Ultra-fast line scan sensor captures fake banknotes
In the first half 2014 alone, nearly 25,000 counterfeit euro notes worth EUR 1.5 million were registered, according to information by the Deutsche Bundesbank. In order to make the criminal work of counterfeiters more difficult, banknotes are equipped with special security features. The notes include tiny structures that are not visible to the naked eye, such as holograms with a tilt effect which results in the subject changing when it is looked at from different perspectives. Through the use of special cameras, quality checks during printing are intended to ensure that these features are free of errors on each banknote.
The AIT Austrian Institute of Technology, which is a global leader in the production of such test systems for security printing, brought in the Fraunhofer Institute for Microelectronic Circuits and Systems IMS to develop a sensor to meet the challenge.
Sensors which are currently being used have reached their limits because their speed is not fast enough to check quality in real-time during the production process.
“Our sensor is twice as fast as currently available solutions, while providing high-quality images in very high resolution,” explained Werner Brockherde from the IMS.
The new sensor detects the bills – like a scanner does – line by line when they come off the press. The camera takes up to 200,000 color images per second, with exposures of millionths of a second. Software compares the recorded images to a desired image and identifies banknotes with faulty safety features. In order to achieve the high speed, the IMS researchers have integrated an individual readout chain on the chip for each pixel column. In addition, they have developed special photo pixels, thanks to which conventional optics can be used, despite the short exposure times. In each pixel column, the three colors red, green and blue are recorded at the same time and over the entire pixel area which allows high-quality color reproduction. Another special feature of the sensor is that the high number of lines makes it possible to detect objects from different perspectives.
“As a result, surface structures in 3D, such as the tilt effects of holograms, can also be checked for the first time,” said Brockherde.
The special architecture of the sensor opens up room for further applications. Thanks to the large number of lines, its wavelength spectrum can still be expanded – up to the UV or infrared light range. That would be interesting for the recycling of plastics, as well, where the sensor could identify shredded materials according to their color information, thereby facilitating separation. With the ability to analyze 3D surfaces, it is also suitable for the quality control of different materials in industrial production.
Another field of application is the study of the rails or contact wires of trains: Even at a speed of around 300 km/h, the sensor could provide razor-sharp images with a resolution of up to 0.4 mm and, thus, detect the tiniest hairline cracks. Near-Earth satellites, which are equipped with such a sensor and which orbit the Earth at a speed of 26,000 kilometers per hour, could take color photographs of the earth’s surface with a resolution of 3 cm.
The market launch of the sensor which will be at the heart of the AIT test camera is scheduled for the end of 2015.
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