EP0896382A2 - Microwave component - Google Patents

Abstract

The component includes a housing and lid (1,2) made of magnetically conductive material, enclosing an inner space in which a number of plate-shaped components are stacked between the floor and the lid. A section (20) of the space bounded by the floor is recessed from the stack of components. A microwave circulator and an isolator can use the microwave component.

Description

The invention relates to a microwave component.

In German patent application 196 36 840.5 there is a microwave component described, which is a substantially trough-shaped housing part from a Bottom section and at least one on the circumference of the bottom section itself has adjacent wall section and a cover part, housing part and Enclose an interior part of the cover. There is a number in this interior essential disc-shaped components in a stack between the bottom section and Cover part arranged. Is adjacent to the stacked arrangement of the components in at least almost the entire height of the interior between the floor section and cover part at least one magnetically non-conductive spacer arranged. This spacer is for the form-fitting filling of a Space between the stacked arrangement of the components and the or the wall sections along at least part of that dimension of the Wall section or the wall sections provided, which are at least in extends substantially in the direction of the circumference of the bottom portion. The Magnetically non-conductive spacer can be made of electrically non-conductive Be formed material and takes over in this case except a mechanical Locking also the function of an electrical insulation. The spacer can in particular have a high dielectric constant. At least it can an essential part of the space between the stacked arrangement the components and the wall section or the wall sections with a high Dielectric constant must be filled. The cited patent application continues indicated that this space is advantageous for compact, electrical or electronic Circuit elements can be used.

In the current development of the generic microwave components For several reasons, increasingly compact designs are becoming increasingly popular aimed at reduced dimensions. On the one hand, this serves the advancing Miniaturization of devices in which such microwave components for Use, and on the other hand, the operation of these microwave components with ever increasing operating frequencies. This also applies Microwave circulators, as well as microwave isolators, which are commonly called Microwave circulators are built with built-in load impedance. In their The usual design is the load impedance in the same plane with a microwave conductor arrangement arranged as in a conventional manner in microwave circulators used. However, this arrangement has the load impedance especially when dimensioning for high electrical power consumption the disadvantage that for the load impedance in the plane of the microwave conductor arrangement a very large space must be provided. It means that one extending in the direction of the plane of the microwave conductor arrangement Base area of the bottom section of the housing part of the microwave component must also have very large dimensions if the load impedance from Housing part to be enclosed. However, this is from circuit and manufacturing reasons desirable.

The invention has for its object a microwave component of the above described in such a way that despite the inclusion of a extensive load impedance a compactization conducive to miniaturization Design is obtained.

According to the invention, this object is achieved by a microwave component a substantially trough-shaped housing part which has a bottom section and at least one adjoining the circumference of the bottom section Wall portion includes and with a cover part, housing part and cover part are made of magnetically conductive material and enclose an interior, in which a number of essentially disc-shaped components are stacked are arranged between the bottom portion and the lid part such that a at least a partial section of the floor section adjoining partial space of the Interior of the stacked arrangement is recessed.

In the microwave component described in patent application 196 16 840.5 are the essentially disc-shaped components, especially one Microwave conductor arrangement, when mounting in the essentially trough-shaped housing part introduced adjacent to the bottom portion. As a result, adjacent to the floor section is at most in the area of the magnetically and electrically non-conductive spacers at best a very limited space for additional components, for example one Load impedance, available. However, this space is enough for required load impedances. An enlargement of this space along the extent of the bottom section would have inevitably Result in enlargement.

