Solar Inverter/1000w LCD Display Combined Pure Sine Hybrid Solar Inverter

Solar Inverter/1000w LCD Display Combined Pure Sine Hybrid Solar Inverter System 1

Solar Inverter/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:Can solar energy systems be used in remote locations?: Yes, solar energy systems can be used in remote locations. Since solar energy relies on sunlight, it can be harnessed and utilized in virtually any location as long as there is access to sunlight. This makes solar energy an excellent option for powering remote areas where traditional electrical infrastructure may be limited or nonexistent. Additionally, advancements in solar technology have made it more efficient and cost-effective, further enabling its use in remote locations.

Q:How does the cleanliness of solar panels affect their performance?: The cleanliness of solar panels significantly affects their performance. When solar panels are dirty or covered with dust, dirt, or debris, it can obstruct sunlight from reaching the surface of the panels. This reduces the amount of sunlight that can be absorbed and converted into electricity, resulting in a decrease in the overall efficiency and productivity of the solar panels. Regular cleaning and maintenance of solar panels are necessary to ensure optimal performance and maximize energy generation.

Q:Can solar energy systems be integrated with existing electrical systems?: Yes, solar energy systems can be integrated with existing electrical systems. This is done by connecting the solar panels to the existing electrical grid through an inverter, which converts the DC power generated by the panels into AC power that can be used by the electrical system. The integration allows for the simultaneous use of solar energy and grid power, providing a more sustainable and efficient energy solution.

Q:What is the impact of snow cover on the performance of solar panels?: The impact of snow cover on the performance of solar panels is generally negative. Snow covering the surface of solar panels reduces the amount of sunlight that can reach the photovoltaic cells, leading to a decrease in electricity generation. It also hampers the self-cleaning mechanism of the panels, which relies on rainwater to wash away dirt and debris, further reducing their efficiency. However, advancements in solar panel technology, such as anti-reflective coatings and tilted mounting systems, have been developed to mitigate the effects of snow cover and improve performance during winter months.

Q:Can solar energy systems be used in powering veterinary clinics or animal shelters?: Yes, solar energy systems can definitely be used to power veterinary clinics or animal shelters. Solar energy systems, such as solar panels, harness the power of sunlight and convert it into electricity. This electricity can be used to power various electrical appliances and devices, including those found in veterinary clinics and animal shelters. By installing solar panels on the roof or in an open area near the veterinary clinic or animal shelter, these establishments can reduce their dependence on traditional electricity sources and utilize clean and renewable solar energy. Solar power can be used to run equipment such as lights, heating and cooling systems, medical equipment, refrigerators for vaccines and medications, computers, and other essential devices. Furthermore, using solar energy systems can help these establishments save on electricity costs in the long run. Veterinary clinics and animal shelters often consume a significant amount of electricity due to the nature of their operations, such as maintaining proper temperature and lighting conditions, running medical equipment, and maintaining a comfortable environment for animals and staff. By utilizing solar power, these establishments can significantly reduce their electricity bills, allowing them to allocate more resources towards animal care and welfare. Additionally, using solar energy systems in veterinary clinics and animal shelters aligns with their commitment to environmental sustainability. By reducing reliance on fossil fuels and utilizing clean and renewable solar energy, these establishments can contribute to reducing carbon emissions and minimizing their ecological footprint. In summary, solar energy systems can be used effectively in powering veterinary clinics and animal shelters. They provide a reliable and sustainable source of electricity, reduce operating costs, and demonstrate a commitment to environmental responsibility.

Q:Can solar energy systems be used in areas with limited grid infrastructure?: Yes, solar energy systems can be used in areas with limited grid infrastructure. Solar energy systems are particularly suitable for off-grid or remote areas where it may be challenging or costly to extend the existing electrical grid. These systems can provide a reliable and sustainable source of electricity, reducing dependence on traditional grid infrastructure and fossil fuels.

