EE302 Lesson 13: Antenna Fundamentals

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EE302 Lesson 13: Antenna Fundamentals Antennas An antenna is a device that provides a transition between guided electromagnetic waves in wires and electromagnetic waves in free space. 1

Reciprocity Antennas can usually handle this transition in both directions (transmitting and receiving EM waves). This property is called reciprocity. Antenna physical characteristics The antenna s size and shape largely determines the frequencies it can handle and how it radiates electromagnetic waves. 2

Antenna polarization The polarization of an antenna refers to the orientation of the electric field it produces. Polarization is important because the receiving antenna should have the same polarization as the transmitting antenna to maximize received power. Antenna polarization Horizontal Polarization Vertical Polarization Circular Polarization Electric and magnetic field rotate at the frequency of the transmitter Used when the orientation of the receiving antenna is unknown Will work for both vertical and horizontal antennas Right Hand Circular Polarization (RHCP) Left Hand Circular Polarization (LHCP) Both antennas must be the same orientation (RHCP or LHCP) 3

Wavelength ( ) You may recall from physics that wavelength ( ) and frequency (f ) of an electromagnetic wave in free space are related by the speed of light (c) c f or c f Therefore, if a radio station is broadcasting at a frequency of 100 MHz, the wavelength of its signal is given 8 c 3.0 10 m/s 3 m 6 f 100 10 cycle/s Wavelength and antennas The dimensions of an antenna are usually expressed in terms of wavelength ( ). Low frequencies imply long wavelengths, hence low frequency antennas are very large. High frequencies imply short wavelengths, hence high frequency antennas are usually small. 4

ANTENNAS As much an art as it is a science. Everyone s Dream Car 5

What to look for in Antennas Freq/Wavelength Beam Pattern Bandwidth Gain Basic Antenna An antenna can be a length of wire, a metal rod, or a piece of metal tubing. Antennas radiate most effectively when their length is directly related to the wavelength of the transmitted signal. Most antennas have a length that is some fraction of a wavelength. One-half and one-quarter wavelengths are most common. 6

Basic Antenna Let s start by looking at the radiation pattern of an isotropic point source. Power from an isotropic point source is equally distributed in all directions It is completely unfocused. Isotropic Point Source Radiation Pattern for Isotropic Point Source Antenna radiates equally in all directions Antenna only exists theoretically 7

Antenna gain (G) Because an antenna is a passive device, the power radiated can not be greater than the input power. The ability of an antenna to focus electro-magnetic energy is defined by its gain. Antenna gain is expressed as a ratio of the effective radiated output power (P out ) to the input power (P in ) The gain of an antenna is a measure of power transmitted relative to that transmitted by an isotropic source. Antenna gain relative to an isotropic source is expressed in decibels as dbi. Effective Radiated Power The effective radiated power (ERP or EIRP) is the gain of an antenna (with respect to an isotropic radiator) multiplied by its input power. ERP input power antenna gain For example, a highly directional antenna with a gain of 7 has an input power of 1-kW. Its ERP is therefore 7 kw. 8

Measuring Antenna Radiation Patterns Antenna is rotated in an Anechoic Chamber to measure radiation pattern Radiation pattern of any antenna Is the shape of the Electro-magnetic field radiated or Received by the antenna Dipole Antenna One of the most widely used antenna types is the half-wave dipole. The half-wave dipole, also called a doublet, is formally known as the Hertz antenna. A dipole antenna is two pieces of wire, rod, or tubing that are one-quarter wavelength long at the operating resonant frequency. 9

Electric and Magnetic Fields around a Transmission Line Use the right hand rule Electric and magnetic field lines around a conductor Between the conductor, magnetic field lines add. Beyond the conductor, the field lines cancel each other Converting a Transmission Line into an Antenna Inefficient radiation 10

Converting a Transmission Line into an Antenna Bending at right angles produces an efficient radiator Magnetic fields now support each other Optimum radiation occurs when the length is 1/2 of a wavelength The Dipole Antenna Fig. 14-10 11