In the microwave component according to the invention, however, the essential disc-shaped parts in their stacked arrangement so dimensioned and aligned that adjacent to at least a portion, i.e. a partial area of the bottom section, for example for the accommodation of a Load impedance suitable area of the interior of the trough-shaped Housing part remains. This area, referred to as a partial space, can be in particular without enlarging the bottom section of the housing part win that order of stacking the substantially disc-shaped Components are chosen so that those of the components with the lowest Dimensions in the direction of extension of the bottom section adjacent to this are arranged. The components with larger dimensions in the direction of extension the bottom portion of the trough-shaped housing part are preferred to the Cover part arranged adjacent. This can also be used, for example more extensive load impedances sufficient subspace without increasing the Dimensions in particular of the bottom section of the trough-shaped housing part create. This subspace can preferably be between at least that Section of the bottom portion to which it adjoins and towards the Extend bottom portion of the components of the stacked arrangement. The subspace can reach into areas of the interior of the housing part that parallel to the direction of extension of the bottom section individual of the disc-shaped components are located. The subspace can, however also extend substantially in the direction of extension of the bottom section and thereby extend into areas of the interior that are between the Bottom section and that of the substantially disc-shaped components extend, which in the stacked arrangement as the bottom portion extreme is facing.

The invention thus within the housing part of the microwave component created a sub-space that also accommodates more extensive Load impedance arrangements is suitable. The location of this subspace offers directly adjacent to the bottom section the advantage that arranged here Load impedance arrangements in good thermal contact with the housing part can be attached. This means that even in very small housing parts Application of load impedances with relatively high power consumption without thermal difficulties, i.e. without overheating the microwave component in operation, possible. The bottom section offers both through its Design as well as its thermal contact with the environment the best Prerequisites for quick and even removal Thermal energy.

• eine Mikrowellen-Leiteranordnung zum Leiten elektromagnetischer Wellen,
• wenigstens ein elektrisch und/oder magnetisch leitendes Zwischenelement, welches sich wenigstens weitgehend parallel zum Bodenabschnitt zwischen den Wandabschnitten erstreckt, und
• ein Magnetelement.

In the microwave component according to the invention, the stack-like arrangement of the essentially disk-shaped components in the order of stacking preferably comprises at least starting from the cover part

• a microwave conductor arrangement for guiding electromagnetic waves,
• at least one electrically and / or magnetically conductive intermediate element, which extends at least largely parallel to the base section between the wall sections, and
• a magnetic element.

The subspace extends at least largely into a spatial area that at least partially to the bottom section, the intermediate element and at least part of the wall sections adjoins. As far as the intermediate element is electrical is conductive, it can be used as shielding and outer conductor for on the Microwave conductor arrangement to serve microwaves, preferably in Interaction with the lid part. The intermediate element becomes magnetically conductive executed, it also preferably takes on the function of an otherwise usual Pole disk for homogenizing the magnetic field, which is the microwave conductor arrangement is acted upon by the magnetic element. However, in the latter case to ensure that a magnetic short circuit between the Intermediate element and the wall sections is avoided. You can do this between the wall sections and the intermediate element, for example, sufficient Dimensioned air gaps may be provided. In the case of the electrically conductive trained intermediate element, this becomes electrically conductive with the housing part connected. This electrically conductive connection came through direct contact be made between the intermediate element and the wall sections. However, this electrical contact must have a low magnetic conductivity exhibit.

According to another embodiment, the microwave component according to the invention comprises at least one support element which extends along at least one of the Wall sections non-positively and / or positively between the bottom section and the intermediate element extends to define the spatial position of the Intermediate element opposite the bottom section. This support element thus serves the locking and alignment of the intermediate element in the housing part. Prefers can on the intermediate element more of the substantially disc-shaped Components are attached, for example by gluing. Their position in the housing part is also exactly defined by the positioning of the intermediate element.

According to a development of the invention, the support element is an electrical one Conductive, but magnetically non-conductive connection between the bottom section and the intermediate element is formed. Depending on the selected positioning of the Support element opposite the wall section or the wall sections can also an electrically conductive connection directly to the wall section or Wall sections be made. For this purpose, the support element is preferably made of electrical conductive material such as aluminum, which is magnetic is not conductive.

