GRANKIA GNA10K-LV 48v pure sine wave split phase solar inverter 10kw can deliver reliable and efficient power conversion for off-grid or hybrid solar systems. Ideal for residential, commercial, and industrial applications, this inverter ensures stable and clean electricity to run sensitive electronics, appliances, and heavy-duty equipment.
The split phase solar inverter 10kw produces a pure sine wave output, which is essential for running sensitive electronic devices and appliances. This ensures that your equipment operates smoothly and efficiently without the risk of damage.
With an impressive efficiency rating, the 48v solar inverter 10kw minimizes energy loss during the conversion process. This means more of the solar energy generated is utilized, leading to lower electricity bills and a quicker return on investment.
Split Phase Solar Inverter 10KW Features
Pure Sine Wave Technology
Delivers clean and stable AC power (120V/240V split-phase), compatible with sensitive devices like laptops, medical equipment, and motors.
48V Low Voltage Input
Works with 48V battery banks (compatible with lead-acid or lithium batteries), reducing current draw and improving system efficiency.
Dual AC Input & Output
The solar energy inverter supports split-phase 120V/240V output (L1+N+L2) for North American and compatible markets, enabling balanced power distribution. Dual AC inputs allow connection to both grid and generator for flexible backup options.
Parallel Operation Capability
Stackable design supports parallel connection of multiple inverters (up to 6 units) for expanded power capacity (up to 60kW).
Battery Management System (BMS)
The integrated BMS ensures optimal battery performance and longevity by monitoring battery health, state of charge, and temperature. This feature helps prevent overcharging and deep discharging, extending the life of the battery bank.
Smart Energy Management
Priority mode selection (Solar > Battery > Grid/Generator) to maximize renewable energy usage. Time-of-use (TOU) settings for scheduling battery discharge during peak tariff hours.
Solar Energy Inverter Specification
- Model: GNA10K-LV
- Type: DC to AC Solar Inverter
- Max. PV Input Power: 15000W
- Rated Power Output: 10 kW
- Input Voltage: 48V DC
- Output Voltage: 120V(L-N) / 240V(L1-L2) (Split Phase)
- Output Frequency: 60 Hz
- Grid-Tie Mode: Yes
- Off-Grid Mode: Yes
- Hybrid Mode: Yes (supports both grid and battery operation)
48v Split Phase Inverter Wiring
Photovoltaic Inverter Details
MPPT Solar Inverter Dimension
Solar Inverter in Parallel Operation
Installation Guide
Safety Precautions
- Turn off all power sources before installation.
- Use appropriate protective gear (gloves, goggles, insulated tools).
- Ensure proper ventilation and avoid installing in damp or flammable areas.
- Follow local electrical codes and manufacturer guidelines.
1. Mounting the Inverter
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.
2. Connecting Solar Panels
- 4 MPPT Channels allow multiple panel configurations.
- Connect solar panels in series or parallel to match the MPPT voltage range (recommended up to 500V DC).
- Use MC4 connectors for secure and weatherproof connections.
- Ensure correct polarity (+/-) connections to avoid damage.
3. Battery Connection (48V System Required)
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.
4. AC Input & Output Wiring
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.
5. System Testing & Configuration
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.
6. Remote Monitoring Setup (WiFi)
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.