Abstract: A coil electrical component and a method of manufacturing the same. Magnetic material powder and adhesive powder are mixed in a predetermined proportion to form a solid mixture. The solid mixture and an object, such as a coil or a core material surrounded by the coil, are filled in a mold having a predetermined shape. The solid mixture in the mold is heated such that the magnetic material powder is adhered by the adhesive powder and covers the object, so as to form the coil electrical component. The coil electrical component corresponds in shape to the mold. Therefore, the coil electrical component has stable quality, and can be manufactured with less time and lower cost.
Abstract: A coil electrical component and a method of manufacturing the same. Magnetic material powder and adhesive powder are mixed in a predetermined proportion to form a solid mixture. The solid mixture and an object, such as a coil or a core material surrounded by the coil, are filled in a mold having a predetermined shape. The solid mixture in the mold is heated such that the magnetic material powder is adhered by the adhesive powder and covers the object, so as to form the coil electrical component. The coil electrical component corresponds in shape to the mold. Therefore, the coil electrical component has stable quality, and can be manufactured with less time and lower cost.
Abstract: An inductive element having a gap and a fabrication method thereof are disclosed. The fabrication method is for fabricating an inductive element having a first core body, a second core body and a gap, and includes: coating an adhesive on a gap-facing side of the first core body and/or the second core body; providing a linear spacer and installing the linear spacer between the first core body and the second core body; and combining the side of the first core body where the adhesive is coated with the side of the second core body where the adhesive is coated, allowing the linear spacer to form the gap when the first core body is combined with the second core body. Thereby, the linear spacer establishes the size of the gap of the inductive element and improves the adhesion of the first core body to the second core body.
Abstract: An inductive element having a gap and a fabrication method thereof are disclosed. The fabrication method is for fabricating an inductive element having a first core body, a second core body and a gap, and includes: coating an adhesive on a gap-facing side of the first core body and/or the second core body; providing a linear spacer and installing the linear spacer between the first core body and the second core body; and combining the side of the first core body where the adhesive is coated with the side of the second core body where the adhesive is coated, allowing the linear spacer to form the gap when the first core body is combined with the second core body. Thereby, the linear spacer establishes the size of the gap of the inductive element and improves the adhesion of the first core body to the second core body.