Capacitive transducer, capacitive transducer manufacturing method, and object information acquisition apparatus

What is claimed is: 1. A capacitive transducer, comprising an element which has multiple types of cells, including cells of a first cell type and cells of a second cell type, each cell comprising: a first electrode; and a vibrating film comprising a second electrode, the second electrode being opposed to the first electrode with a gap therebetween, and the capacitive transducer having a common voltage applying unit for applying a voltage between the first electrode and the second electrode of cells of the first cell type and cells of the second cell type; wherein each type of cell has a different ratio of an area of the first electrode or the second electrode to an area of the gap when viewed from a normal direction of the vibrating film, wherein the first electrodes or the second electrodes in each type of cell are electrically connected together, wherein vibrating films of cells of the first cell type each have a larger spring constant than vibrating films of cells of the second cell type, and wherein the ratio of the area of the first electrode or the second electrode to the area of the gap in cells of the first cell type is larger than the ratio of the area of the first electrode or the second electrode to the area of the gap in cells of the second cell type; wherein the common voltage applying unit applies a common voltage to cells of the first cell type and cells of the second cell type, and the common voltage is smaller by 10% to 20% than a pull-in voltage of cells of the second cell type. 2. An object information acquisition apparatus, comprising: the capacitive transducer according to claim 1 , configured to receive an acoustic wave and convert the acoustic wave into a signal; and a signal processor configured to process the signal output from the capacitive transducer to thereby acquire information on an object. 3. An object information acquisition apparatus according to claim 2 , further comprising: a light source configured to emit light; wherein the capacitive transducer is configured to receive the acoustic wave, which is generated by an object that is irradiated by the light from the light source, and the signal processor is configured to process the signal, to thereby acquire information on the object. 4. A method of manufacturing the capacitive transducer according to claim 1 , the method comprising for each cell: forming the first electrode; forming a sacrificial layer on the first electrode in order to form the gap; forming, on the sacrificial layer, at least a part of the vibrating film comprising the second electrode; and removing the sacrificial layer to form the gap, wherein the forming of the sacrificial layer and the forming of at least part of the vibrating film comprise setting different ratios of an area of the second electrode to an area of the sacrificial layer for each type of cell. 5. A capacitive transducer, according to claim 1 , wherein for each cell the area of the first electrode and the second electrode is 50% or more of the area of the gap. 6. A capacitive transducer, according to claim 1 , wherein the vibrating film of each cell further comprises an insulating membrane. 7. A capacitive transducer, according to claim 1 , wherein cells of the first cell type have different frequency characteristics from cells of the second cell type. 8. A capacitive transducer, comprising an element which has multiple types of cells, including cells of a first cell type and cells of a second cell type, each cell comprising: a first electrode; and a vibrating film comprising a second electrode, the second electrode being opposed to the first electrode with a gap therebetween, and the capacitive transducer having a common voltage applying unit for applying a voltage between the first electrode and the second electrode of cells of the first cell type and cells of the second cell type; wherein each type of cell has a different ratio of an area of the first electrode or the second electrode to an area of the gap when viewed from a normal direction of the vibrating film, wherein the first electrodes or the second electrodes in each type of cell are electrically connected together, wherein vibrating films of cells of the first cell type each have a smaller area than vibrating films of cells of the second cell type, and wherein the ratio of the area of the first electrode or the second electrode to the area of the gap in cells of the first cell type is larger than the ratio of the area of the first electrode or the second electrode to the area of the gap in cells of the second cell type, wherein the common voltage applying unit applies a common voltage to cells of the first cell type and cells of the second cell type, and the common voltage is smaller by 10% to 20% than a pull-in voltage of cells of the second cell type. 9. A capacitive transducer, comprising an element which has multiple types of cells, including cells of a first cell type and cells of a second cell type, each cell comprising: a first electrode; and a vibrating film comprising a second electrode, the second electrode being opposed to the first electrode with a gap therebetween, and the capacitive transducer having a common voltage applying unit for applying a voltage between the first electrode and the second electrode of cells of the first cell type and cells of the second cell type; wherein each type of cell has a different ratio of an area of the first electrode or the second electrode to an area of the gap when viewed from a normal direction of the vibrating film, wherein the first electrodes or the second electrodes in each type of cell are electrically connected together, wherein vibrating films of cells of the first cell type each have a larger thickness than vibrating films of cells of the second cell type, and wherein the ratio of the area of the first electrode or the second electrode to the area of the gap in cells of the first cell type is larger than the ratio of the area of the first electrode or the second electrode to the area of the gap in cells of the second cell type, wherein the common voltage applying unit applies a common voltage to cells of the first cell type and cells of the second cell type, and the common voltage is smaller by 10% to 20% than a pull-in voltage of cells of the second cell type. 10. A capacitive transducer, comprising an element which has multiple types of cells, including cells of a first cell type and cells of a second cell type, each cell comprising: a first electrode; and a vibrating film comprising a second electrode, the second electrode being opposed to the first electrode with a gap therebetween; and a common voltage applying unit for applying a voltage between the first electrode and the second electrode of cells of the first cell type and cells of the second cell type, wherein each type of cell has a different ratio of an area of the first electrode or the second electrode to an area of the gap when viewed from a normal direction of the vibrating film, wherein vibrating films of cells of the first cell type each have a larger spring constant than vibrating films of cells of the second cell type, wherein the ratio of the area of the first electrode or the second electrode to the area of the gap in cells of the first cell type is larger than the ratio of the area of the first electrode or the second electrode to the area of the gap in cells of the second cell type, and wherein the common voltage applying unit applies a common voltage to cells of the first cell type and cells of the second cell type, and the common voltage is smaller than a pull-in voltage V 1 that is smaller pull-in voltage of cells of the first cell type or the second ce