M. Kamran Shereen scite author profile

This paper presents a novel combo-reconfigurable architecture for the frequency and radiation patterning of a novel antenna system for future fifth-generation (5G) millimeter-wave mobile communication. The tuning system independently controls the frequency and radiation pattern shifts, without letting them affect each other. The proposed antenna consists of two patches, radiating at 28 GHz and 38 GHz. A negative-channel metal–oxide–semiconductor (NMOS) transistor was used as a switch for ON/OFF states. Frequency reconfiguration was controlled by switches SD1 and SD2, while pattern reconfigurability was achieved by SD3–SD18. The desired resonant frequencies of 28 GHz and 38 GHz were achieved by varying patch dimensions through the ON and OFF states of the SD1 and SD2 switches. Similarly, parasitic stubs on the ground are used to control surface currents, which results in pattern reconfiguration. The results were analyzed for 18 different combinations of the switch states. Adding/removing parasitic stubs and switches changed the beam steering angle (by 45° shift) from 0° to 180°, which modified the stub dimensions and changed the beam-width of the main lobe.

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Slotted Y-shaped millimeter wave reconfigurable antenna for 5G applications

Shereen

Khattak

Shafi

et al. 2018

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A hybrid reconfigurability structure for a novel 5G monopole antenna for future mobile communication

Shereen

Khattak

Al‐Hasan

2020

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A novel printed and compact profile monopole antenna with hybrid reconfigurability structure for switching the resonant frequency and direction of maximum radiations is proposed in this research work. A novel mathematical model for the architecture of Reconfigurable Patch Antenna (RPA), considering input impedance, bandwidth, antenna gain, antenna efficiency and resonant frequency is proposed. For the desired functionality, antenna is incorporated with three switches in such a way that Switch 1 and Switch 2 direct the radiation beam patterns towards different directions while Switch 3 controls the frequency reconfigurability. When Switch 3 is ON, the designed antenna operates at 26.4 GHz covering the 24.2–26.5 GHz band. When Switch 3 is OFF, it operates at 28 GHZ, covering the 27.4–29.8 GHz band. The antenna is proposed to operate at the 5G mobile communication band having a center frequency at 27.6 GHz with a reflection coefficient of −21.5 dB. A 3D design tool HFSS has been used for the simulation purposes.

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A Hybrid Reconfigurability Structure for a Novel 5G Monopole Antenna for Future Mobile Communications at 28/38 GHz

Shereen

Khattak

2021

Arab J Sci Eng

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M. Kamran Shereen

A brief review of frequency, radiation pattern, polarization, and compound reconfigurable antennas for 5G applications

A Frequency and Radiation Pattern Combo-Reconfigurable Novel Antenna for 5G Applications and Beyond

Slotted Y-shaped millimeter wave reconfigurable antenna for 5G applications

A hybrid reconfigurability structure for a novel 5G monopole antenna for future mobile communication

A Hybrid Reconfigurability Structure for a Novel 5G Monopole Antenna for Future Mobile Communications at 28/38 GHz

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