DE1541062A1 - Microwave tubes with slot mode suppressor - Google Patents

Description

PATENTANWÄLTE o2 V9 U

DR. CLAUS REINLÄNDER
DlPL-ING. KLAUS BERNHARDT 1 54 1062

D-6 MUNICH 23 MAtNZER STRASSE 5

Laboratories Inc.
Union, New Jersey / U ÜA

Microwave tube with slit-out lower back

Priority October 19th. T965 United States öer.Νο.Α97 · 791

The invention relates generally to cross-field microwave tubes and, in particular, an improved Schiitzmodusauorber, aer is useful for coaxial metrons. Coaxial magnetrons are mainly used as high-power microwave generators used as they are typisclierweise as user tubes used for Raaar devices.

In coaxial magnetrons, acnlitzmaus absorption devices have already been provided with which the energy of the undesired resonance slot mode has been absorbed. Typically, such a slot mode absorber had a EoTia of a lossy annular element, usually comprised of alumina impregnated with carbon. stood near a circular row of axially directed resonance slots communicating through the back wall of a row of tail resonators with a relatively large coaxial cavity for the circular electrical mode around the

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ΤΓ-MocLus of the flag resonator -with ueni circular electrics Lock mode of the coaxial cavity. iaese on A circle of pure coupling slots bj. ± uet a resonance system and can at one of its Heöonanzfrequenzen Erier ^ e save. because the 3-slot resonators, not good like the coaxial cavity, via ax i'ahnresonatoren uit are coupled to the nuclear effect area of the magnetron it possible to aatf the Schiitzresonatoren if they are sufficient Can store energy, the flag resonators with aem ociilitz ^ iodus of the resonance lock instead of what is desired circular electrical resonance from uee coaxial resonance laboratories. x) the purpose of the flash mode absorber is best, to absorb the energy of the lightning resonance and to prevent aais aieser enough airier ^ ie saves, around the Fannen resonator with its resonance frequency guess at ν, en.

In Mikrüwellenröiiren, for example, 35U aie on high leistun _fa spegeln arueiten, fi & öpitzenleisxung UHA 120 v; medium power at 3 G-Hz, the energy absorbed by the Schlitziaouusaboorber is still very much. Bekaiurte ScnlitiiiiiOüusaiasorber-Ütüxzen, for example after aer U.S. Patent 5,169,211 or U.S. application 223 4-99 from I3. September 19b2 held the iiodusabsorber ring loosely in a metallic retaining ring. It was found that this absorber support construction ■ offered inadequate heat conduction from the Mouusausorber to a suitable heat dissipation. An un _e enügende transfer of tfärme to aie vv'ärmeableitung revealed a localized over

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äes slot mode absorber, causing cracks una / ouer unacceptably high degassing results.

As a starting point, the slit mouse absorber is provided with a metal tube, for example made of copper, which is axially at the same height and which is closely connected to the mouse absorber in a suitable manner with good thermal conductivity, so that the airflow is easily distributed over the skin absorber, in addition to being conductive a suitable heat dissipation is facilitated.

Key uer erfinaungsgemäßen support structure wira the Spitzenaus _o angsleistung and aie average output power of the so-equipped microwave tube substantially increased over prior art tubes without AASS the mode absorber fails or degassed too strong.

The invention is therefore intended to provide an improved cross-field microwave oven be made available.

The invention is based on a microwave tube with two resonance systems coupled with a pure slit a Hodusun returnees in l'urm of a loss suffered in the vicinity eier Eoppelsclilitze, with the-der soxianziuottus is absorbed, una the task aer ijrf.lnu.ung wira üaaurcü solved that the veriuütbehaftete element on its side that is deviated from the slits on one

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A considerable part of the surface is connected to a metallic sleeve, with aer the heat evenly over the Element is distributed. The sleeve can for example consist of copper and can simultaneously absorb the heat from the absorber forward to a heat sink; The sleeve is expediently soldered to the mode absorber.

In a particularly simple case, the mode absorber can also be connected directly to the pole piece of the magnetic circuit Tube are soldered so that the pole piece serves as a conductive sleeve and as a heat dissipation at the same time.

The mode absorber itself can consist of ceramic impregnated with carbon.

These and other features and distributed invention result from the following detailed description in connection with the drawing; show it: Figure 1 is a perspective view of an inventive reverse magnetron tube; FIG. 2 shows a partial section along line 2-2 in FIG. 1; FIG. 3 shows the detail enclosed in FIG. 2 by the line 3-3;

FIG. 4 that enclosed in FIG. 3 by the line 4-4 Detail;

FIG. 5 shows a partial section through another tube construction, üie is characteristic of a normal coaxial magnetron, with a mode absorber according to the invention;

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- .5 -. 15A1062

FIG. 6 shows a variant of the construction according to FIG. 5; and Figure 7 shows a further variant of a construction according to ..Fig.

