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$5 USD / heure
Drapeau de PAKISTAN
islamabad, pakistan
$5 USD / heure
Il est actuellement 8:49 AM ici
Membre depuis le avril 1, 2021
0 Recommandations

Muhammad Aqib Q.

@aqib928

5,0 (3 commentaires)
3,1
3,1
$5 USD / heure
Drapeau de PAKISTAN
islamabad, pakistan
$5 USD / heure
75 %
Travaux complétés
100 %
Suivant le budget
100 %
Dans les temps
17 %
Taux de réembauche

Antenna/RF Microwave Design Expert

Electronics Engineer having expertise in Antenna, RF and electronics circuits designing, MATLAB and computational engineering and mathematics, 2D/3D designing, PCB designing, Arduino and microcontroller based designing, also have expertise on tools like HFSS, MATLAB, CST Microwave studio, Keysight ADS, AWR, AutoCAD and Altium Designer.
Freelancer Telecommunications Engineers Pakistan

Contactez Muhammad Aqib Q. concernant votre emploi

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Éléments du portfolio

4 element patch antenna array
2x2 Patch Antenna Array
4 element patch antenna array
2x2 Patch Antenna Array
4 element patch antenna array
2x2 Patch Antenna Array
This antenna has beam switching capability at different angles. Progressive phase shift is provided through 3dB branch line coupler.
Pattern Reconfigurable Patch Antenna Array
To increase the bandwidth of microstrip patch antenna different feeding mechanism are used one is aperture coupled feeding. This antenna has aperture in ground plane and patch is coupled through this aperture to the feed.
Aperture Coupled Microstrip Antenna
Generally, patch antennas are narrow band so there are many techniques and methods to enhance the bandwidth of patch antennas like using thicker substrate, wideband feeding mechanism or use artificial magnetic conductor (AMC), frequency selective surfaces and metamaterials etc.

One way is to use different feeding techniques like edge feed patch antenna is narrow band, to enhance its bandwidth one can use feeding techniques like proximity coupled feeding or aperture coupled feeding whereas design challenges are multilayer structure and optimization of slots and feeds dimensions for impedance matching. This antenna design has improved better fractional bandwidth of 29%. 

Antenna is Designed and simulated on HFSS and CST.
Metamaterial-Based Low-Profile Broadband Antenna
Generally, patch antennas are narrow band so there are many techniques and methods to enhance the bandwidth of patch antennas like using thicker substrate, wideband feeding mechanism or use artificial magnetic conductor (AMC), frequency selective surfaces and metamaterials etc.

One way is to use different feeding techniques like edge feed patch antenna is narrow band, to enhance its bandwidth one can use feeding techniques like proximity coupled feeding or aperture coupled feeding whereas design challenges are multilayer structure and optimization of slots and feeds dimensions for impedance matching. This antenna design has improved better fractional bandwidth of 29%. 

Antenna is Designed and simulated on HFSS and CST.
Metamaterial-Based Low-Profile Broadband Antenna
Generally, patch antennas are narrow band so there are many techniques and methods to enhance the bandwidth of patch antennas like using thicker substrate, wideband feeding mechanism or use artificial magnetic conductor (AMC), frequency selective surfaces and metamaterials etc.

One way is to use different feeding techniques like edge feed patch antenna is narrow band, to enhance its bandwidth one can use feeding techniques like proximity coupled feeding or aperture coupled feeding whereas design challenges are multilayer structure and optimization of slots and feeds dimensions for impedance matching. This antenna design has improved better fractional bandwidth of 29%. 

Antenna is Designed and simulated on HFSS and CST.
Metamaterial-Based Low-Profile Broadband Antenna
Generally, patch antennas are narrow band so there are many techniques and methods to enhance the bandwidth of patch antennas like using thicker substrate, wideband feeding mechanism or use artificial magnetic conductor (AMC), frequency selective surfaces and metamaterials etc.

One way is to use different feeding techniques like edge feed patch antenna is narrow band, to enhance its bandwidth one can use feeding techniques like proximity coupled feeding or aperture coupled feeding whereas design challenges are multilayer structure and optimization of slots and feeds dimensions for impedance matching. This antenna design has improved better fractional bandwidth of 29%. 

Antenna is Designed and simulated on HFSS and CST.
Metamaterial-Based Low-Profile Broadband Antenna

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$50,00 USD
The project is not completed according to the dispute
Arduino Telecommunications Engineering Antenna Services Wireless Radio Frequency Engineering
+1 de plus
M
Drapeau de Mohammed B. @Mohammedbeshir
il y a 5 mois
5,0
$110,00 USD
Delivered on time with very good quality.
Arduino Telecommunications Engineering Antenna Services Wireless Radio Frequency Engineering
+1 de plus
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Drapeau de Hamed A. @hamed10093
il y a 2 ans
5,0
$85,00 USD
Working with Muhammed Aqib was the best experience out of all the other freelancers on this website. Excellent work and Perfect quality ... He is friendly and knowledgeable in his area of expertise which made me comfortable working with him. He is a very hard working man and delivered on everything that was asked ahead of schedule and was always there to answer any questions. I wish you all the best in future and if needed , I will make sure to contact you !"
Telecommunications Engineering Telecoms Engineering Wireless Radio Frequency Engineering Near Field Communication (NFC) RADAR/LIDAR
Avatar de l'utilisateur
Drapeau de Hamed A. @hamed10093
il y a 2 ans

Expérience

Engineer

RIMMS
nov. 2020 - Jusqu'à présent
Working in a active Radar Research Group which is involved in designing state of art Digital Array Radar and AESA Radar.

Éducation

MS Electrical Engineering (RF & Microwave)

National University of Science and Technology, Pakistan 2019 - 2021
(2 ans)

B.Sc. Electronics Engineering

University of Engineering and Technology, Taxila, Pakistan 2015 - 2019
(4 ans)

Qualifications

Maters in Electrical Engineering specialization in RF & Microwave

NUST
2020
Maters in Electrical Engineering specialization in RF & Microwave

Contactez Muhammad Aqib Q. concernant votre emploi

Connectez-vous pour discuter des détails via la messagerie.

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Meilleures compétences

Telecommunications Engineering 3 Wireless Radio Frequency Engineering 3 Arduino 2 Antenna Services 2 Antenna Design 2

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