e&m/communications applications
DESCRIPTION
E&M/Communications Applications. Aly E Fathy. Outline. The microwave band Non-communication applications Communication Applications Breakthroughs Various Areas of Research at UT and other Research Centers Courses. Frequency. Wavelength l. Long waves. 30-300 kHz. 10-1 km. - PowerPoint PPT PresentationTRANSCRIPT
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E&M/Communications Applications
Aly E Fathy
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Outline
• The microwave band
• Non-communication applications
• Communication Applications
• Breakthroughs
• Various Areas of Research at UT and other Research Centers
• Courses
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Microwaves
Long waves
30-300 kHz
10-1 km
Medium waves (MW)
300-3000 kHz
1000-100 m
Short waves (SW)
3-30 MHz
100-10 m
Very high frequency (VHF) waves
Microwaves
30-300 MHz 0.3-30 GHz*
10-1 m 100-1 cm
Millimeter waves
30-300 GHz
10-1 mm
Submillimeter waves
300-3000 GHz
1-0.1 mm
Frequency
Wavelength
Infrared (including far-infrared)
300-416,000 GHz
104-0.72 m
* 1 GHz = 1 gigahertz = 10 Hertz or cycles per second,+ 1 m = 10-6 m.
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Industrial Microwave Furnace
Waveguide
Mold Core
Mold
Inert Environment
Insulation
Crucible
Modular Unit
Non-Communication Application
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Attenuation of the Atmosphere at Various Wavelengths
204060
Free Space Communication
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Why Microwaves
Radio equipments are classified under VHF, UHF & Microwaves.
VHF and UHF radios used when few circuits are needed and narrow bandwidth.
Earlier equipments were large in size and use Analog Technology.
Recently Digital Radio with better efficiency is being used.
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A Century of Antennas-- from Hertz to Hand-Held
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Very large array of 27 steerable parabolic dish Antennas25 meter diameter, operating at ~ cm wavelengthTo listen to signals transmitted billions of year away
24 GPS Antennas, medium earth orbits-MEOOperating at 20 cm wavelengthUses helix antennas, at 20,000 km
Hand-held cell-phonesOperating at 30 cm wavelength
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Microwave Use• Lower bands are already occupied
• Now we have better electronics, and modulation schemes
Advantages of Microwave Utilization:
• Antennas are more directive—better beam control.
• Wider operating bandwidth.
• Smaller size elements
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Microwave Systems
Microwave communication is line of sight radio communicationFor directive antennas, or broadcasting with omi-directional antennas
Radio Transmission: the speech signals are converted to EMPower is transmitted in space towards destinationEM waves are intercepted by receiving antennas and signal power is collected
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Types of Antennas
Antennas used can be:• Omni-directional-in this case radio power is transmitted Uniformly in all directionsSuch type of antenna are preferred where uniform coverage is desired such as in cellular systems.
• Directional: in case of UHF communication.
• Highly directional: in case of microwave communications, microwave signals are transmitted in very narrow beam.
Normally 3 M Diameter Antenna at 2 GHz BW has half power of about 3.4 degrees beam width.
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Coverage
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Radio Communications
Radio Communication is in use since early 30’s.
First was used for broadcasting then commercial communication.
Radio used for long distance telephone service.
Many phone lines are connected to anExchange, and many exchanges to a tower
Applications:
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Cellular Communication
For providing cellular communication a number of antennas at a particular height are installed around a circular platform
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DBS Antennas
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DBS-History
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Current Solutions for US DBS
Reflector Antennas for Stationary Reception
Low Profile Reflector Antennas
Complete Mechanical Steering
Low Fabrication Cost. ~12 inch
CO
ST
Mobility
Broadside Patch Array Antennas
Complete Mechanical Steering
High Fabrication Cost. >12inch
Phased Array Antennas ~6inch
Proposed Solution
Complete Mechanical Steering with limited range (due to beam tilt)
SIW, Low Fabrication Cost
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Directivity
Efficiency
Research Progress
13 Elements Slotted Waveguide
13 x 6 elements Sub-Array
13 x 48 Elements Full
Array
12 Elements Slotted SIW Array
12x16 Elem
ents SIW
Sub-A
rray
12*64 Elements Slotted SIW Full Array
13x32 Elements SIW Array With Folded Feed Network
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Antennas for Mobile Systems
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Why Do we need Reconfigurable
Antennas?• Limited Space, and Volume
• Trend to further miniaturization
Difficulty to attain Directivity
G=4A/2, G = -18.5 dB/cm2 @1 GHz
(you add 3dB when you double the Area)
(you add 6 dB when you double the Frequency)
•Strong Antenna Interference due to Proximity
• More Services means more antennas
• Many are not used in same time.
Very Compact
TinyMulti-function
Does it all
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Antenna Alternatives for Multi-Radio Application
Radio 1
Radio 2
Radio 3
Radio n
Ant.
Gain
Frequency
Ant.
Gain
Frequency
Broad Band AntennaBroad Band Antenna
Ant.
Gain
Frequency
Multi-Band AntennaMulti-Band AntennaReconfigurable AntennaReconfigurable Antenna
• Covers all bands of interest, Good for sim-ops • Higher Noise , Non Uniformity in Ant. Gain
Multiple Radios
• Covers few bands of interest, OOB noise supp. • Poor iso. between radios, stringent filter spec.
