![design solenoid in cst microwave studio design solenoid in cst microwave studio](https://d3i71xaburhd42.cloudfront.net/c4d211363934e97940a588573754729438a01df2/5-Figure2-1.png)
The new software is based on the multi-purpose electromagnetic solvers of the CST STUDIO family and incorporates their powerful modelling capabilities as well as successful algorithms of the MAFIA-TS simulators. They work at GSM and UMTS bands and the simulation results show good results. Abstract This paper introduces CST PARTICLE STUDIO TM, a specialist tool for the fast and accurate design and analysis of 3D electron guns. Project Description: Two dual-band microstrip antennas have been designed using CST Microwave Studio. Design of axial magnetic field using solenoid. spread after exiting the linac cavity is minimized using a solenoid focusing magnet. Students: Mohammed El Arqan, Ayman Madi, Ahmed Abu Taha, Amjad Bashir, Mohammed Fahjan, Amjad Nijim. magnetic field are validated with CST Particle studio 6 and. A scan magnet is designed using POISSON and CST Microwave studio. (5) Design of Dual Band Antennas for GSM and UMTS Mobile Communication Systems. The simulation results showed good performance with return loss of -20 dB, bandwidth of 16.4 MHz, and maximum gain of 5.06 dB. It is designed at frequency of 2.45 GHz using CST Microwave Studio. Project Description: A microstrip meander line antenna array has been designed for RFID tags. Figure 2 shows the simulation results obtained by the Computer Simulation Technology Microwave Studio (CST-MWS) for field distribution in the MR-WPT system with and without conducting block at the. These simulations demonstrate the theoretical results from our design and it shows the designed antenna behaviour. We studied a number of models that differ in the width of the accelerating gap and the height of the dee the nal variant of the model is presented in Fig. In this step, finally the parameters are readjusted to obtain our desired Larmor frequency (298,2MHz) for a correct operation in 7T. The geometric model of the double-gap delta cavity housed inside the valley of the magnetic system of the C400 cyclotron was developed in the CST Microwave Studio 6. (4) Design of Meander Line Antenna Array for RFID Tags. introduced to the CST Microwave Studio, creating a 3D model and generating a simulation.
![design solenoid in cst microwave studio design solenoid in cst microwave studio](https://i.ytimg.com/vi/Qlz_qAXjKZg/hq720.jpg)
The simulation results showed good performance with return loss of -31.7 dB, bandwidth of 75 MHz, and maximum gain of 8.53 dB. It is designed at LTE band 7 using the commercial software HFSS. Project Description: A microstrip antenna has been designed for LTE systems. (3) Design of Antenna for Long Term Evolution (LTE) System. Practical experiments have been done on solenoid, spiral and printed coils, and the results show wireless power transfer for distances up to 2 meters. The system consists of a transmitter and a receiver that contain coils tuned to the same resonant frequency. A wireless power transfer system has been studied and implemented. Project Description: Wireless power transfer can be applied to a variety of applications such as medical field applications, mobile charging, electrical cars charging, …etc.