| 主权项 |
1. A monolithic ceramic capacitor comprising:
an element body including therein a multilayer portion including a plurality of conductor layers and a plurality of ceramic dielectric layers alternately stacked in a thickness direction; and an outer electrode provided on an outer portion of the element body; wherein the capacitor has dimensions of about 0.4 mm length, about 0.2 mm width and about 0.2 mm thickness; outer surfaces of the element body include a first principal surface and a second principal surface opposed in the thickness direction, a first end surface and a second end surface opposed in a length direction perpendicular or substantially perpendicular to the thickness direction, and a first side surface and a second side surface opposed in a width direction perpendicular or substantially perpendicular to both the thickness direction and the length direction; the outer electrode includes a first outer electrode arranged to cover the first end surface, and a second outer electrode arranged to cover the second end surface; the element body is divided in the thickness direction into a thickness-direction first outer layer portion that includes the ceramic dielectric layer and defines the first principal surface, a thickness-direction second outer layer portion that includes the ceramic dielectric layer and defines the second principal surface, and a thickness-direction inner layer portion including the multilayer portion and located between the thickness-direction first outer layer portion and the thickness-direction second outer layer portion; among the plurality of conductor layers included in the thickness-direction inner layer portion, a first conductor layer arranged at a position closest to the first principal surface is provided at a position adjacent to the ceramic dielectric layer defining the thickness-direction first outer layer portion; among the plurality of conductor layers included in the thickness-direction inner layer portion, a second conductor layer arranged at a position closest to the second principal surface is provided at a position adjacent to the ceramic dielectric layer defining the thickness-direction second outer layer portion; one portion of the plurality of conductor layers including the first conductor layer is connected with the first outer electrode through a first extension portion extending from the multilayer portion toward the first end surface side; another portion of the plurality of conductor layers including the second conductor layer is connected with the second outer electrode through a second extension portion extending from the multilayer portion toward the second end surface side; center portions in the length direction of both the first principal surface and the second principal surface bulge to an outer side so that a thickness of the element body is minimum at both end portions in the length direction; each of the plurality of conductor layers has a curved shape in the length direction so that a center portion in the length direction of each of the plurality of conductor layers is close to a closer one of the first principal surface and the second principal surface; center portions in the width direction of both the first principal surface and the second principal surface bulge to the outer side so that the thickness of the element body is minimum at both end portions in the width direction; each of the plurality of conductor layers has a curved shape in the width direction so that a center portion in the width direction of each of the plurality of conductor layers is close to a closer one of the first principal surface and the second principal surface; in any cross-section parallel or substantially parallel to both the thickness direction and the length direction, a thickness of a portion of the thickness-direction first outer layer portion adjacent to the first extension portion is larger than a thickness of a center portion in the length direction of the thickness-direction first outer layer portion, and a thickness of a portion of the thickness-direction second outer layer portion adjacent to the second extension portion is larger than a thickness of a center portion in the length direction of the thickness-direction second outer layer portion; where a bulging amount of the element body whose center portion along the length direction bulges to the outer side is defined as an element-body bulging amount M, a bulging amount of the element body whose center portion along the width direction bulges to the outer side is defined as an element-body bulging amount N, a bulging amount of the multilayer portion whose center portion along the length direction bulges to the outer side is defined as a multilayer-portion bulging amount m, and a bulging amount of the multilayer portion whose center portion along the width direction bulges to the outer side is defined as a multilayer-portion bulging amount n; a number of stacked conductor layers is 140 or greater, the element-body bulging amount N and the multilayer-portion bulging amount n are about 10 μm or greater, respectively, and a relationship N>n is satisfied, and the element-body bulging amount M and the multilayer-portion bulging amount m are about 10 μm or greater, respectively, and a relationship M<m is satisfied. |
