Solar Energy Systems Tunisia - 1000W LCD Display Combined Pure Sine Hybrid Solar Inverter
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- Loading Port:
- China main port
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 20 carton
- Supply Capability:
- 10000 carton/month
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1000w LCD Display Combined Pure Sine Hybrid Solar Inverter
Product Description
| Model | EP Solar-1012 | EP Solar-2024 | EP Solar-3024 | EP Solar-4048 | EP Solar-6048 |
| Rated power | 1000W | 2000W | 3000W | 4000W | 6000W |
| INPUT | |||||
| Input voltage range | 185~265VAC | ||||
| OUTPUT | |||||
| Input voltage range | 220VAC/230VAC | ||||
| Output frequency | Batt. Mode:50±0.3Hz AC mode:48~54Hz(50Hz) or 58~64Hz, Same as AC | ||||
| Output wave form | Sine wave (Batt. mode) | ||||
| Transfer time | 10ms(Typical) | ||||
| PROTECTION | |||||
| Overload protection | (100%<Load<120%)±10%:Auto shutdown in 2 mins;(120%<Load<140±10%;Auto shutdown in 60 Secs;(140%<Load)±10%:Auto shutdown in 20 Secs; | ||||
| Output short circuit protection | Yes | ||||
| Breaker | Input:15A/Output:10A | Input:30A / Output:15A | Input:35A / Output:20A | Input:40A / Output:30A | |
| BATTERY | |||||
| Rating charging current(Max.) | 45A | ||||
| Nominal DC input voltage | 12V | 24V | 48V | ||
| 20V/40V | |||||
| PHYSITAL | |||||
| (kg) / Net weight (kg) | 22.8 | 27.6 | 32.4 | 38.2 | 44.5 |
| (mm) / Unit dimention (mm) | 468(L)*224(W)*212(H)mm | 644(L)*224(W)*212(H)mm | |||
| ENVIRONMENT | |||||
| Environment of performance | Temperature 0℃~40℃, Humidity 20%~90% | ||||
1. Wide range of input voltage
The UPS can offer normal and stable service voltage under its input voltage range. When the input voltage is out of its range the machine will switch to battery mode automatically to keep the output power in order to protect the equipment, such as computers, ensure they will not be damaged by the over high or over low voltage, users can continue the operation of equipment for a while or save the data on computers while the power network is abnormal.
2. Wide range of AVR(Automatic voltage regulation)
In the product’s input voltage range and under 3 steps of intelligent AVR function, it can provide a stable output voltage.
3. Automatic self detection when UPS on(LED).
Before the UPS on, red, yellow, blue LED will light up two times by cycle turns, after self detection UPS switch to AC mode/battery mode or working mode.
4. Silence function
In the "battery mode", shortly press the switch to turn off the buzzer. But the battery is about to run out or the load is too heavy, the buzzer sound cannot be muted.
5. Overload protection
In the battery mode, output voltage turn down correspondingly when it is overload, after the capacity of load is lower than the rated power then output voltage will back to rated value, it ensures the UPS will not shut down by abrupt overload which caused by surging current during the computer is working and other equipment is added.
6. Short circuit protection
When the mis-operation caused the load short circuit or computer failure (such as power tube breakdown of switch) cause short circuit, the UPS will shutdown automatically for protection.
7. The low current switch
This UPS adopts low current switch to extend the service life which is longer than conventional battery and high current switch in AC current path.
8. Automatic charging
There are two charging mode, charging time is faster than ordinary charging mode, higher efficiency, and greatly prolonging the service life of the battery.
9. With a bypass output
Independent bypass output socket for external printers or scanners of computer peripherals, with surge protection of the load.
- Q: How does the efficiency of solar panels vary with temperature?
- The efficiency of solar panels varies inversely with temperature. As the temperature increases, the efficiency of solar panels decreases. This is because solar panels work by converting sunlight into electricity through the photovoltaic effect. When the temperature rises, the electrons in the solar cells gain more energy, which can lead to an increase in electron movement and resistance within the panel. The efficiency of solar panels is typically measured by their power output in relation to the amount of sunlight received. As the temperature rises, the power output of solar panels tends to decrease, resulting in reduced efficiency. This decrease in efficiency is known as the temperature coefficient. The temperature coefficient represents the percentage change in power output for every degree Celsius increase in temperature. It is usually expressed as a negative value, indicating the decrease in efficiency as the temperature rises. Different types of solar panels have different temperature coefficients, which can range from -0.2% to -0.5% per degree Celsius. To counter the decrease in efficiency caused by higher temperatures, solar panels are often designed with cooling mechanisms or placed in locations with good ventilation. These measures help dissipate excess heat and maintain a more favorable operating temperature, thereby improving the overall efficiency of the solar panels. In summary, the efficiency of solar panels decreases with increasing temperature due to the temperature coefficient. It is important to consider temperature effects when designing solar panel systems and implement measures to mitigate the decrease in efficiency caused by higher temperatures.
- Q: How does the efficiency of solar panels vary based on the manufacturer?
