parabolic antenna

Resonant Antennas

• Antennas that have dimensions near to a half-wavelength or any of its multiples.

• The impedance and bandwidth vary significantly with small changes in the operating frequency; the impedance vary from negative reactance, thru pure resistance to positive reactance as the frequency changes from below to above resonance.

• Characteristics of the antenna are strongly frequency dependent.

Non-resonant antennas

• The radiation pattern and the input impedance are not so variable with frequency.

• Referred to as broadband antennas

Microwave Antennas or Antennas with Parabolic Reflector

Terrestrial Microwave Antennas for Point-To-Point Communication

• Terrestrial microwave antennas generate a beam of RF signal to communicate between two locations.

• Point-To-Point communication depends upon a clear line of sight between two microwave antennas.

• Obstructions, such as buildings, trees or terrain interfere with the signal.

• Depending upon the location, usage and frequency, different types can be utilized.

Because a line of sight radio link is made, the radio frequencies used occupy only a narrow path between stations (with the exception of a certain radius of each station).

Antennas used must have a high directive effect; these antennas are installed in elevated locations such as large radio towers.

Parabolic Reflector Antenna

• Structure – parabolic reflector and the feed mechanism

• The feed mechanism– house the primary antenna(dipole/dipole array) which

radiates EM waves toward the reflector

• The reflector– reflects the energy into a concentrated, highly directional

emission eave

Features of a parabolic antenna

• Extreme high gain and directivity – used in μ-wave and satellite link

• Beam width (Θ ) Θ = 70λ/D

where λ = wavelength D = antenna mouth diameter Θ = beam width of half power point ( degrees )

Front to Back Ratio (F/B)

Radiation Pattern Envelope

Cross-Polar Discrimination (XPD)

Return Loss (VSWR)

Interport Isolation (IPI)

Electrical Performance Parameters

Ga (dBi) = 10 log10 h [ 4 p Aa / l2 ]

Where:

Ga = Antenna Directive Gain (Catalog spec)

h = Aperture Efficiency (50-55%)

Aa = Antenna Aperture Area

l = Wavelength (speed of light / frequency)

Parabolic Antenna Gain

Power gain of Parabolic Antenna

• Power gain for a transmit parabolic antenna (Pgain)

Pgain = η(πD/λ)2

where Pgain= power gain referring to isotropic antenna

D = mouth diameter of parabolic reflector(meters)

λ = wavelength(meters)

η = antenna efficiency (typical 55%)

• Power gain in terms of dBi (assume η = 55%)

Pgain (db) = 20 log f(MHz) + 20 log D(m) + 42.2

Illustrated Example

• A 2-m diameter parabolic reflector with 5W of power radiated by the feed mechanism operating at 5GHz with transmit efficiency of 55%

• Beam Width Θ Θ = 70λ/D = 70(3 x 108)/[(5 x 109)(2)] = 2.1o

note how narrow the beam is !

• Transmit power gainPgain(dB) = 20 log 5000 + 20 log 2 + 42.2 = 37.78 dBi

Typical ParabolicAntenna Gain in dBi

Antenna Diameter

2 ft(0.6m)

4 ft(1.2m)

6 ft(1.8m)

8 ft(2.4m)

10 ft(3.0m)

12 ft(3.7m)

15 ft(4.5m)

2 GHz 19.5 25.5 29.1 31.6 33.5 35.1 37

4 GHz 25.5 31.6 35.1 37.6 39.5 41.1 43.1

6 GHz 29.1 35.1 38.6 41.1 43.1 44.6 46.6

8 GHz 31.6 37.6 41.1 43.6 45.5 47.1 49.1

11 GHz 34.3 40.4 43.9 46.4 48.3 49.9 51.8

15 GHz 37 43.1 46.6 49.1 51 52.6 N A

18 GHz 38.6 44.6 48.2 50.7 N A N A N A

22 GHz 40.4 46.4 49.9 N A N A N A N A

38 GHz 45.1 51.1 N A N A N A N A N A

Radiation Pattern Concept

Antenna Under Test

Source Antenna

Antenna Test Range

Radiation Pattern(a) Polar plot (b) Rectangular plot

Radiation Patternabout Bore sight

Cut Through Radiation Pattern at Boresight

Front-to-Back Ratio

• Ratio of the signal level at beam peak to that directed behind the antenna

• Considered in intra-system interference calculation (hop overreach)

• Expressed in dB

Co-Polarization and Cross-Polarization

• Co-Polarization– Where Transmit & Receive Antennas have

the Same Polarization– Either Horizontal or Vertical (HH or VV)– In your System, The Wanted Signal

Co-polarized antenna pattern

Azimuth AngleR

X-polarized patttern

• Cross-Polarization– Where Transmit & Receive Antennas

have Different Polarizations

– Either HV or VH.

