Antenna Design Principles for PCB Designers

Table Of Content

• Former Companion site to IEEE Antenna and Propagation Magazine column
• Best Buy Essentials Ultra-Thin Amplified Indoor HDTV Antenna
• The best TV antennas we tested
• Properties of Electromagnetic Radiation
• Analysis and design of a four-element superdirective compact dipole antenna array
• Understanding Simple DC Power Supply Circuits
• Monopole vs Dipole Antenna

The design of RFID reader antennas focuses on achieving a suitable read range and coverage area. These antennas can be designed as patch antennas, dipole antennas, or even as phased arrays to enhance performance in specific applications. When broad bandwidth is needed for a reactive or resistive antenna, LC filter matching should be used.

Former Companion site to IEEE Antenna and Propagation Magazine column

Meta-material inspired penta-band decagon fractal antenna for wireless applications - ScienceDirect.com

Meta-material inspired penta-band decagon fractal antenna for wireless applications.

Posted: Thu, 23 Nov 2023 16:48:01 GMT [source]

Antennas come in various shapes and designs, each suited for specific applications and performance requirements. Understanding the different types of antennas can help in selecting the appropriate design for a particular communication system. Antenna performance is influenced by several key parameters that determine their ability to transmit and receive signals. Understanding these parameters is crucial for designing antennas with optimal performance.

Best Buy Essentials Ultra-Thin Amplified Indoor HDTV Antenna

You can slap it on any smooth surface, like a window, without using tape or any other adhesive. Metamaterial antennas are engineered structures that exhibit unique electromagnetic properties not found in natural materials. Compact antenna structures, such as chip antennas or planar inverted-F antennas (PIFAs), are specifically designed to occupy minimal space while providing satisfactory performance. These antennas are commonly used in small wireless devices where size constraints are critical. Satellite communication relies on antennas capable of transmitting and receiving signals over vast distances, often between the Earth and satellites in space. This section explores the unique challenges and considerations involved in designing antennas for satellite communication systems.

The best TV antennas we tested

Transmission lines are very strongly resistive in their characteristic impedance, but antennas can have a reactive component in their input impedance. Therefore, an impedance matching method is needed; this can be implemented with a set of discrete components in a filter circuit, or using transmission line sections. RFID readers are devices that emit radio waves to communicate with RFID tags.

Properties of Electromagnetic Radiation

By adjusting the signals fed to each element, antenna arrays can create a focused beam in a particular direction or nulls in unwanted directions. It measures the ability of an antenna to direct or focus its energy in a particular direction. Higher gain antennas are capable of transmitting or receiving signals over longer distances or in specific directions.

The numbers printed above are the best results with or without amplification. They usually look like fins, arrows, or tubes, and require you to point them directly at a station's broadcast center. They offer a much greater range than multidirectional antennas and thus let you tune into more distant stations. Almost all indoor antennas are multidirectional, and many outdoor antennas are as well. They’re easy to set up and don’t require you to know the exact location of each station. The Mohu Leaf 50 might look unassuming as a flat, indoor multidirectional antenna, but its USB-powered amplifier adds 15dB of signal strength, giving it a range of over 60 miles.

ANIMATE – a new frontier in antenna design - School of Electronic Engineering and Computer Science - QMUL

ANIMATE – a new frontier in antenna design - School of Electronic Engineering and Computer Science.

Posted: Fri, 08 Mar 2024 09:40:17 GMT [source]

During the antenna topology/structure selection process, consider packaging constraints in terms of the size, location and possible obstructions. The antenna is swept through a series of conical cuts in an effort to compare them to simulated results or to build a set of cuts to assemble into a 3D gain pattern. The absolute received signal is normalized either by the conducted power applied to the antenna or compared to a known reference such as a half-wave dipole. Since most antenna patterns are not necessarily omni-directional, the description of antenna gain is fairly complex.

Gain

Anything better than 50% to 60% is usually good, but always seek to improve it if you can. The radiation beam width is very narrow, which can help minimize interference from other stations nearby. If you buy a model with a short, captive lead be aware that you may need to buy a male-female extension lead, and more coaxial cable, to get it to reach your equipment. Maybe you don't have a window or an out-of-the-way wall you can stick an antenna on, and if so the Mohu Gateway can help. This tabletop antenna was neck and neck with its Leaf stablemate on both reception quality and price. What clinched it for us was that the Leaf was better suited for window placement, and with its integrated stand, the Gateway was understandably too awkward to be attached to a window.

Similar results can be calculated for a printed antenna on a PCB suspended above a GND plane. For example, if the largest dimension of the antenna is a half of a wavelength, the minimum clearance zone is a half-wavelength. This serves as a basic guideline, however in many physical realizations, this clearance zone is compromised and the effects must be determined through simulation or empirical measurement.

The maximum signal intensity of an antenna at a specified AZ/EL angle, typically at boresight, with respect to (usually) an isotropic radiator, expressed as dBi (decibels from isotropic). Gain is equal to directivity times efficiency, or directivity plus efficiency when expressed as dB. The advent of 5G technology has brought new challenges and opportunities for antenna design. Antennas for 5G networks must support a wide range of frequencies, including both sub-6 GHz and mmWave bands. Advanced beamforming techniques and massive MIMO antennas are being employed to achieve high data rates, low latency, and reliable connectivity in 5G networks.

Beamforming is a signal processing technique used in conjunction with antenna arrays to shape and steer the radiation pattern. Beamforming enables better signal reception and transmission, especially in scenarios with interference or fading. They consist of a conductive wire or metal rod that acts as an element for transmitting or receiving electromagnetic waves.

Another basic antenna relationship shows the Fraunhofer or Rayleigh distance, d, at which the near/far-field transition zone exists. Ideally, there should be a free-space clearance zone around the antenna of at least d. The largest dimension of the antenna, D, and the operating wavelength determine this distance [3]. Printed antennas, fabricated using PCB technology, offer significant advantages in terms of miniaturization. By printing the antenna on a compact PCB, it can be integrated into the device’s circuitry, reducing the overall size. Techniques such as meandered lines, fractal designs, and compact resonators can further enhance miniaturization while maintaining performance.

The built-in signal integrity tools can help users build and place their antennas within their assemblies and evaluate feedline designs. In fact, the multipole expansion technique is used in electromagnetics to approximate arbitrary systems of charges and currents as dipoles, tripoles, quadrapoles, etc.; the same idea applies to antennas. Ideally, antenna patterns are displayed as 3D plots (an example is shown to accompany the case study in Figure 6). The plot is often constructed from multiple cross sections known as conical cuts.