3D printing or additive manufacturing has been around since 1980s. At first, it was seen as a way for fast prototyping. In recent years, it has been increasingly popular
In our previous blog post, we talked about the importance of antenna design and testing. This time we are delving more deeply into antenna simulations: why are they at
New age for Industrial IoT Radar solutions as antenna design company Radientum and sensing company Metirionic partner in design services The major challenge of adapting microwave or millimeter
When designing mm-wave 5G device, engineers have to compline with specific limits and metrics according to industry standards and safety protocols. The two most important metrics in 5G mm-wave
Electromagnetic compatibility (EMC) usually is not the first thing in mind while working with mm-wave antennas. An engineer has a lot of challenges to solve within the antenna itself,
When designing and simulating periodical structures, like arrays, the engineer wants to have a reliable tool, that doesn’t require hours of setting up. Simulation time plays a significant role
Mm-waves have become a well-known and desired frequency band, thanks to 5G FR2 and RADAR applications. Antenna designers have learned how tricky antenna systems can be on those frequencies
In the beginning of August I gave a presentation on #EMC2021. Event lasted whole week and gathered a lot of 5G and mm-wave enthusiasts. I was talking about my
Nowadays almost every specification for 5G device states dual-polarization as a basic and mandatory feature. Dual-polarized antennas became a part of everyday work for most RF engineers, but mmWave
1. Introduction Fifth generation of mobile cellular networks (5G) is going to create a bridge to the future into the world of wireless technology due to the promising features
