Sine Wave 3 Phase Inverter In Egypt
Lento DSP sine wave Static UPS and inverters are designed to provide stable 50 Hz sine wave irrespective of load and battery voltage, making them the most suitable for inductive, capacitive and non-resistive loads. Importantly, Lento’s inverters and UPS are designed to deliver instantaneous high current during start-up, especially in the case of air conditioners and refrigerators, with safety cut out when battery voltage goes lower than a specified point to avoid brownouts and burning of motors.
Lento 3.5kva 48V Pure Sine Wave Inverter
Product Specification
Phase |
Single |
Output Voltage |
220-230 V |
Output Frequency |
50 Hz |
Design |
Stand Alone |
Transformer Coil |
Copper |
Integrated Cooling |
Fan, Heat Sink |
Charging Current |
15 |
Low Battery Cut Off |
Yes |
Product Description
Static UPS/ Inverter / Industrial Inverter
Range : 2.5KVA 36V to 12KVA 192V
Lento Industries Private Limited provide the clean and stable power supply AC Sine Wave power from charged batteries through 2.5KVA 36VDSP Sine Wave Static Inverter. Lentois emerging as the leading manufacturer, supplier and exporter in the countries like South Africa, Tanzania, Mozambique, Uganda, Kenya, Ethiopia, Yemen, Egypt, Iraq, Iran, UAE, Senegal,Nigeria, Ghana, Nepal,Bangladesh, Vietnam etc.
Lento has designed the 2.5 KVA Pure sine-wave Static UPS based on the world's latest DSP technology. It is a reliable, efficient and highly cost effective solution.
Salient Features:
Applications:
Why Static UPS:
Why Lento Static Ups is Better Than Other Inverters?
The off Line UPS above 1.5KVA are highly unreliable and not available with any brand. The ON Line UPS always wastes 10-15% electricity. i.e. power Loss. About 40% Loss due to poor power Factor is additional to the above. for the applications where the fully regulated voltage and frequency is not required, the static UPS is the best solution. It provides of an Online UPS and with negligible power loss when input Mains AC is present.
What is an inverter?
An inverter converts DC voltage to alternating current voltage. In most cases, the input DC voltage is lower, while the output AC voltage is equal to the grid supply voltage, which can be 120 or 240 volts depending on the country.
The inverter can be designed as a standalone piece of equipment for applications such as solar power or as a backup power supply using batteries that are charged separately.
The other configuration is when it is part of a larger circuit, such as a power supply unit, also known as a UPS. In this case, the rectified mains AC in the PSU powers the inverter, while the rectified AC in the UPS powers it when there is power and the batteries power it when there is no power.
Inverters are classified according to the shape of the switching waveform. These have various circuit configurations, efficiencies, benefits, and drawbacks.
An inverter generates alternating current voltage from direct current power sources and is useful for powering electronics and electrical equipment rated at alternating current mains voltage. Furthermore, they are widely used in the inverting stages of switched mode power supplies. The circuits are classified based on their switching technology and switch type, as well as their waveform, frequency, and output waveform.
What is a Pure Sine Wave Inverter?
Before we get into the benefits of using pure sine wave inverters in your home, it's important to understand what they are and how they work. Pure sine wave inverters produce AC power that closely resembles the real thing - a steady, continuous sine wave with smooth, periodic oscillations. As a result, the price of this solar inverter for home is quite high. Furthermore, certain devices are only compatible with these inverters. If you use another type of inverter, your devices may malfunction or be damaged.
Let us now look at the advantages of pure sine wave inverters.
Advantages of Pure Sine Wave Inverter-
A pure sine wave inverter, as opposed to modified sine wave inverters, provides consistent, uninterrupted power to your devices. What makes this so great? Because modified sine wave inverters produce power in a step pattern, the voltage abruptly rises and falls, resulting in inconsistent current flow to your devices, which can be harmful in the long run. When shopping for a solar inverter for your home, it's best to go with pure sine wave inverters.
A pure sine wave produces a wave that is very similar to the smooth waveform generated by mains electricity. That is, there is no discernible difference between plugging your devices into these inverters and plugging them into a wall outlet.
This, of course, means that you can use almost any device during a power outage.
The smooth waveform produced by a pure sine wave inverter also protects your high-end electronics from damage during power outages. After all, you don't want your gaming computer or oxygen machine to fail during a power outage.
Furthermore, using modified sine wave inverters with AC-powered devices such as microwaves and refrigerators can generate excessive waste heat, putting your devices at risk. Pure sine wave inverters, on the other hand, pose no threat to any of your devices.
When using standard inverters, you may occasionally hear an annoying humming sound from lights and fans. When using a pure wave inverter, this is not the case. The waves produced by these inverters make very little noise. Pure wave inverters are simply cleaner, cooler, and quieter.
Because of the grid-like wave pattern and power these inverters produce, almost all devices work with them, including:
So why use a pure sine wave inverter?
Frequently Asked Questions-
What is a 3-phase sine wave?
Three phase power relies on three coils mounted on the rotor at 120 degree intervals, which produce three sine wave voltages (high voltage). It's used universally for power distribution.
Is a sine wave AC or DC?
An AC supply is suitable for powering some devices such as lamps and heaters but almost all electronic circuits require a steady DC supply (see below). This shape is called a sine wave. This triangular signal is AC because it changes between positive (+) and negative (-).
Why do we use sine waves?
Voltage fluctuations, such as spikes, surges, or voltage sags, can harm electronic devices. A sine wave UPS smooths out these irregularities, providing a consistent and reliable voltage supply within a specified tolerance range. This feature protects devices from voltage-related damage and extends their lifespan.
Is inverter a sine wave?
A pure sine wave inverter is a type of power inverter that converts DC (direct current) power from batteries or other DC sources into AC power that can be used to power a wide range of electronic devices and appliances, including sensitive equipment such as laptops, refrigerators, air conditioners, and more.
Why sine wave is used for AC supply?
Sine waves are used in AC circuit analysis because they are a natural representation of alternating current. AC voltage and current oscillate back and forth at a certain frequency, and the sine wave is a mathematical function that can accurately model this oscillation.
What is a real life example of a sine wave?
The beautiful sine wave turns out to have a huge number of practical applications, from the motion of springs, to waves in the sea, to sound waves, light waves and more.
How does sine wave work?
A sine wave is a geometric waveform that oscillates (moves up, down, or side-to-side) periodically and is defined by the function y = sin x. In other words, it is an s-shaped, smooth wave that oscillates above and below zero.
What is the voltage of a sine wave?
For a sine wave, it is equal to 1.414 times the RMS value. For example, in a 120 VAC sine wave voltage, the RMS value is 120 V and the peak value is 120 X1. 414 = 169.68 or approximately 170 V.