Split Phase Inverter | 6000W | 110V-220V or 120V-240V | 48VDC | Max. PV: 9000W
Prostar PEI6K-LV 48v all in one split phase solar inverter 6000 watt can provide efficient and reliable on/off-grid energy solutions. With a 6000W pure sine wave output, this split phase solar inverter is ideal for residential and small commercial applications, ensuring stable and clean power for various appliances.
Designed for split-phase applications, this inverter can deliver 120V/240V output, making it compatible with standard household appliances and electrical systems in North America. This feature allows for greater flexibility in powering various devices simultaneously.
The split phase solar inverter 6000 watt is equipped with four independent Maximum Power Point Tracking (MPPT) channels. This allows for optimal energy harvesting from multiple solar panel arrays, even if they are oriented in different directions or experiencing varying levels of sunlight. This feature maximizes energy production and enhances overall system efficiency.
Supports 120V/240V split-phase output, making it compatible with a wide range of electrical systems.
The split phase solar inverter functions as both an on-grid and off-grid solar inverter, providing flexibility for various energy needs. In on-grid mode, it can synchronize with the utility grid, allowing for energy export and consumption. In off-grid mode, it can operate independently, making it ideal for remote locations or during power outages. This dual functionality ensures that users can adapt their energy solutions based on their specific requirements.
The compact, all-in-one design simplifies installation and reduces the need for additional components. It combines an MPPT solar charge controller, inverter, and battery charger, reducing installation complexity and costs.
Operating on a 48V system, the PEI6K-LV split phase solar inverter is compatible with a wide range of solar batteries and energy storage solutions, allowing for flexible configurations based on your energy requirements and budget.
The inverter supports multiple input configurations, allowing for flexibility in solar panel arrangements. Users can connect different solar arrays to maximize energy capture based on their specific installation needs.
3 units in parallel for split-phase (12kW, 120V/240V) output.
Choose a dry, well-ventilated location, avoiding direct sunlight and moisture.
Secure the inverter on a non-flammable vertical surface using strong wall anchors.
Maintain at least 30 cm clearance around the unit for proper airflow.
Use 48V LiFePO4 or lead-acid batteries (ensure compatibility).
Connect the positive (+) and negative (-) terminals securely using properly rated cables.
Install a battery breaker or fuse for added protection.
Configure battery settings on the inverter via LCD or software.
For Split-Phase (120V/240V) or Single-Phase (120V)
Connect AC input terminals to the grid or generator if grid-tied operation is required.
Connect AC output terminals to the home’s electrical panel or load distribution box.
Use the correct cable gauge based on load requirements (typically 8-10 AWG).
Ensure proper grounding for safety and system stability.
Double-check all connections before turning on the inverter.
Power on the inverter and check the LCD screen for errors.
Configure system parameters (battery type, voltage, charging modes).
Test solar charging, AC input, and load operation.
Install the WiFi module.
Connect the inverter to the monitoring mobile app or cloud platform.
Check system performance remotely and set notifications for system alerts.
Model | PEI6K-LV |
Max. PV INPUT POWER | 9000W |
Rated Output Power | 6000W |
Dimension, D x W x H (mm) | 240x450x820 |
Net weight (kgs) | 50 |
PV INPUT (DC) | |
Nominal DC Voltage/Max. DC Voltage | 500VDC |
MPPT Voltage Range | 120VDC~500VDC |
Max. DC INPUT Current | 14A |
Max. DC Short-circuit Current | 22A |
No. of MPPT Trackers | 4 |
No. of String per MPPT Tracker | 1/1 |
AC OUTPUT (ON-GRID) | |
Rated Output Power | 6000W |
Max. AC Output Power | 6600W |
Nominal Output Voltage | split phase: 110V/220V, 120V/240V; single phase: 240V |
Output Frequency | 60Hz (55 – 65Hz) |
Rated Output Current | 25A |
Max. AC Output Current to Grid | 27.5A |
Max. Grid Passthrough Current | 100A |
Total Harmonic Distortion(THDi) | < 3% |
AC OUTPUT (Backup) | |
Rated Output Power | 6000W |
Nominal Output Voltage | 120V(L-N) / 240V(L1-L2) |
Output Frequency | 60Hz |
Rated Output Current | 25A |
Transfer Time | < 20ms |
Output Power Factor | 0.8 leading~0.8 lagging |
Total Harmonic Distortion(THDu) | <2% |
EFFICIENCY | |
Battery to Load Efficiency | 95.2% |
PV to Grid Efficiency | 97.2% |
Euro Efficiency | 96.5% |
MPPT Efficiency | 99.9% |
PV to Battery Charging Efficiency | 96.1% |
Grid to Battery Charging Efficiency | 95.0% |
BATTERY & CHARGER | |
Battery Type | Lead-acid or Lithium-ion |
Nominal DC Voltage | 40VDC – 60VDC |
Max. Charging Voltage | 58V |
Max. Charging/Discharging Current | 135A/135A |
Charging Curve | 3 Stages / Equalization |
Charging Strategy for Li-battery | Self-adaption to BMS |
INTERFACE | |
Communication Port | RS485, WLAN, WiFi / 4G (option) |
BMS | RS485, CAN |
EMS | RS485, CAN |
Meter | RS485, CAN |
ENVIRONMENT | |
Operating Temperature | -25°C to 60°C |
Relative Humidity | 0 ~95%(non-condensing) |
Altitude | 0~4,000m (>2000m derating) |
Cooling | Fan |
Noise | < 38dB |
Self-consumption | < 25W |
Protection Degree | IP65 / NEMA 3R |
CERTIFICATION STANDARDS | |
Grid Regulation | IEEE 1547, IEEE 2030.5, Hawaii rule 14H, Rule 21 phase I,II,III |
Safety EMC / Standard | FCC part 15 class B, UL1741SA all options, UL1699B, CSA 22.2 |
* Product specifications are subject to change without further notice.