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      • Published 12 Jun 2023
      • Last Modified 29 Aug 2023
    • 6 min

    Guide to Antennas

    How do antennas work? And what are the different types? Find out everything you need to know about antennas right here.

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    Reviewed by Jay Proctor, Technical Support Team Leader (February 2023)

    Antennas are probably the simplest part of any form of radio reception or transmission device and yet are also its most vital – without them, there’s no way of intercepting or sending radio signals. Modern antennas crop up in all sorts of applications, and they are all optimised for specific frequency ranges, but the basic technology dates to the late nineteenth century.

    Back in the pioneering days, antennas were used to prove that electromagnetic waves existed, by one Heinrich Hertz, the German scientist whose name is now used as the unit of frequency in waves (1000 Hz is 1000 cycles per second). The generation of radio waves for practical use came in the late 1800s and early 1900s, thanks to Guglielmo Marconi. He experimented with different shapes and sizes of antennae and gradually moved them further from the transmitter, until in 1902 he managed to send a signal across the Atlantic from Cornwall to an antenna in Newfoundland, Canada.

    How Do Antennas Work?

    Antennas are essentially just electrical conductors that are connected to a transmitter or a receiver. By conductor, that just means a piece of metal, often copper or aluminium. In use, they can look like quite chunky pieces of plastic, but the plastic is there for three reasons: to support potentially very thin wire and keep it straight; to protect the wire from physical damage (bending and snapping) and to stop corrosion. Many antennas have no such coverage, such as telescopic radio aerials or TV aerials.

    Radio waves occupy the space in the electromagnetic spectrum with frequencies roughly between 10 kHz (10,000 Hz) and 100 GHz (100,000,000 Hz). For example, FM radio has a frequency range of 87.5 MHz to 108.0 MHz, while Wi-Fi is transmitted and received at 900 MHz, 2.4 GHz and 3.65 GHz.

    The job of the receiving antenna is to “listen” to the radio wave frequency that it has been calibrated to by the tuner, and the transmitting antenna sends out signals at the frequency it determines. That’s how there can be thousands of different radio, TV, Wi-Fi, Bluetooth, 4G and other radio signals flying through the air at any given time, but the radio only picks up one signal.

    Types of Antennas

    Different antennas are designed for a host of purposes. In general (but not necessarily), the closer an antenna must be to the source of the electromagnetic waves, the smaller it can be. It’s why a traditional TV aerial is more than a metre in length and sits on the top of a building where it can “see” the transmitter on a faraway hilltop, but an RFID antenna is tiny but can communicate with another device as long as they are almost touching. Let’s look at some of the various types.

    GPS Antenna

    GPS Antennas

    GPS works by receiving signals from an array of satellites orbiting the Earth. The satellites are perfectly synchronised with atomic clocks, and their positions are known at the moment of transmission, so if your GPS device can detect three separate signals, it can calculate exactly where you are on Earth, accurate to potentially fractions of a metre. In practice, you can usually detect between six and ten satellites, so these devices are remarkably precise.

    A GPS antenna built into a phone is useful for relatively precise geolocation, which is good enough for basic navigation, but for sub-metre precision, you need a specialist GPS antenna which sits away from the device. GPS antennas need to be portable (you don’t need to calculate the position of a static object), so smaller is better.

    Antenna for GSM

    Antennas for GSM

    GSM is the Global System for Mobile Communication, a standard developed in the 1990s for mobile phones and other connected devices. It harnessed second-generation (2G) cellular connectivity, which heralded the leap from analogue to digital connectivity. You can get external antennas to ensure you get a stronger GSM signal, whether that’s because you are in a remote location or in the urban jungle, where reception can still be poor, especially indoors.

    Multi-Band Antenna

    Multi-Band Antennas

    As the name suggests, multi-band antennas are designed to communicate over several bands, that is, multiple ranges of frequencies. A typical antenna is designed to operate over a single band, for example, FM radio, and while fine-tuning might be available to choose a channel, you might not be able to pick up Wi-Fi with it – at least not optimally. Multi-band antennas are made to allow communication over frequencies that exist within separate bands. They come in outdoor, dipole, beam and loop types.

    RFID Antenna

    RFID Antennas

    Radio-frequency identification (RFID) technology allows data to be taken from tiny tags, such as the one embedded in a credit card. The tag has no power source and relies on an RFID antenna transmitting a signal, which activates the tag enough to transmit an identifying signal back to the RFID antenna. It’s used in all sorts of applications, such as warehousing, contactless payments, timing athletes and gaining entry to buildings.

    SMT Antenna

    SMT Antennas

    Surface-mount technology (SMT) allows antennas to be connected directly to circuit boards on computers, phones and other devices, where they can transmit data. They tend to be very small and therefore have a limited range, so they work well with Wi-Fi and wireless headsets.

    Telemetry Antenna

    Telemetry Antennas

    Telemetry is the automatic transmission of data from a remote device to a receiving device, where the data can be used and interpreted. It’s common across industry as a way to gather data from machines, people, buildings, vehicles and so on that can be used to monitor performance and make decisions. The transmission and reception need to be precise, so it’s best to have custom transmission and reception antennas specifically designed for telemetry.

    Wi-Fi Antenna

    Wi-Fi Antennas

    We’re all familiar with Wi-Fi nowadays. But we also know that Wi-Fi isn’t always as reliable as it should be over the short distances it covers. That’s usually down to the quality, position or orientation of the Wi-Fi antennas on the router and/or the receiving device. Good quality, professional Wi-Fi antennas are designed to work at the relevant frequencies and offer superior connectivity in suboptimal building layouts and open spaces.

    A World of Antennas

    As you can see, antennas are much more than a little stick that pokes out of a radio. They’re precision manufactured to achieve optimum performance over specific (or multiple) bands, and although the technology is old, it is forever improving. If you know what kind of antenna you’re looking for, find the right radio antenna here.

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