A flexible 5β6kW hybrid inverter designed for single-phase and split-phase off-grid solar systems. Supports low-voltage batteries, dual MPPT tracking, and seamless energy switching for reliable power in homes and small commercial setups. Built for high efficiency, durability, and stable long-term operation.
HYP 5β6kW Single/Split Phase Hybrid Inverter
The HYP 5β6kW Single/Split Phase Low Voltage Hybrid Inverter is an intelligent and adaptable inverter engineered for modern residential and small business solar systems. Supporting both single-phase and split-phase output, it offers maximum installation flexibility and compatibility with a wide range of electrical standards and load requirements. This makes it an ideal choice for homes, shops, small offices, telecom sites, and rural installations.
With dual MPPT tracking, the inverter optimizes solar generation across multiple PV stringsβeven in conditions with shading or uneven sunlight. Its low-voltage battery architecture enhances system safety, extends battery life, and improves charging efficiency, making it well-suited for off-grid and hybrid applications.
The inverter intelligently manages solar power, battery storage, and load demand, ensuring stable and consistent electricity during power outages or in remote locations without grid access. The bright, blue-lit display provides real-time system information including battery status, solar production, load consumption, and operational modesβperfect for both technicians and everyday users.
Designed for durability, the HYP inverter features robust protective functions such as overload protection, reverse polarity defense, surge suppression, short-circuit protection, and over-temperature safeguards. Its rugged casing and high-grade internal components ensure long-lasting performance in harsh conditions and high-temperature climates.
Ideal for off-grid homes, remote cabins, small businesses, and hybrid backup systems, the HYP 5β6kW Hybrid Inverter offers dependable performance, strong solar efficiency, and complete energy independence.
