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Thin film transistor circuits and systems / / Reza Chaji, Arokia Nathan [[electronic resource]]
Thin film transistor circuits and systems / / Reza Chaji, Arokia Nathan [[electronic resource]]
Autore Chaji Reza
Pubbl/distr/stampa Cambridge : , : Cambridge University Press, , 2013
Descrizione fisica 1 online resource (ix, 169 pages) : digital, PDF file(s)
Disciplina 621.3815
Soggetto topico Thin film transistors
Transistor circuits
ISBN 1-316-08943-6
1-107-06493-7
1-107-05763-9
1-107-05888-0
1-107-05545-8
0-511-99809-0
1-107-05652-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto 1. Introduction -- Organic Light Emitting Displays -- Flat-Panel Biomedical Imagers -- Backplane Technologies -- Organization -- 2. Design Considerations -- Temporal and Spatial Non-Uniformity -- Compensation Schemes -- Current Driving Scheme -- Voltage Driving Scheme -- Design Considerations for AMOLED Displays -- Lifetime and Yield -- Differential Aging and Mura -- Power Consumption -- Aperture Ratio -- IR Drop and Ground Bouncing -- Implementation Cost -- Design Considerations for Flat Panel Imager -- Input referred Noise and Dynamic Range -- Implementation Cost -- 3. Hybrid Voltage-Current Programming -- Multi-Modal Biomedical Imaging Pixel Circuit -- Multi-Modal Biomedical Sensor Array -- Peripheral Circuitries -- Measurement Results -- Improved Dynamic Range -- Noise Analysis of CBVP Pixel Circuit -- CBVP AMOLED Pixel Circuit -- 4. Enhanced-Settling Current Programming -- Localized current source -- Current Feedback -- Positive Feedback -- Stability and Noise Analysis -- Measurement Results and Discussion -- Self-Calibration of the Current Source -- 5. Charge-Based Driving Scheme -- Advance Mobile Technology (AdMoTM) -- Measurement Results -- Implementation of the Relaxation Technique -- AMOLED Display -- Real-Time Biomedical Imaging Pixel Circuit -- Noise Analysis of Charge-Based Pixel Circuit -- 6. High Resolution Architectures -- Time Dependent Charge Injection and Clock Feed-Through -- Successive Calibration -- Arrays Structure and Timing -- Blanking-time extraction -- Simultaneous extraction -- Configurable Current Comparator -- Measurement Results and Discussions -- Hybrid approach -- 7. Summary and Outlook -- Appendix A. Enhanced Voltage Driving Schemes -- Interleaved Addressing Scheme -- 3-TFT Pixel Circuit -- Appendix B. OLED Electrical Calibration -- Interdependence Between Electrical and Luminance Degradation -- Electrical Compensation of OLED Degradation -- Compensating for different stress levels
Altri titoli varianti Thin Film Transistor Circuits & Systems
Record Nr. UNINA-9910452550803321
Chaji Reza  
Cambridge : , : Cambridge University Press, , 2013
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Thin film transistor circuits and systems / / Reza Chaji, Arokia Nathan [[electronic resource]]
Thin film transistor circuits and systems / / Reza Chaji, Arokia Nathan [[electronic resource]]
Autore Chaji Reza
Pubbl/distr/stampa Cambridge : , : Cambridge University Press, , 2013
Descrizione fisica 1 online resource (ix, 169 pages) : digital, PDF file(s)
Disciplina 621.3815
Soggetto topico Thin film transistors
Transistor circuits
ISBN 1-316-08943-6
1-107-06493-7
1-107-05763-9
1-107-05888-0
1-107-05545-8
0-511-99809-0
1-107-05652-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto 1. Introduction -- Organic Light Emitting Displays -- Flat-Panel Biomedical Imagers -- Backplane Technologies -- Organization -- 2. Design Considerations -- Temporal and Spatial Non-Uniformity -- Compensation Schemes -- Current Driving Scheme -- Voltage Driving Scheme -- Design Considerations for AMOLED Displays -- Lifetime and Yield -- Differential Aging and Mura -- Power Consumption -- Aperture Ratio -- IR Drop and Ground Bouncing -- Implementation Cost -- Design Considerations for Flat Panel Imager -- Input referred Noise and Dynamic Range -- Implementation Cost -- 3. Hybrid Voltage-Current Programming -- Multi-Modal Biomedical Imaging Pixel Circuit -- Multi-Modal Biomedical Sensor Array -- Peripheral Circuitries -- Measurement Results -- Improved