Fig. 1 eine Draufsicht auf ein Mikrowellen-Bauelement gemäß einem ersten sowie einem zweiten Ausführungsbeispiel, im folgenden als Ansicht W bezeichnet,

Fig. 2 eine Rückansicht der Mikrowellen-Bauelemente gemäß Fig. 1, im folgenden als Ansicht X bezeichnet,

Fig. 3 eine Vorderansicht des ersten der Ausführungsbeispiele des Mikrowellen-Bauelements gemäß Fig. 1, im folgenden als Ansicht Y bezeichnet,

Fig. 4 eine Seitenansicht des ersten der Ausführungsbeispiele des in Fig. 1 dargestellten Mikrowellen-Bauelements, im folgenden als Ansicht Z bezeichnet,

Fig. 5 einen Schnitt durch das erste Ausführungsbeispiel des Mikrowellen-Bauelements gemäß Fig. 1 entlang der in Fig. 1 dargestellten Schnittlinie A-A,

Fig. 6 einen Schnitt durch das erste Ausführungsbeispiel des Mikrowellen-Bauelements gemäß Fig. 1 entlang der in Fig. 1 dargestellten Schnittlinie B-B,

Fig. 7 einen Schnitt durch das erste Ausführungsbeispiel des Mikrowellen-Bauelements gemäß Fig. 1 entlang der in Fig. 4 dargestellten Schnittlinie C-C,

Fig. 8 eine Vorderansicht (Ansicht Y) eines zweiten der Ausführungsbeispiele des Mikrowellen-Bauelements gemäß Fig. 1,

Fig. 9 eine Seitenansicht (Ansicht Z) des zweiten Ausführungsbeispiels des Mikrowellen-Bauelements gemäß Fig. 1,

Fig. 10 einen Schnitt durch das zweite Ausführungsbeispiel des Mikrowellen-Bauelements gemäß Fig. 1 entlang der in Fig. 1 dargestellten Schnittlinie A-A,

Fig. 11 einen Schnitt durch das zweite Ausführungsbeispiel des Mikrowellen-Bauelements gemäß Fig. 1 entlang der in Fig. 1 dargestellten Schnittlinie B-B,

Fig. 12 einen Schnitt durch das zweite Ausführungsbeispiel des Mikrowellen-Bauelements gemäß Fig. 1 entlang der in Fig. 9 dargestellten Schnittlinie C'-C'.

Embodiments of the invention are shown in the drawing and are described in more detail below. Corresponding elements are shown with the same reference symbols throughout the drawing. Show it

1 is a plan view of a microwave component according to a first and a second embodiment, hereinafter referred to as view W,

2 shows a rear view of the microwave components according to FIG. 1, hereinafter referred to as view X,

3 shows a front view of the first of the exemplary embodiments of the microwave component according to FIG. 1, hereinafter referred to as view Y,

4 shows a side view of the first of the exemplary embodiments of the microwave component shown in FIG. 1, hereinafter referred to as view Z,

5 shows a section through the first exemplary embodiment of the microwave component according to FIG. 1 along the section line AA shown in FIG. 1,

6 shows a section through the first exemplary embodiment of the microwave component according to FIG. 1 along the section line BB shown in FIG. 1,

7 shows a section through the first exemplary embodiment of the microwave component according to FIG. 1 along the section line CC shown in FIG. 4,

8 shows a front view (view Y) of a second of the exemplary embodiments of the microwave component according to FIG. 1,

9 shows a side view (view Z) of the second exemplary embodiment of the microwave component according to FIG. 1,

10 shows a section through the second exemplary embodiment of the microwave component according to FIG. 1 along the section line AA shown in FIG. 1,

11 shows a section through the second exemplary embodiment of the microwave component according to FIG. 1 along the section line BB shown in FIG. 1,

FIG. 12 shows a section through the second exemplary embodiment of the microwave component according to FIG. 1 along the section line C'-C 'shown in FIG. 9.

