Any kind of myths can be problematic. And when it comes to something as important as a transformer, wrong beliefs can definitely lead to transformer failures with an increase in the costs incurred. Listed below are the most common transformer myths found within people. Read further to know if you also believe in these false statements, and clear off your doubts for the same.
The Indian Government has announced to build up more than 100 smart cities in India. With the project and planning in process since the past 2 years, India is soon to experience a new experience of being ‘smart’. So, what exactly makes a smart city? It is a combination of hygiene, health and education, information and communication technology, adequate water supply, efficient public transport, affordable housing, safety and security, and uninterrupted power supply.
Smart transformers are solid state transformers that play a managerial role in the electric distribution grid. They work independently to constantly regulate the voltage while maintaining contact with the smart grid so that information and feedback about the transformer and power supply can be provided even through remote administration. These transformers are designed to provide a voltage optimized power supply to address the energy needs of the facility, which is why large commercial facilities are using these devices more and more today so that they can use power more efficiently and cost-effectively.
Transformers rarely go down, but when they do, they highly affect the entire working environment with devastating effects. In case of a transformer failure, there is great loss of operational capability with the entire process being interrupted and the assembly line coming to a stop. Additionally, there could be subsequent fires, security lapses and great loss of income. Therefore, it is very essential to take care of transformer protection.
A transformer going down means an emergency replacement is required to keep the production on line! How equipped are you for such an emergency? And, how much can you afford to lose during replacement? These questions need to be well answered for any CEO, manager, or anyone in charge of the plant.
It is advisable to install a number of smaller rated transformers in parallel rather than installing a bigger rated electrical transformer. This is so that the electrical power system availability, flexibility and efficiency are maximized. Let s understand all of this in detail.
Transformers generally require lesser care than most other kinds of electrical equipment. However, in case of any constructional or operational failures in transformers, huge problems can be created in power systems. This is why you must be very sure and careful while purchasing transformers. You must purchase your electrical equipment from reputed names like Miracle Electronics, who are known for their standards and quality products, along with providing the best after-sales service too.
Although transformers and inductors look very similar and also seem similar in construction to a layman, they are actually two different elements used in different applications. To help you understand this difference, we have explained both transformers and inductors in detail below.
No matter what type of electronics you work with, choosing the best cable harness assembly out of the many options available can become a tedious and painstaking task. However, working with one of the most professional and experienced cable harness manufacturers in India like Miracle Electronics, you can choose easily from different sizes, colours and types by discussing your requirements. You also have the option to completely customize your wire and cable components as per your specifications. Used as a means to combine cables together and securing them, a cable harness assembly has numerous benefits that make them so popular and widely used. Listed below are some of the benefits you can get your hands on with a cable harness assembly.
Toroidal transformers use circular or doughnut-shaped magnetic cores of ferromagnetic material like laminated iron, iron powder or ferrite, around which wire is wound. Due to the symmetry of the toroidal shape, the amount of magnetic flux that escapes outside the core is low, which results in more efficiency. These small sized toroidal transformers are used in a variety of electric circuits of amplifiers, inverters and power supplies to be used in electrical equipment like TVs, radios, audio systems and computers. Toroidal transformers are used in place of conventional transformers due to a variety of reasons, some of which are stated below.