With a thickness of 0.03cm, an 8.6 x 8.6cm active area, 84µm pitch and 1024 x 1024 pixel resolution, the sensor is said to operate in visible and near infrared up to wavelengths of 900nm. The technology is also capable of measuring not only the fingerprint, but the configuration of veins in the fingers as well, providing additional security versus that of a surface fingerprint alone.
This has been achieved by deposition of ISORG’s organic printed photodetectors (OPD) onto FlexEnable’s plastic organic thin-film transistor backplane to create a flexible fingerprint sensor that is light, robust and lensless. The companies claim that the sensing area can be applied to almost any surface, even wrapped around objects such as a car steering wheel that recognises the driver as soon as the wheel is touched, or a credit card with integrated biometric detection that does not compromise current form factors.
Chuck Milligan, CEO of FlexEnable, said: “Imagine a mobile device whose surface or edges know who is holding or touching the device. Such capabilities are viable because of the flexibility, thinness, and much lower cost per unit area compared to silicon area sensors.”
The cost advantages of flexible plastic fingerprint sensors to area manufacturing are due to the low temperature and printing process on plastic rather than silicon. Moreover, fingerprint sensors made of plastic have similar optical performances to conventional optical fingerprint sensors such as sensitivity, linearity, and low noise, but without the need for expensive and bulky optics.
Jean-Yves Gomez, CEO of ISORG, added: “This breakthrough development will spark the creation of next-generation products in biometrics.No other solution can offer large area sensing as well as finger print and vein recognition while being flexible, light and robust. Moreover, our team is able to provide reference design as well as image improvement algorithms and illumination solutions to ease the sensor integration into new applications.”