140W/145W Solar Panel with IEC MCS Certificates

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Item specifice:

Material: Polycrystalline Silicon Max. Power(W): 145 Number of Cells(pieces): 64

Product Description:

140W/145W Solar Panel with IEC MCS Certificates


EC, MCS (UK), CE, CEC (Australia), INMETRO, IDCOL, SONCAP CERTIFIED

- [EU ANTIDUMPING DUTY-FREE] 

- PROFESSIONAL SOLAR PANEL MANUFACTURER SINCE 2004 

 

FEATURES

`Long Service Life

`High Efficency Solar Cells

`Special Aluminum Frame Design

`High Transmission,Low Iron Tempered Glass

`Advanced Cell Encapsulation

 

APPLICATIONS

`Solar power stations

`Rural electrification, Small home power systems

`Power supply for traffic, security, gas industry

`12V and 24V battery charging system

`Other industrial and commercial applications

 140W/145W Solar Panel with IEC MCS Certificates

ELECTRICAL CHARACTERISTICS 

Model   Number                           


KM130(6)

KM135(6)

KM140(6)

KM145(6)

KM150(6)

Maximum Power as per   STC     

Pmax(W)

130

135

140

145

150

Power   Tolerance                        

%

±3% 

Maximum Power   Voltage            

Vm(V)

17.96

18.14

18.36

18.15

18.28

Maximum Power   Current             

Im(A)

7.26

7.45

7.65

7.99

8.21

Open Circuit   Voltage                  

Voc(V)

21.6

21.74

21.96

21.72

21.9

Short Circuit   Current                  

Isc(A)

7.83

8.04

8.17

8.69

8.93

Maximum System   Voltage           

VDC

1000

Cell   Efficiency                            

%

15.0

15.5

16.1

16.7

17.3

Module   Efficiency                  

%

12.9

13.4

13.9

14.4

14.9

Cells per   Module                         

Pcs

36

Cell   Type                                     


Monocrystalline silicon

Cell   Size                                       

mm

156 x 156 

Bypass   Diodes                             

Pcs

10Amp, 2 pcs

Max. Series Fuse   Rating              

A

10A

Temperature coefficient of   Isc      

%/°C

0.05

Temperature coefficient of   Voc    

%/°C

-0.35

Temperature coefficient of power 

%/°C

-0.47

NOCT- Nominal operating cell   temperature 

°C

47 ± 2

Operating   Temperature              

°C

-40 ~ +85

MECHANICAL CHARACTERISTICS 

Dimensions                      

mm

1480 x 680 x 35

Weight                                       

Kg

11.6

Type of Junction   Box                 


TUV certified, IP65

Cable Type,   Diameter             


 -

Connector                                  


 -

Tempered   Glass                    


3.2 mm, high transmission, low iron

Packing 

140W/145W Solar Panel with IEC MCS Certificates

140W/145W Solar Panel with IEC MCS Certificates

FAQ

1. What kind of Solar Cells does it have

---poly crystalline 156*156mm and 125*125mm or mono 125*125mm and 156*156mm

 

2. Is the front panel Glass or Plastic

---Tempered glass 3.2mm thickness or adjust to what you need, Light transmittance up to 95%.

 

3. Does it meet Europe Standards for Solar Energy

---This is TUV approval products, all the producing procedure apply TUV&UL.

 

4. What is the Efficiency level

--- Between 16-18.9% for solar cells.

 

5. What is the Nominal Voltage

--- 18v 20v 24v 36v 30v 48v , and so on, we can adjust to what you need.

 

6. What is the Warranty Period, How many years?

Power efficiency warranty:

---90% in 10 years; 80% in 25 years.


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Q:how do i fix my solar panel? please hurry i need it for my science fair project?
leave the car in the sun for a few hours to see if it charges. if not, the panel is defective. get it replaced b4 the science fair
Q:Can I plug a solar panel into a wall socket to lower my electric bill?
You're quite right that the solar panel can't be directly connected. I sense that you want to start small, but unfortunately, it's hard enough to make a system with a dozen or more panels pay back. (It can, we have a system...) But with just one panel, maybe a small one, the economy of scale is gone. You need to buy a grid-tie inverter, which watt-for-watt will be more expensive than a regular size one, and for a small panel, the $$/watt value will be poor. There are some [illegal in most places] tiny grid-tie inverters that I see advertised on the web from time to time, with an ordinary plug that goes into the wall. Those are generally against electrical codes, and the danger is real. There is also a crop of micro-inverters being sold by companies such as Enphase. These are legitimate products, but will still be costly per watt, and ultimately, it will be hard to have a net savings over time with just one panel. Have you already taken the conservation steps like LED light bulbs, efficient appliances (especially refrigerator), insulation, and using a power strip to turn off loads that are not being used? That stuff isn't sexy, but saves money fast.
Q:0W solar panel can use on what?
Graham is on the right track. However, you need to factor in a 80% DC to AC conversion loss. But yes a 0W CFL is about the size of it... Harbor Freight sells a system consisting of panels, battery, inverter, and TWO CFL's for $250. (You can power 2 CFL's off the grid for a very long time for $250)
Q:how to chose the right solar panel for my home?
One will give you enough DC voltage to light a 25 watt light bulb, [ one 45 watt panel is around $400. ] Now if your wanting AC voltage You have to buy a inverter, 5 or 6 deep cycle batteries, a switch Cables to transfer the voltage, a place out side to store the batteries, instalation brackets for the roof A Permit to Install them
Q:Solar Panel Current=Battery Current+Load Current?
Current rating of a piece of supply equipment is the maximum current that can be supplied. you may have the capacity to supply 8.75 amps total but your load may draw a lot less than that. like if you fill your cup from a bottle. the bottle may hold 5 gallons but you only use one quarter of a pint to fill the cup. I hope that makes some kind of sense.
Q:Has anyone used portable solar panels for home use?
I think you'd be disappointed. But you might be able to take an RV, park it close to your house in the sunshine, run an extension cord from your house connected to a small fan and run the fan for free. I don't think it's worth the expense of the RV, but that's me. If you have the money, flaunt it baby, flaunt it.
Q:I have a 6v solar panel , but a 3v dc motor doesn't run with that!!!!?
It may well be that the motor demands more *current* than the panel can provide. Can you measure the voltage from the panel with the LEDs across it, and then with the motor across it? I suspect that you'll find that the motor makes the voltage collapse.
Q:solar panel??????????????
The only real purpose of solar panels these days is to charge batteries - they just don't generate enough energy to do anything else and its dependent upon light levels - ergo you need the backup. Also - very expensive.
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:Are solar panels actually efficient?
There is not a yes or no answer. But for the majority of the population it is a definite no. Because the energy needed to make a solar panel is more than the energy that a solar panel can return in its life time. so No for cities and urbanized areas because there is already existing infrastructure therefore you'll be wasting more energy getting them installed. And it is better and more efficient to have the more common energy sources for populated areas. However that being said it would be more efficient if you live in a remote area as it would not be worth it to build a huge electricity grid just to power one small house in the middle of no where.

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