Abstract: A passive data carrier device (100) comprises an input port (110) for receiving a finite duration radio frequency input signal of defined time and frequency spectral characteristics. The data carrier device (100) comprises at least one branch (130) having combinations of passive RF elements, such as band filters (134) and time delays (136), optionally together with powder dividers (120) and combiners (140). The input signal is processed by the device (100) to form an output signal having time and frequency spectral characteristics different from the input signal. The data carrier device (100) has potential application in an RF identification system.

Abstract: A method is disclosed for generating data encoded RF (radio frequency) waveform without a separate memory device/chip. The hardware in the proposed method consists of entities performing the operations of time-delay (B), phase shifting (C), attenuation, power dividing (D) and power combining (E). An integral part of the invention is the application of the method in designing radio frequency identification devices or RFID-tags.

Abstract: A passive data carrier device (100) comprises an input port (110) for receiving a finite duration radio frequency input signal of defined time and frequency spectral characteristics. The data carrier device (100) comprises at least one branch (130) having combinations of passive RF elements, such as band filters (134) and time delays (136), optionally together with powder dividers (120) and combiners (140). The input signal is processed by the device (100) to form an output signal having time and frequency spectral characteristics different from the input signal. The data carrier device (100) has potential application in an RF identification system.

Abstract: A method is disclosed for generating data encoded RF (radio frequency) waveform without a separate memory device/chip. The hardware in the proposed method consists of entities performing the operations of time-delay (B), phase shifting (C), attenuation, power dividing (D) and power combining (E). An integral part of the invention is the application of the the method in designing radio frequency identification devices or RFID-tags.