EP1596463A1 - Coaxial resonator - Google Patents

Abstract

A coaxial resonator has a tuning body (6) held coaxially in the tube (2) without electrical contact by a ceramic dielectric rod (5) with threaded (4) opposite end designed to push the body into position and material temperature expansion coefficients selected to keep the body to housing end (1a) distance constant.

Description

The invention relates to a coaxial resonator with the in Preamble of claim 1 specified characteristics.

• In mindestens eine Wand ist mindestens eine Abstimmschraube eingedreht. Die Abstimmschraube kann insbesondere gleichachsig zu dem Innenleiter die dessen freiem Stirnende gegenüberliegende Wand, gewöhnlich den Deckel, durchsetzen. Durch Verändern der Eintauchlänge der Abstimmschraube in den Innenraum lässt sich die Resonanzfrequenz ändern. Der Innenleiter kann in diesem Fall statt als Rohr auch massiv ausgebildet sein.
• Anstelle einer metallischen Abstimmschraube kann ein Dielektrikum verwendet werden, z.B. auch in Form eines Stiftes in dem Innenleiterrohr, der so weit über das offene Rohrende hinaus in den Innenraum geschoben wird, bis die gewünschte Resonanzfrequenz erreicht ist.
• In dem Innenleiterrohr ist ein mit diesem über Metallbüchsen kontaktierend verbundener Abstimmstift aus Metall angeordnet, der über das offene Rohrende hinaus soweit verschoben wird, bis die gewünschte Resonanzfrequenz erreicht ist.

Resonators of this type are known. Several such resonators may have a common housing and interiors coupled to a multi-channel high frequency filter. The housing of a single resonator or a plurality of resonators may be integrally formed of metal, in which case the recessed interior or spaces are sealed with a metal lid. Alternatively, the housing and / or the lid may be made of plastic, which is metallized at least on the inside, for example, is electroplated. The same applies to the projecting into the interior, conductive tube, which plays the role of an inner conductor. For tuning such a resonator, the following three possibilities are known in the prior art:

• In at least one wall at least one tuning screw is screwed. The tuning screw can in particular coaxially to the inner conductor whose free front end opposite wall, usually pass through the lid. By changing the immersion length of the tuning screw into the interior, the resonance frequency can be changed. The inner conductor can be solid in this case instead of a pipe.
• Instead of a metallic tuning screw, a dielectric can be used, for example, also in the form of a pin in the inner conductor tube, which is pushed so far beyond the open end of the tube into the interior, until the desired resonance frequency is reached.
• In the inner conductor tube, a metal with this Abstimmstift over metal bushing connected Abstimmstift is arranged, which is moved beyond the open end of the pipe out until the desired resonant frequency is reached.

The vote by means of a dielectric has the disadvantage a very narrow tuning range. A tuning screw or a voting pen have the disadvantage that when voting Metal abrasion can arise, the intermodulation products can cause.

The invention is based on the object, a coaxial Resonator specified in the preamble of claim 1 To create a genre without the risk of the emergence of Intermodulation products over as large a range as possible is tunable.

This object is achieved in that the Tuning body over a rod of dielectric material Coaxially held in the tube is galvanic without the tube to contact and that facing away from the Abstimmkörper End of the rod for the displacement of the tuning body is trained.

In this case, form the inside of the inner conductor tube and the metallic tuning body a coaxial lead. The length of the inner conductor tube is dimensioned so that they are in the desired resonant frequency is equal to λ / 4. The front end of the inner conductor tube therefore acts as a short circuit, so that at this point a HF moderately ideal, but non-contact Contact between the inner conductor tube and the tuning body consists. When moving the tuning body changes the capacitance between the face of the Abstimmkörpers and the opposite wall of the housing in opposite directions to the capacitance between the jacket of the tuning body, primarily between its enclosed by the pipe Part of its length, and the inner mantle of the Tube. According to this detuning of the resonator the resonance frequency changes. The rod of dielectric Material over which the tuning body moved will remain as well as the means for moving the rod however, without any influence on the resonance frequency, because that Pipe acts as a partially filled with dielectric Circular waveguide whose critical frequency due to the in Ratio to the wavelength of the resonant frequency low Diameter far above the resonant frequency, so that the adjusting mechanism in frequency from the Abstimmkörper completely decoupled. The means of displacement The rod are basically arbitrary. For example, can the rod out of the tube and out of the housing and be displaceable from the outside. In this case, one is Guide bush or other guide means between the Rod and the inner wall of the pipe necessary to ensure that the tuning body is exactly coaxial with constant Width of the preferably small annular gap to the inner wall of the tube is slidable in this.

However, this is preferably the opposite of the tuning body End of the rod engaged with an internal thread in the Pipe (claim 2). The end of the rod can be a corresponding Have external thread.

Instead, the end facing away from the Abstimmkörper the rod sit in a box with an external thread, which engages with the internal thread in the tube (Claim 3).

