• RV Solar Panels - Small 180W A Grade Solar Panel HMOE High Quality System 1
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RV Solar Panels - Small 180W A Grade Solar Panel HMOE High Quality

RV Solar Panels - Small 180W A Grade Solar Panel HMOE High Quality

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Shekou
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TT OR LC
Min Order Qty:
7000 watt
Supply Capability:
1600000 watt/month

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  • Small 180w A Grade Solar Panel Hmoe High QualitySolar cell: High efficiency crystalline solar cell. Even if under weak light, the solar module can produce maximum power output.

  • TUV Standard Materials of solar panel

  • 1. Solar cell------conversion efficency of solar cells: 24%-17%.

  • 2. Front glass------3.2mm, high transmission, low iron, tempered glass. 

  • 3. EVA------excellent anti-aging EVA 

  • 4. TPT-------TPT hot seal made of flame resistance. 

  • 5. Flame------reinfored anodixed alumium flame.

  • 6. Junction box------Ip65 rated, high quality, with diode protection.

  • 1.what price for each watt?

  • it depends on the quantity, delivery date and payment terms,

  • 2.what is your size for each module? can you tell me the parameter of your module?

  • we have different series of panels in different output, both c-si and a-si. please take the specification sheet for your reference.

  • 3.Can you provide the peripheral products of the solar panels, such as the battery, controller, and inverter? If so, can you tell me how do they match each other?

  • Tempered glass: Anti- reflecting coating and high transmission rate glass increase the power output and mechanical strength of solar module.

  • EVA and TPT: Using high quality EVA and TPT to prevent destorying and water.

  • All frame: Without screw, corner connection. 8 holes on the frame can be intalled easily.

  • Junction box: Muti function junction box with water proof.

  • Long lifetime: 25 years; Less power decrease.

  • Good performance of preventing from atrocious weather such as wind and hails.

  • Resisting moisture and etching effectively, not effect by geology.

  • The certificate issued by international authority:ISO Quality Managerment System,CE,TUV,PV RECYCLE,VDE,UL(IEC61215 and IEC61730)   

Small 180w A Grade Solar Panel Hmoe High QualityProduct Warranty:

10 years for the workmanship 
12 years power output no less than 90%
25 years power output no less than 80%

Small 180w A Grade Solar Panel Hmoe High QualityQuality Focused
Making Reliable Products is the core business fundamental of our company. We implement an IEC complied quality system in the production for the unique purpose: Perlight ONLY DELIVERS RELIABLE SOLAR PRODUCTS. For more details please refer to Perlight Quality Control System.

Customer-centric Services
Perlight rounds out its service portfolio based on every customers demands, because we think the customers satisfaction is the motive force of growth for the company. Our skilled R&D engineers and customer support teams are always prepared to provide all-round services for our clients.

ISO Accredited Factory
With total area of 15000 m2, Perlights manufacturing factory operates under the ISO 9001 and ISO 14001 accredited management systems, which ensure the outstanding quality of our solar products and therefore guarantee the benefits of our clients.

TüV Certified Products
All of our solar panels have passed successfully the German TüV Certification Tests - the most rigorous and worldwide recognized quality standards.

System-wide Solutions
In association with partners, Perlight provides complete components for both on-grid and off-grid PV systems: from solar panels to batteries, combiner boxes, inverters, cables and mounting structures. This enables us to offer more customized PV solutions to our clients based on their various requests.

Professional Team
Perlight is created and managed by an experienced team recognized for their passion, professionalism and integrity. All of our executives have outstanding background in solar product manufacturing, corporate governance and international marketing. We work together every day for our aspirations: bringing better product experience to the clients, creating a world-wide respected brand and turning the business success of the company into the professional satisfaction of our employees. 

