A Compact Wideband Stacked Antenna for the Tri-Band GPS Applications

Elrazzak, Maher M. Abd; Alsharekh, M. F.

doi:10.1155/2008/693263

Cited by 5 publications

(3 citation statements)

References 6 publications

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“…A printed folded dipole antenna already been proposed for UHF reader in [6]. However, the stacked and planar triple-band microstrip antennas were presented in [8][9][10].…”

Section: Introductionmentioning

confidence: 99%

Triple-Band Printed Dipole Antenna for Rfid

Abu¹,

Rahim

2009

PIER C

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Abstract-In this paper, a triple-band printed dipole tag antenna is proposed for Radio Frequency Identification (RFID). The tripleband printed dipole antenna is designed to operate at 0.92 GHz, 2.45 GHz and 5.8 GHz using Computer Simulation Technology (CST) software. In order to achieve triple-band operation, the proposed antenna contains two branch elements, which act as an additional resonator. The designed antenna is fabricated using Taconic RF-35 substrate with a dielectric constant (ε r ) of 3.5 and thickness (d) of 0.508 mm. The antenna's parameters for triple-band operation are investigated and discussed. Then, this fabricated antenna is integrated with a UHF microchip to become a passive UHF tag. This tag is tested by measuring the reading distance and it is found that the proposed tag can be used for RFID application.

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“…A printed folded dipole antenna already been proposed for UHF reader in [6]. However, the stacked and planar triple-band microstrip antennas were presented in [8][9][10].…”

Section: Introductionmentioning

confidence: 99%

Triple-Band Printed Dipole Antenna for Rfid

Abu¹,

Rahim

2009

PIER C

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“…In recent years, a rapid evolution in wireless applications increase the development a new prototype compact planar reader antenna design with optimization dimensions to support a wireless radio technology such as radio frequency identification data (RFID) reader applications [1]- [3]. This is because the frequency bands super high frequency (SHF) and ultra-high frequency (UHF) can supply broad readable ranges and important data transfer rate [4]- [6]. Despite of the reality that this application very important in the world and diverse community have a different administrative standard for RFID frameworks.…”

Section: Introductionmentioning

confidence: 99%

A new compact grounded coplanar waveguide slotted multiband planar antenna for radio frequency identification data applications

Dakir

Mouhsen

2022

IJECE

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This research presents the development and conception of a new compact grounded coplanar waveguide fed slotted rectangular planar antenna with a multi-frequency band for <a name="_Hlk94076774"></a>radio frequency identification data (RFID) reader applications which is based on the antenna mono-band frequency to use for a various applications RFID to support a different operating range. The optimized of the final prototype designing operates a multiple frequency bands ranging from 0.7-1.1 GHz, 2.2-2.5 GHz and 5.4-6 GHz for 0.9/2.4 GHz and 5.8 GHz RFID operation bands which is adapted from ultra-high frequency band (0.9 GHz) to microwave frequency band (2.4-5.8 GHz) RFID systems. This antenna is implemented and printed on a FR4 substrate with a size of 30×50×1.6 mm3. The novel prototype includes of a radiator rectangular patch with a symmetrical slot and a U-slot with I-stub on ground plan. The principles parameters of the antenna have been studied optimized and miniaturized by using a two simulators CST Microwave Studio and advanced design system (ADS) to validate the simulation results before the planar antenna realization. The final structure is achieved and validated of the results measurement. Experimental results show that the proposed antenna with a small size has good and stable radiation and thus promising for a various RFID applications.

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“…This antenna should be planar, lightweight, and compact, so that it can be easily embedded in active devices for wireless communications. Therefore, there are various multi-band antennas that have been developed over the years, which can be utilized to achieve multi-band operations, such as PIFA [1], monopole antenna [2] and others [3,4], while printed dipole antennas are attractive because they are simple, easy to fabricate and easy to interface with an Application Specific Integrated Circuit (ASIC) microchip [5]. In recent years, several multi-band printed dipole antennas have been reported.…”

Section: Introductionmentioning

confidence: 99%

Triple-Band Printed Dipole Antenna for Rfid/GPS/Ble Applications

Jebbawi¹,

Egels²,

Pannier³

2018

PIER M

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Progress in wireless communication requires antennas that work on multi-band simultaneously. This paper presents a design method for a multi-band antenna using printed dipole with L-slots fed by a single coaxial cable. Using this method, a triple-band antenna that operates at 868-915 MHz for RFID (radio frequency identification), 1575 MHz for GPS (global positioning system) and 2.45 GHz for BLE (bluetooth low energy) was designed and manufactured. The antenna's parameters for triple-band operation are investigated and discussed. In this antenna design, ANSYS HFSS software using highly accurate finite element method (FEM) simulation is employed to analyze the entire structure. The designed antenna is manufactured using an FR-4 substrate with a dielectric constant (r) of 4.4 and thickness (h) of 1.6 mm. Many prototypes have been fabricated, and good agreement between simulations and measurements has been achieved. The performance of the prototypes has been measured in a standard far-field anechoic chamber. The proposed triple-band antenna is also tested by measuring the reading distance, and it is found that the proposed antenna can be used for RFID applications.

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A Compact Wideband Stacked Antenna for the Tri-Band GPS Applications

Cited by 5 publications

References 6 publications

Triple-Band Printed Dipole Antenna for Rfid

Triple-Band Printed Dipole Antenna for Rfid

A new compact grounded coplanar waveguide slotted multiband planar antenna for radio frequency identification data applications

Triple-Band Printed Dipole Antenna for Rfid/GPS/Ble Applications

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