The coil comprises a coil carrier, a coil wire at least partially surrounded by an insulating layer and wound around the coil carrier, as well as a protective cover layer at least partially covering the coil wire wound around the coil carrier. The coil wire is composed, at least partially, of silver, the insulating layer surrounding the coil wire is composed, at least partially, of a ceramic material, and the protective cover layer is composed, at least partially, of a ceramic material and/or a glass.

The coil comprises a coil carrier, a coil wire at least partially surrounded by an insulating layer and wound around the coil carrier, as well as a protective cover layer at least partially covering the coil wire wound around the coil carrier. The coil wire is composed, at least partially, of silver, the insulating layer surrounding the coil wire is composed, at least partially, of a ceramic material, and the protective cover layer is composed, at least partially, of a ceramic material and/or a glass.

A common mode choke coil includes an element body formed by stacking a plurality of insulating layers in a height direction, first and second coils that are built into the element body, first and second outer electrodes that are provided on surfaces of the element body so as to face each other in a width direction and are electrically connected to one end and the other end of the first coil, and third and fourth outer electrodes that are provided on surfaces of the element body so as to face each other in the width direction and are electrically connected to one end and the other end of the second coil. When L1 and L2 are the inductances of the first and second coils, 100×|L1−L2|/((L1+L2)/2)≤5 at 1 GHz.

A common mode choke coil includes an element body formed by stacking a plurality of insulating layers in a height direction, first and second coils that are built into the element body, first and second outer electrodes that are provided on surfaces of the element body so as to face each other in a width direction and are electrically connected to one end and the other end of the first coil, and third and fourth outer electrodes that are provided on surfaces of the element body so as to face each other in the width direction and are electrically connected to one end and the other end of the second coil. When L1 and L2 are the inductances of the first and second coils, 100×|L1−L2|/((L1+L2)/2)≤5 at 1 GHz.

A mother substrate that enables winding cores to be obtained in a manner in which the mother substrate is divided along x-direction division lines and y-direction division lines is prepared. Subsequently, x-direction division grooves are formed along the x-direction division lines on a first main surface of the mother substrate, y-direction division grooves are formed along the y-direction division lines on the first main surface, and shallow bottom surface exposure grooves, for exposing surfaces that are to be core portion bottom surfaces, are formed on the first main surface. The mother substrate is divided by performing a flattening process on a second main surface of the mother substrate that is opposite the first main surface until the second main surface reaches the x-direction division grooves and the y-direction division grooves to obtain the winding cores that are separated from each other.

A mother substrate that enables winding cores to be obtained in a manner in which the mother substrate is divided along x-direction division lines and y-direction division lines is prepared. Subsequently, x-direction division grooves are formed along the x-direction division lines on a first main surface of the mother substrate, y-direction division grooves are formed along the y-direction division lines on the first main surface, and shallow bottom surface exposure grooves, for exposing surfaces that are to be core portion bottom surfaces, are formed on the first main surface. The mother substrate is divided by performing a flattening process on a second main surface of the mother substrate that is opposite the first main surface until the second main surface reaches the x-direction division grooves and the y-direction division grooves to obtain the winding cores that are separated from each other.

A common mode choke coil includes an element body formed by stacking a plurality of insulating layers in a height direction, first and second coils that are built into the element body, first and second outer electrodes that are provided on surfaces of the element body so as to face each other in a width direction and are electrically connected to one end and the other end of the first coil, and third and fourth outer electrodes that are provided on surfaces of the element body so as to face each other in the width direction and are electrically connected to one end and the other end of the second coil. When L1 and L2 are the inductances of the first and second coils, 100×|L1−L2|/((L1+L2)/2)≤5 at 1 GHz.

A common mode choke coil includes an element body formed by stacking a plurality of insulating layers in a height direction, first and second coils that are built into the element body, first and second outer electrodes that are provided on surfaces of the element body so as to face each other in a width direction and are electrically connected to one end and the other end of the first coil, and third and fourth outer electrodes that are provided on surfaces of the element body so as to face each other in the width direction and are electrically connected to one end and the other end of the second coil. When L1 and L2 are the inductances of the first and second coils, 100×|L1−L2|/((L1+L2)/2)≤5 at 1 GHz.

The coil comprises a coil carrier, a coil wire at least partially surrounded by an insulating layer and wound around the coil carrier, as well as a protective cover layer at least partially covering the coil wire wound around the coil carrier. The coil wire is composed, at least partially, of silver, the insulating layer surrounding the coil wire is composed, at least partially, of a ceramic material, and the protective cover layer is composed, at least partially, of a ceramic material and/or a glass.

The coil comprises a coil carrier, a coil wire at least partially surrounded by an insulating layer and wound around the coil carrier, as well as a protective cover layer at least partially covering the coil wire wound around the coil carrier. The coil wire is composed, at least partially, of silver, the insulating layer surrounding the coil wire is composed, at least partially, of a ceramic material, and the protective cover layer is composed, at least partially, of a ceramic material and/or a glass.