Dual Band LTE Planar Inverted‐F Antenna for M2m Applications

Loutridis, Abraham; John, Matthias; Ammann, Max J.

doi:10.1002/mop.27980

Cited by 8 publications

(8 citation statements)

References 10 publications

(8 reference statements)

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“…The variety of new M2M applications takes advantage of LTE's higher bandwidth and low latency . Low profile and broadband antennas covering the LTE frequency range such as PIFAs and monopoles are reported as solutions for these applications. PIFA structures offer low profile omnidirectional radiation characteristics and high efficiencies addressing the requirements for M2M applications.…”

Section: Introductionmentioning

confidence: 99%

A dual band LTEPIFA antenna for M2M applications

Loutrids

John

Ammann

2015

Micro & Optical Tech Letters

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Section: Introductionmentioning

confidence: 99%

A dual band LTEPIFA antenna for M2M applications

Loutrids

John

Ammann

2015

Micro & Optical Tech Letters

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“…In these communication systems, the antennas that satisfy the high demand such as wide impedance bandwidth, stable gain, stable and omnidirectional radiation pattern are increasingly desirable. Owing to their advantages including reduction of the numbers of antennas and minimality of installation area, dual‐band antennas have attracted an enormous amount of attention . Meanwhile, over the past decades, tremendous research has been carried out on magneto‐electric (ME) dipole antennas, which can meet the high requirement of wideband mobile communications, due to their excellent electrical characteristics such as broad bandwidth, stable gain as well as nearly identical E ‐ and H ‐plane patterns across the operating band.…”

Section: Introductionmentioning

confidence: 99%

“…And, the conventional dual‐band antennas are usually arrayed for improved gains . Otherwise, bandwidths and gains have to be compromised . Hence, it is challenging and desirable to propose a novel design of dual‐band ME dipole antenna for WWAN/LTE application with low‐profile structure, stable gains, ease, and low cost to fabricate.…”

Section: Introductionmentioning

confidence: 99%

A planar-printed E-shaped omnidirectional magneto-electric dipole antenna for WWAN/LTE applications

Feng

Yin

2014

Microw. Opt. Technol. Lett.

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A planar‐printed E‐shaped dual‐wideband magneto‐electric (ME) dipole antenna for WWAN/LTE applications is proposed. Through changing the surface‐current distributions, an E‐shaped electric‐dipole structure is used to provide a dual‐wideband. Besides, to reduce the size of the antenna and improve impedance matching, a novel feeding structure designed with inverted U‐shaped tapered line and meandering L‐shaped line is introduced. Finally, without conventional vertical ground planes, a small‐size one is printed on the back side of the substrate to attain stable gains and omnidirectional radiation patterns. The antenna prototype can attain a bandwidth of 31.6% (0.80–1.10 GHz) with a stable gain of 3.1 ± 0.5 dBi for the lower band, and a bandwidth of 47.5% (1.67–2.71 GHz) with a gain of 3.9 ± 0.7 dBi for the upper band, covering the frequency bands for WWAN/LTE systems. In comparison with the existing ME dipole antennas, the proposed antenna can be easily fabricated at low cost which makes it suitable for WWAN/LTE applications. © 2014 Wiley Periodicals, Inc. Microwave Opt Technol Lett 56:1734–1739, 2014

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“…In these communication systems, the antennas that satisfy the high demand such as wide impedance bandwidth, stable gain, stable and omnidirectional radiation pattern are increasingly desirable. Owing to their advantages including reduction of the numbers of antennas and minimality of installation area, dual-band antennas have attracted an enormous amount of attention [2][3][4][5]. Meanwhile, over the past decades, tremendous research has been carried out on magnetoelectric (ME) dipole antennas, which can meet the high requirement of wideband mobile communications, due to their excellent electrical characteristics such as broad bandwidth, stable gain as well as nearly identical E-and H-plane patterns across the operating band.…”

Section: Introductionmentioning

confidence: 99%

“…And, the conventional dual-band antennas are usually arrayed for improved gains [2,3]. Otherwise, bandwidths and gains have to be compromised [1,4,15,16]. Hence, it is challenging and desirable to propose a novel design of dual-band ME dipole antenna for WWAN/LTE application with low-profile structure, stable gains, ease, and low cost to fabricate.…”

Section: Introductionmentioning

confidence: 99%

Modified Series-Fed Two-Dipole-Array Antenna With Reduced Size

Yeo

Lee

2013

Antennas Wirel. Propag. Lett.

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A planar-printed E-shaped dual-wideband magneto-electric (ME) dipole antenna for WWAN/LTE applications is proposed. Through changing the surface-current distributions, an E-shaped electric-dipole structure is used to provide a dual-wideband. Besides, to reduce the size of the antenna and improve impedance matching, a novel feeding structure designed with inverted U-shaped tapered line and meandering L-shaped line is introduced. Finally, without conventional vertical ground planes, a small-size one is printed on the back side of the substrate to attain stable gains and omnidirectional radiation patterns. The antenna prototype can attain a bandwidth of 31.6% (0.80-1.10 GHz) with a stable gain of 3.1 6 0.5 dBi for the lower band, and a bandwidth of 47.5% (1.67-2.71 GHz) with a gain of 3.9 6 0.7 dBi for the upper band, covering the frequency bands for WWAN/LTE systems. In comparison with the existing ME dipole antennas, the proposed antenna can be easily fabricated at low cost which makes it suitable for WWAN/LTE applications.ABSTRACT: A simple design for solar powered frequency sensors is presented. The design is based on a rectenna composed of a frequency reconfigurable microstrip antenna, a rectifying circuit, and a low pass filter. The operating frequency of the antenna can be tuned in the range between 2 and 2.8 GHz, and, in this frequency range, the rectifier can effectively perform the conversion from RF to DC. By the measured results of the rectenna, the average conversion efficiency within the operating bandwidth of 33% is 73% over a resistive load of 1 kX at a power density of about 0.8 mW/cm 2 . A frequency sensor is successfully implemented by integrating the frequency reconfigurable rectenna with a preprogrammed microprocessor powered by solar cells.

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Dual Band LTE Planar Inverted‐F Antenna for M2m Applications

Cited by 8 publications

References 10 publications

A dual band LTEPIFA antenna for M2M applications

A dual band LTEPIFA antenna for M2M applications

A planar-printed E-shaped omnidirectional magneto-electric dipole antenna for WWAN/LTE applications

Modified Series-Fed Two-Dipole-Array Antenna With Reduced Size

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