Design of miniaturized ultra ppt
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DESIGN OF MINIATURIZED ULTRA-WIDEBAND CONICAL SPIRAL ANTENNA USING HFSS
Under Guidance of T Anusha LalithaAssistant Prof. TCE, BMSCE
BySandeep Kumar P 1BM11TE045Satish Kumar T V 1BM11TE048Sharath Chandran C K 1BM11TE406Santosh Patil 1BM12TE409
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Introduction• What is an ANTENNA ???
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Antenna CharacteristicsAn antenna is a device that is made to efficiently
radiate and receive radiated electromagnetic waves. There are several important antenna characteristics that should be considered when choosing an antenna for your application as follows: • Antenna radiation patterns• Power Gain• Directivity• Polarization
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Conical Spiral AntennasHigh data rate and wider bandwidth requirements for
data\video transfer and growth in number of users lead to increase operating frequencies of these systems to microwave and millimeter-wave frequencies.
Spiral antennas are one of frequency independent antennas with wide bandwidth and good pattern efficiency in compare with other antennas.
Desirable radiation characteristics can be achieved by changing circular radius r, number of turns N and the width of them W.
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Types of conical spiral antenna
Log Spiral Antenna
Archimedean Spiral Antenna
Sinuous Spiral Antenna
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Construction of Spiral Antenna
Creating First Arm
The second arm is constructed by Rotating the first arm by π radians
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Log Spiral Antenna Parameters
Wherero = inner radiusa = Ln( ExpansionRatio)/2pi
The pitch angle Ψ related to expansioncoefficient a bytan Ψ = r/(da/dΦ) = 1/athe design ratio τ is defined to be less than 1 and is given by
this is ratio of OA/OB of the figure and is the ratio of the radii for one turn of the log spiral curve.
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Conical Archimedean Antenna Parameters
The centerline of the antenna is defined by
ρ = aφ
The first arm, which begins along the x-axis in this example, is defined by the edges
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Conical Sinuous Antenna Parameters
where Φ and r are polar coordinatesp is cell number and τ is growth rate
the design parameters may be independent of p to form a LP structure that is periodic function of logarithm of radius r .
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HIGH FREQUENCY STRUCTURE
SIMULATOR
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HFSS….???Uses Finite Element Method to solve
Electromagnetic structureUsed for antenna design and design of complex
RF electronic circuit elements including filters, transmission lines, etc.
HFSS is essential for designing high-frequency and/or high-speed components used in modern electronics devices
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FeaturesPowerful drawing capabilities to simplify design
entryComputes s-parameters and 3D passive
structuresAdvanced materialsModel Library-including spiral inductorCalculate far-field patternsWideband fast frequency sweep Create parameterized cross section models- 2D
models
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HFSS Analysis Design Flowchart
Construct Geometry
(User Input)
Define Volume Conditions
(User Input)
Define Surface Conditions
(User Input)
2D Excitation Solution
(Automatic)
3D Mesh Generation
(AutomatIc)
Solve 3D Matrix
(Automatic)
View/Plot S-Parameters
(User Input)
View/Plot Fields
(User Input)
PRE-PROCESSING SOLUTION POST-PROCESSING
Define Solution Requirements
(User Input)
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Applications
AntennasMicrowave transitionsWaveguide componentsRF filtersThree-dimensional discontinuitiesPassive circuit elements
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RESULTS
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RETURN LOSS
LOG SPIRAL
ARCHIMEDEAN
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INPUT IMPEDENCE
LOG SPIRAL ARCHIMEDEAN
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Z PARAMETERS
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3D GAIN OF RHCP
LOG SPIRAL
ARCHIMEDEAN SINUOUS
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3D GAIN OF LHCP
LOG SPIRALARCHIMEDEAN SINUOUS
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2D GAIN OF RHCP
LOG SPIRAL
ARCHIMEDEAN
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SINUOUS SPIRAL
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2D GAIN IN LHCP
LOG SPIRAL
ARCHIMEDEAN
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SINUOUS
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Features of Conical Spiral Antenna• Conical spiral antennas are true frequency
independent antennas Cover the required 6.5 : 1 frequency range • Relatively constant beam characteristics
(beamwidth, polarization, ...) • Usefully wide beamwidth while maintaining
other desirable properties • Low ellipticity (axial ratio) • Good polarization purity (wide band) • Low mutual coupling in array
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In addition to the above performance requirements, the antenna would be versatile in the following ways:
• Inexpensive• High power levels (100 W) as sensor• CW and Pulse Applications• Use in confined spaces• Provides Circular Polarization
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Antenna characteristics with frequency
• Nearly constant beam pattern• Low back-lobe at all but lowest frequency• Relatively small, smooth impedance variation• Good axial ratio maintained• Spiral features
1. Low mutual coupling2. Polarisation purity3. Good isolation
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Applications
•Measurement of electromagnetic (EM) Shielding Effectiveness in confined spaces.• As facility-embedded EM sensors for
receive antennas.•Wideband communications.•Monitoring of the frequency spectrum.
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Applications(contd.)
• A pair of spiral antennas are used in this application, having identical parameters except the polarization, which is opposite (one is right-hand, the other left-hand oriented).• Spiral antennas are useful for microwave
direction-finding.
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CONCLUSION :
The main goal is to UWB conical log spiral antenna is to transmit data at very high data rates by sending pulses of energy rather than using a narrow band frequency carrier.
The main objective was to get information of the near- and far-field characteristics and on the input impedance for a wide range of parameters is presented in a form suitable for use in the design of practical antennas.