How to Choose the Best LTE Antenna

Buying the best LTE antenna for your mifi or router will be key to getting the fastest possible speeds. However, there are many different types of antenna out there and they all come at varying prices. One of the main differences will be whether the antenna has dual or single connections as this determines how many client devices can connect to it.

The first thing to consider is where you’ll be mounting your antenna. It’s important to place it in an area that isn’t obstructed by any buildings or other metal structures as this will affect how well the signal can be received. If the antenna is positioned too close to any of these objects then it’ll struggle to receive the signal and this will impact on the performance of your device.

When choosing the right location to mount your antenna it’s also important to keep in mind how close it will be to any nearby cell masts. This will also have a significant effect on the strength of the signal that it can pick up, so if you’re close to any masts you should try and avoid positioning your antenna too closely to it as this could cause performance issues.

Another factor to consider is how many radio streams your connection can support. This is determined by both the number of radio streams that your network provider can broadcast from their masts and the amount of streaming capacity that your device supports. Having a device that supports dual streams (which is more common in recent times) will allow you to stream twice as much data and get a faster overall speed.

Metamaterials are also making a big difference to the performance of LTE antenna as they are able to manipulate electromagnetic waves in new and exciting ways. This technology enables designers to create lenses and reflectors that can focus and steer electromagnetic signals, which in turn leads to an increase in the gain, directivity, and bandwidth of the antenna.

A symmetrically crossed-loop type antenna integrated inside a metal-rimmed smartphone with an extremely small ground clearance of 2 mm has been proposed, studied, and experimentally verified. The operation of the antenna is based on the use of even and odd modes to achieve wide operating bands in the 698-960 MHz low band, 1710-2170 MHz middle band, and 2230-2690 MHz high band. It is found that the antenna has excellent radiation patterns in the y-z and x-z planes at mid-band frequencies as well as good omnidirectionality at high-band frequencies.

The simulated and measured gains and efficiencies of the wideband antenna are shown in Figure 18. There is good agreement between the predicted and experimental results. It can be concluded that the proposed antenna has good efficiency in the entire band and its performance is comparable to other studies with much larger ground clearances. This result is a good sign that the metamaterial-based LTE antennas can be used in mobile communication devices.