Patent ID: 8649156
Filing Date: 2014-02-11
Classification: H01G

Abstract:
1. A multilayer capacitor comprising: a capacitor body having a multilayer structure including a plurality of stacked dielectric layers, and having a substantially rectangular parallelepiped shape including a first principal surface and a second principal surface extending substantially parallel to surfaces of the dielectric layers and opposed to each other, a first side surface and a second side surface opposed to each other, and a first end surface and a second end surface opposed to each other, the first and second end surfaces having a length greater than a length of the first and second side surfaces; and a first external terminal electrode and a second external terminal electrode provided on the first end surface and on the second end surface of the capacitor body, respectively; wherein the capacitor body includes a first capacitor portion and a second capacitor portion arranged adjacently in a stacking direction in which the dielectric layers are stacked; the first capacitor portion includes a first internal electrode and a second internal electrode opposed to each other with one of the dielectric layers disposed therebetween to provide electrostatic capacity; the second capacitor portion includes a third internal electrode and a fourth internal electrode opposed to each other with one of the dielectric layers disposed therebetween to provide electrostatic capacity; the first internal electrode includes a first capacity portion and a first lead portion which is led out from the first capacity portion to extend to the first end surface and which is electrically connected to the first external electrode; the second internal electrode includes a second capacity portion opposed to the first capacity portion with one of the dielectric layers disposed therebetween, and a second lead portion which is led out from the second capacity portion to extend to the second end surface and which is electrically connected to the second external electrode; the third internal electrode includes a third capacity portion and a third lead portion which is led out from the third capacity portion to extend to the first end surface and which is electrically connected to the first external electrode; the fourth internal electrode includes a fourth capacity portion opposed to the third capacity portion with one of the dielectric layers disposed therebetween, and a fourth lead portion which is led out from the fourth capacity portion to extend to the second end surface and which is electrically connected to the second external electrode; dummy electrodes are included in the first capacitor portion and in the second capacitor portion and disposed on respective dielectric layers of the plurality of dielectric layers; each of the dummy electrodes is disposed on a respective common dielectric layer of the plurality of dielectric layers in combination with a respective one of the first, second, third, and fourth lead portions, and a width of each of the dummy electrodes is the same or substantially the same as a width of an exposed edge of the respective one of the first, second, third, and fourth lead portions; each of the dummy electrodes is arranged opposite to the respective one of the first, second, third, and fourth lead portions on the respective common dielectric layer in a lead-out direction; the width of each of the dummy electrodes provided at the first capacitor portion is greater than the width of each of the dummy electrodes provided in the second capacitor portion; and the second capacitor portion is sandwiched between two first capacitor portions in the capacitor body, and the capacitor body is arranged to be mounted on a mounting surface such that one of the first and second principal surfaces is arranged to face the mounting surface.