EP2158646A2

EP2158646A2 - Coaxial connector

Info

Publication number: EP2158646A2
Application number: EP08758946A
Authority: EP
Inventors: Bernd Rosenberger
Original assignee: Rosenberger Hochfrequenztechnik GmbH and Co KG
Current assignee: Rosenberger Hochfrequenztechnik GmbH and Co KG
Priority date: 2007-06-25
Filing date: 2008-06-02
Publication date: 2010-03-03
Anticipated expiration: 2028-06-02
Also published as: CN101689735B; HK1141146A1; WO2009000386A3; WO2009000386A2; JP5204839B2; CA2689127A1; US20100297867A1; EP2158646B1; TWM355490U; JP2010531527A; CN101689735A; US8197287B2; CA2689127C; DE202007008848U1

Abstract

The invention relates to a coaxial connector (10, 100) comprising an outer conductor having a first plug-side end and a second plug-side end, axially opposite the first plug-side end of the outer conductor, and an inner conductor (12) having a first plug-side end and a second plug-side end, axially opposite the first plug-side end of the inner conductor. The invention is characterized in that the outer conductor has two separate outer conductor parts (14, 16), a first outer conductor part (14) forming the first plug-side end of the outer conductor and a second outer conductor part (16) forming the second plug-side end of the outer conductor. The two outer conductor parts (14, 16) of the outer conductor are arranged and configured in such a manner that they are mobile relative to each other in the axial direction, the outer conductor being configured as an outer conductor bellows (18) between the two outer conductor parts (14, 16). A first elastic spring element (22) is provided on the outer conductor and acts upon the two outer conductor parts (14, 16) of the outer conductor in the axial direction, driving them away from each other. The outer conductor bellows (18) is configured in such a manner that upon a change in length of the outer conductor bellows (18) a changing capacitance of the outer conductor bellows (18) is compensated by a correspondingly changing opposite inductance of the outer conductor bellows (18) in such a manner that the characteristic impedance of the coaxial connector (10, 100) remains substantially constant upon a change in length of the outer conductor bellows (18).

Description

coaxial

0

The present invention relates to a coaxial connector having an outer conductor, which has a first plug-side end and an axially opposite the first plug-side end of the outer conductor second plug-side end, and an inner conductor, which has a first plug-side end and an axially the first

5 plug-side end of the inner conductor opposite the second plug-side end, according to the preamble of claim 1.

From DE 10 2004 044 975 A1 a coaxial connecting part with outer conductor sleeve and inner conductor for connecting a Koaxialsteckerbuchse with a circuit carrier is known. In the inner conductor, a resilient bellows made of a conductive material is arranged to keep emerging at the beginning of the socket axial and radial forces away from the circuit board. The bellows is made for example by electroplating a thin nickel layer on an aluminum blank. Despite the Federbalgs can that

5 connecting part to be produced with low reflection. The contour of the bellows is chosen such that even at the location of the bellows in the coaxial outer conductor sleeve, the predetermined standard resistance of, for example, 50Ω. This can be calculated and implemented using a 3D simulator for high-frequency electromagnetic problems.

)

From DE 199 26 483 A1 a coaxial interface is known in which on an outer conductor a displaceable damping sleeve in the form of a bellows construction is arranged. This damping sleeve is designed in such a way that, when the connection device is disconnected, the outer conductor with the bellows construction generates a waveguide damping with a lower attenuation cutoff frequency of, for example, 20 GHz, so that the mechanically open HF connection can be referred to as shielded and terminated in electrical terms. However, the electrical and mechanical properties when plugging the coaxial interface are not changed. On the contrary, an outer conductor sleeve is provided which produces a mechanical and electrical contact when plugged in and therefore makes the bellows construction electrically inoperative when plugged in.

The invention is based on the object, a coaxial connector of o.g. Type with regard to frequency behavior and reliability.

This object is achieved by a coaxial connector of o.g. Art solved with the features characterized in claim 1. Advantageous embodiments of the invention are described in the further claims.