– In your System, The Unwanted Signal

Inter-port Isolation (IPI)

• Leakage of Signal Between Antenna Ports

• Internal Noise

• Expressed in dBTowards Reflector

Transmit Signal

Leakage Signal

Feed Horn

Voltage Standing Wave Ratio (VSWR)

• VSWR : 1.30 Reflection Coefficient : 13% (0.13)• VSWR : 1.20 Reflection Coefficient : 9.1% (0.091)• VSWR : 1.10 Reflection Coefficient : 4.7% (0.047)• VSWR : 1.08 Reflection Coefficient : 3.8% (0.038)• VSWR : 1.06 Reflection Coefficient : 2.9% (0.029)

VSWR = 1 + (Reflection Coefficient) 1 - (Reflection Coefficient)

Reflected Signal

Incident Signal

Return Loss The Amount of Energy Lost due to Reflected (Returned) Signal

• RL : 17.8dB Reflection : 13% (0.13) VSWR : 1.30• RL : 20.8dB Reflection : 9.1% (0.091) VSWR : 1.20• RL : 26.7dB Reflection : 4.7% (0.047) VSWR : 1.10• RL : 28.4dB Reflection : 3.8% (0.038) VSWR : 1.08• RL : 30.7dB Reflection : 2.9% (0.029) VSWR : 1.06

RL = -20 x log (Reflection Coefficient)

Basic Antenna Types

Standard Parabolic Antenna

Shielded Antenna

GRIDPAK® Antenna

Focal Plane Antenna

GRIDPAK® Antenna

• Grid Reflector

• Low Wind load

• Single Polarized

• Below 2.7GHz

• Shipped in Flat, Lightweight Package

• Basic Antenna

• Comprised of

– Reflector

– Feed Assembly

– Mount

Focal Plane Antenna

• Deeper Reflector

• Edge Geometry

• Improved F/B Ratio

• Slightly Lower Gain

Shielded Antenna

• Absorber-Lined Shield

• Improved Feed System

• Planar Radome

• Improved RPE

Antenna Efficiency

Well-designed antennas have efficiency ratings of 45 - 65%

Efficiency Factor Affected By :

• Feed Illumination

• Aperture Blockage

• Reflector Surface Tolerance

Efficiency can never be 100%

f/D = 0.250

Antenna f/D Ratio

f/D = 0.333

Standard & Shielded Antennas

Focal Plane Antennas

Unwanted Signals

Scattering

Diffraction

Spillover

Front to Back Ratio

Direction of Signal

Shielded Antenna

Focal Plane Antenna

Parabolic Reflector Beamwidth

0.3 m 0.6 m 1.2 m 1.8 m 2.4 m 3 m 3.7 m 4.5 m

2 GHz 35 17.5 8.75 5.83 4.38 3.5 2.84 2.33

6 GHz 11.67 5.83 2.92 1.94 1.46 1.17 0.95 0.78

8 GHz 8.75 4.38 2.19 1.46 1 0.88 0.71 0.58

11 GHz 6.36 3.18 1.59 1 0.8 0.64 0.52 0.42

14 GHz 5 2.5 1.25 0.83 0.63 0.5 0.41 0.33

18 GHz 3.89 1.94 0.97 0.65 0.49 0.39 0.32 0.26

23 GHz 3 1.52 0.76 0.51 0.38 0.3 0.25 0.2

38 GHz 1.84 0.92 0.46 0.31 0.23 0.18 0.15 0.12

Beamwidth in Degrees

Diameter

0 10 15 205 4060 80 100 120 140 160 180

Azimuth - Degrees from Main Lobe

Radiation Pattern Envelope

Radomes

• Reduce Windloading on Tower

• Protection Against Ice, Snow and Dirt

Parabolic dish

antennas

Parabolic dish antenna with Cassegrain feed

Penzias&Wilson

New Jersey - Bell Laboratories

antennas

parabolic antenna

Documents

Transcript of parabolic antenna

Dual-Circularly Polarized Parabolic Reflector Antenna with ...ap-s.ei.tuat.ac.jp/isapx/2016/pdf/3F2-1.pdf · Cross-pol Antenna gain (dBi) BO.1213 LHCP antenna Fig. 5. Measured radiation

