DE202011100540U1 - connection device - Google Patents

Abstract

Connecting device for telecommunication lines, comprising at least four electrically conductive contact elements (12) arranged in a row
each having at least one first contact region (13) for contacting a first conductor, and each having at least one second contact region (13) for contacting a second conductor,
wherein two of the contact elements (12) in the row are arranged directly next to one another and form a first contact pair for conducting a first electrical signal,
and wherein two further of the contact elements (12) in the row are arranged directly next to one another and form a second contact pair for conducting a second electrical signal,
such as
an electrically conductive near-end crosstalk layer (30) for attenuating near-end crosstalk between the first contact pair and the second contact pair, wherein the contact elements (12) of the first contact pair and the contact elements (12) of the second contact pair are disposed on the same side of the near crosstalk attenuation layer (30);
characterized in that the near-end crosstalk layer (30) is electrically floating.

Description

The present invention relates to connection devices for electrical conductors in telecommunications.

In telecommunications, subscribers, i. H. the customers of telecommunications companies, connected via telecommunications lines and connecting devices with distributors of telecommunications companies. The connecting devices connect via contact elements in each case input lines with output lines. The leads are often twin-wire cables consisting of a pair of conductors, which in turn are attached to the contact elements by means of insulation displacement contacts.

In the transmission of analog and digital signals in the field of telecommunications, ever higher frequencies are used to transmit data faster. As the frequency increases, especially above 20 MHz, the electromagnetic radiation emanating from the lines and the contact elements of the connection devices increases, which in turn is absorbed by adjacent lines and contact elements and impairs their signal transmission quality. Such "near-end crosstalk" from one telecommunication line to a second or from one contact element to a second should be damped as much as possible in order not to impair the signal transmission even at high frequencies. Although a greater distance between lines or contact elements would reduce near-end crosstalk, this contradicts the desire of many telecommunications companies for smaller footprint and high port density of the terminal devices. For attenuating the near-end crosstalk, connecting devices can therefore be equipped with electrically conductive shielding elements which are mounted between contact elements of a double-wire cable and contact elements of an adjacent double-wire cable. In order to achieve an electrical shield between a connection device and an adjacent second connection device, connection devices on an outer side can be provided with grounded, conductive shielding elements.

This is how the German patent describes DE 19537531 C1 a connection device, in each of which a shield plate is mounted on each side of a wire guide part of a strip holder, wherein the shield is located in the terminal strip contact elements of a braided cable supplied via the two shield plates without interruption to a shield of connectors, so that a potential equalization he follows.

The German utility model DE 29909786 U1 shows a set of shield components of a terminal block with an insertable between individual contact pairs of the terminal block intermediate plate and attachable to the strip outside shielding plate, which has two ground contacts on both lateral edges.

The invention has for its object to provide a connecting device for telecommunications lines, which has a high attenuation of the near-end crosstalk between pairs of contact elements in a small footprint and is easy to connect.

This object is achieved by a connection device having the features of the first claim. According to claim 1, the connection device according to the invention for telecommunications lines comprises at least four electrically conductive, arranged in a row contact elements each having at least a first contact region for contacting a first conductor, and each having at least a second contact region for contacting a second conductor, wherein two of the contact elements in the row are arranged directly next to each other, that is, without another contact element is arranged between them, and form a first contact pair for conducting a first electrical signal, and wherein two more of the contact elements in the row are arranged directly adjacent to each other and a second contact pair to Forming a second electrical signal, and an electrically conductive Nahnebensprechdämpfungsschicht to attenuate the near-end crosstalk between the first pair of contacts and the second pair of contacts, wherein the contact elements of the first pair of contacts and the contact elements of the second contact pair are disposed on the same side of the near-end crosstalk layer, characterized in that the near crosstalk-attenuation layer is electrically floating.

The near-end crosstalk layer is electrically floating and therefore does not need to be connected to another component of the connection device, for example one that is grounded. Thus, no space is needed for elements connecting the near-end crosstalk layer with such a component of the terminal device or a cable, and the space requirement of the terminal device remains small. Further, by arranging the near-end crosstalk layer so that both pairs of contact elements are on the same side of the layer, it is possible for contact elements of two pairs to be closer together because there is no room for a traditional near-end crosstalk device between them. The connecting device according to the invention is particularly easy to connect, because the electrically floating Nahnebensprechdämpfungsschicht must not be connected to other conductors.