The tuning body is advantageous as the end of the rod surrounding pot formed (claim 4). The pot can over part of its depth or over its entire depth be pressed or glued on the end of the rod.

Between the tuning body and the inner wall of the pipe There is a dielectric (claim 5), which is the simplest Case air is (claim 6), but also from one Plastic with higher relative dielectric constant can be.

The rod may be made of ceramic (claim 7), which the Advantage has, among ceramics with different thermal expansion coefficients to be able to choose. Because the rod but she is not in the field-filled room also be made of plastic.

Suitably, the tuning body and the rod are made Materials with temperature coefficients so chosen are that the temperature-dependent change of the distance the end face of the tuning body from the inner surface of the Wall of the housing whose temperature-dependent dimensional changes compensated (claim 8). This can be the requirement for stability of the tuning or resonant frequency even over a very wide range of ambient temperatures be fulfilled.

Fig. 1

den Resonator im Schnitt und

Fig. 2

eine Aufsicht bei abgenommenem Gehäusedeckel.

In the drawing, an embodiment of a resonator is shown in simplified form. It shows:

Fig. 1

the resonator in section and

Fig. 2

a supervision with removed housing cover.

The embodiment relates to a resonator, a center or resonant frequency of 1750 MHz and has a tuning range of 640 MHz. The resonator is Part of a four-circuit band filter for mobile.

The resonator consists of a pot-shaped metal housing 1, in this embodiment both in side view as well as in the supervision is square. Other However, geometries are just as possible. The housing 1 is closed by a lid 1a RF-tight. From the middle of the housing bottom 1b, a pipe 2 extends in the direction the lid 1a. The tube 2 can, as shown, in one piece be with the ground 1b. From the bottom side Opening is in the tube 2 a threaded bushing 3, for. pressed or glued. The threaded bushing 3 has a Internal thread into which a tuning screw 4 is screwed. The tuning screw 4 takes the lower end of a ceramic rod 5 on. On the upper end sits a sleeve or cup-like tuning body 6 made of metal, in the drawn Position over the greater part of its length of the Tube 2 is coaxially enclosed, with its remaining part but protrudes beyond the tube 2 in the direction of the lid 1a. The tuning body 6, however, touched at any point the tube 2 or its inner wall but is above his entire, immersing length by a circumferential air gap spaced 0.75 mm in this example. The length of the tube 2 is λ / 4 of the center frequency of the resonator. Therefore arises at the free end of the tube 2, at the point S, between the Abstimmkörper 6 and the tube 2 an HF-moderate Short circuit. Thus, a shift of the Abstimmkörpers 6 on the tuning screw 4 as an extension or shortening the electrical length of the pipe 2, at the same time the capacity between the upper end face of the tuning body 6 and the lid 1a and the capacitance between the jacket of the tuning body 6 and change the inner wall of the tube 2 differentially. In the determined by its dimensions the value of the center frequency Interior 10, for example, the RF energy over the probe 8 on and coupled out via the probe 9, as this is known per se.

The proposed construction on the one hand by avoiding any metallic contact in the field-filled Space intermodulation products safely avoided and on the other hand achieved large tuning ranges.

Claims (9)

Coaxial resonator comprising a housing (1) with walls which are electrically conductive at least on the inside and with inner dimensions matched to the desired resonance frequency, a coupling-in and a coupling-out opening and one projecting from a wall (1b) of the housing into its interior (10), galvanically conductive and conductively connected to this wall pipe (2) which terminates at a given distance from the inner surface of the opposite wall (1a) and a metallic Abstimmkörper (6), which is adapted to change the distance of its end face from the inner surface of the opposite wall (1a) of the housing (1) is axially displaceable, characterized in that the tuning body (6) via a rod (5) of dielectric material coaxially held in the tube (2) without the tube (2) to contact galvanically and that that of the tuning body (6) facing away from the end of the rod for displacement of the tuning body (6) is formed. Resonator according to Claim 1, characterized in that the end of the rod (5) facing away from the tuning body (6) engages with an internal thread in the tube (2). Resonator according to claim 1 or 2, characterized in that the end of the rod (5) facing away from the tuning body (6) is seated in a sleeve (4) with an external thread which engages the internal thread in the tube (2). Resonator according to one of claims 1 to 3, characterized in that the tuning body (6) as the end of the rod (5) surrounding pot is formed. Resonator according to one of claims 1 to 4, characterized in that between the Abstimmkörper (6) and the inner wall of the tube (2) is a dielectric. Resonator according to one of claims 1 to 5, characterized in that the dielectric is air. Resonator according to one of claims 1 to 6, characterized in that the rod (5) consists of ceramic. Resonator according to one of claims 1 to 7, characterized in that the tuning body (6) and the rod (5) consist of materials with temperature coefficients, which are chosen so that the temperature-dependent change of the distance of the end face of the tuning body (6) of the Inner surface of the wall (1 a) of the housing (1) whose temperature-dependent dimensional changes compensated. Resonator according to one of claims 1 to 8, characterized in that the tube has a length of about λ / 4 of the center frequency.

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