Capacitive sensor

The invention claimed is: 1. A capacitive sensor comprising: a substrate; a movable electrode provided above the substrate; a protective film that is fixed to a top surface of the substrate so as to cover the movable electrode with a gap, the protective film being made of an insulating material; and a fixed electrode provided on the protective film at a position opposed to the movable electrode, wherein the capacitive sensor converts a physical quantity into an electrostatic capacitance between the movable electrode and the fixed electrode, a whole outer peripheral edge of the top surface of the substrate is exposed to air and not covered by the protective film, an insulating sheet made of the insulating material is formed in a part of an area exposed to air and not covered by the protective film on the top surface of the substrate, wherein the whole outer peripheral edge of the top surface of the substrate exposed to air is disposed outside the insulating sheet, and at least one of an electrode pad electrically connected to the movable electrode and an electrode pad electrically connected to the fixed electrode is provided on a top surface of the insulating sheet. 2. The capacitive sensor according to claim 1 , wherein an outer peripheral edge of the protective film is fixed to the top surface of the substrate, an area inside the outer peripheral edge of the protective film covers the movable electrode with a space between the area inside the outer peripheral edge of the protective film and the top surface of the substrate, and the area where the top surface of the substrate is exposed reaches a neighborhood at an edge of the area comprising the space between the protective film and the substrate. 3. The capacitive sensor according to claim 1 , wherein at least a part of the top surface of the substrate is exposed inward by at least 50 μm from an edge of the substrate. 4. The capacitive sensor according to claim 1 , wherein a plurality of beams of the movable electrode are fixed to the top surface of the substrate, each beam of the plurality of beams extending towards an outer peripheral direction, the protective film comprises overhangs that extend toward the outer peripheral direction so as to cover each beam of the plurality of beams, an outer peripheral edge of the protective film is recessed inward between the overhangs covering each beam of the plurality of beams, and the top surface of the substrate is exposed in an area where the protective film is recessed between the overhangs covering each beam of the plurality of beams. 5. The capacitive sensor according to claim 1 , wherein the insulating sheet is made of a material identical to that of the protective film so as to be integral with the protective film. 6. The capacitive sensor according to claim 5 , wherein the insulating sheet is made of silicon nitride. 7. The capacitive sensor according to claim 1 , wherein a thin-film electrode pad is provided in the area where the top surface of the substrate is exposed. 8. An acoustic sensor comprising: a substrate; a movable electrode film provided above the substrate; a protective film that is fixed to a top surface of the substrate so as to cover the movable electrode film with a gap, the protective film being made of an insulating material; and a fixed electrode film provided on the protective film at a position opposed to the movable electrode film, wherein the acoustic sensor converts an acoustic vibration into an electrostatic capacitance between the movable electrode film and the fixed electrode film, a whole outer peripheral edge of the top surface of the substrate is exposed to air and not covered by the protective film, an insulating sheet made of the insulating material is formed in a part of an area exposed to air not covered by the protective film on the top surface of the substrate, wherein the whole outer peripheral edge of the top surface of the substrate exposed to air is disposed outside the insulating sheet, and at least one of an electrode pad electrically connected to the movable electrode and an electrode pad electrically connected to the fixed electrode is provided on a top surface of the insulating sheet.