What is a benefit of 5g mmwave technology?

In this article we will answer the question What is a benefit of 5g mmwave technology? We will build the answer step by step. The outline of this article is as follows:

What is MmWave technology?

MmWave technology is what allows the bracelet to communicate with a smartphone.

It is a non-contact radar, remote sensing and telecommunications technology.

The device’s purpose is to detect objects, measure their range, and provide the angle and speed of these objects.

What is a benefit of 5g mmwave technology?

According to 2020 estimates, « 5G » telecommunications networks will use a central technology called mmWave. This describes the transmission of data between 24 and 40 GHz2.

MmWave technology brings good accuracy, the ability to penetrate materials and smaller antennas. It deliver extreme capacity, ultra-low latency and ultra-high throughput

Certainly, the spectrum of this wireless technology extends from 30 GHz to 300 GHz.

Shorter wavelengths of light are considered this.

Also, ISM bands are typically reserved for short-term RF communications.

However, engineers can utilize millimeter wave sensors with a wide range of applications. One of these is the IWR6x sensors, which have a wide bandwidth of 4 GHz. This allows them to detect objects and movements with 16 times the accuracy of normal sensors.

What is a benefit of 5g mmwave technology?

The 60 GHz mmWave sensors are also highly accurate16 times more than traditional narrowband 24 GHz sensors. Consequently, this means that they can be used in a variety of robotics, manufacturing and construction automation applications.

Conclusion – What is a benefit of 5g mmwave technology?

Millimeter waves are also known as Radio waves in the EHF band. They have a range between ten and one millimeter, or 0.01mm to be exact. Millimeter waves are also commonly abbreviated as MMW, and are also called the millimeter band.

We have seen together in this article the advantages of this mmWave technology. Very interesting to know also I invite you to consult the wikipedia page here:https://en.wikipedia.org/wiki/Extremely_high_frequency

Laisser un commentaire

Votre adresse e-mail ne sera pas publiée. Les champs obligatoires sont indiqués avec *