active-pixel sensor

December 2015
Computer Desktop Encyclopedia;2015, p1
See CMOS sensor.


Related Articles

  • CMOS-based cameras challenge CCDs. Madlin, Nancy // Photo District News;Aug97, Vol. 17 Issue 8, PDN Pix p16 

    Features cameras with active-pixel complementary metal oxide semiconductor sensors. Advantage in lesser cost of manufacture and use of electrical power; Efficiency and portability; Launching of a Photobit Inc. product using a licensed noise suppression technology.

  • Active-pixel CMOS sensors improve their image. Zarnowski, Jeffrey; Pace, Matthew // Laser Focus World;Jul99, Vol. 35 Issue 7, p111 

    Discusses the development of complementary metal oxide semiconductor (CMOS) imagers. Categories of traditional imagers; Application in electronic optical devices; Passive pixel CMOS arrays; Active-pixel sensors.

  • Digital imaging sensor.  // Electronics Now;Dec99, Vol. 70 Issue 12, p16 

    Features the PB-1024 digital image sensor from Photobit. Use of an active-pixel technology to produce high-resolution images; Integration of the functions of a camera, microprocessor and memory chips.

  • Applications drive new detector technologies. Lerner, Eric J. // Laser Focus World;Dec96, Vol. 32 Issue 12, p54 

    Focuses on innovations in detector technologies across the electromagnetic spectrum. Superconducting detectors; Room-temperature infrared detectors; Active-pixel sensors; Space-based applications for detectors.

  • Imaging & detector industry report. DeMeis, Rick // Laser Focus World;Jan96, Vol. 32 Issue 1, p41 

    Presents a series of news briefs on the imaging and detector industry. Small Business Innovation Research grant from National Aeronautics & Space Administration; Information on CMOS active-pixel sensors; Far-infrared camera images focused; Private funding boost for micro display.

  • Cameras and lenses. MULLEN, STEVE // Broadcast Engineering;Sep2014, Vol. 55 Issue 9, p5 

    The article discusses advancements in camera technology. It acknowledges the transition from charge coupled device (CCD) to complementary metal oxide semiconductor (CMOS) image sensors, noting that the latter managed to address vertical smear concerns. Topics explored also include the use of...

  • Lower prices for digital cameras. S.A.B.; Vizard, Frank // Popular Science;May97, Vol. 250 Issue 5, p48 

    Reports that digital camera prices are dropping, thanks to an alternative imaging technology that reduces manufacturing costs. Details on camera that will have what is known as a complementary metal-oxide semiconductor active-pixel array instead of the charge-coupled device image sensor used in...

  • Kodak, Motorola CMOS imager tie. Bradley, Gale // Electronic News;06/23/97, Vol. 43 Issue 2173, p6 

    Reports on the agreement between Motorola and Kodak to partner on further development of integrated complementary metal oxide semiconductors (CMOS) image devices. Fabrication of CMOS devices at Motorola's MOS 12 fab; Plans for the advanced CMOS imager (ACI) technology; Motorola's production of...

  • Colouring at the nanoscale. Dean, Nicky // Nature Nanotechnology;Jan2015, Vol. 10 Issue 1, p15 

    The article discusses the use of plasmonic nanostructures for generating colour in imaging devices. Topics discussed include high resonant frequency of plasmon, exploiting used subwavelength grid nanostructures fabricated on complementary metal?oxide? semiconductor (CMOS) active-pixel sensors...

  • Novel Niches. Wilson, Andrew // Vision Systems Design;Dec2008, Vol. 13 Issue 12, p36 

    The article focuses on the differences between charge-coupled device (CCD) and complementary metal oxide semiconductor (CMOS) image sensors. It is stated that black thinning process increases the sensitivity of CCD and CMOS imagers. The use of CMOS scheme based on active-pixel arrays leads to...


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