Representative lens antenna design examples are described in detail, with emphasis on. To have a better understanding of the lens antenna, the working principle of a lens has to be known. Lens antenna article about lens antenna by the free. Lenses are made from materials such as glass or plastic, and are ground and polished or molded to a desired shape. The antennas commonly used for lmrboth at base stations and mobile unitsrepresent only a very small portion of all the antenna types. The total length of the antenna horn and lens is 78 mm. Lens antenna basics and typesdielectric,metal plate lens. The frequency range of usage of lens antenna starts at mhz but its use is greater at 3000 mhz and above. The lens and reflector are used as collimating elements in a highgain antenna system.
For many applications, there are inherent limitations that are associated with the use of these legacy antennaspayloads. Satellite antenna an overview sciencedirect topics. In most cases the target radiation pattern continues to be the collimated beam type plane wave output either fixed or scanning. Spherical lens antennas are attractive antennas for such moving vehicles as each pencilbeam, originating from one feed antenna, can be scanned by moving the feed around the surface of the lens. This page covers different types of antennas used in wireless communication. This antenna is typically a lowgain type such as a halfwave dipole or a small waveguide horn. High directivity is the main advantage of the parabolic. A parabola antenna is an antenna that uses a parabolic reflector, a curved surface with cross sectional shape of a parabola to direct the radio waves.
In general, the types having n 1 are nondispersive. The conducting type of lens is illustrated in figure 110, view a. Beamwidth is normally measured at the halfpower or 3 db point of the main lobe unless otherwis e specified. Ec 308 awp ch10 lens antenna free download as powerpoint presentation. The design of square loop antenna is exactly same as for the folded dipole antenna except the distance between the two conducting wires of the. In more complex designs, such as the cassegrain antenna, a subreflector is used to direct the energy into the parabolic reflector from a feed antenna located away from the primary focal point. Antenna and wave propagation pdf notes book starts with the topics covering antenna basics, thin linear wire antennas, antenna arrays.
Along the uniform part of the line energy is guided as plane tem wave with little loss. Antenna is described by the curve if want to scale frequency operation by 1k need new surface relaxed criterion. Both types of antenna arrays were explained in neets, module 10, introduction to wave propagation, transmission lines, and antennas. Design and analysis of several kinds of dielectric lens antennas.
The element types determine the array gain that we can achieve. An isotropic antenna isotropic radiator is a hypothetical antenna that radiates equal signal power in all directions. Other lens types were not taken into consideration. Lens target output can range from a simple collimated beam increasing the feed directivity to more complex multiobjective specifications. Equations explaining lens geometry in the 1st scenario are. L e n sa n t e n n a 2 types in this type of lens antenna, spherical. A lens is a transmissive optical device that focuses or disperses a light beam by means of refraction. The lens integrated antennas have been previously investigated by various researchers as 5. When the feed point is moved to the shortcircuited end of the slot or inf antenna, the impedance decreases. A yagi antenna uses several elements to form a directional array. A normal glass lens works on the principle of refraction. A convenient figure of merit proportional to the signaltonoise ratio received by the antenna is the value of gt, in which g is the antenna gain and t is the receiving system noise temperature in degrees kelvin. In most cases, the target radiation pattern continues to be the collimated beam type plane wave output, either fixed or scanning. Elliptic and hyperbolic dielectric lens antennas in mmwaves.
No real antenna can have an isotropic radiation pattern, but the isotropic radiation pattern serves as reference for comparing the radiation. A new singlelayer metamaterial lens antenna aimed to operate at 10 ghz is proposed in this paper. The integrated antenna consists of a planar spiral antenna mounted on the flat surface of an extended hemispherical lens. The theory of characteristic modes is used to analyze the metamaterial lens, in order to provide an insight into the. Two different lens configurations are studied, one based on a dielectric slab waveguide and another based on a parallel plate waveguide. Reflector types related features, illustrative problems unitvi objective study of lens antennas, horn antennas, and measurement of important antenna parameters. Analysis and design of a metamaterial lens antenna using. For frequencies above k uband the penalty in weight and size associated with a lens is relatively small. The parabolic reflector antennas previously discussed and the antenna shown in figure 3 are examples of parasitic arrays. Our purpose is to optimize the performance of the lens antenna so as it has low side lob level, insertion loss and thin thickness. Types of antennas isotropic antenna idealized oradiates power equally in all directions dipole antennas ohalfwave dipole antenna or hertz antenna oquarterwave vertical antenna or marconi antenna parabolic reflective antenna oused for terrestrial microwave and satellite applications olarger the diameter, the more tightly directional is the.