Q:What is the difference between a microinverter and a string inverter in a solar energy system?: A microinverter is a small inverter that is installed on each individual solar panel in a solar energy system. It converts the DC electricity produced by each panel into AC electricity, allowing for independent optimization of each panel's performance. On the other hand, a string inverter is a larger inverter that is typically connected to multiple solar panels in a series, converting the combined DC electricity from all the panels into AC electricity. The main difference between the two is that microinverters offer panel-level monitoring and optimization, while string inverters offer system-level monitoring and optimization.

Q:Can solar energy systems be used in powering religious institutions like churches or temples?: Yes, solar energy systems can certainly be used to power religious institutions like churches or temples. In fact, solar power is an ideal solution for these buildings as they often have large roofs that can accommodate solar panels. By installing solar energy systems, religious institutions can significantly reduce their electricity bills, save money, and become more sustainable. Solar panels generate electricity by converting sunlight into usable energy. This energy can be used to power the lighting, heating, cooling, and other electrical needs of the religious institution. With advancements in solar technology, it is now possible to store excess energy in batteries, ensuring uninterrupted power even during cloudy days or at night. Using solar energy not only reduces the operational costs of the religious institution but also helps in reducing its carbon footprint. By reducing dependency on fossil fuels, solar power systems contribute to mitigating climate change and promoting environmental stewardship. This aligns with the core values of many religious organizations that emphasize the importance of environmental sustainability and being responsible stewards of the Earth. Furthermore, solar energy systems can serve as a visible example of the religious institution's commitment to sustainable practices, inspiring its members and the wider community to adopt renewable energy solutions. By utilizing solar power, religious institutions can demonstrate their dedication to caring for the planet and encouraging others to follow suit. In summary, solar energy systems can be successfully used to power religious institutions like churches or temples. They offer an environmentally-friendly and cost-effective solution that aligns with the values of many religious organizations. By embracing solar power, these institutions can reduce their energy costs, promote sustainability, and inspire their members and the community to adopt clean energy solutions.

Q:What are the different financing models for installing solar energy systems?: There are several financing models available for installing solar energy systems, depending on individual preferences and financial capabilities. Here are some of the common financing options: 1. Outright Purchase: The most straightforward option is to purchase the solar energy system outright. This requires a significant upfront investment, but it allows the homeowner or business owner to benefit from the full savings and incentives associated with solar energy, including tax credits and lower utility bills. 2. Solar Loans: Many financial institutions offer specialized loans for solar installations. These loans typically have lower interest rates and longer repayment terms compared to traditional loans. With a solar loan, the system owner makes monthly payments to the lender while enjoying the financial benefits of lower utility bills and potential tax credits. 3. Power Purchase Agreements (PPAs): A PPA is a contract between the solar system owner and a third-party solar provider. Under this arrangement, the solar provider installs and maintains the system on the customer's property, and the customer agrees to purchase the electricity generated by the system at a predetermined rate. This eliminates the need for upfront costs and allows the customer to benefit from immediate savings on their electricity bill. 4. Solar Leases: Similar to PPAs, solar leases involve a third-party solar provider installing and maintaining the system. However, instead of purchasing the electricity, the customer pays a fixed monthly lease payment for the use of the solar energy system. While this option may not provide as much savings as the other financing models, it requires little to no upfront investment. 5. Property Assessed Clean Energy (PACE) Financing: PACE financing allows property owners to finance the installation of solar energy systems through an assessment on their property tax bill. The loan is repaid over a period of time, typically 10 to 20 years, through an additional assessment on the property taxes. PACE financing is especially beneficial for property owners who may not qualify for traditional loans or who prefer to spread out the cost of the solar installation over a longer period. These are just a few examples of the different financing models available for installing solar energy systems. It is important to carefully evaluate each option, considering factors such as upfront costs, long-term savings, and individual financial goals, in order to determine the most suitable financing arrangement for your specific circumstances.

Q:Can solar energy systems be used in areas with limited access to solar energy maintenance services?: Yes, solar energy systems can be used in areas with limited access to solar energy maintenance services. These systems are designed to be self-sufficient and require minimal maintenance. Additionally, advancements in technology have made solar panels more durable and efficient, reducing the need for frequent maintenance. However, it is still important to periodically inspect and clean the panels to ensure optimal performance.

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