In a coaxial connector of o.g. It is inventively provided that the outer conductor comprises two separate outer conductor parts, wherein a first

Outer conductor part, the first plug-side end of the outer conductor and a second

Outer conductor part forms the second plug-side end of the outer conductor, wherein the two outer conductor parts of the outer conductor are arranged and formed so that they are movable relative to each other in the axial direction, wherein the outer conductor between the two outer conductor parts is formed as Außenleiterfederbalg, wherein the outer conductor, a first elastic spring element is provided, which the two outer conductor parts of the outer conductor in the axial

Direction from one another acted upon with force, wherein the outer conductor bellows is designed such that when a change in length of the outer conductor spring bellows a changing capacity of the outer conductor spring bellows by a correspondingly oppositely changing inductance of Außenieiterfederbalgs so is compensated for that with a change in length of the outer conductor spring bellows, the characteristic impedance of the coaxial connector remains substantially constant.

This has the advantage that a coaxial connector for RF applications with frequencies above 20 GHz with length compensation in the outer conductor is available, the electrical and mechanical properties of the coaxial connector are not affected even with change in length of the outer conductor, but on the contrary over a wide frequency range are improved.

Conveniently, the two outer conductor parts of the outer conductor are arranged and formed such that they are movable relative to the inner conductor in the axial direction in each case.

For example, the first elastic spring element is a helical spring.

Appropriately, a first stop is provided, which limits the movement of the two outer conductor parts in the axial direction away from each other.

In a preferred embodiment, an outer conductor sleeve is provided, which surrounds the two outer conductor parts and has second stops, which limits an axial movement of the two outer conductor parts away from each other.

In order to provide even with the inner conductor a length or tolerance compensation available, so that further, additional improvements of the electrical

Properties of the coaxial connector, the inner conductor comprises two separate inner conductor parts, wherein a first inner conductor part, the first plug-side end of the inner conductor and a second inner conductor part, the second plug-side end of

Inner conductor forms, wherein the two inner conductor parts of the inner conductor are arranged and formed such that they are movable relative to each other in the axial direction, wherein the inner conductor between the two inner conductor parts as

Inner conductor bellows is formed, wherein the Innenleiterfederbalg such is formed, that in a change in length of the Innenleiterfederbalgs a changing capacity of the Innenleiterfederbalgs is compensated by a correspondingly oppositely changing inductance of Innenleiterfederbalgs such that when a change in length of the Innenleiterfederbalgs the characteristic impedance of the coaxial connector remains substantially constant.

One of the outer conductor parts independent contact force at the opposite plug-side ends of the inner conductor is achieved in that the first inner conductor part in the axial direction relative to the first outer conductor part and the second inner conductor part in the axial direction relative to the second outer conductor part is movable, wherein the inner conductor provided a second elastic spring element is, which acts on the two inner conductor parts of the inner conductor in the axial direction away from each other with force.

In a preferred embodiment, the second elastic spring element is a helical spring.

Conveniently, a stop is provided which limits the movement of the two inner conductor parts in the axial direction away from each other.

In an exemplary embodiment, the first inner conductor part is rigidly connected to the first outer conductor part and the second inner conductor part is rigidly connected to the second outer conductor part.

The invention will be explained in more detail below with reference to the drawing. This shows in:

Fig. 1 shows a first preferred embodiment of an inventive

Coaxial connector in sectional view,

Fig. 2 shows the coaxial connector according to the invention in the inserted state and Fig. 3 shows a second preferred embodiment of a coaxial connector according to the invention in sectional view.

