Input device

What is claimed is: 1. An input device comprising: an operation plane on which an operating body is operated, the operation plane having a first direction and a second direction intersecting with the first directions; a plurality of first electrode arrays each extending in the first direction and separated from one another with intervals interposed therebetween; a plurality of second electrode arrays each extending in the second direction and separated from one another with intervals interposed therebetween; a plurality of third electrode arrays each extending in the second direction and separated from one another with intervals interposed therebetween the plurality of third electrode arrays being arranged closer to the operation plane relative to the plurality of second electrode array in a normal direction normal to the operation plane, wherein, viewed from the normal direction, each second electrode array has respective protruding portions protruding from a boundary of the third electrode array correspond to the second electrode array; and a controller configured to set the plurality of first electrode arrays as driving electrodes, while setting both of the plurality of second electrode arrays and the plurality of third electrode arrays as reception electrodes, and to set the plurality of first electrode arrays as reception electrodes, while setting both of the plurality of second electrode arrays and the plurality of third electrode arrays as driving electrodes, wherein, when a first change amount of electrostatic capacitance between the plurality of first electrode arrays and the plurality of third electrode arrays occurred by an operation of the operating body is denoted by ΔC1, and a second change amount of electrostatic capacitance between the plurality of first electrode arrays and the plurality of second electrode arrays occurred by an operation of the operating body is denoted by ΔC2, the controller is further configured to calculate a position of the operating body in the normal direction relative to the operation plane based on a ratio ΔC1/ΔC2 of the first change amount ΔC1 and the second change amount ΔC2. 2. The input device according to claim 1 , wherein the ratio ΔC1/ΔC2 becomes smaller as a distance of the operating body to the operation plane reduces. 3. The input device according to claim 1 , wherein the plurality of second electrode arrays are arranged closer to the plurality of first electrode arrays relative to the plurality of third electrode arrays in the normal direction. 4. The input device according to claim 1 , wherein the plurality of second electrode arrays and the plurality of third electrode arrays have a same arrangement pitch in the first direction. 5. The input device according to claim 1 , wherein a center of gravity of the second electrode array and a center of gravity of the corresponding third electrode array coincide with each other in the first direction. 6. The input device according to claim 1 , further comprising: an elastic deformation layer formed between the operation plane and the plurality of third electrode arrays in the normal direction. 7. The input device according to claim 1 , further comprising: an elastic deformation layer formed between the plurality of third electrode arrays and the plurality of second electrode arrays in the normal direction. 8. The input device according to claim 1 , wherein the controller is further configured to calculate, when a pressing operation is performed using the operating body on the operation plane, a distance of the operating body from the operation plane in the normal direction and a corresponding location of the operating body in the operation plane. 9. The input device according to claim 1 , wherein the controller is further configured to calculate, when the operating body moves away from the operation plane, a distance of the operating body from the operation plane in the normal direction and a corresponding location of the operating body in the operation plane. 10. The input device according to claim 1 , wherein an in-plane position of the operating body in the operation plane is detected based on electrostatic capacitances generated between the plurality of first electrode arrays and the plurality of second electrode arrays. 11. A method for detecting a position of an operation body operated on an operation plane of an input device, the operation plane having a first direction and a second direction intersecting with the first direction, the input device including a plurality of first electrode arrays each extending in the first direction and separated from one another with intervals interposed therebetween, a plurality of second electrode arrays each extending in the second direction and separated from one another with intervals interposed therebetween, a plurality of third electrode arrays each extending in the second direction and separated from one another with intervals interposed therebetween, the plurality of third electrode arrays being arranged closer to the operation plane relative to the plurality of second electrode array in a normal direction normal to the operation plane, wherein, viewed from the normal direction, each second electrode array has respective protruding portions protruding from a boundary of the third electrode array correspond to the second electrode array, the method comprising: setting the plurality of first electrode arrays as driving electrodes, while setting both of the plurality of second electrode arrays and the plurality of third electrode arrays as reception electrodes; setting the plurality of first electrode arrays as reception electrodes, while setting both of the plurality of second electrode arrays and the plurality of third electrode arrays as driving electrodes; detecting a first change amount of electrostatic capacitance between the plurality of first electrode arrays and the plurality of third electrode arrays occurred by an operation of the operating body, which is denoted by ΔC1; detecting a second change amount of electrostatic capacitance between the plurality of first electrode arrays and the plurality of second electrode arrays occurred by an operation of the operating body, which is denoted by ΔC2; and calculating a position of the operating body in the normal direction relative to the operation plane based on a ratio ΔC1/ΔC2 of the first change amount ΔC1 and the second change amount ΔC2. 12. The method according to claim 11 , wherein the ratio ΔC1/ΔC2 becomes smaller as a distance of the operating body to the operation plane reduces. 13. The method according to claim 11 , further comprising: calculating, when a pressing operation is performed using the operating body on the operation plane, a distance of the operating body from the operation plane in the normal direction and a corresponding location of the operating body in the operation plane. 14. The method according to claim 11 , further comprising: calculating, when the operating body moves away from the operation plane, a distance of the operating body from the operation plane in the normal direction and a corresponding location of the operating body in the operation plane. 15. The method according to claim 11 , further comprising: detecting an in-plane position of the operating body in the operation plane based on electrostatic capacitances generated between the plurality of first electrode arrays and the plurality of second electrode arrays.