Rfid tag and manufacturing method thereof

1 . An RFID tag comprising: a base material having a main surface; and an inlay provided with an IC chip and an antenna on the base material, wherein: the antenna includes a loop conductive portion having both end portions connected to the IC chip so as to form a loop shape through the IC chip, and a dipole antenna portion disposed to surround the loop conductive portion with an interval allowing inductive coupling; and the loop conductive portion and the dipole antenna portion are formed on the main surface to have same thickness, and the IC chip is disposed on the both end portions of the loop conductive portion. 2 . An RFID tag comprising: a base material having a main surface; and an inlay provided with an IC chip and an antenna on the base material, wherein: the antenna includes a loop conductive portion having both end portions connected to the IC chip so as to form a loop shape through the IC chip, and a dipole antenna portion disposed to surround the loop conductive portion with an interval; the loop conductive portion extends through the IC chip so as to have a relatively short first axis of symmetry and a relatively long second axis of symmetry orthogonal thereto; the dipole antenna portion forms a shape having an axis of symmetry overlapping the first axis of symmetry; the IC chip is disposed at one end portion of the first axis of symmetry; a single connection conductive portion is provided to connect the other end portion of the first axis of symmetry of the loop conductive portion and the dipole antenna portion to each other; and the loop conductive portion, the connection conductive portion, and the dipole antenna portion are formed on the main surface so as to have same thickness, and the IC chip is disposed on both end portions of the loop conductive portion. 3 . The RFID tag according to claim 1 , wherein the dipole antenna portion is disposed to surround the loop conductive portion at a certain interval, the loop conductive portion extends through the IC chip to form an oval shape or a substantially rectangular shape having a relatively short first axis of symmetry and a relatively long second axis of symmetry orthogonal thereto, the IC chip is disposed at one end portion of the first axis of symmetry, and the dipole antenna portion has an axis of symmetry overlapping the first axis of symmetry, has a pair of tip edges facing and spaced apart from each other with a virtual line obtained by extending an IC chip side of the first axis of symmetry interposed therebetween, and continues so as to wrap around the loop conductive portion from one side to the other side of each of the tip edges. 4 . The RFID tag according to claim 3 , wherein: the dipole antenna portion has an inner peripheral edge continuous along an outer peripheral edge of the loop conductive portion, outer peripheral edges, and the pair of tip edges connecting both ends of the inner peripheral edge and both ends of each of the outer peripheral edges; the outer peripheral edges have a pair of first edge portions extending parallel to the first axis of symmetry, a second edge portion extending parallel to the second axis of symmetry and connecting one end of one of the first edge portions and one end of the other one of the first edge portions, and a third edge portion connecting ends of the pair of tip edges on an opposite side from a second edge portion side and the other end of each of the first edge portions; and a sum of a dimension of the pair of first edge portions in a direction along the first axis of symmetry, a dimension of the second edge portion in a direction along the second axis of symmetry, and a dimension of the pair of tip edges in the direction along the first axis of symmetry is equal to ½ wavelength of a used frequency. 5 . The RFID tag according to claim 4 , wherein the used frequency is in a UHF band. 6 . The RFID tag according to claim 3 , wherein the RFID tag is an RFID label having a pressure sensitive adhesive layer on a back surface. 7 . The RFID tag according to claim 1 , wherein the loop conductive portion has a dimension at which a resonance circuit configured together with the IC chip is tuned to a used frequency. 8 . A method of manufacturing the RFID tag according to claim 1 , the method comprising: forming the loop conductive portion and the dipole antenna portion on the base material by etching or printing; and mounting the IC chip on the loop conductive portion. 9 . The RFID tag according to claim 2 , wherein the dipole antenna portion is disposed to surround the loop conductive portion at a certain interval, the loop conductive portion extends through the IC chip to form an oval shape or a substantially rectangular shape having a relatively short first axis of symmetry and a relatively long second axis of symmetry orthogonal thereto, the IC chip is disposed at one end portion of the first axis of symmetry, and the dipole antenna portion has an axis of symmetry overlapping the first axis of symmetry, has a pair of tip edges facing and spaced apart from each other with a virtual line obtained by extending an IC chip side of the first axis of symmetry interposed therebetween, and continues so as to wrap around the loop conductive portion from one side to the other side of each of the tip edges. 10 . The RFID tag according to claim 4 , wherein the RFID tag is an RFID label having a pressure sensitive adhesive layer on a back surface. 11 . The RFID tag according to claim 5 , wherein the RFID tag is an RFID label having a pressure sensitive adhesive layer on a back surface. 12 . The RFID tag according to claim 2 , wherein the loop conductive portion has a dimension at which a resonance circuit configured together with the IC chip is tuned to a used frequency. 13 . The RFID tag according to claim 3 , wherein the loop conductive portion has a dimension at which a resonance circuit configured together with the IC chip is tuned to a used frequency. 14 . The RFID tag according to claim 4 , wherein the loop conductive portion has a dimension at which a resonance circuit configured together with the IC chip is tuned to a used frequency. 15 . The RFID tag according to claim 5 , wherein the loop conductive portion has a dimension at which a resonance circuit configured together with the IC chip is tuned to a used frequency. 16 . The RFID tag according to claim 6 , wherein the loop conductive portion has a dimension at which a resonance circuit configured together with the IC chip is tuned to a used frequency.