A Phase Converter and How it Operates
Would you be encountering a phase converter for the first time? Well, with this extensive and detailed information about a phase converter and how it operates will help you greatly to understand more about the science and technology behind it. You realize there are cases where some applications require a three-phase power, but it happens that what is available is a single-phase says Phoenix Phase Converters. Therefore, a phase converter comes in to help in the conversion of the power available from a single source into many sources in order to help the application operate smoothly.
Definition of Phase Converter
A rotary phase converter can be defined as a machine on a rotation that can be compared to a motor which enhances the conversion of 1-phase utility power to a three-phase’ electricity in order to facilitate a successful operation of a three-phase equipment such as motors, resistive and inductive loads. Converters of electricity phases are mostly applied where there is no utility three-phase or it is expensive to have it installed. A well selected and sized converter is capable of enhancing the operation of any given load just like the utility three-phase and it can assure you significant years of service with fewer challenges.
Digital Phase Converters
These refer to the latest upgrades and development which have so far been made in the technology of phase converter that makes use of software proprietary in a very strong microprocessor in order to allow the switching of the solid states components. The Digital signal processor plays the role of monitoring the process of phase conversion, enhancing continued adjustment of the input and output modules of the converter to help in maintaining perfectly a balanced three-phase power under all the conditions of the load.
Just like static and rotary phase converters, a digital phase converter can effectively produce a third voltage which is directed to L1 and L2 of a single-phase service in order to create a power of three-phase.
How a Phase Converter Work
First of all, it acts like a rotary generator of electric power. A phase converter transforms a 1-phase energy supply into a three-phase power. The phase converter employs a one-phase’ two-line supply of power at the utility and forms a third power line. These three lines also referred to as the phases cannot be distinguished to utility three-phase power which is known to be more accurate compared to the utility provided to the three-phase power when the three lines are moved close to 120 degrees.
Whenever the phase converter is perfectly sized, it can successfully and efficiently produce a perfect three-phase power by ensuring all the three output voltages are well balanced on a complete range of the loads connected.
Types of Phase Converters
There are three main types of phase converters. They include:
1. Pro-Line Phase Converters
This line comes with three-phase power and output voltages of all the 3 lines. This line is the best for different types of loads which include very sensitive equipment such as CNC machinery.
2. UL – Listed Rotary Phase Converters
This kind of phase converter includes the cUL and UL listing for Canada and the US.
3. Smart-BoostTM Digital Phase Converters
The smart BoostTM phase converter is capable of starting a motor when no any other converter can do. The booster utilizes a solid-start switching in order to re-engage the capacitors for ignition and provide a starting current from the motor of at least 600%.
Benefits of Phase Converter
-It is highly preferable equipment which is a voltage-sensitive CNC machine
-They are eco-friendly compared to installing a power line of three-phase
-They are highly efficient since they can transform above 97% of the available power into operational power.
-They can last for a long period approximated to over 30 years.
So, what is a phase converter? Phase converters are highly efficient to help in generating several phase currents from just a single source. They help to lower down the cost by offering a complete three-phase power which is highly expensive for utility companies in terms of manpower and price.