The inverted magnetron shown in x <'igur 1 (reverse magnetron) consists of a hollow tubular support body 10, for example made of copper, on aen a tubular body Output waveguide 12 and a tuning device are soldered, everything is axially aligned, '.din Kathoaen lead insulator 16 protrudes from the main body 10 perpendicular to the output waveguide and aer axially aligned with it Voting device.

FIG. 2 shows part of the magnetron, and a koiil space 18 for the circular electrical muscle, which is central in the axis of the tube in the anaenal support body 10 is arranged. A circumferential arrangement of outwardly directed flags 20 surrounds the cavity 18flr uen circular electrical mode and form an array of anode resonators through the spaces between adjacent lugs. Alternating anode resonators are electromagnetically directed via axially directed slots 22 with the cavity 18 for aen circular electric mode coupled; the slots protrude through the common wall between the Anouen resonators and the cavity for the circular electrical mode. A magnetron interaction space 24 surrounds the outer tips of the lugs 20 and is defined by the space between the flags and. a surrounding cathode emitter

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ring 26 limited. '

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A strong axial magnetic field of 12,000 to Iri.ouo Gauss for the magnetron interaction space 24 is supplied by a magnetic annulus 28 which is only partially shown in FIG. 2 and which surrounds the anode body 10. ijer magnet 28 has a re-entrant internal magnetic air gap, uer extends axially through Uri magnetron Weciiaelwirkun _ö breakfast room 24 between aen Magnetpolscnuhen 29, the uer on beiaen oeiten Anodenf poor sina angeorunet 20th

In order to tune the tubes to their center frequency, there is a tuning disk. 30 inside the cave 18 is arranged and forms a movable front wall of the same; it is carried by an axial rod or a plunger 32. The Scneibe 30 can axially by means of a _fc, efangenen mother una of a bellows 34 are driven, which are shown in part.

In accordance with the invention, a slot mode generator 36 (shown in more detail in FIG. 3) is provided in the vicinity of the cylindrical wall 38. The annular Scnlitzmouusabsorber 36 is disposed in the ITäne the ends aer slots 22 and suppresses unwanted aen dchlitzmodus.

The Sciilitzmodusabaorber 36 consists of 'lonerde-KeraiaiK or beryllium oxide containing about 30% is porous and is ägniert with sucrose -j2 ^{G H} 22 11 ° ⁱⁿ P ^r. Before the impregnation, the diaphragm wall 38, ie the side facing away from it, is removed from the absorber with molybdenum manganese to

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aüi "'" tapered an area 0.2;> 4 mm (ü, O10 ") from the outside Metallized tip 59 of the absorber. Before final assembly the pipe is over impregnated body at about 910 ° G Fired in a hydrogen atmosphere to make the sucrose to reduce carbon, creating a lossy black surface.

As shown in Figure 3, the slot is a mode absorber 36 is encased in a thin sleeve 40 which is axially at the same level and is a good heat conductor and which consists, for example, of a 0.18 mm (0.007 ") thick copper plate. The copper jacket 4-0 is with the absorber connected to the pole piece 29, for example by soldering. The jacket 40 extends over practically all of the surface of the absorber 36, from the outer slots points away, and follows a gradual taper 42, about 30 °, at one end of the absorber. By the allaüiiliche Tapering, the tip of the absorber 36 has a larger cross-sectional area than one with a sharper one Taper to allow heat transfer from the thin tip of the absorber to the rest of the absorber and the jacket 40 to facilitate. The taper 42 makes this easier Inserting "the absorber in its correct position at the Manufacturing.-

Slightly more massive Jas other end of the heat conducting sleeve or aes "means of 40 is verbunuen with the j'ulschuh 29 so uaia uie //•;.rme to this body via met UTID

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can be detached from this, so that the metallic Pole shoe 'a heat dissipation "üiiüet. The effect is that Mode suppressor. good thermal conductivity to a thermal discharge arranged, aie forms a good heat-conducting path una aen oppressor aaran hiriaert., locally-ernönte To accept temperatures. '

Soldering the Metallmantesl 40 at aen keramiscnen body 36 can be achieved by the ..that. Ceramic is metallized before coal deposition. A metal layer 44 (- see FIG. 4) made of a coating of manganese, titanium, molybdenum or tungsten, for example, is applied to aie ceramic. After the ceramic has been impregnated, soldering takes place by means of the metallized layer 44. Details of the manufacture of such units are described in aerUb patent specification 3,197,290.

Of the. Copper jacket 40 biiaet 'to distribute the heat evenly over d' n mode absorber 3b and thus avoid local heating a Möglicnkeit. If the heat is distributed evenly over the absorber, cracks in the absorber are avoided and by removing the heat from the absorber, undesired gas formation is reduced. The operating power level is thus increased considerably in a very large frequency range. ·

• In one embodiment, a tunable was reversed Magnetron of the type shown in FIGS. 1-3

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340 kvv peak power, 120 W average power at 3 G-Hz ■ operated without er / iitzungsprobleme the Moausabsorbers occurred., ils thus not only becomes a more stable mode suppressor achieved, but also higher power levels are achieved. '"·.

