Acoustic wave transducer and driving method thereof

The invention claimed is: 1. An acoustic wave transducer, comprising: a plurality of cell groups, at least part of which each comprise a plurality of acoustic wave transducer cells configured to perform a same operation, each acoustic wave transducer cell being configured to perform at least one of: converting an acoustic wave signal into an electrical signal and converting an electrical signal into an acoustic wave signal; and a plurality of array element signal terminals, each of which is coupled to at least two adjacent cell groups, and is coupled to different cell groups through different switch devices, each switch device being configured to control connection and disconnection between the array element signal terminal and the cell group coupled to the switch device, and the at least two adjacent cell groups coupled to any one of the plurality of array element signal terminals and the at least two adjacent cell groups coupled to an adjacent array element signal terminal have an intersection. 2. The acoustic wave transducer of claim 1 , wherein the plurality of cell groups are arranged in a first direction, and the plurality of acoustic wave transducer cells comprised in each of the at least part of the plurality of cell groups are arranged in a second direction, the second direction intersecting the first direction. 3. The acoustic wave transducer of claim 2 , wherein a cell group coupled to at least two array element signal terminals is a multiplexing cell group; and each multiplexing cell group is coupled to different array element signal terminals in the at least two array element signal terminals through different switch devices. 4. The acoustic wave transducer of claim 3 , wherein the multiplexing cell group comprises one cell group signal terminal, all the acoustic wave transducer cells comprised in the multiplexing cell group are coupled to the one cell group signal terminal, and the one cell group signal terminal is coupled to different array element signal terminals in the at least two array element signal terminals through different switch devices, respectively. 5. The acoustic wave transducer of claim 3 , wherein the multiplexing cell group comprises at least two cell group signal terminals, all the acoustic wave transducer cells comprised in the multiplexing cell group are coupled to each of the at least two cell group signal terminals, and each of the at least two cell group signal terminals is coupled to a corresponding one of the at least two array element signal terminals through a corresponding switch device. 6. The acoustic wave transducer of claim 3 , comprising a plurality of multiplexing cell groups, wherein the plurality of multiplexing cell groups are adjacent to each other, and other cell groups of the plurality of cell groups than the plurality of multiplexing cell groups are on two sides of the plurality of multiplexing cell groups along the first direction and are each coupled to a corresponding array element signal terminal through one switch device. 7. The acoustic wave transducer of claim 1 , wherein each array element signal terminal is coupled to M adjacent cell groups through M switch devices, each switch device corresponds to one cell group, M is greater than or equal to 2, a number of cell groups in the intersection between the at least two adjacent cell groups coupled to any one of the plurality of array element signal terminals and the at least two adjacent cell groups coupled to the adjacent array element signal terminal is N, N is greater than or equal to 1 and less than M. 8. The acoustic wave transducer of claim 7 , wherein M is an even number, and N=M/2. 9. The acoustic wave transducer of claim 1 , wherein the acoustic wave transducer cell is a capacitive micromachined ultrasonic transducer, the capacitive micromachined ultrasonic transducer comprises a first electrodes and a second electrodes opposite to each other, the second electrode is coupled to a common signal terminal, first electrodes of the capacitive micromachined ultrasonic transducers in each cell group are coupled together and further coupled to a corresponding array element signal terminal through a corresponding switch device. 10. The acoustic wave transducer of claim 1 , wherein the switch device is a micromechanical switch, and the micromechanical switch comprises a control terminal coupled to a control signal terminal, a first terminal electrically coupled to a corresponding cell group and a second terminal electrically coupled to a corresponding array element signal terminal. 11. The acoustic wave transducer of claim 7 , wherein 5≤M≤10. 12. A driving method of an acoustic wave transducer, the acoustic wave transducer being the acoustic wave transducer of claim 1 , the driving method comprises: providing a turn-on control signal or a turn-off control signal to each switch device so that at least part of the switch devices coupled to each of the plurality of array element signal terminals are turned on, and each cell group is in electrical connection with only one array element signal terminal. 13. The driving method of claim 12 , wherein each array element signal terminal is in electrical connection with a same number of cell groups at a same timing. 14. The driving method of claim 12 , wherein each array element signal terminal is in electrical connection with the cell groups adjacent to each other at a same timing. 15. The driving method of claim 14 , wherein the plurality of array element signal terminals comprise a first array element signal terminal and a second array element signal terminal which are adjacent; and at a same timing, the cell groups in electrical connection with the first array element signal terminal are adjacent to the cell groups in electrical connection with the second array element signal terminal. 16. The driving method of claim 12 , wherein the plurality of cell groups are arranged in a first direction; at a first timing and a subsequent second timing, the number of the cell groups in electrical connection with each array element signal terminal is unchanged; and the first cell group in the first direction of the cell groups in electrical connection with any one of the array element signal terminals at the first timing is adjacent to the first cell group in the first direction of the cell groups in electrical connection with the array element signal terminal at the second timing.