High Efficiency Polycrystalline 215W Solar Panels Silicon

High Efficiency Polycrystalline 215W Solar Panels Silicon System 1

High Efficiency Polycrystalline 215W Solar Panels Silicon System 2

High Efficiency Polycrystalline 215W Solar Panels Silicon

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Loading Port:: Shanghai

Payment Terms:: TT OR LC

Min Order Qty:: 100 watt

Supply Capability:: 10000 watt/month

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Product Description

Produt name: 225W Poly Crystalline Solar Panel

Product Highlights:
1. Guarantee positive power tolerance (0~+3%)
2. Module can bear snow loads up to 5400Pa and wind loads up to 2400pa
3. High performance under low light conditions (cloudy days, mornings and evenings)
4. Certified by Europe standards of TUV, IEC, CE and British MCS and AUS CEC
5. OEM/ODM available

Specification：

Electrical Characteristics
Maximum Power [Pmax]	225W
Power Tolerance	+/-3%
Maximum Power Voltage [Vmp]	27.1V
Maximum Power Current [Imp]	8.31A
Short-Circuit Current [Isc]	8.73A
Open-Circuit Voltage [Voc]	33.8V
Module Efficiency	15.3%
Max. System Voltage	1000VDC
Cell Size and Series	Poly 156156(6 inches) 54pcs (69)
Temperature Coefficient of Pmax	- 0.47% / º C
Temperature Coefficient of Voc	- 0.35% / º C
Temperature Coefficient of Isc	0.05% / º C
Mechanical Characteristics
Dimension (mm)	148299240
Frame	Anodized Aluminium Alloy
Glass	3.2mm,High Transmission,Tempered Glass
Junction box & Cable	IP65 Rated Cable: TUV 1x4.0mm2 / UL12AWG,Length:900mm
Weight	18.5Kgs

Industry-leading Warranty:
Warranty on material and workmanship: 10 years
Guaranteed output of 90% after 12 years and 80% after 25 years.

250W Polycrystalline Solar Panel Poly Crystalline 215W Solar Panel with High Efficiency

Q: Why might energy from the solar panels sometimes be near zero even in the summer?: Hey Cosmic, forget about Wayfare and Jenny here, but I have to say your question is a bit vague. When you say the panels produce near zero, how near? Are you using a watt meter, ammeter, or some other sort of metering device. Solar electric, or photovoltiac panels are made almost entirely of silicone wafers. Same as computer chips, when they get hot, the resist the flow of electrons. This is why most panel manufacturers advise installers to upgauge wiring if the temperature falls below 40 degrees F (5C) regularly. Below 0 C, you have to upgauge 2 wire sizes. A good quality panel will put out 50% of its rated power in very cold climates, so it stands to reason that they will put out substantially less in hot weather. Many people think places like the SW United States is great for solar because it's always sunny. In Las Vegas for example, they have 27 sunny days a month, and in August, the temperature frequently reaches 50 degrees C (20F) so people with photovoltiac panels are not even getting half their rated power on a good day. I'm not sure this is what you are asking about. Our home has been powered by the wind and sun for 2 years now. In the summer in the upper midwest, the days are warmer of course, but also much longer than in the winter. So our batteries will frequently fill up by 2:00pm, and the charge controller will taper off the solar charging the rest of the day to minimize overcharging. If you were to check the meters at 3pm, you might notice only 3 or 4 amps coming in when the array is rated at 42. This is normal for us in July and August. These are some reason why a solar array produces near zero in the summertime. Take care Cosmic, Rudydoo

Q: Can solar panels be installed on a sports stadium or arena?: Yes, solar panels can be installed on a sports stadium or arena. Many stadiums and arenas around the world have already implemented solar panel systems to generate renewable energy and reduce their carbon footprint. The large roof space and open areas surrounding these venues make them ideal locations for solar panel installations. Additionally, the energy generated by these panels can be used to power the stadium's operations and even contribute to the local power grid.

Q: I mean like bread is made of wheat, what are solar panels made up of?How are they manufactured?: Solar panels (aka photovoltaic panel) are most often made up of thin wafers of crystalline silicon or cadmium telluride. As photons from the sun enter the photovoltaic cell, electrons are freed from the substrate when are then collected by wires that run throughout the panel. And as we know electrons=electricity!

Q: How much electricity can a solar panel produce?: The amount of electricity a solar panel can produce depends on various factors such as the size and efficiency of the panel, the amount of sunlight it receives, and the location. On average, a standard solar panel can produce anywhere between 250 to 400 watts of electricity per hour.

Q: Can solar panels be installed on a parking lot or carport?: Yes, solar panels can be installed on a parking lot or carport. In fact, these locations are ideal for solar panel installations as they provide ample space and can generate clean energy while also providing shade and protection for vehicles. This dual-purpose approach helps maximize the benefits of solar energy and optimizes land usage.

Q: The first solar panel that creates energy from UV rays... who created it: No solar panel creates energy. The earliest solar panel of any form was probably the parabolic mirror as used, for example, to light the Olympic torch. That goes back to ancient times.

Q: Can solar panels be installed on historic buildings?: Yes, solar panels can be installed on historic buildings. However, the installation process may require careful planning and consideration to ensure that the panels are discreetly integrated with the building's architecture and do not compromise its historical value. In some cases, solar panels may need to be installed in less visible areas or designed to resemble traditional building materials. Additionally, it is important to consult with preservation experts and local authorities to ensure compliance with any regulations or guidelines specific to historic buildings.

Q: Can solar panels power my entire home?: Yes, solar panels have the potential to power your entire home, depending on various factors such as the size of your solar panel system, the amount of sunlight in your area, your energy consumption patterns, and the efficiency of your appliances. It is important to consult with a solar professional to assess your specific energy needs and design a system that can meet your requirements.

Q: hi guys, i need help, okay lets say i decide to put solar panels near a place where its inhabitated by people, what kinda of environmental factors should i consider? Will the solar panels cause any damage to the enviromnent around it? Will it affect the plant and animals around it? should i consider the weather? its for my class so if u guys can help thankx.: You would need to consider how much sun your area gets on average. You would need to do a cost/benefit analysis to decide if you will be saving money eventually. Environmentally, it would not affect the plants or animals around it, except those it might block the sun from. Meaning, the grass growing in the shade of the panels will probably die out, but that goes for anything that would cast shade for the majority of the time. Solar panels are simply rechargers for the batteries it's hooked up to. No different than a cell phone charger affects the area, people or plants around it. If it is a worry, make some orgonite and place it around the panels. :)

Q: I have two solar panels and I have measured that they produce V by themselves. I am trying to generate .5V, but whenever I hook them up in parallel I get something like .02V. What it happening?: You are probably wiring them incorrectly: with the positive on panel A connected to negative on panel B; and the negative on panel A connected to the positive on panel B. If you want then connected in parallel, connect the positive on panel A to the positive on panel B and the negative on panel A connected to the negative on panel B. But you will only get vdc. You can't get .5 volts from two volt sources. You can get 2 volts by connecting the panels in series.

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