A terminal device according to the present invention may, in a first embodiment, be a terminal block which can connect a plurality of input lines to the same number of output lines by means of electrically conductive contact elements. A terminal block may include a housing and a plurality of contact elements extending from one side of the housing to another side of the housing. A contact elements may be elongate, d. H. it can have two ends. An elongated contact element may be substantially straight. A contact element may be formed substantially flat. The ends of an elongated contact element may face each other. An elongated contact element may include a first contact for contacting a first conductor disposed proximate a first end of the contact element. It may include a second contact for contacting a second conductor disposed proximate a second end of the elongate contact element. In one embodiment, the connection device comprises an even number of elongate, substantially straight, flat contact elements, at each of whose ends an insulation displacement contact is arranged, wherein the contact elements are arranged parallel to each other in two rows, and the insulation displacement contacts of a respective first end of the contact elements a first side of the connection device are arranged and the insulation displacement contacts of a respective second end of the contact elements are arranged on a second side of the connection device. The first side and the second side may face each other.

In general, the contact elements of the connection device can be arranged parallel to one another. They can be arranged in one, two, three or more rows. The contact elements of the first pair may be arranged in a row directly next to the contact elements of the second pair.

The near-end crosstalk layer may comprise an electrically conductive coating or an electrically conductive layer. It may comprise an electrically conductive layer of a film. The film may be, for example, a self-adhesive film or a heat-sealable film. The near-end crosstalk layer may comprise, for example, a conductive ink, ink or conductive paint. The near-end crosstalk layer can be applied, for example, by any one of the following methods: by a printing process such as screen printing, pad printing, thermal transfer printing, ink jet printing, by spraying, brushing or vapor deposition or by another type of coating process. A near-end crosstalk layer may be applied in forming a housing of the terminal device, for example, in an injection molding process, for example, in a two-component injection molding process or by techniques known to those skilled in the art as "molded interconnect" or "in-mold labeling." Other common methods are conceivable.

The near-end crosstalk layer may be continuous or interrupted. A near-end crosstalk layer is interrupted when it surrounds one or more nonconductive regions or consists of two juxtaposed parts which are not electrically connected to one another.

The terminal device according to the present invention may include a near-end crosstalk layer arranged such that the distance of at least a portion of the near-end crosstalk layer to at least a portion of a contact element of a contact pair is less than 10 mm.

At least a part of the near-end crosstalk layer may have a layer thickness of 1 mm or less. At least a portion of the near-end crosstalk layer may have a layer thickness greater than 1.0 μm. Even lower layer thicknesses are possible, as long as the conductivity of the layer is not affected, as long as their surface resistance z. B. is not more than 1 ohm / mm ² .

At least a part of the near-end crosstalk layer may have a surface electric resistance of at most 1 ohm / mm ² .

At least a portion of the near-end crosstalk layer may comprise an electrically conductive metal or an electrically conductive plastic. A suitable electrically conductive metal may be, for example, copper, gold, silver, platinum, nickel, brass, aluminum or iron.

The terminal device according to the present invention may include a housing having a housing wall having an inner surface and an outer surface, wherein at least a part of the inner surface faces a contact pair, and wherein at least a part of the outer surface is the one Contact pair is averted. The near-end crosstalk layer may be disposed on the inner surface or on the outer surface of the housing wall. At least a portion of the near-end crosstalk layer may be disposed in the housing wall or may form at least a portion of the housing wall. By arranging the near-end crosstalk layer on a surface of the housing wall or in the housing wall eliminates the need for a separate support for the layer or a self-supporting structure of the layer. The connection device can thereby be designed to save space and the connection density in groups of juxtaposed connection devices can be higher. An arrangement of the near-end crosstalk layer on an inner surface of a housing wall may allow for a smaller distance between the layer and contact elements of a contact pair and thereby better attenuation of near-end crosstalk involving this contact pair. An arrangement of the Nahnebensprechdämpfungsschicht in a housing wall can protect during the installation of the connection device from unwanted electrical contacts to live components of a telecommunications device. In addition, an internal near-end crosstalk layer is better protected against mechanical damage and other external influences.

The near-end crosstalk layer of a terminal device according to the present invention may have a geometric extension that is at least as large as the largest geometric extension of one of the contact elements of a contact pair. The near-end crosstalk layer may have a geometric extent that is at least as large as the largest geometric extent that the contact elements of a contact pair have combined as disposed in the termination device. The near-end crosstalk layer may have a geometric extension in the direction of a series of contact elements which is greater than the distance between the outer contact elements of the row, i. H. between the first and the last contact element in the row.

