CCD$94477$ - translation to ισπανικά
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CCD$94477$ - translation to ισπανικά

CAMERA PARTS, FEATURES AND TECHNOLOGIES
Super ccd; SuperCCD; Super CCD EXR; Super CCD HR
  • Layout of sensors on Super CCD matrices
  • Fuji S2 Pro]]. The top image was translated with [[DCRaw]], without scaling or pixel rotation.

CCD      
dispositivo de carga emparejada, instrumento cuyos semiconductores están conectados de tal manera que la salida (output) de uno sirve como entrada (input) del próximo. Las cámaras digitales
Charge Coupled Device         
  • x80 microscope view of an RGGB Bayer filter on a 240 line Sony CCD PAL Camcorder CCD sensor
  • The charge packets (electrons, blue) are collected in ''potential wells'' (yellow) created by applying positive voltage at the gate electrodes (G). Applying positive voltage to the gate electrode in the correct sequence transfers the charge packets.
  • A frame transfer CCD sensor
  • [[George E. Smith]] and [[Willard Boyle]], 2009
DEVICE FOR THE MOVEMENT OF ELECTRICAL CHARGE
Charge-coupled imaging device; CCD imaging; Charge coupled device; Intensified charge-coupled device; Frame transfer CCD; Electron-multiplying CCD; Electron multiplying CCD; ICCD; Charged coupled device; CCD camera; L3ccd; EMCCD; Charge-Coupled Device; CCD imager; Charge-coupled devices; CCD sensor; Charge-couple device; Charge coupled devices; Charge Coupled Device; Frame transfer ccd; Charge-Coupled Devices; CCD array; P2CCD; Frame-transfer CCD; Charged Coupled Device; Charged couple device; CCD size; Blooming (CCD); CCD Camera; Intensified CCD
Dispositivo de cargamentos adyacentes, Dispositivo utilizable en la creación de figuras para la planificación de fibras,CCD
hip         
  • Dancers often stand with hands on hips.
  • Changes in trabecular patterns due to altered CCD angle. Coxa valga leads to more compression trabeculae, coxa vara to more tension trabeculae.<ref name="Thieme-Atlas-367" />
  • Radiograph of a healthy human hip joint
ANATOMICAL REGION
Hip joint; Hips; Hip Joint; Hip-joint; Coxal; Coxal articulation; Articulatio coxae; Hipped; Hip (anatomy); Acetabulofemoral joint; CCD angle; Acetabular angle; Sharp's angle; False profile; Foveal artery; Hip ligaments; Hip region; Caput-collum-diaphyseal angle
cadera
escaramujo
to be hip: estar al tanto
estar enterado
rose hip: escaramujo

Ορισμός

CCD
sigla de Dispositivos de Carga Acoplada (Charge-Coupled Device), dispositivos fotoeléctricos altamente sensibles capaces de registrar en forma electrónica la intensidad y el punto de llegada de pequeñísimas cantidades de luz. Los CCD se colócan en el extremo receptor de los telescopios, para "tomar fotografías" de objetos astronómicos muy desvanecidos; han llegado a reemplazar casi por completo las placas fotográficas.

Βικιπαίδεια

Super CCD

Super CCD is a proprietary charge-coupled device that has been developed by Fujifilm since 1999. The Super CCD uses octagonal, rather than rectangular, pixels. This allows a higher horizontal and vertical resolution (at the expense of diagonal resolution) to be achieved than a traditional sensor of an equivalent pixel count.

On January 21, 2003 Fujifilm announced the fourth generation of SuperCCD sensors, in two variations: SuperCCD HR and SuperCCD SR. HR stands for "high resolution" and SR stands for "super dynamic range". The SR sensor has two photodiodes per photosite, one much larger than the other. Appropriately processing information from both can yield larger black to white range of brightness (dynamic range).

The 4th Generation Super CCD HR has sensors placed at 45 degrees to the horizontal. In order to convert the images into the normal horizontal/vertical pixel orientation, it interpolates one pixel between each pair of sensors, thereby producing 12 recorded megapixels from 6 effective megapixels. By contrast, Fujifilm says that 5th Generation Super CCD HR sensors are also at 45 degrees but do not interpolate. However, it omits to explain how the sensors turn the image into horizontal/vertical pixels without interpolating.

On July 29, 2005 Fujifilm announced cameras with "5th Generation Super CCD HR sensors", the FinePix S5200 (S5600) and FinePix S9000 (S9500). The FinePix F10 and F11 were released later in 2005.

In 2006 Fuji introduced the 6th generation of the Super CCD sensor (size 1/1.7", 6.3 million effective pixels, except for the F40fd which has size 1/1.6", 8.3 million effective pixels). This sensor allows for acceptable image quality even at ISO 800. It is built into the FinePix S6500fd (2006) bridge camera and the FinePix F-series F30, F20 (2006), F31fd and F40fd (2007) compact cameras, all of which are widely accredited for their class leading low-light capabilities.

In late 2007 the 7th generation was introduced (size 1/1.6", 12 million effective pixels). Included in Fuijfilm FinePix F50fd (2007). This sensor, although sharp, has significantly decreased ISO performance compared to earlier generations, dropping in quality to average level. When compared to the 6th generation sensor, the individual pixel area on the 7th generation sensor is approximately 1.7× lower, considerably reducing the amount of light reaching each pixel. In mid-2008 the 8th generation was introduced (same size 1/1.6", 12 million effective pixels), included in Fujifilm FinePix F100fd (2008). This sensor improves slightly on the previously lost ISO performance, but does still not seem to compare with the 6th generation sensors.

In September 2008 Fujifilm announced a new type of Super CCD sensor, the Super CCD EXR. This sensor aims at combining the advantages of the HR and SR sensor types in a single chip. It uses a new color filter array layout that allows for binning (combining) of pixels of the same color. This sensor is used in the F200EXR, F70EXR and F80EXR point-and-shoot cameras and the S200EXR bridge camera. Both the F200EXR and the S200EXR use the same 12 Megapixel 1/1.6" size sensor while the F70EXR and F80EXR use a 10 Megapixel and 12 Megapixel 1/2" sensor respectively.

In 2010, Fujifilm made its last cameras with the Super CCD sensor in the form of the F300EXR and the Z800EXR. Both use the same 1/2" 12 Megapixel SuperCCD EXR sensor with hybrid autofocus system. The camera uses the conventional contrast detection AF and also Phase detection AF by means of dedicated pixels to calculate focus. According to Fujifilm, this system was as fast or faster than a DSLR. In 2011, Fujifilm have decided to use Backside illuminated (BSI) CMOS sensors with conventional square photosited Bayer color pattern array as well as Fujifilm's EXR color filter array that used square photosites that were rotated 45 degrees. This marked the end of the SuperCCD production.