Low profile four‐port super‐wideband multiple‐input‐multiple‐output antenna with triple band rejection characteristics

2019 ◽  
Vol 29 (10) ◽  
Author(s):  
Dinesh K. Raheja ◽  
Binod K. Kanaujia ◽  
Sachin Kumar
Keyword(s):  
Multiple Input Multiple Output ◽  
Low Profile ◽  
Multiple Input ◽  
Input Multiple Output ◽  
Triple Band

A new design of triple-band WLAN/WiMAX monopole antenna for multiple-input/multiple-output applications

2014 ◽  
Vol 56 (11) ◽  
pp. 2667-2671 ◽  
Author(s):  
Nasser Ojaroudi ◽  
Nuraddin Ghadimi ◽  
Mehdi Mehranpour ◽  
Yasser Ojaroudi ◽  
Sajjad Ojaroudi
Keyword(s):  
Multiple Input Multiple Output ◽  
Monopole Antenna ◽  
Multiple Input ◽  
Input Multiple Output ◽  
Triple Band

scholarly journals Low-Profile Dual-Wideband MIMO Antenna with Low ECC for LTE and Wi-Fi Applications

2014 ◽  
Vol 2014 ◽  
pp. 1-6 ◽  
Author(s):  
Gye-Taek Jeong ◽  
Sunho Choi ◽  
Kyoung-hak Lee ◽  
Woo-Su Kim
Keyword(s):  
Multiple Input Multiple Output ◽  
Surface Current ◽  
Mobile Terminal ◽  
Radiation Patterns ◽  
Mimo Antenna ◽  
Isolation Techniques ◽  
Low Profile ◽  
Multiple Input ◽  
Wireless Broadband ◽  
Input Multiple Output

This paper presents a low-profile dual-wideband multiple input multiple output (MIMO) antenna with low envelop correlation coefficient (ECC) for long-term evolution (LTE) and wireless fidelity (Wi-Fi) applications. The antenna covers LTE band 7 and Wi-Fi as well as wireless broadband (Wibro) and Worldwide Interoperability for Microwave Access (WiMax) (except for the 3.5-GHz band). To aid with integration of a practical mobile terminal, the MIMO antenna elements are placed at appropriate locations by analyzing the surface current distribution and without using any additional isolation techniques. The measured bandwidths with reflection coefficients of <−10 dB are 36.8% in the range 2.02–2.93 GHz and 23.4% in the range 5.10–6.45 GHz. Isolation is satisfied to be >20 dB in the operating frequency ranges of both LTE band 7 and Wi-Fi. Additionally, the calculated ECC is in the range0.005<ρ<0.025, which is considerably lower than theρ<0.5required for MIMO applications. The measured radiation patterns are appropriate for mobile terminals, and omnidirectional radiation patterns are obtained.

Dual circular slot ring triple-band MIMO antenna for 5G applications

Frequenz ◽  
2020 ◽  
Vol 0 (0) ◽  
Author(s):  
Anand Kumar ◽  
Santosh Kumar Mahto ◽  
Rashmi Sinha ◽  
Arvind Choubey
Keyword(s):  
Mutual Coupling ◽  
Ground Plane ◽  
Multiple Input Multiple Output ◽  
Mobile Terminal ◽  
High Gain ◽  
Mimo Antenna ◽  
Multiple Input ◽  
Input Multiple Output ◽  
Smart Wearable ◽  
Triple Band

AbstractA Triple-band Multiple-Input-Multiple-Output (MIMO) antenna for 5G mobile terminal applications is proposed in this paper. The design comprises four-port/two resonators, each having two concentric circular slot ring radiators etched on a ground plane of size 50 mm ${\times}$ 50 mm. The antenna is fed by perpendicularly arranged 50 Ω microstrip line feeds on the top layer. Decoupling techniques were used to suppress mutual coupling between the two resonators. The perpendicular arrangement of the feed lines and port reduces mutual coupling between the two ports and increases isolation. The antenna operates in multiple bands: 3.35–3.69 GHz, 24–28 GHz, and 37–40 GHz frequency range with central frequencies at 3.5 GHz, 26 GHz, and 38 GHz, respectively allocated for 5G. The antenna provides a gain of 2.7–7.8 dB and a radiation efficiency of 0.49–0.85 in the operating bands. Diversity performance is studied in terms of the Envelop Correlation Coefficient (ECC), Diversity Gain (DG), and Total Active Reflection Coefficient (TARC) were found to be less than 0.01, greater than 9.99 dB, and less than −10 dB respectively. The proposed antenna offers good S-parameters, voltage standing wave ratio (VSWR), TARC, radiation pattern, high gain, and low ECC. The antenna was fabricated and tested. The measured results and simulated results are in good agreement. It possesses sufficient potential for 5G mobile terminal and smart wearable applications.