The illustrated in Fig. 1 and 2, the first preferred embodiment of a

5 coaxial connector 10 according to the invention comprises an inner conductor 12 and an outer conductor, which consists of a first outer conductor part 14, which forms a first plug-side end of the outer conductor, and a second

Outer conductor part 16, which forms a second plug-side end of the outer conductor, is composed. Between the two outer conductor parts 14, 16 is

0, the outer conductor formed as Außenleiterfederbalg 18. In this way, the two outer conductor parts 14, 16 can move in the axial direction relative to each other. The inner conductor 12 is rigid, wherein the inner conductor 12 of

Isolierstoffscheiben 20 is held within the two outer conductor parts 14, 16 such that the two outer conductor parts 14, 16 relative to the inner conductor 12 in the axial

5 direction can move. Furthermore, a helical spring 22 is provided, which is arranged and designed such that the helical spring 22 pushes the two outer conductor parts 14, 16 away from one another in the axial direction.

The two outer conductor parts 14, 16 are surrounded by an outer conductor sleeve 24, the

0, the two outer conductor parts 14, 16 leads in the axial direction and stops 26 forms, which limits an axial movement of the two outer conductor parts 14, 16 away from each other. The coil spring 22 is in the outer conductor sleeve 24 with

Bias mounted so that the coil spring 22, the two outer conductor parts

14, 16 in the unplugged state, as shown in Fig. 1, against the stops 26th

5 presses.

Furthermore, 1 and 2 complementary coaxial connectors 28 are shown in Figs., Which are designed for mating with the first and second plug-side end of the coaxial connector. )

In the inserted state, as shown in Fig. 2, the coil spring 22 presses the two outer conductor part 14, 16 of the outer conductor against the contact surfaces of complementary coaxial connector 28 and thereby provides a good mechanical and electrical contact between the coaxial connector 10 of the invention and the complementary coaxial connectors 28 forth.

The Außenleiterfederbalg 18 is designed such that it provides a length and tolerance compensation by a corresponding change in length, with a change in length of the Außenleiterfederbalgs 18, a changing capacity of the Außenleiterfederbalgs 18 is compensated by a correspondingly oppositely changing inductance of the Außenleiterfederbalgs 18 such in that, given a change in length of the outer conductor spring bellows 18, the characteristic impedance of the coaxial connector 10 remains substantially constant.

The coil springs 22 on the outer conductor part absorbs the mechanical insertion forces. However, since the current passes through the outer conductor spring bellows 18 and not via the coil spring, the electrical line is therefore separated from the mechanical load in a particularly advantageous manner.

Fig. 3 shows a second preferred embodiment of a coaxial connector 100 according to the invention, wherein functionally identical parts are designated by the same reference numerals as in Figs. 1 and 2, so that reference is made to the explanation of the above description of FIGS. 1 and 2. In contrast to the first embodiment according to FIGS. 1 and 2, the inner conductor is also composed in two parts of a first inner conductor part 30 and a second inner conductor part 32, wherein the inner conductor between the two inner conductor parts 30, 32 is formed as Innenleiterfederbalg 34. The two inner conductor parts 30, 32 are held rigidly or movably relative to the two outer conductor parts 14, 16 by the insulating disks 20, ie the first inner conductor part 30 is rigid or movable with the first outer conductor part 14 via the insulating disk 20 and the second inner conductor part 32 is over the Insulating disk 20 rigidly or movably connected to the second outer conductor part 16. As a result, a length and tolerance compensation when plugging in the coaxial connector 100 is also available on the inner conductor. In the case that outer conductor parts 14, 16 and inner conductor parts 30, 32nd are movable in relation to each other, a second coil spring (not shown) is advantageously additionally arranged on the inner conductor such that this spiral spring presses the two inner conductor parts 30, 32 away from one another. This achieves an independent of the outer conductor tolerance and length compensation.

The Innenleiterfederbalg 34 is, as the Außenleiterfederbalg 18, designed such that it provides a length and tolerance compensation by a corresponding change in length, with a change in length of Innenleiterfederbalgs 34, a changing capacity of Innenleiterfederbalgs 34 by a correspondingly oppositely changing inductance the Innenleiterfederbalgs 34 is compensated such that with a change in length of the Innenleiterfederbalgs 34, the characteristic impedance of the coaxial connector 100 remains substantially constant.

