Zainstalować 40A Wyłącznik AC5 between the inverter and grid/load.
- Use copper cables with proper insulation.
- Follow wiring polarity carefully to prevent short circuits.
Integracja fotowoltaiki i optymalizacja MPPT
The Deye Hybrid Inverter supports dual MPPT trackers to enhance energy harvest.
PV Module Selection
- Open Circuit Voltage (Voc) must not exceed 500V.
- Minimum MPPT voltage: 150V.
- Ensure modules are Class A certified IEC 617306.
Zalecane parametry fotowoltaiczne:
| Parametr | Wartość | Uwagi |
|---|---|---|
| Maksymalny Voc | 500V | Must not exceed inverter limits |
| Zakres napięcia MPPT | 150V-425V | Optimal range for efficiency |
| Strings per MPPT | 2 | Supports 2 strings per MPPT |
| Max. Input Current per MPPT | 13A | Ensure modules match current limits |
PV Connection Steps
- Turn off the main grid supply and DC isolator.
- Connect PV modules to the inverter’s DC+ and DC- terminals.
- Secure connections with approved solar connectors to ensure waterproofing.
Tryby operacyjne i monitorowanie
Power Modes
The inverter supports flexible operational modes:
- Tryb sieciowy: Prioritizes solar energy while feeding surplus to the grid.
- Tryb poza siecią: Supplies power independently from the grid using battery storage.
- Tryb UPS: Provides uninterrupted power during outages.
LCD Display and WiFi Monitoring
- LCD Screen: Displays system status, battery health, and energy flow.
- Łączność WiFi: Real-time monitoring via the Deye mobile app or cloud platform Monitoring WiFi7.
Konserwacja i rozwiązywanie problemów
To ensure long-term performance, regular maintenance is essential. The inverter’s intelligent system alerts users to potential issues, making troubleshooting straightforward.
Maintenance Tips
- Visual Inspections: Check for loose connections, dirt, or damage monthly.
- Software Updates: Ensure the firmware is updated to the latest version.
- Układ chłodzenia: Keep air vents clean to prevent overheating Solar Inverter Maintenance8.
Common Troubleshooting Steps
| Problem | Możliwa przyczyna | Rozwiązanie |
|---|---|---|
| Inverter Not Starting | Improper wiring or low battery | Verify wiring and charge battery |
| Low Output Efficiency | Dirty panels or incorrect settings | Clean panels and adjust settings |
| Kod błędu: E01 | Wykryto przeciążenie | Zmniejszenie obciążenia i ponowne uruchomienie falownika |
| Error Code: E02 | Overtemperature | Improve ventilation and restart |
| Error Code: E03 | Grid fault | Check grid voltage and frequency Troubleshooting Tips9 |
Wnioski
The Deye Hybrid Inverter SUN-3.6/5/6K-SG03LP1-EU is a versatile, efficient solution for residential and small commercial solar systems. With advanced features like dual MPPT trackers, battery compatibility, and remote monitoring, it ensures seamless energy management for diverse applications.
Przypis
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This link explains what a hybrid inverter is, including its main functionalities and benefits in solar energy systems. ↩
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This link explains the Maximum Power Point Tracking (MPPT) technology used in solar systems to maximize energy harvest from solar panels. ↩
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This link will provide information on the optimal operating temperature for inverters to ensure maximum efficiency and longevity. ↩
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Learn the proper procedure for connecting a battery to an inverter, including size, polarity, and torque specifications. ↩
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This link explains the function of an AC breaker, especially in protecting against electrical faults in solar energy systems. ↩
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This link provides information on IEC 61730, an international standard for the safety and quality of photovoltaic (PV) modules. ↩
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Learn how WiFi-enabled solar monitoring allows real-time tracking of system performance, energy consumption, and battery health via mobile apps. ↩
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This link provides maintenance guidelines for solar inverters, including how to handle firmware updates, inspections, and system checks for optimal performance. ↩
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This link offers troubleshooting advice for common inverter problems, including error codes and potential solutions. ↩
