Watch the video: Hi-MO X10 – Five Layers of Protection, One Powerful Module – Anti-Dust Protection
- Built on the advanced synergy of HPBC 2.0 technology, TaiRay wafers, and 0BB technology, the
Hi-MO X10 solar panel features an anti-dust frame design and a unique bypass diode structure. - It delivers comprehensive performance through five key strengths—Anti-Shading, Anti-Dust, Anti-
Fake, Anti-Glare, and Anti-Fire—establishing itself as a true 5A module, best choice for the
distributed PV market.
Anti-Shading
Hi-MO X10 introduces advanced anti-shading features that recover up to 70% of power loss caused by dust, leaves, snow, or equipment. Unlike conventional panels, where single-cell shading triggers an entire string of cells to bypass, resulting in significant power losses, the Hi- MO X10 utilizes self-bypass technology, isolating the shaded cell without affecting the rest of the string.
Anti-Dust
Hi-MO X10 also features an innovative anti-dust frame design, effectively reducing dust accumulation by enabling rainwater to naturally flush away surface debris. This addresses a long standing challenge in the distributed PV market, especially in dust-prone regions. The design not only lowers cleaning and maintenance costs but also helps prevent localized overheating and reduce hotspot temperature caused by localized shading. Field data shows that modules with this anti-dust design deliver an average energy gain of 2.04%, with peak gains reaching up to 6%. Reducing at least four times of maintenance per year.
Watch the video:
Anti-Fake
To help customers confidently verify product authenticity, LONGi has implemented a unique code system on each module’s nameplate. In www.longi.com/en/modules-authenticity/, users can access detailed module information including registration, certifications, electrical performance, and technical documentation with the code. Modules not produced by LONGi cannot be traced in the system, providing a reliable anti-fake mechanism. In addition, Hi-MO X10’s 0BB structure, making it completely free of grid lines on the front and busbars on the back, enhances aesthetics and efficiency. The gridline-free surface is difficult to replicate, making it easy to distinguish genuine LONGi BC modules from imitations.
Anti-Glare
Hi-MO X10 incorporates an advanced anti-glare design, effectively minimizing light reflection through matte black cell surfaces, nano-scale anti-reflective coatings, and specialized low-reflectivity glass. By eliminating front-facing metallic gridlines and optimizing surface texture at the micro- and nano-scale, the module significantly reduces mirror-like glare common in conventional silver-gridline modules. This makes Hi-MO X10 particularly well-suited for glare-sensitive environments such as airports, highways, and school projects, where visual safety and environmental integration are critical.
Anti-Fire
Hi-MO X10 offers enhanced anti-fire performance by significantly reducing local hotspot temperatures under partial shading conditions such as bird droppings or leaf coverage. Laboratory and field tests show that, under identical leaf shading scenarios, Hi-MO X10 modules with anti-dust design exhibit localized temperatures of just over 80℃ while conventional TOPCon modules exceed 130℃. This substantial temperature difference greatly minimizes the risk of thermal runaway and reduces fire hazards in distributed PV applications.
For enquiries on the African continent, please email: AFRICA@longi.com
Author: Bryan Groenendaal
Founded in 2000, LONGi Green Energy Technology Co., Ltd. (LONGi) is committed to being the most valuable solar technology company in the world.
Under the mission of “To make the best of solar energy to build a green world” with a brand positioning of “The most trusted, reliable solar company that blazes the trail for green technology,” LONGi is developing solutions for large-scale power plants, for different industries and households with its innovation-focused development. Eventually, we will also supply “Green Power + Green Hydrogen” solutions for global zero-carbon development.
