High Efficiency Solar Panel 250W Solar Module 250W Solar Panel

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Shanghai
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TT OR LC
Min Order Qty:
11 watt
Supply Capability:
111111 watt/month

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Product Description:

 

1.Structure of Solar Module Description

The solar module is an off-gird solar power generator, designed to provide stable and reliable electricity to homes and communities without access to grid electricity or to those regions where are short of power or even without power. The solar module is convenient to move, easy to set-up with reliable performance, making it ideal for situations where emergency power is required. It is an ideal & reliable energy source for a wide variety of applications, ranging from lighting , radios, fans ,televisions ,computers ,refrigerator. The USB port is compatible with all 5V-USB charged devices. It can also act as a back-up power source during emergency situations. 

 

2.Main Features of the Solar Module

 1).High conversion efficiencies resulting in superior power output performance.

 2).Outstanding power output even in low light or high temperature conditions

 3).Optimized design for ease of soldering and lamination

 4).Long-term stability,reliability and performance

 

3.Solar Module Images

High Efficiency Solar Panel 250W Solar Module 250W Solar Panel

High Efficiency Solar Panel 250W Solar Module 250W Solar Panel

 

 

4.Solar Module Specification

Power range:220w-270w

 

Module

PLM-235P-60

PLM-240P-60

PLM-245P-60

PLM-250P-60

PLM-255P-60

PLM-260P-60

Pm

235

240

245

250

255

260

Vmp

30.64

30.89

31.29

31.73

31.92

32.1

Imp

7.67

7.77

7.83

7.88

7.96

8.1

Voc

37.18

37.35

37.42

37.58

37.73

37.92

Isc

8.34

8.38

8.45

8.49

8.52

8.64

 Maxium system voltage     1000VDC

STC:Irradiance 1000W/m², Temperature 25°c,AM=1.5

  

Mechanical Characteristics:

Cells size(mm)

156X156

Modules size(mm)

1650X992X46

No. of cells

60(6X10)

Weight(KG)

19.6

No.of mounting holes

8

No.of waterspout

16

 

Temperature Coefficient:

NOCT

45°C±2°C

Temperature coefficient of Isc

0.05%/°C

Temperature coefficient of Voc 

-0.33%/°C

Temperature coefficient of Pmax  

-0.44%/°C

Power Tolerance

0/+3%

Working temperature  

-40°C to 85°C

 

Qualification Test Parameters:

Temperature cycling range                 

-40~85                    

Humidity freeze, damp heat                                   

85%RH       

Static load front and back (e.g. wind)                        

2400 pa (50psf)    

Front loading (e.g. snow)                                  

5400 pa (113psf)  

Hailstone impact                          

25mm ( 1 inch) at 23 m/s (52mph)  

 

 

 

5.FAQ of Solar Module

1). Q: Are you a factory or trading company?

A: We are a factory.

2). Q: Where is your factory located? How can I visit there?

A: Our factory is located in Jiangyin, Jiangsu, China, near Shanghai. You are warmly welcomed to visit us!

3). Q: How can I get some samples?

A: Please connect me for samples

4). Q: Can the price be cheaper?

A: Of course, you will be offered a good discount for big amount.

 