In a connection device according to the present invention, the contact elements of a contact pair may be elongated. They may additionally be arranged parallel to one another in such a way that their longitudinal directions define a first contact plane. At least a portion of the near-end crosstalk layer may be substantially flat and disposed substantially in a plane parallel to the first contact plane.

Brief description of the drawings

In the following the invention will be explained with reference to the drawings with reference to an embodiment. Show it

1 Connecting device according to the invention in perspective view,

2 Exploded view of the connection device according to 1 with two housing halves and contacts,

3 Connecting device of 1 , At sight,

4 Connecting device of 1 , Section according to section AA in 1 .

5 Alternative connection device according to the invention in a perspective view.

In the 1 to 5 Embodiments of the invention will be described and illustrated in drawings. The same elements are provided with the same reference numerals.

1 is a perspective view of an embodiment of a connection device 1 according to the invention. It includes two transverse walls 7 . 8th , two side walls 5 . 6 as well as two longitudinal walls 9 . 10 , which is a housing of the connection device 1 form. The housing consists of two identical housing parts 1A . 1B (please refer 2 ), which at a separating seam 11 connected to each other. One of the side walls 5 . 6 is visible, the second side wall 6 is not visible in this illustration. Within the housing are electrically conductive, elongated contact elements 12 arranged (they are in 1 not visible, see explanation 2 ) extending from the longitudinal wall 9 to the opposite longitudinal wall 10 extend the housing and each can connect a first conductor of a telecommunication line with a second conductor. Each contact element 12 has a contact area at each end 13 for contacting a conductor. The contact areas 13 are insulation displacement contacts in this embodiment 13 , The insulation displacement contacts 13 like the contact elements 12 are arranged side by side and in two opposite rows. The longitudinal walls 9 . 10 are shaped to have insertion slots 14 have, in each of which a insulation displacement contact 13 a contact element 12 is arranged. A conductor can with the respective contact element 12 be contacted and mechanically fastened by placing it in the insertion slot 14 and in a slot of the insulation displacement contact disposed therein 13 is pressed.

On the outside of the side wall 5 are wire guide arms 24 and wire guide pins 27 arranged, the conductors to be connected as space-saving as possible to the contact areas 13 on the longitudinal walls 9 . 10 to lead. openings 28 in the sidewall 5 allow it in the manufacture of the connection device 1 , with a tool, the contact elements 12 in the connection device 1 to fix.

On the outside of the side wall 5 are also two near-end crosstalk layers 30 arranged side by side. Each of these near-end crosstalk layers 30 extends to the side wall 5 between the transverse walls 7 . 8th as well as between the respective part of the longitudinal wall 9 , the introductory slots 14 forms, and the separating seam 11 , every layer 30 has recesses in the places where wire guide arms 24 , Wire guide pins 27 and openings 28 are arranged. At the recesses around the openings 28 the shift is enough 30 up to about 0.4 mm to the openings 28 approach.

Each of the two near-end crosstalk layers 30 consists of an electrically conductive layer used in the manufacture of the connection device 1 applied by in-mold labeling in an injection molding process. every layer 30 has a thickness of about 1 micron.

In the present embodiment, there are two more near-end crosstalk layers 30 next to each other on the in 1 invisible sidewall 6 arranged. However, there are also connection devices 1 conceivable, only on a side wall 5 . 6 one or more near-end crosstalk layers 30 to have. Likewise, connecting devices 1 conceivable on a sidewall 5 . 6 only one continuous near-end crosstalk layer 30 to have. A near-end crosstalk layer 30 can only work on a part of a side wall 5 . 6 be arranged, such. In 5 shown. A near-end crosstalk layer 30 can also be on a bulkhead 7 . 8th or on two transverse walls 7 . 8th be arranged.

2 represents the two halves 1A . 1B the connection device 1 out 1 dar. The halves 1A . 1B are pulled apart so that the contact elements 12 are visible. Each insulation displacement contact visible in the drawing 13 a contact element 12 that with the lower half in the drawing 1B is connected, ends in the assembled state of the connection device 1 in an introductory slot 14 the - in this drawing - upper half 1A of the housing, making electrical conductors with the contact elements 12 with the help of insulation displacement contacts 13 can be connected by typing in the respective insertion slot 14 and in a slot of the insulation displacement contact disposed therein 13 be pressed. Each insulation displacement contact visible in the drawing ends in the same way 13 a contact element 12 that with the upper half in the drawing 1A is connected, in the assembled state of the connection device 1 in an introductory slot 14 the - in the drawing - lower half 18 of the housing, making electrical conductors with the contact elements 12 with the help of insulation displacement contacts 13 can be connected by typing in the respective insertion slot 14 and in a slot of the insulation displacement contact disposed therein 13 be pressed.

