Solar Modules Mono-crystalline 125*125 260W Module
- Ref Price:
-
- Loading Port:
- Tianjin
- Payment Terms:
- TT or LC
- Min Order Qty:
- -
- Supply Capability:
- -
OKorder Service Pledge
OKorder Financial Service
You Might Also Like
Solar Module Descriptions:
Our modules are high efficiency photovoltaic modules using silicon nitride coated polycrystalline silicon cells. The solar module can produce maximum power output, even under weak light. It is able to resist moisture and etching effectively, and not affected by geology.
Electrical Characteristics
Max-power (W) | 260 |
Max-Power Voltage (V) | 52 |
Max-Power Current (A) | 5.01 |
Open-Circuit Voltage (V) | 62.9 |
Short-Circuit Current (A) | 5.50 |
Mechanical Characteristics
Cable type, Diameter and Length | 4mm2, TUV certified, 1000mm |
Type of Connector | Compatible with MC4 plug |
Arrangement of cells | 6*12 |
Cell Size | 125*125 |
Dimension | 1580*1069*45 |
Weight | 20.5Kg |
Glass, Type and Thickness | High Transmission, Low Iron, Tempered Glass 3.2mm |
Features
Guaranteed positive tolerance 0/+5w ensures power output reliability
Strong aluminum frames module can bear snow loads up to 5400Pa and wind loads up to 2400Pa.
Excellent performance under low light environments (mornings evenings and cloudy days)
12 years for product defects in materials and workmanship and 25 years for 80% of warranted minimum power.
Certifications and standards: IEC 61215.
Manufactured according to International Quality and Environment Management System (ISO9001, ISO14100).
FAQ
Q: What kind of loads can I run on PV?
With a correctly designed PV system you can power almost any electrical load. However, as the load size increases the expense also increases. Loads like hot water heaters, air conditioners, room heaters and electric stoves should be avoided. The added cost of trying to power loads like these is very cost prohibitive. If these loads have to be powered it will be a lot less expensive to change the appliance to use an alternative fuel type like propane.
Q: When do I need a charge controller and why?
The safest way to figure out if you need a charge controller is to take Battery Amp Hour Capacity and divide this by the Solar Panel max. power amp rating. If the quotient is above 200, you don't need a controller. If the number is less than 200 than you need a controller.
For example if you have a 100 amp hour battery and a 10 watt panel, you take 100 and divide it by .6 (600mA) and you get 166.6. Since this is less than 200 you need a charge controller. If you have a five-watt panel in the above example you take 100 divided by .3 (300mA) and you come up with 333.3. Since this is larger than 200 you do not need a charge controller. However you still need a blocking diode, to prevent the battery from discharging to the panel at night. So as a general rule of thumb you don't need a charge controller unless you have more than five watts of solar for every 100-amp hours of battery capacity.
Q: What is PV & how does it work?
PV stands for photovoltaic. Photo = Light and Voltaic = Electricity. A solar cell converts light to electricity.
A solar cell is made of silicon. Computer chips are made of this same material. Basically, when light strikes the surface of a solar cell some of it is absorbed into the silicon. This light energy bumps the electrons loose and causes energy to flow.
By packaging approximately 36 solar cells together a solar panel or a solar module is created. When you have more then one solar panels you create a solar array.
- Q:What is the purpose of the battery equalization feature on a solar controller?
- The purpose of the battery equalization feature on a solar controller is to ensure that all the batteries in a system are charged and discharged evenly. Over time, batteries can develop imbalances in their charge levels, where some batteries may become overcharged while others remain undercharged. This can lead to reduced battery performance and lifespan. By utilizing the battery equalization feature, the solar controller actively monitors the charge levels of each battery within the system. When imbalances are detected, the controller initiates a process to equalize the charge levels by redistributing the energy between the batteries. This process involves intentionally overcharging the batteries that are undercharged, allowing them to reach a full state of charge, while simultaneously limiting the charge going to the batteries that are overcharged. This equalization process helps to extend the overall lifespan and efficiency of the battery bank, as well as ensuring that all batteries are able to deliver consistent and optimal performance. It also helps to prevent issues such as premature battery failure, reduced capacity, and imbalances that can result in uneven power distribution throughout the system. Overall, the purpose of the battery equalization feature is to maintain the health and balance of the battery bank, maximizing its performance and longevity in a solar power system.
- Q:What is the size and weight of a typical solar controller?
- Solar controllers can have different sizes and weights, depending on the model and manufacturer. Nonetheless, they are usually compact and lightweight. On average, their dimensions range from 5 to 7 inches in length, 3 to 4 inches in width, and 1 to 2 inches in height. Regarding weight, they typically weigh between 0.5 and 1 pound. These dimensions and weights make solar controllers effortless to install and integrate into solar power systems, as they occupy minimal space and do not add excessive weight.
- Q:How does a solar controller handle fluctuations in battery voltage?
- A solar controller handles fluctuations in battery voltage by regulating the flow of solar energy to the battery. It monitors the voltage level and adjusts the charging or discharging process accordingly, ensuring that the battery receives the appropriate amount of power and preventing damage from overcharging or deep discharging.
- Q:How does a solar controller handle variations in load demand?
