Radar technology  |
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Active radar jamming testing and reviews |
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Calculators, Figures, Tables
police radar handbook |
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Comparison and
reviews of the best radar detectors |
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Doppler effect
the apparent change in frequency and wavelength of a wave that is perceived by
an observer moving relative to the source of the waves, ... |
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Doppler Effect |
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Doppler Effect
Doppler Effect |
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Doppler Effect |
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Electronic Warfare and Radar Systems Engineering Handbook pdf file |
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Electron Tubes for Microwave
Applications Electron tubes, Marine radar systems |
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Frequency of a
Police Radar Gun X band radar for police use 10.525 gigahertz (GHz) or
10,525 MHz, K band 24.050 to 24.250 GHz, wide Ka band 34.200 to 35.200 GHz |
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Frequency Spectrum police
radar |
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Ladar Light Detection And Ranging, infrared light wave |
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Police RADAR
RADAR speed detectors bounce microwave radiation off of moving
vehicles and detect the reflected waves. These waves are shifted in frequency by
the Doppler effect, and the beat frequency between the directed and reflected
waves provides a measure of the vehicle speed, ... |
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Obstacle Detection
Available Scanner Technologies, Determining the velocity of an object, Operation
of "LADAR", Operation of Digital Cameras, Methods to Judge Distances with Ladar,
Optical Flow with LADAR, How is Optical Data Processed? Scanning Problems with
LADAR, Microwave Radar Technology, Far Infrared Sensor Technology |
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Police Traffic Radar Handbook
Comprehensive Guide to Speed Measuring Systems |
| Radar
animated, system for the detection and tracking of vehicles approaching from the rear a tip |
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Radar Basics
This home page contains a lecture on the principles of radar
technology. You'll find mathematical, physical and technical explanations about
radar technology on this home page. Many radar sets are introduced briefly as
examples with some technical data. In order to understand this lecture you will
need a basic knowledge in technical-mathematics |
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Radar Course
Control of emitted electromagnetic radiation, Control of
imaging geometry, Access to different parameters compared to optical systems,
Electromagnetic spectrum, Radar principles, Side-looking radars, Real Aperture
Radar (RAR), Real Aperture Radar: Range resolution, Real Aperture Radar: Azimuth
resolution, Synthetic Aperture Radar (SAR), SAR processing, ERS SAR geometric
configuration, Slant range / ground range, Optical vs. microwave image geometry,
..., a tip |
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Radar Detection & Laser receives
RADAR=RAdio Detecting And Ranging |
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Radar detector A radar detector is an electronic device used by motorists to
determine if their speed is being monitored, ... |
| Radar
gun A radar gun is a small Doppler radar used to detect the speed of
objects, ... |
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Radar System Components and System Design The radar antenna acts as the
interface between the radar system and free space through which radio waves are
transmitted and received. The purpose of the radar antenna is to transduce free
space propagation to guided wave propagation during reception and the opposite
during transmission, pdf file |
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Radar systems ppt file |
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Radar
the physical bases of radar technology, This home page contains a lecture on the
principles of radar technology. You'll find mathematical, physical and technical
explanations on this home page about radar technology, a
tip |
| Radar
technology introduction to radar concepts and terminology |
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Radar
technology introduction to radar concepts and terminology |
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Radar test Which is the World's Best Radar Detector? |
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Radar Types - Pulse Radars, Doppler Radars, Frequency-Modulated FM Radar |
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X-band radar |
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Horizontaal |
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dBi: = Gain of antenna with respect to isotropic antenna given in dB = 10 log
(power max / power isotropic)
dBd = Gain of antenna with respect to a dipole antenna given in dB = 10 log
(power max/ power max of half-wave dipole antenna)
dBi = dBd + 2.15 dB |
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Last updated on:
2011-01-02
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