DE1282112B - Microwave transmitter - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY GERMAN 4 $ 07VW PATENTAMT Int. Cl .:

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German class: 21 a4 - 74

Number: 1282112

File number: P 12 82 112.4-35 (K 52108)

Filing date: February 14, 1964

Open date: November 7, 1968

The invention relates to a microwave transmitter for high-frequency coupling of a two-wire parallel line to a waveguide, with the parallel wires introduced into the waveguide wall the ends each bent in the opposite direction and at opposite points of the Waveguide wall are attached.

It is known, for the transmission of high frequency signals such as microwaves, transmission lines of various types, such as. B. two-wire Use parallel lines, coaxial cables and waveguides, depending on the frequency of the transmitted signal the transmission line type is used, which for the to be transmitted Signal is best suited. However, that does not mean that between the different types of Transmission lines have certain limits on the frequency ranges. That is, it will be sometimes two types of transmission lines are used, and there are already different types of ao Transmitters for high-frequency coupling between a parallel two-wire line and a coaxial cable or known between a coaxial cable and a waveguide. A satisfying immediate Coupling of the high-frequency power between a two-wire parallel line and a waveguide low losses could not yet be achieved.

It is known to use a waveguide with a circular cross-section for connecting a two-wire line phase and amplitude adjustment by means of a terminating slide and a terminating resistor to achieve. The inlet opening for the two-wire line has one as possible small diameter so that the waveguide field is not disturbed. In some cases it is out of spatial or other reasons, the use of a termination slide and a terminating resistor not possible, e.g. B. because the transformer is installed in an inaccessible place. Object of the invention is such a design of a transformer that the same without additional tuning elements can work.

This object is achieved according to the invention in a microwave transmitter of the embodiment mentioned in the introduction in that the diameter of the inlet opening in a side wall of a _{rectangular waveguide excited in the TE 10} mode is approximately three times the distance between the wires of the two-wire line.

Due to the large size of the inlet opening according to the invention for the two-wire parallel line, the Microwave transmitter

Applicant:

Kabushiki Kaisha Hitachi Seisakusho,

Chiyoda-Ku, Tokyo (Japan)

Representative:

Dr.-Ing. E. Maier, patent attorney,
8000 Munich, Widenmayerstr. 4th

Named as inventor:

Yoshihisa Suzuki, Tokyo-To;

Yoshio Tanaka, Nishikubo, Musashino-Shi

(Japan)

Claimed priority:
Japan dated February 16, 1963 (8034),
dated July 13, 1963 (38 303)

so that it almost reaches the size of the waveguide dimensions, an additional inductance is obtained, the increases the bandwidth of the transmitter. The transformer is particularly suitable for traveling wave tubes with bifilar helix.

In the case of a microwave transmitter, the phase and amplitude of the electromagnetic field must be adapted be. These two quantities are frequency dependent, with the respective type of transmission line exercises a determining influence. If the transmitter is designed to be broadband, the Tuning condition met within a broader frequency range without any special elements would be required for re-tuning. The inductance caused by the size of the inlet opening causes such a strong broadening of the adaptation frequency band that a short-circuit shifter does not is required.

The invention is described below on the basis of various embodiments with reference explained on the drawings. It shows

A b b. 1 is a partial perspective view of a preferred embodiment of the invention Transformer, whereby individual parts are omitted,

Fig. 2 is a sectional view of a further embodiment of the invention,

809 630/859

Use a reverse helical wave tube with an input or output circuit.

It is well known that when using a bifilar helix for the delay line a Traveling wave tube or a reverse wave tube is possible, excellent characteristics with high To obtain beam coupling impedance. That is, if you are using a bifilar coil, there are two Forms of wave propagation. One is that

FIG. 3 is a longitudinal section through an electronic device, in which the one shown in FIG Transformer is used, and

A b b. 4 schematically shows an enlarged illustration of an essential part of the in A b b. 3 shown Contraption.

