A component built-in substrate includes a multilayer body and a substrate including a multilayer ceramic electronic component embedded therein. The multilayer ceramic electronic component includes a first connection portion that protrudes from the first external electrode, and a second connection portion that protrudes from the second external electrode. The substrate includes a core material. The multilayer ceramic electronic component including the first connection portion and the second connection portion includes a surface covered by the core material and embedded in the substrate. The first connection portion protrudes toward a surface of the substrate, and is not exposed at the surface of the substrate. The second connection portion protrudes toward the surface of the substrate, and is not exposed at the surface of the substrate.

A component built-in substrate includes a multilayer body and a substrate including a multilayer ceramic electronic component embedded therein. The multilayer ceramic electronic component includes a first connection portion that protrudes from the first external electrode, and a second connection portion that protrudes from the second external electrode. The substrate includes a core material. The multilayer ceramic electronic component including the first connection portion and the second connection portion includes a surface covered by the core material and embedded in the substrate. The first connection portion protrudes toward a surface of the substrate, and is not exposed at the surface of the substrate. The second connection portion protrudes toward the surface of the substrate, and is not exposed at the surface of the substrate.

In a multilayer ceramic electronic component, a stacked body includes a first outer layer and a first outermost internal electrode layer. The first outer layer defines a first main surface. The first outermost internal electrode layer is adjacent to the first outer layer. The first outermost internal electrode layer is in contact with a first external electrode at a first end surface. The thickness of the first outer layer at the first end surface is greater than the thickness of the first outer layer at the center or approximate center in a length direction.

In a multilayer ceramic electronic component, a stacked body includes a first outer layer and a first outermost internal electrode layer. The first outer layer defines a first main surface. The first outermost internal electrode layer is adjacent to the first outer layer. The first outermost internal electrode layer is in contact with a first external electrode at a first end surface. The thickness of the first outer layer at the first end surface is greater than the thickness of the first outer layer at the center or approximate center in a length direction.

A multilayer ceramic electronic device includes a multilayer chip having a plurality of internal electrode layers that face each other and a plurality of dielectric layers, each of which is sandwiched by two of the plurality of internal electrode layers, one end of at least one of the plurality of internal electrode layers being exposed at a side face of the multilayer chip, a first external electrode that is provided on the side face of the multilayer chip, is in contact with at least one of the each end of the plurality of internal electrode layers, and includes ceramic grains, and a second external electrode that is provided on the first external electrode, has a glass, and has a main component that is a same metal as that of the first external electrode.

A multilayer ceramic electronic device includes a multilayer chip having a plurality of internal electrode layers that face each other and a plurality of dielectric layers, each of which is sandwiched by two of the plurality of internal electrode layers, one end of at least one of the plurality of internal electrode layers being exposed at a side face of the multilayer chip, a first external electrode that is provided on the side face of the multilayer chip, is in contact with at least one of the each end of the plurality of internal electrode layers, and includes ceramic grains, and a second external electrode that is provided on the first external electrode, has a glass, and has a main component that is a same metal as that of the first external electrode.

A multilayer ceramic electronic component includes a ceramic body including a dielectric layer and a plurality of internal electrodes disposed to oppose each other with the dielectric layer interposed therebetween, and an external electrode formed outside the ceramic body. The external electrode includes an electrode layer, and a thickness T1 of the electrode layer corresponding to a central region of the ceramic body in a thickness direction is 5 μm or more and 30 μm or less, a thickness T2 of the electrode layer corresponding to a region in which an outermost internal electrode is located is 5 μm or more and 15 μm or less, and a thickness T3 of the electrode layer corresponding to a corner portion of the ceramic body is 0.1 μm or more and 10 μm or less.

A multilayer ceramic electronic component includes a ceramic body including a dielectric layer and a plurality of internal electrodes disposed to oppose each other with the dielectric layer interposed therebetween, and an external electrode formed outside the ceramic body. The external electrode includes an electrode layer, and a thickness T1 of the electrode layer corresponding to a central region of the ceramic body in a thickness direction is 5 μm or more and 30 μm or less, a thickness T2 of the electrode layer corresponding to a region in which an outermost internal electrode is located is 5 μm or more and 15 μm or less, and a thickness T3 of the electrode layer corresponding to a corner portion of the ceramic body is 0.1 μm or more and 10 μm or less.

A multilayer ceramic electronic component includes a multilayer body including layered ceramic layers and layered inner electrode layers and having a rectangular parallelepiped shape, and outer electrodes covering both end surfaces of the multilayer body and extending from both end surfaces to cover at least a portion of a first main surface of the multilayer body. The multilayer ceramic capacitor includes an insulating layer continuously extending from a ceramic layer at the first main surface of the multilayer body so as to cover end edge portions of both the outer electrodes located on the first main surface of the multilayer body, and t2>t1 is satisfied.

A multilayer ceramic electronic component includes a multilayer body including layered ceramic layers and layered inner electrode layers and having a rectangular parallelepiped shape, and outer electrodes covering both end surfaces of the multilayer body and extending from both end surfaces to cover at least a portion of a first main surface of the multilayer body. The multilayer ceramic capacitor includes an insulating layer continuously extending from a ceramic layer at the first main surface of the multilayer body so as to cover end edge portions of both the outer electrodes located on the first main surface of the multilayer body, and t2>t1 is satisfied.