DE1032801B - Device for conducting electromagnetic waves of the TE type through a waveguide with a circular cross-section with two straight sections, the axes of which form a certain angle between them - Google Patents

Description

GERMAN

The use of electromagnetic waves of the type TE ₀₁ , which are guided in waveguides, as hollow tubes made of metal, with a circular cross-section, is of great interest for telecommunications technology, because the attenuation that these waves are subject to in a waveguide of a given diameter is in decreases as their frequency increases; however, these waves are very sensitive to changes in the shape of the waveguide, and the change in direction between waveguide sections raises particular problems.

The invention relates to the solution of a very specific problem in this field.

It is known that to change the direction of a beam of plane electromagnetic waves such as * 5 one encounters them both in optics and in the transmission of a "Hertzian wave", prisms from one dielectric material used with low losses. Such devices generally turn out to be ineffective for the deflection of guided waves because it is not possible for them to reach the prism by reflection to separate the emerging wave from the incident wave; this wave turns in the opposite direction of the incident one Wave back into the waveguide. This phenomenon is due to the presence of the walls of the waveguide; this creates standing waves, which in turn cause a loss of energy cause.

For a reflection-free change in the direction of propagation of an electromagnetic wave in a waveguide are prism-shaped transmission elements become known that allow the waves to propagate in such a pipe as whether the pipe would be straight. So far you have layered body made of one or for such transmission elements multiple dielectric layers and one or more magnetic layers are used.

You also have one or more prisms that z. B. can consist of paraffin, used whose cross-section has the shape of an isosceles triangle, the axes of the two line pieces had the same inclination with respect to the surfaces of this prism. The angle O ₁ between the axis of the first line section and the perpendicular on the entry surface of the prism is complementary to the angle ct ₂ , which is formed by the axis of the prism and the aforementioned perpendicular. The angle a _s between the axis of the second line piece and the vertical on the exit surface of the prism complements the angle U ₁ to 90 °, which in turn is formed by the axis of the prism and the aforementioned vertical. The angle by which the direction of propagation of the waves in the prism is deflected is denoted by δ in the figure (see FIG. 1).

Facility

for conducting electromagnetic waves

type TE ₀₁ through a waveguide

with a circular cross-section

with two straight pieces,

whose axes have a certain angle

to enclose between them

Applicant:

Compagnie Generale d'Electricite Soc. An., Paris

Representative: Dipl.-Ing. H. Leinweber, patent attorney,
Berlin-Zehlendorf West, Goethestr. 30th

Claimed priority:
France from February 1, 1956

Georges Compte, Lyon, Rhone (France),
has been named as the inventor

According to the invention, the material from which such a prism is made is now selected so that the dielectric constant ε satisfies the condition:

sm

7l - \ - Ö -, Γ-. 7t - ö

= | / ε sm.

This has the decisive advantage that all possible materials, including particularly cheap ones, can be used can; they just need to be selected so that their dielectric constant satisfies the above equation.

A device such as that shown in FIG. 1 only ever allows assembly on its own of waveguides with a given prism whose axes lie in the same plane and are below one cut a certain angle. So for every corner of a particular assembly you would have to have one Use a prism made of a material with a different dielectric constant, which is obviously not much is practical.

A further development of the invention aims to free yourself from this annoying bond and two

809 558/317

Claims (2)