The two exemplary embodiments shown in the figures show one Microwave component, which forms a microwave circulator that passes through reflection-free termination of one of its three gates in its microwave conductor arrangement through an appropriately dimensioned load impedance for the Function of a microwave insulator came to be formed. This microwave device comprises a housing consisting essentially of a trough-shaped housing part 1 and a cover part 2. That essentially trough-shaped housing part 1 comprises a bottom section 3 of at least largely square in circumference as well as four on the circumference of the Floor section 3 adjoining wall sections 4, 5, 6, 7. A first of these Wall sections with the reference numeral 4 forms that in the front view (View Y) visible wall of the housing part 1. A second of the wall sections with the reference numeral 5 forms the part of the visible in the rear view (view X) Housing part 1, a third wall section with the reference numeral 6 forms the in the left side view (view Z) visible part of the housing part 1, and the fourth Wall section 7 forms the side view from the right - the view Z opposite - visible part of the housing part 1. The housing part 1 with Bottom section 3 and wall sections 4 to 7 is preferably in one piece Chipless machining from an essentially plate-shaped, magnetic conductive material formed, for example from a magnetically conductive sheet punched and folded. The cover part 2 is also produced in a corresponding manner

The wall sections 4 to 7 are essentially rectangular. On they have their edges facing away from the circumference of the bottom section 3 cone-like projections, which when assembling the housing part 1 with the Cover part 2 in corresponding recesses in the cover part 2 form-fitting intervention. These pin-like projections on the wall sections 4 to 7 are with 8, the recesses in the cover part 2 with the reference number 9 designated. Housing part 1 and cover part 2 can be glued, welded, Solder or bend or pivot the peg-like projections 8 be connected to each other. In addition, each other is the same in the result Acting connection type of housing part 1 and cover part 2 possible.

The wall sections 4 to 7 are not substantially to the corners of the square circumference of the bottom portion 3, but in the area of this Cut corners. In these corners there are 3 openings in the bottom section provided as screw holes for attaching the microwave component in serve a device or the like in which the microwave component is used finds. These breakthroughs in the illustrated embodiments with the Reference numerals 10 are, for example, of circular circumference; she can however also as slot-shaped recesses in the circumference of the bottom section or be formed in a contour with a comparable effect.

The housing 1, 2 in the configuration described above forms part of a magnetic circuit, in the following a number essentially disk-shaped components is included, the stacked between Bottom section 3 and cover part 2 are arranged. In the order of These are stacking, starting with the component adjoining the cover part 2, a first ferrite disc 11, a flat inner conductor 12, a second Ferrite disc 13, an intermediate element 14, a circular disc Permanent magnet 15, a thermoflux disk 16 and, in the case shown, by a Air gap 17 separated, a slidably arranged tab 18. In this The ferrite disks 11, 13 form the stacking together with the inner conductor 12 Microwave conductor arrangement to which the cover part 2 and the intermediate element 14 which form symmetrically spaced outer conductors in this example. That’s it Intermediate element 14 is electrically conductive. The intermediate element 14 is also formed from a magnetically conductive material and thereby forms at the same time a pole disk for the distribution and homogenization of the Permanent magnet 15 applied magnetic field, which the microwave conductor arrangement 11, 12, 13 perpendicular to the planar extent of the inner conductor 12 enforced. The intermediate element 14 is positively between the Wall sections 4 to 7 inserted. However, to avoid a magnetic short circuit To avoid these wall sections 4 to 7, the intermediate element 14 is included Recesses along its edges adjacent to wall sections 4 to 7 provided so that the intermediate element 14 only on the wall sections supported via narrow webs 19. Otherwise, the intermediate element is 14 preferably also formed without cutting from a magnetically conductive sheet.

Instead of the intermediate element 14 described, the illustrated embodiments also a multi-part intermediate element from a electrically conductive, film-like part as an outer conductor for the microwave conductor arrangement 11, 12, 13 and an arrangement of magnetically conductive Pole disks are used.

In the exemplary embodiment shown, the tab 18 consists of a flat, magnetically conductive sheet and lies flat against the bottom section 3. The tab 18 forms with the air gap 17 an arranged in the magnetic circuit, Geometrically changeable magnetic tuning element. By moving the Tab 18 in a direction parallel to section line A-A on the bottom section 3 the air gap 17 is changed in its contour, in particular its width, and thus adjusted in its magnetic conductivity. This changes the magnetic field strength in the entire magnetic circuit and thus also in the area the microwave conductor arrangement. The microwave component is compared this enables simple and precise.

