GROWATT SYN-100-XH-30 (Backup Box for MID XH)
The GROWATT SYN-100-XH-30 Backup Box is an essential component for PV systems utilizing MID XH inverters, offering seamless power backup solutions for residential and commercial applications. This innovative device ensures uninterrupted power supply during grid outages, providing peace of mind and enhanced energy independence for users.
- Robust Power Backup: Supports up to 40kW of rated AC power in continuous backup operation, with a peak capacity of 46kW for up to 10 seconds
- Flexible Grid Integration: Accommodates 230V/400V AC output voltage and 50Hz/60Hz frequency, with a wide frequency range of 45-65Hz
- Quick Response: Grid disconnection switchover time of less than 500ms ensures minimal disruption
- Three-Phase Compatibility: Supports 100% three-phase imbalance output for versatile power distribution
- Efficient Communication: Equipped with RS485 interface for seamless integration with existing systems
- User-Friendly Design: Features a manual control bypass switch for easy maintenance and operation
- Silent Operation: Noise levels below 30dB ensure quiet performance
- Durable Construction: IP65 protection rating for resistance against dust and water ingress
- Wide Operating Range: Functions effectively from -40°C to 60°C and up to 100% relative humidity
- Versatile Installation: Wall-mounted design with compact dimensions (365/486/120mm) and lightweight construction (12kg)
- High-Altitude Performance: Operates efficiently at elevations up to 3000m
- Integrated Protection: Built-in breaker simplifies installation and enhances safety
The GROWATT SYN-100-XH-30 Backup Box represents a significant advancement in PV system accessories, offering a comprehensive solution for power backup needs. Its combination of robust performance, flexible integration capabilities, and user-friendly features makes it an invaluable addition to any MID XH inverter-based solar installation. By ensuring continuous power supply and seamless grid interaction, this backup box empowers users to maximize their energy independence and resilience against grid uncertainties.