The contact elements 12 are arranged in two rows facing each other. Within a row are the contact elements 12 arranged side by side. In each case a contact element 12 One row is each a different contact element 12 the other row opposite. In the embodiment shown, the contact elements are substantially elongated and flat. All contact elements 12 a row lie essentially in one plane 35 . 36 , and the levels 35 . 36 the two rows are parallel to each other.

Adjacent contact elements 12 ie adjacent contact elements 12 in a row, are arranged parallel to each other. The longitudinal direction of each contact element 12 defines a direction, and the longitudinal directions of two parallel contact elements 12 in a row define a plane 35 . 36 ,

Also the near-end crosstalk layers 30 on the visible side wall in the drawing 5 are substantially flat and arranged in a plane. This plane is parallel to the plane 35 . 36 , by the longitudinal directions of two parallel, juxtaposed contact elements 12 is defined.

Out 2 It can be seen that in the embodiment shown, the near-end crosstalk layers 30 each larger than a contact element 12 , In other words, any near-end crosstalk layer 30 has a geometric extent that is at least as large as the largest geometric extent of one of the contact elements 12 ,

It can also be seen that the near-end crosstalk layers 30 each have recesses in the places where wire guide pins 27 on the sidewall 5 are arranged. At these locations are the near-end crosstalk layers 30 interrupted. The layers 30 are also interrupted at the places where there are openings 28 in the sidewall 5 are located. In a possible alternative embodiment of the invention is a near-end crosstalk layer 30 not interrupted, but continuously. So it is possible, for example, a continuous layer 30 to form two adjacent parts, which are electrically connected to each other and in the vicinity of the cutting seam 11 overlap. A continuous near-end crosstalk layer 30 can z. B. wire guide pins 27 and openings 28 cover or over the cutting seam 11 extend. A wire guide pin 27 but also only partially, z. B. up to a certain "height" of the layer 30 be covered.

3 is a plan view of the connection device 1 from 1 , on a longitudinal wall 9 the connection device 1 , The longitudinal direction of each of the contact elements 12 extends perpendicular to the plane of the drawing, so only the insulation displacement contacts 13 designed contact areas 13 the contact elements 12 are recognizable. In this view, the arrangement of the insulation displacement contacts 13 the contact elements 12 clearly visible in two rows opposite each other. Within a row are the contact elements 12 arranged side by side. contact elements 12 within a row are juxtaposed while facing each contact element 12 a row a contact element 12 the other row is arranged.

Furthermore, in each case two juxtaposed contact elements 12 within a row a contact pair and their contact areas 13 are arranged closer to each other than the contact areas 13 two contact elements 12 that belong to different contact pairs. For example, the two belong with 13a designated contact areas to the contact elements 12 a first contact pair. The two with 13b designated contact areas 13 belong to two contact elements 12 , which form another contact pair. In the embodiment shown, all contact elements form 12 a series of contact pairs. Likewise, all contact elements 12 the other series contact pairs.

To the contact areas 13a the contact elements 12 of a first pair of contacts, conductors of a telecommunication line are assigned, which are assigned to a subscriber, while to the contact areas 13b the contact elements 12 an adjacent pair of contacts can be connected to the same or another telecommunication line assigned to another subscriber. In general, two adjacent pairs of contacts are associated with two different subscribers and transmit different signals. At higher frequencies, the signal of one pair of contacts affects the signal of an adjacent, ie adjacent in the same row, contact pair. This mostly unwanted effect is often referred to as near-end crosstalk, crosstalk or crosstalk. A near-end crosstalk layer 30 according to the present invention reduces this near-end crosstalk. It can be assumed that a near crosstalk attenuation layer arranged closer to the involved contact pairs 30 reduces near-end crosstalk more than a more distant one. Of the two in 3 visible near-end crosstalk layers 30 reduces the on the sidewall 5 arranged near-end crosstalk layer 30 the near-end crosstalk between the contact pairs with the contact areas 13a and 13b stronger than those on the sidewall 6 arranged near-end crosstalk layer 30 , The contact areas 13a and 13b have been described only by way of example. Also near-end crosstalk between the two contact pairs with the contact areas 13a and the contact areas 13c is caused by the near-end crosstalk layer 30 diminished that on the sidewall 5 is arranged. Similarly, near-end crosstalk between the two contact pairs with the contact areas 13a and the contact areas 13d through this near-end crosstalk layer 30 reduced, and also between all contact pairs of the connection device 1 , However, near-end crosstalk between adjacent contact pairs is usually stronger than near-end crosstalk between more remote contact pairs, so attenuation of near-end crosstalk between adjacent contact pairs is more important than attenuation between more remote contact pairs.