Small 180w A Grade Solar Panel Hmoe High Quality

Q: i was looking into making solar panels to reduce my electric bill, but i need to know how to actually hook it up.
nowing what to do with unused renewable electricity is always a dilemma – hooking up to the grid has to be the preferred option. If your residential home is grid tied, i.e. connected the electricity grid as opposed to off-grid and you are using solar panels to generate electricity. Then it makes a lot of sense to hook your solar panels to the grid, because instead of losing the unused electricity or having to maintain a bank of deep cycle batteries, you simply feed it back to the grid. You feed electricity back to the grid via your electric meter which measures the electricity in Kilowatt per hour. This has the effect of reversing your meter which in turn reduces your electricity bills and if you are generating a lot of electricity you could find the utility company owing you money! The Solar Powered System Therefore, your solar powered installation would look like this. The solar panel will connect to an “array disconnect” – you need an array disconnect for system maintenance because it allows you to easily shut off the power. The array disconnect is connected to an “inverter”. The solar panel generates DC power and the electricity from the grid is AC power. Therefore, you need an inverter to convert DC power to AC power. The inverter is connected to an “AC breaker panel”. This is the interface where your solar generated electricity meets the electric meter and allows you to feed electricity back to the grid. Now in most countries and states you are not allowed to tamper with the electric meter so at this point you should contact your local electricity energy supplier and ask them to supply an engineer to hook you up to the grid. If you have anything to add to this article or you have connected your system to the grid – tell us how you did it by writing a comment below.
Q: How do solar panels affect the power grid?
Solar panels can have both positive and negative impacts on the power grid. On the positive side, solar panels generate clean and renewable energy, reducing the reliance on fossil fuels and decreasing greenhouse gas emissions. They can also help to decentralize the power grid by producing electricity closer to where it is consumed, reducing transmission losses. However, the intermittent nature of solar power can pose challenges to grid stability and reliability, as energy generation fluctuates with weather conditions. Additionally, the excess electricity generated by solar panels at certain times can strain the grid if not properly managed. Overall, while solar panels offer significant environmental benefits, their integration into the power grid requires careful planning and management.
Q: Can solar panels be installed on flat surfaces?
Yes, solar panels can be installed on flat surfaces. However, for optimal performance, it is recommended to tilt the panels at an angle that allows them to capture maximum sunlight.
Q: If a solar panel (using 36 3x6 solar cells) puts out 60 watts, how many panels would I need (for a house) if I use a max of 2300 kWh in a month? I checked my electric usage for the past 2 years and the kWh is usually lower but I wanted to use the most kWh used (2300) for my question. Thanks!
One key piece of information missing is the average number of peak sun hours per day. This will vary by location. It is latitude, regional weather, and site shading must be considered. Another consideration is the loses. The 60 watt solar panel is a DC voltage. The 2300 kWh is for the AC power consumed. There are loses in the inverter to change the electricity from DC to AC. There are also loses for wire resistance, soiling of the panels, wire resistance, etc. To work out an example of the math, I'll use 5 peak sun hours and a total efficiency of 80%. The math can be worked out as a single formula but I'll break it into steps for you. (2300 kwh/month)(month/30.4 days) = 75.65 kWh/day (60 W)(5 psh)(80%) = 240 Wh/day = 0.24 kWh/day/panel # of panels needed = Energy use / Energy generated (75.65 kWh/day) / (0.24 kWh/day/panel) = 36 panels.
Q: Can solar panels be used on agricultural land?
Yes, solar panels can be used on agricultural land. In fact, utilizing solar panels on agricultural land has become increasingly popular as it provides dual benefits of generating clean energy while not interfering with the farming activities. This practice, known as agrivoltaics or dual-use farming, allows farmers to continue cultivating crops or raising livestock under the shade of solar panels, maximizing land use efficiency and diversifying income sources.
Q: Can solar panels be installed on forests or protected areas?
Yes, solar panels can be installed on forests or protected areas, but it requires careful planning and consideration to minimize the impact on the environment and wildlife. The installation should be done in a way that avoids clearing large areas of trees and minimizes disturbance to the local ecosystem. By adopting best practices and consulting with experts, solar panels can be installed on forests or protected areas in a sustainable and responsible manner.
Q: Im fourteen and looking for a career I already know solar panels capture the sun and turn it into energy but i would like to know more.
A solar panel is a collection of solar cells (photovoltaic cells) connected together and put in an enclosure. The solar cells work by taking advantage of the photovoltaic effect. The effect is that in a semiconductor P-N junction, when photons of suitable energy strike the junction, an electron and electron-hole pair are generated. This creates a voltage difference between the two sides. When this voltage is applied to a circuit, the electrons are able to flow through, creating usable energy.
Q: How do solar panels affect insurance rates?
Solar panels can potentially affect insurance rates in two ways. First, installing solar panels can increase the value of a property, consequently leading to higher insurance premiums to ensure adequate coverage for the increased value. Secondly, solar panels can be considered an additional risk factor due to potential damage or liability concerns associated with their installation or operation, which may also result in higher insurance rates. However, the extent of these impacts may vary depending on the insurance provider and specific circumstances.
Q: I want to get definate instructions on how to make the components and convert my home to solar energy. I know I could hire some one to do this, but frankly I do not have the funds at my disposal to do it. I thought if I could find detailed instuctions I could slowly do it myself (with my husband's help). I have looked into loans for this purpose to no avail. Finding the information on the net could take forever! If anyone knows a site that would give me the information or even a hint on how to start? Any help will be appreciated, but if you have any good links to good information please share them with me..Thanks
Typical solar panels like Engineer describes require a lot of space. A single panel may only light a single light bulb. You may want to look into a different way of generating electricity with solar, it doesn't use a cell to turn the sunlight into electricity, instead it uses mirrors to focus the sunlight onto a pipe between the mirrors. The heat causes water or another liquid in the pipe to boil and the steam created turns a turbine that produces the electricity. It has the potential to be less high-tech, more forgiving of minor design and structural problems and more affordable. I don't know of any system that is privately available but you can get more info at the link below. They're building a full test facility in Nevada right now. You could presumably cobble something like this up on your own.
Q: I want to replace my electricity with solar and wind. I live just right outside the city, the roof about 000 square feet. How many windmills/solar panels would it take to get me off the power grid?
Insolation, okorder okorder /... that are 420x420x25 mm so each unit is about .764 m3. If you used these to cover 500 sq ft then you would need (46.45/.764=) 263 of these panels at a cost of ($09.95 x 263=) about $28,953 plus wiring, plus brackets, plus an inverter, plus batteries, plus a battery management system and any labor or your time. Best of luck with it.

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