Claims

claims:

1. coaxial connector (10, 100) having an outer conductor, which has a first plug-side end and an axially opposite the first plug-side end of the outer conductor second plug-side end, and an inner conductor (12), which has a first plug-side end and an axially first plug-side end of the inner conductor opposite the second plug-side end, characterized in that the outer conductor comprises two separate outer conductor parts (14, 16), wherein a first outer conductor part (14) the first plug-side end of the outer conductor and a second outer conductor part (16) the second plug-side end the outer conductor forms, wherein the two outer conductor parts (14, 16) of the outer conductor are arranged and formed so that they are movable relative to each other in the axial direction, wherein the outer conductor between the two outer conductor parts (14, 16) as Außenleiterfederbalg (18) is formed , where on the outside a first elastic spring element (22) is provided, which acts on the two outer conductor parts (14, 16) of the outer conductor in the axial direction away from each other with force, wherein the Außenleiterfederbalg (18) is designed such that at a change in length of the outer conductor spring bellows (18) a changing capacity of the Außenlei- terfederbalgs (18) is compensated by a correspondingly oppositely changing inductance of the Außenleiterfederbalgs (18) such that when a change in length of the Außenleiterfederbalgs (18), the characteristic impedance of the Koaxialsteckverbinders (10, 100) remains substantially constant.

2. coaxial connector (10) according to claim 1, characterized in that the two outer conductor parts (14, 16) of the outer conductor are arranged and formed such that they are movable relative to the inner conductor (12) in the axial direction in each case.

3. Coaxial connector (10, 100) according to at least one of the preceding claims, characterized in that the first elastic spring element (22) is a helical spring.

4. Coaxial connector according to at least one of the preceding claims, characterized in that a first stop is provided, which limits the movement of the two outer conductor parts (14, 16) away from one another in the axial direction.

5. coaxial connector (10, 100) according to at least one of the preceding claims, characterized in that an outer conductor sleeve (24) is provided, which surrounds the two outer conductor parts (14, 16) and second stops (26) having an axial movement of both outer conductor parts (14, 16) bounded away from each other.

6. Coaxial connector (100) according to at least one of the preceding claims, characterized in that the inner conductor comprises two separate inner conductor parts (30, 32), wherein a first inner conductor part (30) the first plug-side end of the inner conductor and a second inner conductor part (32) second plug-side end of the inner conductor is formed, wherein the two inner conductor parts (30, 32) of the inner conductor are arranged and formed so that they are movable relative to each other in the axial direction, wherein the inner conductor between the two inner conductor parts (30, 32) as inner conductor bellows (34) is formed, wherein the Innenleiterfederbalg (34) is formed such that at a change in length of the Innenleiterfeder- bellows (34) compensates a changing capacity of the Innenleiterfederbalgs (34) by a correspondingly oppositely changing inductance of the Innenleiterfederbalgs (34) becomes that with a length change of the Innenleiterfede rbalgs (34) the characteristic impedance of the coaxial connector (100) remains substantially constant.

7. Koaxialsteckverbinder according to claim 6, characterized in that the first inner conductor part (30) in the axial direction relative to the first Außenleii- The inner part (14) and the second inner conductor part (32) in the axial direction relative to the second outer conductor part (16) is movable, wherein the inner conductor, a second elastic spring element is provided which the two Innenleitertei- Ie (30, 32) of the inner conductor in the axial direction energized away from each other.

8. coaxial connector according to claim 7, characterized in that the second elastic spring element is a coil spring.

9. Coaxial connector according to at least one of claims 6 to 8, characterized in that a stop is provided, which limits the movement of the two inner conductor parts (30, 32) away from one another in the axial direction.

10. Coaxial connector (100) according to claim 6, characterized in that the first inner conductor part (30) is rigidly connected to the first outer conductor part (14) and the second inner conductor part (32) rigidly connected to the second outer conductor part (16).