Relevant bibliographies by topics / Charge-coupled device (CCD)

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Charge-coupled device (CCD)'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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Journal articles on the topic "Charge-coupled device (CCD)"

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Davidson, D. A., and O. Berolo. "GaAs charge-coupled devices." Canadian Journal of Physics 67, no. 4 (1989): 225–31. http://dx.doi.org/10.1139/p89-040.

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This paper reports on the first Canadian involvement in the design, process development, fabrication, and evaluation of a gallium arsenide (GaAs) charge-coupled device (CCD). The project is applications driven, and is eventually expected to yield devices capable of performing at microwave frequencies with broad bandwidths. The devices were originally designed to operate in a transient digitizer for high-energy nuclear-event analysis at the the Tri- University Meson Facility (TRIUMF) in B.C.The prototype device consists of a 32-stage, four-phase GaAs CCD intended to function at radio-frequencies (if). The work that has been undertaken will be discussed under the following aspects: device design, layout description, and substrate-material specifications. This discussion will be supported by an in-depth explanation of the functioning and operation of the GaAs CCD, and how the above considerations affect it. A description will be given of the procedures, methodology, and the test-bed utilized to evaluate the devices. Results will be given for CCDs operating close to 1 GHz. The rf waveform will be analyzed in the context of charge-transfer efficiency (CTE) and the presence of clock feedthrough. Because of the need for an eventual integration of the GaAs CCD on-chip with other essential auxiliary electronic circuitry, results will be given for devices working in conjunction with other GaAs digital and analog circuits, such as a broad-band four-phase clock generator and a sample-and-hold circuit.
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Murillo Pulgarín, José A., Luisa F. García Bermejo, and M. Nieves Sánchez García. "Chemiluminescent Determination of Vitamin B12Using Charge Coupled Device (CCD)." Analytical Letters 44, no. 16 (2011): 2593–605. http://dx.doi.org/10.1080/00032719.2011.553005.

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LeNoble, Maurice, and John V. Cresswell. "Uniphase operation of a GaAs resistive gate charge-coupled device." Canadian Journal of Physics 70, no. 10-11 (1992): 1143–47. http://dx.doi.org/10.1139/p92-185.

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The operation of a GaAs charge-coupled device (CCD) within the UHF band is a technically challenging problem. The GaAs CCDs that were reported previously in the literature were typically operated with multiphase clocks, with the majority operated using clocks in phase quadrature. To provide the multiple UHF clock wave forms with phase correlation to a GaAs CCD demands very stable picosecond timing accuracy between the adjacent clock phases, otherwise unpredictable variations will occur in the device performance. This requirement is difficult to achieve when attempting to incorporate a GaAs CCD in a high-speed analog application, such as the 500 MHz multichannel transient digitizer application being developed at TRIUMF, because of the nonlinear behaviour of the device as a load impedance. In addition to the difficult timing requirement, there are also the electronic circuit disadvantages associated with providing a multiphase clock to a GaAs CCD. The general circuit approach used to provide a multiphase UHF clock consists of splitting or dividing a master clock signal into a set of clock signals with the desired phase properties. The disadvantages of this approach are (i) the circuits are generally narrowband, restricting the range of clock frequencies that can be used; (ii) the circuits usually consume considerable power, producing substantial heat; and (iii) the circuits are typically complex, making them costly and difficult to incorporate with a GaAs CCD. A novel uniphase clock scheme was recently developed at TRIUMF that overcomes the above technical limitations for the UHF operation of a GaAs resistive gate CCD (RGCCD). The method is unique because the static transverse electric field within the GaAs RGCCD channel required to direct the motion of charge is established using the surface potential control offered by the resistive gates, under dc-biassed conditions. This permits a simple planar device comprising four electrodes per pixel to be used instead of a more elaborate castellated or ion-implanted device. Application of a single clock signal to the GaAs RGCCD provides the required temporal transverse electric field variation to cause charge motion to occur. Charge transfer efficiencies exceeding 0.999 have been achieved with a 128 pixel GaAs resistive gate CCD using (1) a fixed frequency uniphase clock operating below 100 MHz and (2) using a triggered dual frequency uniphase clock operating at 500 MHz during the signal acquisition period and at 15.6 MHz during the signal expenditure period.
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Arneson, AC, S. Benyamin, B. Jones, and GW Schmidt. "A charge-coupled device (CCD) spectrophotometer for measuring marine bioluminescence." Marine Ecology Progress Series 43 (1988): 277–83. http://dx.doi.org/10.3354/meps043277.

