• Solar Inverter Modified Sine Wave 3000W System 1
  • Solar Inverter Modified Sine Wave 3000W System 2
  • Solar Inverter Modified Sine Wave 3000W System 3
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Solar Inverter Modified Sine Wave 3000W

Solar Inverter Modified Sine Wave 3000W

Ref Price:
$400.00 - 600.00 / unit get latest price
Loading Port:
China main port
Payment Terms:
TT or LC
Min Order Qty:
50 unit
Supply Capability:
1000 unit/month

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1. Structure of Solar Inverter, High quality Single Phase Modified Sine Wave 3000w Description

The inverter series is an electronic product that has been designed and built to take low DC woltage power from batteries and convert it to

 standard  AC power like the current you have at home.

The Inverter series is a DC-to-AC with auto line-to-battery transfer and intergrated charging system. Inverter series powers from ACpower

 and DC source, serving as an extended run UPS. When AC cable is connected to a wall socket, utility power goes to connected equipment

 and/or charges the battery set via charging system. In Inverter mode, the Inverter series automatically converts battery energy into AC power

for backing up  the connected devices.

 

2. Main Features of Solar Inverter, High quality Single Phase Modified Sine Wave 3000w    

•  Low voltage protection

•  Over voltage protection

•  Overload protection

•  Over temperature protection

•  Short circuit protection

 

3. Solar Inverter, High quality Single Phase Modified Sine Wave 3000w Images

 

4. Solar Inverter, High quality Single Phase Modified Sine Wave 3000w Specification

Model No.

DMD-3000W/24V/F/CA

Input Section

DC Input Voltage

24V

DC Operating Voltage

21-29V

DC Low-voltage Protection

18.5-20.5V

DC Low-voltage Alarm

19.5-21V

DC Over-voltage Protection

≥29V

Fuse

20A*2

Quiescent Current

≤0.5A

Output Section

Output Waveform

Modified Sine Wave

Output Voltage

220V±10%

Output Frequency

50Hz±1%

Power Rating

3000W

Continue Output Rating

3000W

Peak Power Rating Output

6000W

Transfer Efficiency

≥90 %

Overload Protection

3000W--3600W

Short-circuit Protection

Yes

Operating Temperature

-10°C--+50°C

Temperature Protection

+60°C--+70°C

Green LED Indicator

Green Light(Working),Flash(Overload Protection)

Red LED Indicator

Red Light(Error Protection)

Size

Size: 305 x 165 x 125mm

Weight

5.5kg 

Packing

Color box packing or skin packing

 

5. FAQ of Solar Inverter, High quality Single Phase Modified Sine Wave 3000w

Q1:Can we visit your factory?

    A1:Sure,welcome at any time,seeing is believing.

Q2:Which payment terms can you accept?

    A2:T/T,L/C,Moneygram,Paypal are available for us.

