Title :
Apodization Method for Standard Load Modulation Amplitude Measurement on Proximity Integrated Circuit Cards
Author :
Lewis, Adam M. ; Baldini, Gianmarco ; Chareau, Jean-Marc
Author_Institution :
Joint Res. Centre of the Eur. Comm., Ispra, Italy
Abstract :
Standard tests on ISO/IEC 14443 proximity integrated circuit cards/objects include verification that the amplitude of the modulation is within specification, performed by digitizing a test-antenna signal with an ordinary digital storage oscilloscope and calculating the relevant component with a finite Fourier series. Leakage errors may occur due to lack of synchronization between sampling clock and carrier and limited precision of measurement of carrier frequency, leading to inconsistent test results. The problem is eliminated by the application of a Bartlett window in the time domain. In this paper, the theory of the technique is presented formally. Closed-form expressions for the leakage before and after apodization are derived, from which the effects of sampling frequency and carrier frequency, the error in carrier frequency, and the number of samples can be seen immediately.
Keywords :
Fourier series; IEC standards; ISO standards; integrated circuit measurement; integrated circuit testing; smart cards; Bartlett window; ISO/IEC 14443 proximity integrated circuit card-objects; apodization method; carrier frequency; closed-form expressions; digital storage oscilloscope; finite Fourier series; leakage errors; sampling clock; sampling frequency effects; standard load modulation amplitude measurement; standard tests; synchronization; test-antenna signal; Amplitude modulation; Frequency measurement; IEC standards; ISO standards; Measurement uncertainty; Radiofrequency identification; Communication standards; discrete Fourier transforms; frequency-domain analysis; parameter estimation; smart cards;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.2014.2328453
