100W Rigid Solar Panel
EcoFlow 100W
Rigid Solar Panel
23% Conversion
Rate for Fast-Charging
Ready to Install
Mounting Holes
IP68
Weatherproof
Robust Durability
Highly
Protective
Universally
Compatible
100W Rigid Solar Panels
With a compact design and high-efficiency rating, string together several of these industry-leading solar panels to quickly charge your LFP batteries and power your RV for days.
Use Highly Efficient Monocrystalline Cells
Charge Faster with High Solar Conversion.
Our 100W rigid solar panel has an excellent conversion rating of 23%, allowing you to charge even faster. Combine as part of your Power Kits setup or EcoFlow portable power station, and the integrated MPPT algorithm optimizes your solar input.
Pre-Drilled Slots on Solar Panel for Secure Mounting
Ready to Install on Your Surfaces.
With pre-cut holes on the panel, the 100W rigid panel is ready to mount on your van or off-grid build. Pair with the 100W Rigid Solar Panel Mounting Feet for a secure attachment to any surface.
IP68* Waterproof Rating
Stand Through All Weather.
Our 100W rigid solar panel is designed for outdoor weather. With an IP68* waterproof rating, the panel can withstand dirt, low-pressure water jets, extreme winds of up to 130 mph, and even heavy snowfalls.
*Water and dust resistance were tested under controlled laboratory conditions with a rating of IP68 under IEC standard 60529 (maximum water depth of 1 meter for up to 72 hours.)
Coated with Highly Protective Lamination and Tempered Glass
Durable Structure Design for Long-Lasting Performance.
Solar Cable for Universal Compatibility
Connect with Your Power Systems at Ease.
What's in the box?
1.2 x 100W Rigid Solar Panel
2.User Manual and Warranty Card
*The solar to XT60 charging cable is included in EcoFlow portable solar panels.
FAQ
This depends first and foremost on weather conditions. Generally speaking, on a clear day with no clouds in the sky, sunlight hitting the panel at a 90° angle usually generates 70 W–80 W of power in the 100 W panel (current light conditions are normally 800–900 W/m2 (74.3–83.6 W/ft2) with a panel temperature of 50°C (32°F) under test conditions. Nominal power ratings are based on 1,000 W/m2 (92.9 W/ft2) in AM1.5 conditions with a panel temperature of 25°C under test conditions. Power output figures close to nominal values were normally observed in the midday sun during the winter).
In most cases, it is normal for a solar panel to not deliver its full nominal power. Some of the reasons why this happens, as well as some suggestions for getting closer to the nominal power figure, are given below. 1. Light Intensity. The amount of light shining on the panel will result in fluctuations to the power output. You are more likely to achieve nominal power output figures closer to those obtained under test conditions when using the product on a clear day during the midday sun, than when using the product in the morning or later in the afternoon. Weather conditions will also affect the amount of sunlight that shines on the panel. For example, you are much less likely to achieve the figures for nominal power in hazy, cloudy or rainy conditions. 2. Surface Temperature. The temperature of the solar panel surface will also affect the amount of power generated.The lower the surface temperature of the panel, the more power will be produced. For example, solar panels generate more power when used during the winter than during the summer, and this is completely normal. Solar panels generally reach temperatures close to 60°C (140°F) during summer. This reduces nominal power by 10–15%, despite the higher levels of light shining on the panel. 3. The Angle of the Sunlight. Under good lighting conditions, the solar panel is able to stay where light hits perpendicular to the surface to achieve better light performance. However, most solar panels installed on the roof of an RV can only be installed in a tiled configuration, which prevents the panel(s) from being installed at the optimal angle, and this difference will result in a power output loss of approximately 5%-15%. 4. Panel Shading. The surface of the solar panel should not be shaded during use. Shading caused by shadows,foreign objects and glass can all greatly reduce power output.Performance Issues caused by Malfunctioning Panels: If the panel still isn’t generating power or its output remains far below expected nominal power figures after addressing the issues above, there may be an issue with the panel itself. Please contact Customer Support for assistance.
The operating temperature of the solar panel is -20°C to 85°C (-4°F to 185°F). Please read the product’s manual carefully before use. Solar panels are made of monocrystalline silicon wafers. During installation and use, please do not slam the panels on the ground, step on them, strike them with foreign objects, or sit on their surface as such actions may cause the monocrystalline silicon wafers to crack, which will affect your use.Damage caused by human force is not covered by the free warranty.
Yes. There can be a lot of dust and foreign objects on the surface of the solar panel after the panel has been used outdoors for a long time, which block the light to a certain extent, reducing the power output. Regular cleaning can help keep the surface of the solar panel clean and free from obstructions and generate a higher power output.
Yes. Connecting panels in parallel increases power through doubling the current. The maximum number of 100 W panels allowed in a parallel connection depends on the controller and energy storage equipment of your recreational vehicle. Please ensure that the energy storage system used in your vehicle supports a higher input current, and you should use wires with a diameter suitable to the output current to securely connect the panels in parallel.
Yes. Connecting panels in parallel increases power through doubling the current. The maximum number of 100W panels allowed in a parallel connection depends on the controller and energy storage equipment of your recreational vehicle. Please ensure that the energy storage system used in your vehicle supports a higher input current, and you should use wires with a diameter suitable to the output current to securely connect the panels in parallel.