Ion concentration sensor

The invention claimed is: 1. An ion concentration sensor, comprising: a supporting substrate; a plurality of sensing sections having a sensing surface with which a test object is to be brought into contact, each of the plurality of sensing sections being sensitive to ions of the test object; a semiconductor layer provided between the supporting substrate and the plurality of sensing sections; a plurality of transistors which are configured to read out and transfer respective analog signals which vary in accordance with amounts of ions sensed by the respective plurality of sensing sections; and an analog to digital conversion circuit which converts, into respective digital signals, the analog signals transferred from the respective plurality of transistors, the plurality of sensing sections, the plurality of transistors, and the analog to digital conversion circuit being provided above the supporting substrate, the plurality of transistors being provided on the semiconductor layer, each of the plurality of transistors having a corresponding gate provided on a first surface of the semiconductor layer, the analog to digital conversion circuit being provided on the semiconductor layer, the sensing surface being provided on a second surface of the semiconductor layer, the second surface being opposite to the first surface. 2. An ion concentration sensor as set forth in claim 1 , further comprising: a multilayer wiring layer provided between the supporting substrate and the semiconductor layer, the multilayer wiring layer having wirings for transmitting, to the analog to digital conversion circuit, the analog signal(s) transferred from part of the plurality of transistors, the multilayer wiring layer having a layer structure which has the wirings of not less than four layers. 3. An ion concentration sensor as set forth in claim 1 , wherein: the plurality of sensing sections are provided in a matrix manner; and the semiconductor layer includes a vertical selection circuit and a horizontal selection circuit, the vertical selection circuit selecting the plurality of sensing sections row by row, the horizontal selection circuit outputting, column by column, the analog signals supplied from respective sensing sections that are selected by the vertical selection circuit. 4. An ion concentration sensor as set forth in claim 1 , wherein: the plurality of the sensing sections are separated from each other by a wall. 5. An ion concentration sensor as set forth in claim 1 , wherein: each of the plurality of sensing sections is made of a silicon nitride film, an aluminum oxide film, or a tantalm oxide film. 6. An ion concentration sensor as set forth in claim 1 , wherein an amount of change in channel electric potential is detected, the change varying in accordance with change in electric potential of the sensing surface.