Communications: radio wave antennas – Antennas – Slot type
Reexamination Certificate
2002-05-29
2003-12-02
Clinger, James (Department: 2821)
Communications: radio wave antennas
Antennas
Slot type
C343S727000
Reexamination Certificate
active
06657599
ABSTRACT:
BACKGROUND AND SUMMARY OF THE INVENTION
This application claims the priority of German patent document 101 26 468.2, filed May 31, 2001, the disclosure of which is expressly incorporated by reference herein.
In slot antennas, rectangular or ridge waveguides are used to guide an electromagnetic wave for the excitation of a slot in a first (broad side) wall of the waveguide.
The polarization direction (that is, the direction of the electric field vector in the far field of the emitted wave) is determined by the direction of the slot, as illustrated in FIG.
1
. In the main radiation direction of the slot, which has the reference number
2
, the electric far field is situated perpendicular to the slot plane, specifically as an E
y
-component. The waveguide, which has the reference number
1
, is constructed as a rectangular waveguide. To rotate the polarization according to the prior art, either the slot
2
must be rotated, or a polarizer grid (known in antenna engineering) must be mounted over the slot
2
. Both methods have disadvantages: rotation of the slot
2
in the wall of the waveguide
1
results in a phase reversal of the emitted wave in successive slots
2
of a resonance array with a half-wave spacing of the slots, and must therefore be reversed again, so that the effect of a rotation of the polarization direction cannot be utilized in such array arrangements. On the other hand, an additional arrangement of a polarizer grid requires high expenditures and is associated with additional damping losses.
In U.S. Pat. Nos. 6,028,562 A and 6,127,985 A, the rotation of the polarization direction is achieved by means of a cavity with an inlet and an outlet gap, the latter being used as the radiation source. The angle between the inlet and outlet gap of the cavity indicates the angle by which the polarization of the emitted wave is rotated. A disadvantage of this arrangement is that a continuous rotation of the polarization direction is not possible.
The present invention is based on a known slot antenna which has a feeding waveguide extending in the longitudinal direction for guiding an electromagnetic wave, and at least one slot constructed in a first wall of the feeding waveguide for the emission of a portion of the electromagnetic wave guided in the feeding waveguide, with devices provided for rotation of the polarization direction of the electromagnetic wave emitted by the slot.
One object to the invention is to provide a slot antenna which permits a continuous and steady rotation of the polarization direction of the electromagnetic wave emitted by the slot.
Another object of the invention is to provide such a slot antenna which can be produced in a simple and cost-effective manner.
These and other objects and advantages are achieved by the slot antenna according to the invention, which has a feeding waveguide extending in a longitudinal direction for guiding an electromagnetic wave and at least one slot constructed in a broad side of the feeding waveguide for emitting an electromagnetic wave. In addition, on the exterior side of the feeding waveguide, the slot is surrounded by an arrangement for rotating the polarization direction of the electromagnetic wave emitted by the slot. According to the invention, the slot is constructed in the longitudinal direction of the feeding waveguide, and the arrangement surrounding the slot is a rectangular polarizer waveguide. The opening at one end of the polarizer waveguide is connected with the broad side of the feeding waveguide; and the opening at its other end has an aperture which emits a wave that is excited through the slot in the polarizer waveguide. The emitted wave is aligned with respect to the slot such that a transverse axis of the polarizer waveguide forms an angle with the longitudinal axis of the slot. The latter angle represents the angle by which the polarization of the electromagnetic wave emitted from the slot into the polarizer waveguide is rotated.
It is a significant advantage of the slot antenna according to the invention that it can be produced in a simple manner, without additional damping losses.
According to a first preferred embodiment of the invention, the polarizer waveguide has a first dimension in the direction of one (first) transverse axis and has a second dimension in the direction of the other (second) transverse axis, the first dimension being larger and the second dimension being smaller than half the free-space wavelength &lgr;/2 of the emitted electromagnetic radiation.
In this manner, only an H
10
-wave (with a polarization in the direction of the second transverse axis) which is emitted from the aperture at the extreme end of the polarizer waveguide, with a polarization direction rotated by the angle &agr;, can be moved in the polarizer waveguide without any damping. The H
01
-wave fraction in the direction of the first transverse axis is damped in the polarizer waveguide down to an insignificant amount.
According to a second embodiment of the invention, the polarizer waveguide has a first dimension in the direction of the first transverse axis and a second dimension in the direction of its second transverse axis, both the first and second dimensions being larger than half the free-space wavelength &lgr;/2 of the emitted electromagnetic radiation. In this case, an arbitrary “elliptic” polarization of the emitted electromagnetic radiation can be achieved.
In this second embodiment, the first dimension and the second dimension of the polarizer waveguide may be made identical, and the angle &agr; of the rotation of the polarization direction is &agr;=45°. In this case, both fundamental modes H
10
and H
01
of the polarizer waveguide are excited to the same extent.
According to the object of a further refinement of this second embodiment, when devices are also provided for the phase displacement in order to shift the orthogonally polarized waveguide modes of the polarizer waveguide with respect to one another (which particularly involves a displacement of the orthogonally polarized waveguide modes H
10
and H
01
by 90° with respect to one another), a purely circular polarization of the emitted electromagnetic radiation is obtained. The devices for the polarization-dependent or mode-dependent phase displacement are known in the state of the art.
Preferably, the length H of the polarizer waveguide is greater than one fourth the free-space wavelength &lgr;/4 of the emitted electromagnetic radiation, which causes a sufficiently high damping of the cross-polarization (H
01
-wave) relative to the useful polarization (H
10
-wave). In addition, in this manner the bandwidth of the radiation output can be influenced to a desired degree and can be varied within wide limits. A significant increase of the length H of the polarizer waveguide with respect to one fourth the free-space length &lgr;/4 represents an increase beyond the extent required for the suppression of the cross-polarization.
According to a further development of the slot antenna according to the invention, the slot or slots constructed in the broad side of the feeding waveguide extend in the longitudinal direction and in the center line of the feeding waveguide.
According to an alternative embodiment, it is provided that the slot or slots constructed in the broad side extend offset in the longitudinal direction and with respect to the center line of the feeding waveguide (offset slots).
Furthermore, according to an embodiment of the invention, the feeding waveguide may be constructed as a ridge waveguide.
According to a preferred embodiment of the invention, the slot antenna is constructed as an array antenna with many slot antenna elements of the same type having respective slots.
The slot antenna can advantageously be produced of a metallized plastic material.
REFERENCES:
patent: 3778838 (1973-12-01), Clavin
patent: 4429313 (1984-01-01), Muhs, Jr. et al.
patent: 5619216 (1997-04-01), Park
patent: 6166610 (2000-12-01), Ramanujam et al.
patent: 6166699 (2000-12-01), Khammouni et al.
patent: 6181222 (2001-01-01), Seewig et al.
pat
Clinger James
Crowell & Moring LLP
EADS Deutschland GmbH
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