In Pig. 5 is another embodiment of the invention shown ,, which is suitable for normal coaxial magnetrons, where a resonance room 51 for cienkreisfö-imi- ■ in electric mode a circular arrangement of ' Surrounding flag resonators 52 and having a series of -axial ■ " corrugated slots 53 coupled to this, the through a common v / and 54 lying in between, are sufficient. Such a tube is described in U.S. Patent 3,169,211. Regarding the mastery of the The same mode of operation occurs with such magnetrons ._ Problems on how they relate to the reverse Coaxial magnetron described in connection with Figures 1-3; ben are. .

A ring-like lossy slit mouse absorber 55 " is located near the ends of the slots 53 to absorb the energy of the unwanted 'circular resonance mode. In this embodiment, the mode absorber is which consists, for example, of carbon-impregnated alumina ceramic in the manner described, to a thermally conductive metal sleeve 56, for example made of copper, ' soldered to a massive iron pole

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shoe. 7 .aes magnet circle is soldered to the tube. The massive iron pole piece, bilaet, among other things, by means of heat dissipation "for aen 'where absorber." -kräftiges axial Ma _f _'üetfeld in the annular Mag / ie'trron-Wech.selwirkunosraum -j8 between the row of Anoüenfahnen 52 uria a Katnoaen-

• t ·

emitter 59 · * The copper sleeve 56, .. aie a Binuungs-Z./iscrienflache between a mode absorber 55.unu and Poischun biia-et, enables a good heat transfer from the absorber to the heat dissipation and ensures a uniform heat distribution via aem mode absorber 55 to be thermally generated To prevent shocks and jumps.

In Mg. 6 is a variant of the embodiment according to FIGS. In eggs a thermally conductive metallic cylindrical sleeve 61, for example of copper, practically over its entire length to aen Wodusabsorbtionsring whether soldered, but only with the compressed end 62 of the pole piece 57 is soldered. This embodiment makes it possible to absorb tensions, which occur through various heat dissipation between a pole shoe 57 and a Moauäa'usorber 55, through the flexibility of the thin "-" flexible, iuise 61, which at the same time have a good heat path along the Moausabsorber 55 to 57 as heat dissipation bilaet.

In Fig. 7 is a further variant of the structure according to Fig. 5, in which the metallized Hodusaoaor

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ringS5 uii is soldered directly to α en Polsclmh 57, Una> was essentially on its entire axial and circumference lengthwise, so aass "a good heat-conducting connection to the pole piece 57 is formed as a heat dissipation.

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Claims (8)

Claims . Microwave ronre iuit. -White through a series of slits coupled resonance / ötemen and a Moausunterarücker in the form of a loss-affected Exeuents in aer Näne aer coupling slots, j.iit aeiu aer üculitζ resonance .Jio-out is absorbed, indicated by, among other things, aas venustbeaftete ülernent on his uen d aOtjewanuten side eel 'a considerable part of the area iuit a metalliacnen sleeve is connected, iuit aer aie Warmth ^ easily, - is distributed over aaf3 Jileiaent. 2nd tube after A ^ Kr ^ rucii 1, jauuroi. _o elenj, ^ eicixnet, aaii die metal j is ehe; iülse en, .iia ^ netiaCuer Polschuh dey Ka ^ netkreiaes aer pipes, uuu (.er Polscnuh ^ leirjnij-eitig as heat dissipation uient. 3 · Listen to üiisurucli 2, ü - ^ .... u, r ·: ': ■■. , ■ • eKej.i. ^ exchnfet, ua ^ aer Polsoiiuh innernaiL ues veri · .. Ibt - ^^ rteten! Elementea arranged and i, jit uesuen inner width is veruuuaen. 4. Röiire according to Anaurucn 1, aaaurcji ^ ejtennzeicnnet, aai _U aie sleeve via a heat-conducting connection with a .aoüivei; ι,;. .] 'ju.e;.:. blc j lung is veruunuen. BAP.OBIC3INAL 909830/069 8 5. Höiire according to claim. 4-, characterized uaio the Heat dissipation a magnetic pole shoe ues magnetic circuit aer HoJ-ire is 6. Hötire according to claim 4 or 5, uacmrch gekermzeicnnet, üaii the wall thickness of the sleeve is smaller than the ues lossy element and smaller than 1.8 mm (0.07 ").» To be able to withstand low / low stresses. • Achieve ΔΜ and thus avoid jumping of the lossy element. 7 · Hones according to one of claims 1 to 6, also characterized in that aas. Loss-prone Dlement ring-shaped Una the sleeve is tubular, and both coaxially one above the other are connected to each other lying down. 8. Tube according to any one of claims 1 to 7, characterized in that that the lossy element is a porous element ceramic body is that with a steaming material is impregnated. 909830/0698