Core-type and shell-type transformers refer to two different construction styles of transformers used in electrical and electronic applications. The main difference lies in their arrangement and placement of windings around the core.
Core-Type Transformers:
In core-type transformers, the windings are wound around the central core. The core is typically made of laminated iron or steel sheets, which provide a low-reluctance path for the magnetic flux generated by the alternating current in the windings. The windings are usually cylindrical and are placed concentrically around the core.
Advantages of Core-Type Transformers:
Better mechanical stability due to the centralized core structure.
Lower leakage flux, resulting in improved efficiency.
Easier to manufacture and maintain.
Shell-Type Transformers:
In shell-type transformers, the core surrounds the windings, and the windings are placed inside the core. The core is made up of thin strips of laminated steel, and the windings are often arranged in the form of coils that fit inside the core.
Advantages of Shell-Type Transformers:
Reduced winding capacitance due to a larger distance between windings and core, which lowers losses and improves high-frequency performance.
Typically more compact and lighter compared to core-type transformers.
Better cooling characteristics due to more exposed surface area.
Both core-type and shell-type transformers have their specific advantages and are used in various applications based on the design requirements, such as power rating, voltage levels, efficiency, and size constraints. The choice between the two types depends on factors like the intended application, cost, efficiency, and available space.