AUO's series of next-gen sensing technology offers brand new experiences of human-machine communication in the field of smart applications
AUO utilizes TFT arrays to expand cutting edge sensing technology and develop various sensor component products. High resolution CMUT components with stable quality and capable of being mass produced can be utilized to manufacture high resolution ultrasound probes and patch type probes to administer accurate measurement and physiological monitoring for patients over extended periods. In order to meet new requirements such as being lightweight, movable, and customized appearances specific to certain detected objects for X-ray equipment, AUO combined amorphous silicon (a-Si) manufacturing processes and new package technologies to achieve flexible X-ray sensors with superior TFT mobility. Currently, AUO offers comprehensive solutions for glass and curved X-ray sensors.
In addition, AUO's TFT-based full screen optical Fingerprint on Display (FoD) technology allows the entire screen to function as a fingerprint reader with support for multi-finger recognition, thereby enhancing the security and protection of mobile devices. Compared to other technologies that integrate fingerprint recognition and display modules, TFT-based optical fingerprint recognition technology decreases display module thickness and provides a larger sensing area at lower costs, while also improving the recognition success rate.
TFT is used to achieve optical fingerprint detection, eliminating the need for an external lens. Not only does this reduce display module thickness, but it is a cost effective method of transforming entire screens to allow for fingerprint detection. Multi-fingerprint recognition can enhance device security and offer more comprehensive protection for sensitive personal data or conducting financial transactions online.
Convenient support for multi-fingerprint recognition
A larger fingerprint recognition area easily achieves multi-fingerprint recognition, allowing app developers to create user identification mechanisms that are more robust, thereby increasing device security.
Display module thickness is significantly reduced when eliminating external lens and their components, allowing mobile device developers to design thinner products or allocate additional space to other parts and components.
Increased diversity in assembly
TFT optical fingerprint recognition and AMOLED displays can be assembled into display modules by centering, attaching to housings, or full lamination; other technologies do not offer this type of flexibility in assembly.
It is necessary to implement fingerprint recognition and other security measures as mobile payments have become a universal function provided by smart watches. TFT optical fingerprint recognition technology can provide fingerprint recognition capability to smart watch displays without increasing the thickness of display modules.
Today, smartphones contain a massive amount of sensitive data and app developers require enhanced fingerprint recognition to ensure data security. In addition to multi-fingerprint recognition, TFT optical fingerprint recognition technology can be utilized during app usage to determine whether the user possesses the necessary permissions, thereby creating mobile applications that are more secure.
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