In the embodiment of the transformer according to the invention shown in Fig. 1 are a
TE ^ rectangular waveguide 1 and a two-wire parallel line 2.2 a coupled according to the invention. io same wave form as with a single helix, and the line 2, 2 a is introduced into the waveguide 1 through one the other is the same as the wave form that is obtained inlet opening 3, which is at one side if a parallel two-wire pair of helical wall of the waveguide is provided and is wound up in an inner shape. These two shapes have a diameter that is approximately three times the distance between the wires of the two-wire parallel line 15, hereinafter referred to as “o-mode” and “π-mode”. Since the beam coupling impedance is equal to in. The introductory ends of the wires of the two-way reference to the "π-mode" is higher, a wire-parallel line is each obtained with loops 4 π-mode oscillation when provided in one and 4 a, which is inserted through the opening 3 - The reverse wave tube uses a bifilar helix and is then alternately in opposite directions. A coupling technique for taking the directions into loops are bent, the alternating 20 output of such an arrangement is so far not wise point in opposite directions. As known. The o-mode-coupling is effected under VerAbwandlung it is possible equivalent loop "application of a coupled coil or by Anauch by electrically connecting the respective antenna coupling and through coaxial line Kopp-Enden5 and 5 a of the two loops forming lung, but no working of the Techniques for the wires with opposite points 6 and 6 a each- 25 π-mode quite satisfactory, because on the lower and upper wall of the hollow usually the one transmitted in the o-mode

Part of the output taken by means of a mode coupling device, although the working method a bifilar helix - reverse wave tube corresponds to the π-mode, but after that only about one tenth of the output power of the oscillator can be drawn.

With a transformer according to the invention can the π-mode output of a bifilar helix

Therefore, flow types with alternately oppositely directed 35 backward-wave tubes completely de-flow generated on the two-wire parallel line, - because the π-mode effect is the same as the creating a high frequency coupling with the hollow "shape of the electromagnetic wave in a helical conductor is achieved. -. - Two-wire parallel line coiled in the shape of a coil.

On the basis of simple experiments with so far it has been assumed that frequencies

a device as described above, for which two-wire parallel lines have been used, it has been found that high-frequency power can be achieved with up to about a few hundred megahertz with a coupling loss of the order of magnitude
0.5 ie can be transmitted.
If the two-wire parallel line and the waveguide have to be galvanically isolated, the reverse wave tubes used, tubes 8 and 8a , each with a wavelength as shown in Fig. 2, are not taken into account. However, it is fixed to the waveguide at parts of the upper and lower
Walls connected, in alignment with the
two parallel wires, ¹ each centrically through
these tubes 8 and Sa are dielectrically insulated through 50 the input or output part of a reverse. Such an arrangement becomes a wave tube. Research has shown that the

Loss in such a part is 0.1 db or less. Although in such cases it is difficult To further couple the output of the two-wire parallel line with a conventional waveguide, this is it for the first time to avoid this difficulty by using the microwave transmitter according to the invention has been made possible. It is also possible by using this transformer

very short distances, such as B. an input 60, the losses at said input or output transformer of electron tubes, and output parts to negligible small it is sometimes better if you reduce a value that is symmetrical to the earth.

Transmission line "in the form of a two-wire" In one embodiment of a bifilar helix

Parallel line used. The Present Invention Reverse wave tube constructed in accordance with the invention deal with a. Device formed for this 65 (Fig. 3) are a cathode 11, a den Purpose can be used. -.... ·. Electron beam forming electrode 12, a first

The invention can be particularly expedient in the case of anode 13, a second anode 14, a bifilar helix a coupling part for. the coupling of a bifilar 15, as shown enlarged in Fig. 4, a

ters to form. By forming a tapered or funnel-shaped part 7 at the outer end of the opening 3 (Fig. 1) it is possible to have an excellent Effect adjustment.

