The described approach can be applied to other members of the CST STUDIO product line as well.ĬST MWS is one component of the CST STUDIO SUITE™ package, which includes CST DESIGN ENVIRONMENT™, CST DESIGN STUDIO™, CST EM STUDIO™, and CST PARTICLE STUDIO™. COM and ActiveX interfaces allow behind the scenes data transfer and tight integration between the two programs. This interface allows CST MWS users to take advantage of the extensive data manipulation, signal processing, and graphics capability in MATLAB. CST Studio Suite is a computational electromagnetics tool developed by Dassault Systèmes Simulia. Communication system design is getting challenging today, since antenna, microwave components and electronics performances. Join the Tech Talk to learn about the key new features that will be available in CST Studio Suite 2022. The first step would be to check your GPU model to see if it has any CUDA cores that you can use. January 20, 20228:00 AM - 9:00 AM (your local time) The latest release of SIMULIA CST Studio Suite is now available. The product offers users shorter development cycles through virtual prototyping before physical trials and optimization instead of experimentation.ĬST MICROWAVE STUDIO provides a link between MATLAB ® and CST MWS's VBA macro language. I am using a CST Microwave Studio 2021 release on a Core i7 10850H + 64GB Ram with RTX 3060 Mobile. CST MWS specializes in providing fast and accurate 3D electromagnetic simulation of high frequency problems. Providing more information regarding your tunable element and the tuning mechanism in reality will make it easier for us to understand the problem and answer your question.CST MICROWAVE STUDIO ® (CST MWS) is the culmination of many years of research and development into the most efficient and accurate computational solutions to 3D electromagnetic designs. I had to speculate what your tuning approach might be and provide some suggestions. For instance, if you are using phase shifters of some sort with distributed elements, you could model it with delay lines for far field simulations. One way to get around this would be to simulate your tunable elements separately and implement the effects with a more mess-effective approach. Select the structure and make translate with copy option into number of times required and extend the ground and substrate. This is usually because you need to generate a fine and dense mesh locally for your tunable lements and a coarse but massive mesh for your far field. i designed a array of antenna now i want to duplicate into 3 more array antenna in CST microwave studio.can anyone help me on this. CST STUDIO SUITE® is a package of tools for designing, simulating and optimizing electromagnetic systems, and is used in leading technology and engineering companies. Specially, people from academia face problems at the beginning. Therefoe, its a problem for those who want to start working in CST MWS. Vue 5 Infinite - Integration (VUELW) CST Microwave Studio 2006 CST Design Studio 3.0 Super NEC 2.5 XFDTD 6.3.8.4 Microwave Office2006 Microwave Office2004 GuIDE DATAMINE Achiever Papers - We help students improve their academic We have 76047 resumes in our database Showing all resumes. Unfortunately, there is not enough video tutorials found in online. If you're modeling a distributed tunable element, it can get realy hard and extremely time and power consuming to simulate them in big model such as a reconfigurable antenna. CST Microwave Studio (CST MWS) is getting much attention in academia and industry for its powerful features and solver tools. If the capacitor is also modeled in a distributed form, then you could probably parameter sweep the relative permittivity of the ferroelectric dielectric in the capacitor design. For instance, if your tunable element is a variable capacitor (varactor) in a phase shifter feeding the radiating elements, you could simulate the tunability by reducing the capacitance of varactor by a factor corresponding to the tunability value. For this end, you'd perform a parameter sweep for a key parameter that represents tunable effects in the tunable element. One way would be to simulate the effect of applying a bias voltage to the tunable element in the planar reconfigurable element.