EP1021852B1 - Hf coaxial plug-in connector - Google Patents

Abstract

The invention relates to an HF coaxial plug-in connector for transmitting high-frequency electromagnetic waves, comprising a housing (8, 9, 13, 14, 47), at least one internal contact (4, 6, 48), and an external contact arranged coaxially around the internal contact (4, 6, 48). The housing (8, 9, 13, 14, 47) is configured as an injection-moulded plastic part and has a wall area made of plastic and arranged coaxially around the internal contact (4, 6, 48). At least the inner wall facing the internal contact (4, 6, 48) is provided with a metallizing layer (30). Said plug-in connector is preferably designed as a multipolar connector.

Description

The invention relates to an RF coaxial connector according to the preamble of claim 1.

RF coaxial connectors usually have a housing Made of a solid material that connects the respective contacts picks up and holds securely in position.

From EP 0 582 960 A1 it is known to use multi-pole RF coaxial connectors by realizing that several Commonly constructed RF coaxial plug in a conductive Material, i.e. metal, existing monoblock can be inserted are. For this purpose, the monoblock has hollow cylindrical recesses in which a contact pin sits centrally, which serves as an inner conductor. The metallic monoblock forms one for each coaxial connector that is inserted common line manager.

The housings for RF coaxial connectors are therefore usually made of solid metal as a sheet metal part or more often manufactured as a cast part from metal injection molding.

However, metallic housings are due to handling their weight is not always advantageous. Beyond that their production is complex and expensive. Finally, may also not to be overlooked that metallic housings are proportionate are heavy, which can also be disadvantageous if weight aspects are relevant when using the connectors are.

According to the preamble of claim 1, EP-A-0 362 shows 841 an RF coaxial connector with a multi-part Housing, being a housing part, which as a grounding block acts, made of metal, metallic coated Plastic or ceramic material or plastic with embedded There are metal particles. However, in EP'841 does not specify in detail where the Variant made of plastic covered with metal exactly that Metallization should be. In one (in EP'841 in Fig. 6) are in the embodiment mentioned grounding part preloaded spring cylinder sleeves, when plugging in a coaxial cable connector change into a cylindrical shape against their preload. At the point in question this cylindrical A metallization layer would then be superfluous. EP'841 also does not show whether and how the metallization layer on the housing part with contacts projecting outwards from the housing in Connect.

Starting from this prior art, it is the object of the invention an RF coaxial connector of the aforementioned Type to create, which with sufficient outer conductor surface thickness easy and inexpensive to manufacture is. In addition, the RF coaxial connector to be found also a safe electrical connection with an outer conductor of a coaxial mating connector, i.e. the outer conductor function, to be guaranteed.

The object is achieved by the features of Claim 1 solved. Advantageous further developments are in the dependent claims.

Although it is already known from electronics 7./8.4.82, page 146, a plastic housing for multipole connectors To provide and this for shielding reasons with a surface metallization to provide. With these multi-pin connectors however, they are not coaxial connectors, where there is always a pair of contacts from internal contact / there is coaxial external contact. Rather, these are known Connectors several contact pins, which of one common housing edge, the surface metallized is surrounded. An outer conductor function through metallization a hollow cylindrical inner wall of the housing so it doesn't matter.

In a particularly preferred embodiment of the invention the RF coaxial connector is designed with multiple poles several pairs of internal contacts and external contacts, whereby the housing is a monoblock with several, one each hollow cylindrical recesses forming coaxial wall section, in which an internal contact sits centrally. About that in addition, all of them are at least the inner walls Provide recesses with a metallization layer.

According to an advantageous development of the invention, the layer thickness of the metallic layer is determined in accordance with the lowest frequency that occurs as planned, so that the layer thickness at a frequency of 50 MHz, for example, is at least 20 μm , but preferably 30 μm .

According to a preferred procedure according to the invention the minimum layer thickness is determined on the basis the penetration depth of the alternating field that occurs. Hereby can be taken into account that depending on the level of frequency and the size of the adjacent alternating field is different Depth of penetration results. Shifted with increasing frequency the conductor current is increasingly against a thin surface layer, the so-called skin effect, so that there the current density increases.

According to a preferred embodiment of the invention is for the formation of the metallic layer as a layer material preferably silver provided. Instead of silver but can also copper according to an alternative embodiment or in special cases gold may be provided.

According to a development of the invention, the layer material, thus the metallization material galvanically on the pretreated housing surface applied. The metallic layer depending on the respective application and intended use either only on the inner surface or additionally on the outer surface of the housing be arranged.

A thickness of the metallization layer for HF frequencies is greater 50 MHz from 20 to 30 µm is sufficient.

These and other advantageous features are the subject of Subclaims.

Using exemplary embodiments shown in the following drawings the invention is explained and described in more detail.

