SASARII XBand Imaging Radar Simulation Using Pulse Compression - PowerPoint PPT Presentation

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SASARII XBand Imaging Radar Simulation Using Pulse Compression

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Effect of an analog-to-digital converter (ADC) full-scale resolution on the system's resolution ... Good trade-off between filter roll-off and group delay ... – PowerPoint PPT presentation

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Title: SASARII XBand Imaging Radar Simulation Using Pulse Compression


1
SASARII X-Band ImagingRadar Simulation
UsingPulse Compression
  • PRESENTED BY M.L Sathekge

2
AGENDA
  • INTRODUCTION TO RADAR
  • PROBLEM DESCRIPTION
  • PROPOSED SOLUTIONS
  • DESIGN STATISTICS
  • SIMULATION TESTS AND RESULTS
  • CONCLUSIONS

3
INTRODUCTION TO RADAR THEORY
The filling of the Katse Dam in
Lesotho differential InSAR to the mapping of
ground deformation induced by the loading effect
of a large reservoir.
4
PROBLEM DESCRIPTION
  • Component limitations on the systems resolution
  • - Filters for up-conversion and down-conversion
  • - Noise generated by components
  • - Non-linearity in Components
  • Effect of an analog-to-digital converter (ADC)
    full-scale resolution on the systems resolution

5
PROPOSED SOLUTIONS
  • Solutions to filter limitations
  • - 5th order Butterworth Filters
  • - Good trade-off between filter roll-off
    and group delay
  • Non-linearity and noise generated by components
  • - Operation of mixers, splitters and amplifiers
    in their linear region
  • Solution to ADC resolution limitations
  • - A 14-bit ADC is used. The systems dynamic
    range is determined by its quantisation level.

6
CHIRP RADAR SIMULATION
IF1 at 158MHz And IF2 At 1300MHz
DAC
Chirp Formation
I
RF _at_ 9300MHz
Delay
Q
I
Matched Filter
ADC
Receiver With two Down-Conversion Stages
Q
7
Chirp Signal _at_ IF1(158MHz)
8
Complex Chirp _at_ 158MHz
9
DESIGN STATISTICS
  • Transmission power is 3.5kW at frequency of
    9.3GHz
  • Systems noise figure is 2dB and worst noise
    figure is 6dB
  • The MDS is at 95dBm
  • The Radars maximum range is 11538m.
  • The signal to noise ratio at the receiver output
  • after matched filtering is 3dB
  • A 14bit ADC with a sample rate of 210MHz was
    used to sample
  • the signal
  • The ADCs quantisation voltage is 0.00012207V
  • The receiver noise level is 666mV

10
SIMULATION TEST
  • Filter test
  • 5th Butterworth VS 9th order Chebyshev Group
    Delay Response

11
SIMULATION TEST
  • Power Return Test
  • Corner Reflector
  • With 95dB
  • Attenuation

12
TEST RESULTS
13
Non-linearity in Components
14
Conclusions
  • A 130dB attenuation sets the minimum
    detectable signal in the receiver
  • In non-linearity test mixer inter-modulation
    products put stress on the filter roll-off (Sharp
    filter roll-off required), hence group delay.
  • With a gain of 77.5dB the receivers MDS
    improved from 50dBm to
  • -95dBm
  • Pulse Integration (output stacking) must be done
    to improve the signal to noise ratio.
  • Good care must be taken to operate RF components
    according to their specifications to avoid
    non-linearity
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