Photosensor, and driving method for photosensor

The invention claimed is: 1. A photosensor comprising: a light receiving part configured to generate electric charge according to incident light; a charge transfer gate configured to transfer the electric charge generated in the light receiving part; a discharge gate configured to discharge the electric charge generated in the light receiving part; and a signal generation unit configured to generate a light source signal for a light source to periodically output light and a charge transfer signal applied to the charge transfer gate, wherein the signal generation unit generates the charge transfer signal so that the charge transfer gate is brought into a charge transfer state in a first time range of a first period belonging to a first frame and the charge transfer gate is brought into a charge transfer state in a second time range of a second period belonging to a second frame, the first frame and the second frame occur at different times from each other, a start time of the first period is synchronized with a timing at which the light source outputs the light during the first frame, a start time of the second period is synchronized with a timing at which the light source outputs the light during the second frame, when a start time of the first period and a start time of the second period are made to match based on the timing of outputting the light, the first time range and the second time range partially overlap each other such that a second length of time of the first time range overlaps a first length of time of the second time range whereas a first length of time of the first time range does not overlap with a second length of time of the second time range, in the first time range and the second time range, the discharge gate is in a charge non-discharge state, and in the first time range and the second time range, time ranges in which the electric charge is transferred overlap each other. 2. The photosensor according to claim 1 , wherein the first frame and the second frame are frames continuous with each other. 3. The photosensor according to claim 1 , wherein the signal generation unit generates the charge transfer signal so that the charge transfer gate is brought into a charge transfer state in an overlapping time range when a start time of a period is made to match over a plurality of the periods in one frame. 4. The photosensor according to claim 1 , wherein the charge transfer gate includes a first charge transfer gate and a second charge transfer gate, and the signal generation unit generates the charge transfer signal so that one of the first charge transfer gate and the second charge transfer gate is brought into a charge transfer state in the first time range, and the one of the first charge transfer gate and the second charge transfer gate is brought into a charge transfer state in the second time range. 5. The photosensor according to claim 1 , wherein the charge transfer gate includes a first charge transfer gate and a second charge transfer gate, and the signal generation unit generates the charge transfer signal so that one of the first charge transfer gate and the second charge transfer gate is brought into a charge transfer state in the first time range, and the other of the first charge transfer gate and the second charge transfer gate is brought into a charge transfer state in the second time range. 6. The photosensor according to claim 1 , wherein the charge transfer gate includes a first charge transfer gate and a second charge transfer gate, the signal generation unit generates the charge transfer signal so that the first charge transfer gate is brought into a charge transfer state in the first time range, and the first charge transfer gate is brought into a charge transfer state in the second time range, the second charge transfer gate is brought into a charge transfer state in a third time range of the first period, and the second charge transfer gate is brought into a charge transfer state in a fourth time range of the second period, and a part of the third time range and a part of the fourth time range overlap each other when a start time of the first period and a start time of the second period are made to match. 7. The photosensor according to claim 1 , wherein the signal generation unit generates the charge transfer signal so that the charge transfer gate is brought into a charge transfer state in a fifth time range, the charge transfer gate is brought into a charge transfer state in a sixth time range separated from the fifth time range, and the discharge gate is brought into a charge discharge state in a seventh time range between the fifth time range and the sixth time range. 8. A driving method for a photosensor which is a driving method for a photosensor including a light receiving part configured to generate electric charge according to incident light, a charge transfer gate configured to transfer the electric charge generated in the light receiving part, and a discharge gate configured to discharge the electric charge generated in the light receiving part, the driving method comprising: generating a charge transfer signal applied to the charge transfer gate so that the charge transfer gate is brought into a charge transfer state in a first time range of a first period belonging to a first frame and the charge transfer gate is brought into a charge transfer state in a second time range of a second period belonging to a second frame, wherein the first frame and the second frame occur at different times from each other, a start time of the first period is synchronized with a timing at which a light source outputs a light during the first frame, a start time of the second period is synchronized with a timing at which the light source outputs the light during the second frame, when a start time of the first period and a start time of the second period are made to match based on the timing of outputting the light, the first time range and the second time range partially overlap each other such that a second length of time of the first time range overlaps a first length of time of the second time range whereas a first length of time of the first time range does not overlap with a second length of time of the second time range, in the first time range and the second time range, the discharge gate is in a charge non-discharge state, and in the first time range and the second time range, time ranges in which the electric charge is transferred overlap each other. 9. A photosensor comprising: a light receiving part configured to generate electric charge according to incident light; a charge transfer gate configured to transfer the electric charge generated in the light receiving part; and a discharge gate configured to discharge the electric charge generated in the light receiving part; and a signal generation unit configured to generate a light source signal for a light source to periodically output light and a charge transfer signal applied to the charge transfer gate, wherein the signal generation unit generates the charge transfer signal so that the charge transfer gate is brought into a charge transfer state in a first time range of a first period belonging to a first frame and the charge transfer gate is brought into a charge transfer state in a second time range of a second period belonging to a second frame, the first frame and the second frame occur at different times from each other, a start time of the first period is synchronized with a timing at which the light source outputs the light during the first frame, a start time of the second period is synchronized with a timing at which the light source outputs the light during the second frame, when a start time