- The efficiency of solar panels can vary based on the manufacturer due to several factors. One significant factor is the quality of materials used in the production of the panels. Different manufacturers may use different types of silicon, which is the primary material in most solar panels. High-quality silicon can capture and convert more sunlight into electricity, resulting in higher efficiency. Another factor is the manufacturing process itself. Each manufacturer may have different techniques and technologies for producing solar panels. Advanced manufacturing processes can lead to more precise and uniform panel construction, reducing any potential losses in energy conversion and improving overall efficiency. Furthermore, research and development investments play a crucial role in the efficiency of solar panels. Manufacturers that invest in continuous research and development can develop innovative technologies, such as anti-reflective coatings or multi-junction cells, that can significantly enhance the efficiency of their panels. Moreover, the size and design of solar panels can vary among manufacturers. Larger panels with more surface area can capture more sunlight, while innovative designs can optimize energy absorption and minimize losses due to shading or environmental factors. Different manufacturers may have different panel sizes and designs, impacting their efficiency. Lastly, the reputation and experience of a manufacturer can also influence the efficiency of their solar panels. Established manufacturers with a track record of producing high-quality and efficient panels are likely to have refined their production processes and incorporated lessons learned from previous models, resulting in improved efficiency. Overall, the efficiency of solar panels can vary based on the manufacturer due to differences in materials, manufacturing processes, research and development efforts, panel size and design, as well as the reputation and experience of the manufacturer. It is important for consumers to research and compare different manufacturers to select panels with the highest efficiency suitable for their specific needs.
- Q: Can solar energy systems be used in powering banks or financial institutions?
- Yes, solar energy systems can certainly be used to power banks or financial institutions. Solar panels can be installed on the rooftops or premises of these establishments to generate electricity from sunlight. This renewable energy source can help reduce the reliance on traditional fossil fuel-based power, lower energy costs, and contribute to a greener and more sustainable operation for banks and financial institutions.
- Q: Can solar energy systems be integrated with battery storage?
- Yes, solar energy systems can be integrated with battery storage. Battery storage allows excess energy generated from solar panels to be stored and used during times when the sun is not shining, such as at night or during cloudy days. This integration helps provide a continuous and reliable source of electricity, reducing reliance on the grid and maximizing the benefits of solar energy.
- Q: Can solar energy systems be used for powering satellites?
- Yes, solar energy systems can be used for powering satellites. Solar panels on satellites capture sunlight and convert it into electricity, which is stored in batteries for use during periods of darkness or when sunlight is obstructed. This sustainable energy source is reliable and widely used in the space industry to power satellites and other space missions.
- Q: Can solar energy systems be used in cold climates?
- Yes, solar energy systems can be used in cold climates. While colder temperatures can slightly reduce the efficiency of solar panels, advancements in technology have made it possible to generate electricity from sunlight even in freezing conditions. Additionally, snow can be easily cleared from solar panels to ensure their optimal performance. With proper design and insulation, solar energy systems can effectively harness the sun's energy in cold climates and provide a sustainable source of power.
- Q: Can solar energy systems be installed on any type of building?
- Yes, solar energy systems can be installed on any type of building, as long as there is sufficient sunlight available for the system to function effectively. Whether it's a residential house, commercial building, or even an industrial facility, solar panels can be installed on rooftops, facades, or even as standalone structures such as solar carports or ground-mounted systems. The only requirement is that the building or site should have a suitable area for installing the solar panels and receive enough direct sunlight throughout the day. Additionally, it is important to consider structural integrity, orientation, and shading factors to optimize the performance of the solar energy system. With advancements in solar technology and flexible installation options, solar energy systems can be easily adapted to fit any type of building or structure.
- Q: Can solar energy systems be used for recreational vehicles or boats?
- Yes, solar energy systems can be used for recreational vehicles or boats. These systems can provide power for various appliances and electronics, making them suitable for off-grid camping or sailing. Solar panels can be installed on the roof or deck of the vehicle or boat, and the energy generated can be stored in batteries for later use. This allows for a sustainable and convenient power source while enjoying outdoor activities.
- Q: How do solar energy systems impact the local community?
- Solar energy systems can have a significant positive impact on the local community. Firstly, they contribute to a cleaner environment by reducing greenhouse gas emissions and air pollution, leading to improved air quality and public health. Additionally, solar energy systems create job opportunities, both during installation and maintenance, stimulating local economic growth. They can also reduce energy costs for residents and businesses, making energy more affordable and accessible. Moreover, solar projects often involve community engagement and education programs, which help raise awareness about renewable energy and promote sustainable practices. Overall, solar energy systems bring numerous benefits to the local community, ranging from environmental to economic and social aspects.
- Q: What is the impact of solar energy systems on air quality?
- Air quality is positively impacted by solar energy systems. In contrast to coal or natural gas, solar energy does not emit harmful substances or pollutants while operating. This means that solar power does not contribute to the release of greenhouse gases, particulate matter, sulfur dioxide, nitrogen oxide, or any other air pollutants associated with burning fossil fuels. Through the utilization of solar energy systems, we can greatly decrease our dependence on fossil fuels, leading to a reduction in air pollution levels. This has numerous advantages for human health and the environment. Improved air quality can result in lower rates of respiratory and cardiovascular diseases, as well as a decrease in respiratory symptoms and allergies. Moreover, solar energy systems aid in the overall reduction of smog, acid rain, and the potential for global warming. Additionally, the installation and use of solar energy systems do not generate noise pollution, which is another significant benefit compared to traditional energy sources. This reduction in noise pollution has positive effects on the well-being and overall quality of life for individuals living near solar installations. In conclusion, the adoption of solar energy systems is a crucial step in improving air quality and mitigating the adverse effects of climate change. By harnessing the power of the sun, we can substantially decrease air pollution, promote cleaner and healthier environments, and create a more sustainable future for future generations.
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Solar Energy Systems Tunisia - 1000W LCD Display Combined Pure Sine Hybrid Solar Inverter
- Ref Price:
-
- Loading Port:
- China main port
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 20 carton
- Supply Capability:
- 10000 carton/month
OKorder Service Pledge
Quality Product, Order Online Tracking, Timely Delivery
OKorder Financial Service
Credit Rating, Credit Services, Credit Purchasing
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