The invention relates to a plug connector for data transmission, in particular an HDMI socket, comprising a housing, which is open at least on one side, for the insertion of a matching further plug connector, in particular an HDMI plug, comprising a printed circuit board, which is arranged within the housing and has contact areas for the matching further plug connector, and comprising electronic components for signal processing and/or signal conditioning, which components are arranged on the printed circuit board.
U.S. Pat. No. 8,460,036 B1 discloses a plug connector comprising a housing, which is open on one side, for connection to a matching plug connector. A printed circuit comprising contacts and also electrical components, for example capacitors, coils or resistors, is arranged within the housing.
DE 10 2010 023 151 A1 describes an adapter comprising two different plug connectors in opposite end regions of the adapter. The plug connectors have printed circuit boards on which chips are integrated.
The objective of the invention is to simplify a plug connector for data transmission in respect of the structural design of said plug connector and in respect of mounting of said plug connector on a base printed circuit board.
To this end, the invention provides a plug connector for data transmission, in particular an HDMI socket, comprising a housing, which is open at least on one side, for the insertion of a matching further plug connector, in particular an HDMI plug, comprising a printed circuit board, which is arranged within the housing and has contact areas for the matching further plug connector, comprising electronic components for signal processing and/or signal conditioning, which components are arranged on the printed circuit board, wherein side edges of the printed circuit board are received, at least in sections, in groove guides of the housing.
Since both contact areas for the matching further plug connector and electronic components for signal processing and/or signal conditioning and connection pins which extend to contact areas on the bottom side of the housing are arranged on the printed circuit board itself, the structural design of the plug connector is considerably simplified. This is because all of the contact areas and electronic components are arranged on a single printed circuit board. The plug connector can be designed with contact pins, which are inserted into bores in a printed circuit board, for THT (Through-Hole Technology) mounting or with contact areas on the housing for SMT (Surface-Mounted Technology) mounting. Since the groove guides for receiving the side edges of the printed circuit board are provided in the housing, the printed circuit board is guided in the housing during a mounting operation such that mounting is simplified. In addition, the printed circuit board is also held securely in the housing in the event of vibration or shock loads in the mounted state. The groove guides of the housing and the side edges of the printed circuit board can additionally be designed such that fail-safe mounting is provided, so that the printed circuit board can be inserted into the housing only in a structurally predetermined position.
In a development of the invention, the printed circuit board is held centrally in the housing by means of the groove guides.
The housing is advantageously at an equal distance from a top side and a bottom side of the housing, and therefore electronic components can be arranged both on a bottom side and on a top side of the printed circuit board.
In a development of the invention, the bottom side of the housing has at least one contact area which is not connected to the printed circuit board.
Contact areas or soldering areas can be provided on the bottom side of the housing, said areas not being provided for making electrical contact but rather solely for mechanically fastening the housing on the base printed circuit board. In this way, the contact areas can be positioned such that firstly effective and reliable electrical contact and secondly also secure mechanical connection of the housing to the base printed circuit board are ensured.
In a development of the invention, the housing is composed of electrically conductive material and is electrically connected to the at least one contact area.
An electrical connection is produced between the base printed circuit board and the housing as a result, so that the housing, for example, can be connected to ground and can have a shielding effect.
In a development of the invention, the printed circuit board is held substantially centrally in the housing, so that the printed circuit board can be surrounded in sections by the matching further plug connector when said plug connector is inserted into the housing.
As a result, contact can be made with the contact areas on the printed circuit board directly by the matching further plug connector. Additional contact springs, contact tracks or the like, which are designed as separate components, are avoided as a result. The printed circuit board can be guided, for example by way of its two longitudinal edges, in matching grooves of the housing.
In a development of the invention, the electronic components are arranged both on a top side and on a bottom side of the printed circuit board.
In this way, numerous electronic components can also be arranged in a space-saving manner on the printed circuit board and within the housing itself.
