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:What is the role of solar energy systems in reducing greenhouse gas emissions?: Solar energy systems play a crucial role in reducing greenhouse gas emissions by providing clean, renewable energy without emitting any harmful pollutants. By harnessing the power of the sun, these systems generate electricity, heat, and hot water, reducing the reliance on fossil fuels and traditional energy sources that contribute to greenhouse gas emissions. The use of solar energy helps to decrease the carbon footprint and combat climate change while promoting a sustainable and environmentally friendly energy transition.

Q:Can solar energy systems be used in powering outdoor signage or billboards?: Indeed, outdoor signage or billboards can be powered by solar energy systems. By placing solar panels on the roof or nearby structures, sunlight can be captured and transformed into electricity. This generated electricity is then employed to illuminate the lights or operate the digital displays of the signage or billboards, enabling them to function autonomously without relying on the conventional power grid. Given their prevalence in sun-drenched areas, solar energy systems are especially well-suited for outdoor signage. Moreover, utilizing solar energy aids in mitigating the carbon footprint linked to traditional methods of electricity production, rendering it an eco-friendly alternative.

Q:Can solar energy systems be installed on mobile homes?: Yes, solar energy systems can be installed on mobile homes. In fact, they are a popular choice for mobile homeowners looking to reduce their reliance on traditional energy sources and lower their carbon footprint. Solar panels can be mounted on rooftops or on the ground near the mobile home, providing a sustainable and renewable source of electricity.

Q:Can a solar energy system be installed on a building with a flat roof?: Yes, a solar energy system can be installed on a building with a flat roof. Flat roofs provide an ideal surface for mounting solar panels, as they offer a level surface and provide ample space for installation. Furthermore, flat roofs often have unobstructed sun exposure, which is crucial for maximizing the efficiency of solar panels.

Q:Can solar panels be integrated into building materials like windows or roofing tiles?: Yes, solar panels can be integrated into building materials such as windows or roofing tiles. This integration is known as building-integrated photovoltaics (BIPV), and it allows solar energy to be generated while seamlessly blending with the building's design. BIPV solutions are increasingly being used to enhance energy efficiency in buildings and promote sustainable practices.

Q:What is the role of solar trackers in maximizing energy production?: Solar trackers play a crucial role in maximizing energy production by continuously adjusting the position of solar panels to follow the sun's path throughout the day. This allows the panels to capture the maximum amount of sunlight, increasing the efficiency and output of the solar system.

Q:What is the role of charge controllers in a solar energy system?: The role of charge controllers in a solar energy system is to regulate the flow of electrical charge between the solar panels and the batteries. They ensure that the batteries receive the optimal amount of charge and prevent overcharging, which can damage the batteries. Charge controllers also protect the batteries from over-discharging, which can reduce their lifespan. Overall, charge controllers help optimize the efficiency and longevity of the solar energy system.

Q:What is net metering and how does it work with solar energy systems?: Net metering is a billing arrangement that allows solar energy system owners to receive credit for the excess electricity they generate and feed back into the grid. With net metering, a bi-directional meter is installed, which measures both the electricity consumed from the grid and the excess electricity generated by the solar system. This excess electricity is then credited to the owner's account, effectively offsetting their future electricity consumption. When the solar system produces more electricity than is consumed, the surplus is fed back into the grid, and the owner receives credits for it. These credits can be used to offset the electricity consumed during periods when the solar system is not generating enough power, such as at night or during cloudy days. Overall, net metering allows solar energy system owners to maximize their investment by ensuring they benefit from the excess electricity they generate.

Q:Can solar energy systems be used for agricultural applications?: Yes, solar energy systems can be used for agricultural applications. Solar panels can power various agricultural processes such as irrigation systems, livestock watering, grain drying, and crop cultivation. Additionally, solar energy can be harnessed for powering greenhouses, providing heat and lighting for plant growth. Utilizing solar energy in agriculture offers sustainable and cost-effective solutions, reducing dependence on traditional energy sources and minimizing environmental impact.

Q:Can a solar energy system be installed on a barn or agricultural building?: Yes, a solar energy system can be installed on a barn or agricultural building. In fact, barns and agricultural buildings are often suitable locations for solar panel installations due to their large and unobstructed roof space. Installing a solar energy system on a barn or agricultural building can help farmers and agricultural businesses reduce their energy costs, generate clean and sustainable electricity, and potentially even earn additional income by selling excess energy back to the grid.

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