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[[File:Ccd-sensor.jpg|Ccd-sensor|thumb]] [[File:Cromemco_Cyclops_Camera_Board_1.jpg|Cromemco Cyclops Camera Board 1|thumb|left]] [[File:A_micrograph_of_the_corner_of_the_photosensor_array_of_a_‘webcam’.jpeg|A micrograph of the corner of the photosensor array of a ‘webcam’|thumb]] [[File:Image_sensor_and_motherbord_nikon_coolpix_l2.JPG|Image sensor and motherbord nikon coolpix l2|thumb]] [[File:Removed_EOS_350D_IR-blocking_filter.jpg|Removed EOS 350D IR-blocking filter|thumb]] '''Image sensor'''

An '''image sensor''' or '''imaging sensor''' is a [[sensor]] used in [[digital camera]]s and other imaging devices to convert an optical image into an [[electronic signal]]. It is a critical component in digital photography and video, enabling the capture of images in a wide range of devices from professional-grade [[digital single-lens reflex camera|digital SLRs]] to everyday [[smartphone]] cameras. The technology behind image sensors has evolved significantly, leading to improvements in image quality, resolution, and sensitivity.

==Types of Image Sensors==
There are two main types of image sensors used in digital photography: [[Charge-coupled device|CCD (Charge-Coupled Device)]] and [[CMOS sensor|CMOS (Complementary Metal-Oxide-Semiconductor)]].

===CCD Sensors===
CCD sensors are known for their high image quality with better light sensitivity and less noise than CMOS sensors. They capture light and convert it into electronic signals at each pixel site. CCD sensors have been widely used in professional and high-end consumer cameras. However, they are more expensive to produce and consume more power than CMOS sensors.

===CMOS Sensors===
CMOS sensors, on the other hand, are more cost-effective and consume less power, making them suitable for use in a wide range of devices, including mobile phones and compact cameras. They use a technology that allows the sensor to include processing circuits, enabling faster processing and lower power consumption. Over the years, advancements in CMOS technology have significantly narrowed the gap in image quality between CMOS and CCD sensors.

==Key Features of Image Sensors==
- '''Resolution:''' Measured in [[megapixels]], resolution is one of the most important features of an image sensor, determining the detail level of the captured image.
- '''Size:''' The physical size of the sensor affects the image quality, with larger sensors generally providing better image quality, especially in low light conditions.
- '''Sensitivity:''' Sensitivity to light is crucial for capturing images in various lighting conditions. It is often adjustable in digital cameras through ISO settings.
- '''Dynamic Range:''' The ability of the sensor to capture detail in both dark and bright areas of an image.

==Applications==
Image sensors are used in a variety of applications beyond digital cameras, including:
- [[Mobile phone]] cameras
- [[Medical imaging]] devices
- [[Surveillance cameras]]
- [[Automotive cameras]] for driver assistance systems
- [[Satellite imaging]] and [[aerial photography]]

==Future of Image Sensors==
The future of image sensors lies in the continuous improvement of their capabilities, including higher resolutions, better low-light performance, and increased dynamic range. Innovations such as backside illumination (BSI) and stacked sensors are already enhancing sensor performance. Furthermore, the integration of artificial intelligence (AI) with image sensors is opening up new possibilities for smart imaging applications, from advanced facial recognition to real-time object detection in autonomous vehicles.

[[Category:Photography]]
[[Category:Digital photography]]
[[Category:Cameras]]
[[Category:Electronics]]
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Image sensor - Revision history

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