3 to assemble 4 waveguide pieces, the axes of which do not. The incident electromagnetic wave TE01 arrives in the same plane and enclose any angle between them without losses and without reflections from the angle. Line 11 into line 12, and its propagation. Such a device comprises a first prism, direction is deflected by an angle, which is associated with the first line section and attached so that it corresponds to the direction of propagation of the - 2A and sinJÜLtlrL = l / ^ ~. sm ^ JzJz .. waves at the output of this line piece deflects by 90 ° 4 4, as well as a second prism identical to the first, which is assigned to the second line piece. It can be clearly seen that the passage is free of reflection; The two prisms are united by two straight waveguide pieces connected with air between an electromagnetic wave and connected by a circular rotating part filled with a dielectric constant of 1, the line in an elliptical line with the dielectric arranged in such a way that at least one of the wave pieces is around its constant ε can be rotated for a certain value of the one-axis. The figures in the drawing show some embodiments of the "Brewster effect" known from optics, shapes of the device according to the invention, for example. Brewster's equation only for planar polarized widths. by a prism according to the teaching of the invention with 20 Fig. 2 shows an embodiment of the device are connected to each other; according to the invention, which enables a shaft of the type TE01 Fig. 2 shows a device according to the invention to enable a change in direction of any connection of two line pieces, the axes of which overcome an angle. Include any angle between them. In this figure, 21 is a waveguide with circular Fig. 1, the two line pieces for the collar 25-shaped cross-section are designated, through which a wave development of the waves with 11 and 12 is indicated. They can be of type TE01, which is supposed to be filled with air or a dry gas; their it propagates from left to right. At the exit axes M'-M and N'-N intersect at a point O. of the line 21, a prism 22 is arranged so that it deflects the shaft by 90 ° on the two flat surfaces AB, so that they are then connected to it or AC of a prism 16, which can follow an intermediate piece with a circular cross-section 23, an insulating material with low dielectric losses, which is arranged at the exit of the prism 22 and has a dielectric constant ε; of is. The line piece 23 is in turn with an outside the prism is limited by the surface 19 of a cylinder second intermediate piece 25 with the same axis direction truncated with the axis MN, which is connected with the interposition of a rotating part 24-continuity of the metal walls of the two lines 35, so that there is no noticeable discontinuity in the oversecure, such that the transmission through the axes MN 'and NN' occurs. formed plane a plane of symmetry of the entire At the exit of the line piece 25 a second arrangement of the two waveguides and the prism 26 is arranged, which is that of the line prism. piece 25 redirects outgoing waves by 90 °, with Ct1 the angle between the axis M-M 'of 40 so that they can follow the output line with circular cross-line 11 and the vertical (normal) M-H on section 27. of the surface AB of the prism, with a3 of the Da the structure of the waves of the TE01 type due to the angle between the axis NN 'of the line 12 and its circular symmetry by a rotation of the normal NH on the surface AC of the prism part 24 in no way can be influenced, and with a2 or a4 the common amount of the angle 45 results from the new device, the possibility of between the axis MN and the normal MH direction of the axes of the input and output guide and NH. On the other hand, with Ä the angle at the pointed piece any arbitrary value between zero and end A of the prism and with Ö the angle between 360 ° can be given, so that the waves can change the direction of the axes MO and NO of the line sections 11 and 12 without noticeable losses or at least labeled. 50 lusten, regardless of the assumption that there would be a circular electrical shape of the connecting piece to be passed through, magnetic wave of the type TE01 in the line If the figure propagates prisms for a deflection of the input waves by 90 °, the calculation shows that this wave has an acute angle λ of about 45 ° and an electricity constant of ε = 5.83 when it hits the surface AB of the prism. This can cause a wave, which is also of the TE type, but may be more convenient, the deflection is, but is elliptical and no longer circularly polarized by 90 ° by two successive deflections. The energy transport is complete when those of 45 ° are replaced, for which the prisms have a "T. ,, j ■,, π -p .. must have a dielectric constant of ε = 2.24; Angle α, and α »add up to a, + os = -. This, Λ. ...,,. . , o, "'-n 1 -.lt. 1 j · 12 b * '■ * 2 60 this is roughly that of the material polyethylene; the elliptical wave TE arrives after its passage prisms must have an angle of 67.5 ° at the through the prism on the surface AC and causes its tip, since the creation of a circular electrical transverse wave of the TE01 type, which is in the Line 12 propagates. The conversion also takes place. If there is no reflection, if the angles a2 and a3 are completely 1. Device for conducting electromagnetic mental are ία ₂ + a ₃ = γ) , which of course requires waves of the type TE ₀₁ through a waveguide with ^ 'circular cross-section with two straight pieces, ^:: that the angles Ci ₁ and a _{3 are} equal. 70 whose axes have a certain angle between. Λ enclose each other, using a prism of insulating material inserted between the pieces, which has the cross-sectional shape of an isosceles triangle, the axes of the two line pieces having the same inclination with respect to the surfaces of this prism and the angle α, between the axis of the first line piece and the perpendicular on the entry surface of the prism is complementary to the angle a _{2 formed} by the axis of the prism and the aforementioned perpendicular, and the angle a ₃ between the axis of the second line section and the perpendicular on the exit surface of the prism is the angle a ₄ supplemented to 90 °, which in turn is formed by the axis of the prism and the aforementioned perpendicular, characterized in that the material from which the prism is made is selected so that the dielectric constant ε satisfies the condition: . _{π +} 0 _λΓ . n-0 sm = υε sm -, 4 ^V 4th where Ö denotes the angle by which the planting direction of the waves in the prism deflected will. 2. Device according to claim 1, characterized in that that when two straight pieces of pipe are joined, their axes are not in the same position Lie plane and include any arbitrary angle between them, contains a first prism, which is assigned to the first line piece and attached so that it is the direction of propagation deflects the waves at the exit of the shaft piece by 90 °, and a second, identical, identical prism the second line piece, these two prisms by two straight intermediate pieces are connected to each other, one of which lies in the extension direction of the other and which are connected to one another by a rotating part so that at least one of the two Intermediate pieces can be rotated about its axis. Considered publications:
Swiss Patent No. 265 020;
French Patent No. 950 844;
U.S. Patent No. 2,129,712. 1 sheet of drawings © 809 558/317 6.58