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Santillo, Michael F. "A Simple Illustrative Model of a Charge-Coupled Device (CCD)." Physics Teacher 47, no. 7 (2009): 454–55. http://dx.doi.org/10.1119/1.3225509.

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Nehir, Münevver, Carsten Frank, Steffen Aßmann, and Eric P. Achterberg. "Improving Optical Measurements: Non-Linearity Compensation of Compact Charge-Coupled Device (CCD) Spectrometers." Sensors 19, no. 12 (2019): 2833. http://dx.doi.org/10.3390/s19122833.

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Charge-coupled device (CCD) spectrometers are widely used as detectors in analytical laboratory instruments and as sensors for in situ optical measurements. However, as the applications become more complex, the physical and electronic limits of the CCD spectrometers may restrict their applicability. The errors due to dark currents, temperature variations, and blooming can be readily corrected. However, a correction for uncertainty of integration time and wavelength calibration is typically lacking in most devices, and detector non-linearity may distort the signal by up to 5% for some measurements. Here, we propose a simple correction method to compensate for non-linearity errors in optical measurements where compact CCD spectrometers are used. The results indicate that the error due to the non-linearity of a spectrometer can be reduced from several hundred counts to about 40 counts if the proposed correction function is applied.
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Donovan, R. M., and E. Goldstein. "A charge coupled device-based image cytophotometry system for quantitative histochemistry and cytochemistry." Journal of Histochemistry & Cytochemistry 33, no. 6 (1985): 551–56. http://dx.doi.org/10.1177/33.6.3839005.

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A rapid, semiautomated cytophotometry system for quantitative histochemistry and cytochemistry was constructed. The system consists of a Fairchild charge coupled device (CCD) image camera, a Zeiss Universal microscope, a Datacube analog to digital converter, and a digital Equipment Corporation LSI 11/23 computer operating under RT-11. Computer programs were written in FORTRAN and the MACRO assembly language for the acquisition of data from the CCD device. These data were then used for image segmentation, image display, and calculation of total optical density, perimeter, cell area, and several shape features. The reproducibility of measurement made with the CCD-based cytophotometry system was tested by repeated measurements. The coefficient of variation was estimated to be 1.7% for total optical density and 0.9% for cell area. The CCD-based cytophotometry system was further evaluated by comparing results with measurements made on the same cells with a scanning stage cytophotometer using the HIDACSYS computer programs. Correlation coefficients of 0.96 for total optical density and 0.91 for cell area were obtained between the two systems. We conclude that the high-speed, dimensional stability, small size, and linearity of the CCD-based cytophotometry system will make it useful for quantitative histochemistry and cytochemistry.
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Kirschbaum, K., A. Martin та A. A. Pinkerton. "λ/2 Contamination in charge-coupled-device area-detector data". Journal of Applied Crystallography 30, № 4 (1997): 514–16. http://dx.doi.org/10.1107/s0021889897004214.

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A method is proposed to estimate the amount of λ/2 contamination inherent in area-detector [charge-coupled device (CCD) or image plate] data using Mo radiation. The intensity increase due to the Mo λ/2 contribution to Ihkl has been determined by measurement of the intensity for reflections where h, k or l is half-integral, i.e. reflections where there is no contribution from λ, for three crystals using two different CCD diffractometers. This information is present in all data sets obtained with area detectors but is usually ignored. The correction thus determined has been applied to nine data sets. The improvement to the data, as measured from the least-squares refinement, is shown to be insignificant for routine data sets, even for the weak low-angle reflections. Some reduction in the number of `observed' systematic absences is noted, thus improving space-group assignments. In addition, for strongly diffracting crystals, incorrect unit cells may be obtained owing to the presence of strong λ/2 reflections at the reciprocal-lattice nodes.
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Chiovetti, Bob. ""Chip Wars" Heat Up On The Digital Imaging Front." Microscopy Today 7, no. 2 (1999): 3–4. http://dx.doi.org/10.1017/s1551929500063847.