Fig. 1

ein gerades Steckerteil eines Steckverbinders gemäß der Erfindung;

Fig. 2

ein gerades Kupplungsteil eines Steckverbinders gemäß der Erfindung;

Fig. 3

ein abgewinkeltes Steckerteil eines Steckverbinders gemäß der Erfindung;

Fig. 4

ein abgewinkeltes Kupplungsteil eines Steckverbinders gemäß der Erfindung;

Fig. 5

ein Steckerteil eines Mehrfach-Steckverbinders gemäß der Erfindung;

Fig. 6

ein Kupplungsteil eines Mehrfach-Steckverbinders gemäß der Erfindung; und

Fig. 7

das Kupplungsteil von Fig.6 im Schnitt.

Show it:

Fig. 1

a straight plug part of a connector according to the invention;

Fig. 2

a straight coupling part of a connector according to the invention;

Fig. 3

an angled plug part of a connector according to the invention;

Fig. 4

an angled coupling part of a connector according to the invention;

Fig. 5

a plug part of a multiple connector according to the invention;

Fig. 6

a coupling part of a multiple connector according to the invention; and

Fig. 7

the coupling part of Figure 6 in section.

In Fig. 1, a straight plug part 1 is shown, which together with a straight coupling part 2 shown in FIG straight connector 3 forms.

This straight connector 3 is electrical as a two-pole conductive RF coaxial connector. This points the plug part 1 has a pin-like internal contact 4, which surrounded coaxially spaced by a metallic sleeve 8a is. The sleeve 8a has a cylindrical housing 8 of the connector part 1 in connection. Opposite the metallic one Sleeve 8a is not closer to this housing The coaxial cable shown can be used or has already been used. So that the coaxial connector is guaranteed, is the housing 8 made of non-metallic material at least on its inner wall with a sufficiently thick Metallization layer 30 provided. This metallization layer 30 provides an electrical connection between metallic Sleeve 8a and outer conductor of the inserted in the housing Coaxial cable safe, provided the latter is appropriate is stripped. The metallization layer 30 is therefore a component of the entire external contact 5 of the plug part 1. The pin-like internal contact 4 is in a manner known per se kept within the housing. Instead of a metallic one Sleeve can also be a sleeve made of non-conductive material, such as e.g. Plastic may be provided. However, the sleeve is on hers Inner wall or on inner and outer wall with a metallization layer to be provided so that the required outer conductor function is also guaranteed.

Basically, for the dimensioning of the metallization layer 30, it should be noted that the required characteristic impedance of the connector must be observed in accordance with the known formula Z. L = 60 ε r ln D d with Z _L = characteristic impedance, ε _r = dielectric constant, D = outer conductor diameter, d = inner conductor diameter.

The coupling part 2 of the connector 3 preferably has one resilient internal contact 6 in the form of an electrical conductive material existing sleeve in which the inner contact 4 of the plug part 1 can be inserted. The The outer diameter of the preferably resilient sleeve is included so large that there is good electrical contact between the two internal contacts 4, 6 is guaranteed. The internal contact 6 is from one hollow cylindrical wall portion of the housing 9 of the Coupling part 2 surrounded coaxially. The housing 9 consists of non-conductive material, e.g. Plastic, creating a distinct Weight saving compared to metallic housings possible is. In order to still ensure the outer conductor function, is at least the inner wall of the hollow cylindrical Wall section of the housing with a metallization layer 30, preferably but not necessarily made of silver or copper with silver plating. The metallization layer 30 thus forms the external contact at the same time 7 of the coupling part 2.

In the configuration according to the invention it is provided that each Housing 8, 9 formed from an extrudable plastic , wherein at least the mentioned wall sections of the housing 8 or 9 provided with a metallization layer 30 are used as an outer conductor or external contact. This external contact 7 is with the shielding, metallic sheathing a cable, in particular a coaxial cable electrically connect to. The internal contact 6 of the coupling part 2 is against the inner conductor of such a coaxial cable connect to. The same applies to connector part 1.

According to the invention, the metallization layer can not only on the inner wall of the housing 8 or 9 but also additionally be arranged on the outer wall.

In Fig. 3 another connector part 10 is shown, which in Comparison with the plug part 1 according to FIG. 1 angular is trained. Together with one shown in Fig. 4 angular coupling part 11 it forms another Connector 12, the angled connection of not closer coaxial conductors shown.

The inventory of this connector 12 is almost identical with that of the connector 3 already described, d. H. the In principle, internal and external contacts 4, 5, 6, 7 can also are used in the connector 12.

According to the invention, the connector 12 is also with a housing 13 for the plug part 10 and with a housing 14 provided for the coupling part 11, the housing 14 again on its hollow cylindrical wall, which is the internal contact 6 coaxially surrounds with a metallization layer 30 is provided.

