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Maximizing Signal Strength: An Introduction to High-Gain Antennas

Radio wireless technology with electromagnetic waves



In an increasingly connected industrial landscape, the demand for faster and more reliable network connectivity through wireless communication technologies are at an all-time high. As organizations strive for seamless wireless communication connectivity, the role of antennas, particularly high-gain antennas, becomes pivotal in link quality.



For many, however, the technicalities of high-gain antennas can seem like a complex web of jargon and specifications. In this blog, we unravel the complexities and shed light on the often-overlooked world of high-gain antennas. By the end, you'll not only have a clearer understanding of whether a high-gain antenna is right for your business or wireless networking equipment, for example, but also what criteria to consider when selecting the correct model to help enable you build a better wireless access network.

How do Antennas Work in Wireless Communication?


Radio waves are used by wireless devices to communicate with the internet and one another. Data packets from the sending wireless network device are converted from electrical impulses into radio waves which are broadcast by a transmitting antenna in frequencies typically in the 2.4, 5, and 6 GHz bands. On the receiving end, an antenna transforms the broadcast radio waves back into electrical signals which the receiving wireless device processes and translates into text, sound, or graphics. Both receiving and transmitting antennas are found in wireless networking devices such as laptops, smartphones, tablets, and wireless routers.



What is a High-Gain Antenna?


A high-gain antenna (HGA) is a specialized kind of wireless antenna that boosts the strength of a radio signal by focusing it in one direction instead of propagating it 360° as with an omnidirectional antenna. Basically, as the gain goes up, the angle of signal radiation decreases. Long-distance point-to-point radio communication, and point-to-multipoint wireless data link applications must use HGA technology, although directional antennas may have other uses as well.



The degree to which an HGA can focus its wireless communication signals in a specific direction is indicated by a metric known as “decibels relative to isotropic” or simply, dBi. Often confused with dBm (decibel milliwatt) that indicates an antenna’s total output power, the dBi only refers to the antenna’s directional intensity. The higher the dBi, the narrower a beam is transmitted in the antenna’s intended direction. Conversely, low dBi antennas sacrifice long-distance communication capacity in favor of broad short-range transmission coverage by spreading signals across wider angles.



So, what dBi is right for you? In an office setting on a single floor without obstructions other than cubicles, a mid-range dBi of 2 to 5 is likely sufficient. In contrast, a point-to-point data link spanning several miles will require a dBi in a range of 20 to 30, if it has access to a clear line-of-sight with no obstacles. A large indoor space that requires spherical wireless coverage, such as an empty warehouse with open space and pallet racks, may find a 0 dBi works best. You may even leverage a negative dBi antenna to create a wireless internet “bubble” covering only a restaurant, coffee shop or other high-density small space.



Pros and Cons of High-Gain Antennas


HGAs demonstrate their value by directing radio waves in a narrow beam over a tight horizontal plane. By providing directional concentration of energy to radio receivers and transmit them, HGAs effectively reduce signal loss, minimize potential interference, and increase transmission distance.


Yet higher network performance comes with some drawbacks. For one, HGAs like Yagi and parabolic types may be bulky, making mounting them more difficult, and they feature a more complex design than standard antennas. Also, HGAs are typically more expensive. In addition, the narrowly focused beams open the potential for coverage gaps or dead zones, as well as vulnerability to a weakened signal when penetrating walls, floors or other physical obstructions. Signal drop-out will be frequent. Outdoors, for example, the narrow signal will be obstructed by hills, trees and other buildings in dense urban areas. Installing omni or lower-dBi antennas alongside your high-gain antennas should eliminate coverage gaps. You can also explore limited range devices simply adjusting the antenna’s direction while monitoring signal levels until finding the ideal orientation. Another solution is to mount your HGA as high as possible since height adds signal strength. An antenna mounted at 120-feet will broadcast a signal that is 8-10x stronger than if the same antenna was mounted at 35-feet.


Finally, it is critical to be informed about any local regulatory limitations on antenna gain. The maximum power that wireless antennas are permitted to have in certain locations and networks is limited to avoid interfering with other networks' cables or other devices.



What to Look for in Wireless Networks


There are multiple factors to consider when choosing the appropriate HGA system for your working environment, each type of antenna and system offering its own advantages and disadvantages. In general, these factors include overall system design, antenna size, beamwidth, gain (dBi), frequency, and connectors.



Design: The antenna and transmitter's structure and form are referred to as its design. Variations can impact both the antenna and transmitter device's functionality and signal quality and appearance.



Size: Gain and directivity of transmission of the antenna increase with its size. But greater size also translates into greater weight, volume, cost and expense.



Beamwidth: The beamwidth of an antenna is an important parameter because it determines the directionality and coverage area of the antenna. Antenna beamwidth and gain have an inverse relationship. The narrower an antenna’s beamwidth, the more concentrated the signal is in that direction and therefore the better suited it is for long-range wireless communication. Of course, a narrower beamwidth also means less coverage area. Beamwidth will help you plan coverage for a satellite television or radio, in given area while also determining whether nearby antennas will interfere with each other.



Gain: As we mentioned earlier, the higher the gain measured in dBi, for example, the stronger the signal in the direction the antenna is pointed at. As with beamwidth, for example, a higher gain also means less coverage area.



Frequency: The frequency ranges or range of frequencies that an antenna or device may receive, transmit or broadcast data on, is referred to as the frequency band. Your antenna must support the carrier’s or device’s frequency band, i.e., 2.4 GHz.



Connectors: HGAs receivers may use specialized antenna connectors such peripheral devices such as SMA, RP-SMA, or N-type to connect to devices. If you're considering an HGA receiver, ensure compatibility with the device's connector type.



Connect with Antaira Technologies

Don't hesitate to ask your regional Antaira representative for antenna recommendations that will help maximize your wireless equipment utilizing our wireless technologies. Antaira has several options in different frequencies and dBi ranges for customers looking for HGAs or omnidirectional antennas, all built ruggedly for outdoor and industrial environments. Our technical support team have real-life experience with all types of antennas and configurations, making them an informed source for the best recommendations. Give us a call today at (714) 671-9000 to speak to a live representative today about our communication technologies we have to offer.



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ANTAIRA TECHNOLOGIES, LLC.    |    7660 Dean Martin Dr., Suite 201, Las Vegas, NV 89139    |    TELEPHONE: +1-714-671-9000 (USA)    |    E-MAIL: INFO@ANTAIRA.COM
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ANTAIRA TECHNOLOGIES, LLC.
7660 Dean Martin Dr., Suite 201, Las Vegas, NV 89139
TELEPHONE: +1-714-671-9000 (USA)
E-MAIL: INFO@ANTAIRA.COM
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© 2022 PRIVACY POLICY