Capacitance type physical quantity sensor

The invention claimed is: 1. A capacitive physical quantity sensor comprising: a substrate having one surface along a x-y plane, which is defined by a x direction and a y direction perpendicular to each other; two anchors fixed to the one surface of the substrate; two detection beams, respectively connected to the substrate through the two anchors; a weight shaped to extend in the y direction and having a first end portion, a center portion and a second end portion, wherein the first end portion of the weight and the second end portion of the weight, respectively, are connected to the two anchors through the two detection beams; a movable electrode formed in the weight; and a fixed electrode opposed to the movable electrode on the x-y plane, wherein the detection beams have flexibility in the y direction; the movable electrode includes a plurality of first movable detection electrodes, a plurality of second movable detection electrodes and a plurality of first movable damping electrodes; the fixed electrode includes a plurality of first fixed detection electrodes connected to a first fixed detection pad, a plurality of second fixed detection electrodes connected to a second fixed detection pad and a plurality of first fixed damping electrodes connected to a damping pad; the first fixed detection electrodes are located separately from the first movable detection electrodes in a first y direction and are opposed to the first movable detection electrodes in the first y direction, the first y direction being one direction in the y direction; the second fixed detection electrodes are located separately from the second movable detection electrodes in a second y direction and are opposed to the second movable detection electrodes in the second y direction, the second y direction and the first y direction are opposite directions; each of the first movable damping electrodes extends from the weight in the x direction and is located at a center between corresponding two of the first fixed damping electrodes and is opposed to one of the corresponding two of the first fixed damping electrodes in the first y direction and is opposed to the other of the corresponding two of the first fixed damping electrodes in the second y direction; the first movable detection electrodes and the second movable detection electrodes are located at side surfaces of the center portion of the weight; the first movable damping electrodes are located at a side surface of each of the first end portion of the weight and the second end portion of the weight, so that the first movable damping electrodes are located point-symmetrically with respect to the center of the weight and line-symmetrically with respect to a center line, which passes through the center of the weight in the y direction. 2. The capacitive physical quantity sensor according to claim 1 , wherein: the first movable damping electrodes have a geometrically similar relation with the first fixed damping electrodes; and the first movable damping electrodes and the first fixed damping electrodes have a constant interval therebetween. 3. The capacitive physical quantity sensor according to claim 1 , wherein: the first fixed detection pad is for taking out a capacitance and is formed between the first movable detection electrode and the first fixed detection electrode is formed in the first fixed detection electrode; the second fixed detection pad is for taking out a capacitance and formed between the second movable detection electrode and the second fixed detection electrode is formed in the second fixed detection electrode; a movable detection pad for applying a constant voltage is formed in the weight; the damping pad is for applying a diagnostic voltage different in polarity from the voltage applied to a first movable detection pad and is formed in the first fixed damping electrode; the voltages having different polarities are applied to the first fixed detection pad and the second fixed detection pad for a predetermined time period, respectively; and immediately after application of the voltages, the diagnostic voltage is applied to the damping pad and the capacitance of the first detection capacitor at a time of the voltage application is taken out from the first fixed detection pad and the capacitance of the second detection capacitor is taken out from the second fixed detection pad. 4. The capacitive physical quantity sensor according to claim 1 , wherein the first movable damping electrodes and the first fixed damping electrodes are configured to generate therebetween damping to suppress rotation of the weight on the x-y plane. 5. A capacitive physical quantity sensor comprising: a substrate having one surface along a x-y plane, which is defined by a x direction and a y direction perpendicular to each other; an anchor fixed to the one surface of the substrate; a detection beam connected to the substrate through the anchor; a weight connected to the detection beam; a movable electrode formed in the weight; and a fixed electrode opposed to the movable electrode on the x-y plane, wherein: the detection beam has flexibility in the y direction; the movable electrode includes a plurality of first movable detection electrodes, a plurality of second movable detection electrodes and a plurality of first movable damping electrodes; the fixed electrode includes a plurality of first fixed detection electrodes connected to a first fixed detection pad, a plurality of second fixed detection electrodes connected to a second fixed detection pad and a plurality of first fixed damping electrodes connected to a damping pad; the first fixed detection electrodes are located separately from the first movable detection electrodes in a first y direction and are opposed to the first movable detection electrodes in the first y direction, the first y direction being one direction in the y direction; the second fixed detection electrodes are located separately from the second movable detection electrodes in a second y direction and are opposed to the second movable detection electrodes in the second y direction, the second y direction and the first y direction are opposite directions; each of the first movable damping electrodes extends from the weight in the x direction and is located at a center between corresponding two of the first fixed damping electrodes and is opposed one of the corresponding two of the first fixed damping electrodes in the first y direction and is opposed to the other of the corresponding two of the first fixed damping electrodes in the second y direction; the weight has a frame shape in which ends of two first stick portions extending along the y direction are connected to ends of two second stick portions extending along the x direction; the first movable detection electrodes and the second movable detection electrodes are located at inner side surfaces of the first stick portions of the weight; and the first movable damping electrodes are located at an outer side surface of each of the first stick portions of the weight so that the first movable damping electrodes are located point-symmetrically with respect to the center of the weight and line-symmetrically with respect to a center line, which passes through the center of the weight in the y direction. 6. The capacitive physical quantity sensor according to claim 5 , wherein the first movable damping electrodes and the first fixed damping electrodes are configured to generate therebetween damping to suppress rotation of the weight on the x-y plane. 7. A capacitive physical quantity sensor comprising: a substrate having one surface along a x-y plane, which is defined by a x direction and a y direction perpendicular to each other; an anchor fixed to