Antenna and electronic apparatus

1 . An antenna, comprising a reflector, a director; a first tapered microstrip line, a transition structure, a second tapered microstrip line, and a dipole radiator; wherein the transition structure has a main body of a parallelogram shape having a first side connected to the first tapered microstrip line, a second side opposite to the first side and connected to the second tapered microstrip line, a third side connecting the first side and the second side, and a fourth side connecting the first side and the second side, the third side being opposite to the fourth side; and the transition structure comprises a plurality of teeth connected to and extending away from at least the fourth side of the main body. 2 . The antenna of claim 1 , comprising: a first conductive layer comprising the reflector and the director; a dielectric layer on the first conductive layer; a second conductive layer on a side of the dielectric layer away from the first conductive layer, the second conductive layer comprising the first tapered microstrip line, the transition structure, and the second tapered microstrip line, the transition structure connecting the first tapered microstrip line with the second tapered microstrip line. 3 . The antenna of claim 2 , wherein the dipole radiator comprises a first radiator portion in the first conductive layer and a second radiator portion in the second conductive layer, the second radiator portion connecting to the first radiator portion through a via extending through the dielectric layer. 4 . The antenna of claim 1 , wherein an orthographic projection of the reflector on a dielectric layer at least partially overlaps with an orthographic projection of the transition structure, the first tapered microstrip line, and the second tapered microstrip line on the dielectric layer. 5 . The antenna of claim 4 , wherein the orthographic projection of the reflector on the dielectric layer covers the orthographic projection of the transition structure, the first tapered microstrip line, and the second tapered microstrip line on the dielectric layer. 6 . The antenna of claim 1 , wherein the transition structure comprises a plurality of teeth connected to and extending away from the third side and the fourth side of the main body, respectively. 7 . The antenna of claim 1 , wherein a unitary structure comprising the first tapered microstrip line, the transition structure, and the second tapered microstrip line has a mirror symmetry about a plane perpendicular to the transition structure. 8 . The antenna of claim 7 , wherein a combination of the first tapered microstrip line, the transition structure, the second tapered microstrip line, the reflector, and the director has a mirror symmetry about a plane perpendicular to the transition structure and the reflector. 9 . The antenna of claim 1 , wherein the transition structure comprises a plurality of teeth connected to and extending away from the fourth side of the main body; the first tapered microstrip line is connected to the first side at a corner between the first side and the third side; and the second tapered microstrip line is connected to the second side at a corner between the second side and the third side. 10 . The antenna of claim 1 , wherein a combination of the reflector and the director has a mirror symmetry about a plane perpendicular to the reflector and the director. 11 . The antenna of claim 10 , wherein the first tapered microstrip line, the transition structure, and the second tapered microstrip line are limited in only one side of the plane about which the reflector and the director has a mirror symmetry. 12 . The antenna of claim 1 , wherein, on each side of the main body having multiple teeth, the multiple teeth are spaced apart by multiple slits, respectively; the multiple teeth are equispaced; and the multiple slits are equispaced. 13 . The antenna of claim 1 , wherein the director comprises a plurality of rods that are parallelly arranged and equispaced; and the plurality of rods have a same length. 14 . The antenna of claim 1 , wherein the director comprises a plurality of rods that are parallelly arranged and equispaced; and lengths of the plurality of rods gradually decrease along a direction away from the reflector. 15 . The antenna of claim 3 , wherein the first tapered microstrip line connecting the second radiator portion with the transition structure on the first side; and the first radiator portion is connected with the reflector. 16 . The antenna of claim 15 , wherein the reflector comprises a tapered line portion and a rectangular portion; the tapered line portion connects the first radiator portion with the rectangular portion; and a line width of the tapered line portion gradually decreases along a direction from the rectangular portion to the first radiator portion. 17 . The antenna of claim 16 , wherein a combination of the rectangular portion, the tapered line portion, and the director has a mirror symmetry about a plane perpendicular to the reflector and the director. 18 . The antenna of claim 16 , wherein an orthographic projection of the tapered line portion on a dielectric layer completely overlaps with an orthographic projection of the first tapered microstrip line on the dielectric layer. 19 . The antenna of claim 3 , wherein the first radiator portion comprises a first branch; the second radiator portion comprises a second branch; the first branch and the second branch are parallel to each other, and extending away from a position corresponding to the via along two opposite directions. 20 . An electronic apparatus, comprising the antenna of claim 1 .