The near-end crosstalk layers 30 are electrically potential-free. That is, they are not electrically conductive with other parts of the connection device 1 or a telecommunication line, which are at a certain fixed or variable potential. In particular, they are not electrically connected to earth potential. In the present embodiment are on the side wall 5 two adjacent near-end crosstalk layers 30 arranged. The layers 30 are electrically floating and not electrically connected to each other. In an alternative embodiment of the invention, the two adjacent potential-free layers 30 be electrically connected to each other. Because none of the layers 30 with another part of the connection device 1 or is electrically connected to a telecommunication line which is at a certain fixed or variable potential, is also each of the conductive interconnected layers 30 electrically potential-free.

The near-end crosstalk layers 30 the connection device 1 According to the invention are electrically floating and therefore do not need other parts of the connection device 1 to be connected. So there is no room for such connections to be provided. The connection device 1 is therefore smaller than a comparable connection device, whose near-end attenuation layers must be connected to other parts of the connection device, for. B. to a part that is at ground potential.

A near-end crosstalk layer 30 defines two sides. Each of the near-end cushioned layers 30 In the exemplary embodiment shown, it is substantially flat, ie flat, designed and lies substantially in a plane parallel to the respective side wall 5 . 6 , However, in an alternative embodiment of the invention, a near-end crosstalk layer may be used 30 arched, uneven or irregularly shaped. Also, a domed, uneven, or irregularly shaped near-end crosstalk layer 30 defines two sides. All through the contact elements 12 formed contact pairs lie on one side of the Nahnebensprechdämpfungsschicht 30 on the sidewall 5 is arranged. In particular, the contact pairs, their contact areas 13a and 13b by way of example, and between which near-end crosstalk is attenuated, on the same side of the near-end crosstalk layer 30 on the side surface 5 arranged and visible in the drawing.

The near-end crosstalk layers 30 are substantially flat and arranged in a plane. This plane is parallel to the plane passing through the longitudinal directions of two parallel juxtaposed contact elements 12 a contact pair is defined, such as the contact pair whose contact areas with 13a are designated.

The extent of the in the 1 to 3 shown connection device 1 between the transverse walls 7 . 8th is about 10 cm. The removal of each near-end attenuation layer 30 from the nearest contact elements 12 is less than 10 mm and is about 0.4 mm. Generally, in the illustrated embodiment, the removal of at least a portion of the near-end crosstalk layer 30 to at least a part of a contact element 12 a contact pair less than 10 mm.

In an alternative embodiment of the invention is a near-end crosstalk layer 30 as large as the extent of a contact pair or larger. In other words, the near-end crosstalk layer 30 has a geometric extent that is at least as large as the largest geometric extent that the contact elements 12 a contact pair have combined as they are arranged in the connection device.

In 4 is a cross section through the connection device 1 out 1 in a plane through the line AA in 1 shown. Inside the housing of the connection device 1 are two contact elements 12 to see who are facing each other. These are so-called switch contacts 12 , each with two contact areas 13 and one conductive spring arm each 32 to have. The two opposing contact elements 12 can thereby be electrically connected to each other, that through an opening in a transverse wall 9 . 10 an external conductive element between the spring arms 32 is inserted. Same shaped spring arms 32a belong to other contact elements 12 behind the cutting plane, in rows next to the contact elements visible in the drawing 12 , are arranged and mounted mirror-symmetrically. Other, opposing contact elements 12 the connection device 1 be electrically connected to each other in the same way as the two visible contact elements 12 in the cutting plane.

On the outer surface of each side wall 5 . 6 of the housing are two near-end attenuation layers 30 arranged. Your distance to the nearest contact element 12 is essentially determined by the thickness of the respective side wall 5 . 6 certainly. The side walls 5 . 6 consist of an electrically insulating material, so any near-end cushioned layer 30 electrically from the contact elements 12 is isolated. In an alternative embodiment, the near-end crosstalk layer 30 on an inner surface of a side wall 5 . 6 be arranged. Then, an insulating layer or an air gap between the contact elements 12 and the nearest near-end crosstalk layer, respectively 30 an electrical contact between the layer and the contact elements 12 prevented.

