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Design of a simple compact printed microstrip fed U-shaped monopole antenna for the wireless and radio frequency identification (RFID) is presented. The antenna has two different resonant paths (forming a U-shaped structure), supports two resonances around 1.84 GHz and 5.82 GHz, which are reserved for GSM 1800/PCS and RFID applications respectively. Effectively consistent radiation pattern and large...
Investigations on broadband printed rectangular monopole antenna with microstrip line feed is presented here. Systematic study has been carried out to demonstrate the effect of patch width and feeding techniques on the impedance-bandwidth of the printed rectangular monopole antenna. Experiment has been carried out to validate simulated result.
Design of a simple microstrip fed monopole patch antenna for the radio frequency identification (RFID) is presented. The antenna has two different resonant paths (forming an inverted double L-shaped structure), supports two resonances around 2.41 GHz and 5.85 GHz, which are reserved for RFID applications. Effectively consistent radiation pattern and large impedance bandwidth has been observed. Impedance...
Design of a simple microstrip fed monopole patch antenna for the radio frequency identification (RFID) is presented. The antenna has two different resonant paths (forming a C-shaped structure), supports two resonances at around 2.41 GHz and 5.85 GHz, which are reserved for RFID applications. Effectively consistent radiation pattern and large impedance bandwidth has been observed. Impedance bandwidth...
In this paper, two printed multiband fractal monopole antennas using the 1st and 2nd iteration of Minkowski Island geometry are proposed for WLAN communications. The monopole antennas have compact size of 28 times 18 mm2 and 21.5 times 18 mm2, respectively. The proposed antennas with different sizes of the ground plane have also been studied through numerical simulations in Ansoft HFSS. It is found...
The behavior of a two element segmented capped monopole antenna is described in terms of three natural resonances of the antenna structure. A numerical eigenmode solver is used to derive the resonant frequency and Q-factor of the natural resonances, as well as the impedance properties of these modes when excited individually. The impedance of the antenna is described as a lumped element network, where...
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