Log in     
Sensors Mag

Kodak Achieves Breakthrough in Imaging Technology

July 9, 2008

The company has introduced a 50-megapixel CCD sensor, delivering greatly enhanced resolution and detail to professional photographers.


ROCHESTER, NY /BUSINESS WIRE/ -- Eastman Kodak Company has achieved another breakthrough in imaging technology innovation with the introduction of the "world's first 50 million pixel CCD image sensor for professional photography."

At 50 million pixels, or megapixels, the sensor captures digital images with "unprecedented resolution and detail." For instance, with a 50 megapixel camera, in an aerial photo of a field 1.5 miles across, you could detect an object about the size of a small notebook computer (1 ft. by 1 ft.).

What's more, the KODAK KAF-50100 Image Sensor features a newly designed pixel smaller in size than the pixel used in current products for the professional market. The new pixel also reduces click-to-capture time for improved camera response, lowers power consumption for improved battery life, and improves color fidelity without compromising the benefits to be enjoyed from larger pixel sizes.

"Professional photographers need to capture ever-increasing image detail with higher camera performance, and that drives us to develop new technologies and products to serve this important market," said Michael Miller, Manager of Kodak's CCD Image Sensor Business, part of the company's Image Sensor Solutions Group. "Kodak image sensors have been known as the professional imaging standard for years, and today's announcement reaffirms our dedication to provide industry-leading image sensors that give professional photographers a real competitive advantage."

The new Kodak sensor is the first to use the company's new KODAK TRUESENSE 6.0 micron full-frame CCD technology platform, which increases both the resolution and camera performance available to photographers. Based on a newly designed 6.0 micron pixel, the platform provides increased data throughput for faster frame rate, a reduced click-to-capture time for improved camera response, lower power consumption for improved battery life, and improved color fidelity while retaining key performance parameters available from the 6.8 micron pixel used in current products. With an 8176 by 6132 pixel array, the 50 million–pixel sensor provides the highest resolution available in the popular 48 mm by 36 mm optical format used in medium-format photography.

The KAF-50100 is the latest addition to Kodak's family of full-frame CCD image sensors for the professional photography market. Engineering-grade devices of the KAF-50100 are currently available, with volume production planned for Q4, 2008.

For additional information regarding the technology, please contact Image Sensor Solutions, Eastman Kodak Company at 585-722-4385 or by email at imagers@kodak.com. For more information on Kodak's entire portfolio of image sensors, please visit the company's Web site.

About Kodak
As one of the world's foremost imaging innovators, Eastman Kodak Company helps consumers, businesses, and creative professionals unleash the power of pictures and printing to enrich their lives. To learn more, visit our A Thousand Words blog, PluggedIn blog, and Grow Your Biz blog.

Kodak and TrueSense are trademarks of Eastman Kodak Company.


Add Comment




IIoT University


Deep Learning for Vision Using CNNs and Caffe: A Hands-on Tutorial – 9/22/16 – Cambridge, Mass


IDE






Sensors 2017 Call for Speakers


Sensors Midwest


Advertise


Subscribe



Twitter Feed

Find It Fix It Forum

Sensors invites you to join the Findit-Fixit Forum, where you can get answers to your sensing questions—concerning technologies, products, methods, applications, and services--and also offer help to your fellow engineers. The Forum covers all kinds of topics, from the basics to the extraordinary.

Join the discussion!


© Copyright 2016 Questex, LLC. All Rights Reserved. Sensorsmag. Privacy Policy | Terms of Use

If you are having technical difficulties or considerations, please contact the webmaster.