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Although the Charge-Coupled Device (CCD) imaging chip is the standard in today's video and digital cameras, things may change during the coming year. The CCD chip is being challenged by a competing device, the CMOS ("C-moss") chip.CMOS is the most widely used type of integrated circuit for memory and digital processing, virtually everything in computers is CMOS based. The economies of scale and production of CMOS devices are the main reasons why computer prices have continued to drop during the past few years. If a device or an instrument has a microprocessor in it, chances are it includes CMOS technology..
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Goncharov, George A. "CCD astrometry oriented analysis of digitized multiple images (planets, satellites, etc.) obtained with the Pulkovo PVC." Symposium - International Astronomical Union 172 (1996): 435–36. http://dx.doi.org/10.1017/s0074180900127810.

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The Charge Coupled Device (CCD) has become the detector of choice in astrometry. The mechanical or electronic (drift scanning) tracking of objects by the telescope leads among observing strategies developed for CCD observations (Stone and Dahn, 1995).
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Dissertations / Theses on the topic "Charge-coupled device (CCD)"

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Hedges, Sarah Jane. "Production and reliability aspects of the CCD mosaic for the SLD Vertex Detector." Thesis, Brunel University, 1991. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.305193.

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Carter, DB. "Automation of the acquisition system of the 1,9 m telescope for the charge coupled device (CCD) camera." Thesis, Cape Technikon, 1988. http://hdl.handle.net/20.500.11838/1075.

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Thesis (Master Diploma (Electrical Engineering))-- Cape Technikon, Cape Town, 1988<br>This thesis describes the control system developed to improve the efficiency of star acquisition on a ground-based optical telescope. "Star Acquisition" refers to the process of identifying the star of interest in a field of stars and centering it on the optical axis of the telescope , as well as setting an autoguider detector on a suitable star so the autoguider can improve the tracking performance of the telescope. Efficiency is improved by making all functions remote controlled , so the astronomer does not have to move between the control room and the telescope to operate the instrument.
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Greig, Thomas Alexander. "Development of CMOS active pixel sensors." Thesis, Brunel University, 2008. http://bura.brunel.ac.uk/handle/2438/5345.

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This thesis describes an investigation into the suitability of complementary metal oxide semiconductor (CMOS) active pixel sensor (APS) devices for scientific imaging applications. CMOS APS offer a number of advantages over the established charge-coupled device (CCD) technology, primarily in the areas of low power consumption, high-speed parallel readout and random (X-Y) addressing, increased system integration and improved radiation hardness. The investigation used a range of newly designed Test Structures in conjunction with a range of custom developed test equipment to characterise device performance. Initial experimental work highlighted the significant non-linearity in the charge conversion gain (responsivity) and found the read noise to be limited by the kTC component due to resetting of the pixel capacitance. The major experimental study investigated the contribution to dark signal due to hot-carrier injection effects from the in-pixel transistors during read-out and highlighted the importance of the contribution at low signal levels. The quantum efficiency (QE) and cross-talk were also investigated and found to be limited by the pixel fill factor and shallow depletion depth of the photodiode. The work has highlighted the need to design devices to explore the effects of individual components rather than stand-alone imaging devices and indicated further developments are required for APS technology to compete with the CCD for high-end scientific imaging applications. The main areas requiring development are in achieving backside illuminated, deep depletion devices with low dark signal and low noise sampling techniques.
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Hachim, Abdallah. "Mesure de la vitesse de bouteilles sur un convoyeur par caméra CCD." Nancy 1, 1987. http://www.theses.fr/1987NAN10082.

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Zarif, Yussefian Nikta. "Mise en oeuvre d'un mode d'imagerie par transillumination et détection multi-vue à ultra-faible bruit dans l'imageur QOS[indice supérieur TM] pour imagerie moléculaire optique sur petit animal." Mémoire, Université de Sherbrooke, 2014. http://hdl.handle.net/11143/5891.

