【英文視頻】CST天線仿真01-天線概覽

00:00 天線設(shè)計(jì)流程

04:20 仿真技術(shù) CST Studio Suite

08:20 天線仿真 （Antenna Magus, MIMO, array, mmWave, radome)

21:20 SAM裝配流程demo

24:30 3D體驗(yàn)平臺(tái)之天線安裝

28:30 安規(guī)認(rèn)證 （SAR，PD）

38:05 多物理考量

注：字幕為機(jī)譯，未經(jīng)人工專業(yè)校對(duì)，內(nèi)容以原音為準(zhǔn)。

This video is to introduce you – briefly –  to the wide range of applications we deal with in antenna engineering, and to show how simulation is a fundamentally important tool that supports the whole antenna development process, from initial concept to certification for release to market.

Understanding the effect of the antennain its environment, as part of a device, is essential if we want to design “good” antennas. Simply coming up with a patch or PIFA or horn design does not get you to your goal, of as efficiently as possible converting guided energy to radiating energy. You have to design for the context of the antenna.

With our tools we have a comprehensive set of solutions for various aspects of network design in an industrial environment. We are dealing with large complex dynamic scenarios, but also need to consider the details to make sure we’re getting relevant results. This is a substantially multi-scale problem, which is why therange of solvers we have – T, F, I, A – gives engineers options at all stagesof the design and analysis process.

And of course engineers dont work inisolation. We are given specifications, we have product and factory designers providing  us with physical products and environments into which we have to integrate communications infrastructure. We have to communicate our results, as quickly and effectively as possible. And thus using simulation inthe context of the 3DEXPERIENCE platform provides great potential for doing our job more effectively.

Thanks, and enjoy a series of antenna talks!