ON/OFF-Grid Solar Inverter | 6000W | Three Phase | IP65 | 150VDC-600VDC | Feed power into the grid
Prostar PHYB6K-3P IP65 three phase 6KW inverter solar hybrid on off grid represents a significant leap in the world of solar energy technology. This innovative device combines the benefits of solar power and grid electricity, ensuring a reliable and efficient energy solution for homes and businesses alike.
The IP65 rating is a standout feature of this hybrid solar inverter. It means that the device is completely dust-tight and can withstand powerful water jets, making it suitable for outdoor installation. This robust design ensures durability and longevity, even in challenging environmental conditions.
IP65 Weatherproof Design
The IP65 rating certifies that these inverters are well-protected against dust, debris, and water, making them ideal for outdoor installations. They can withstand challenging weather conditions, including rain and extreme temperatures.
Hybrid Functionality
This solar power inverter is engineered to seamlessly switch between on-grid and off-grid modes, ensuring uninterrupted power supply. In on-grid mode, excess energy can be sold back to the grid, while in off-grid mode, it ensures self-sufficiency during power outages or in remote locations.
Three-Phase Compatibility
The inverter is designed to work seamlessly with three-phase electrical systems, providing efficient power conversion and distribution. This feature is particularly advantageous for businesses and large residential properties with high energy demands.
Connect Lithium Battery
This hybrid power inverter can work with lithium battery storage systems, enabling the capture and utilization of excess energy. This feature ensures a reliable power supply even when the primary energy sources are unavailable.
Remote Monitoring
Stay connected to your energy system from anywhere using our mobile app or web portal. Monitor performance, receive alerts, and make adjustments remotely for ultimate convenience.
Battery Communication Function
Common Communication
DRM-Com Communication Function
The Energy Management System (EMS) operates in its default self-consumption mode. The following scenarios illustrate the energy management process:
Scenario 1: Excess PV Power Generation Compared to Load Power Consumption
In this scenario, the PV power generation takes priority, with the Emergency Power Supply (EPS) loads receiving the first allocation, followed by regular loads, and finally, the battery.
When the battery reaches its full charge, any surplus power will be directed back to the grid. The amount of power fed back to the grid will not surpass the predefined feed-in limitation value established during the initial configuration.
Scenario 2: PV Power Generation Is Insufficient Compared to Load Power Consumption
In this situation, the battery will discharge to bridge the energy deficit.
If the combined power from the PV system and the battery remains inadequate to meet the load power requirements, the inverter will draw power from the mains (grid) to compensate for the shortfall.
By combining the discharge capacity of the battery and the EPS power from the grid, the system ensures reliable and uninterrupted power supply during nighttime operations.
During the night, when the battery is depleted, it will enter standby mode. In this scenario, the grid will provide all the power needed for the loads.
In the morning
We experience minimal energy production while facing high energy demands. As the sun rises, our solar panels start generating power, although it may not be enough to cover our morning energy needs. To bridge this gap, our lithium battery bank kicks in, supplying stored energy from the previous day.
At noon
We reach the peak of energy production, but our energy demands are at their lowest. Throughout the day, our solar panels operate at maximum capacity. However, since there is no one at home, energy consumption remains significantly low. Consequently, most of the generated energy is directed towards storing it in the lithium battery bank.
During the night
Energy production drops, but our energy demands remain high. The highest daily energy consumption occurs in the evening, precisely when the solar panels generate minimal or no energy. To meet this evening energy demand, the lithium battery bank comes into play, providing the stored energy generated during the daytime.
Reduced Energy Bills
By harnessing the power of the sun and efficiently combining it with grid electricity, users can significantly reduce their energy bills. Excess solar energy can be sold back to the grid, providing a potential source of income.
Environmentally Friendly
Using solar energy reduces reliance on fossil fuels, contributing to a reduction in greenhouse gas emissions and promoting a cleaner, more sustainable environment.
Reliable Power Supply
With its hybrid functionality, this inverter ensures a continuous power supply, even during cloudy days or at night. This feature is especially vital in regions with unreliable grid power.
Longevity and Durability
The IP65 rating and high-quality materials used in the construction of this inverter guarantee a long service life, providing peace of mind to users.
