... Publishing Process Manager Katarina Lovrecic Technical Editor Teodora Smiljanic Cover Designer Martina Sirotic Image Copyright Albert Lozano, 2010 Used under license from Shutterstock.com First published ... Stevan Preradovic and Nemai Karmakar Chapter The Interaction of Electrostatic Discharge and RFID 155 Cherish Bauer-Reich, Michael Reich and Robert Nelson Part Chapter Advanced RFID Applications 171 ... within a short period of time This book focuses on the advances in RFID tag antenna and ASIC design, novel chipless RFID tag design, security protocol enhancements along with some novel applications...
... 10 Advanced RadioFrequency Identification Design and Applications Tag antenna design In Section 2, a few fundamental parameters such as gain, impedance match, polarisation etc, in designing antennas ... Advanced RadioFrequency Identification Design and Applications including receiver implementation details, receiver gain, communication protocol specifics and interference generated both within ... reader which 16 Advanced RadioFrequency Identification Design and Applications is expressed in Equation 30a Zrant is the input impedance of the reader antenna, Z0 is the characteristic impedance...
... (-27) dB is compared with simulated RL of (-12.6) dB given in Table for (S3-60°) 42 Advanced RadioFrequency Identification Design and Applications (a) Frequency (MHz) (b) Frequency (MHz) Fig ... reference port of impedance 50Ω These dipoles are designed at resonant frequency of 900 MHz 34 Advanced RadioFrequency Identification Design and Applications Indent Angle (Deg.) fr (GHz) RL (dB) ... Advanced RadioFrequency Identification Design and Applications A new fractal loop antenna is designed for passive UHF RFID tags at 900 MHz based on 2nd iteration of the above proposed curve with...
... 50 Advanced RadioFrequency Identification Design and Applications Salama A M A., (2010) Antennas of RFID Tags, RadioFrequency Identification Fundamentals and Applications Design Methods ... intra-system interference, as 52 Advanced RadioFrequency Identification Design and Applications it operates in the ISM bands (Industrial Scientific and Medical), free bands Many others systems, ... versus tag antenna gain Pt ⋅ Gt ⋅ Gr Pr (1) 54 Advanced RadioFrequency Identification Design and Applications Tag antenna design Let us see the design step by step It consists of two λ/2 folded dipole...
... small loop Electric current source Magnetic current source D Fig 3.1 Conceptual equivalence of normal-mode helical antenna 80 Advanced RadioFrequency Identification Design and Applications The existence ... resistance 76mm IC chip Tap IC chip 30mm 20mm 80mm ・ Frequency : 953MHz ・ Thickness : 4mm ・ Read range : 13m ・ Commercial products 11mm 16mm 76mm IC chip ・ Frequency : 915MHz ・ Thickness : 0.25mm ... antennas [3], which can be 78 Advanced RadioFrequency Identification Design and Applications mounted on a metal plate Since these antennas comprise flat plates, the antenna thickness decreases...
... appreciable ohmic resistances 96 Advanced RadioFrequency Identification Design and Applications If the NMHA input resistances are around Ω, the ohmic resistance values become significant This method ... Advanced RadioFrequency Identification Design and Applications 3.0 VSWR 2.5 0.30 MHz 2.0 0.30 MHz 1.5 Simu Meas 1.0 314.6 314.8 315.0 315.2 Frequency [MHz] 315.4 Fig 3.19 VSWR characteristics Sim ... The high gain is a result of the appropriate choice of the ohmic resistance (Rl) on 104 Advanced RadioFrequency Identification Design and Applications the basis of the radiation resistance (Rr)...
... electromagnetic field using its receiving antenna The tag then utilizes its IC to communicate with the reader The IC collects power 116 Advanced RadioFrequency Identification Design and Applications ... particle in Fig (b) Therefore, by connecting several OCSRR particles in series, an alternate electrically small resonant antenna can be designed 120 Advanced RadioFrequency Identification Design ... particle by 0.8, every dimension of the particle is reduced by 122 Advanced RadioFrequency Identification Design and Applications 20% A scaling factor of 0.7 then reduces the size of the particle...
... RFID and other applications”, Int J Radio Freq Identification Technol Appl., vol 1, no 4, pp:401-416, 2007 154 Advanced RadioFrequency Identification Design and Applications M Glickstein (2006), ... accumulating or rejecting electrical charge The 156 Advanced RadioFrequency Identification Design and Applications materials in the center of the chart are almost electrically neutral Materials at ... waveform which is supposed to incorporate representative impedance values for different scenarios I=C 158 Advanced RadioFrequency Identification Design and Applications Electrostatic Voltage...
... tag search system 174 Advanced RadioFrequency Identification Design and Applications which can be used to find RFID-tagged objects is one of the promising applications of RFID technology For ... than that of a tag 186 Advanced RadioFrequency Identification Design and Applications Fig 14 Communication ranges of a tag and a reader Requirements P1 1) Authentication 2) Confidentiality 3) Anti-tracking ... RFID Authentication Protocol, Proceedings of Pervasive Computing and Communications(PerCom) Workshops, pp 640-643, Mar 2006 188 Advanced RadioFrequency Identification Design and Applications Tan,...
... recognition data is sampled with 200 Advanced RadioFrequency Identification Design and Applications (a) 15dBm (b) 16dBm (c) 17dBm (d) 18dBm Fig A Recognition range of a tag with different transmission ... tag positions from 192 Advanced RadioFrequency Identification Design and Applications pseudo table of the tag positions Choi et al (2008) augmented the ultra sonic sensors and the RFID tag floor ... recognition ranges However, in 202 Advanced RadioFrequency Identification Design and Applications Fig 12 The recognition patterns of a “Inray” type tags with 17dBm transmission power of RFID reader...
