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1. #MICROSTRIP LINE CST MICROWAVE STUDIO PATCH#
2. #MICROSTRIP LINE CST MICROWAVE STUDIO SIMULATOR#
3. #MICROSTRIP LINE CST MICROWAVE STUDIO FREE#

Also VSWR is found 1.74 which is desirable. For FR4 the return loss, S 11 isobtained-11.4 dB at 2.4 GHz, this indicates the return loss is much lower comparing to the other dielectric materials used in this research.

#MICROSTRIP LINE CST MICROWAVE STUDIO PATCH#

The main objective of this paper is to design and observe the performance of the designed microstrip patch antenna using different dielectric materials. This research paper represents the effort of designing and performance analysis of microstrip patch antenna for Wi-Fi communication system. Microstrip patch antenna is designed for Wi-Fi communication which operates using 2.4 GHz frequency band. Microstrip patch antennas has low weight and low profile, conformability, easy and cheap fabrication costing, that's why it has been widely used in a various useful applications now a days.

#MICROSTRIP LINE CST MICROWAVE STUDIO FREE#

Wires provide less free space and non-mobility, thus indoor wireless communication system takes interest. Wireless communication and networking system has become an important area for research in academic and industrial institutes. The antenna is excited by coaxial feed line designed for a. The structure is made by two materials: the yttrium barium.

#MICROSTRIP LINE CST MICROWAVE STUDIO SIMULATOR#

The feed point location and the dimensions for the designed antenna has been optimized so as to get the better possible impedance match to the antenna. The proposed antenna is simulated using electromagnetic microwave studio computer simulator CST. Wireless communications has become very popular now-a-days. structure of the designed microstrip patch antenna with single band operation for the WLAN band on the CST Microwave Studio software. This means that the vacuum dryer design performs well at whatever level the material container is filled at. The width of the microstrip transmission line is determined to be 2.8 mm in order to maintain a perfect match of the MTL to 50. This project designed and simulated by using CST Studio Suite Software. then assign this rectangle as perfect conductor (PEC). The microstrip line feeding based on quarter wave impedance matching technique will be fed on the array of four by N (4xN) patch array microstrip rectangular antenna. However, all the models yielded results that are not very far from the other models. Draw the strip on the upper surface as a rectangle with dimensions 2.8x20 mm. For varying material volumes (50%, 70%, & 90%), the results show that overall, the 50% yielded the highest energy field, energy distribution, and absorption rate. Using CST Microwave Studio simulation software, it is seen that the best design for a 30-L MV chamber operating at 2.45 GHz is a cylindrical chamber with a radius of 202mm, length of 400mm, and with 2 perpendicular feeders located near the ends of the chamber.

Primarily, this study concentrates in further optimizing dimension of the chamber, orientation of the microwave generators, material volumes, and control system parameters. This study presents an optimized design of a microwave vacuum dryer (MVD) for rice bran stabilization addressing the problem with uneven heat distribution leading to scorching.