An electronic component includes a laminated body including dielectric layers and internal electrode layers, a first external electrode, a pair of second external electrodes, and a pair of insulating coating portions. The internal electrode layers include first and second internal electrode layers, the second internal electrode layers each include first and second extended electrode portions. A relationship of L1/L2>1.0 is satisfied when a length of a first contact portion with one second external electrode in contact with the first extended electrode portion in the length direction is L1, and a length of a second contact portion with the other second external electrode in contact with the second extended electrode portion in the length direction is L2.

An electronic component includes a laminated body including dielectric layers and internal electrode layers, a first external electrode, a pair of second external electrodes, and a pair of insulating coating portions. The internal electrode layers include first and second internal electrode layers, the second internal electrode layers each include first and second extended electrode portions. A relationship of L1/L2>1.0 is satisfied when a length of a first contact portion with one second external electrode in contact with the first extended electrode portion in the length direction is L1, and a length of a second contact portion with the other second external electrode in contact with the second extended electrode portion in the length direction is L2.

An electronic component includes a multilayer body, first to fourth outer electrodes, a pair of first insulating coating portions, and a pair of second insulating coating portions. The pair of first insulating coating portions is in at least one of a state in which inner end portions are in contact with the third outer electrode and a state in which outer end portions are in contact with the first outer electrode and the second outer electrode. The pair of second insulating coating portions is in at least one of a state in which inner end portions are in contact with the fourth outer electrode and a state in which outer end portions are in contact with the first outer electrode and the second outer electrode.

A multilayer ceramic electronic component includes a laminated body, a first external electrode, a pair of second external electrodes, and a pair of insulating coating portions. The pair of insulating coating portions extends in a laminating direction between each of the pair of second external electrodes and the first external electrode on a second principal surface, from the second principal surface to respective portions of a first side surface and a second side surface. A maximum thickness of the first external electrode on the second principal surface is larger than a maximum thickness of the pair of second external electrodes on the second principal surface. The maximum thickness of the pair of second external electrodes on the second principal surface is larger than a maximum thickness of the pair of insulating coating portions on the second principal surface.

A multilayer ceramic electronic component includes a laminated body, a first external electrode, a pair of second external electrodes, and a pair of insulating coating portions. The pair of insulating coating portions extends in a laminating direction between each of the pair of second external electrodes and the first external electrode on a second principal surface, from the second principal surface to respective portions of a first side surface and a second side surface. A maximum thickness of the first external electrode on the second principal surface is larger than a maximum thickness of the pair of second external electrodes on the second principal surface. The maximum thickness of the pair of second external electrodes on the second principal surface is larger than a maximum thickness of the pair of insulating coating portions on the second principal surface.

One object of the present invention is to enable identification of the direction of an electronic component, while suppressing increase in cost. The present invention provides an electronic component comprising: an insulator portion having a plurality of surfaces (e.g., a top surface, a bottom surface, end surfaces, and side surfaces), the insulator portion including a plurality of regions having different transmissivities of a light beam entering one of the plurality of surfaces (e.g., a top surface, a bottom surface, end surfaces, and side surfaces); an internal conductor portion provided in the insulator portion; and external electrodes provided on the insulator portion and electrically connected to the internal conductor portion.

One object of the present invention is to enable identification of the direction of an electronic component, while suppressing increase in cost. The present invention provides an electronic component comprising: an insulator portion having a plurality of surfaces (e.g., a top surface, a bottom surface, end surfaces, and side surfaces), the insulator portion including a plurality of regions having different transmissivities of a light beam entering one of the plurality of surfaces (e.g., a top surface, a bottom surface, end surfaces, and side surfaces); an internal conductor portion provided in the insulator portion; and external electrodes provided on the insulator portion and electrically connected to the internal conductor portion.

A multilayer capacitor includes a ceramic body including a plurality of dielectric layers stacked to be disposed perpendicularly to a mounting surface of the ceramic body, and first and second internal electrodes alternately disposed, with respective dielectric layers interposed therebetween, the first and second internal electrodes being exposed to the mounting surface of the ceramic body and first and second end surfaces of the ceramic body opposing each other, respectively; first and second external electrodes disposed on the ceramic body to be connected to the first and second internal electrodes, respectively; and an insulating layer disposed on the mounting surface of the ceramic body and covering portions of the first and second internal electrodes exposed to the mounting surface but not in contact with the first and second external electrodes.

Various embodiments of the teachings herein include a capacitor assembly comprising: a capacitor extending at least partially around a space, the capacitor including first, positive-voltage-side current terminals and second, negative-voltage-side current terminals; a first bus bar electrically connected to the first current terminals; and a second bus bar electrically connected to the second current terminals. The first and the second busbar extend parallel to or obliquely to an end face of the space.

Various embodiments of the teachings herein include a capacitor assembly comprising: a capacitor extending at least partially around a space, the capacitor including first, positive-voltage-side current terminals and second, negative-voltage-side current terminals; a first bus bar electrically connected to the first current terminals; and a second bus bar electrically connected to the second current terminals. The first and the second busbar extend parallel to or obliquely to an end face of the space.