Let's review the basics before deciding on the right inverter for your needs. An inverter is a replacement for grid power. If the grid goes down, you want to use the same power source to power your equipment. A pure sine wave inverter provides the same power as the grid. Here are the main reasons to choose the right inverter.
Reduce power losses and ensure your electricity bill does not go up. Inefficient backup power can affect your electricity bill. A pure sine wave is the best way to convert stored energy (in batteries) into AC power. This reduces the risk of damaging sensitive equipment with an improved sine wave.
The voltage of a sine wave rises and falls with a smooth change in phase angle. Once the voltage exceeds 0 volts, its polarity also changes. A modified sine wave has an abruptly fluctuating voltage and an abruptly changing phase angle. It stays at 0V for a while before changing polarity. Any device that uses a control circuit to detect phase (for voltage/speed control) or instantaneous over 0 voltage (for time control) will not operate properly with the modified sine wave voltage.
This rack mount inverter is a next generation dual input inverter solution. It is designed for communication applications and can be used to ensure high reliability of communication systems. The solution has 220V AC power input and 48V DC power input. It fills the gap between traditional UPS power solutions and pure sine wave inverter options.
It adopts a novel design structure to help users provide pure, stable and durable AC power for critical loads with the same high reliability as AC power supply systems. The design features of the pure sine wave inverter for communications ensure seamless conversion between AC and DC power supplies with virtually no conversion delay and built-in static transfer switches.
If you are interested in purchasing a pure sine wave inverter, please contact us!
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Rack inverter technology Power range: The power range of rack inverters is wide, such as the PIR series rack type power frequency inverter capacity is 300W-4kW, and the PV5000 series high frequency rack off-grid inverter control machine power range is 3KW-5KW. Input and output voltage: The input voltage is usually direct current, such as 12VDC or 24VDC; The output voltage is AC, such as 110/120VAC or…
Rack inverter technology Power range: The power range of rack inverters is wide, such as the PIR series rack type power frequency inverter capacity is 300W-4kW, and the PV5000 series high frequency rack off-grid inverter control machine power range is 3KW-5KW. Input and output voltage: The input voltage is usually direct current, such as 12VDC or 24VDC; The output voltage is AC, such as 110/120VAC or…
Power range: The power range of rack inverters is wide, such as the PIR series rack type power frequency inverter capacity is 300W-4kW, and the PV5000 series high frequency rack off-grid inverter control machine power range is 3KW-5KW. Input and output voltage: The input voltage is usually direct current, such as 12VDC or 24VDC; The output voltage is AC, such as 110/120VAC or 220/230VAC. Waveform: Most…
A Static Transfer Switch (STS) is a device commonly used in power systems to automatically switch power inputs in the event of a grid failure or other abnormal situation. By monitoring parameters such as voltage and frequency, it enables fast and reliable switching between two power sources to ensure that the load equipment is continuously powered. The main working principle of the static transfer switch is…
A Static Transfer Switch (STS) is a device commonly used in power systems to automatically switch power inputs in the event of a grid failure or other abnormal situation. By monitoring parameters such as voltage and frequency, it enables fast and reliable switching between two power sources to ensure that the load equipment is continuously powered. The main working principle of the static transfer switch is…