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LNEZ-M101000
Step into the future of off-grid energy generation with a solar module designed to defy the limitations of traditional rigid panels. Crafted with a meticulous focus on material engineering, this 100-watt flexible solar panel features an astonishingly sleek 1.8mm profile that feels practically flush against any mounting surface. When handling the module, the immediate tactile impression is one of premium resilience combined with an almost gravity-defying lightness, weighing in at merely 1.5 kilograms. The frameless architecture eliminates bulky aluminum borders, presenting a smooth, uninterrupted surface that visually blends into the contours of curved architectural structures, marine vessels, or specialized mobile units.
Beyond its striking physical form, the panel is engineered to solve complex deployment challenges where conventional glass modules fall short. The absence of a rigid frame means no heavy mounting hardware is required, drastically cutting down on structural reinforcement costs and installation labor. Its surface texture is optimized to capture sunlight from various angles while resisting the accumulation of dust and debris. Whether integrated into remote industrial monitoring stations or mobile command centers, the module provides a continuous, silent stream of power. The sophisticated lamination process ensures that the internal photovoltaic cells remain hermetically sealed against moisture, offering a dependable energy solution that maintains its pristine aesthetic and high functional output over years of continuous outdoor exposure.
STC Electrical Parameters
Parameter | Value 1 | Value 2 |
Maximum Power (Pmax) | 100 | 105 |
Open-Circuit Voltage (Voc) | 20.5 | 20.7 |
Voltage at Max Power (Vmp) | 17.2 | 17.3 |
Short-Circuit Current (Isc) | 6.3 | 6.6 |
Current at Max Power (Imp) | 5.8 | 6.1 |
Power Tolerance | ±3% | ±3% |
Module Color | Black | Transparent/White |
Parameter | Value |
Module Operating Temperature | -40°C ~ 85°C |
Max System Voltage (V) | 1000 DC |
Application Class | Class A |
Temperature Coefficient of Pmax | -0.38%/°C |
Temperature Coefficient of Voc | -0.36%/°C |
Temperature Coefficient of Isc | 0.07%/°C |
Product Specifications
Parameter | Value |
Number of Cells (Pcs) | 30 (3×10) |
Dimensions (mm) | 1010×570×1.8 |
Module Weight (kg) | 1.5 |
Product Color | Transparent/White/Black |
Frame | None |
Junction Box | IP68 |
Key Benefits
High-precision measurement for reliable data.
Robust design suitable for demanding environments.
Simple installation and low maintenance.
Stable performance and long service life.
Usage Instructions
Install the device in the specified location, ensuring proper mounting.
Connect the power and signal cables according to the wiring diagram.
Power on the device and verify its initial status is normal.
Configure basic parameters if necessary for your application.
The device is now operational and will begin measuring/data collection.
Application Scenarios
Industrial process monitoring and control systems.
Environmental data collection and analysis.
Equipment status monitoring and predictive maintenance.
Integration into larger IoT and automation solutions.
Maximizing energy yield in unpredictable off-grid environments requires uncompromising electrical stability. This module is precision-engineered to deliver exactly that, ensuring your systems remain powered when they need it most.
Consistent 100W to 105W power output guarantees reliable energy harvesting for critical off-grid infrastructure.
A strict ±3% positive power tolerance ensures you receive the rated power or more, never less, maximizing your return on investment.
Superior temperature coefficients, specifically a Pmax of -0.38%/°C, maintain high conversion efficiency even as ambient temperatures soar.
Optimized cell architecture captures a broader spectrum of light, enhancing performance during early morning, late afternoon, or overcast conditions.
The physical constraints of traditional solar deployments are completely bypassed through advanced material science. This module redefines where and how solar power can be harvested.
At a mere 1.5kg, it drastically reduces the dead load on delicate structures, expanding installation possibilities to previously unviable surfaces.
The 1.8mm ultra-thin profile allows the panel to flex and conform to curved surfaces, ensuring a perfectly flush fit on aerodynamic or irregular shapes.
