Electric Dipole Radiation The image shows electric dipole

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Electric Dipole Radiation The image shows electric dipole radiation from a point electric dipole.

Electric Dipole Radiation The image shows electric dipole radiation from a point electric dipole. The dipole moment vector is always vertical, and its magnitude varies sinusoidally with an amplitude of 10%. We show the fields in the quasi-static zone, the induction zone, and the radiation zone. The motions of the field lines are in the direction of the local Poynting flux vector

Antenna Radiation Patterns This figure shows a rectangular azimuth ("E" plane) plot presentation of

Antenna Radiation Patterns This figure shows a rectangular azimuth ("E" plane) plot presentation of a typical 10 element Yagi. The detail is good but the pattern shape is not always apparent.

Antenna Radiation Patterns This is a polar plot of the same 10 element Yagi.

Antenna Radiation Patterns This is a polar plot of the same 10 element Yagi. Note that it shows the sidelobes of the antenna relative to the main beam in decibels. This type of plot is preferred when the exact level of the sidelobes is important. The beamwidth specified on most data sheets is usually the 3 d. B or half-power beamwidth. A 10 d. B drop is considered a large drop, a decrease to 10% of the original power level.

Antenna Radiation Patterns This is a linear plot of the same 10 element Yagi.

Antenna Radiation Patterns This is a linear plot of the same 10 element Yagi. Note that it emphasizes the shape of the main radiation lobe of the antenna while suppressing all side lobes making the radiation pattern “look better”

Antenna Radiation Patterns This is a modified logarithmic plot of the same 10 element

Antenna Radiation Patterns This is a modified logarithmic plot of the same 10 element Yagi which emphasizes the shape of the major beam while compressing very low-level (>30 d. B) sidelobes towards the center of the pattern