Lifetime Optimization of Optical Sensing System With Highly Reliable a-Si:H TFT-Based Optical Sensor and Driver Circuit in Large AMLCDs

This paper presents a lifetime optimization of optical sensing system that integrates highly reliable optical sensors and driver circuits that use hydrogenated amorphous silicon thin-film transistors (a-Si:H TFTs) to realize binary detection of optical signal with a multi-position sensing function f...

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Veröffentlicht in:	IEEE access 2024, Vol.12, p.78122-78131
Hauptverfasser:	Lin, Chih-Lung, Lee, Chia-Lun, Ke, Cheng-Han, Lai, Po-Cheng, Chiu, Chung-Tien, Chiu, Yu-Chang, Kuo, Chia-Wei
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Sprache:	eng
Schlagworte:	Accelerated life tests Amorphous silicon Circuit reliability Driver circuit Driver circuits hydrogenated amorphous silicon thin-film transistors (a-Si:H TFTs) Liquid crystal displays Optical amplifiers Optical filters Optical measuring instruments optical sensor Optical sensors Optimization Photoconductivity Photoelectric effect Photoelectric emission Position sensing Pulse duration Semiconductor devices Sensors Silicon films Stress Thin film transistors Threshold voltage Waveforms White light
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description	This paper presents a lifetime optimization of optical sensing system that integrates highly reliable optical sensors and driver circuits that use hydrogenated amorphous silicon thin-film transistors (a-Si:H TFTs) to realize binary detection of optical signal with a multi-position sensing function for use in large active-matrix liquid crystal display (AMLCD). The optical sensor suppresses the effect of variations in ambient white light using a white-light photocurrent gating (WPCG) structure and increases the reliability of two photo TFTs by halving the drain-to-source voltage (VDS) stress. The driver circuit switches two driving TFTs between their two modes to recover the threshold voltage (VTH) shifts during a long sensing period or generate an output waveform with a large pulse width for driving the optical sensor. Experimental results indicate that the degradation of the photocurrent of the photo TFT is suppressed from 3.71 nA to 1.03 nA, representing an improvement of 72.2% relative to the original WPCG structure. The minimum difference between the output voltages of the optical sensing systems with and without an optical signal under illumination by ambient white light from 500 to 10000 lux is 18.58 V. According to an accelerated lifetime test, the feasibility of using the optical sensing system in large AMLCDs is verified.
doi_str_mv	10.1109/ACCESS.2024.3399483
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The optical sensor suppresses the effect of variations in ambient white light using a white-light photocurrent gating (WPCG) structure and increases the reliability of two photo TFTs by halving the drain-to-source voltage (VDS) stress. The driver circuit switches two driving TFTs between their two modes to recover the threshold voltage (VTH) shifts during a long sensing period or generate an output waveform with a large pulse width for driving the optical sensor. Experimental results indicate that the degradation of the photocurrent of the photo TFT is suppressed from 3.71 nA to 1.03 nA, representing an improvement of 72.2% relative to the original WPCG structure. The minimum difference between the output voltages of the optical sensing systems with and without an optical signal under illumination by ambient white light from 500 to 10000 lux is 18.58 V. According to an accelerated lifetime test, the feasibility of using the optical sensing system in large AMLCDs is verified.</description><identifier>ISSN: 2169-3536</identifier><identifier>EISSN: 2169-3536</identifier><identifier>DOI: 10.1109/ACCESS.2024.3399483</identifier><identifier>CODEN: IAECCG</identifier><language>eng</language><publisher>Piscataway: IEEE</publisher><subject>Accelerated life tests ; Amorphous silicon ; Circuit reliability ; Driver circuit ; Driver circuits ; hydrogenated amorphous silicon thin-film transistors (a-Si:H TFTs) ; Liquid crystal displays ; Optical amplifiers ; Optical filters ; Optical measuring instruments ; optical sensor ; Optical sensors ; Optimization ; Photoconductivity ; Photoelectric effect ; Photoelectric emission ; Position sensing ; Pulse duration ; Semiconductor devices ; Sensors ; Silicon films ; Stress ; Thin film transistors ; Threshold voltage ; Waveforms ; White light</subject><ispartof>IEEE access, 2024, Vol.12, p.78122-78131</ispartof><rights>Copyright The Institute of Electrical and Electronics Engineers, Inc. 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The optical sensor suppresses the effect of variations in ambient white light using a white-light photocurrent gating (WPCG) structure and increases the reliability of two photo TFTs by halving the drain-to-source voltage (VDS) stress. The driver circuit switches two driving TFTs between their two modes to recover the threshold voltage (VTH) shifts during a long sensing period or generate an output waveform with a large pulse width for driving the optical sensor. Experimental results indicate that the degradation of the photocurrent of the photo TFT is suppressed from 3.71 nA to 1.03 nA, representing an improvement of 72.2% relative to the original WPCG structure. The minimum difference between the output voltages of the optical sensing systems with and without an optical signal under illumination by ambient white light from 500 to 10000 lux is 18.58 V. 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The optical sensor suppresses the effect of variations in ambient white light using a white-light photocurrent gating (WPCG) structure and increases the reliability of two photo TFTs by halving the drain-to-source voltage (VDS) stress. The driver circuit switches two driving TFTs between their two modes to recover the threshold voltage (VTH) shifts during a long sensing period or generate an output waveform with a large pulse width for driving the optical sensor. Experimental results indicate that the degradation of the photocurrent of the photo TFT is suppressed from 3.71 nA to 1.03 nA, representing an improvement of 72.2% relative to the original WPCG structure. The minimum difference between the output voltages of the optical sensing systems with and without an optical signal under illumination by ambient white light from 500 to 10000 lux is 18.58 V. 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subjects	Accelerated life tests Amorphous silicon Circuit reliability Driver circuit Driver circuits hydrogenated amorphous silicon thin-film transistors (a-Si:H TFTs) Liquid crystal displays Optical amplifiers Optical filters Optical measuring instruments optical sensor Optical sensors Optimization Photoconductivity Photoelectric effect Photoelectric emission Position sensing Pulse duration Semiconductor devices Sensors Silicon films Stress Thin film transistors Threshold voltage Waveforms White light
title	Lifetime Optimization of Optical Sensing System With Highly Reliable a-Si:H TFT-Based Optical Sensor and Driver Circuit in Large AMLCDs
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