... Identification Design and Applications Finkenzeller, K (2000) RFID handbook: Fundamentals and Applications, Wiley Kubitz, O., Berger, M O., Perlick, M & Dumoulin, R (1997) Application of radiofrequency ... 228 Advanced RadioFrequency Identification Design and Applications The value of L is related to the magnetic energy created by the tag for a constant source current If B is the magnetic field as ... Practically, it is very difficult or almost impossible to precisely attach many tags right on their respective locations one by one To alleviate the 212 Advanced RadioFrequency Identification Design...
... coil a maximum of 10 percent, depending on the specific case 234 Advanced RadioFrequency Identification Design and Applications Fig Magnetic vector equipotential lines from the transmission ... potential approach for the MK-52 practice bomb Fig 13 One example of mechanically mounting a tag on a munition 240 Advanced RadioFrequency Identification Design and Applications Evaluation and testing ... transforms on the signals Example frequency- domain plots are shown in 242 Advanced RadioFrequency Identification Design and Applications Figure 16 The left and right vertical yellow cursors are positioned...
... efficiency; especially in the category of k-ary tree based anti-collision schemes Reference [1] 860 MHz – 930 MHz Class RadioFrequency Identification Tag RadioFrequency and Logical Communication ... Communications Letters, vol.11, no.1, 2007, pp.85-87 [9] Draft Protocol Specification for a 900MHz Class RadioFrequency Identification Tag, Auto-ID Center, 2003 [10] EPCTM Radio- Frequency Identification ... pp.65-85 EPCglobal.(2006) EPC Information Services (EPCIS) Specification, Ver 1.0, EPCglobal Inc 258 Advanced RadioFrequency Identification Design and Applications EPCglobal.(2006) EPCTM Tag Data...
... and some optimize designs are made to adapt to the broadband and the dynamic performance of the high IF carrier system 272 Advanced RadioFrequency Identification Design and Applications AD9433 ... 270 Advanced RadioFrequency Identification Design and Applications In this chapter, a tag simulator which can emulate the ISO/IEC 18000-6 type B and type ... with preamble codes, which preamble code is chosen depends on the value of the TRext specified by the Query command 274 Advanced RadioFrequency Identification Design and Applications The simulated...
... Advanced RadioFrequency Identification Design and Applications including receiver implementation details, receiver gain, communication protocol specifics and interference generated both within ... reader which 16 Advanced RadioFrequency Identification Design and Applications is expressed in Equation 30a Zrant is the input impedance of the reader antenna, Z0 is the characteristic impedance ... CMOS tag IC using ferroelectric RAM in 0.35μm technology IEEE Journal of Solid-State Circuits, Vol 42, No 1, pp 101–110, Jan 2007 28 Advanced RadioFrequency Identification Design and Applications...
... Cataloging-in-Publication Data: Davis, W Alan Radiofrequency circuit design / W Alan Davis, Krishna Agarwal p cm — (Wiley series in microwave and optical engineering) Includes index ISBN 0-471-35052-4 Radio ... communication The particular aspect of all these activities that is of primary focus in this text is in the area of analog circuit design, with primary emphasis on radiofrequency electronics Some ... PHASED ARRAY-BASED SYSTEMS AND APPLICATIONS Nick Fourikis FUNDAMENTALS OF MICROWAVE TRANSMISSION LINES Jon C Freeman OPTICAL SEMICONDUCTOR DEVICES Mitsuo Fukuda MICROSTRIP CIRCUITS Fred Gardiol...
... Lower Frequency Analog Design and Microwave Design Versus RadioFrequency Integrated Circuit Design Impedance Levels for Microwave and LowFrequency Analog Design Units for Microwave and Low -Frequency ... Analog Design and Microwave Design Versus RadioFrequency Integrated Circuit Design RFIC design has borrowed from both analog design techniques, used at lower frequencies [4, 5], and high -frequency ... Cataloguing in Publication Data Rogers, John Radiofrequency integrated circuit design — (Artech House microwave library) Radio circuits Design and construction Linear integrated circuits Design and...
... publication@sciyo.com First published February 2010 Printed in India Technical Editor: Teodora Smiljanic Cover designed by Dino Smrekar RadioFrequency Identification Fundamentals and Applications, ... dedicated to the latest results of research in the RFID field and launch a new book, entitled RadioFrequency Identification Fundamentals and Applications, Design Methods and Solutions”, which ... two or more reader 10 RadioFrequency Identification Fundamentals and Applications, Design Methods and Solutions interrogation ranges and the readers attempt to communicate with the tag simultaneously...
... the IC connected to the antenna to establish communications with the reader and transmit the appropriate information The max 38 RadioFrequency Identification Fundamentals and Applications, Design ... kHz 34 RadioFrequency Identification Fundamentals and Applications, Design Methods and Solutions 4.3.3 Energetic constraints For the worst command and worst configuration, the energetic constraints ... constraints with a clock frequency as low as 1.30 MHz Fig Clock frequency constraints for C1G2 digital core with a balanced half-Tpri base transmitter 26 RadioFrequency Identification Fundamentals...
... of Electronics Engineering University of Mosul Iraq Introduction RadioFrequency Identification (RFID) is a rapidly developing technology which uses RF signals for automatic identification of ... investigated IE3D electromagnetic simulator based on Method of Moment (MoM) is used to design some of these antennas 94 RadioFrequency Identification Fundamentals and Applications, Design Methods and Solutions ... 96 RadioFrequency Identification Fundamentals and Applications, Design Methods and Solutions As mentioned before, the RFID tag consists of an antenna and RFID integrated circuit (RFID IC) which...