Dynamic Range -- Noise Analysis of CBVP Pixel Circuit -- CBVP AMOLED Pixel Circuit -- 4. Enhanced-Settling Current Programming -- Localized current source -- Current Feedback -- Positive Feedback -- Stability and Noise Analysis -- Measurement Results and Discussion -- Self-Calibration of the Current Source -- 5. Charge-Based Driving Scheme -- Advance Mobile Technology (AdMoTM) -- Measurement Results -- Implementation of the Relaxation Technique -- AMOLED Display -- Real-Time Biomedical Imaging Pixel Circuit -- Noise Analysis of Charge-Based Pixel Circuit -- 6. High Resolution Architectures -- Time Dependent Charge Injection and Clock Feed-Through -- Successive Calibration -- Arrays Structure and Timing -- Blanking-time extraction -- Simultaneous extraction -- Configurable Current Comparator -- Measurement Results and Discussions -- Hybrid approach -- 7. Summary and Outlook -- Appendix A. Enhanced Voltage Driving Schemes -- Interleaved Addressing Scheme -- 3-TFT Pixel Circuit -- Appendix B. OLED Electrical Calibration -- Interdependence Between Electrical and Luminance Degradation -- Electrical Compensation of OLED Degradation -- Compensating for different stress levels
Altri titoli varianti Thin Film Transistor Circuits & Systems
Record Nr. UNINA-9910779984403321
Chaji Reza  
Cambridge : , : Cambridge University Press, , 2013
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Thin film transistor circuits and systems / / Reza Chaji, Arokia Nathan [[electronic resource]]
Thin film transistor circuits and systems / / Reza Chaji, Arokia Nathan [[electronic resource]]
Autore Chaji Reza
Pubbl/distr/stampa Cambridge : , : Cambridge University Press, , 2013
Descrizione fisica 1 online resource (ix, 169 pages) : digital, PDF file(s)
Disciplina 621.3815
Soggetto topico Thin film transistors
Transistor circuits
ISBN 1-316-08943-6
1-107-06493-7
1-107-05763-9
1-107-05888-0
1-107-05545-8
0-511-99809-0
1-107-05652-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto 1. Introduction -- Organic Light Emitting Displays -- Flat-Panel Biomedical Imagers -- Backplane Technologies -- Organization -- 2. Design Considerations -- Temporal and Spatial Non-Uniformity -- Compensation Schemes -- Current Driving Scheme -- Voltage Driving Scheme -- Design Considerations for AMOLED Displays -- Lifetime and Yield -- Differential Aging and Mura -- Power Consumption -- Aperture Ratio -- IR Drop and Ground Bouncing -- Implementation Cost -- Design Considerations for Flat Panel Imager -- Input referred Noise and Dynamic Range -- Implementation Cost -- 3. Hybrid Voltage-Current Programming -- Multi-Modal Biomedical Imaging Pixel Circuit -- Multi-Modal Biomedical Sensor Array -- Peripheral Circuitries -- Measurement Results -- Improved Dynamic Range -- Noise Analysis of CBVP Pixel Circuit -- CBVP AMOLED Pixel Circuit -- 4. Enhanced-Settling Current Programming -- Localized current source -- Current Feedback -- Positive Feedback -- Stability and Noise Analysis -- Measurement Results and Discussion -- Self-Calibration of the Current Source -- 5. Charge-Based Driving Scheme -- Advance Mobile Technology (AdMoTM) -- Measurement Results -- Implementation of the Relaxation Technique -- AMOLED Display -- Real-Time Biomedical Imaging Pixel Circuit -- Noise Analysis of Charge-Based Pixel Circuit -- 6. High Resolution Architectures -- Time Dependent Charge Injection and Clock Feed-Through -- Successive Calibration -- Arrays Structure and Timing -- Blanking-time extraction -- Simultaneous extraction -- Configurable Current Comparator -- Measurement Results and Discussions -- Hybrid approach -- 7. Summary and Outlook -- Appendix A. Enhanced Voltage Driving Schemes -- Interleaved Addressing Scheme -- 3-TFT Pixel Circuit -- Appendix B. OLED Electrical Calibration -- Interdependence Between Electrical and Luminance Degradation -- Electrical Compensation of OLED Degradation -- Compensating for different stress levels
Altri titoli varianti Thin Film Transistor Circuits & Systems
Record Nr. UNINA-9910809052203321
Chaji Reza  
Cambridge : , : Cambridge University Press, , 2013
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui