LIGHT QUANTITY DETECTION CIRCUIT, ELECTRO-OPTICAL DEVICE, AND ELECTRONIC EQUIPMENT

PROBLEM TO BE SOLVED: To provide a light quantity detection circuit, an electro-optical device, and electronic equipment preventing a change of sensitivity of light quantity detection even when it is used with the lapse of time. SOLUTION: The light quantity detection circuit includes a TFT 11 made a...

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Hauptverfasser:	KUNIMORI TAKASHI, YAMAZAKI KATSUNORI
Format:	Patent
Sprache:	eng
Schlagworte:	BASIC ELECTRIC ELEMENTS ELECTRIC SOLID STATE DEVICES NOT OTHERWISE PROVIDED FOR ELECTRICITY SEMICONDUCTOR DEVICES
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creator	KUNIMORI TAKASHI YAMAZAKI KATSUNORI
description	PROBLEM TO BE SOLVED: To provide a light quantity detection circuit, an electro-optical device, and electronic equipment preventing a change of sensitivity of light quantity detection even when it is used with the lapse of time. SOLUTION: The light quantity detection circuit includes a TFT 11 made a conduction state by applying positive voltage with respect to source electrode d to a gate electrode; and a capacitive element 13 parallely connected with respect to a source electrode s and a drain electrode d. The circuit operates as follows in a first, a second and a third intervals: in the first interval positive voltage is applied to a gate electrode g and by closing the switch S1 the opposite ends of the capacitive element 13 is short-circuited; the application of the positive voltage is interrupted and the switch S1 is opened; in the second interval the short-circuiting of the capacitive element 13 is opened by closing the switch S2 reference voltage Va is applied to opposite ends of the capacitive element 13; in the third interval where the switch S2 is opened, incident light quantity into the TFT 11 is detected based on a voltage change across the opposite ends of the capacitive element 13. COPYRIGHT: (C)2010,JPO&INPIT
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SOLUTION: The light quantity detection circuit includes a TFT 11 made a conduction state by applying positive voltage with respect to source electrode d to a gate electrode; and a capacitive element 13 parallely connected with respect to a source electrode s and a drain electrode d. The circuit operates as follows in a first, a second and a third intervals: in the first interval positive voltage is applied to a gate electrode g and by closing the switch S1 the opposite ends of the capacitive element 13 is short-circuited; the application of the positive voltage is interrupted and the switch S1 is opened; in the second interval the short-circuiting of the capacitive element 13 is opened by closing the switch S2 reference voltage Va is applied to opposite ends of the capacitive element 13; in the third interval where the switch S2 is opened, incident light quantity into the TFT 11 is detected based on a voltage change across the opposite ends of the capacitive element 13. 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SOLUTION: The light quantity detection circuit includes a TFT 11 made a conduction state by applying positive voltage with respect to source electrode d to a gate electrode; and a capacitive element 13 parallely connected with respect to a source electrode s and a drain electrode d. The circuit operates as follows in a first, a second and a third intervals: in the first interval positive voltage is applied to a gate electrode g and by closing the switch S1 the opposite ends of the capacitive element 13 is short-circuited; the application of the positive voltage is interrupted and the switch S1 is opened; in the second interval the short-circuiting of the capacitive element 13 is opened by closing the switch S2 reference voltage Va is applied to opposite ends of the capacitive element 13; in the third interval where the switch S2 is opened, incident light quantity into the TFT 11 is detected based on a voltage change across the opposite ends of the capacitive element 13. 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SOLUTION: The light quantity detection circuit includes a TFT 11 made a conduction state by applying positive voltage with respect to source electrode d to a gate electrode; and a capacitive element 13 parallely connected with respect to a source electrode s and a drain electrode d. The circuit operates as follows in a first, a second and a third intervals: in the first interval positive voltage is applied to a gate electrode g and by closing the switch S1 the opposite ends of the capacitive element 13 is short-circuited; the application of the positive voltage is interrupted and the switch S1 is opened; in the second interval the short-circuiting of the capacitive element 13 is opened by closing the switch S2 reference voltage Va is applied to opposite ends of the capacitive element 13; in the third interval where the switch S2 is opened, incident light quantity into the TFT 11 is detected based on a voltage change across the opposite ends of the capacitive element 13. 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subjects	BASIC ELECTRIC ELEMENTS ELECTRIC SOLID STATE DEVICES NOT OTHERWISE PROVIDED FOR ELECTRICITY SEMICONDUCTOR DEVICES
title	LIGHT QUANTITY DETECTION CIRCUIT, ELECTRO-OPTICAL DEVICE, AND ELECTRONIC EQUIPMENT
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