Antenna module and communication apparatus including the same

What is claimed is: 1 . An antenna module comprising: a dielectric substrate including first and second planar sections, a normal direction to the first planar section and a normal direction to the second planar section being different from each other; a first radiating element disposed in or on the first planar section; a second radiating element disposed in or on the second planar section; and a first connector, wherein the antenna module is configured to transfer a radio-frequency signal to a third radiating element via the first connector, the third radiating element being disposed externally to the dielectric substrate, a size of the second radiating element is smaller than a size of the third radiating element, and the third radiating element is attachable to and detachable from the dielectric substrate by the first connector. 2 . The antenna module according to claim 1 , wherein the first connector is disposed on the second planar section. 3 . The antenna module according to claim 2 , further comprising: a baseband circuit; a second connector that receives a signal from the baseband circuit; and a control circuit configured to receive the signal from the second connector, convert the signal into a radio-frequency signal and supply the radio-frequency signal to each of the first through third radiating elements, wherein the first planar section has first and second surfaces facing each other, the first radiating element is disposed to radiate a radio wave from the first surface, and the second connector and the control circuit are disposed on the second surface. 4 . The antenna module according to claim 3 , wherein: the second planar section has third and fourth surfaces facing each other; the first planar section is closer to the fourth surface than to the third surface, the second radiating element is disposed to radiate a radio wave from the third surface, and the first connector is disposed on the fourth surface. 5 . The antenna module according to claim 4 , wherein the second planar section is disposed such that the fourth surface faces the second surface. 6 . The antenna module according to claim 4 , wherein: the second planar section includes a first member having a first dielectric constant, and a second member that is disposed closer to the third surface than the first member is and that has a second dielectric constant which is higher than the first dielectric constant; and the third radiating element is disposed in or on the second member. 7 . The antenna module according to claim 3 , further comprising: a shield on a peripheral portion of the control circuit to contain an electromagnetic wave in the control circuit; and when the second connector is seen from the first connector, at least part of the second connector overlaps the control circuit. 8 . The antenna module according to claim 3 , wherein, as viewed from a normal direction to the first planar section, the first planar section has a substantially rectangular shape having long sides and short sides, and the first connector is disposed to be adjacent to the control circuit in a direction of the short sides. 9 . The antenna module according to claim 3 , wherein, as viewed from a normal direction to the second planar section, at least part of the first connector overlaps the control circuit. 10 . The antenna module according to claim 3 , wherein, as viewed from a normal direction to the second planar section, the second connector is disposed on the first planar section at a position at which the second connector does not overlap the second planar section. 11 . The antenna module according to claim 2 , wherein, as viewed from a normal direction to the second planar section, the first connector has a substantially rectangular shape having long sides and short sides, and the first connector is disposed on the second planar section such that a line extending in a direction along the short sides intersects with the first planar section. 12 . The antenna module according to claim 2 , wherein the dielectric substrate further includes a connecting section that connects the first planar section and the second planar section with each other. 13 . The antenna module according to claim 12 , wherein the connecting section includes a bending portion. 14 . The antenna module according to claim 13 , wherein, as viewed from a direction perpendicular to a normal line to the first planar section and to a normal line to the second planar section, the first connector overlaps the bending portion. 15 . The antenna module according to claim 14 , wherein: the second radiating element has a substantially square shape; and as viewed from a normal direction to the second planar section, a shortest distance from a center of the second radiating element to an end portion of the second planar section in a polarization direction of the second radiating element is smaller than a length of one side of the second radiating element, and at least part of the first connector overlaps the third radiating element. 16 . The antenna module according to claim 13 , wherein the connecting section has flexibility. 17 . The antenna module according to claim 2 , wherein a normal direction to the first planar section is perpendicular to a normal direction to the second planar section. 18 . The antenna module according to claim 1 , further comprising a fourth radiating element disposed in or on the first planar section; wherein a size of the fourth radiating element is different than a size of the first radiating element. 19 . The antenna module according to claim 18 , wherein the fourth radiating element and the first radiating element are stacked. 20 . A communication apparatus comprising: the antenna module according to one of claim 1 .