Introducing the Sungrow RT Hybrid HV 5.0kW 3 Phase 2 MPPT—a versatile hybrid storage inverter designed to enhance self-consumption and provide reliable backup power. Here are the key features that make this inverter a powerful solution for energy management:
Flexible Application:
Wide battery voltage range of 150 – 600 V, offering flexibility in battery selection. Supports parallel connection with seamless communication between inverters. Ensures 100% unbalanced loads in backup mode for comprehensive power distribution. Energy Independence:
Swift transition to backup mode during power outages for uninterrupted energy supply. Fast charging/discharging capabilities to meet high consumption demands and facilitate energy trading. Smart Management:
High self-consumption with an optimized built-in Energy Management System (EMS). Free online monitoring enhances energy management for end users, installers, and retailers. Remote firmware updates and customizable settings for convenience and adaptability. Easy Installation:
Unique push-in connectors streamline the installation process, saving time. Touch-free commissioning with a smartphone for user-friendly setup. Lightweight and compact design for efficient wall-mounting. Grid Failure Resilience:
Automatically switches to backup mode within 20 ms during a grid failure. Utilizes excess PV energy during outages to charge the battery, ensuring continuous power supply. Quick battery recharge with the first light in the morning after an overnight blackout. Technical Specifications: Max. PV Input Power: 7500 W Max. PV Input Voltage: 1000 V Nominal AC Output Power: 5000 W Nominal AC Voltage: 3/N/PE; 220/380V; 230/400V; 240/415 V Dimensions (W x H x D): 460 x 540 x 170 mm Weight: 27 kg Mounting Method: Wall-mounting bracket Standard Warranty: 10 years
The Sungrow RT Hybrid HV 5.0kW offers a comprehensive solution for efficient energy utilization, backup power, and seamless integration with renewable sources. Its advanced features make it an ideal choice for users seeking reliability and flexibility in their energy systems. |