EP0878870A1 - High Frequency coaxial connector - Google Patents

Abstract

The plug connector consists of a metallic casing (15) with soldering terminals and a metallic connector part (4) in the form of a coaxial plug and/or a coaxial socket. The soldering terminals extend, in the form of soldering pins (19, 21), from the bottom face (17) of the casing (16). The soldering pins engage with associated electric connections provided in the form of contacted installation holes (4) on the circuit board, when the casing is mounted on the circuit board. The soldering pins are soldered to the circuit board (10) in a soldering bath. The casing comprises an annular collar (18) at its bottom face, in a concentric arrangement with a soldering pin for an inner coaxial conductor (22). The soldering pins (19) for outer coaxial conductors (5) and/or the earthing potential of the coaxial connector are distributed around the annular collar.

Description

The invention relates to an RF coaxial connector part for permanent mounting on a printed circuit board, consisting of a metallic housing part with solder connections and one metallic plug part in the form of a coaxial plug or Coaxial socket, in which the solder connections in the form of solder pins protrude from the underside of the housing part and in which the solder pins when placing the housing part with its underside on the circuit board in them on the circuit board side assigned electrical connections in the form of contacted Engage mounting holes in which they are in one Wave solder bath are soldered to the circuit board.

HF-Steckverbinder Datenbuch 1990", Seite 4,13 bekannt. Um beim Verlöten der Lötstifte des Koaxial-Steckverbinderteils in den kontaktierten Montagelöchern der Leiterplatte stets ein einwandfreies Lötergebnis zu erzielen, muß gewährleistet sein, daß das Lot störungsfrei von unten durch die Montagelöcher mit den Lötstiften in der Leiterplatte nach oben fließen kann. Um dies zu erreichen, darf die Unterseite des Gehäuseteils des Koaxial-Steckverbinderteils nicht satt auf der Leiterplatte aufsitzen. Wie die angeführte SIEMENS-Literaturstelle zeigt, wird dies durch einen sogenannten Offset" in Form eines einseitigen Ansatzes der Lötstifte für den Koaxial-Außenleiter bzw. das Bezugspotential des Koaxial-Steckverbinderteils an der Unterseite seines Gehäuseteils erreicht. Nachteilig an dieser Lösung ist der Umstand, daß durch diesen Offset zwischen
dem Koaxial-Steckverbinderteil und der Leiterplatte ein Luftspalt von ca. 0,5 mm vorhanden ist, durch den die HF-Dichtigkeit, auch wenn hieran nur geringe Anforderungen zu stellen sind, zwischen dem Koaxial-Steckverbinderteil und der Leiterplatte nicht mehr gewährleistet ist. Um die erforderliche HF-Dichtigkeit zu erreichen, muß dieser Luftspalt daher nachträglich durch Anlöten von Dichtungsplättchen oder Dichtungsfolien verschlossen werden.RF coaxial connector parts of this type are, for example, from the SIEMENS reference:

RF connector data book 1990 ", page 4.13 known. In order to always achieve a perfect soldering result when soldering the solder pins of the coaxial connector part in the contacted mounting holes of the circuit board, it must be ensured that the solder from the bottom through the mounting holes with the To achieve this, the underside of the housing part of the coaxial connector part must not sit snugly on the circuit board. As the SIEMENS literature reference shows, this is indicated by a so-called Offset "in the form of a one-sided approach of the solder pins for the coaxial outer conductor or the reference potential of the coaxial connector part on the underside of its housing part. A disadvantage of this solution is the fact that this offset between
The coaxial connector part and the printed circuit board have an air gap of approx. 0.5 mm, through which the HF-tightness, even if there are only few requirements, is no longer guaranteed between the coaxial connector part and the printed circuit board. In order to achieve the required HF tightness, this air gap must therefore be subsequently closed by soldering on sealing plates or sealing foils.

The invention is based, for a coaxial connector part the task of the aforementioned type another constructive Specify solution that is also a flawless Solder the solder pins of the coaxial connector part in the allows contacted mounting holes of the circuit board, however without the mentioned offset and the associated described Disadvantages.

This object is achieved in that the Housing part on its underside in a self-contained Ring collar in one to the solder pin for the coaxial inner conductor concentric arrangement passes over and the solder pins for the coaxial outer conductor or the reference potential of the coaxial connector part distributed around the circumference of the ring collar are arranged on.

The invention is based on the finding that when soldering for a good flow of the solder through the contacted Mounting holes on the circuit board with the solder pins of the coaxial connector part is sufficient if the solder at least at two opposite points of the contacted Mounting holes on the top of the circuit board can leak. This requirement is in use of the ring collar easily ensured when the solder pins for the coaxial outer conductor or the reference potential of the coaxial connector part on the inside or outside wall of the ring collar.

A particularly advantageous embodiment of the object according to claim 1, wherein the solder pins for the coaxial outer conductor or the reference potential of the coaxial connector part arranged on the free end face of the ring collar are specified in claim 2.

Further expedient configurations of the subject according to the Claims 1 and 2 are in claims 3 to 11 specified.

