Monocrystalline Silicon Solar Modules 10Watt

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Shanghai
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TT or LC
Min Order Qty:
100 watt
Supply Capability:
3000000 watt/month

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Product Description:

Mono-Crystalline solar panel, Mono 125 cell, 36pcs cut cell 10w

 

1. Structure of Monocrystalline silicon Solar Modules 10Watt Description 

Quality and Safety

1. Rigorous quality control meets the highest international standards.

2. High-transmissivity low-iron tempered glass, strong aluminium frame.

3. Using UV-resistant silicon.

4. IS09001/14001/CE/TUV/UL  

 

Warranties

1. 10 years limited product warranty

2. 15 years at 90% of the minimal rated power output

3. 25 years at 80% of the minimal rated power output

 

2. Monocrystalline silicon Solar Modules 10Watt  Specification

ITEM NO.:

mono 125 1/9 cell,36pcs . Power 10W
Maximum Power(W) 10wp
Optimum Power Voltage(Vmp) 17.8
Optimum Operatige Current(Imp) 0.562A
Open Circuit Voltage(Voc) 22.2v
Short Circuit Current(Isc) 0.601A
Solar Cell:125*1/9 Mono 
Number of Cell(pcs)2*18
Brand Name of Solar Cells JA Cell, Bluesun Cell
Size of Module(mm)330mm*290mm*28mm
Caple & Connector TypePass the TUV Certificate
Frame(Material Corners,etc.)Aluminium-alloy
Backing (Brand Type)TPT
Cell Efficiency for 150W(%)16.90%
Weight Per Piece(KG)1.2KG
FF (%)70-76%
Junction Box TypePass the TUV Certificate
Tolerance Wattage(e.g.+/-5%)3%
Front Glass Thikness(mm)3.2
Temperature Coefficients of Isc(%)0.0024
Temperature Coefficients of Voc(%)-0.356
Temperature Coefficients of Pm(%)-0.46
Temperature Coefficients of Im(%)0.04
Temperature Coefficients of Vm(%)-0.38
Temperature Range -40°C to +85°C
Surface Maximum Load Capacity2400Pa
Allowable Hail Load23m/s ,7.53g
Bypass Diode Rating(A)12
Warranty90% of 10 years,80% of 25 years.
Standard Test ConditionsAM1.5   1000W/m² 25 +/-2°C
Packing carton or pallet
1*20'20 Pallets / 250pcs
1*40'STD40 Pallets / 500pcs

 

3. Detail picture of Monocrystalline silicon Solar Modules 10Watt

Monocrystalline silicon Solar Modules 10Watt

 

4. Packaging&Shipping of Monocrystalline silicon Solar Modules 10Watt  

Packaging

** Normally packing: 1pc/2pcs/3pcs/10pcs/25pcs per carton

** Individual packing requirement is acceptable.

 

Shipping

By Sea

Delivery from Shanghai or Ningbo seaport
By AirDeparture from Shanghai Pudong Airport
By ExpressPost by DHL, EMS, UPS, TNT.

 

