Phone Number +90 505 335 1891

Solar Energy Systems

125 kW On-Grid Inverter 125 kW On-Grid Inverter
1,00 $ %0
1,00 $
136 kW On-Grid Inverter 136 kW On-Grid Inverter
1,00 $ %0
1,00 $
225 kW On-Grid Inverter 225 kW On-Grid Inverter
1,00 $ %0
1,00 $
3.6 kW Hybrid Inverter 3.6 kW Hybrid Inverter
1,00 $ %0
1,00 $
4 kW Hybrid Inverter 4 kW Hybrid Inverter
1,00 $ %0
1,00 $
4.6 kW Hybrid Inverter 4.6 kW Hybrid Inverter
1,00 $ %0
1,00 $
5 kW Hybrid Inverter 5 kW Hybrid Inverter
1,00 $ %0
1,00 $
6 kW Hybrid Inverter 6 kW Hybrid Inverter
1,00 $ %0
1,00 $
5 kW Hybrid Inverter 5 kW Hybrid Inverter
1,00 $ %0
1,00 $
6 kW Hybrid Inverter 6 kW Hybrid Inverter
1,00 $ %0
1,00 $
8 kW Hybrid Inverter 8 kW Hybrid Inverter
1,00 $ %0
1,00 $
10 kW Hybrid Inverter 10 kW Hybrid Inverter
1,00 $ %0
1,00 $

What is Pixel Solar Inverter and How Does It Work?

The Pixel Solar Inverter serves as the heart of solar energy systems. Its primary function is to convert direct current (DC) from solar panels into alternating current (AC), making it compatible with household, commercial, or industrial electrical grids.

Pixel Solar Inverters not only perform energy conversion but also provide voltage stabilization, power management, and energy efficiency optimization. These inverters are manufactured with high-quality electronic components and industrial-grade PCB boards, ensuring long-term reliability and durability.

Additionally, Pixel Solar Inverters are equipped with smart monitoring systems, allowing users to track energy production and consumption in real-time. The system adjusts to sunlight conditions to maximize energy output and integrates seamlessly with battery storage systems.

Solar Energy Systems and Battery Integration

Solar energy systems typically consist of three main components: solar panels, inverter, and energy storage batteries. Pixel Solar Inverter ensures smooth and reliable operation among these components.

Battery storage is critical during nighttime or periods of low sunlight, maintaining an uninterrupted power supply. Pixel Solar Inverters are compatible with both lithium-ion and lead-acid batteries. They also include smart energy management algorithms that optimize storage capacity and consumption.

Safety and efficiency are prioritized in inverter-battery integration. The systems feature automatic protection mechanisms for overvoltage, short circuits, and overheating, ensuring secure and reliable operation.

PCB Board Models and Production Technology

One of the most important components determining the performance of Pixel Solar Inverters is the PCB board. Specialized PCBs are used, including single and multilayer boards, double-sided PCBs, aluminum PCBs, and flexible (FPC) PCBs.

Multilayer PCB: Ideal for high-frequency circuits and data-intensive inverter systems.
Aluminum PCB: Provides excellent heat dissipation and stability in high-current applications.
Flexible PCB: Used in compact or dynamic systems, allowing space-saving designs.

PCB production involves automated assembly, surface-mount technology (SMT), AOI optical inspection, and functional testing, ensuring that every board delivers long-term durability and high performance.

High Precision in Multilayer and Flexible PCB Technologies

As electronic systems become more complex, multilayer PCB designs have become increasingly important. Multilayer PCBs are produced for high-frequency signals and dense data traffic, commonly used in inverter systems, industrial control devices, and automation modules.

During production, processes such as interlayer insulation, copper balance, and via plating are carefully executed. Each board is optimized using CAD-based signal integrity analysis, reducing noise, balancing heat distribution, and increasing system stability.

Flexible PCB (FPC) technology offers advantages for limited-space or moving electronic systems. Flexible boards are made from high-heat, vibration-resistant polyimide materials, making them particularly useful for sensor and monitoring modules within solar inverters.

Multilayer and flexible PCB solutions can be fully customized according to technical requirements, providing critical flexibility in both cost and performance.

Superior Thermal Management with Aluminum and Double-Sided PCBs

Thermal management is crucial in high-current circuits. Aluminum-based PCBs provide excellent heat conductivity, making them ideal for high-power applications such as solar inverters, LED drivers, and motor control systems, ensuring long lifespan and efficiency.

The thermal dielectric layer efficiently distributes heat through the aluminum substrate, extending component life and supporting stable operation. Surface finishing methods such as ENIG, HASL, and OSP are applied to enhance durability and solderability.

Double-sided PCBs offer cost and space advantages, allowing more compact and functional circuit designs with conductive paths on both sides. These boards undergo automatic hole plating, photoresist printing, and electrolytic copper deposition processes to ensure high-quality fabrication.

All production steps are carried out in accordance with ISO quality standards, ensuring reliability and positioning the manufacturer as a trusted global electronics solution provider.