Since in the transformer according to the above description the loops 4 and Aa lie in opposite directions with respect to the magnetic flux in the waveguide, oscillations symmetrical to the ground are

are sufficient. For this reason, two-wire parallel lines are used as transmission lines for the microwave range and the millimeter wave range, for

been asked that it is possible to have such two-wire parallel lines to use for short distances without any difficulty, e.g. B. for

a coaxial choke is formed, creating a high frequency coupling similar to the one described above in connection with A "bb. 1, achievable is.

Usually a waveguide is used for wavelengths in the centimeter range or shorter while Two-wire parallel lines are usually not used for such short wavelengths. But with

Coupling part 16 for coupling the bifilar helix 15 by means of a parallel wire pair 17 with a Waveguide 18, a vacuum tight high frequency output coupling slot 19, a collector 20 and a vacuum-tight casing 21 are provided. The coupling part is z. B. the microwave transmitter according to the invention, as described in A b b. 1 is shown.

In the operation of the bifilar helical reverse wave tube of the construction described above, the through the bifilar coil 15 generated high-frequency energy ίο by the parallel wire pair 17 and the microwave transmitter 16 transferred to the waveguide 18 and removed through the vacuum-tight coupling slot 19. The bifilar helix causes a coupling, whereas the directed one emanating from the cathode 11 Electron beam is collected by the collector 20. In such a constructive arrangement is the transformer described with its details is of great importance. The details of the foregoing Coupling part, which by the present invention for the coupling of the bifilar helix and the waveguide has been made suitable, will be explained below with reference to A b b. 4 described in more detail.

The essential parts are a bifilar coil 15, a two-wire parallel line 17, and a microwave transmitter 16 for the supply of the output power on the parallel line to the waveguide and a Shielding housing 22. When an electron beam penetrates the interior of the bifilar helix 15, in this induces a radio frequency or high frequency electromagnetic wave. This is the familiar one How a reverse wave tube works. Since the electromagnetic wave thus induced is a π-mode wave is the same as that generated in a helically wound two-wire parallel line becomes, it is possible to use the high frequency power with high efficiency by direct connection the two-wire parallel line 17 with the end of the bifilar coil 15 as the output (Fig. 4).

To prevent leakage of the high frequency electromagnetic wave to the outside and Furthermore, to shield external effects, a shielding housing 22 can be provided. Since then by changing the thickness of this housing, the high frequency impedance can be changed this shield for the impedance matching of the bifilar coil section and the two-wire parallel section be used.

While the previous description refers to the output coupling part, which a is an essential part of the bifilar helical reverse wave tube, it is of course possible to use this coupling part to be used for the input circuit of the aforementioned bifilar helix reverse wave tube. By the invention it has thus become possible, a coupling part with high efficiency with extremely good frequency properties for coupling a bifilar helix reverse wave tube with the input or output circuit.

Claims (4)

Patent claims: 1. Microwave transmitter for the high-frequency coupling of a two-wire parallel line to a waveguide, the parallel wires introduced into the waveguide wall being bent at the ends in opposite directions and fixed at opposite points of the waveguide wall, characterized in that the diameter of the inlet opening (3) in a side wall of a _{rectangular waveguide (1) excited in the TE 10} mode is approximately three times the distance between the wires (2, 2 a) of the two-wire line. 2. Microwave transmitter according to claim 1, characterized in that the wire ends to Loops bent over and above and below the inlet opening butt against the waveguide wall are set. 3. Microwave transmitter according to claim 1, characterized in that throttle conductors (8, 8 a) are inserted butt into the side walls of the waveguide adjacent to the inlet opening, in the respective center line of which the wire ends of the two-wire line run. 4. Microwave transmitter according to one of claims 1 to 3, characterized in that the Two-wire line (17) is connected to the bifilar coil (15) of a reverse wave tube. Considered publications:
U.S. Patent No. 2,147,717. 1 sheet of drawings 809 630/859 10.65 3 Bundesdruckerei Berlin