In Figures 5, 6 and 7 is an eight-pole and thus multi-pole RF coaxial connector 60 shown. The multipole Connector 60 consists of several according to Figures 5 and 6 Coaxial connectors 41 in a straight version, which means a common mounting plate 42 combined into a unit 55 on a base e.g. a circuit board 43 or arranged a rear wall and by means of press-in contacts in one certain pitch of e.g. 5 mm are attached. In addition, the connector 60 still consists of a base, e.g. arranged on a circuit board 45 or an assembly coaxial mating connectors 46, which in a the number corresponding to the number of coaxial connectors 41 and in the same pitch as this integrated in a monoblock 47 are. This consists of non-conductive material and is at least on its hollow cylindrical, the internal contacts 48 coaxially surrounding inner walls with a metallization layer 30 provided. These eight layers of metallization 30 form the different outer conductors for the eight coaxial mating connector 41 integrated in it, whereby whose pin-like internal contacts 48 (Fig. 7) with their connections each by supporting parts made of insulating material 49 and 50 isolated in bores 51 and perpendicular to them Bores 52 of the monoblock 47 are added. Out of it it turns out that the coaxial mating connector 46 in Formed 90 ° to their direction of insertion are.

As can be seen in particular from FIG. 7, the connections are the inner contacts 48 of the coaxial mating connector 46 and the external contact connections as press-in contacts 53 or 54 formed, which corresponds to the 90 ° angle of the coaxial mating connector angled by 90 ° to the direction of insertion are arranged. 5 and 6 show that at the illustrated embodiment of the invention RF coaxial connector 60 two rows one above the other of coaxial connectors and accordingly two superimposed ones Rows of coaxial mating connectors, each with four coaxial connectors 41 and four coaxial mating connectors 46 are provided so that the coaxial connector 41st form an 8-way unit 55 and the monoblock 47 as an 8-way mating connector is trained. In this case the monoblock 47 has eight press-in contacts 53 for the inner conductor connections and 5 x 3 press-in contacts 54 for the outer conductor connections on.

As can be seen from the sectional view of Figure 7, the Press-in contacts 54 with the metallization layer 30 on all inner walls of the housing of the monoblock 47 is applied, electrically conductive in connection. Therefor have the press-in contacts 54 projecting wall sections 72, which lie flat against the metallization layer 30.

Reference list

1

Plug part, straight

2nd

Coupling part, straight

3rd

Straight connector

4th

Internal contact

5

External contact

6

Internal contact

7

External contact

8th

casing

8a

metallic sleeve

9

casing

10th

Plug part, angled

11

Coupling part, angled

12th

Connector, angled

13

casing

14

casing

30th

Metallization layer

41

Coaxial connector

42

Mounting plate

43

Circuit board

45

Circuit board

46

coaxial mating connector

47

Housing, monoblock

48

Internal contact

49, 50

Support parts

51, 52

Holes

53, 54

Press-in contacts

55

Coaxial connector unit

56

Guide pins

57

Guide holes

60

multipole connector

72

head Start

Claims (8)

1. An HF coaxial plug connector for transmitting high-frequency electromagnetic waves, having a housing (8, 9, 13, 14, 47), having at least one internal contact (4, 6, 48) and having an external contact arranged coaxially around the internal contact (4, 6, 48), the housing (8, 9, 13, 14, 47) being formed from an injection moulded part of synthetic material, and the housing (8, 9, 13, 14, 47) having a wall section which is made from synthetic material and is arranged coaxially around the internal contact (4, 6, 48), and in which at least the inner wall facing the internal contact (4, 6, 48) is provided with a metallisation layer (30),
      characterised in that the layer thickness of the metallisation layer (30) is at least 10 µm, and in that the metallisation layer (30) is connected in electrically conductive manner to insert contacts (54) which project out of the housing (8, 9, 13, 14, 47) and serve as external contact terminals of the plug connector.
2. An HF coaxial plug connector according to Claim 1, characterised in that the HF coaxial plug connector (60) is of multi-polar construction and has a plurality of pairs of internal contacts (48) and external contacts, and in that the housing (47) is constructed as a monobloc and has a plurality of hollow cylindrical recesses each of which forms a coaxial wall section and in which a respective internal contact (48) is seated centrally, and in that the inner walls of all the recesses are provided with a metallisation layer (30).
3. An HF coaxial plug connector according to Claim 1 or 2, characterised in that silver is provided as the metallisation material.
4. An HF coaxial plug connector according to Claim 1 or 2, characterised in that copper is provided as the metallisation material.
5. An HF coaxial plug connector according to Claim I or 2, characterised in that gold is provided as the metallisation material.
6. An HF coaxial plug connector according to one of the preceding claims, characterised in that the metallisation material is applied by vapour deposition to the pretreated surface of the housing (8, 9, 13, 14, 47).
7. An HF coaxial plug connector according to one of the preceding claims, characterised in that the housing (8, 9) is constructed as a straight plug connector (3).
8. An HF coaxial plug connector according to one of Claims 1 to 7, characterised in that the plug connector (12) has a housing (13, 14) constructed as an angled plug connector.

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