Effects of Different Substrates on Staircase Shaped Microstrip Patch Antenna for KU Band

2018 ◽  
Author(s):  
Rishwesh Dalvi ◽  
Amita Dessai
Keyword(s):  
Patch Antenna ◽  
Microstrip Patch Antenna ◽  
Microstrip Patch ◽  
Ku Band

Design of High Gain Broadband Microstrip Patch Antenna for UWB/X/Ku Band Applications

2021 ◽  
pp. 153905
Author(s):  
Tapas Tewary ◽  
Smarajit Maity ◽  
Surajit Mukherjee ◽  
Avisankar Roy ◽  
Partha Pratim Sarkar ◽  
...  
Keyword(s):  
Patch Antenna ◽  
High Gain ◽  
Microstrip Patch Antenna ◽  
Microstrip Patch ◽  
Ku Band

Optimization of a broadband directional gain microstrip patch antenna for X–Ku band application

2013 ◽  
Vol 5 (1) ◽  
pp. 77-84 ◽  
Author(s):  
Anubhuti Khare ◽  
Rajesh Nema
Keyword(s):  
Patch Antenna ◽  
Middle Layer ◽  
Microstrip Patch Antenna ◽  
Impedance Bandwidth ◽  
Microstrip Patch ◽  
Indirect Coupling ◽  
X Band ◽  
Different Dimensions ◽  
Rectangular Microstrip Antenna ◽  
Ku Band

In this paper, optimization of a microstrip patch antenna is presented. The optimization uses a genetic algorithm in the IE3DTM Simulator. The optimization is done in several steps, first by changing the position of parasitic patches on the top layer, second by placing a feeding patch at the middle layer of geometry, and third by indirect coupling between the top and middle layer patches. Overall, we have performed many possible iterations and found appropriate geometry. From this appropriate geometry we have achieved maximum directional gain (6.2–8.8 dBi) over a 6 GHz bandwidth slot, 38% impedance bandwidth of the X-band and 14.8% impedance bandwidth of the Ku-band. The broadband frequency of operation is demonstrated by single geometry. The geometry of a single probe fed rectangular microstrip antenna incorporating a slot, gap coupled with a parasitic and an active patch on geometry, has been studied. We have investigated the height between active and parasitic patches as 0.0525λ and the height between parasitic patches itself as 0.0525λ. We have investigated the enhancement in maximum directional gain by stacking geometry with one active patch and two parasitic patches of different dimensions. This optimized antenna is used for X-band and Ku-band applications. The hardware validation and simulation results are matched to the proposed design.

scholarly journals Feasibility Investigation of SIW Cavity-Backed Patch Antenna Array for Ku Band Applications

2019 ◽  
Vol 9 (7) ◽  
pp. 1271 ◽  
Author(s):  
Onofrio Losito ◽  
Vincenza Portosi ◽  
Giuseppe Venanzoni ◽  
Francesco Bigelli ◽  
Davide Mencarelli ◽  
...  
Keyword(s):  
Antenna Array ◽  
Antenna Arrays ◽  
Patch Antenna ◽  
Satellite Communication ◽  
Feasible Solution ◽  
Microstrip Patch Antenna ◽  
Digital Radio ◽  
Microstrip Patch ◽  
G 13 ◽  
Ku Band

A cavity-backed microstrip patch antenna array was optimized in the Ku band. The backing cavity was designed under each patch antenna of the array in order to increase the bandwidth and minimize the intercoupling among the radiating elements. Substrate integrated waveguide (SIW) technology was employed to fabricate the above-mentioned cavity below the radiating patch. More precisely, four microstrip array antennas, made by 2 × 2, 4 × 4, 8 × 8, and 16 × 16 elements were designed, fabricated, and characterized. The measured maximum gain was G = 13 dBi, G = 18.7 dBi, G = 23.8 dBi, and G = 29.2 dBi, respectively. The performance of the proposed antenna arrays was evaluated in terms of radiation pattern and bandwidth. An extensive feasibility investigation was performed even from the point of different materials/costs in order to state the potential of the engineered antennas in actual applications. The obtained results indicate that a cavity-backed microstrip patch antenna is a feasible solution for broadband digital radio and other satellite communication overall for niche applications.

scholarly journals esign of a 24GHz Rectangular Microstrip Patch Antenna for Wireless Application

2021 ◽  
Vol 9 (VI) ◽  
pp. 23-27
Author(s):  
Dr. N. Srinivasa Rao
Keyword(s):  
Patch Antenna ◽  
Microstrip Antenna ◽  
Return Loss ◽  
Software Tool ◽  
Microstrip Patch Antenna ◽  
Microstrip Patch ◽  
Wireless Application ◽  
Rectangular Microstrip Patch Antenna ◽  
Rectangular Microstrip Antenna ◽  
Ku Band

The microstrip antenna required for higher frequency application is to be light in weight, easy to fabricate and small in size. As the applications in S-band and Ku-band are increasing with the increase in technology the requirement for higher data rate so the proposed work is to design a 24GHz (ka band) rectangular microstrip antenna with stripline feeding, return loss to be less than -20dB and VSWR less than 0.5. The substrate is chosen to be RT/duroid 5880 with relative permeability 2.2. it is capable of covering satellite application, telemetry. HFSS software tool is used to design the antenna.

scholarly journals Design of wide band slotted microstrip patch antenna with defective ground structure for ku band

2021 ◽  
Vol 11 (2) ◽  
pp. 1337
Author(s):  
Akhila John Davuluri ◽  
P. Siddaiah
Keyword(s):  
Patch Antenna ◽  
Wide Band ◽  
Circular Ring ◽  
Microstrip Patch Antenna ◽  
Coaxial Cable ◽  
Dual Frequency ◽  
Ground Structure ◽  
Microstrip Patch ◽  
Radiating Element ◽  
Ku Band

This paper proposes a microstrip patch antenna (MSPA) in the Ku band for satellite applications. The antenna is small in size with dimensions of about 40 mm×48 mm×1.59 mm and is fed with a coaxial cable of 50 Ω impedance. The proposed antenna has a wide bandwidth of 3.03 GHz ranging from 12.8 GHz to 15.8 GHz. To realize the characteristics of wideband the techniques of defective ground structure (DGS) and etching slots on the radiating element are adopted. The antenna is modeled on the FR4 substrate. A basic circular patch is selected for the design of a dual-frequency operation and in the next step DGS is introduced into the basic antenna and enhanced bandwidth is achieved at both the frequencies. To attain wider bandwidth two slots are etched on the radiating element of which one is a square ring slot and the second one is a circular ring slot. The novelty of the proposed antenna is a miniaturized design and unique response within the Ku band region which is applicable for wireless UWB applications with VSWR <2 and an average gain of 3.6 dB.

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