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In residential PV systems, solar micro inverters are increasingly preferred over traditional string inverters for DC-AC power conversion at the panel level. By using micro inverters, energy production is maximized, and challenges such as partial shading, dirt accumulation, or single PV panel failure are effectively addressed. These inverters come equipped with a DC-DC converter for maximum power point tracking (MPPT) and a DC-AC inverter for current and voltage shaping, ensuring seamless integration with the AC grid.
Data generated by each solar micro inverter, including voltage, current, and power metrics, is recorded and transmitted to local or remote monitoring systems, providing a transparent and real-time view of system performance.
Each ARK solar micro inverter belongs to the one-to-two series, enabling the connection of two photovoltaic modules per inverter. This design ensures efficient DC to AC power conversion that complies with grid requirements. Unlike traditional setups, ARK inverters operate independently, allowing real-time monitoring of power generation from each module. This feature significantly enhances system reliability and provides unparalleled flexibility in system design and operation.
Safety and durability are at the core of ARK micro inverters. Featuring an IP67 rating, these inverters are resistant to dust, water, and environmental hazards. This robust protection ensures reliable operation in adverse weather conditions, preventing corrosion and safeguarding critical components.
Key safety features include:
Electrical isolation between the photovoltaic array and grid, achieved through built-in isolation transformers.
Elimination of single-point failure risks, ensuring continued operation even if one inverter encounters an issue.
Enhanced system reliability through high-efficiency power density designs.
These innovations make ARK micro inverters an ideal choice for ensuring long-term system performance and safety.
With ARK microinverter systems, managing your solar power generation is intuitive and efficient. Through a dedicated mobile app, users can:
View real-time energy generation, consumption, and savings data.
Adjust system settings to optimize performance.
Access detailed reports on energy usage and system efficiency over specific timeframes.
Receive important service notifications and maintenance reminders to keep the system running optimally.
This seamless monitoring experience empowers users to maximize their energy output while maintaining system reliability.
ARK solar micro inverters leverage advanced Burst Mode technology to optimize energy capture under low light conditions. In scenarios such as cloudy weather or shading, this technology stores energy during high light intensity and releases it when light levels drop. This approach ensures efficient system operation, maintaining high performance even in challenging lighting environments.
Microinverters can be installed on the roof, along with solar panels, to convert solar energy into electricity. This type of distributed generation can provide electricity to homes or commercial buildings, reducing reliance on traditional power grids. Microinverters are also suitable for installation in smaller Spaces such as balconies to provide an additional source of power to the home. For an 800W microinverter, it can be used with two solar panels to provide more power output. |
Durable and Reliable: With IP67-rated protection and advanced safety features, ARK inverters are built to last.
High Efficiency: Enhanced performance under low light and robust MPPT capabilities maximize energy output.
User-Friendly: Smart monitoring via a mobile app provides complete control at your fingertips.
Scalable: Flexible design accommodates a wide range of PV systems, making ARK the perfect choice for residential and commercial installations.
Invest in ARK solar micro inverters today for a safer, more efficient, and reliable solar power solution.
400W-VN1T04(300/400/500W) | 800W-VN2T08(600/800/1000W) | 2000W-VN4T20(1200/1600/2000W) | |
Input Date(DC) | |||
Recommended Module Power [W] | 300~550/MPPT | 300~550/MPPT | 300~550/MPPT |
Start up Voltage per Input [V] | 18 | 18 | 18 |
Mppt Voltage Range per Input [V] | 17.5~55 | 17.5~55 | 17.5~55 |
Max. Input Voltage per Input [V] | 60 | 60 | 60 |
Max. Input Current per Input [A] | 13.3 | 13.3 | 13.3 |
Max. Input Short-circuit Current per Input [A] | 20 | 20 | 20 |
Output Date(DC) | |||
Max. Continous Output Power [VA] | 400 | 800 | 2000 |
Nominal Continous Output Power [W] | 400 | 800 | 2000 |
Nominal Output Current [A] | 1.74 | 3.48 | 8.7 |
Max. Output Current [A] | 2.48 | 4.9 | 12.2 |
Nominal Output Voltage [V] | 220/230/240, L/N/PE | 220/230/240, L/N/PE | 220/230/240, L/N/PE |
Nominal Frequency [Hz] | 50/60 | 50/60 | 50/60 |
Power Factor | >0.99 default, 0.95 leading ...0.95 lagging | >0.99 default, 0.95 leading ...0.95 lagging | >0.99 default, 0.95 leading ...0.95 lagging |
Output Current Harmonic Distortion | <3% | <3% | <3% |
Max. Units Per Branch | 18 | 9 | 3 |
Efficiency | |||
CEC Weighted Efficiency | 95.50% | 95.50% | 95.50% |
EU Efficiency | 93.60% | 93.60% | 93.60% |
Mppt | 99.90% | 99.90% | 99.90% |
Night Time Power Consumption [mW] | <50 | <50 | <50 |
Mechanical Date | |||
Dimensions (W*H*D mm) | 227*183*42 | 233*232*42 | 380*233*42 |
Weight [kg] | 1.8 | 2 | 3.75 |