An amorphous C core, also known as an amorphous core or amorphous C-type core, is a type of transformer core made from an amorphous material. Amorphous materials are non-crystalline solids that do not have a regular, repeating atomic structure like crystalline materials. Instead, their atoms are arranged in a disordered, random arrangement.
Amorphous C cores are made from a thin strip of amorphous material that is rolled into a cylindrical shape. The material is typically made from a metallic alloy, such as iron, cobalt, or nickel, with small amounts of other elements such as boron, silicon, and phosphorus.
Amorphous C cores have several advantages over traditional transformer cores made from crystalline materials, such as silicon steel or electrical steel. They have a lower core loss, which means they are more efficient and generate less heat during operation. They also have a higher saturation flux density, which allows for the use of smaller cores in transformers and other electrical devices.
Amorphous C cores are used in a variety of applications, including transformers, inductors, and chokes. They are particularly useful for low-power, high-frequency applications, as they have a low core loss and a high saturation flux density.
In summary, an amorphous C core is a type of transformer core made from an amorphous material. It is made from a thin strip of amorphous material that is rolled into a cylindrical shape and is typically made from a metallic alloy. Amorphous C cores have several advantages over traditional transformer cores, including a lower core loss and a higher saturation flux density. They are used in a variety of applications, including transformers, inductors, and chokes, and are particularly useful for low-power, high-frequency applications.