Abstract: The invention relates to a passive sensing means (100) for a contact lens of a physiological parameter monitoring system, for detecting variations of a physiological parameter, in particular intraocular pressure, the passive sensing means (100) forming a resonant circuit comprising an inductor (101) and at least one capacitor (121, 122, 123, 124, 125, 126). The inductor (101) and said at least one capacitor (121, 122, 123, 124, 125, 126) are coplanar in only one layer. The invention also relates to a corresponding physiological parameter monitoring system.

Abstract: The invention relates to a physiological parameter monitoring device (100) comprising a first contact lens element (102) having an inner surface (103) and an outer surface (104) opposite the inner surface (103), a second contact lens element (110) having an inner surface (111) and an outer surface (112) opposite the inner surface (111), wherein the first contact lens element (102) and the second contact lens element (110) are attached to one another at a peripheral attachment area (109), thereby enclosing an intermediate space (105), and further comprising a passive sensing means (101) forming a resonant circuit for detecting variations of said physiological parameter, wherein the passive sensing means (101) is provided only in or on the first contact lens element (102).

Abstract: The invention relates to a physiological parameter monitoring device (100) comprising a first contact lens element (102) having an inner surface (103) and an outer surface (104) opposite the inner surface (103), a second contact lens element (110) having an inner surface (111) and an outer surface (112) opposite the inner surface (111), wherein the first contact lens element (102) and the second contact lens element (110) are attached to one another at a peripheral attachment area (109), thereby enclosing an intermediate space (105), and further comprising a passive sensing means (101) forming a resonant circuit for detecting variations of said physiological parameter, wherein the passive sensing means (101) is provided only in or on the first contact lens element (102).

Abstract: The invention relates to a passive sensing means (100) for a contact lens of a physiological parameter monitoring system, for detecting variations of a physiological parameter, in particular intraocular pressure, the passive sensing means (100) forming a resonant circuit comprising an inductor (101) and at least one capacitor (121, 122, 123, 124, 125, 126). The inductor (101) and said at least one capacitor (121, 122, 123, 124, 125, 126) are coplanar in only one layer. The invention also relates to a corresponding physiological parameter monitoring system.

Abstract: A system and method for wirelessly testing integrated circuits provides a multiple layer interface to wirelessly test integrated circuits. A wireless testing structure for an integrated circuit comprises a wireless transceiver and a wireless test interface. The wireless transceiver is configured to receive test information from a tester and transmit test result information to the tester. The wireless test interface is configured to interface between the wireless transceiver and the integrated circuit. The wireless test interface comprises a media access controller and a test control block. The media access controller is configured to implement a media access control protocol for wireless communication. The test control block is configured to decode test information received from the tester, to trigger a test of the integrated circuit in response to the decoded test information, and to encode test result information that is generated by the integrated circuit in response to the test.

Abstract: The invention relates to a data exchange system comprising a spectacle frame and at least one detachable temple, a base station for receiving the detachable temple when detached from the spectacle frame, wherein the detachable temple comprises a connecting interface configured to mate a connecting interface, in particular an electrical connecting interface, of the spectacle frame and an electrical connecting interface of the base station. This data exchange system allows a user to carry the glasses in a comfortable manner whereas, at the same time, a secure data exchange from any devices incorporated into the spectacles can be ensured.

Abstract: A system and method for wirelessly testing integrated circuits provides a multiple layer interface to wirelessly test integrated circuits. A wireless testing structure for an integrated circuit comprises a wireless transceiver and a wireless test interface. The wireless transceiver is configured to receive test information from a tester and transmit test result information to the tester. The wireless test interface is configured to interface between the wireless transceiver and the integrated circuit. The wireless test interface comprises a media access controller and a test control block. The media access controller is configured to implement a media access control protocol for wireless communication. The test control block is configured to decode test information received from the tester, to trigger a test of the integrated circuit in response to the decoded test information, and to encode test result information that is generated by the integrated circuit in response to the test.