Photovoltaic-thermal (PV-T) hybrid systems. Designed to meet the unique energy demands of tropical climates, these systems are designed to change the energy landscape by maximizing efficiency and sustainability.
With abundant solar radiation and huge demand for thermal energy for cooling and heating in the tropics, the need for efficient energy solutions is at an all-time high. PV-thermal hybrid systems seamlessly integrate advanced photovoltaic technology with advanced thermal management capabilities. By simultaneously harnessing the sun to generate electricity and capturing thermal energy, these systems achieve impressive overall energy efficiency that far exceeds that of conventional solar systems.
Advanced technology, superior performance
At the heart of PV-thermal hybrid systems are their high-performance solar modules. The table below lists the key specifications of the available modules:
| Module Type | Power Output Range (W) | Solar Cell Technology | Conversion Efficiency |
| Residential | 430 - 720 | N-type (TOPCon, HJT) | Up to 26.5% |
| Commercial | 550 - 800 | N-type (TOPCon, HJT) | Up to 27% |
| Industrial | 600 - 900 | N-type (TOPCon, HJT) | Up to 27.5% |
These modules use advanced N-type solar cell technologies such as TOPCon (Tunnel Oxide Passivated Contact) and HJT (Intrinsic Thin Layer Heterojunction) to ensure superior conversion efficiency even under intense tropical sunlight. The integrated thermal system is carefully designed to capture and transfer heat efficiently. It can be used for a variety of applications, including domestic hot water supply, space heating in cold seasons, and powering absorption chillers for efficient cooling in hot seasons.
Comprehensive Energy Storage and Management
To further enhance energy independence and reliability, the hybrid PV-solar power system is equipped with a powerful energy storage solution. The lithium-ion battery pack is available in both low-voltage and high-voltage configurations, providing flexibility for different energy storage needs. The following table details the battery pack options:
| Battery Type | Voltage Configuration | Capacity Range (kWh) |
| Residential | Low-voltage | 10 - 50 |
| Commercial | High-voltage | 50 - 200 |
| Industrial | High-voltage | 200 - 1000 |
These batteries store excess power generated during the day for use during peak hours or at night. This significantly reduces dependence on the grid and maximizes solar self-sufficiency.
High-performance hybrid inverters complement the battery system. For residential applications, we offer 5-12kW hybrid inverters with a 5-year warranty. Commercial and industrial customers can choose 30-50kW three-phase hybrid inverters (also with a 5-year warranty), which are designed to manage the complex flow of current between solar panels, battery packs and the grid. These inverters ensure stable power supply and optimal energy management, thereby improving the overall performance of the system.
Versatile Applications for Different Industries
Hybrid photovoltaic power generation systems (PV-T) meet a wide range of customer needs, from individual households to large commercial and industrial enterprises. For industrial use, the company offers complete solar panel power generation systems from 30 to 150kW; for commercial applications, the company offers solar power generation system hybrid inverter battery packs from 200kW to 2MW. In addition, some hybrid inverter models can be equipped with an optional diesel generator to provide reliable backup power in emergency situations to ensure uninterrupted operation.
Consistent pursuit of excellent quality and reliability. The company's dedication to quality is reflected in every aspect of the product development and manufacturing process. The company's modular and fully automated production line, combined with strict quality control measures at each stage, ensures that each hybrid PV system meets the highest standards. The products have obtained multiple international certifications including CE, TUV and UL, fully demonstrating their safety, reliability and excellent performance.
MateSolar helps customers achieve higher energy efficiency, reduce carbon footprint and enjoy long-term cost savings by integrating electrical and thermal energy collection technologies. We are committed to promoting the transition to a more sustainable energy future.
As the global demand for clean and efficient energy solutions continues to grow, hybrid photovoltaic systems offer practical and innovative solutions for tropical regions. With their high performance, reliability and versatility, these systems will play a key role in shaping a more sustainable, energy-independent future.