Frameless construction eliminates the rigidity and bulk of aluminum edges, facilitating seamless edge-to-edge arrays.
Reduces manual labor fatigue during large-scale installations, accelerating project completion timelines.
Remote and off-grid deployments expose equipment to the harshest elements on earth. This panel is armored to withstand severe environmental degradation without compromising output.
Equipped with an IP68-rated junction box, offering the highest level of protection against complete, continuous submersion in water and total dust ingress.
Engineered to operate flawlessly within an extreme temperature range of -40°C to 85°C, from freezing arctic outposts to blistering desert stations.
Advanced polymer encapsulation resists the corrosive effects of high salt mist and intense humidity, ideal for marine and coastal applications.
Impact-resistant surface materials protect the delicate photovoltaic cells beneath from hail, flying debris, and incidental impacts.
Time is a critical resource in any deployment. The adaptable nature of this flexible module strips away the complexity of traditional solar array construction.
Purpose-built for off-grid systems, completely negating the need for heavy, expensive metal racking and mounting rails.
Highly adaptable for powering industrial IoT sensors, remote environmental monitoring stations, and telecommunications relays.
Perfectly suited for mobile applications, seamlessly integrating onto the roofs of specialized vehicles, marine vessels, and mobile medical units.
Simplifies the wiring and connection process, allowing rapid scaling of power systems in temporary or emergency deployment scenarios.
When scaling up off-grid power banks, system-level safety cannot be compromised. Stringent manufacturing standards ensure this module performs safely under high electrical loads.
Supports a maximum system voltage of 1000V DC, enabling long series connections to minimize energy loss over extended cable runs.
Certified for Class A application rating, confirming its safety and reliability for use in systems accessible to the public or in hazardous environments.
Rigorous electroluminescence (EL) testing during manufacturing guarantees the absence of micro-cracks or hidden defects in the solar cells.
Robust internal circuitry is designed to prevent reverse current flow and mitigate the risks of localized overheating.
Visual integration is increasingly vital for modern architectural and product designs. This module offers the flexibility to blend in or stand out according to specific project requirements.
Available in multiple color configurations, including black, transparent, and white, to match the aesthetic demands of the mounting surface.
The white backsheet option reflects excess heat, while the all-black variant offers a sleek, stealthy appearance for high-end automotive or architectural integration.
Transparent options allow for creative installations where light transmission is desired alongside power generation.
The clean, frameless edges provide a modern, low-profile look that enhances rather than detracts from the underlying design of the host structure.
FAQs
To assist in your project planning and technical evaluation, we have compiled answers to the most common inquiries regarding the deployment and capabilities of our flexible solar modules.
The 1.8mm profile is achieved through the use of advanced, high-strength polymer encapsulants rather than fragile glass. This material composition not only reduces weight but also absorbs impacts and resists micro-cracking, making the panel highly resilient against environmental stressors such as hail or continuous vibrations in mobile applications.
Yes, the module is engineered to support a maximum system voltage of 1000V DC. This high voltage rating allows you to string multiple panels together in series, which significantly reduces current levels, minimizes resistive power losses in your cabling, and lowers the overall cost of wiring for large-scale off-grid arrays.
An IP68 rating indicates the highest level of ingress protection. The "6" means the junction box is completely dust-tight, while the "8" signifies it can withstand continuous immersion in water under specified pressure. This ensures the critical electrical connections remain secure and corrosion-free, even in high-humidity, heavy rain, or marine environments.
Solar panels naturally lose a fraction of their efficiency as they heat up. A temperature coefficient of -0.38%/°C is highly competitive, meaning that for every degree Celsius the panel's temperature rises above the standard 25°C, its maximum power output decreases by only 0.38%. This ensures sustained, reliable energy generation even during the peak heat of summer.
The frameless, lightweight design is optimized for non-penetrating installations. We highly recommend using industrial-grade structural adhesives, double-sided VHB tapes, or custom grommet tie-downs. This approach maintains the waterproof integrity of the mounting surface—such as a vehicle roof or a specialized equipment enclosure—while providing a secure, aerodynamic bond.