• Very good noise immunity, high Flexibility
• Requires switches, Poor for true sim-ops
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Mini-Nested Patches
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Reconfigurable Multiband
1st Band GSM850/900
2nd BandDCS/PCS/IMT2000
1st Band 802.11b/g/n
2nd Band
802.11a
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Research Progress
“Maze” Reconfigurable Fractal Loop Antenna
MEMS
SwitchesDC
Feeds
RF blocking resistor
Switch Locations
50cm coaxial cable
42mm
11mm
Ground
90mm
10mm
p-i-n diodes
50cm coaxial cable
“mini-Maze” Reconfigurable Bent Monopole Antenna with MEMS switch
Reconfigurable Multi-band branched Monopole Antenna
Reconfigurable Multi-band Twin PIFA Antenna with PIN diode switch
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Power Amplifiers and Combiners
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THz- BACKGROUND
• The detection of concealed weapons and explosives represents one of the most daunting problems facing the military and civilian law enforcement personnel.
• The exposure and identification of biological and chemical weapons is
also a major homeland security concern.
• Terahertz (THz) imaging, by virtue of its ability to penetrate materials and its short wavelength (leading to high resolution), and THz spectroscopy, due to its capability to recognize unique signatures of dangerous biological and chemical agents, provide the most promising approach to address these problems.
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Homeland Security Applications
Potential Security Applications
Detection of hidden weapons and explosives
Detecting non-metallic weapons
Postal screening of envelopes for bacteria
Chem/bio detection
Security screening wand
Explosives
Stand-off detection
Postal screening
Envelope
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Terahertz Images Can Reveal Objects Concealed Under Cloth, Paper, Tape, Even Behind Walls
Objects Concealed Under clothes Knife Wrapped in Newspaper
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29
See Through Prototype System
Universal Automation Mechanism: Developed in MatlabUtilized GPIB bus and parallel port protocol
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Dental
Powerful Medical Imaging Capabilities of THz
Brain
White light image THz image
THz device and probe (TeraView)
Skin CancerNormal skin
Diseasedskin
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CONFORMAL ANTENNAS
…Fast Computations, New Materials…
• New Exotic Materials have been recently developed.• Stealth Technology and Many others can benefit
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E-Textiles
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Courses Offered at UT
Fields Antennas and Propagation
Microwave circuits EMC
Electromagnetic Fields I Electromagnetic Fields II
Phased Array Antennas I Phased Array Antennas II
Wireless Communications
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Holographic Antenna Features
• True re-configurable aperture, NOT simple switching.
• The surface wave provides relatively low loss RF distribution channels
• Phased array performance without phased array feed complexity or cost
• Highly compact package
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Conductive Fringe Pattern Far-Field Pattern
Conductive Region (Yellow) Non-Conductive Region (Blue)Radar Scanned
Aim Point
Radar Azimuth (deg): 015Radar Elevation (deg): 000
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Description of Scenario:
• Search Along Azimuth 0-30 Deg, 0 Deg Elevation • Array Turned ‘Off’ - Non-Conducting Surface• Search Along Azimuth 30 Deg to 0 Deg, 5 Deg
Elevation • Place Target Into Track, Then Lose Track• Switch to Wide Beam to Re-Acquire Target• Continue Target Track
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Radar Azimuth (deg): 000Radar Elevation (deg): 000
Mode: Search
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Radar Azimuth (deg): 005Radar Elevation (deg): 000
Mode: Search
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Radar Azimuth (deg): 010Radar Elevation (deg): 000
Mode: Search
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Radar Azimuth (deg): 015Radar Elevation (deg): 000
Mode: Search
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Radar Azimuth (deg): 020Radar Elevation (deg): 000
Mode: Search
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Radar Azimuth (deg): 025Radar Elevation (deg): 000
Mode: Search
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Radar Azimuth (deg): 030Radar Elevation (deg): 000
Mode: Search
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Radar Azimuth (deg): 000Radar Elevation (deg): 000
Mode: OFF
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Radar Azimuth (deg): 000Radar Elevation (deg): 000
Mode: OFF
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Radar Azimuth (deg): 030Radar Elevation (deg): 005
Mode: Search
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Radar Azimuth (deg): 025Radar Elevation (deg): 005
Mode: Search
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Radar Azimuth (deg): 020Radar Elevation (deg): 005
Mode: Search
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Radar Azimuth (deg): 015Radar Elevation (deg): 005
Mode: Search
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Radar Azimuth (deg): 010Radar Elevation (deg): 005
Mode: Search
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Radar Azimuth (deg): 012Radar Elevation (deg): 006
Mode: Track
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Radar Azimuth (deg): 016Radar Elevation (deg): 010
Mode: Track
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Radar Azimuth (deg): 020Radar Elevation (deg): 014
Mode: Track
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Radar Azimuth (deg): 020Radar Elevation (deg): 014
Mode: Re-Acquire
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Radar Azimuth (deg): 020Radar Elevation (deg): 018
Mode: Re-Acquire
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Radar Azimuth (deg): 016Radar Elevation (deg): 018
Mode: Re-Acquire
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Radar Azimuth (deg): 016Radar Elevation (deg): 014
Mode: Re-Acquire
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Radar Azimuth (deg): 018Radar Elevation (deg): 016
Mode: Track
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Radar Azimuth (deg): 021Radar Elevation (deg): 018
Mode: Track
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Radar Azimuth (deg): 024Radar Elevation (deg): 020
Mode: Track