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La tomographie optique diffuse (TOD) est une technique d’imagerie médicale relativement récente qui utilise la lumière dans le proche infrarouge pour acquérir des images in vivo de façon non invasive. Cette technique est en utilisation croissante par de nombreux chercheurs et biologistes et plusieurs équipes dans le monde travaillent sur le développement de scanners par TOD y compris notre groupe de recherche (groupe TomOptUS). Le Centre d’imagerie moléculaire de Sherbrooke dispose d’un appareil pour imagerie optique sur petit animal développé par la compagnie Quidd, soit le QOS (Quidd Optical imaging System). Cet appareil est utilisé par des biologistes et chercheurs pour diverses études précliniques sur modèles animaux (souris) de maladies humaines comme le cancer. Le QOS est entièrement contrôlé par ordinateur à l’aide d’un logiciel sophistiqué (le QOSoft) qui permet d’obtenir des images en fluorescence et en bioluminescence. Il est toutefois limité en ne permettant d’acquérir que des images planaires de la lumière sortant d’un animal ; il ne permet pas la tomographie, à savoir obtenir des images tridimensionnelles (3D) des sources fluorescentes ou bioluminescentes situées en profondeur à l’intérieur de l’animal. Bien que le QOS offre une grande flexibilité en terme d’angle d’acquisition d’images autour de l’animal avec sa caméra montée sur un bras rotatif, il a une sensibilité limitée pour de l’imagerie en profondeur, notamment parce qu’il fonctionne en mode épiillumination (détection de la lumière du même côté que l’injection de la lumière excitatrice dans l’animal) et aussi à cause de la sensibilité limitée de sa caméra. Afin d’augmenter les capacités tomographiques et la sensibilité du QOS, ainsi que le contraste des images qu’il fournit, le présent projet propose des développements logiciels intégrés au QOSoft. Ces ajouts logiciels au niveau du contrôle d’instrumentation et de l’interface graphique permettent d’intégrer une caméra EMCCD à ultra-haute sensibilité et ultra-faible bruit pour remplacer la caméra CCD refroidie existante ainsi qu’un module d’illumination laser rotatif. Ce module d’illumination, développé par le groupe TomOptUS, permet l’imagerie en mode transillumination ainsi que toutes les configurations intermédiaires jusqu’à l’épi-illumination. Ce module permet en outre d’injecter une densité de puissance lumineuse supérieure à celle possible avec la configuration actuelle du QOS. Le QOS et son logiciel mis à jour avec les ajouts faisant l’objet du présent projet sont validés par des expériences de fluorescence et de bioluminescence sur fantômes et animaux vivants.
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Ferguson, Terry Duane. "THE CHARACTERIZATION OF A VIRTUAL PHASE CCD IMAGER (DETECTORS)." Thesis, The University of Arizona, 1985. http://hdl.handle.net/10150/291601.

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Stevens, Eric G. "A low-noise CCD electrometer using buried-channel LDD NMOSFETs /." Online version of thesis, 1987. http://hdl.handle.net/1850/9018.

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Zhao, Jing. "Design and evaluation of a screen-CCD imaging system for medical radiology /." Online version of thesis, 1992. http://hdl.handle.net/1850/11253.

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Naghizadeh-Khouei, Jaber. "Application of CCDs (Charge Coupled Devices) to polarimetry and spectropolarimetry." Thesis, University of Glasgow, 1998. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.266678.

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Bouyer, Bernard. "Gravure sélective et sans dommage du silicium en mode triode synchronisé assistée d'un champ magnétique : application à la technologie C.C.D." Grenoble 1, 1990. http://www.theses.fr/1990GRE10074.

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Ce memoire decrit la mise en uvre d'un reacteur de gravure et de procedes associes, appliques aux dispositifs a transfert de charge (d. T. C. ) apres une analyse tres schematique des parametres de gravure, nous avons developpe un dispositif experimental utilisant deux electrodes excitees en radio-frequence et une bobine magnetique. Un systeme original de synchronisation des signaux appliques aux deux electrodes actives a permis de controler, d'une facon independante, la tension d'auto-polarisation sur l'electrode basse. Une cathode originale a champ magnetique dynamique compense a permis de densifier la decharge. Nous avons evalue les mecanismes et les performances de gravure du reacteur avec des gaz chlores et fluores. Dans le cas d'une forte topologie, l'anisotropie de gravure laisse des residus de silicium au pied des motifs appeles espaceur. Leur elimination a necessite la mise en uvre d'un troisieme gaz de gravure l'acide bromhydrique hbr qui, grace a ses proprietes, permet a la fois de graver les espaceurs et de proteger les flancs des motifs. L'utilisation judicieuse de ces trois gaz a permis de satisfaire au cahier des charges de la gravure des grilles c. C. D. Les defauts induits par la gravure plasma ont ete caracterises a partir des methodes d'analyse du silicium en volume (c-v, q#b#d). La nature des passivations ont ete determinees par des analyses de surface (xps, auger). L'utilisation du reacteur avec les ameliorations apportees: synchronisation des generateurs, champ magnetique dynamique et l'association d'une chimie appropriee ont permis de realiser des gravures de grille d. T. C. Avec d'excellentes performances et des taux de defauts reduits. Ces resultats devraient permettre d'ameliorer l'efficacite de transfert des circuits d. T. C.
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Books on the topic "Charge-coupled device (CCD)"

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Handbook of CCD astronomy. Cambridge University Press, 2000.