- A solar controller handles variations in load demand by monitoring the amount of power required by the load and adjusting the charging and discharging of the battery accordingly. When there is an increase in load demand, the solar controller detects the change in power consumption and increases the charging rate of the battery, ensuring that it receives sufficient energy to power the load. This is done by allowing more current flow from the solar panels to the battery. On the other hand, when there is a decrease in load demand, the solar controller reduces the charging rate to avoid overcharging the battery. It does this by limiting the current flow from the solar panels to the battery, preventing excess energy from being stored. In this way, the solar controller constantly monitors and adjusts the charging and discharging process to match the load demand, ensuring optimal utilization of the solar power system. By effectively managing the variations in load demand, the solar controller helps maximize the efficiency and lifespan of the battery, while also providing reliable power supply to the load.
- Q:What is the maximum charging voltage of a solar controller?
- The maximum charging voltage of a solar controller typically depends on the specific model and specifications of the controller. However, in general, the maximum charging voltage for most solar controllers is around 14.4 to 14.8 volts.
- Q:Can a solar controller handle power surges from the utility grid?
- No, a solar controller is not designed to handle power surges from the utility grid. Its primary function is to regulate and control the flow of power between the solar panels and the battery bank, ensuring optimal charging and preventing overcharging or damage to the battery. To protect against power surges from the utility grid, additional surge protection devices or equipment should be installed in the electrical system.
- Q:Can a solar controller be used with solar-powered indoor food preservation systems?
- Solar-powered indoor food preservation systems can utilize a solar controller to regulate battery charging and discharging. The solar controller, a device that manages the flow of power in a solar power system, ensures efficient battery charging and safeguards against overcharging or overdischarging. In the context of solar-powered indoor food preservation systems, the solar controller plays a critical role in power management. By monitoring battery voltage and adjusting the charging process accordingly, it maximizes the utilization of solar energy. This optimization guarantees that the batteries consistently maintain their optimal charge levels, resulting in enhanced system efficiency. Furthermore, the solar controller offers valuable insights into the system's performance, including battery status, charging current, and voltage. This information aids in assessing the system's overall health and facilitates any necessary adjustments or repairs. In conclusion, the solar controller is a vital component of a solar-powered indoor food preservation system. It ensures efficient power regulation and optimization, leading to optimal operation and prolonged battery lifespan.
- Q:How long does a solar controller typically last?
- A solar controller typically lasts for about 10 to 15 years, depending on the quality of the product and the usage conditions.
- Q:What is the role of a solar controller in preventing damage to the solar panels from birds or animals?
- To prevent damage to solar panels from birds or animals, the primary function of a solar controller is to discourage them from landing or nesting on the panels. Various methods are typically employed by solar controllers to achieve this objective. One commonly used technique involves emitting ultrasonic sound waves that are inaudible to humans but unpleasant to birds and animals. These sound waves cultivate an unwelcoming environment around the solar panels, making them less appealing as perching or nesting spots. The solar controller emits these sound waves intermittently, effectively ensuring that the area surrounding the panels remains bird and animal-free. Another approach utilized by solar controllers is the incorporation of visual deterrents, such as reflective surfaces or moving objects. Birds and animals are often frightened off by shiny or reflective surfaces, as they perceive them as potential predators or threats. Integrating these visual deterrents into the design of the solar controller aids in discouraging birds and animals from approaching the panels. Furthermore, solar controllers may also employ physical barriers or netting to obstruct access to the panels. This strategy prevents birds or animals from directly landing on the panels or causing damage with their claws or beaks. These physical barriers are specifically designed to be lightweight and durable, ensuring that they do not impede the performance of the solar panels while effectively safeguarding them against potential harm. To summarize, the primary role of a solar controller in preventing damage to solar panels from birds or animals is to create an environment that is unappealing and inhospitable to these creatures. By employing deterrent mechanisms such as ultrasonic sound waves, visual deterrents, and physical barriers, solar controllers contribute to the preservation and functionality of the solar panels by keeping birds and animals at a distance.
- Q:How does a solar controller handle battery desulfation?
- A solar controller handles battery desulfation by periodically applying high voltage pulses to the battery, which helps break down and remove sulfation buildup on the battery plates. This process rejuvenates the battery and improves its overall performance and lifespan.
1. Manufacturer Overview |
|
|---|---|
| Location | |
| Year Established | |
| Annual Output Value | |
| Main Markets | |
| Company Certifications | |
2. Manufacturer Certificates |
|
|---|---|
| a) Certification Name | |
| Range | |
| Reference | |
| Validity Period | |
3. Manufacturer Capability |
|
|---|---|
| a)Trade Capacity | |
| Nearest Port | |
| Export Percentage | |
| No.of Employees in Trade Department | |
| Language Spoken: | |
| b)Factory Information | |
| Factory Size: | |
| No. of Production Lines | |
| Contract Manufacturing | |
| Product Price Range | |
Send your message to us
Solar Modules Mono-crystalline 125*125 260W Module
- Ref Price:
-
- Loading Port:
- Tianjin
- Payment Terms:
- TT or LC
- Min Order Qty:
- -
- Supply Capability:
- -
OKorder Service Pledge
OKorder Financial Service
Similar products
New products
Hot products
Related keywords
