DE1057670B - Ring fork circuit - Google Patents

Description

The invention relates to a ring fork circuit, the closed loop of which is designed as a coaxial line is to which leads are attached in four separate points, with between two adjacent connection points a cross connection between the inner and outer conductors of the coaxial line consists, which is designed so that over at least part of the loop between the two Points two conductors run parallel, which have been covered by the outer conductor of the loop.

Ring fork circuits are used to calculate the vector sum and / or difference of two electrical To get vibrations. The ring becomes four in this way through the four branch lines Sections divided, with three of these sections being the same length while the remaining section is three times as long as each of the rest. Each of the three shorter sections of the coaxial- loop has an electrical length roughly equal to a quarter wavelength, while the longer one Section has an electrical length that is approximately equal to three quarter wavelengths. These electric Lengths only apply to a specific frequency, albeit at frequencies close to it certain frequency, the errors in the electrical lengths of the various sections are negligible are small. At frequencies further away from the optimum value, the electrical lengths are three shorter sections still fairly close to a quarter wavelength, although the electrical length of the ' longer section has a value that differs noticeably from three quarters of a wavelength, so that the circuit does not work in the desired way. This means that the electrical length of the longer portion of the coaxial loop determines the frequency range over which the circuit will be used can limit addiction.

In a known embodiment of ring fork circuits of the above type, it is for manufacture An effective cross connection in a coaxial line loop is required, the outer conductor of the coaxial line to interrupt. However, such an interruption is very undesirable because it leads to a leads to considerable energy dissipation due to radiation from the break in the outer conductor.

In another known ring fork circuit, the longer section, the length of which can be three quarter wavelengths through a quarter wavelength section along with a device can be replaced to effect a phase change of 180 °. However, that of the two-wire transmission line is introduced phase shift not exactly 180 °, because the connections between the two wires of the two-wire line and the outer ring giv ice dialtung

Applicant:
The General Electric Company Limited,
Wembley, Middlesex (Great Britain)

Representative: Dipl.-Ing. W. Schmitzdorff,
Dr.-Ing. Η. Ruschke, Berlin-Friedenau, Lauterstr. 37,
and Dipl.-Ing. K. Grentzenberg, Munich 27,
Patent attorneys

Claimed priority:
Great Britain July 15, 1954

Emest Malcolm. Hickin
Wembley, Middlesex (Great Britain),
has been named as the inventor

It is practically natural to introduce reactances into conductors.

The object of the invention is to provide an improved ring fork circuit of the above type, which over A wider frequency band can be used to establish an effective cross-connection in a coaxial line loop does not require an interruption of the outer conductor and also with approval of the practically existing reactances of the connections between the two wires of the two-wire line and allows the outer conductor to achieve optimal effectiveness.

In a ring fork circuit of the type mentioned in the introduction, this is achieved according to the invention in that the spatial distance along the loop between the two points mentioned is smaller than the spatial Is the distance between the other adjacent connection points.

In the drawing, an embodiment of the ring fork circuit according to the invention is illustrated. It shows

Fig. 1 is a plan view of the arrangement as a section along the line I-I of Fig. 2 and

FIG. 2 is a side view as a section along the line II-II in FIG. 1.

The embodiment of the ring fork circuit to be described is intended to be part of a balanced Make demodulator and two! Mixed crystals the vec-

909 527/324

Claims (11)

Apply toroidal sum and difference of two vibrations. As shown, the circuit consists of two brass blocks 40 and 41 which meet at the central plane of a closed loop of a coaxial transmission line 43. The loop is in the shape of a trapezoid, with three sides of the trapezoid being the same physical length while the fourth side, containing a cross-connection, is shorter. The cross connection consists of two wires 44 and 45 that form a two-wire transmission line that passes through a cylindrical cavity 46. Two short sections of coaxial transmission line, of which only line 47 is shown in the drawing, form the branch lines connecting the loop of transmission line 43 at non-adjacent corners of the trapezoid to two coaxial input sockets 48, these two sockets 48 on one side of the block 41 lie. In the same way, two coaxial branch lines, of which only the line 49 is shown, connect the other corners of the loop with crystal mounts 50, which mounts 50 are arranged on one side of the block 40. In operation, each of the crystal sockets 50 contains a mixed crystal, one such crystal being represented by the dashed outline 51. The mixed crystals are held in their sockets 50 by caps (not shown) which can be screwed onto the threads 52. Two short-circuited line stubs 54 and 55 are provided so that the loop 43 receives the correct impedance from the two branch lines terminated by the mixed crystals during operation. In an embodiment of the circuit just described, which is to be used for frequencies in the range of 3000 megahertz, the three equally long sides of the trapezoid have a length of about 2.2 cm, while the shorter side has a length of about 1.2 cm. It is desirable that wires 44 and 45 be relatively close together, spaced apart, for example, 0.125 mm. To obtain this distance, one of the wires 44 or 45 can be wound with a nylon thread and then a second turn of a nylon thread can be applied over the two wires together. With this distance between the wires 44 and 45, it has emerged that the diameter of the cavity 46 should be at least twice as large as the diameter of the outer conductors of the rest of the loop 43. Claims. 55 1. Ring fork circuit, the closed loop of which is designed as a coaxial line, on the supply lines are attached in four separate points, with between two adjacent connection points a cross connection between the inner and outer conductors of the coaxial line consists, which is designed so that at least part of the loop between two conductors run parallel to the two points, which are covered by the outer conductor of the loop, characterized in that the spatial distance along the loop between the called both points smaller than the spatial distance between the other neighboring ones Connection points is. 2. Apparatus according to claim 1, characterized in that the two parallel conductors lie at least partially within a cavity defined by the outer conductor of the transmission line is formed. 3. A device according to claim 1, characterized in that the two parallel conductors are formed by two wires, said two wires considerably smaller cross-section than the inner conductor of the other loop part and a two-wire transmission line \ ^r erhältnismäßig close spacing of the two wires on make up the greater part of the route between the two points mentioned. 4. Apparatus according to claim 3, characterized in that the inner conductor and the outer conductor of the loop portion of the transmission line, which is the section between the said two Excluding points, have a uniform cross-section around the loop. 5. Apparatus according to claim 2 and 4, characterized in that over part of the route between the two points mentioned, the outer conductor has an enlarged cross-section, so that the two Wires are at least partially within a cavity. 6. Apparatus according to claim 2 or 5, characterized in that the cavity has the same circular cross-section over its length. 7. Device according to one of claims 1 to 6, characterized in that the loop of the coaxial transmission line lies in one plane. 8. Device according to one of claims 1 to 7, characterized in that the four leads are designed as coaxial lines. 9. Apparatus according to claim 7 and 8, characterized in that the four branch lines at least arranged at the connection points with the loop perpendicular to the plane of the loop are, with two non-adjacent branch lines attached to the loop on one side of the plane and the other two branches connected to the loop on the other side of the plane are. 10. Apparatus according to claim 8 or 9, characterized in that it contains two mixed crystals, each terminating one of the named branch lines, namely those with the named Loop connected at two non-adjacent points. 11. The device according to claim 10, characterized in that it has two line sockets is provided in the coaxial version, these two line stubs to the two mentioned Points of the loop are connected, which is also terminated with the two by the mixed crystals Branch lines are connected. Considered publications:
Swiss Patent No. 262 004;
British Patent No. 615 355. Legacy Patents Considered:
German Patent No. 964 883. 1 sheet of drawings © 90S 527/324 5.