Fig. 1

eine bekannte Ausführungsform eines mit einer Leiterplatte verbunden Koaxial-Steckverbinderteils,

Fig. 2

eine bevorzugte Ausführungsform eines mit einer Leiterplatte zu verbindenden Koaxial-Steckverbinderteils in perspektivischer Darstellung,

Fig. 3

die Ausführungsform nach Fig. 2 in einer anderen perspektivischen Darstellung,

Fig. 4

das Gehäuseteil des in den Fig. 2 und 3 dargestellten Koaxial-SteckverbinderteilS in Sicht von der Vorderseite.

Fig. 5

der Schnitt AA des Gehäuseteils nach Fig. 4.

The invention will be explained in more detail below on the basis of exemplary embodiments illustrated in the drawing. Mean in the drawing

Fig. 1

a known embodiment of a coaxial connector part connected to a printed circuit board,

Fig. 2

1 shows a preferred embodiment of a coaxial connector part to be connected to a printed circuit board, in a perspective view,

Fig. 3

the embodiment of FIG. 2 in another perspective view,

Fig. 4

the housing part of the coaxial connector part shown in FIGS. 2 and 3 in view from the front.

Fig. 5

the section AA of the housing part according to FIG. 4.

The known embodiment of a straight line shown in FIG. 1 Coaxial connector part has a metallic housing part on, into which a plug-in part 4 in at the top 3 Form of a coaxial connector is inserted or screwed in, of which only the coaxial outer conductor 5 is visible. At the Bottom 6 of the housing part 2 are on the one hand on the edge Scope distributed four solder pins 7 for the coaxial outer conductor 5 or the reference potential of the coaxial connector part 1 and on the other hand concentrically to this the solder pin 8 for the Invisible coaxial inner conductor is provided. With his Solder pins 7 and 8 engage the housing part 2 of the coaxial connector part 1 representing electrical connections contacted mounting holes 9 of a circuit board 10. Each on an inside of the solder pins 7 is on the bottom 6 of the housing part 2 an approach representing an offset 11 available, via which the coaxial connector part 1 sits on the circuit board 10.

These approaches 11 result in the bottom 6 the housing part 2 and the circuit board top 12 an undesirable Air gap 13 through which the generally too demanding RF tightness between the bottom 6 of the housing part 2 of the coaxial connector part 1 and the top of the circuit board 13 is not guaranteed. As in the introduction to the description has already been executed Offset but necessary to ensure that when soldering the solder pins 7 and 8 in the contacted mounting holes 9 the solder during wave soldering from the underside of the circuit board 14 sufficient upwards in the mounting holes 9 can rise to the top of the circuit board 12.

The new embodiment for such a coaxial connector part, of which a preferred embodiment in the 2 to 5 is advantageously avoided this undesirable air gap 13 without this required soldering of the solder pins 7 and 8 in the contacted Mounting holes 9 of the circuit board 10 affected becomes.

2 and 3 show in different perspective views a coaxial connector part 15, here as an angle connector part is designed. The metallic housing part 16 of this coaxial connector part 15 goes on his Bottom 17 in a self-contained ring collar 18 over. The solder pins 19 for the coaxial outer conductor 5 or the reference potential of the coaxial connector part 15 protrude out of the free end face 20 of the ring collar 18 and are in their length compared to the solder pin 21 for the in Fig. 3 visible coaxial inner conductor 22 around the height H of the ring collar 18 shorter. That from the free end face of the ring collar protruding solder pins 19 have an approximately square Cross section with a side length equal to that Wall thickness W - see FIG. 5 - of the ring collar 18.

As can be seen in FIGS. 2 and 3, with this design achieved that the coaxial connector part 15, which at its connection to the circuit board 10 with the free Front 20 of its ring collar 18 on the top of the circuit board 12 sits on the contacted mounting holes 9 the PCB top 12 does not completely cover. The Rather, mounting holes 9 remain on the edge of two opposite sides of the solder pins 19, namely on the side of the inner and outer wall of the ring collar 18 without Cover. This ensures that when wave soldering the solder also unhindered from the underside of the circuit board 14 in the mounting holes 9 up to the top of the circuit board 12 can rise, especially since there is free space for the plumb line in the round mounting holes 9 by the approximately square Cross section of the solder pins 19 is enlarged. At a Side length of 0.6 mm of the approximately square cross section the solder pins 19 have the contacted mounting holes 9 expediently a diameter of 1 mm.

In the state of the coaxial connector part combined with the printed circuit board 10 15 remains between the free end face 20 of the ring collar 18 of its housing part 16 and PCB top 12 a residual gap of about 0.1 mm. The HF tightness achieved despite this residual gap lies in the Order of 60 db. Can be used in special applications HF tightness of> 100 db must be required. In this If necessary, this residual gap must also be removed. This is possible in a simple manner that the dashed line in Fig. 3 on the top 12 of the circuit board illustrated ring area 23 is designed as a soldering surface and the ring collar 18 with its free end face 20 in the connection soldered to the wave soldering process on the printed circuit board 10 becomes.

