Simultaneous beam steering of multiple signals based on optical wavelength-selective switch

2015 ◽  
Vol 7 (3-4) ◽  
pp. 391-398
Author(s):  
Giovanni Serafino ◽  
Antonio Malacarne ◽  
Claudio Porzi ◽  
Paolo Ghelfi ◽  
Marco Presi ◽  
...  
Keyword(s):  
Integrated Circuits ◽  
Integrated Circuit ◽  
Phase Shifter ◽  
Phased Array ◽  
Beam Steering ◽  
Array Antenna ◽  
Ring Resonators ◽  
Antenna Element ◽  
Phased Array Antenna ◽  
Wavelength Selective Switch

A novel, photonics-based scheme for the independent and simultaneous beam steering of multiple radio frequency signals at a wideband phased-array antenna is presented. As a proof of concept, a wavelength-selective switch (WSS) is employed both as a wavelength router to feed multiple antenna elements and as a tunable phase shifter to independently control the phase of each signal at any antenna element. In the experiment, two signals at 12.5 and 37.5 GHz are simultaneously fed to the four output ports of the WSS with independent and tunable phase shifts, emulating the independent steering of two signals in a four-element phased-array antenna. The results confirm the precision and flexibility of the proposed scheme, which can be realized both with bulk components or resorting to photonic integrated circuits, especially for wide-band applications. The architecture for a possible integrated implementation of the proposed solution is presented, employing a structure based on micro-ring resonator. Starting from these results, the feasibility of an integrated version of the presented architecture is also considered. The proposed photonic integrated circuit realizing the beam-forming network might be based on tunable true-time delay, as well as on phase shift through micro-ring resonators, and could be conveniently implemented with CMOS-compatible silicon technology.

Two-Dimensional Beam-Steering Phased-Array Antenna With Compact Tunable Phase Shifter Based on BST Thick Films

2017 ◽  
Vol 16 ◽  
pp. 585-588 ◽  
Author(s):  
Mohammad Nikfalazar ◽  
Mohsen Sazegar ◽  
Arshad Mehmood ◽  
Alex Wiens ◽  
Andreas Friederich ◽  
...  
Keyword(s):  
Phase Shifter ◽  
Phased Array ◽  
Beam Steering ◽  
Thick Films ◽  
Array Antenna ◽  
Two Dimensional ◽  
Phased Array Antenna

scholarly journals Design of integrated Ka-band reflective phased array antenna element

2019 ◽  
Vol 30 ◽  
pp. 05024
Author(s):  
Anatoly I. Firsenkov ◽  
Anton B. Guskov ◽  
Alexander S. Smirnov ◽  
Vladimir M. Krekhtunov ◽  
Elena V. Komissarova
Keyword(s):  
Electromagnetic Waves ◽  
Phase Shifter ◽  
Phased Array ◽  
Array Antenna ◽  
High Tech ◽  
Antenna Element ◽  
Phased Array Antenna ◽  
Beam Scanning ◽  
Average Deviation ◽  
Ka Band

The results of a constructively simple high-tech small-sized integrated element of the Ka-band electric beam scanning reflective phased array antenna (PAA) development are shown. Beam scanning sector of the phased array antenna is up to 60 by both coordinates. The PAA element is based on the Faraday type waveguide ferrite phase shifter, which works on the circular polarized electromagnetic waves. More than 30000 PAA elements has been produced, 100% control and statistical data processing of their main characteristics has been carried out. Graph for initial phases and steepness of linearized phase characteristics, medium and maximum losses of PAA elements are performed. Average value of the average deviation for parameters which is important for PAA and the beam control system design have been determined. The developed element can be used in PAA which have different sizes, forms and sectors of electrical beam scanning. Small deviations in the characteristics of PAA elements from the linearized characteristics indicate the high quality of the production and their identity, which makes it possible to create PAA without taking into account the real individual parameters of mass-produced PAA elements.

Three-Bit DMTL Phase Shifter for Phased Array Antennas

2019 ◽  
Vol 28 (07) ◽  
pp. 1950112
Author(s):  
N. M. Mary Sindhuja ◽  
S. Kanthamani
Keyword(s):  
Transmission Line ◽  
Phase Shifter ◽  
Phased Array ◽  
Rf Mems ◽  
Beam Steering ◽  
Coplanar Waveguide ◽  
Phase Shifters ◽  
Array Antenna ◽  
Phased Array Antenna ◽  
Rf Signal

RF MEMS phase shifter is a device that is used to modify the transmission phase of RF signal and provide signal control. Phase shifters are high-value components used in phased array antenna architectures. In phased array antenna the phase shifter is used to provide reliable electronic beam steering. The proposed 3-bit distributed MEMS transmission line (DMTL) phase shifter is designed using elevated coplanar waveguide (ECPW) transmission line for the first time, which results in better return loss of [Formula: see text]14.23[Formula: see text]dB and an average insertion loss of [Formula: see text]1.46[Formula: see text]dB. This paper discusses the development of ECPW-based 3-bit DMTL phase shifter designed to operate at 15[Formula: see text]GHz.

Design of ultra-wide tetra band phased array inverted T-shaped patch antennas using DGS with beam-steering capabilities for 5G applications

2020 ◽  
Vol 12 (5) ◽  
pp. 419-430
Author(s):  
Muhammad Anas ◽  
Hifsa Shahid ◽  
Abdul Rauf ◽  
Abdullah Shahid
Keyword(s):  
Phased Array ◽  
Beam Steering ◽  
High Gain ◽  
Ultra Wideband ◽  
Main Beam ◽  
Antenna Element ◽  
Patch Antennas ◽  
Defected Ground Structure ◽  
Phased Array Antenna ◽  
Millimeter Wave Antenna

AbstractA novel 1 × 4 phased array elliptical inverted T-shaped slotted sectored patch antenna with defected ground structure (DGS), resonate at proposed ultra-wide tetra band at 28, 43, 51, and 64 GHz with high gain and beam-steering capabilities is presented. An inverted T-shaped slotted stub is used with the sectored patch to achieve ultra-wideband properties. In order to resonate the antenna at four different bands, DGS of round bracket slot is etched on the ground. The 1 × 4 phased arrays are used at the top edge and bottom edge of mobile PCB with high gain. The simulation results show that the antenna has four ultra-wide bands: 25.8–29.7, 40.6–44.6, 49.2–53.1, and 62.2–74 GHz with a maximum gain of 16.5 dBi at 51 GHz. The phased array antenna is capable to steer its main beam within ±30° at the 26, 28, and 43 GHz, using appropriate phase shifts of each antenna element. The proposed millimeter wave antenna is particularly suitable for cellular infrastructures and can be a candidate for emerging 5G mobile applications. The availability of an additional 11.8 GHz (62.2–74 GHz) of contiguous unlicensed spectrum will allow the launching of new exciting wireless services.

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