How to switch from 10 GHz radar to 24 GHz radar
What do I have to consider if I no longer want to integrate 10GHz but 24GHz radar sensors in my product? We inform you about the change from X-Band to K-Band Radar.
What do I have to consider if I no longer want to integrate 10GHz but 24GHz radar sensors in my product? We inform you about the change from X-Band to K-Band Radar.
Do you know all these radar applications? We introduce you to 10 unknown or rare uses of radar sensors.
Radar measures the distance between an object and the radar antenna by emitting and receiving electromagnetic waves and thus determines the distance to a target. Find out more about the function and performance of the distance determination of radar sensors.
Radar devices are not only reliable, but the technology can also achieve very precise measurement results. How precise the measurement method is depends on various factors.
Sensor technology has established itself in a wide variety of application areas. But when do I choose which technology? This blog article draws a comparison between radar and other sensors that are often used in industry.
Advanced radar systems use MIMO technology. You can find out which advantages and improvements result from this here.
First steps and tips for building a radome for radar sensors.
Radar devices send impulses at a certain frequency. Everything you need to know about frequency, bandwidth and approval.
Radar separates and detects objects across different measurement dimensions. Read in this blog article what you need to know about the resolving power of radar sensors and systems.
What is the difference between a 10 GHz and 24 GHz radar? In the expert interview you will learn more about the advantages and disadvantages of the different frequency bands.