150W High-efficiency Polysilicon silicon solar module

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Product Description:

 

Quick Details

Place of Origin:

Guangdong China (Mainland)

Brand Name:

HUAYU

Model Number:

HYS-120WM36V

Material:

Monocrystalline Silicon

Size:

1196*669*35mm

Number of Cells:

72

Max. Power:

120W

Certification:

ISO/CE/TUV/UL

Application:

Home

Warranty:

20 years limited warranty on power

Solar Cell:

A-grade,high efficiency

Frame:

Aluminium Alloy

Glass:

Toughened Glass

EVA:

Highly Adhesive

Backsheet:

TPT/TPE(Block Humidity and Oxy Effectively )

Specification:

Normal

Packaging & Delivery

Packaging Detail:wood case and pallet
Delivery Detail:10 days

Specifications

solar module 100wp
High Quality Monocrystalline solar Panel 120W/36V,also provide solar power system

The Best New photovoltaic solar Panels mono , solar system,120W/36V, solar photovoltaic ,solar system,iso certified companies

 

Principle of solar system

 

 

 

solar module 100wp ,solar system,iso certified companies

 

A grade high efficiency solar cells. 
15 years limited warranty on material and workmanship 
20 years limited warranty onpower

 

Characteristics

Modules: HYS120WM-36V

Cell: Monocrystalline solar cells (156*61mm)

NO. of cell:  72(4*18)

Maximum power at STC(Pm): 120W

Open circuit voltage(Voc): 42.48V

Optimum operating voltage(Vmp): 35.2V

Short circuit current(Isc): 3.77A 

Optimum operating current(Imp): 3.40A

Dimension of module:     1196*669*35mm

Weight: 10kg

Certificate: ISO/CE/TUV/UL

 

STC:Irradiance 1000W/m2 ,Module temperature 25°C,AM=1.5                Blueprint of the module

 

 

Limits

Operating temperature: (-40 to +85°C)

Maximum System voltage: 1000VDC

 

 

Temperature and Coefficients

NOCT: (48±2)°C

Current temperature coefficients: (0.06±0.01)%/K

Voltage temperature coefficients: (-155±10)mV/K

Voltage temperature coefficients: (-0.5±0.05)%/K

NOCT:Nominal operation Temperature

 

 

Performance Warranty

15 years limited warranty on material and workmanship

20 years limited warranty on power output

 

 Output

Type of terminal: Junction box

Cable: LAPP(4.0mm2)

Asymmetrical lengths: 900mm

The publication summarises warranty and specifications which are subject to change without notice.

   

 

 

 

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Q:Solar Panel/Energy help?
The rating of a solar panel is a maximum continuous rating. A 200 Watt panel will give a maximum of 200 watts under ideal conditions. A computer and monitor use about 400 Watts. not per hour - watts is Volts * Amps and a measure of Power. In hour a computer and monitor uses 400 Watt hours (Wh). Wh is a measure of Energy. To power a lab of 0 computers you will need 0* 400 = 4000 Watts. To run this from solar panels through the day only you would need a 4000 Watt panel. Except - its cloudy, the sun is in the wrong place - many factors reduce the output. To be reasonably safe you would need about a 2000 Watt panel. Then you would need batteries to store power through dull periods AND a voltage converter to change from low voltage DC from the solar panels to the mains voltage for your computers.
Q:How would you connect a solar panel to a fan?
Solar Panel Fan
Q:Why do solar panels stop working?
If they get smashed, they won't work. Keep them clean, and they will last many years. I suppose there is a 'limit' to the effectiveness of the cells lifespan, but it must be more than 25-30 years. Just glass, metal frame and silica. No moving parts. Seems like a good deal.
Q:How to prevent shorting out solar panel?
Just cover the panel and cut the wire the voltage will be so low it would be like shorting out a battery
Q:How do you set up 30w solar panel?
With a 30 watt panel, producing about 2 amps, your not going to have much power from that. A 22 AH battery will give you 2 AH of usage. A battery should never be drained below 50%. What this works out to be is simply Amp draw for 2 hours. Which equals to 2V light bulb that draws amp for 2 hours. Not much. Now to replace that usage with your 30 watt panel, provided the panel is clean and in max sunlight, it will take 6 hours. If you attach an inverter to your system for 5 Volt Usage then the DC voltage drawn from the battery is very high. Example: Say you use a 5 Volt component that requires 50 Watts per hour to operate. The inverter will draw 5 Amps out of the Battery every hour to operate that component. That gives you and /2 of use before the battery is down to 50%.. Maybe that will be enough to charge up a standard Laptop battery. I have 2 30 Watt panels that produce 5 Amps, 4 6V batteries that have 480 AH and a 25 Amp Controller with a booster that increase the amp output to 20 Amps per hour. I live full time in an RV and raise the panels to get max output when I am parked. This system provides me with all the 5V throught the 500 Watt inverter that I need. Good luck on you system.
Q:solar panels?
For okorder.com/ for information on how to hooke it up your self. It is a DIY site.
Q:how to make a solar panel?
How to Make a Solar Panel – Everything You are Going to Need There are several things you’re going to need when making a homemade solar panel, some of the main components include: Solar Cells Wood Plate Soldering Iron Solder Tabbing Don’t worry; special tools are not required for this DIY ‘solar panel’ project, and you will probably have everything you need laying around the garage. Now let’s go over the recommended materials for a basic solar system: Plexiglas Solar Cells Screws Lumber Jones Plug Wire Diode Caulk Silicon Material
Q:Do you need to pay for electricity if you have solar panels?
No standard home can operate on solar panels alone unless there is about an acre or more of them. Plus, they require lots of batteries and complicated switching devices. And, they are very expensive, so rarely pay back their up front cost. Right now, more of a gimmick than a practical solution to power needs in the home. The house you're looking at may use it to power emergency lighting in case the grid went down. Or maybe a small fan to exhaust heat out of the attic. Who knows. Just have to ask.
Q:adding more solar panel & battery?
That charge controller is notoriously cheap and burns up easily. If you are going add solar panels, also buy another charge controller to go with them. They can both be connected to the same battery bank. I don't believe the kit comes with batteries, so you would buy whatever size 2V battery bank your power requirements call for. The size of the inverter depends entirely on what you are going to power with it, not the size of the panel array. As long as you are not powering anything that is over the 300W rating, you don't need a new one. Just be sure to check the details of the inverter, is it 300W continuous, or can it handle up to a 300W surge? Also, it's a modified sine wave inverter instead of a pure sine wave inverter, so don't plug any sensitive electronics into it. They may not work, or you may get a buzz or hum from it.
Q:Does infrared radition occur in solar panels?
Solar panels do heat up. But that's because the radiant energy from the Sun that lies within the infrared (IR) band of energy causes the material in the panels to heat up. And that's the same for any body that has the Sun shine on it. Your face, for example, will heat up while you get a nice tan on the beach. That's due to the heat producing IR radiant energy. Now if those solar panels are supposed to heat buildings etc., that heat produced in the panels when the IR strikes them will be transferred, usually by some fluid, to floors of the rooms to be heated. And as the amount of heat generated by the Sun is proportional to the area of the solar panels, bigger areas of panel will generate more heat than smaller areas. Photoelectric solar panels are another kind. Here the interest is in the visible band of radiant energy from the Sun. Heat, from IR, is still there, but it is not the product sought by PE solar panels. The visible light photons knock off loosely bound electrons from the photoelectric material (typically silicon based) and those electrons are siphoned off as current. That's where the electrical power comes from for buildings using PE solar panels to provide their own electricity.

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