Hoymiles Power HAS-11.5LV-USG1 HAS AC hybrid inverter
Hoymiles Power HAS-11.5LV-USG1 HAS AC hybrid inverter
The Hoymiles HAS-LV-USG1 Series represents a groundbreaking advancement in hybrid inverter technology, catering specifically to the burgeoning demands of the U.S. solar energy and energy storage market. These single-phase hybrid inverters are meticulously designed to facilitate the two-way conversion of electricity between AC and DC, thereby allowing for dynamic switching between various power sources based on energy production, pricing, and consumption needs. The HAS-(3.8-11.5)LV-USG1 series inverter designed for retrofitting PV systems using Micro inverters or String inverters, including power classes ranging from 3.8 kW to 11.5 kW. It can be installed with existing PV inverters, forming an AC coupling system. The HAS-(3.8-11.5)LV-USG1 series inverter can be connected to a battery and any grid-connected PV inverter to form a PV Energy Storage System (ESS). In the event of a grid outage, it can be used as an emergency power supply (EPS) through the self-consumption of solar energy, as the grid-connected PV inverter can also work when it is connected to the GEN port or Grid port even if there is a grid outage. This series showcases an exceptional range of power output, spanning from 3.8 kW to 11.5 kW, making it suitable for a diverse array of installation scenarios, from residential to small commercial solar-plus-storage projects. Further enhancing its appeal, the HAS-LV-USG1 series supports 120/240V backup power without the necessity for an external autotransformer. This feature, translates into lower overall system costs compared to equivalent capacity systems using different inverters. Additionally, it features an intelligent Energy Management System (EMS) that supports modes such as self-consumption, economic, and backup, offering flexibility for diverse application scenarios. For user convenience, the series includes capabilities for real-time system data monitoring and remote operations and maintenance via a transfer stick (DTS). Its compact and straightforward installation design makes it an ideal choice for seamlessly integrating into any hybrid system, thereby promoting energy independence and resilience in the face of evolving energy challenges.