The GoodWe SDT G2 GW10KT-DT is a three-phase on-grid solar inverter with 10 kW output, designed for residential self-consumption and light commercial use. Its high-efficiency electronics, 2 independent MPPTs, and IP65 rating deliver solid performance with quick installation and easy maintenance.
Main Features
- Nominal AC Power: 10 kW (3×400 V, 50/60 Hz).
- Maximum PV Input: up to 15,000 W DC.
- MPPT Tracking: 2 independent MPPTs for mixed roof layouts.
- MPPT Range: 180–850 V; Max DC Voltage: 1000 V.
- Input Current: typically up to 12.5 A (max Isc per input ~15.6 A).
- Max Efficiency: up to 98.3% (high seasonal performance).
- Protection: IP65 for protected indoor/outdoor use; AFCI option depending on version.
- Connectivity: Wi-Fi/LAN for portal, RS-485 for meter/EMS.
- Functions: 150% DC oversizing and up to 110% AC overload (as per manufacturer conditions).
- Acoustics and Consumption: low noise level and low night-time consumption.
Dimensions and Weight
- Dimensions: 354 × 433 × 155 mm (W × H × D).
- Weight: ~16 kg.
Installation Advantages
- Compact and lightweight design with AC plug-in for quick commissioning.
- 2 MPPTs optimize performance for different orientations and shading.
- Robust IP65 design reduces incidents and O&M time.
- Cloud monitoring for remote diagnostics and adjustments.
Recommended Applications
- Homes and small businesses with three-phase consumption and available roof space.
- Projects seeking high performance with controlled investment.
- Installations requiring DC oversizing for higher annual production.
Installation and Best Practices
- Wall mounting on a rigid, level surface with perimeter ventilation.
- Design strings within the voltage/current limits of each MPPT.
- Complete DC/AC protections and isolation as per local regulations.
- Register the unit on the portal/app, verify updates and telemetry.
The GW10KT-DT combines efficiency, flexible design, and professional connectivity in a compact unit. A reliable solution to maximize self-consumption and simplify daily operation in three-phase environments.