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Radar Principles and Systems Part II

Radar Principles and Systems Part II. Learning Objectives. Comprehend the factors that effect radar performance Comprehend frequency modulated CW as a means of range determination Comprehend the basic principles of operation of pulse-doppler radar and MTI systems. Signal Reception

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Radar Principles and Systems Part II

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  1. Radar Principles and SystemsPart II

  2. Learning Objectives • Comprehend the factors that effect radar performance • Comprehend frequency modulated CW as a means of range determination • Comprehend the basic principles of operation of pulse-doppler radar and MTI systems

  3. Signal Reception Receiver Bandwidth Pulse Shape Power Relation Beam Width Pulse Repetition Frequency Antenna Gain Radar Cross Section of Target Signal-to-noise ratio Receiver Sensitivity Pulse Compression Scan Rate Mechanical Electronic Carrier Frequency Antenna aperture Factors That Affect Radar Performance

  4. Radar Receiver Performance Factors • Signal Reception • Signal-to-Noise Ratio • Receiver Bandwidth • Receiver Sensitivity

  5. Only a minute portion of the RF is reflected off the target. • Only a fraction of that returns to the antenna. • The weaker the signal that the receiver can process, the greater the effective range . Signal Reception

  6. Signal-to-Noise Ratio • Measured in dB!!!!! • Ability to recognize target in random noise • Noise is always present. • At some range, noise is greater that target’s return • Noise sets lower limit of unit’s sensitivity • Threshold level used to remove excess noise

  7. Receiver Bandwidth • Frequency range receiver can process • Receiver must process many frequencies • Pulses generated by summing sine waves of various frequencies • Frequency shifts occur from Doppler Effects • Reducing the bandwidth • Increases signal-to-noise ratio (good) • Distorts transmitted pulse (bad)

  8. Receiver Sensitivity • Smallest return signal that is discernible against the noise background • Milliwatts range • Important factor in determining unit’s maximum range

  9. Pulse Effects on Radar Performance • Pulse Shape • Pulse Width • Pulse Compression • Pulse Power

  10. Pulse Shape • Determines • Range accuracy • Minimum and maximum range • Ideally want pulse with vertical • Leading edge • Trailing edge • Clear signal • Easily discernible when listening for echo

  11. Pulse Width • Determines radar range resolution • Minimum detection range • Maximum detection range • The narrower the pulse, the better the range resolution

  12. Pulse Compression • Increases frequency of the wave within the pulse. • Allows for good range resolution while packing enough power to provide a large maximum range.

  13. Pulse Power • “Ummph” to get signal out a long way • High peak power desirable to achieve maximum ranges • Lower power radar units mean • Smaller and more compact • Less power required to operate

  14. Other Factors Affecting Performance • Scan Rate and Beam Width • Narrow beam require slower antenna rotation rate • Pulse Repetition Frequency • Determines radars maximum range(tactical factor) • Carrier Frequency • Determines antenna size, beam directivity and target size • Radar Cross Section (What radar can see(reflect)) • F(x) of target size, shape, material, angle and carrier frequency

  15. Combined Radar Systems • Frequency Modulated CW • Pulse Doppler • MTI systems

  16. Summary of Factors and Compromises Factor Trade-off Required Desired Why Pulse Shape Sharp a rise as possible Better range accuracy Require infinite bandwidth, more complex Tall as possible More power /longer range Requires larger equipment/more power Pulse Width Short as possible Closer minimum range Reduces maximum range More accurate range Pulse Repetition Freq. Short Better range accuracy Reduces maximum range Better angular resolution Better detection probability Pulse Compression Uses technique Greater range More complex circuitry Shorter minimum range Power More Greater maximum range Requires larger equipment & power Beam Width Narrow Greater angular accuracy Slow antenna rate, Detection time Carrier Frequency High Greater target resolution Reduces maximum range Detects smaller targets Smaller equipment Receiver Sensitivity High Maximizes detection range More complex equipment Receiver Bandwidth Narrow Better signal-to-noise ratio Distorts pulse shape Summary of Factors and Compromises

  17. Questions? Transmission Wasted Echo Echo

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