a compact uhf rfid tag antenna design for metallic objects In this paper, a compact broadband RFID (radio frequency identification) tag antenna mountable on metallic object is proposed. The Auburn IMG Sports Network is the sports radio network for the Auburn Tigers, the athletic programs of Auburn University. Headquartered in Auburn, Alabama, . Montgomery: WLWI .Statewide coverage is the hallmark of the Auburn Sports Network's exclusive coverage of Auburn football. All home and away games are broadcast across the entire state .
0 · A compact broadband UHF RFID tag antenna for metallic objects
1 · A compact UHF RFID tag antenna design for metallic objects
FOOTBALL RADIO COVERAGE. Statewide coverage is the hallmark of the Auburn .
The compact RFID tag antenna with two L-shaped strips and two shorting pins is proposed for .
In this paper, a compact broadband RFID (radio frequency identification) tag antenna .
A compact broadband UHF RFID tag antenna for metallic objects
A compact UHF RFID tag antenna design for metallic objects
The compact RFID tag antenna with two L-shaped strips and two shorting pins is proposed for metallic objects application. The two L-shaped strips are used to increase impedance bandwidth, and the two shorting pins are used to reduce the influence of metallic objects.In this paper, a compact broadband RFID (radio frequency identification) tag antenna mountable on metallic object is proposed. The compact RFID tag antenna with two L-shaped strips and two shorting pins is proposed for metallic objects application. The two L-shaped strips are used to increase impedance.This contribution presents a tag antenna design for identifying metal objects in the European UHF band (865-868 MHz). The antenna consists of a dipole mounted on a thin dielectric which is coupled to two shorted patches mounted on FR4 substrate.
A small UHF RFID tag for embedded applications in the metallic objects was proposed. Using the high dielectric ceramic as a tag antenna substrate and the folded tag antenna structure reduces the total RFID tag size compared to the conventional tag designs. In this study, a novel compact radio frequency identification (RFID) tag antenna with a combination of a dipole and the double-layer symmetric electromagnetic band gap (DLS-EBG) structure is proposed for metallic objects in ultra-high-frequency (UHF) band.Abstract: A miniaturized tag antenna is presented in this paper, for operating in the RFID UHF American band, in free space or in a metallic environment. The proposed antenna is printed on a single layer FR4 substrate, and designed In this paper, a tunable compact UHF RFID metal tag is designed based on CPW open stub feed PIFA antenna. By changing the length of the open stub, the impedance of the PIFA antenna could be tuned in a large scale for conjugate impedance matching.
In this paper, a small passive UHF RFID tag consisting a loop antenna designed specifically for attaching to metallic objects is presented. Theoretical design steps for this tag design, as well as significant simulation results are included. The results for practical read range performance measurement of this tag are also presented. 1. Introduction This paper presents a compact microstrip antenna that can be attached to a metallic object to form a passive radio frequency identification (RFID) tag operating in the UHF band.The compact RFID tag antenna with two L-shaped strips and two shorting pins is proposed for metallic objects application. The two L-shaped strips are used to increase impedance bandwidth, and the two shorting pins are used to reduce the influence of metallic objects.
In this paper, a compact broadband RFID (radio frequency identification) tag antenna mountable on metallic object is proposed. The compact RFID tag antenna with two L-shaped strips and two shorting pins is proposed for metallic objects application. The two L-shaped strips are used to increase impedance.This contribution presents a tag antenna design for identifying metal objects in the European UHF band (865-868 MHz). The antenna consists of a dipole mounted on a thin dielectric which is coupled to two shorted patches mounted on FR4 substrate.
A small UHF RFID tag for embedded applications in the metallic objects was proposed. Using the high dielectric ceramic as a tag antenna substrate and the folded tag antenna structure reduces the total RFID tag size compared to the conventional tag designs. In this study, a novel compact radio frequency identification (RFID) tag antenna with a combination of a dipole and the double-layer symmetric electromagnetic band gap (DLS-EBG) structure is proposed for metallic objects in ultra-high-frequency (UHF) band.Abstract: A miniaturized tag antenna is presented in this paper, for operating in the RFID UHF American band, in free space or in a metallic environment. The proposed antenna is printed on a single layer FR4 substrate, and designed In this paper, a tunable compact UHF RFID metal tag is designed based on CPW open stub feed PIFA antenna. By changing the length of the open stub, the impedance of the PIFA antenna could be tuned in a large scale for conjugate impedance matching.
In this paper, a small passive UHF RFID tag consisting a loop antenna designed specifically for attaching to metallic objects is presented. Theoretical design steps for this tag design, as well as significant simulation results are included. The results for practical read range performance measurement of this tag are also presented. 1. Introduction
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a compact uhf rfid tag antenna design for metallic objects|A compact UHF RFID tag antenna design for metallic objects