Micropilot M FMR250 - Endress+Hauser · PDF filepulsed energy of 1 mW ... Standard installation FMR250 with parabolic antenna ... • Antenna alignment: refer to BA284F/00/EN

3. Standard Parabolic Antennas - High Gain Antenna | High Gain Antenna Products Guide 3. Standard Parabolic Antennas RADIATION PATTERN ENVELOPE ANTENNA TYPE NUMBER HGS-84-8D 2.4M ANTENNA

RFS Microwave Antenna Systems · RFS MICROWAVE ANTENNA SYSTEMS Solid parabolic antennas RFS’ advanced solid parabolic antenna range incorporates multiple antenna sizes (1 to 15ft),

Tuning a Dual-Band Bow-tie Slot Antenna with Parabolic ...braaten/EUCAP_2012_Bowtie_presentation.pdfTuning a Dual-Band Bow-tie Slot Antenna with Parabolic Radiating Slots for the 900

Parabolic Dish Antennas. An Antenna is : An An effective interface between the radio and free space: Radio Antenna Free space a For Terrestrial Communications,

FLAT PARABOLIC SURFACE FLAPS™ Antenna Technology · Page 1 of 15 FLAPS White Paper February 18, 2010 FLAT PARABOLIC SURFACE FLAPS™ Antenna Technology Abstract A FLAPS™ reflector

THE CALIBRATION OF A PARABOLIC ANTENNA WITH THE AID OF CLOSE-RANGE PHOTOGRAMMETRY … · 2011-11-15 · THE CALffiRATION OF A PARABOLIC ANTENNA WITH THE AID OF CLOSE-RANGE PHOTOGRAMMETRY

Parabolic 2017 - MARS Antennas · 27.5 – 31.3 GHz Parabolic Dish Antenna, 1 ft. MARS NEW MA-WP29-38 is a millimeter wave, high performance and high efficiency parabolic dish antenna.

web.mit.eduweb.mit.edu/deweck/www/PDF_archive/3 Refereed... · Parabolic Mesh Antenna Thermocouple Si nal Conditioner 80S2-u controller Fig. 5: Testbed for parabolic antenna reflector

Reflector Antennas - BU Engineering/833...Parabolic reflector antenna • A parabolic antenna is antenna that uses a parabolic reflector, a curved surface with the cross-sectional

Parabolic Torus Reflector Antenna - WIPL-D · Parabolic Torus Reflector Antenna Introduction: About WIPL-D WIPL-D Pro is a well-established full wave 3D EM solver based on state-of-the-art

Design and Analysis of parabolic reflector antenna

Cylindrical-parabolic reflector with printed antenna ... papers/MIDEM_43(2013)2p97.pdf · Electronic Components and Materials Vol. 43, No. 2(2013), 97 – 102 Cylindrical-parabolic

Parabolic Antenna Alignment Procedure

UHF Parabolic Antennas - MEGA HERTZ - MHz - … Antenna/UHF...UHF Parabolic Antennas D-1338-BB, PB-61-BB, PB-81-BB, PB-82-BB Description Our series of UHF parabolic receive antennas

Glossary of Satellite Terms - Alaska Communications...Parabolic Antenna—An antenna that uses a parabolic reflector, which is a curved surface with a cross-sectional shape of a parabola,

POLARIMETRIC SAR ANTENNA CHARACTERIZATIONa compact antenna test range at Lincoln Laboratory. This range uses a parabolic reflector and instrumentation from Scientific-Atlanta. A block

31461504 Parabolic Antenna

Ø1.2 meter PARABOLIC DISH ANTENNA · • Antenna installation should be performed by certified personnel only. • Do not install the antenna at a wind speed of 20 km/h or more.