Phase shifter operable in a differential mode comprising a first conductive structure and a second conductive structure that form a capacitor therebetween

What is claimed is: 1 . A phase shifter, comprising: a plurality of phase shift units coupled in sequence, wherein at least one phase shift unit of the plurality of phase shift units includes: a first conductive structure including at least one first transmission line, and a second transmission line connected to the at least one first transmission line, the second transmission line being configured as an inductive load, wherein the at least one first transmission line of the first conductive structure includes two first transmission lines, the second transmission line is connected to the two first transmission lines; and the two first transmission lines are configured to transmit two signals that are differential mode signals of each other; and a second conductive structure including at least one third transmission line, each third transmission line of the at least one third transmission line being configured to form a capacitor with a first transmission line of the two first transmission lines, wherein the first transmission line of the two first transmission lines, a corresponding third transmission line of the at least one third transmission line and the capacitor constitute at least a portion of a phase shift communication path of the phase shifter. 2 . The phase shifter according to claim 1 , wherein at least one of the first transmission line of the two first transmission lines, the second transmission line and the corresponding third transmission line of the at least one third transmission line has a shape of a curve or a broken line; or at least one of the first transmission line of the two first transmission lines, the second transmission line and the corresponding third transmission line of the at least one third transmission line includes a microstrip line and/or a strip line. 3 . The phase shifter according to claim 1 , wherein a dimension of at least one of the two first transmission lines in an extending direction of the phase shift communication path is greater than a dimension of the second transmission line in the extending direction of the phase shift communication path; and the second transmission line is located between the two first transmission lines, and the second transmission line is connected to any portion of each first transmission line of the two first transmission lines other than both ends thereof. 4 . The phase shifter according to claim 1 , wherein the at least one third transmission line of the second conductive structure includes two third transmission lines, one third transmission line of the two third transmission lines is configured to form the capacitor with one of the two first transmission lines, and another third transmission line is configured to form the capacitor with another of the two first transmission lines. 5 . The phase shifter according to claim 4 , wherein the second conductive structure further includes a fourth transmission line connected to the two third transmission lines. 6 . The phase shifter according to claim 5 , wherein a dimension of at least one of the two third transmission lines in an extending direction of the phase shift communication path is greater than or equal to a dimension of the fourth transmission line in the extending direction of the phase shift communication path. 7 . The phase shifter according to claim 4 , wherein the two third transmission lines are arranged at an interval there between. 8 . The phase shifter according to claim 1 , wherein the plurality of phase shift units each include the first conductive structure and the second conductive structure, orthographic projections of first conductive structures of the plurality of phase shift units on a plane where the phase shifter is located and orthographic projections of second conductive structures of the plurality of phase shift units on the plane where the phase shifter is located are alternately arranged, wherein a corresponding third transmission line of a corresponding one of the second conductive structures is configured to form corresponding capacitors with two first transmission lines adjacent thereto of a corresponding one of the first conductive structures respectively; and/or a corresponding first transmission line of a corresponding one of the first conductive structures is configured to form corresponding capacitors with two third transmission lines adjacent thereto of a corresponding one of the second conductive structures respectively. 9 . The phase shifter according to claim 1 , further comprising two support layers disposed opposite to each other, wherein the first conductive structure and the second conductive structure are disposed on two sides, proximate to each other, of the two support layers, respectively; and an orthographic projection of the first transmission line of the two first transmission lines on one of the two support layers partially overlap with an orthographic projection of the corresponding third transmission line of the at least one third transmission line on one of the two support layers to form the capacitor. 10 . The phase shifter according to claim 9 , further comprising: a dielectric constant adjustable medium filled between the two support layers. 11 . The phase shifter according to claim 10 , further comprising: a first control line and a second control line, wherein the first control line is coupled to the first conductive structure, and the second control line is coupled to the second conductive structure; and the dielectric constant adjustable medium is configured such that a dielectric constant of the dielectric constant adjustable medium is changed under control of voltages of the first control line and the second control line. 12 . The phase shifter according to claim 11 , wherein the first control line is disposed on a side of the first conductive structure away from the second conductive structure, and is disposed parallel to an extending direction of the phase shift communication path; and the second control line is disposed on a side of the second conductive structure away from the first conductive structure, and is disposed parallel to the extending direction of the phase shift communication path. 13 . The phase shifter according to claim 1 , further comprising two support layers disposed opposite to each other, wherein the first conductive structure and the second conductive structure are both disposed on a side of one of the two support layers facing another of the two support layers; and the first transmission line of the two first transmission lines includes a first body portion and first end portions connected thereto, the corresponding third transmission line of the at least one third transmission line includes a second body portion and second end portions connected thereto, and a first one of the first end portions and a second one of the second end portions are oppositely arranged at an interval to form the capacitor. 14 . The phase shifter according to claim 13 , further comprising: a dielectric constant adjustable medium filled between the two support layers. 15 . The phase shifter according to claim 14 , further comprising: a first control line and a second control line, wherein the first control line is coupled to the first conductive structure, and the second control line is coupled to the second conductive structure; and the dielectric constant adjustable medium is configured such that a dielectric constant of the dielectric constant adjustable medium is changed under control of voltages of the first control line and the second control line. 16 .