. Space Industry and Business News .




.
CHIP TECH
High-speed CMOS sensors provide better images
by Staff Writers
Duisburg, Germany (SPX) Jan 17, 2012

High-speed CMOS sensors are used here to control production machinery. Image courtesy Fraunhofer IMS.

Conventional CMOS image sensors are not suitable for low-light applications such as fluorescence, since large pixels arranged in a matrix do not support high readout speeds. A new optoelectronic component speeds up this process. It has already been patented.

CMOS image sensors have long since been the solution of choice for digital photography. They are much cheaper to produce than existing sensors, and they are also superior in terms of power consumption and handling.

Consequently, leading manufacturers of cell-phone and digital cameras fit CMOS chips in their products almost without exception. This not only reduces the demands made of the battery, it also makes increasingly smaller cameras possible.

Yet these optical semiconductor chips are now reaching their limits: while miniaturization in consumer electronics is leading to increasingly smaller pixels around 1 micrometer across, certain applications require larger pixels in excess of 10 micrometers.

Particularly in areas where only minimal light is available, such as in X-ray photography or in astronomy, having a larger pixel area compensates for the lack of light. Pinned photodiodes (PPD) are used to convert the light signals into electrical pulses.

These optoelectric components are crucial for image processing and are built into the CMOS chips. "Yet when the pixels exceed a certain size, the PPDs have a speed problem", explains Werner Brockherde, head of department at the Fraunhofer Institute for Microelectronic Circuits and Systems IMS. Low-light applications tend to call for high image rates. "But the readout speed using PPD is too low", says Brockherde.

The Fraunhofer researchers have now come up with a solution to this problem - it is unique and has already been patented. The scientists have developed a new optoelectronic component, the lateral drift field photodetector (LDPD).

"In this component, the charge carriers generated by the incident light move at high speed to the readout node," explains the researcher. With the PPD the electrons simply diffuse to the exit; a comparatively slow process but which is sufficient for many applications. "But by integrating an internal electric field into the photoactive region of the component, we have managed to accelerate this process by a factor of up to a hundred."

To produce the new component, the Fraunhofer researchers improved upon the currently available CMOS chip manufacturing process based on the 0.35 m standard: "The additional LDPD component must not be allowed to impair the properties of the other components," says Brockherde.

Using simulation calculations the experts managed to meet these requirements - and a prototype of the new high-speed CMOS image sensors is already available. "We expect to get approval for series production next year," says Brockherde.

The high-speed CMOS sensors are ideal candidates for applications that require large pixels and a high readout speed: astronomy, spectroscopy or state-of-the-art X-ray photography are among the potential applications.

But the sensors are also ideally suited for use as 3-D sensors based on the time-of-flight process, whereby light sources emit short pulses that are reflected by the objects. The time-of-flight of the reflected light is then recorded by a sensor and used to create a fully-fledged 3-D image.

This technology is a compelling proposition for applications such as crash protection, as the sensors can precisely record their environment in three dimensions. The Fraunhofer researchers have already developed this kind of area sensor based on the unique pixel configuration for TriDiCam GmbH.

Research News January 2012 [ PDF 0.43MB ]

Related Links
Fraunhofer
Computer Chip Architecture, Technology and Manufacture
Nano Technology News From SpaceMart.com




.
.
Get Our Free Newsletters Via Email
...
Buy Advertising Editorial Enquiries






.

. Comment on this article via your Facebook, Yahoo, AOL, Hotmail login.

Share this article via these popular social media networks
del.icio.usdel.icio.us DiggDigg RedditReddit GoogleGoogle



CHIP TECH
Particle-free silver ink prints small, high-performance electronics
Champaign, IL (SPX) Jan 17, 2012
University of Illinois materials scientists have developed a new reactive silver ink for printing high-performance electronics on ubiquitous, low-cost materials such as flexible plastic, paper or fabric substrates. Jennifer Lewis, the Hans Thurnauer Professor of Materials Science and Engineering, and graduate student S. Brett Walker described the new ink in the Journal of the American Chem ... read more


CHIP TECH
Neutron scattering provides window into surface interactions

Lynas rare earth facility awaits approval

Space station to dodge superfast debris

Building the smallest magnetic data storage unit

CHIP TECH
Raytheon's Navy Multiband Terminal Tests With On-Orbit AEHF Satellite

Northrop Grumman And ITT Exelis Team For Army Vehicular Radio

Lockheed Martin Ships First Mobile User Objective System Satellite To Cape For Launch

Satellite Tracking Specialist, Track24, wins Canadian Government Contract

CHIP TECH
Canaveral has busy 2012 launch schedule

China to launch Bolivian satellite in 2013: Chinese Ambassador

Ariane 5, Soyuz, Vega: Three world-changing launch vehicles

Satellites: Europe's Arianespace sets 13 launches for 2012

CHIP TECH
First Galileo satellite GIOVE-A outlives design life to reach sixth anniversary

USAF Awards Contract to Lockheed Martin for GPS III Launch and Checkout Capability

ORBCOMM Announces Launch of VesselSat2

Association of Old Crows Recognizes the Dangers of Persistent GPS Interference

CHIP TECH
JAL names ex-pilot as new president

India protests EU airline emissions tax

Airbus agrees A380 deal with Hong Kong Airlines: reports

Slovenian adventurer embarks on eco-friendly world trip

CHIP TECH
New microtweezers may build tiny 'MEMS' structures

High-speed CMOS sensors provide better images

Particle-free silver ink prints small, high-performance electronics

10-second dance of electrons is step toward exotic new computers

CHIP TECH
A step closer to mapping the Earth in 3D

Ziyuan III satellite sends back hi-res images

NASA Radar to Study Most Active Volcano On Hawaii

Astro Aerospace Completes CDA of Reflector Boom Assembly for SMAP Mission

CHIP TECH
NIST releases 2 new SRMs for monitoring human exposure to environmental toxins

In tackling lead pollution, fungi may be our friends

China sets pace for smoggy Hong Kong: think-tank

Warnings of ecological timebomb after Tuscan ship wreck


.

The content herein, unless otherwise known to be public domain, are Copyright 1995-2012 - Space Media Network. AFP and UPI Wire Stories are copyright Agence France-Presse and United Press International. ESA Portal Reports are copyright European Space Agency. All NASA sourced material is public domain. Additional copyrights may apply in whole or part to other bona fide parties. Advertising does not imply endorsement,agreement or approval of any opinions, statements or information provided by Space Media Network on any Web page published or hosted by Space Media Network. Privacy Statement