In the area of the bottom section 3 where the tab is slidably arranged is one that is at least partially coverable by the tab 18, primarily slit-shaped extending in the direction of displacement of the tab 18 Recess 20 made in the bottom portion 3; for example one Punching. By choosing the contour of this recess 20, the Adjustment properties are influenced by the magnetic tuning element.

In the first and second wall sections 4, 5 are further along the Border along which these wall sections 4, 5 adhere to the circumference of the Connect bottom section 3, recesses 21 and 22 provided through even when a microwave component is installed in a device, for example a shift of the tab 18 and thus a comparison made easily can be. A separate mechanical attachment of the tab 18 on Bottom section 3 is not shown and can also be omitted because both elements are held in their position relative to one another by magnetic attraction. About that however, the position of the tab 18 was also secured by adhesive or security lacquer or the like. be made.

The inner conductor 12 points to the formation of the three gates of the microwave component three connecting conductors 23, 24, 25. These are arranged accordingly Recesses 26, 27, 28 in the first, third and fourth wall sections 4, 6 and 7 respectively led out of the housing 1, 2 of the microwave component, whereby a electrical insulation of the inner conductor 12 against the housing 1, 2 is ensured.

Fixing the installation position of the substantially disc-shaped components 11 to 18 - wherein the air gap 17 as a result of the preselected installation position of the Elements 11 to 16 and 18 results - serve two support elements 29, 30, which are along the third and fourth wall sections 6 and 7 in a form-fitting manner (and also non-positively) between the bottom section 3 and the Extend intermediate element 14. These support elements 29, 30 are electrically conductive, however, designed to be magnetically non-conductive and preferably made of aluminum shaped. They define the spatial position of the intermediate element 14 opposite the bottom section 3, i.e. they set the distance between these two elements fixed to each other. They also provide the essential electrical connection between the housing part 1 and the intermediate element 14 Support elements 29, 30 fill part of the space within the Microwave component made by the bottom portion 3, the Intermediate element 14 and the wall sections 4 to 7 is delimited. This Room area also contains the permanent magnet 15 and the Thermoflux disc 16 and the magnetic tuning element with the tab 18 and the air gap 17 that can be influenced by it described space area to a partial section of the floor section 3 Adjacent subspace 31 is left out of the listed components. This Partial space 31 is indicated by the dashed line drawn in bold. By doing Subspace 31, which is in the immediate vicinity of the floor section 3 and thus good electrical and, above all, thermal contact with the Bottom section 3, the load impedance mentioned was preferably arranged through which one of the connecting conductors of the inner conductor 12, preferably the first Lead 23 came to be completed reflection-free. The existing one Subspace 31 enables a load impedance arrangement, which for a Comparison to the dimensions of the housing 1, 2 of the microwave component high power dissipation came to be designed. This can be a microwave isolator build high performance class with very compact dimensions. In particular, a load impedance with a power consumption in the Range between 50 and 200 watts. This large load impedance can be within the Housing 1, 2 can be arranged without the dimensions of the bottom portion 3 increase. The arrangement of the load impedance adjacent to the bottom section 3 also ensures thermal decoupling from the microwave conductor arrangement 11 to 13.

For the assembly of the described embodiments of the microwave component according to the invention is first in the housing part 1 Tab 18 inserted. Then the support elements 29, 30 in the Housing part 1 introduced. In the between the support members 29, 30 and Floor section 3 or the tab 18 lying area is then the Thermoflux disc 16 and the permanent magnet 15 arranged and it becomes this Space area covered by the intermediate element 14. To ensure the Air gap 17 must be the height of the support elements 29, 30 in the viewing direction View W may be greater than the sum of the heights of tab 18, the Thermoflux disc 16 and the permanent magnet 15. Instead of for reasons The single thermoflux disc 16 shown in the simplification can be used in practice an arrangement of several Thermoflux disks can also be used. The permanent magnet 15 and the are advantageous in a pre-assembly Thermoflux disc 16 on the intermediate element 14, for example by gluing attached and the pre-assembled assembly 14, 15, 16 with the Permanent magnets 15 in the direction of the bottom section 3 on the support elements 29, 30 put on. The microwave conductor arrangement is placed on the intermediate element 14 layered from the ferrite disks 11, 13 and the inner conductor 12 and by applying the cover part 2 and fixing it to the housing part 1 fixed.