When soldering the coaxial connector part 15 with his Ring collar 18 on the circuit board 10 must be prevented that the ring collar 18 on the side of its free end face 20 supplied heat overflows to the housing part 16 too quickly. To prevent this, the ring collar is in the outer wall 18 an annular groove 24 is provided. 4 and 5, in which the housing part 16 with its ring collar 18 again shown enlarged in front view and in section is, the annular groove 24 is particularly well recognizable. It has about same depth and width. Through the annular groove 24, the wall thickness W of the ring collar 18 greatly reduced to the wall thickness W1 and thus realizes an effective thermal resistance. In principle, the annular groove could also be on the inside of the Ring collar are provided. However, this would result in additional Measures to adjust the wave resistance of the coaxial line of the coaxial connector part on this Place required what by attaching the ring groove to the outside of the ring collar is avoided.

As already compared to the known embodiment 1 with the preferred embodiment according to FIG. 2nd 5 shows the coaxial connector part with a ring collar on the underside of its housing part optionally as a straight Coaxial connector part or as a coaxial angle connector part be executed. It can also be optional designed as a coaxial plug part or coaxial socket part be. For this purpose, it is based on that shown in FIGS. 2 and 3 Coaxial connector part only required that inserted into the housing part 16, representing a plug part To replace plug part 4 by a socket part.

Reference list

1, 15

= Coaxial connector part

2, 16

= Housing part

3rd

= Top

4th

= Plug-in part

5

= Coaxial outer conductor

6, 17

= Underside

7, 8, 19, 21

= Solder pin

9

= Mounting hole

10th

= Printed circuit board

11

= Approach

12th

= PCB top

13

= Air gap

14

= PCB underside

18th

= Ring collar

20th

= Front side

22

= Coaxial inner conductor

23

= Ring area

24th

= Ring groove

H

= Height

W

= Wall thickness

W1

= reduced wall thickness

Claims (11)

HF coaxial connector part for fixed attachment to a printed circuit board (10), consisting of a metallic housing part (15) with solder connections and a metallic plug part (4) in the form of a coaxial connector or a coaxial socket, in which the solder connections in the form of solder pins ( 19, 21) protrude from the underside (17) of the housing part (16) and in which the solder pins (19, 21), when the housing part (16) is placed with its underside (17) on the printed circuit board (10), engage in them in the form of contacted mounting holes (9) in the printed circuit board side, in which they engage in a wave solder bath the circuit board (10) are soldered,
characterized in that the housing part (16) merges on its underside (17) into a self-contained ring collar (18) in an arrangement which is concentric with the soldering pin (21) for the coaxial inner conductor (22) and the solder pins (19) for the coaxial outer conductor (5) or the reference potential of the coaxial connector part (15) on the circumference of the ring collar (18) are arranged distributed. RF coaxial connector part according to claim 1,
characterized in that the solder pins (19) for the coaxial outer conductor (5) or the reference potential of the coaxial connector part (15) are arranged on the free end face (20) of the ring collar (18) and at least in their dimensions in the radial direction of the ring collar (18) have its wall thickness (W). RF coaxial connector part according to claim 1 and 2,
characterized in that the length of the solder pins (19) for the coaxial outer conductor (5) or the reference potential of the coaxial connector part (15) compared to the solder pin (21) for the coaxial inner conductor (22) is shorter by the height of the ring collar (18). RF coaxial connector part according to one of the preceding claims,
characterized in that the contacting mounting holes (9) on the circuit board side are round holes and the solder pins (19) for the coaxial outer conductor (5) or the reference potential of the coaxial connector part (15) have a square cross section. RF coaxial connector part according to one of the preceding claims,
characterized in that the contacting mounting holes (9) on the circuit board side are round and have a diameter of 1 mm and the solder pins (19) for the coaxial outer conductor (5) or the reference potential of the coaxial connector part (15) have an at least approximately square cross section with a side length of 0.6 mm, which is equal to the wall thickness (W) of the ring collar (18 ) is. RF coaxial connector part according to one of the preceding claims
characterized in that To achieve a thermal resistance between the free end face (20) of the ring collar (18) and the actual housing part (16) of the coaxial connector part (15), the ring collar (18) has an annular groove (24) that reduces its wall thickness. RF coaxial connector part according to claim 6
characterized in that the annular groove (24) of the annular collar (18) is an outer annular groove. RF coaxial connector part according to claim 6 or 7
characterized in that the annular groove (24) of the annular collar (18) has approximately the same depth and width. RF coaxial connector part according to one of the preceding claims
characterized in that that for the additional soldering of the remaining gap between the free end face (20) of its ring collar (18) and the circuit board (10) on the latter in the mounting area in the housing part (16) of the coaxial connector part (15) placed on the circuit board (10) an annular region (23) designed to form a solder joint is provided. RF coaxial connector part according to one of the preceding claims
characterized in that it is designed as a straight coaxial connector part. RF coaxial connector part according to one of Claims 1 to 9,
characterized in that it is designed as a coaxial angle connector part.

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