Photoelectric encoder for deconcentrating calculation load and reducing power consumption and measuring instrument including thereof

What is claimed is: 1. An absolute-type photoelectric encoder including a light receiving unit configured to output a plurality of photocurrent signals obtained by receiving light emitted from a light emission unit, via a scale, a signal conversion unit configured to output a conversion signal by converting the plurality of photocurrent signals, and a position calculation unit configured to calculate an absolute position based on the conversion signal, the photoelectric encoder comprising: a control unit configured to perform drive control of the light emission unit, the signal conversion unit, and the position calculation unit, wherein the control unit intermittently drives at least either one of the light emission unit and the signal conversion unit, and causes the position calculation unit to execute calculation according to a timing of intermittent driving, and wherein the control unit stops power supply to the at least either one of the light emission unit and the signal conversion unit during at least a time period in which the control unit causes the position calculation unit to execute calculation of the absolute position. 2. The photoelectric encoder according to claim 1 , wherein the signal conversion unit includes a sample-and-hold circuit. 3. The photoelectric encoder according to claim 1 , further comprising: a light amount detection unit configured to output a light amount signal based on the photocurrent signals from the light receiving unit; a light amount calculation unit configured to calculate a light amount of the light emission unit based on the light amount signal; and a current control unit configured to control current to be supplied to the light emission unit, wherein the control unit performs drive control of the light amount detection unit, the light amount calculation unit, and the current control unit, and wherein the control unit causes the current control unit to execute current control to the light emission unit according to a light amount of the light emission unit that has been calculated by the light amount calculation unit. 4. The photoelectric encoder according to claim 3 , wherein the control unit intermittently drives the light amount detection unit, and causes the light amount calculation unit to execute calculation according to a timing of intermit driving. 5. The photoelectric encoder according to claim 3 , wherein the current control unit controls current to be supplied to the light emission unit, by setting a current value based on control information in which the current value and a control value are defined by a linear function passing through an origin, and using a range from a predetermined lower limit larger than an origin in the control value, to an upper limit. 6. The photoelectric encoder according to claim 5 , wherein the control information includes upper control information in which the current value is set in a range of the large current value, and lower control information in which the current value is set in a range of the current value smaller than that in the upper control information, wherein the current control unit is configured to set the current value by shifting between the upper control information and the lower control information, wherein, in the case of increasing the current value, the current control unit shifts a value from an upper limit of the control value in the lower control information, to a control value larger than a lower limit of the control value in the upper control information, and wherein, in the case of decreasing the current value, the current control unit shifts a value from a lower limit of the control value in the upper control information, to a control value smaller than an upper limit of the control value in the lower control information. 7. The photoelectric encoder according to claim 1 , wherein the control unit is configured to be able to change a timing of intermittently driving the light emission unit and the signal conversion unit. 8. The photoelectric encoder according to claim 1 , wherein the light emission unit includes an LED as a light source. 9. A measuring instrument including the photoelectric encoder according to claim 1 . 10. The measuring instrument according to claim 9 , further comprising a display unit configured to display position information calculated by the position calculation unit. 11. An absolute-type photoelectric encoder including a light receiving unit configured to output a plurality of photocurrent signals obtained by receiving light emitted from a light emission unit, via a scale, a signal conversion unit configured to output a conversion signal by converting the plurality of photocurrent signals, and a position calculation unit configured to calculate an absolute position based on the conversion signal, the photoelectric encoder comprising: a control unit configured to perform drive control of the light emission unit, the signal conversion unit, and the position calculation unit; a light amount detection unit configured to output a light amount signal based on the photocurrent signals from the light receiving unit; a light amount calculation unit configured to calculate a light amount of the light emission unit based on the light amount signal; and a current control unit configured to control current to be supplied to the light emission unit, wherein the control unit intermittently drives at least either one of the light emission unit and the signal conversion unit, and causes the position calculation unit to execute calculation according to a timing of intermittent driving, wherein the control unit performs drive control of the light amount detection unit, the light amount calculation unit, and the current control unit, wherein the control unit causes the current control unit to execute current control to the light emission unit according to a light amount of the light emission unit that has been calculated by the light amount calculation unit, and wherein the current control unit controls current to be supplied to the light emission unit, by setting a current value based on control information in which the current value and a control value are defined by a linear function passing through an origin, and using a range from a predetermined lower limit larger than an origin in the control value, to an upper limit. 12. The photoelectric encoder according to claim 11 , wherein the control information includes upper control information in which the current value is set in a range of the large current value, and lower control information in which the current value is set in a range of the current value smaller than that in the upper control information, wherein the current control unit is configured to set the current value by shifting between the upper control information and the lower control information, wherein, in the case of increasing the current value, the current control unit shifts a value from an upper limit of the control value in the lower control information, to a control value larger than a lower limit of the control value in the upper control information, and wherein, in the case of decreasing the current value, the current control unit shifts a value from a lower limit of the control value in the upper control information, to a control value smaller than an upper limit of the control value in the lower control information.