DE1616578B1 - Slot radiator for electromagnetic waves - Google Patents

Description

The invention relates to a slot radiator rectangular Cross-section with centrally arranged slots in one of its broad sides and with in its longitudinal axis at a distance of about a quarter waveguide wavelength from the respective associated coupling means of the slots arranged compensation means for the reactive components of the decoupling resistances of the slots and their coupling means.

Slot radiators of this type are known. With one of these well-known Slot emitters are located in the middle of one of the broad sides of the slot emitter a plurality, for example thirty, parallel to the longitudinal axis of the slot radiator aligned slots in a mutual. Distance of about half a waveguide wavelength. The respective slot length corresponds to about half a waveguide wavelength. To the Achievement of the in this case in order to enable the emission of the electromagnetic - -Energy required by the slots in the field distribution of the asymmetry Waveguide wave of the type Hlo are in this known slot radiator in addition to individual slots alternately to one and the other narrow side of the slot emitter Coupling screws arranged as coupling means.

The slots would be spaced about one apart entire waveguide wavelength are, so would the coupling screws to achieve the required phase equality of the radiated from the individual slots Shafts always be arranged on the same side of the slots.

The depth of immersion of the individual screws is always a measure for the electromagnetic energy radiated from the associated slots. By appropriate choice of the individual immersion depths of the coupling screws is the generation of any radiation diagram possible within certain limits.

These coupling screws or others that can be used in their place Coupling means cause a mismatch between the slot radiator and the generator its transmission energy. To compensate for this mismatch, it is known in Distance about a quarter waveguide wavelength from the respective associated coupling point the slots compensation means for the reactive components of the decoupling resistors to arrange the slots and their coupling means. These compensation means can as screws, pins, diaphragms or other compensation means known per se be trained.

In the case of a slot radiator, the invention consists of the one mentioned in the introduction Kind in that the compensation means = seen from the feed point of the radiator - Are arranged behind the respectively assigned slot.

For a more detailed explanation of the invention, reference is now made to the figure an advantageous embodiment of a slot radiator according to the invention in individually described.

As in the case of the known slot radiator described at the outset, a row of slots are arranged in the center of one of its broad sides in the illustrated slot radiator 1 in a direction parallel to the longitudinal axis of the waveguide. A coupling screw 3 is arranged next to each slot at the level of the middle of each slot. The mutual distance between the offset coupling screws is approximately where Z, symbolizes the waveguide wavelength. In the case of transmission, the waveguide wave is fed in from the feed point, ie from the left in the direction of an arrow 4. As far as described so far, the slot radiator according to the figure does not differ from the one specified at the beginning as known.

In order to reduce the mismatch, however, are now according to the invention about a quarter waveguide wavelength - seen from the feed point - behind the associated coupling screws compensation screws 5 arranged.

In the slot radiator according to the invention, instead of coupling screws and / or compensation screws also other coupling or compensation means known per se be provided, for example coupling pins or compensation screens.

Claims (2)

Claims: 1. Slot radiator with a rectangular cross-section in - one of its broad sides centrally arranged slots and with in the direction its longitudinal axis at a distance of about a quarter waveguide wavelength from the respective associated coupling means of the slots arranged compensation means for the reactive components of the decoupling resistances of the slots and their coupling means, characterized in that the compensation means - viewed from the feed point - Are arranged behind the respectively assigned slot. 2. Slot emitter after Claim 1, characterized in that as a coupling and / or compensation means Screws or pins are provided.