5. Certificate of Monocrystalline silicon Solar Modules 10Watt

Monocrystalline silicon Solar Modules 10Watt

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Q:How do you make solar panels?
it takes a ton of them to power a home most only put out 45 watts, [cheaper ones] solar is not cheap its more expensive than electricity
Q:How many LED's can I hook up to my mini-solar panel?
You need to answer that by designing circuits to provide each LED with its specific voltage and current requirements, and then see how many you can supply.
Q:Is there anyone trying to create a cheaper and more efficient solar panel?
The cheapest will be solar paint where you lay down some wires and paint the panel on. Solar roof tiles are also coming along but each tile has to be wired in. Currently the target is $ a watt. The efficiencies of these panels are very low but if the cost is low enough then the efficiencies won't matter. Keep in mind that even fossil fuel is solar power, just solar power captured by photosynthesis millions of years ago, and photosynthesis has a maximum theoretical efficiency of 6.6% with most plants achieving less than % efficiency so even an inefficient solar paint already outstrips our current energy sources in terms of efficiencies. The real problem is the business model. With solar energy you can sell the panels upfront but then what do you do for an income whereas with fossil fuels, you sell every kwh and bill each month.
Q:Connect Power Outlet to Solar Panel?
You will need at least 500 W of solar panels (probably more to cope with cloudy days), and a DC to AC inverter. Since you're going to 8pm you *may* want a battery bank system too for those shorter winter days.
Q:Are DIY Solar panels legitimate for saving electricity?
Your location could effect this answer significantly.If you are in an area that requires considerable amounts of heating,and you are looking to save some money with a homemade project,try solar-thermal.S-T is easy and cheap ,can be built from common scrapyard materials,and will give you a great knowledge gateway . The orientation and tracking skills you will learn can be used later with PVs if you choose,or you can make better concentrators for the solar-thermal and build yourself a sterling or rankin cycle engine to generate electricity.If u need heat,or even hot water, u can start saving the money u put into the system immediately. Concentrated PV is here and now ,but, in a year or 2 it will be cheap and readily available and thats when PV will start to approach the efficiency of solar-thermal.there a great sites and groups on just S-T out there ,join 'em,check 'em out,read the free info from those who have built working systems,and you will probably find a more useful method of saving money and the planet at the same time.Just remember to approach it as a hobby/learning experience at first.Start with solar-thermal....theres a reason the anti-greenies point at the ROIs on PVs,great arguement against alt energy,but over the last 30 years I've shut up quite a few skeptics with my solar-thermal projects ,esp. when coupled with geothermal...have fun,make a local scrapyard owner/worker ur freind..................GEOD
Q:Why are solar panels still so expensive?
Photo okorder.com/... Notice it costs over $200 and it takes up a sizable amount of space. Plus you have to expose it to bright sun light. Over all this is not something the average consumer wants to spend money on or fuss with. If something is expensive, difficult or inconvenient to use then people won't use it. Just the basic economics of such a device limits its sales never mind its functionality and usability. Even if you made a small one buit into the cover to extend the battery you won't get much of an extension and you will increase the cost of your laptop. Consider how people shop, will they buy the more expensive laptop for a questionable amount of battery extension? Mass production can lower costs but in order to mass produce something you need a demand that will consume what you produce. But if no one wants the item because of the aforementioned issues than you can't justify mass producing the item. This is like the classic which came first Chicken or Egg problem, one doesn't happen without the other. Cost reduction doesn't happen without consumer demand. This is where tax incentives, subsidies, low cost loans and energy buyback contracts come into play in order to spur on demand and jump start mass production. You could also make electricity extremely expensive by taxing oil and carbon so that a Solar Cell becomes economically competitive to very expensive electricity. Problem with this option is the negative impact high energy costs have on economic activity. Just look at what happened a couple of summers ago when gas hit $4/gal. To spur on demand we need to incentives the use of Solar cells (and other alternative energy). This can be done through several means such as subsidies, tax incentives, low interest loans, energy buyback contracts etc...
Q:How much energy does it take to make, install, and eventually dispose of a solar panel?
The attached link is to an article from the 200 Home Power magazine. In that article the energy payback was found to be between 2 and 4 years. Newer panels are more efficient primarily because the silicon wafers used today are thinner. The silicon cell embodies most of the energy required to make a solar panel. Today most solar panels will produce the amount of energy required to manufacture them in between about 9 months and 2 years depending upon the specific technology used to make it. Solar panels are expected to produce energy for between 30 and 50 years. Therefore it takes around 5% of their total energy production to produce them. Note that these figures depend upon where the panels are installed. Panels in very sunny areas may generate more than 3 times the energy of panels in a cloudier area. Edit - The energy payback meta-study that carbonates references below mention one particular study Alsema (2000), which the authors used as a baseline to come up with their 4 year payback figure. These studies DO NOT assume ideal conditions. The Alsema study assumes an annual an irradiation of 700 kWh/m2/yr. That is the United States average irradiation and does take into account cloudy weather and the like. Under idea conditions the amount of energy collected can be almost twice as much. Albuquerque New Mexico is an example. The figures I mentioned above are recent values reported by several different panel manufacturers with whom I discussed the issue at the 2006 IEEE 4th World Conference on Photovoltaic Energy Conversion held this May. The very long payback times that carbonate highlights are almost certainly wrong. The study he references concludes that paybacks range between 2 and 8 years with 4 years being the most likely. In my opinion payback times are actually a fair bit shorter based on conversations with the manufacturers.
Q:solar panel roofing?
The solar panels are very expensive to provide much power. If u go that way do not skimp on the support as a high wind will blow them away. In Ecuador I put in a remote site for communications. It was working good when a Strong wind blew $0.000 worth of solar panels all over the jungle.
Q:Opinions on Solar Panels?
I have a boat in a sunny place and four 80 watt panels. These will run my fridge Tv and a few LED's. I still have to run my engine for hot water and washing machine. My Batteries only last a few years and are a real pain. I go on the mains when I can to get the batteries topped up. The panels are ok if there is nothing else, they are not the answer to the future of energy supply. There is also the moral aspect of the feed in tariff. For the rich to load their electricity bill onto the less well off is not acceptable and those panels on the roof tell all your neighbors that you are doing it. That will show a greedy selfish attitude. If they are any good why don't the power companies buy them and save buying coal?
Q:QUestion about portable Solar Panels.. Mine is 2v?
Like others have reported, the voltage may well be 2v, however the amperage is approximately .0 amps Thats the capability of photograph voltaic. relatives shops are monsterously greater useful. yet, the voltage is there, and the amperage is there, including that's- so, that photograph voltaic panel might desire to cost up a monetary business enterprise of four 2v batteries under pressure jointly in parallel.... it in simple terms could take approximately 3 weeks. it can be a great trickle cost. I play around with little 6v photograph voltaic cells, and in case you choose to work out it artwork, positioned a huge can capacitor around the photograph voltaic cellular leads for a minute or 2, then touch the capacitor to the motor leads... it is going to turn- proving the capability is actual. you in simple terms desire the Capacitor to save it up for slightly. interior the tip all of us have been given spoiled on the quite extreme performace capability of plug in electrical energy and chemical cellular batteries. Given the designed capability of those, any option source of capability is confident to be disappointing.

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