Phase shifter and liquid crystal antenna

1 . A phase shifter, comprising: a first substrate, a second substrate, a dielectric layer, a transmission line, a ground electrode and at least one auxiliary electrode, wherein the first substrate and the second substrate are opposite to each other, the dielectric layer is between the first substrate and the second substrate, the transmission line is between the second substrate and the dielectric layer, the auxiliary electrode is between the first substrate and the dielectric layer, and the ground electrode is on a side of the second substrate distal to the dielectric layer; a dielectric constant of the dielectric layer changes with a voltage between the auxiliary electrode and the transmission line; an orthographic projection of the transmission line on the first substrate overlaps with an orthographic projection of the auxiliary electrode on the first substrate, and a portion of the orthographic projection of the transmission line on the first substrate exceeds the orthographic projection of the auxiliary electrode on the first substrate. 2 . The phase shifter of claim 1 , wherein the at least one auxiliary electrode comprises a plurality of auxiliary electrodes sequentially arranged at intervals along an extension direction of the transmission line; the transmission line comprises a plurality of first transmission parts and a plurality of second transmission parts, wherein the plurality of first transmission parts and the plurality of second transmission parts are alternately arranged one by one along the extension direction of the transmission line; the plurality of first transmission parts are in one-to-one correspondence with the plurality of auxiliary electrodes, and an orthogonal projection of the first transmission part on the first substrate does not exceed an orthogonal projection of the auxiliary electrode corresponding to the first transmission part on the first substrate. 3 . The phase shifter of claim 1 , wherein the second substrate has a thickness between 100 μm and 10 mm. 4 . The phase shifter of claim 1 , wherein the dielectric layer is a liquid crystal layer. 5 . The phase shifter of claim 1 , further comprising a first bias electrode electrically coupled to the at least one auxiliary electrode, wherein the phase shifter further comprises a second bias electrode electrically coupled to the transmission line; the first bias electrode is between the first substrate and the auxiliary electrode, and the second bias electrode is between the second substrate and the transmission line. 6 . The phase shifter of claim 5 , wherein a material of each of the first bias electrode and second bias electrode comprises indium tin oxide. 7 . The phase shifter of claim 5 , wherein the first and second bias electrodes each have a thickness between 100 nm and 10 μm. 8 . The phase shifter of claim 1 , wherein the at least one auxiliary electrode is grounded. 9 . The phase shifter of claim 2 , further comprising a plurality of reference electrodes electrically coupled to the plurality of auxiliary electrodes in a one-to-one correspondence; wherein the plurality of reference electrodes are insulated and separated from the ground electrode, and an orthographic projection of each of the plurality of reference electrodes on the second substrate at least partially overlaps with an orthographic projection of the ground electrode on the second substrate. 10 . The phase shifter of claim 9 , further comprising a plurality of high resistance wires in one-to-one correspondence with the plurality of auxiliary electrodes; wherein each of the plurality of reference electrodes is electrically coupled to a corresponding auxiliary electrode through a corresponding high resistance wire; and each of the high resistance wires is a wire with an impedance value on an order of kilo-ohms. 11 . The phase shifter of claim 10 , wherein the plurality of reference electrodes, the plurality of high resistance wires and the plurality of auxiliary electrodes are in a same layer; and orthographic projections of the plurality of reference electrodes and the plurality of high resistance wires on the first substrate are on a side in a width direction of an orthographic projection of the transmission line on the first substrate. 12 . The phase shifter of claim 11 , wherein each of the reference electrodes is a bulk metal. 13 . The phase shifter of claim 8 , wherein the at least one auxiliary electrode comprises a plurality of auxiliary electrodes coupled to the ground electrode through a plurality of connection members, respectively, and each of the plurality of connection members penetrates through the dielectric layer and the second substrate and is insulated and separated from the transmission line. 14 . The phase shifter of claim 13 , wherein each of the connection members comprises a first connection part and a second connection part; the first connection part is coupled with a corresponding auxiliary electrode; and the second connection part is electrically coupled to the ground electrode through a via penetrating through the dielectric layer and the second substrate. 15 . The phase shifter of claim 14 , wherein the first connection part is a high resistance wire which is in a same layer and has a same material as the auxiliary electrode; and the high resistance wire is a wire with an impedance value on an order of kilo-ohms; and orthographic projections of the plurality of connection members on the first substrate are on a side in a width direction of an orthographic projection of the transmission line on the first substrate. 16 . A liquid crystal antenna, comprising a phase shifter, which comprises: a first substrate, a second substrate, a dielectric layer, a transmission line, a ground electrode and at least one auxiliary electrode, wherein the first substrate and the second substrate are opposite to each other, the dielectric layer is between the first substrate and the second substrate, the transmission line is between the second substrate and the dielectric layer, the auxiliary electrode is between the first substrate distal to the dielectric layer; a dielectric constant of the dielectric layer changes with a voltage between the auxiliary electrode and the transmission line; an orthographic projection of the transmission line on the first substrate overlaps with an orthographic projection of the auxiliary electrode on the first substrate, and a portion of the orthographic projection of the transmission line on the first substrate exceeds the orthographic projection of the auxiliary electrode on the first substrate. 17 . The liquid crystal antenna of claim 16 , wherein a via corresponding to the transmission line is provided in the ground electrode, a third substrate is provided on a side of the ground electrode distal to the first substrate, and a patch electrode corresponding to the via is provided on a side of the third substrate distal to the first substrate. 18 . The liquid crystal antenna of claim 16 , wherein the at least one auxiliary electrode comprises a plurality of auxiliary electrodes sequentially arranged at intervals along an extension direction of the transmission line; the transmission line comprises a plurality of first transmission parts and a plurality of second transmission parts, wherein the plurality of first transmission parts and the plurality of second transmission parts are alternately arranged one by one along the extension direction of the transmission line; the plurality of first transmission parts are in one-to-one correspondence with t