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Optical astrometry of fast moving objects using CCD detectors. Institut für Geodäsie und Photogrammetrie, 1994.

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Schildknecht, Thomas. Optical astrometry of fast moving objects using CCD detectors. Schweizerische Geodätische Kommission, 1994.

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Holst, Gerald C. CCD arrays, cameras, and displays. 2nd ed. JCD Publishing, 1998.

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CCD arrays, cameras, and displays. JCD Pub., 1996.

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Conference on Charge-Coupled Devices and CCD Systems (5th 1995 Novy Svet, Crimea, Ukraine). Fifth Conference on Charge-Coupled Devices and CCD Systems: 1-7 October, 1995, Novy Svet, Crimea, Ukraine. Edited by Karasev Vladimir I, Kuznet͡s︡ov I͡U︡ A, Shilin Victor A, and Society of Photo-optical Instrumentation Engineers. Russian Chapter. SPIE, 1996.

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CCD Precision Photometry Workshop (1998 San Diego, Calif.). CCD Precision Photometry Workshop: Proceedings of a meeting held at San Diego, California, USA, 6-7, June 1998. Astronomical Society of the Pacific, 1999.

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A practical guide to CCD astronomy. Cambridge University Press, 1998.

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Kang, Moon Gi. Selected papers on CCD and CMOS imagers. SPIE Press, 2003.

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ESO CCD Workshop (1996 Garching bei München, Germany). Optical detectors for astronomy: Proceedings of and ECO CCD Workshop held in Garching, Germany, October 8-10, 1996. Kluwer Academic, 1998.

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Book chapters on the topic "Charge-coupled device (CCD)"

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Herault, D., and G. Boucharlat. "TH 7864 Area Array Charge-Coupled Device (CCD) Image Sensor with Built-In Antiblooming Device." In Sensor Devices and Systems for Robotics. Springer Berlin Heidelberg, 1989. http://dx.doi.org/10.1007/978-3-642-74567-6_12.

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Gray, Joel E., Zhenxue Jing, Laurie L. Fajardo, Daniel B. Kopans, Barbara Levit, and Richard H. Moore. "Features analysis comparison of charge-coupled device (CCD) and amorphous selenium* (aSe) Full-Field Digital Mammography (FFDM) Systems." In Digital Mammography. Springer Berlin Heidelberg, 2003. http://dx.doi.org/10.1007/978-3-642-59327-7_22.

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Krimmel, Eberhard F., Rudolf Hezel, Uwe Nohl, and Rainer Bohrer. "Charge-Coupled Devices (CCDs)." In Si Silicon. Springer Berlin Heidelberg, 1991. http://dx.doi.org/10.1007/978-3-662-09901-8_14.

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Popov, A. S. "New Integrated Photoreceiver Systems — Charge Coupled Devices (CCDs)." In Advanced Electronic Technologies and Systems Based on Low-Dimensional Quantum Devices. Springer Netherlands, 1998. http://dx.doi.org/10.1007/978-94-015-8965-9_7.

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"Charge Coupled Device (CCD)." In Encyclopedia of Biometrics. Springer US, 2009. http://dx.doi.org/10.1007/978-0-387-73003-5_514.

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"Charge Coupled Device (CCD) Camera." In Encyclopedia of Microfluidics and Nanofluidics. Springer New York, 2015. http://dx.doi.org/10.1007/978-1-4614-5491-5_200347.

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Lesser, M. "Charge coupled device (CCD) image sensors." In High Performance Silicon Imaging. Elsevier, 2014. http://dx.doi.org/10.1533/9780857097521.1.78.

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Lesser, M. "Charge-coupled device (CCD) image sensors." In High Performance Silicon Imaging. Elsevier, 2020. http://dx.doi.org/10.1016/b978-0-08-102434-8.00003-9.

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HOPKINSON, G. R., and A. MOHAMMADZADEH. "RADIATION EFFECTS IN CHARGE-COUPLED DEVICE (CCD) IMAGERS AND CMOS ACTIVE PIXEL SENSORS." In Selected Topics in Electronics and Systems. WORLD SCIENTIFIC, 2004. http://dx.doi.org/10.1142/9789812794703_0010.

