Electricity A-Z: Electricity can be complicated, but it is essential to understanding how to use this wonderful power safely and well. Frequency is one of the important components in electricity. Frequency is the number of time electricity changes direction in one second. In North America, the standard frequency is 60 Hz; which means that electricity reverses direction across an appliance's circuit 60 times per second. In most other countries, it is 50 Hz. That means the electricity alternates directions 50 times in a second. The difference in frequencies used around the world can cause issues for machines if they are ever taken to somewhere with a different frequency. This is the reason we use something called a 50 to 60 Hz frequency converter!
It is a specific tool that converts electricity from one frequency to another. This tool is necessary for factories and other industrial places where machines are required to work on a particular frequency (eg. Unfortunately, if machines are not purposely designed for the local frequency and voltage it can waste energy (or even be damaged). Frequency converter used to be the best products in industry, people can handle frequency easily no matter it is 50HZ or 60 HZ, and many mechanical movement device need a certain frequancy flow rate In this case you will remove all your using machines & buy new one foucing for that those fit local acceptable locally frequnacy.
There are several factors to consider when selecting a frequency converter. Point being, one of the biggest considerations is how much power the converter can process. You need to choose a converter which is able of controlling the utmost power that machine requirements. Failure to handle this power can lead to it causing the converter to burn out or not work correctly, potentially resulting in a lot of issues.
The other major consideration is what sort of converter you have to use. Broadly speaking, frequencies in converters are then distinguished as single-phase (i.e. one three- or four-leg configuration) and "true" 3-phase types. Because of this, single phase converters are for smaller machines and devices while three-phase covers larger machines that need more power. Knowing the differences between these two will help you in selecting your appropriate converter for the specific requirements.
Moreover, a frequency converter itself reduces heat. Mechanical items could overheat and fail if they do not get the updates at the correct frequency, as well. Machines are more prone to breaking down and wearing out faster due to the excessive heat. A frequency converter delivers the correct speed of rotation to machines, creating less heat and allowing devices to stay cooler which in turn helps them function better. It can deliver powerful results which in turn, save from expensive repairs.
These are the two most common frequency converters you find in practice as mentioned before with single-phase and three-phase. The most significant difference between these types is in their power output. These are suitable for medium sized machines and single-phase converters generally for less powerful (up to around 2.2 kW) as it is just smaller in size. This is as opposed to three-phase converters, which are designed for machinery and equipment that require far greater power — often into the megawatt range. This difference is crucial to determine which converter one should use on a specific machine.
One more difference between them is the price The three-phase converters are usually more expensive than the single-phase ones as they can support larger machines and supply more power. Yet, if single-to-three-phase converters are cost-effective only for appliances that draw the small amount of power about 10 kW or less. In this case three-phase converter will be more expensive but efficient and effective especially when applied to large machines in all units of energy consumed on a production site.