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Q:solar panels?
answering b) your home circutry won't be able to handle solar power energy (or your circut breaker,it will start cuttin out every 5 min)you would have to replace your home circutry(that costs a LOT of money, over $8500)
Q:Mono-crystalline or poly-crystalline solar panel?
All solar photovoltaics drop in efficiencies with higher temperatures but it isn't the 45+ C you have to worry about but rather the heat from the sunlight striking the panels. There are hybrid systems which passes water in pipes attached to the back of the solar panels to cool the panels and preheat the water for solar thermal collectors. The difference between mono-crystalline and poly-crystalline are that mono-crystalline are more efficient and more costly to make.
Q:What is the difference between monocrystalline & polycrystalline solar panels?
The polycrystalline solar panel has a longer life-span and has a higher efficiency. What this means is that from the energy that 'hits' the solar panel, more is caught and used to convert into electrical energy. A polycrystalline solar panel will have an efficiency of about 4%. The monocrystalline solar panel has a similar efficiency but the cells are prone to sunlight, so the efficiency drops over the years.
Q:can i make a solar panel out of aluminum foil?
You can't make a solar panel to generate any reasonable amount of electricity from that. You need a semiconductor to start with, in order to have something that can generate free charge carriers(electrons and holes) from photons. Then you need a junction which can separate the charges. In principle you could make a Shottky Diode solar cell from copper if you could find a doped semiconductor to bond a sheet of it to the copper. To form a decent electric field there should be a significant difference in work functions between the copper and the semiconductor, this will generally require the semiconductor to be doped. On top of this you would need a transparent conductor (most used are things like ITO or other 'TCOs' - Transparent Conducting Oxides) to be the top electrode to inject replacement charges into the semiconductor to replace the effect of recombination current. In summary, it's difficult to DIY. You generally need complicated machinery to get decent crystal growth and/or doping.
Q:how do buildings circulate energy?
The answer depends upon the type of solar energy captured . Photovoltaic Solar Panels convert the energy into electricity. This electricity is ran throughout the building via wires. Thermal Solar Panels typically capture the energy in the form of heat. The hot water is circulated through the building in water pipes.
Q:Can I build my own Hot Water Solar Panels?
If you are just looking for hot water, you can build your own water pre-heater with copper tubing, mirrors, black engine paint, wood for an enclosure, and glass to cover the enclosure. I have seen plans online but cannot recall just now where. I've included some links below that you might want to check out. Also, you may want to check on tax rebates in your area for using solar. In some areas you can get rebates to pay nearly 00% of the cost. Or search for how to build a solar water heater for a LOT of online sites. One caution, do NOT use water directly from a solar water heater as it can be hot enough to burn your skin.
Q:Solar Energy Panels, a good idea?
Hi okorder.com
Q:question about Solar Panels?
Assuming that you have / will upgrade wiring sizes to carry the extra wattage, that the new total wattage resulting from the addition doesn't overload any existing charge controller, diodes and / or inverter you have installed, then paralleling it straight into one of the other 2 volt groups should do nothing but add current to the system. True, it will be somewhat imbalanced, but it will work. Your other options would be to reconfigure everything down to it's native 2 V configuration which will raise current and lower voltage, with the additional panel creating the additional current to raise the wattage or to put it in series with the other 4 panel clusters so that you would get 36 V and additional current to account for the raised wattage. One last approach might be to set it up on another battery bank of it's own (small and at 2 V) to then connect to the same inverter. You'd be getting more power and storage capability that way, sort of a partial backup system, really, that will take some of the load off the other components to help extend their useful lives and get a bit more flexibility into it as well. The choice is yours here. That is all the ways that the system can be connected in, assuming everything in the first sentence checks out;-) It's difficult to make a recommendation without knowing what other components are in use and what the maximum ratings they carry are. Just remember that parallel connections add current and voltage stays the same, series connections add voltage and the current remains the same and you can figure out what to do with this thing to help you if you stay within maximum ratings for the charge controller, diodes and / or inverter involved. Good luck and stay safe!
Q:What capacity solar panel do I need to charge batteries with a total capacity of 25,000 mAhours in 8 hours?
WIRE THEM IN PARALLEL BUT MUST VIA ONE BLOCKING DIOED FOR EACH 4V BATTERY BANK ( LIGHT) BETWEEN SOLAR PANEL OUTPUT TO EACH BATTERY BANK. DIODE USES LIKE N5404 THAT CAN HANDLE 3A OR HIGHER IS BETTER. TOTAL AH = 9.8 AH FROM ALL 4 LIGHTS. NOT 25AH FROM YOUR MISTAKE RATE. TO CHARGE THEM FULLY IN 8 HOURS, CHARGING CURRENT AT LEAST .3A BUY SOLAR PANEL HAS OUTPUT 6V 2A ( OR 0W ) IS GOOD ENOUGH.
Q:Solar-Cell-panel help please?
I hope this will help you choose your charge controller / battery charger more effectively. Good luck!

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