Multiband Printed Slot Meander Patch Antenna for MIMO Implementation in 4G Handheld Devices

2013 ◽  
Vol 64 (3) ◽  
Author(s):  
Nassrin Ibrahim Mohamed ◽  
Tharek Abd. Rahman ◽  
Mursyidul Idzam Sabran
Keyword(s):  
Multiple Input Multiple Output ◽  
Antenna System ◽  
Handheld Devices ◽  
Portable Devices ◽  
Patch Antennas ◽  
Mimo Antenna ◽  
Low Profile ◽  
Proposed Model ◽  
Multiple Input ◽  
Input Multiple Output

This paper presents a Low-profile slot meander patch antennas. The antenna is a multiple communication bands for handheld devices and implements multiple-input–multiple-output (MIMO) technique. The proposed model covers LTE band-11 1.5 GHz Lower (1427.9 - 1452.9, 1475.9 - 1500.9), LTE band-2 PCS 1900 (1930 -1990, 1850 -1910), LTE band-7 2.6 GHz (2620-2690, 2500- 2570), and LTE band-22 3.5 GHz (3510-3590, 3410-3490) with dB matching criterion (VSWR 3:1). An isolation less than -15 dB has been obtained between two typical slot meander patch antennas. The isolation is achieved as a result of using CPW feeding mechanism and inserted CLL network isolator. This dual-feed (2-elements) planar antenna is fabricated and measured. The result of this small size structured MIMO antenna system shows a good radiation characteristics and small mutual coupling which is promising for MIMO applications in compact portable devices.

scholarly journals Low-Profile and Closely Spaced Four-Element MIMO Antenna for Wireless Body Area Networks

Electronics ◽  
2020 ◽  
Vol 9 (2) ◽  
pp. 258 ◽  
Author(s):  
Issa Elfergani ◽  
Amjad Iqbal ◽  
Chemseddine Zebiri ◽  
Abdul Basir ◽  
Jonathan Rodriguez ◽  
...  
Keyword(s):  
Impedance Matching ◽  
Multiple Input Multiple Output ◽  
Mimo Antenna ◽  
Ism Band ◽  
Average Channel Capacity ◽  
Capacity Loss ◽  
Low Profile ◽  
Multiple Input ◽  
Input Multiple Output ◽  
Strong Candidate

A compact four-element multiple-input multiple output (MIMO) antenna is proposed for medical applications operating at a 2.4 GHz ISM band. The proposed MIMO design occupies an overall volume of 26 mm × 26 mm × 0.8 mm. This antenna exhibits a good impedance matching at the operating frequency of the ISM band, whose performance attributes include: isolation around 25 dB, envelope correlation coefficient (ECC) less than 0.02, average channel capacity loss (CCL) less than 0.3 bits/s/Hz and diversity gain (DG) of around 10 dB. The average peak realized gain of the four-element MIMO antenna is 2.4 dBi with more than 77 % radiation efficiency at the frequency of interest (ISM 2.4 GHz). The compact volume and adequate bandwidth, as well as the good achieved gain, make this antenna a strong candidate for bio-medical wearable applications.

Miniaturized four-port UWB MIMO antennas with triple-band rejection using single EBG structures

2021 ◽  
pp. 1-9
Author(s):  
Ekta Thakur ◽  
Naveen Jaglan ◽  
Samir Dev Gupta
Keyword(s):  
Impedance Matching ◽  
Ground Plane ◽  
Multiple Input Multiple Output ◽  
Ultra Wideband ◽  
Uwb Antenna ◽  
Mimo Antennas ◽  
X Band ◽  
Multiple Input ◽  
Input Multiple Output ◽  
Triple Band

Abstract This research paper introduces a ultra-wideband (UWB) multiple input multiple output (MIMO)/diversity antenna with three rejected bands using one compact electromagnetic band gap (EBG) structure. The suggested EBG structure rejects three bands at WiMAX, WLAN, and the X-band within the passband of the UWB antenna. To achieve compactness in the conventional EBG structure, two via and square slots are introduced. This structure contributes to better impedance matching by using tapered feedline and slots in the radiating patch. To improve the isolation among all four compact UWB monopoles, decoupling strips are extended from the ground plane. Furthermore, the |S21| is below 17 dB in between the antenna elements and the envelope correlation coefficient is below 0.5, which are tolerable values within the UWB range. Furthermore, different MIMO/diversity characteristics are also discussed. An FR-4 substrate with dimensions of 38 × 45 × 1.6 mm3 is used for the fabrication of the suggested structure.

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