Solar Monocrytalline Series Ⅱ (210W-----225W)

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1000 watt
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20000000 watt/month

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Item specifice:

Material: Monocrystalline Silicon Max. Power(W): 225 Number of Cells(pieces): 0
Size: 1482X992x40 mm Cell:Monocrytalline Cell 156X156 mm: Packing:720 Pcs/40ft Container Weight:17kg: Tolerance:0~+5W

Product Description:


1.Structure of Solar Module Description

At present, the crystalline silicon materials (including polycrystalline and monocrystalline silicon) is the main photovoltaic material, its market share of over 90%, and in the future a long time also is still the mainstream of solar cell materials. Polysilicon material production technology for a long time to master in three countries such as America, Japan, Germany into the hands of seven companies 10 factories, forming technology blockade, the condition of market monopoly. Polysilicon demand mainly comes from the semiconductor and solar cells. According to the requirements of the purity is different, divided into electronic level and solar energy. Among them, to the electronic level polysilicon accounts for about 55%, solar energy polysilicon (45%), with the rapid development of photovoltaic industry, the demand for polysilicon solar cell is growing faster than the development of semiconductor polysilicon, more than 2008 solar polysilicon demand expected to electronic grade polysilicon. Only 69 mw solar cell production worldwide in 1994, and is close to 1200 mw in 2004, increased by 17 times in just a decade. Experts predict solar photovoltaic industry in the 21st century first half will become one of the most important foundation energy than nuclear power.

2.Characteristics  of the Solar Module


Max Power Voltage Vmp (V)27.627.928.228.6
Max Power Current   Imp  (A)7.607.707.807.85
Open  Circuit Voltage  Voc (V)33.033.333.733.9
Short  Circuit Current  Isc (A)8.488.618.718.85
Max Power Pm(W)210215220225

3.Limits of the Solar Module

  1. Operating Temperature   ﹣40℃to+85℃

  2. Storage Temperature      ﹣40℃to+85℃

  3. Max System Voltage         1000VDC(IEC)/600VDC(UL)


4.Specifications of the Solar Module



the Solar Module


Monocrytalline Cell 156X156 mm


720 Pcs/40ft (H) Container






5.Applications of the Solar Module


2.Heat energy


6.IMages of the Solar Module


Solar Monocrytalline Series Ⅱ (210W-----225W)

Solar Monocrytalline Series Ⅱ (210W-----225W)

Solar Monocrytalline Series Ⅱ (210W-----225W)



1. Q: Do you have your own factory?

    A: Yes, we have. Our factory located in Jiangyin city, jiangsu province.

2. Q: How can I visit your factory?
    A: Before you take off from your country, please let us know. We will show you the way,or arrange time to pick you up if possible.
3. Q: Do you provide free sample?
    A: Usually we do not offer free sample

4. Q: Could you print our company LOGO on the nameplate and package?

    A: Yes, we can do that.





