A sensor device includes a plurality of row lines WL, a plurality of column lines DL, a plurality of reset lines RL, a plurality of pixel circuits that connect to each one of the plurality of row lines, the plurality of column lines and the plurality of reset lines, and an amplifier circuit. The plu
A sensor device includes a plurality of row lines WL, a plurality of column lines DL, a plurality of reset lines RL, a plurality of pixel circuits that connect to each one of the plurality of row lines, the plurality of column lines and the plurality of reset lines, and an amplifier circuit. The plurality of pixel circuits respectively includes a pyroelectric element, a reset switch that is driven by the plurality of reset lines and discharges an electric charge of the pyroelectric element, and a pixel selection switch that is driven by the plurality of row lines and outputs a signal, which is based on a change of the electric charge of the pyroelectric element by a discharge, to one of the column lines. The signal based on the change of the electric charge of the pyroelectric element by the discharge is amplified in the amplifier circuit.
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1. A sensor device comprising: a plurality of row lines;a plurality of column lines;a plurality of reset lines;a plurality of pixel circuits that connect to each one of the plurality of row lines, the plurality of column lines and the plurality of reset lines, each of the plurality of pixel circuits
1. A sensor device comprising: a plurality of row lines;a plurality of column lines;a plurality of reset lines;a plurality of pixel circuits that connect to each one of the plurality of row lines, the plurality of column lines and the plurality of reset lines, each of the plurality of pixel circuits including a pyroelectric element,a reset switch that connects to one of the plurality of reset lines and discharges an electric charge of the pyroelectric element, the reset switch being arranged in parallel with the pyroelectric element, the reset switch charging the electric charge of the pyroelectric element in an off-state and discharging the electric charge of the pyroelectric element in an on-state, anda pixel selection switch that is driven by one of the plurality of row lines and outputs a signal, which is based on a change of the electric charge of the pyroelectric element by a discharge, to one of the plurality of column lines;an amplifier circuit that connects to one of the plurality of column lines, the signal being amplified in the amplifier circuit; anda reset circuit that controls the reset switch,the reset circuit controlling the reset switch, which is included in one of the plurality of the pixel circuits, to change from the off-state to the on-state after a period starts and before the period ends, during the period one of the plurality of the row lines being selected and connected to the pixel selection switch which is included in the one of the plurality of the pixel circuits which is connected to the one of the plurality of the row lines being selected. 2. The sensor device according to claim 1, wherein the reset switches of the plurality of pixel circuits that store the electric charge are controlled by the reset circuit to change from the off state to the on-state after the electric charge has been stored in the pyroelectric elements of the plurality of pixel circuits. 3. The sensor device according to claim 2, wherein a period of controlling the reset switches of the plurality of pixel circuits to be in the on-state is respectively varied depending on the plurality of reset lines. 4. The sensor device according to claim 1, further comprising: an A/D converter that performs an A/D conversion of the signal amplified in the amplifier circuit. 5. An electronic apparatus comprising the sensor device according to claim 1. 6. The electronic apparatus according to claim 5, further comprising: a light source that intermittently irradiates light, wherein the plurality of reset switches are controlled by the reset circuit to change from the off-state to the on-state after the electric charge has been stored in the pyroelectric elements by irradiating the light from the light source. 7. A sensor device comprising: a plurality of row lines;a plurality of column lines;a plurality of reset lines;a plurality of pixel circuits that connect to each one of the plurality of row lines, the plurality of column lines and the plurality of reset lines, each of the plurality of pixel circuits including a pyroelectric element that generates pyroelectric current and stores electric charge based on the generated pyroelectric current,a reset switch that connects to one of the plurality of reset lines and discharges the electric charge, the reset switch being arranged in parallel with the pyroelectric element, the reset switch charging the electric charge of the pyroelectric element in an off-state and discharging the electric charge of the pyroelectric element in an on-state, anda pixel selection switch that is driven by one of the plurality of row lines and outputs a signal, which is based on the electric charge, to the column lines, the signal being generated by the discharge; anda reset circuit that controls the reset switch,the reset circuit controlling the reset switch, which is included in one of the plurality of the pixel circuits, to change from the off-state to the on-state after a period starts and before the period ends, during the period one of the plurality of the row lines being selected and connected to the pixel selection switch which is included in the one of the plurality of the pixel circuits which is connected to the one of the plurality of the row lines being selected. 8. The sensor device according to claim 7, wherein the signal which outputs to the plurality of column lines from the plurality of pixel circuits is a signal based on the electric charge which is simultaneously stored in the pyroelectric elements of the plurality of pixel circuits. 9. The sensor device according to claim 7, further comprising: a plurality of amplifier circuits that connect to the plurality of column lines; wherein each of the plurality of amplifier circuits includes an amplifier that amplifies the voltage, which is inputted to an input terminal, from one of the plurality of column lines and outputs to an output terminal, andwherein the reset switch has a period that the pixel selection switch is selected by one of the plurality of row lines so as to perform the discharge while the amplifier performs an amplifier operation. 10. An electronic apparatus comprising the sensor device according to claim 7. 11. The electronic apparatus according to claim 10, further comprising: a light source that intermittently irradiates light, wherein the plurality of reset switches are controlled by the reset circuit to change from the off-state to the on-state after the electric charge has been stored in the pyroelectric element by irradiating the light from the light source. 12. The sensor device according to claim 1, wherein the reset circuit controls the reset switch, which is included in the one of the plurality of the pixel circuits, to change from the on-state to the off-state in response to end of the period. 13. The sensor device according to claim 12, wherein the amplifier circuit, which is connected to the one of the plurality of the pixel circuits, changes from a non-operating state to an operating state after the period has started and before the period ends. 14. The sensor device according to claim 13, wherein the reset circuit controls the reset switch to change from the off-state to the on-state after the amplifier circuit has changed from the non-operating state to the operating state during the period.
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