Model | PHYB6K-3P |
Feed-in Phase / Connection Phase | 3-phase in/3-phase out |
Max. PV INPUT POWER | 9000W |
Rated Output Power | 6000W |
Dimension, D x W x H (mm) | 186 x 450 x 555 |
Net weight (kgs) | 27 |
GRID-TIE OPERATION | |
PV INPUT (DC) | |
Nominal DC Voltage/Max. DC Voltage | 600VDC / 1000VDC |
Min. PV Input Voltage / Start-up Voltage | 200VDC / 250VDC |
MPP Voltage Range | 200VDC~950VDC |
Number of Independent MPP Trackers | 2 |
No. of PV Strings Per MPPT | 1/1 |
Max. PV Input Current | 32A (16A / 16A) |
Max. PV Input Current | 40A (20A / 20A) |
GRID OUTPUT (AC) | |
Nominal Output Voltage | 3/N/PE, 220V/380V, 230V/400V, 240V/415V |
Output Voltage Range | 270-480VAC |
Max. Output Current | 9.1A |
Rated Grid Frequency / Grid Frequency Range | 50Hz / 45 – 55Hz |
Power Factor | >0.99 |
EFFICIENCY | |
European Efficiency | 98.2% |
Maximum Conversion Efficiency (DC/AC) | 97.5% |
OFF-GRID OPERATION | |
AC INPUT | |
Nominal Output Voltage | 3/N/PE, 220V/380V, 230V/400V, 240V/415V |
Output Voltage Range | 270-480VAC |
Rated Grid Frequency / Grid Frequency Range | 50Hz / 45 – 55Hz |
PV INPUT (DC) | |
Nominal DC Voltage/Max. DC Voltage | 600VDC / 1000VDC |
Min. PV Input Voltage / Start-up Voltage | 200VDC / 250VDC |
MPP Voltage Range | 200VDC~950VDC |
Number of Independent MPP Trackers | 2 |
No. of PV Strings Per MPPT | 1/1 |
Max. PV Input Current | 32A (16A / 16A) |
Max. PV Input Current | 40A (20A / 20A) |
BATTERY Mode Output (AC) | |
Nominal Output Voltage | 3/N/PE, 220V/380V, 230V/400V, 240V/415V |
Output Voltage Range | 270-480VAC |
Max. Output Current | 9.1A |
Rated Grid Frequency / Grid Frequency Range | 50Hz / 45 – 55Hz |
HYBRID OPERATION | |
PV INPUT (DC) | |
Nominal DC Voltage/Max. DC Voltage | 600VDC / 1000VDC |
Min. PV Input Voltage / Start-up Voltage | 200VDC / 250VDC |
MPP Voltage Range | 200VDC~950VDC |
Number of Independent MPP Trackers | 2 |
No. of PV Strings Per MPPT | 1/1 |
Max. PV Input Current | 32A (16A / 16A) |
Max. PV Input Current | 40A (20A / 20A) |
GRID OUTOUT (AC) | |
Nominal Output Voltage | 3/N/PE, 220V/380V, 230V/400V, 240V/415V |
Output Voltage Range | 270-480VAC |
Max. Output Current | 9.1A |
Rated Grid Frequency / Grid Frequency Range | 50Hz / 45 – 55Hz |
Power Factor | >0.99 |
AC INPUT | |
Nominal Output Voltage | 3/N/PE, 220V/380V, 230V/400V, 240V/415V |
Output Voltage Range | 270-480VAC |
Rated Grid Frequency / Grid Frequency Range | 50Hz / 45 – 55Hz |
BATTERY MODE OUTPUT (AC) | |
Nominal Output Voltage | 3/N/PE, 220V/380V, 230V/400V, 240V/415V |
Output Voltage Range | 270-480VAC |
Nominal Output Current | 9.1A |
Rated Grid Frequency / Grid Frequency Range | 50Hz / 45 – 55Hz |
BATTERY& CHARGER | |
Battery Type | Lithium Iron Battery |
Nominal DC Voltage Range | 150-600 VDC |
Max. Charging / Discharging Current | 30A |
Max. Charging / Discharging Power | 9000W / 7200W |
PROTECTION | |
Protection | DC reverse polarity, AC short-circuit, Leage current, Battery reverse polarity |
Surge Protection | DC type II / AC type II |
DC Switch (PV) / DC Fuse (Battery) | Yes |
Grid Monitoring | Yes |
GENERAL | |
Mounting Method | Wall-mounting bracket |
Topology | Transformerless |
Degree of Protection | IP65 |
Display | LED digital display & LED indicator |
Cooling Method | Natural cooling |
Communication Interface | RS485/CAN/WLAN/Dlx1/DOx1/DRM |
ENVIRONMENT | |
Humidity | 0~100% RH (Non-condensing) |
Operating Temperature | -25°C to 60 °C |
Altitude | 0-4000 m |