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Q:What factors effect the amount of electricity produced from solar panels?
It depends on what you mean by amount of electricity. Normally that would mean the total energy produced over a given period. In that case, the main factors are ) Efficiency of the solar cells 2) Total irradiation received: incident radiation density times the solar panel area, and the angle of the incident radiation. Item ) is determined by the materials and method of construction of the solar cells Item 2) depends on the location of the panel, both on earth's surface (latitude), time of year, and how the panel is oriented with respect to the horizontal. Altitude of the location can also be a factor. Prevailing weather conditions, number of cloudy days, etc. are important. Independent of these parameters, larger area means more electricity.
Q:Solar panels with snow?
Good news and not so good news. You need to be able to access the panels to clean the snow off. There is not any heat generated other than the heat of the sun hitting the black colour - which would amount to some melting ability during a sunny day - but it isn't sunny when it snows! Apparently, solar panels work better in the cold and where snow can reflect light so to increase the amount of light - photons - hitting the panel.
Q:someone knows about solar panel?
Q:Mitsubishi Solar Panels For Home Installation: How Much Do The Panels Cost?
Mitsubishi solar panels are sold in pairs. I was in the market this week, checking on solar panels to install in my own house / workshop. Here's the price list I got from online and wholesale dealers for a pair of Mitsubishi panels: * Model MF20EC4 (20 watts) -- $590 * Model MF25UE5N (25 watts) -- $60 * Model MF75MF5 (75 watts) -- $799 * Model MF80UD4 (80 watts) -- $820 * Model MF85UD5 (85 watts) -- $850 BP Solar, PowerUp Solar GE Solar too have their own panels with a low-to-high price range. Go for BP solar panels as they're more affordable for home installation and good value for money.
Q:How do passive trackers work (for solar panels)?
It appears to be relying upon a phase change of liquid to gas to liquid to balance the system and return it to the east in the morning.
Q:how much is one solar panel?
no one has answered because you asked a question that cannot be answered. It is exactly the same question as how much is a car?. Do you want a passive solar heating panel, a solar electric panel, .5 Volts, ,000,000 BTUs, do you want just the panel or the panel installed and functioning, or what? the answer is between $5 and $5,000,000.
Q:How to hook up a Solar Panel To a single outlet?
That solar panel puts out about amp (in round numbers). If you are talking about a 20vac outlet, you'll have to send the output of the solar panel through an inverter. That brings it up to 20vac. 20 watts at 20 volts means you'll only be able to draw 0.6667 amps. With an inverter at 85% efficiency, you'll only get about 0.4 amps. That would barely light a CFL. 20 watts of power at 7 volts = amp (in round numbers) 20 watts of power at 20vac = 0.6667 amp (in round numbers) Power (watts) = current x voltage. If you increase voltate, you must decrease current to get the same watts. Watts is the common denominator in power measurement.
Q:Solar panel technology?
It isn't really that simple. First you have to decide if you are going to use it after dark and in cloudy weather. If so you are going to need batteries to store power. You are also going to need an inverter to convert the direct current, low voltage power to 20 volt alternating current. Once you have made those decisions you need to determine power requirements. Look at the back of each piece of equipment and find the wattage rating for the device. Add them together and you will have a starting point for power consumption. Since you will want to charge the batteries during daytime and you have parasitic drain from the inverter use you want to increase that number by 50%. When selecting the number of panels you want you have to assume they will not operate at the optimum they do deteriorate over time so de-rate them by about 50%. Once again, look at the data plate to determine wattage and get enough panels to meet the power requirements using the criteria I have mentioned.
Q:Solar Panel Watts?? help!?
Ok, seeing your icon is a female, I'll take a chance and offer a possible conversion factor. In diets, you count calories. When you exercise, you burn calories per minute or hour. In one exercise session you burn a total number of calories. And remember, 000 calories = kilo-calorie = food calorie. Same with solar panels and electrical power (same stuff, different units). Solar panels come in many watts sizes, like different foods and portions have different calories produced. When these panels are exposed to sunlight, they will generate this amount of watts for as long as you expose them (the units are kilo-Watt-hours), basically, like burning calories on a bike for an hour burns a total of x calories for that hour. If you have a 2-hour day, then a 00 watt panel will generate a possible total of 2 hours x 00 watts = 200 watt-hours = .2 kilowatt-hours. Just like calories burned during regular exercise varies over the year and your mood, the solar panels will generate varying level of power (watts) depending on the weather. And just like you burn calories at different rates by age and lifestyle, an average house power use is dependent on geographic location, size of house, number of occupants, etc. No real typical profile. I would recommend you get some personalized help in sorting out your power needs, A contractor/installer can give you a quote/estimate or general class of use. A second or third quote would keep you first estimate honest. Good luck!
Q:solar panel for computer?
Yes. Basically, here's what you need (I'm keeping this general on purpose): The panels themselves -- how large an area depends on average power consumption and how much power you can get on average. That, in turn , depends on climate. You'd need more in Seattle than Tuscon, for example. I'd guess something in the neighborhod of 0 square feet. Depends also on haow many gadgets (printers, etc.) you have. You'll need a power storage system. Lithium gives you the best poser density (of off-the-shelf stuff) but an ordinary car battery works well and is reliable. And, of course, a control system to manage the power generation/storage/use so everything works together without that annoying smell that tells you you just cooked a few hundred bucks worth of equuipment! :)

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