Riferimenti bibliografici
Capitolo 1 : Transponder RFID passivo
[ ]
1 K.Finkenzeller, RFID Handbook: Foundamental and applications in Contactless Smart Cardsand Identification, 2nd ed. New York: Wiley, 1999 cap. 4 Physical Principles of RFID System, cap.
6 Coding and Modulation.
[2] G. De Vita, G. Iannaccone, “Design Criteria for the RF Section of UHF and Microwave Passive
RFID ,” IEEE Transactions on Microwave Theory and Techniques, vol. 53, NO. 9, September
2005.
[3] EM MICROELECTRONIC – MARIN SA Fact Sheet EM4222 www.emmicroelectronic.com. [4] EM MICROELECTRONIC – MARIN SA Data Sheet EM4223 www.emmicroelectronic.com. [5] EM MICROELECTRONIC – MARIN SA Fact Sheet EM4444 www.emmicroelectronic.com. [6] Philips Electronics N.V. 2005, April 2005, document order number: 9397 750 14922.
[7] Philips Semiconductor, Short Form Specification, Revision 3.0 October 2003.
“Operating distance for UCODE HSL based tags and labels in released frequency band,” pp. 3. [8] ATMEL, Summary Preliminary, Rev. 4817DS-RFID-12/05.
Capitolo 2 : Architettura Transponder Passivo Low Power UHF e Microwave
[1] G. De Vita, G. Iannaccone, “Ultra Low Power RF Section of a Passive Microwave RFID
Transponder in 0.35µ m BiCMO,S” ISCAS 2005, Kobe, Japan, May 2005.
[2] G. De Vita, G. Iannaccone, “Design Criteria for the RF Section of UHF and Microwave Passive
RFID Transponders,” IEEE Transactions on Microwave Theory and Techniques, vol. 53, NO. 9, pp. 2979, September 2005.
[3] G. De Vita, G. Iannaccone, “Long range passive transponders with on-board u-Processor for
wireless identification and sensor networks: scenario and design tradeoffs”..
[4] G.De Vita, G. Iannaccone, “Ultra-Low Power Flash Memory in Standard 0.35 mCMOS for Passive Microwave RFID Transponders,” Proc. ISCAS 2006, Kos, Greece, May 2006.
Capitolo 3 : Generatore di Clock per Transponder Passivo Low Power UHF e Microonde [1] P. E. Allen, D. R. Holberg, “CMOS Analog Circuits Design,“ Oxford University Press, inc., 2000.
[2] Y. P. Tsividis, “Operationand Modeling of the MOS Transistor,” New York : McGraw Hill, 1987.
[3] C. Hwang, S.Bibyk, M. Ismail, B.Lohiser, “A Very Low Frequency, Micropower, Low Voltage
CMOS Oscillator for Noncardiac Pacemakers,” IEEE Transaction on Circuits and System –I: Fundamental Theory and Application, vol. 42, NO. 11, November 1995.
[4] J. Popovic, B. Nikolic, K. W. Current, A. Pavasovic, D. Vasiljevic, “ Low-Power CMOS RC
Oscillators Based on Current Conveyors,” Proc. 22nd INTERNATIONAL CONFERENCE ON MICROELECTRONICS (MIEL 2000), Vol. 2, Nis, Serbia, May, 2000.
[5] H. Eaton, J. Lesho, “A Low Voltage, Low Power, BiCMOS, Audio-Frequency Voltage
Controlled Oscillator with sinusoidal Output,” IEEE, 1993.
[6] P. Kakela, T. Rahkonen, J. Kostamovaara, “ A micropower RC oscillator for consumer ASIC
applications,” Proc. Electrotechnical Conf., Ljublijana, Slovenia, pp. 278-281, May 1991.
[7] K. Lasanen, E.R.-Ruotsalainen, J. Kostamovaara, “A 1-V, Self Adjusting, 5-Mhz CMOS
RC-Oscillator,” Proc. ISCAS 2002, Scottsdale, USA, Vol. IV, pp. 377-380, May 2002.
[8] F. Bala, T. Nandy, “Programmable High Frequency RC Oscillator,” Proc. 18th Int. Conf. on
VLSI Design, Kolkata, India, pp. 511-515, January 2005.