The lens of an antenna is substantially transparent to microwave energy that passes through it. Yagiuda antenna, micro strip patch array, aperture array, slotted wave guide array used for. The basics and types of antennas include horn antenna,parabolic antenna,helical antenna,slot antenna,dielectric antenna,patch antenna,phased array antenna,dipole antenna,directional antenna,folded dipole antenna,ground plane antenna,yagi antenna,log periodic antenna etc. Various types of antenna with respect to their applications. Lens antenna 32825 lens antenna may be divided into two distinct types delay lenses,in which the electrical path length is increased by the lens medium fast lenses,in which the electrical path length is decreased by the lens medium dielectric lenses and hplane metalplate lenses are of the delay type. Here you can download the free lecture notes of antenna and wave propagation notes pdf awp notes pdf materials with multiple file links to download. It was invented by shintaro uda and his colleague, hidetsugu yagi, in 1926. If an antenna is able to extract a certain amount of power from a passing wave of known power density, an effective area or aperture can be calculated and associated with it. The planar antenna used is an equiangular logarithmic spiral, which comprises 1.
Likewise, if a linear wire antenna develops a certain. Phased arrayfed reflector pafr antenna architectures. Syallabus lens antennas introduction, geometry of nonmetallic dielectric lenses, zoning, tolerances, applications. It is these side lobes that can cause interference with adjacent pointtopoint links, and it is theses side lobes that must be minimized through.
Antenna types antennas can be classified in several ways. Analysis of spherical lens antennas comparison of three. Possible candidates are the waveguide, ridge waveguide, helix, and slot array. A simple lens consists of a single piece of transparent material, while a compound lens consists of several simple lenses elements, usually arranged along a common axis. The recent advent of millimeterwave technology and the increasing demand for higher frequencies have stimulated a renewed interest in the design of lens antennas for radar and communication systems.
Both analyzed types of lenses elliptic and hyperbolic proved to have specific advantages and drawbacks that are going to be detailed in the following text. It will, however, cause the waves of energy to be either converged or diverged as they exit the lens. Here the transmission line is connected to source or generator at one end. It is a mathematical model that is used as the base of comparison to calculate the directionality or gain of real antennas. Antennas and propagation slide 29 chapter 4 spiral antennas general conditions for frequency independence consider geometry in spherical coordinates input terminals infinitely close to origin at. Pdf antenna and wave propagation notes pdf awp notes sw. Lens antenna is a microwave antenna in which a dielectric lens is.
Others include physical structure and electricalelectromagnetic design. The slot antenna can be considered as a loaded version of the inf antenna. Lens antenna is used along with point source, but practically horn antennas are used at focal point. Lens antenna basics and typesdielectric,metal plate lens antenna. The lens antenna consists of twelve capacitively coupled unit cells distributed along a ring and illuminated by an openended circular waveguide with a metallic resonant ring. This chapter presents the integrated lens antenna ila technology as it evolved since its introduction aiming to respond to the needs of emerging applications such as highdatarate communication. A basic standard lens which sees the way our eyes see is different for different formats. As shown spherical wavefront produced by primary feed antenna is. Dielectric lens antenna metal plate lens antenna dielectric lens antenna. The loop antenna shown in the below diagram is designed from a conducting wire in the given shape. A commonly used directional antenna is the yagiuda array, usually just called a yagi. Antenna systems 4 microwave antenna systems minimizing interference by antenna design the radiated power of a microwave antenna apart the main beam at 0 deg is significant up to 90 deg from the main beam.
The lens and the antenna array, as a whole, are referred to as the n element lens antenna. Such a shaped dielectric lens can be more economical to produce in small to mediumscale production runs than other antenna types where certain niche. Types of antennas antenna types in wireless communication. A single driven element, typically a dipole, propagates rf energy. In figure 1, bw n is the azimuth beamwidth an d bw 2 is the elevation beamwidth. Variations of these factors in lenses should determine the type and quality of lens and pictures you get. The antenna equations which follow relate to figure 1 as a typical antenna.
514 1044 356 841 30 548 465 779 655 646 1016 964 429 226 623 1281 1462 1322 1341 176 1165 1458 480 341 780 494 1017 677 1300 39 1430 1016 659 929 859 96 1089 262 1280 1309 275