Multi-frequency base station antenna for eliminating coupling resonance
A technology for eliminating coupling and base station antennas, which is applied in independent antenna unit combinations, antennas, antenna couplings, etc., can solve problems such as cross polarization deterioration, horizontal plane pattern distortion, and high-frequency radiation unit size is too large, and achieves the implementation method Simple, eliminate coupling resonance, and improve the effect of isolation
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Embodiment 1
[0042] Embodiment 1, within the scope of the above-mentioned dotted frame area A, the spacer 500 is used to eliminate part of the coupling mutual impedance Z t , which is located in the upper space of the first high-frequency radiation array 400 in the middle position, such as Figure 3-4 shown. The spacer 500 can eliminate the coupling field Z between the first high-frequency radiation array 400 and the first and second low-frequency radiation arrays 200 and 300 21 , thereby improving the radiation performance of the first high-frequency radiation array 400 and the first and second low-frequency radiation arrays 200 and 300, reducing the generation of resonance between the arrays, and improving the isolation between the arrays. The width of the spacer strip 500 is 0.01-0.05 times the wavelength of the low-frequency resonance frequency point, and the distance between it and the reflector 100 is 0.2-0.25 times the wavelength of the low-frequency resonance frequency point. The...
Embodiment 2
[0043] Embodiment 2, within the area A of the dotted line frame above, the spacer strip 500 is located below the inner dipole arms of the first and second low-frequency radiation units 201 and 301 , and on the side of the first low-frequency radiation unit 201 . Between the dipole arm and the adjacent dipole arm of the first high-frequency radiation unit 401 or between the dipole arm of the second low-frequency radiation unit 301 and the dipole arm of the first high-frequency radiation unit 401, such as Figure 5-6 shown. In this specific embodiment, the parasitic coupling introduced by the spacer bar 500 is used to change the current distribution of the vibrator, thereby changing the radiation impedance Z of the resonant frequency point of the first and second low-frequency radiation arrays 200 and 300 r = R r The reactive component jX of +jX changes the coupling field Z between the first high-frequency radiation array 400 and the first and second low-frequency radiation arr...
Embodiment 3
[0049]Embodiment 3 can be used in combination with Embodiment 1 or 2 respectively, or the three embodiments can be used in combination at the same time, thereby reducing the impact on the first high-frequency radiation array 400 or the first and second low-frequency radiation arrays 200, 300 , the combined use of the three schemes will not interfere with each other, and both can achieve the purpose of eliminating coupling resonance.
[0050] The array structure of the base station antenna of the present invention is not limited to such as Figure 3-8 The shown combination of arrays—only the first high-frequency radiation array 400 and the first and second low-frequency radiation arrays 200 and 300 are parallel to each other. In Embodiment 4, the multi-frequency base station antenna that eliminates coupling resonance also includes a second high-frequency radiation unit 700 nested in the first and second low-frequency radiation units 201, 301 and adjacent same-array A third hig...
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