DE1491444C - Permanent magnet system for generating an essentially homogeneous magnetic field for the bundled guidance of an electron beam over a longer distance, especially for traveling wave tubes - Google Patents

Description

3. Permanent magnet system according to claim 2, decreasing uniformly. This arrangement is characterized in that the permanent magnet has the advantage that the ratio of the magnetic magnets are cuboid, the individual useful flux to the magnetic leakage flux being very large at the magnets lined up next to one another, so that the magnets are made of a material system axis facing ends step-shaped 35 can, which has a small energy content and one against each other, while their very high coercive force (eg H _c > 1500Oe). outer ends in a common plane You get compact magnets with a lying. low volume, which is synonymous with a

4. Permanent magnet system according to claim 3, which is relatively low magnet weight. A characterized in that the permanent 40 particularly low magnet weight is obtained when magnets in two opposite rows are permanent magnets made of hard magnetic ferrites are arranged symmetrically to the system axis. exist, which is known to be a magnetic material

5. Permanent magnet system according to Claim 4, characterized by a very high coercive force and a comparatively low specific weight distance b, which is the two longest, at 45, which is the ratio of the low specific weight to metal alloys.

In the known magnet system described above , permanent magnets have a width from one another, with the permanent switches arranged next to one another, have the permanent magnets transverse to the longitudinal magnets, the individual magnets have on both axes of the system, less than or equal to one of the faces of the system their greatest length so that is quarter. 50 as a result, the space in which an elec-

6. Traveling wave tube with a permanent electron beam tube can be accommodated. at Magnet system according to one of Claims 2 to 5, but very high frequency tubes often have this characterized in that the cathode-side agreed parts, such as the electron end the tube at the front of the magnetic cannon or the electron collector, a behavioral system, on which the soft magnetic diaphragm 55 nismäßig large diameter. The invention lies is arranged, is located during the Auf- therefore the task is based on a permanent catcher the tube between the on the other magnet system to produce a homogeneous Front side of the magnet system arranged per magnetic field for the bundled guidance of a Manentmagneten engages, with the collector electron beam in ultra-high frequency tubes, in particular a soft magnetic shielding jacket to create 60 special traveling wave tubes, without is provided. substantial increase in magnet weight more

Offers freedom to use the tube in the magnet system

bring to.

A

The invention applies to a permanent magnet system 65 permanent magnet system of the type mentioned at the beginning proposed to produce a substantially homogeneous, according to the invention thereby Magnetic field for the bundled guidance of a is characterized that the permanent magnets of Electron beam over a longer distance, one end face of the magnet system up to it

the other end face decrease in height and below the Fig. 1 is in FIG. 3 the course of the field

here the poles facing the system axis of a permanent magnet system according to FIG. 1

Permanent magnets all have the same name, and that and 2 are shown, with the abscissa of the right

on the face of the system, on which the height of the angular coordinate system the path ζ in axis

the permanent magnet has dropped to zero, 5 direction of the system and the ordinate the magnetic

a soft magnetic diaphragm is arranged, the table induction B ₂ indicates. The curve 9 represents the

starting from the soft iron bridges, the vertical value of the magnetic field B ₂ along the axis of the

Magnet system extends right to the system axis. It can be seen from this that only

On the basis of the in the figures of the drawing on the end face of the magnet system on which

Provided Ausoihrungsbeispiele the invention is io the permanent magnets 1 with respect to their greatest height

below with further features explained in more detail on the system axis, a reversal in the

will. Corresponding parts in the direction of the magnetic field course are present

provided with the same reference numerals. is. In contrast, the magnetic sounds. Induction on

