Rotation detector and rotation detection method

The invention claimed is: 1. A rotation detector comprising: a magnet that rotates together with a rotary shaft; a plurality of power generation elements that generate power according to a change in a magnetic field due to rotation of the magnet together with the rotary shaft; a plurality of magnetic sensors each provided to a corresponding one of the plurality of power generation elements; an information processor that determines a rotational position of the rotary shaft by using the plurality of magnetic sensors; and a generated power supply unit that supplies power generated by each of the plurality of power generation elements only to the corresponding one of the plurality of magnetic sensors. 2. The rotation detector according to claim 1 , wherein the information processor determines the rotational position of the rotary shaft by determining in which region among a plurality of regions arranged in a rotation direction of the rotary shaft a reference position in the rotation direction of the rotary shaft is located, based on power generation information indicating a power generation element that has generated power among the plurality of power generation elements and detection information indicating a detection result from a magnetic sensor corresponding to the power generation element among the plurality of magnetic sensors, and the rotation detector further comprises a storage that stores a region in which the reference position is determined to be located by the information processor among the plurality of regions. 3. The rotation detector according to claim 2 , wherein, in a case where a region in which a current reference position is determined to be located among the plurality of regions is not a region adjacent to a region in which a previous reference position is determined to be located, the information processor stores, in the storage, that an error has occurred. 4. The rotation detector according to claim 2 , wherein, in a case where a region in which a current reference position is determined to be located among the plurality of regions is not a region adjacent to a region in which a previous reference position is determined to be located, the information processor stores, in the storage, that a transition from the region in which the previous reference position is determined to be located to the region in which the current reference position is determined to be located has occurred. 5. The rotation detector according to claim 2 , further comprising a polarity determination unit that determines a polarity of power generated by each of the plurality of power generation elements, wherein the information processor determines the rotation direction of the rotary shaft based on the power generation information, the detection information, and polarity information indicating the polarity determined by the polarity determination unit. 6. The rotation detector according to claim 5 , wherein, in a case where a region in which a current reference position is determined to be located among the plurality of regions is a region adjacent to a region in which a previous reference position is determined to be located, when a transition from a previous polarity determined by the polarity determination unit to a current polarity determined by the polarity determination unit is not normal, the information processor stores, in the storage, that an error has occurred. 7. The rotation detector according to claim 5 , wherein the information processor updates a count value for calculating a rotation speed of the rotary shaft based on a region in which a current reference position is determined to be located among the plurality of regions, a current polarity determined by the polarity determination unit, a region in which a previous reference position is determined to be located among the plurality of regions, and a previous polarity previously determined by the polarity determination unit. 8. The rotation detector according to claim 1 , further comprising an optical sensor that includes a light emission element and a light reception element operating based on power from a power supply and detects a rotation amount of the rotary shaft, wherein in a case where the optical sensor switches from a non-power-supply state in which power is not supplied from the power supply to a power-supply state in which power is supplied from the power supply, the information processor determines the rotational position of the rotary shaft based on a rotational position of the rotary shaft determined by using the plurality of magnetic sensors in the non-power-supply state and a rotation amount of the rotary shaft detected by the optical sensor after the optical sensor switches to the power-supply state. 9. The rotation detector according to claim 1 , wherein the generated power supply unit includes a sensor power storage that stores power generated by each of the plurality of power generation elements and supplied to a magnetic sensor corresponding to the power generation element among the plurality of magnetic sensors, a power storage that stores power generated by each of the plurality of power generation elements and supplied to other than the plurality of magnetic sensors, and a disconnection unit that electrically disconnects the sensor power storage from the power storage. 10. The rotation detector according to claim 1 , wherein the plurality of power generation elements are disposed with an angular interval larger than or equal to an angular interval between a first position where one power generation element among the plurality of power generation elements generates power when the rotary shaft rotates clockwise and a second position closest to the first position among one or more positions where the one power generation element generates power when the rotary shaft rotates counterclockwise in a rotation direction of the rotary shaft, and each of the plurality of magnetic sensors is disposed at a same position as a corresponding power generation element among the plurality of power generation elements or at a position shifted from the corresponding power generation element by 180 degrees in the rotation direction of the rotary shaft. 11. A rotation detection method using a rotation detector, the rotation detector including a magnet that rotates together with a rotary shaft, a plurality of power generation elements that generate power according to a change in a magnetic field due to rotation of the magnet together with the rotary shaft, a plurality of magnetic sensors each provided to a corresponding one of the plurality of power generation elements, and a generated power supply unit that supplies power generated by each of the plurality of power generation elements only to the corresponding one of the plurality of magnetic sensors, the method comprising: determining in which region among a plurality of regions arranged in a rotation direction of the rotary shaft a reference position in the rotation direction of the rotary shaft is located, based on power generation information indicating a power generation element that has generated power among the plurality of power generation elements and detection information indicating a detection result from a magnetic sensor corresponding to the power generation element among the plurality of magnetic sensors; and storing a region in which the reference position is determined to be located among the plurality of regions.