Three-dimensional radiation pattern for a dipole. Vertically Mounted Dipole Antenna This pattern is a donut shape with the antenna passing thru the center. There is no radiation from the end of the antenna. Dipole Radiation Pattern Antenna Axis 12

Antenna Losses Radiation Loss Caused by radiation resistance Results in radiated RF energy Resistive Loss Results in heat due to resistance of conductor By Definition The dipole has an impedance of 73 Ω at its center, which is the radiation resistance. An antenna ideally appears as a resistor to the transmitter. This radiation resistance does not dissipate power in the form of heat; the power is dissipated as radiated electromagnetic energy. An antenna is a frequency-sensitive device, and a particular antenna can be operated over a range of frequencies (BW). At the resonant frequency, the antenna appears to be a pure resistance of 73 Ω Equivalent circuit of a dipole 13

Antenna gain (G) A dipole antenna gain is 1.64 10log 10(1.64) 2.15 dbi A half-wave dipole antenna has a power gain of 1.64 (or 2.15 db) over an isotropic source. Antenna gain relative to a dipole antenna can be expressed in decibels as dbd. Thus, an antenna with a gain of 3 dbd would have a gain of 5.15 dbi (3 db + 2.15 db) Actual Antenna Lengths A dipole resonates best when it is approx. 95% of the actual half-wavelength length Shortcut: L feet = 468/f MHz (This is in Feet) 1 ft =.3048 m Dipole hung vertically is closest to an isotropic radiator Bottom of dipole antenna should be at least ½ a wavelength off the ground May make total structure height unreasonable 14

Example How long would a dipole antenna be for AM 1100? Calculate using wavelength and shortcut Effect of Antenna Length on Radiation Pattern 1λ Dipole 1.5λ Dipole We will look at this more later. 15

Conical Antenna A common way to increase bandwidth is to use a version of the dipole antenna known as the conical antenna. The center radiation resistance of a conical antenna is much higher than the 73 Ω usually found when straight-wire or tubing conductors are used. The primary advantage of conical antennas is their tremendous bandwidth. They can maintain a constant impedance and gain over a 4:1 frequency range. Conical Antenna and Variation Conical (expensive) Bow-tie (flat) Two-dimensional cone, Equally effective grid, or flat plate Fig. 14-14 16

Antenna Beam Width Dipole is horizontally oriented Marconi or Ground-Plane Vertical Antenna The quarter-wavelength vertical antenna, also called a Marconi antenna is widely used. It is similar in operation to a vertically mounted dipole antenna. The Marconi antenna is half the length of a dipole antenna. Fig. 14-20a The earth acts as a type of electrical mirror, effectively providing the other quarter wavelength making it equivalent to a vertical dipole. 17

Figure 12 6 A Marconi antenna Tom Wheeler Electronic Communications for Technicians, 2e Copyright 2006 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved. Monopole Radiation Pattern Ground plane reflections lift pattern up Monopole showing effects of ground plane 18

Advantages Half the length of a dipole Can be located at earth level without degrading performance Has omni-directional radiation pattern similar to dipole Disadvantages Gain is slightly lower than a dipole (about 1 db less), but for our purposes we will consider them the same Antenna is extremely dependent on conductivity of the earth Using a counterpoise will improve conductivity 19

Counterpoise Sometimes connecting a monopole antenna to the ground is not feasible. Create a ground. Antennas mounted on buildings or towers Soil is highly resistive (dry) Counterpoise A counterpoise is a flat structure of wire or screen that forms an artificial reflecting surface for the monopole antenna if the actual earth cannot be used. 20

Counterpoise Counterpoise requirements Must be at least equal to or larger than the antenna. Should extend in equal distances from the antenna. Must be insulated from the ground. The performance of a quarterwave antenna (either wellgrounded or using a counterpoise) is essentially the same as a half-wave dipole antenna. Counterpoise 21

Adjusting Antenna Impedance Drooping radials is one way to adjust antenna impedance 22

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