In Fig. 1 is from the side and in Fig. 2 the end face on which the soft magnetic diaphragm3 is arranged by a permanent magnet 15 according to the invention, monotonous to zero, which is the case with the system shown with a traveling wave tube, with previously known permanent magnet systems not the traveling wave tube is partially cut open. In the case it is. This proves the particular advantage Figures are with 1 cuboid permanent bonds that the catcher 5 for the traveling field magnets referred to, the perpendicular to the longitudinal axis tube 4, which for the purpose of a uniform as possible Magnet system are magnetized and preferential distribution of the electrons over the whole wise from a hard magnetic ferrite high collector wall should be magnetically feid-free, Coercive force exist. The height of the permanent not to be separately magnetically shielded magnets 1, each in a closed row needs.

one behind the other symmetrically to the longitudinal axis of the The invention has not only for permanent magnet systems is arranged with regard to the 25 systems with which the electron beam System axis bundled up from one end of the magnet system of a high-performance traveling wave tube to the other side of which is to be progressively led. Rather, a shaped from. As a result, the individual magnets according to the invention also have permanent magnet systems stages, whose poles adjacent to the system axis are all bundled guidance of the electron beam from are of the same name, a uniformly absorbing 30 traveling wave tubes of low high-frequency power from stage to stage magnetic potential. To be determined in which the space requirement for the These potential relationships are made clear in those containing the electron gun individual permanent magnets 1 numbers with a part of the tube larger than the space requirement of the positive sign entered, which has a normalizing electron collector. In this case the denote the value of the respective magnetic voltage 35 traveling wave tube in a Per according to the invention should. The magnet system facing away from the system axis is housed in such a way that the Poles of the permanent magnets 1 lie in an end of the tube on the common cathode side on that forehead seed Level and are each located by a soft side of the magnet system on which the iron bridge 2 magnetically short-circuited. The soft magnetic diaphragm 3 is arranged. the the soft iron bridges 2 are on that front 4 ° F i g. 4 shows in longitudinal section and FIG. 5 of side of the system on which the height of the perma- front a corresponding embodiment of the nentmagnete 1 has dropped to zero, each invention. At the same time, partially cut, one bent at right angles to the system axis, where- in this system used traveling wave tube for is formed by a soft magnetic diaphragm 3, medium or smaller high frequency powers dardie is placed perpendicular and symmetrically to the system axis 45, which extends analogously to FIGS. 1 and 2 with 4. This diaphragm 3 has the effect that the magnet is drawn. Also as in FIGS. 1 and 2 table lines of force, those of the system axis are adjacent to those made of hard magnetic ferrite material Poles of magnets 1 go out, inner, cuboid permanent magnets 1 in half of the magnet system a homogeneous magnetic field two opposite rows symmetrical to the without any significant leakage flux being arranged in front of the 5 ° system axis. The individual, together is. Due to the action of the homogeneous lined up magnets 1 are in turn at their the Magnetic field, the electron beam of a system axis facing ends is stepped against a traveling wave tube 4, which are used in the magnetic field separated from each other, being in contrast to the is managed in a bundled way. The tube 4 is a fig. 1 and 2 the interior from the beginning to the Traveling wave tube for high outputs, at which the 55 end of the system is reduced in size. With regard to the in the usual way the electron collector formation of the elongated soft iron bridges 2 is provided with an air cooler 5, which is a raise and the magnetic diaphragm 3 is the same here The system of FIG. 1 has a larger diameter than the rest of the magnet system shown. 1 charge vessel of the tube. Due to the invention and 2. The collector 5 of the traveling wave tube 4 is located proper design of the magnet system, however, act between those permanent magnets 1, the dimensions of the cooler S with the cooling fins 6 which are longest in relation to the system axis, spatially not disturbing. In addition, Das detects in the area of the electron collector 4 one that it is expedient by the magnetic field present according to the invention Permanent magnet system also no difficulties a soft magnetic shielding jacket 10, the prepares, the coaxial line connections 7 and 8, 65 surrounds the interior of the collector, largely which suppresses the coupling and decoupling of the high frequency. The heat loss from the collector 5 energy of the traveling wave tube 4 are required, is radiated from a cooling surface 6, which over to accommodate spatially. non-metallic spacers 11 against the magnet

system is mechanically supported. The high-frequency energy is transmitted to the tube 4 via coupling waveguides 12 and 13 connected, which in turn can easily be accommodated spatially.