The assembly of the entire microwave component can be stacked in one Complete assembly jig, which has, for example, three pins for assembly by corresponding recesses, not shown in the exemplary embodiments be performed in the bottom section 3 and the position of the individual, disc-shaped Define components 11 to 16, 18. After attaching the cover part 2 that Microwave component pulled from these pins.

The permanent magnet 15 is installed in the fully magnetized state. The magnetic field necessary for the operation of the microwave component is with the slidable tab adjusted. For mechanical access to this Tab 18 can also use the recess 20 in the bottom section 3 as long as they are - due to the installation position of the microwave component - is accessible.

The exemplary embodiments shown in the figures differ in terms of the formation of the subspace 31 by the selected shape for the Permanent magnets 15. While in the first embodiment shown in FIGS. 1 to 7 the disc-shaped permanent magnet has a radial extension, which in essentially coincides with that of the ferrite disks 11, 13 is in the second 1, 2, 8 to 12, a permanent magnet with lower radial dimensions used. To achieve a comparable volume for the Coming permanent magnet 15 is the thickness of the disc-shaped Permanent magnets 15 selected larger in the second embodiment than in the first Embodiment. Correspondingly, the subspace 31 extends in the first Embodiment to a significant extent in the space between the permanent magnet 15 and the tab 18, i.e. in the air gap 17. Im The subspace 31 in the second exemplary embodiment compares this with FIG much larger proportion of a space between the floor section 3 and the intermediate element 14, which is laterally through the first wall section 4 on the one hand and by the permanent magnet 15 and the tab 18 on the other is narrowed down. By reducing the radial dimension of the Permanent magnet 15 in the second embodiment is also one Enlargement of the subspace 31 to accommodate a load impedance compared to the first embodiment possible.

Claims (9)

Microwave component with a substantially trough-shaped Housing part, a bottom portion and at least one on the circumference of the Bottom section adjoining wall section and with a Cover part, housing part and cover part made of magnetically conductive material are shaped and enclose an interior in which a number in essential disc-shaped components in a stack between the bottom section and Lid part are arranged so that at least a portion of the Floor section of adjoining subspace of the interior from the stacked Arrangement is spared. Microwave component according to claim 1, characterized in
that the partial space extends between at least the section of the base section and the outermost of the components of the stacked arrangement in the direction of the base section. Microwave component according to claim 2, characterized in
that the partial space extends essentially in the direction of extension of the base section. Microwave component according to claim 1, characterized in
that the stack-like arrangement of the substantially disc-shaped components in the order of stacking at least starting from the cover part a microwave conductor arrangement for guiding electromagnetic waves, at least one electrically and / or magnetically conductive intermediate element, which extends at least largely parallel to the base section between the wall sections, and a magnetic element comprises and the subspace extends at least largely into a space area which at least partially adjoins the base section, the intermediate element and at least a part of the wall sections. Microwave component according to claim 4, characterized by
at least one support element which extends along at least one of the wall sections in a non-positive and / or form-fitting manner between the base section and the intermediate element to define the spatial position of the intermediate element with respect to the base section. Microwave component according to claim 5, characterized in
that an electrically conductive but magnetically non-conductive connection is formed between the base section and the intermediate element by the support element. Microwave component according to claim 1, characterized in
that the subspace is designed to accommodate a load impedance arrangement. Microwave circulator, characterized by
an education with a microwave component according to any one of the preceding claims. Microwave insulator, characterized by
an embodiment with a microwave component according to one of claims 1 to 7.

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