Q:Can a solar inverter work without batteries?
Yes, a solar inverter can work without batteries. In a grid-tied solar system, the inverter converts the DC power generated by the solar panels into AC power, which can be used to power appliances or fed back into the utility grid. Batteries are typically used in off-grid systems to store excess energy for later use, but they are not necessary for the basic function of a solar inverter.
Q:What is the role of a power limiter in a solar inverter?
The role of a power limiter in a solar inverter is to regulate and control the amount of power being fed into the grid from the solar panels. It ensures that the power output from the solar panels does not exceed the predetermined limit set by the utility company or regulatory standards. This helps prevent overloading of the grid and ensures the safe and efficient operation of the solar power system.
Q:How does the input frequency range affect the performance of a solar inverter?
The input frequency range directly affects the performance of a solar inverter. The inverter is designed to convert the variable direct current (DC) generated by the solar panels into stable alternating current (AC) that can be used by household appliances or fed into the grid. If the input frequency deviates from the specified range, it can lead to inefficient or unstable operation of the inverter. A wider input frequency range allows the inverter to handle fluctuations in the solar power generation, ensuring optimal performance and compatibility with different grid conditions.
Q:Can a solar inverter be used in standalone power systems?
Yes, a solar inverter can be used in standalone power systems. Standalone power systems, also known as off-grid systems, are not connected to the main electricity grid and rely on alternative energy sources like solar panels. A solar inverter converts the direct current (DC) generated by the solar panels into usable alternating current (AC) electricity, which can power various electrical devices in standalone power systems.
Q:Can a solar inverter be repaired or serviced?
Yes, a solar inverter can be repaired or serviced. In case of any malfunction or issues, a qualified technician can diagnose and fix the problem. Regular maintenance and servicing can also help prolong the lifespan and optimize the performance of a solar inverter.
Q:What is the maximum short-circuit current that a solar inverter can handle?
The maximum short-circuit current that a solar inverter can handle depends on its specific design and specifications. It varies from one model to another, but typically, solar inverters are designed to handle short-circuit currents within the range of 10 to 25 times their maximum continuous output current. However, it is crucial to consult the manufacturer's guidelines or product specifications for the exact maximum short-circuit current rating of a specific solar inverter model.
Q:Can a solar inverter be connected to a smartphone app for monitoring?
Yes, a solar inverter can be connected to a smartphone app for monitoring. Many solar inverter manufacturers offer mobile apps that allow users to monitor and control their solar power systems remotely through their smartphones. These apps provide real-time data on energy production, system performance, and can also enable users to adjust settings and receive alerts or notifications related to their solar power system.
Q:What are the safety features in a solar inverter?
Solar inverters, also known as photovoltaic (PV) inverters, play a crucial role in converting the direct current (DC) electricity generated by solar panels into alternating current (AC) electricity that can be used to power homes or businesses. In order to ensure the safe and efficient operation of solar inverters, they are equipped with various safety features. One of the primary safety features in a solar inverter is the ground fault protection. This feature is designed to detect any current leakage to the ground, which could indicate a fault in the system. If a ground fault is detected, the inverter will immediately shut down to prevent any potential electrocution hazards. To protect against overvoltage situations, solar inverters are equipped with surge protection devices (SPDs). These devices are responsible for diverting excessive voltage spikes or surges to the earth, thereby protecting the inverter and other connected electrical equipment from damage. In the event of a grid power outage or blackout, solar inverters are equipped with anti-islanding protection. This feature ensures that the inverter automatically disconnects from the grid, preventing any power backfeeding, which could pose a serious threat to utility workers trying to repair the grid. Temperature monitoring is another crucial safety feature in solar inverters. Since inverters can generate heat during operation, they are equipped with temperature sensors to monitor the internal temperature. If the temperature exceeds the safe limit, the inverter will automatically shut down to prevent any potential fire hazards. Furthermore, solar inverters are often equipped with built-in arc fault circuit interrupters (AFCIs). These devices are designed to detect and interrupt dangerous arc faults that can occur due to damaged or deteriorating wiring connections. By quickly stopping the flow of electricity, AFCIs help to prevent electrical fires. Lastly, many solar inverters have advanced monitoring and diagnostic systems. These systems provide real-time data and alerts, allowing users or installers to identify and address any potential safety issues promptly. Overall, the safety features in a solar inverter are crucial in ensuring the safe and reliable operation of the system. These features protect against electrical hazards, prevent damage to the inverter and connected equipment, and contribute to the overall safety of the solar power generation system.
Q:Can a solar inverter be used in areas with high levels of electrical noise or interference?
In areas with high levels of electrical noise or interference, a solar inverter can indeed be utilized. However, it is crucial to verify that the solar inverter is specifically designed and equipped to handle such conditions. Some contemporary solar inverters come with built-in features and technologies that aid in minimizing electrical noise and interference. These features encompass advanced filtering, shielding, and surge protection mechanisms. In addition, employing proper grounding and installation techniques can further diminish the impact of electrical noise and interference on the solar inverter's performance. To ensure compatibility and optimal performance in high-noise environments, it is recommended to seek advice from a professional or the manufacturer of the solar inverter.
Q:What is the role of a solar inverter in a grid-independent system?
The role of a solar inverter in a grid-independent system is to convert the direct current (DC) generated by the solar panels into alternating current (AC) that can be used to power household appliances and other electrical loads. It also manages the flow of electricity between the solar panels, batteries (if present), and the electrical loads, ensuring optimal energy utilization and system efficiency. Additionally, a solar inverter in a grid-independent system may incorporate advanced features like battery charging and discharging control, voltage regulation, and monitoring capabilities to ensure the stability and reliability of the system.

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