The design of the dipole antenna used in this study is as shown in Figure 1. The proposed design parameters of the half-wave dipole antenna have been simulated by using the CST Microwave Studio 2019 software. CST MWS enables the fast and accurate analysis of high frequency (HF) devices such as antennae, filters, couplers, planar and multi-layer structures and SI and EMC effects.
Internal applications, then our B2B based Bizapedia Pro API™ might be the answer for you. The half-wave dipole antenna has been designed at a resonant frequency 2.45GHz. CST MICROWAVE STUDIO (CST MWS) is a specialist tool for the 3D EM simulation of high frequency components. f ® 96 CST MICROWAVE STUDIO 2006 Planar Device Tutorial Your model should now look as follows: Define the Boundary Conditions In this case, the structure is embedded within a perfect electrically conducting enclosure. If you are looking for something more than a web based search utility and need to automate company and officer searches from within your Enter the reference plane distance of 150. cst microwave studio there are help files in cst which helps u through desining.lots of examplesa are there. The integral equation solver uses a curved triangular and quadrilateral surface mesh which becomes very efficient for electrically large structures. WHAT'S INCLUDED IN THE ADVANCED SEARCH FORM? CST MICROWAVE STUDIO therefore contains an integral equation based solver which is particularly suited to solving this kind of problem. Utilize our advanced search form to filter the search results by Company Name, City, State, Postal Code, Filing Jurisdiction, Entity Type, Registered Agent,įile Number, Filing Status, and Business Category. While logged in and authenticated, you will not be asked to solve any complicated Recaptcha V2 challenges. In addition, all pages on Bizapedia will be served to you completely ad freeĪnd you will be granted access to view every profile in its entirety, even if the company chooses to hide the private information on their profile from the general public. In this particular case, port 1 and port 4 are de-coupled, so one can expect S14 and S41 to be very small. For this work, CST’s Microwave Studio was chosen.
The seamless integration of the solvers into one user interface in CST Studio Suite enables the easy selection of the most appropriate simulation method for a given problem class, delivering improved simulation performance and unprecedented simulation reliability through cross-verification.Your entire office will be able to use your search subscription. Although CST MICROWAVE STUDIO can provide a wide variety of results, this tutorial concentrates solely on the S-parameters and electric fields. CST Microwave Studio along with HFSS and Sonnet are probably some of the better known simulation suites. Alongside these are simulation methods available for charged particle dynamics, electronics, and multiphysics problems. These represent the most powerful general purpose solvers for high frequency simulation tasks.Īdditional solvers for specialist high frequency applications such as electrically large or highly resonant structures complement the general purpose solvers.ĬST Studio Suite includes FEM solvers dedicated to static and low frequency applications such as electromechanical devices, transformers or sensors. CST Studio Suite® gives customers access to multiple electromagnetic (EM) simulation solvers which use methods such as the finite element method ( FEM) the finite integration technique (FIT), and the transmission line matrix method (TLM).