Inductor and dc-dc converter using the same

1 . An inductor comprising: an element body including a first body portion constituted of material containing magnetic material, the element body having a rectangular parallelepiped outer shape and having a pair of first side surfaces facing each other in a first direction, a pair of second side surfaces facing each other in a second direction perpendicular to the first direction, and a pair of third side surfaces facing each other in a third direction perpendicular to both the first direction and the second direction; a first coil conductor having a first conductor extending along the first direction in the element body, a second conductor extending along the first direction in the element body and adjacent to the first conductor in the second direction, and a third conductor extending along the second direction in the element body and connecting end portions on one side in the first direction of the first and second conductors; a second coil conductor aligned with the first coil conductor in the third direction, the second coil conductor having the first conductor, the second conductor, and the third conductor; and a magnetic body provided in the element body and having a magnetic permeability higher than that of the first body portion, the magnetic body having a rectangular parallelepiped outer shape and interposed between the first coil conductor and the second coil conductor in the third direction and having a pair of forth side surfaces facing each other in the first direction, a pair of fifth side surfaces facing each other in the second direction, and a pair of sixth side surfaces facing each other in the third direction; wherein the pair of fifth side surfaces of the magnetic body protrude outward from each of the first and second conductors of the first and second coil conductors, and the pair of fifth side surfaces of the magnetic body are close to the pair of second side surfaces of the element body, and wherein the forth side surface located on one side in the first direction of the pair of forth side surfaces of the magnetic body is located on the other side in the first direction with respect to a surface on one side in the first direction of each of the third conductors of the first and second coil conductors. 2 . The inductor according to claim 1 , wherein the first element body portion of the element body includes a first portion located between the first and second conductors of each of the first and second coil conductors, a second portion located outside the first and second conductors of each of the first and second coil conductors in the second direction, and a third portion connecting the first and second portions outside each of the first and second conductors in the third direction. 3 . The inductor according to claim 2 , wherein the first element body portion of the element body further includes a forth portion located outside the magnetic body in the second direction. 4 . The inductor according to claim 3 , wherein protruding length of each of the pair of fifth side surfaces of the magnetic body from the first and second conductors of the first and second coil conductors is longer than length of the forth portion in the second direction. 5 . The inductor according to claim 2 , wherein the first element body portion of the element body further includes a fifth portion integrally covering the forth side surface located on the other side in the first direction of the pair of forth side surfaces of the magnetic body, and a surface on the other side in the first direction of the first portions, the second portions, and the third portions of the element body portion. 6 . The inductor according to claim 2 , wherein the element body further includes a second element body portion made of a resin-containing material, the second element body portion integrally covering a surface on the one side in the first direction of the third conductor of each of the first and second coil conductors, a surface on the one side in the first direction of the magnetic body, and surfaces on the one side in the first direction of the second and third portions of the first element body portion. 7 . The inductor according to claim 1 , wherein distances between the first and second conductors of each of the first and second coil conductors and the magnetic body are shorter than length of the third portion of the first element body portion in the third direction and shorter than lengths of the magnetic body in the third direction. 8 . The inductor according to claim 1 , wherein a gap between the first and second conductors of each of the first and second coil conductors and the magnetic body is filled with a material constituting the first element body portion. 9 . The inductor according to claim 1 , wherein the first and second conductors of each of the first and second coil conductors are in direct contact with the magnetic body. 10 . The inductor according to claim 1 , wherein the magnetic body is formed by stacking in the first direction a plurality of magnetic ribbons made of amorphous ribbon or nanocrystalline ribbon via an insulation layer. 11 . The inductor according to claim 1 , wherein the magnetic body includes a plurality of magnetic blocks, each of the magnetic blocks is formed by stacking in the first direction a plurality of magnetic ribbons made of amorphous ribbon or nanocrystalline ribbon via an insulation layer. 12 . The inductor according to claim 11 , wherein the plurality of magnetic blocks are stacked in the first direction. 13 . The inductor according to claim 1 , wherein each of the pair of fifth side surfaces and the pair of sixth side surfaces of the magnetic body is a concave-convex surface, and the concave-convex surface is in direct contact with the first element body portion of the element body. 14 . A DC-DC converter comprising the inductor according to claim 1 .