Abstract: A position sensor (10) comprise at least a magneto sensitive element (11-14), a signal evaluation unit (16) that is coupled to the at least one magneto sensitive element (11-14) and is configured to generate an measurement signal (SM), an output stimulation unit (17) configured to generate a set signal (ST) and an interface unit (18) that is coupled at its input side to the signal evaluation unit (16) and the output stimulation unit (17). The interface unit (18) is configured to provide a sensor output signal (SOUT) depending on the measurement signal (SM) in a measurement mode of operation and depending on the set signal (ST) in a calibration mode of operation.

Abstract: A matching network is integrated into a multilayer surface mount device containing an RFID integrated circuit to provide both an antenna and a matching network for the RFID integrated circuit in the ultra high frequency regime. The surface mount device may be mounted on a printed circuit board to provide RF and RFID functionality to the printed circuit board.

Abstract: A position sensor (10) comprise at least a magneto sensitive element (11-14), a signal evaluation unit (16) that is coupled to the at least one magneto sensitive element (11-14) and is configured to generate an measurement signal (SM), an output stimulation unit (17) configured to generate a set signal (ST) and an interface unit (18) that is coupled at its input side to the signal evaluation unit (16) and the output stimulation unit (17). The interface unit (18) is configured to provide a sensor output signal (SOUT) depending on the measurement signal (SM) in a measurement mode of operation and depending on the set signal (ST) in a calibration mode of operation.

Abstract: A UHF-RFID antenna having a central segmented loop surrounded by passive dipole structures provides shaping of the electric and magnetic fields to reduce the number of false positive reads by a UHF-RFID reader at a point of sale.

Abstract: A UHF-RFID antenna having a central segmented loop surrounded by passive dipole structures provides shaping of the electric and magnetic fields to reduce the number of false positive reads by a UHF-RFID reader at a point of sale.

Abstract: A device (110) for evaluating an electromagnetic field strength/field geometry of an electromagnetic gate apparatus (120) is provided, the device (110) comprising a measurement unit (112) adapted for receiving a measurement signal from the electromagnetic gate apparatus (120) and determining a value of the field strength of said measurement signal, a communication unit (114) adapted for receiving command data from the electromagnetic gate apparatus (120) and adapted for sending response datato the electromagnetic gate apparatus (120). Optionally, the device (110) comprises an evaluation unit (116,118) adapted for evaluating the electromagnetic field geometry of the electromagnetic gate apparatus (120) based on said values of the field strength received from the measurement unit (112).

Abstract: A UHF RFID antenna is integrated into the disposable metal cover of foam, plastic, metal or cardboard containers.

Abstract: A matching network is integrated into a multilayer surface mount device containing an RFID integrated circuit to provide both an antenna and a matching network for the RFID integrated circuit in the ultra high frequency regime. The surface mount device may be mounted on a printed circuit board to provide RF and RFID functionality to the printed circuit board.

Abstract: A UHF RFID antenna is integrated into the disposable metal cover of foam, plastic, metal or cardboard containers.

Abstract: A device (110) for evaluating an electromagnetic field strength/field geometry of an electromagnetic gate apparatus (120) is provided, the device (110) comprising a measurement unit (112) adapted for receiving a measurement signal from the electromagnetic gate apparatus (120) and determining a value of the field strength of said measurement signal, a communication unit (114) adapted for receiving command data from the electromagnetic gate apparatus (120) and adapted for sending response data to the electromagnetic gate apparatus (120). Optionally, the device (110) comprises an evaluation unit (116,118) adapted for evaluating the electromagnetic field geometry of the electromagnetic gate apparatus (120) based on said values of the field strength received from the measurement unit (112).