As biometric technology continues to evolve, Xingqihang Technology has completed a new round of technological upgrades following the mass production of its fourth-generation glass-based fingerprint chips, officially launching its fifth-generation glass-based finger and palmprint chips integrated with advanced liveness detection capabilities.

The core of this upgrade lies in the chip’s integration of a highly secure liveness detection system. The chip module features built-in dedicated infrared light emitters and receivers capable of contactlessly detecting a finger’s blood oxygen characteristics. By analyzing infrared light signals, the system can effectively determine whether the pressed finger is genuine human tissue with normal blood oxygen levels. For counterfeit tools such as silicone fingerprint membranes and artificial fingerprints that lack biometric characteristics, this technology enables efficient identification and blocking, thereby significantly enhancing the anti-counterfeiting capabilities and security of identity authentication systems at the physical level.

This technological advancement marks a new phase for Xingqihang’s products, transitioning from high-precision recognition to high-security active defense. While inheriting the strengths of previous generations—such as wide temperature tolerance, strong environmental adaptability, and high durability—the fifth-generation chip employs innovative hardware design to provide a practical, domestically developed solution to the long-standing industry challenge of identity impersonation.

Currently, this technology has been seamlessly integrated into Xingqihang’s new generation of terminal products, such as fingerprint scanners, providing a more reliable and secure domestic chip option for high-security scenarios including financial payments, access control and security, and government and judicial applications. This iteration demonstrates Xingqihang’s solid capability to continuously drive foundational technological innovation and product commercialization within its specialized field.