Split Phase Hybrid Solar Inverter

Split Phase Hybrid Solar Inverter is a solar inverter that combines split-phase technology and hybrid inverter functions. It achieves optimal management and efficient use of energy by integrating solar panels, energy storage batteries and grid power.

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Thlinkpower Split Phase Hybrid Solar Inverter

Features of Split Phase Hybrid Solar Inverter

Split Phase Hybrid Solar Inverter Applications

Thlinkpower Split Phase Hybrid Solar Inverter

As a leading solar inverter manufacturer in China, Thlinkpower produces high-quality split phase hybrid solar inverters. The LS model is one of our best-selling split phase hybrid solar inverters.

Features of LS model:

-Toroidal low-loss transformer, high inverter efficiency, pure sine wave output;

-Intelligent LCD integrated display;

-New appearance design, built-in PWM or MPPT controller;

-Mains charging current 0~30A adjustable, with three optional working modes;

-Startup peak power more than 3 times, with full automatic and complete protection function;

-Added fault code query function, convenientfor users to monitor the operating status in real time;

-Support diesel (gasoline) generators, suitable for working in harsh power environments;

-Both industrial and civilian use, wall-mounted design, easy installation;

Welcome to contact us for the catalogue with complete specifications!

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Features of Split Phase Hybrid Solar Inverter

Feature 1: Split Phase

The Split Phase design enables this hybrid solar inverter to divide power output into two independent phases or circuits. This means the inverter can support both single-phase and three-phase loads simultaneously, allowing for more efficient power distribution.

Specifically, a split phase hybrid solar inverter converts DC (direct current) power into two 120V AC (alternating current) lines, which are 180 degrees out of phase, forming a 240V power system. The key advantages of this design include:

• Improved Energy Efficiency: By distributing power across two independent phases, the split phase solar inverter maximizes the efficiency of solar panel generation and reduces energy waste.

• Adaptability to Various Load Requirements: The inverter can simultaneously power devices requiring 120V and 240V, such as water heaters, ovens, and electric dryers.

• Enhanced System Stability and Reliability: Since power is split into two independent phases, if one phase encounters an issue, the other phase can continue supplying power, improving overall system reliability.

• Suitable for Residential and Light Commercial Applications: This type of inverter is widely used in regions like North America, where 240V power systems are common in homes and light commercial environments.

• Simplified Installation and Maintenance: A split phase solar inverter is a single integrated device, taking up less space compared to multiple parallel single-phase inverters. This makes installation and maintenance easier.

Feature 2: Hybrid

In a Split Phase Hybrid Solar Inverter, the term “Hybrid” signifies its multifunctional nature, combining the capabilities of a traditional inverter and a battery charger. It can handle both DC power generated by solar panels and AC power supplied by the grid, enabling bidirectional power conversion. This characteristic allows the hybrid solar inverter to operate in multiple power scenarios, including off-grid, grid-tied, and hybrid modes.

Key aspects of the Hybrid feature include:

• Bidirectional Power Conversion: The inverter converts DC power from solar panels into AC power for household use, while also converting AC power from the grid into DC power to charge batteries.

• Flexible Operating Modes: It supports both grid-tied and off-grid modes. In grid-tied mode, excess solar energy can be fed back into the grid. In off-grid mode, it ensures continuous power supply from the battery when the grid fails.

• Optimized Energy Management: With Maximum Power Point Tracking (MPPT) technology, the inverter maximizes the output efficiency of solar panels, intelligently directing power to battery storage or directly to loads as needed.

• Increased Energy Utilization Efficiency: By integrating solar, battery storage, and grid power, the inverter ensures efficient use of natural resources, reducing dependence on the public grid and lowering energy costs.

• Multi-Functional Integration: Many hybrid inverters include built-in Battery Management Systems (BMS), Uninterruptible Power Supply (UPS) functions, and smart monitoring systems, making them the core component of home energy management.

Thus, the Hybrid feature indicates that the split phase hybrid solar inverter is not just a simple inverter but a highly efficient energy management device that dynamically adapts to various power needs while ensuring stable and reliable electricity supply for users.

Split Phase Hybrid Solar Inverter Applications

The split phase hybrid solar inverter has a wide range of applications, especially excelling in the following scenarios:

Residential and Commercial Environments Needing Energy Independence: The split phase hybrid solar inverter integrates solar energy with battery storage systems to provide continuous power supply. It ensures energy self-sufficiency even during power outages or peak electricity price periods. This design is particularly suitable for homes and businesses requiring energy independence, such as in rural areas or regions with unstable grids.

Scenarios Requiring Flexible Switching Between Off-Grid and Grid-Tied Modes: This inverter supports seamless switching between off-grid and grid-tied modes to adapt to different power supply needs. For instance, users can switch to off-grid mode to utilize solar power generation or switch to grid-tied mode when solar energy is insufficient, thereby accessing grid electricity. This flexibility makes it highly suitable for residential and commercial use.

Scenarios Requiring Efficient Energy Management: The split phase hybrid solar inverter optimizes energy usage efficiency through intelligent load management features. For example, it prioritizes using stored battery power during peak periods, reducing reliance on the public grid and lowering electricity costs. This feature is particularly beneficial for users aiming to optimize energy usage and reduce energy expenses.

Emergency Power Support Scenarios: In emergencies such as power outages or natural disasters, this inverter can quickly switch to backup power, ensuring continuous operation of critical equipment like medical devices, communication systems, and lighting. Its rapid switching time (typically less than 10 milliseconds) provides significant advantages in protecting sensitive equipment.

Scenarios with Multiple Energy Systems: The split phase hybrid solar inverter is compatible with various energy systems such as solar panels, lithium-ion batteries, and diesel generators. This compatibility allows flexible integration of different energy sources, providing users with a more reliable energy solution.

Rural and Remote Area Applications: Due to its efficient energy management and flexible energy distribution capabilities, this inverter is particularly suitable for rural and remote areas lacking stable grid connections. Solar and storage systems can provide reliable energy supply in such regions.

High-Power Demand Scenarios: The split phase hybrid solar inverter can handle up to 140A of short-circuit current and supports up to 1000V DC voltage, making it suitable for scenarios requiring high-power output. For example, it can support parallel connection of multiple PV arrays, thereby achieving higher system capacity and power output.