GRANKIA S3600TL 3600w anti islanding grid tie inverter for solar power is an ideal choice for users seeking a dependable, high-performance inverter that enhances solar energy efficiency while meeting strict safety requirements. Whether for home or business use, this inverter delivers optimal performance and seamless integration with the grid.
S3600TL 3600w anti islanding grid tie inverter for solar power synchronizes with the grid by matching its output frequency, voltage, and phase with the grid’s frequency, voltage, and phase.
3600W Grid Tie Inverter for Solar Features
Seamless Grid Integration
Fully compliant with grid connection standards, ensuring smooth operation and synchronization with the utility grid.
Anti-Islanding Protection
This feature prevents the inverter from feeding energy back into the grid when it is not safe to do so, such as during a power outage.
Intelligent MPPT Technology
Maximizes power output by continuously tracking the maximum power point of the solar array.
Safety Protections
Includes anti-islanding, over-voltage/current shutdown, and fault diagnostics to prevent equipment damage.
Grid-Tie Functionality
The grid tie inverter for solar can work in conjunction with the grid, allowing excess energy generated by the solar panels to be fed back into the grid and offsetting energy consumption during periods of low sunlight.
Compact and Lightweight Design
Easy to install and suitable for both indoor and outdoor applications.
Technical Specifications
- Model: S3600TL
- Input Voltage Range: 70V – 550VDC
- MPPT Voltage Range: 100V-500VDC
- Rated Power Output: 3600W
- Output Voltage: 220V/230VAC
- Frequency: 50Hz/60Hz
- Efficiency: Up to 97.8%
- Cooling Method: Natural cooling
- Protection Level: IP65 (Dustproof & Waterproof)
- Communication: RS485 / WiFi
- Certifications: CE, RoHS, TUV, ISO9001
Key Installation Steps
Mounting the Inverter
- Wall or rail mounting options are available.
- Use pre-drilled holes or a TH-35-7.5 top hat rail for secure attachment.
- Leave 50 cm clearance above/below and 20 cm on sides for ventilation.
Electrical Connections
- DC Input (PV Panels)
- Requires 100–500V DC input (MPPT range).
- Use pre-fitted MC4 connectors or compatible DC plug connectors.
- Install DC isolators and surge protectors (SPDs) for safety.
- AC Output (Grid)
- Connect to a sub-panel using 3-conductor wiring (hot, neutral, ground).
- Match grid voltage (230V/230V ±40V) and frequency (50Hz/60Hz).
- Grounding
- Mandatory protective conductor (PE) connection; a second grounding terminal is optional.
Safety Measures
- Install circuit breakers for AC/DC circuits (e.g., 25A DC breaker for PV input).
- Ensure polarity correctness to avoid reverse connections.
Tools and Materials Required
- Basic Tools: Screwdrivers, wire strippers, crimping tools, heat gun (for terminals).
- Electrical Components: MC4 connectors, DC isolators, SPDs, and appropriately gauged wires (e.g., 10 AWG for AC, 12 AWG for PV).
- Safety Gear: Insulated gloves, voltage tester.
How does a Grid-tie Inverter Synchronize?
Grid monitoring
The grid tie inverter for solar continuously monitors the grid’s voltage, frequency, and phase using sensors and measurement circuits.
Frequency detection
It detects the grid frequency, which is typically 50Hz or 60Hz, depending on the region.
Phase-locked loop (PLL)
The inverter uses a PLL circuit to lock onto the grid’s phase. The PLL generates a reference signal that is synchronized with the grid’s phase.
Voltage regulation
This grid tie inverter regulates its output voltage to match the grid’s voltage. This is typically done using a voltage regulator circuit.
Synchronization algorithm
This inverter uses a synchronization algorithm to adjust its output frequency, voltage, and phase to match the grid’s parameters. This algorithm ensures that the inverter’s output is synchronized with the grid.
Zero-crossing detection
The inverter detects the zero-crossing point of the grid’s voltage waveform, which is the point where the voltage crosses from positive to negative or vice versa.
Output synchronization
It synchronizes its output with the grid by generating an output waveform that is in phase with the grid’s waveform. This is done by adjusting the inverter’s output frequency, voltage, and phase to match the grid’s parameters.
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