Title :
Adaptive carrier supression for UHF RFID using digitally tunable capacitors
Author :
Koller, Michael ; Kung, R.
Author_Institution :
ZSN Center for Signal Process. & Commun., Zurich Univ. of Appl. Sci., Winterthur, Switzerland
Abstract :
In UHF (Ultra High Frequency) RFID (Radio Frequency Identification) systems Rx (Receiver) is usually isolated from Tx (Transmitter) by a circulator or a directional coupler. Since tags become more sensitive in order to improve reading distance, the relatively poor isolation of 20dB - 30dB limits the tag to reader link. A way to improve a directional coupler´s isolation is to mismatch the unused port to generate a carrier cancelling signal. In this paper an impedance network using digitally tunable capacitors is proposed. The advantage of this solution is that changes in the system - like antenna characteristics or cable length - can be recalibrated at any time by a controller. Finally an isolation of minimum 47dB for any antenna characteristic (minimum return loss of 18dB) and any cable length was reached. Also an algorithm was implemented on a simple MSP430 controller to find the optimum impedance to minimize carrier leakage.
Keywords :
UHF couplers; capacitors; circulators; directional couplers; radiofrequency identification; MSP430 controller; UHF RFID; adaptive carrier suppression; carrier cancelling signal; circulator; digitally tunable capacitor; directional coupler isolation; loss 18 dB; loss 20 dB to 30 dB; ultra high frequency radio frequency identification system; Capacitors; Directional couplers; Impedance; Noise; Ports (Computers); Radiofrequency identification; Receivers; RFID; UHF; carrier supression; circulator; directional coupler; isolation; leakage canceling;
Conference_Titel :
Microwave Conference (EuMC), 2013 European
Conference_Location :
Nuremberg