In a development of the invention, the contact areas for the matching further plug connector are arranged both on a top side and on a bottom side of the printed circuit board.
In this way, numerous contact areas for the matching further plug connector can also be accommodated on the printed circuit board.
In a development of the invention, the contact areas are formed by means of a conductive layer of the material of the printed circuit board or are formed on the basis of a conductive layer of the material of the printed circuit board.
This advantageously produces a compact design of the contact areas.
In a development of the invention, the housing has, on its bottom side, contact areas for the cohesive connection to contact areas of a base printed circuit board and is provided with electrically conductive connection pins which, starting from the printed circuit board, extend through the housing and to the contact areas on the bottom side of the housing.
This printed circuit hoard is then connected to the contact areas on the bottom side of the housing by means of the connection pins, so that the housing therefore merely has to be placed on matching mating contacts on a base printed circuit board and connected to said mating contacts in order to mount the plug connector. The plug connector according to the invention is therefore provided as a “surface-mounted device” for so-called SMD mounting in this embodiment. The plug connector according to the invention manages with a minimum number of components and can be fastened to a base printed circuit board in a simple and very secure manner.
Further features and advantages of the invention can be found in the claims and the following description of a preferred embodiment of the invention in conjunction with the drawings, in which:
A further nine contact areas 22 are arranged on the bottom side of the printed circuit board, as will be explained further and is shown in the further figures.
The housing 12 has, on its inner side, two guide bars 21 which, when an HDMI plug is mounted onto the printed circuit board 18, guide said HDMI plug and position said HDMI plug within the opening 14 in the housing 12.
The illustration of
The illustration of
In the view shown in
The illustration of
Two further contact areas 36 are likewise provided on the bottom side of the housing 12, but at the front side which adjoins the opening 14, said further contact areas being designed to be considerably larger than the individual contact areas 32. The contact areas 36 are provided solely for mechanically fastening of the housing 12 to the base printed circuit board and are not electrically connected to conductor tracks or contact areas on the printed circuit board 18. In the case of SMD mounting, the housing 12 can be mounted onto the base printed circuit board in a simple manner and then can be both electrically and mechanically connected to matching contact areas on the base printed circuit board by means of the contact areas 32, 36 in a very reliable manner.
In order to achieve as high a degree of mechanical stability of the connection of the housing 12 to the base printed circuit board as possible, the two contact areas 36 are arranged at the opposite end of the housing 12 on the bottom side of said housing and on the right-hand side and, respectively, left-hand side of the bottom side. The contact areas 32 and the contact areas 36 are therefore at the largest possible distance from one another and ensure stable mechanical fastening of the housing 12 on the base printed circuit board.
The illustration of
Plated-through holes 46 are shown on the rear edge of the printed circuit board 18, which rear edge is opposite the contact areas 20, said plated-through holes leading from the top side, shown in
The contact areas 22 on the bottom side of the printed circuit board 18 are shown in the illustration of
The illustration of
An extremely compact design can be achieved with the plug connector 10 according to the invention overall. All of the electronic components 38 to 52 are arranged on the integral printed circuit board 18. All of the contact areas 20, 22 which serve for electrical connection to a further, matching plug connector, especially to an HDMI plug, are also arranged on the printed circuit board 18. The printed circuit board 18 is arranged approximately centrally in the housing 12, so that it can be surrounded in sections by the matching further plug connector, especially an HDMI plug. Connection pins 30 ensure both electrical connection of the conductor track on the printed circuit board 18 to a bottom side of the housing 12, which bottom side is provided with contact areas 32, and the connection pins 30 furthermore also contribute to mechanically fastening the printed circuit board 18 in the housing 12.
The printed circuit board 68 is substantially identical to the printed circuit board 18 of the plug connector 10 of
The illustration of
In the same way as the printed circuit board 18 of the plug connector 10 of
The illustration of
Number | Date | Country | Kind |
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20 2016 002 696.9 | Apr 2016 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2017/058609 | 4/11/2017 | WO | 00 |