Bifacial Energy Yield up to 30%
With the ability to capture sunlight from both sides, this panel can provide up to 30% more energy compared to traditional solar panels.
Ground Mount Installation
Residential Roof Installation
Our panels are compatible with mainstream trackers. By leveraging optimal angles and open spaces, you can maximize solar energy generation and experience the peace of mind that comes with being self-sufficient.
Rest assured, you won't waste a single watt. Thanks to the high efficiency of bifacial panels, any excess energy generated by your solar panels can be stored in batteries for future use or sold back to the main power grid. Installing a solar roof is a wise financial decision that enhances the value of your home.
With 50In Mount Brackets
0-90° adjustment
Up To 120KG
Renogy RV Tilt Mount Brackets allow for the mounting of Renogy 550W panels to the rooftop of a vehicle or other flat surface.
Great addition for use on top of an RV or other flat surface.
The 50-inch TMB bracket can be adapted to Renogy solar panels up to 550W or two 100W Renogy solar panels.
Built to Last in Any Weather
Renogy solar panels are meticulously designed and third-party validated to withstand strong snow loads. Tested with a static load of 113 psf (5400 Pa).
Package Includes
2PCS 320W Solar Panel:
Bifacial 320 Watt Monocrystalline Solar Panel
x 2
2PCS 320W Solar Panel+50 Inch Mount Bracket:
Bifacial 320 Watt Monocrystalline Solar Panel
x 2
50in RV Tilt Mount Brackets
x 2
BIFACIAL 320 WATT SOLAR PANELS:
Max Power at STC:
320W
Open Circuit Voltage:
30.43V
Short Circuit Current:
13.09A
Optimum Operating Voltage:
26.05V
Optimum Operating Current:
12.28A
Maximum System Voltage:
1000VDC
Maximum Series Fuse Rating:
30A
Module Efficiency:
19.2%
Operating Temperature:
-40°F~185°F / -40℃~85℃
Dimensions:
67.9x38.0x1.4in
50in RV Tilt Mount Brackets:
Tilt Bracket Dimension:
22.64x1.18x0.79 inch
Weight:
7.2 lbs
Fixed Bracket Dimension:
50x1.97x0.98 inch
Material and workmanship warranty:
1 Year
Frequently Asked Questions
1. What is the Benefits of Using Bifacial Solar Panels ?
a.Captures sunlight from both sides b.More efficient and power than monofacial panels c.Perform better in overcast weather d.Install in any direction
2. What do I need to complete my off-grid solar power system ?
A solar panel has to be connected a charge controller to regulate current, and a battery to store the electrical power. You will need adapter kit cables to wire the solar panel(s) and charge controller, and tray cables connecting the charge controller to a deep-cycle battery.
3. What does off-grid and on-grid mean ?
On-grid simply means solar power equipment (array or solar panel) is connected to the electrical grid, while off-grid refers to systems that are not connected to the grid and therefore store the generated power for later use. Off-grid systems are not affected by grid blackouts.
4. Why is my solar panel under producing ?
Solar panel performance may be hindered for a number of reasons. Most commonly environmental conditions such as indirect sunlight, temperature rise, cloudy sky, and dirt and stain build up on the top glass will cause a reduced power output.
5. How should I connect solar panels in my electrical circuit (series vs parallel)?
Solar panels can be connected in series or in parallel to meet your electrical circuit size and power demand. Connecting solar panels in series will have the effect of adding up their operating voltage output, while system current output will be the same as that for one panel. While, connecting solar panels in parallel will have a different effect; individual panels operating current output will add up to be the system output current, while system output voltage will be the same as the output voltage of one solar panel. To meet the optimum power output and system rating for your power system, you can use both parallel and series connections.
6. How many solar panels do I need ?
The best way to gauge how many solar panels you need, is to understand and define the power load needed from this system. Power is measured in Watts, and capacity is commonly measured in Watt-hours (multiplying power output in watts by the required number of hours of operation multiplied by a safety factor of 1.5-2). Therefore, it is wise to size your battery bank first based on the minimum required capacity, and accordingly decide how many panels or how much power input is needed.