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Centen, P. "Complementary metal-oxide-semiconductor (CMOS) and charge coupled device (CCD) image sensors in high-definition TV imaging." In High Performance Silicon Imaging. Elsevier, 2020. http://dx.doi.org/10.1016/b978-0-08-102434-8.00014-3.

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Conference papers on the topic "Charge-coupled device (CCD)"

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Babey, S. K., C. D. Anger, and B. D. Green. "Digital Charge Coupled Device (CCD) Camera System Architecture." In 29th Annual Technical Symposium, edited by Eustace L. Dereniak and Keith N. Prettyjohns. SPIE, 1985. http://dx.doi.org/10.1117/12.950306.

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Stover, R. J. "High-Speed Charge-Coupled Device (CCD) Imaging Stellar Photometer." In 1986 Astronomy Conferences, edited by David L. Crawford. SPIE, 1986. http://dx.doi.org/10.1117/12.968089.

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Savoye, Eugene D. "High Performance Charge-Coupled-Device (CCD) Imagers Tailored For Scientific Applications." In 29th Annual Technical Symposium, edited by Eustace L. Dereniak and Keith N. Prettyjohns. SPIE, 1985. http://dx.doi.org/10.1117/12.950314.

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Launay, Francoise, Thierry Fauconnier, Bernard Fort, Mireille Cailloux, Paul Bonnin, and Etienne Bloch-Michel. "Preliminary Evaluation Of Charge-Coupled Device (CCD) Multispectral Analysis In Ophthalmology." In 1985 International Technical Symposium/Europe, edited by Paul Suetens and Ian T. Young. SPIE, 1986. http://dx.doi.org/10.1117/12.952172.

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Kim, H., and D. L. Heidtmann. "Characteristics Of 1/f Noise Of The Buried-Channel Charge-Coupled Device (CCD)." In OE/LASE '89, edited by Morley M. Blouke and Donald Pophal. SPIE, 1989. http://dx.doi.org/10.1117/12.952507.

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Friedman, Scott D., Barbara Jones, and R. C. Puetter. "The University of California at San Diego Near-Infrared Charge-Coupled Device (CCD)." In 30th Annual Technical Symposium, edited by Hideyoshi Nakamura. SPIE, 1986. http://dx.doi.org/10.1117/12.936531.

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Craine, Eric R., Brian L. Craine, John R. Engel, Neil T. Wemple, and Ron Hilliard. "A Digital Optically Multiplexed Charge Coupled Device (CCD) Based Deoxyribonucleic Acid (DNA) Sequence Reader." In Medical Imaging II, edited by Roger H. Schneider and Samuel J. Dwyer III. SPIE, 1988. http://dx.doi.org/10.1117/12.968675.

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Milch, James R. "High-Resolution Digitization Of Photographic Images With An Area Charge-Coupled Device (Ccd) Imager." In Applications if Digital Image Processing IX, edited by Andrew G. Tescher. SPIE, 1986. http://dx.doi.org/10.1117/12.976209.

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Chen, Jason Y., Yuhua Li, and Hong Liu. "Characteristics of a dual-detector charge coupled device (CCD) based optical fluorescence imaging system." In Biomedical Optics 2006, edited by Valery V. Tuchin. SPIE, 2006. http://dx.doi.org/10.1117/12.644810.

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Craine, Brian L., Eric R. Craine, John R. Engel, and Neil T. Wemple. "A Microcomputer Based Charge Coupled Device (CCD) Imaging System For Clinical 2D Electrophoretic Gel Analysis." In Medical Imaging II, edited by Roger H. Schneider and Samuel J. Dwyer III. SPIE, 1988. http://dx.doi.org/10.1117/12.968676.

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Reports on the topic "Charge-coupled device (CCD)"

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Olsen, Gregory H., and Marshall J. Cohen. An Indium Gallium Arsenide Charge-Coupled Device (CCD) for 1-3 micron Imaging. Defense Technical Information Center, 1993. http://dx.doi.org/10.21236/ada266134.

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Beyer, Richard A. Use of a Charge Coupled Device (CCD) Array as a Medium-Speed Streak Camera. Defense Technical Information Center, 1992. http://dx.doi.org/10.21236/ada257370.

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3

Koenig, L. N. DC corrections for interleaved linear CCD (Charge Coupled Device) arrays used in the LeCroy 6880 digitizer. Office of Scientific and Technical Information (OSTI), 1989. http://dx.doi.org/10.2172/6283870.

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