## Microwave system engineering principles |

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### Contents

THERMAL N0ISE | 1 |

STATISTICS AND ITS APPLICATI0NS | 13 |

SIGNAL PR0CESSING AND DETECTI0N | 35 |

Copyright | |

6 other sections not shown

### Common terms and phrases

amplifier angle aperture efficiency attenuation average band bandwidth beam binomial calculated Chapter characteristic circuit coaxial line coherent processing component conductor curvature density function detector output dice direction distribution doppler earth echo effective area effective noise temperature electrons energy error false alarm field filter Gaussian given impedance input noise integral ionosphere LaPlace's equation law of thermodynamics linear detector load losses lossless mean megahertz microwave missed detection modulation index MTTF noise figure noise power noise ratio noise temperature omnidirectional antenna path perpendicular phase velocity plane of incidence plane wave plasma frequency probability problem processing gain propagation pulse radar radiation radius receiving antenna reflector relay resistor samples satellite second law shot noise signal is present signal to noise standard deviation statistical independence surface theorum thermal noise transmission line unit length variance vector voice channels voltage wave impedance waveguide zero