In FIG. 6, below FIG. 4, analogous to FIG. 3 the magnetic field curve B ₂ plotted over the length ζ of the magnet system. The solid curve 9 for the course of B ₁ over the distance ζ applies without the traveling wave tube 4, while the dashed field course 14 results with the magnetic shield 10 of the interceptor 4.

The distance between the two longest permanent magnets 1 arranged on one end of the system (it is denoted by b in FIG. 4) should be as small as possible, as in the case of the already known permanent magnet systems with graduated magnets the ratio of the magnetic leakage flux to the useful magnetic must and thus the magnet weight can be kept very small. It is recommended that the ratio of the distance b to the width of the permanent magnets transverse to the longitudinal axis of the system ( denoted by α in FIG. 5) is equal to or less than a quarter. With such a ratio of b / a <. ⁱ Jt can with a magnet system according to FIGS. 1 and 2 or 4 and 5 made with a low magnetic induction on the weight of a magnetic axis of the magnet system of up to 900 G. The measure of providing only two symmetrically opposite rows of permanent magnets has the additional advantage that there is always enough space to accommodate the waveguides or coaxial line connections for coupling and decoupling the high-frequency energy.

The invention is not limited to the exemplary embodiments shown. In particular, can in a plane perpendicular to the longitudinal axis of the magnet weight also four permanent magnets in a star shape be arranged around the system axis, so that there are four closed rows of permanent magnets result. The permanent magnets can in certain

»O In cases it can also be ring-shaped, namely when it is not difficult to detect the high-frequency input and the decoupling of a traveling wave tube.

1 sheet of drawings

Claims (2)

especially for traveling wave tubes, with symmetrical patent claims: to the longitudinal axis of the system arranged perma- 1. Permanent magnet system for generating permanent magnets that magneeines perpendicular to the system axis are essentially homogeneous magnetic field and in a closed row behind for the bundled guidance of an electron beam 5 to one another in relation to the system axis over a longer distance, in particular have changing altitude, with the others for traveling wave tubes, with poles of the permanent longitudinal axis facing away from the system axis symmetrically Magnetic short-magnet magnets arranged in the system by soft iron bridges, which are closed perpendicular to the system axis .. are magnetized and in a closed io In cathode ray tubes for amplification or Series one after the other with regard to the generation of very high frequencies, above all System axis uniformly changing height in traveling wave tubes, must, as is well known, the elec, wherein the electron beam facing away from the system axis is bundled over a certain distance Poles of the permanent magnets are guided by soft iron. One often uses a for this bridges are magnetically short-circuited, so that there is a homogeneous magnetic field with a permanent characterized in that the permanent magnet system is generated, which the discharge magnet surrounds the tube by one end face of the magnetic vessel. systems up to its other end face in Es i.'t known, such magnet systems from Per- decrease their height and thereby build up the manentmagneten, which are symmetrical around System axis facing poles of the permanent 20 the longitudinal axis of the system grouped and radial to magnets all have the same name, and that they are magnetized on the system axis (French patent front of the system at which the height of the writing t 372 136). Those facing away from the system axis Permanent magnets has dropped to zero. The poles of the permanent magnets are made of soft lines soft magnetic diaphragm is arranged, the iron body, which is parallel to the system axis Starting from the soft iron bridges, »5 extend, magnetically connected to one another. at extends perpendicular to the system axis. such a system is also known to the 2. Permanent magnet system according to claim 1, permanent magnets in a closed row characterized in that the permanent to be arranged side by side, in such a way that the Magnets made of hard magnetic ferrite material Height of the magnets in relation to the system axis exist. 30 from the two outer ends to the center of the system