on-metal uhf-rfid passive tags based on complementary split-ring resonators - "On-metal UHF-RFID passive tags based on complementary split-ring resonators" Fig. 1. . There so many factors. If the card is a high frequency card that your phone can read, and the student hostel only uses the serial number of the card (not the data stored on it), and you have a rooted Android phone and you have an app that .
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The article should have mentioned that an off-the-shelf SmartPhone (iPhone or Android) cannot read a pet microchip without an external pet microchip scanner. The reason is that the RFID frequencies (125kHz, .
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Abstract: The use of complementary split-ring resonators (CSRRs) as radiating elements in low .The use of complementary split-ring resonators (CSRRs) as radiating elements in low-profile .- "On-metal UHF-RFID passive tags based on complementary split-ring resonators" Fig. 1. .
Abstract: The use of complementary split-ring resonators (CSRRs) as radiating elements in low-profile on-metal ultra-high- frequency radio-frequency identification (UHF-RFID) tags is explored in this study.The use of complementary split-ring resonators (CSRRs) as radiating elements in low-profile on-metal ultra-high-frequency radio-frequency identification (UHF-RFID) tags is explored in this study. First, the radiation properties of the edge-coupled and the non-bianisotropic (NB-CSRR) versions of the CSRR are studied.
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- "On-metal UHF-RFID passive tags based on complementary split-ring resonators" Fig. 1. Topology of the (a) edge-coupled (EC-SRR) and (b) non-bianisitropic (NB-SRR) split-ring resonators.Analysis of the Split Ring Resonator (SRR) Antenna Applied to Passive UHF-RFID Tag Design
The use of complementary split-ring resonators (CSRRs) as radiating elements in low-profile on-metal ultra-high-frequency radio-frequency identification (UHF-RFID) tags is explored in this study.Abstract: The use of complementary split-ring resonators (CSRRs) as radiating elements in low-profile on-metal UHF-RFID tags is explored in this work. Firstly, the radiation properties of the edge-coupled (EC-CSRR) and the non-bianisotropic (NB-CSRR) versions of the CSRR are studied. The tag design strategy is then discussed in detail. On that .On that basis, a compact (λ0/7 x λ0/7) low-profile (1.27 mm) tag prototype based on the NB-CSRR antenna is designed and manufactured to operate in the North-American UHF-RFID band. The experimental results validate the theoretical and simulated behaviour, and exhibit a maximum read range of 6.8 m.
The use of complementary split-ring resonators (CSRRs) as radiating elements in low-profile on-metal ultra-high-frequency radio-frequency identification (UHF-RFID) tags is explored in this study. First, the radiation properties of the edge-coupled and the non-bianisotropic (NB-CSRR) versions of the CSRR are studied.Abstract: A new strategy for designing small on-metal UHF-RFID tags providing long read range is presented in this paper. The proposed implementation consists of two parts: a complementary split-ring resonator (CSRR) antenna, which is intended to be directly cut out from a surface of the metallic container to be identified, and a very small .frequency identification (RFID) systems, an UHF RFID tag design is presented on paper substrates. The design is based on meander-line miniaturization techniques and open complementary split ring resonator (OCSRR) elements that reduce required conducting materials by 30%. Another passive UHF RFID tag is designed to senseAbstract: The use of complementary split-ring resonators (CSRRs) as radiating elements in low-profile on-metal ultra-high- frequency radio-frequency identification (UHF-RFID) tags is explored in this study.
The use of complementary split-ring resonators (CSRRs) as radiating elements in low-profile on-metal ultra-high-frequency radio-frequency identification (UHF-RFID) tags is explored in this study. First, the radiation properties of the edge-coupled and the non-bianisotropic (NB-CSRR) versions of the CSRR are studied.
- "On-metal UHF-RFID passive tags based on complementary split-ring resonators" Fig. 1. Topology of the (a) edge-coupled (EC-SRR) and (b) non-bianisitropic (NB-SRR) split-ring resonators.Analysis of the Split Ring Resonator (SRR) Antenna Applied to Passive UHF-RFID Tag Design The use of complementary split-ring resonators (CSRRs) as radiating elements in low-profile on-metal ultra-high-frequency radio-frequency identification (UHF-RFID) tags is explored in this study.Abstract: The use of complementary split-ring resonators (CSRRs) as radiating elements in low-profile on-metal UHF-RFID tags is explored in this work. Firstly, the radiation properties of the edge-coupled (EC-CSRR) and the non-bianisotropic (NB-CSRR) versions of the CSRR are studied. The tag design strategy is then discussed in detail. On that .
On that basis, a compact (λ0/7 x λ0/7) low-profile (1.27 mm) tag prototype based on the NB-CSRR antenna is designed and manufactured to operate in the North-American UHF-RFID band. The experimental results validate the theoretical and simulated behaviour, and exhibit a maximum read range of 6.8 m.The use of complementary split-ring resonators (CSRRs) as radiating elements in low-profile on-metal ultra-high-frequency radio-frequency identification (UHF-RFID) tags is explored in this study. First, the radiation properties of the edge-coupled and the non-bianisotropic (NB-CSRR) versions of the CSRR are studied.Abstract: A new strategy for designing small on-metal UHF-RFID tags providing long read range is presented in this paper. The proposed implementation consists of two parts: a complementary split-ring resonator (CSRR) antenna, which is intended to be directly cut out from a surface of the metallic container to be identified, and a very small .
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A simple Electron/Angular app that works with NFC readers to detect, read from and write to .
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