Each of the two visible in the drawing contact elements 12 forms with a contact element arranged next to it 12 , which lies in the same row behind or in front of the cutting plane of the drawing, a contact pair. The contact elements 12 a contact pair are therefore arranged side by side and parallel to each other. Each of the contact elements 12 is elongated as described above. The longitudinal directions of the contact elements 12 of a contact pair define a contact level 35 . 36 , in the 4 perpendicular to the cutting plane. As already explained, therefore, each of the near-end crosstalk layers is 30 essentially flat and arranged in a plane parallel to the contact plane 35 . 36 is, and also perpendicular to the section plane.

5 shows in perspective an alternative embodiment of a connection device 1 according to the invention. It differs from the connection device 1 out 1 in that here only on a part of the visible side wall in the drawing 5 an electrically floating near-end crosstalk layer 30 is arranged, namely on the longitudinal wall 9 towards the longitudinal part 10 towards the bottom, in the drawing below lying, part of the side wall 5 no near-end cushioned layer 30 wearing. Also are recesses for wire guide pins 27 and openings 28 in the layer 30 designed larger than in the connection device of 1 , and parts of the sidewall 5 near the transverse walls 7 . 8th are not from the near-end crosstalk layer 30 covered. The near-end crosstalk layer 30 is interrupted, because the right in the drawing upper part of the layer 30 is on the sidewall 5 next to the larger part of the layer 30 arranged but not electrically connected to it.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 19537531 C1 [0004]
• DE 29909786 U1 [0005]

Claims (12)

Connecting device for telecommunication lines, comprising at least four electrically conductive contact elements arranged in a row ( 12 ) each having at least a first contact area ( 13 ) for contacting a first conductor, and each having at least one second contact region ( 13 ) for contacting a second conductor, wherein two of the contact elements ( 12 ) are arranged directly next to one another in the row and form a first contact pair for conducting a first electrical signal, and two further of the contact elements ( 12 ) are arranged directly next to one another in the row and form a second contact pair for conducting a second electrical signal, and an electrically conductive near-end crosstalk layer (US Pat. 30 ) for attenuating the near-end crosstalk between the first contact pair and the second contact pair, wherein the contact elements ( 12 ) of the first contact pair and the contact elements ( 12 ) of the second contact pair on the same side of the near-end crosstalk layer ( 30 ), characterized in that the near-end crosstalk ( 30 ) is electrically floating. Connection device according to protection claim 1, wherein the near-end crosstalk layer ( 30 ) comprises an electrically conductive coating or an electrically conductive layer of a film. Connecting device according to protection claim 1 or 2, wherein the near-end crosstalk layer ( 30 ) is interrupted. Connecting device according to one of the claims 1 to 3, wherein the removal of at least part of the near-end crosstalk layer ( 30 ) to at least a part of a contact element ( 12 ) of the first contact pair is less than 10 mm. Connecting device according to one of the preceding claims, wherein at least part of the near-end crosstalk layer ( 30 ) has a thickness of more than 1.0 μm. Connecting device according to one of the preceding claims, wherein at least part of the near-end crosstalk layer ( 30 ) has a surface electrical resistance of at most 1 ohm / mm ² . Connecting device according to one of the preceding claims, wherein at least part of the near-end crosstalk layer ( 30 ) comprises an electrically conductive metal or an electrically conductive plastic. Connecting device according to one of the preceding claims, wherein the connecting device comprises a housing with a housing wall ( 5 . 6 . 7 . 8th . 9 . 10 ) having an inner surface and an outer surface, wherein at least a part of the inner surface facing the first contact pair, and wherein at least a part of the outer surface facing away from the first contact pair. Connecting device according to protection claim 8, wherein the near-end crosstalk layer ( 30 ) on the inner surface or on the outer surface of the housing wall ( 5 . 6 . 7 . 8th . 9 . 10 ) is arranged. Connecting device according to protection claim 8, wherein at least a part of the near-end crosstalk layer ( 30 ) in the housing wall ( 5 . 6 . 7 . 8th . 9 . 10 ) or at least part of the housing wall ( 5 . 6 . 7 . 8th . 9 . 10 ). Connecting device according to one of the preceding claims, wherein the near-end crosstalk layer ( 30 ) a geometric extension in the direction of the row of contact elements ( 12 ) which is at least as large as the distance between the outer contact elements ( 12 ) the series. Connecting device according to one of the preceding claims, wherein the contact elements ( 12 ) of the first contact pair are elongate and are arranged parallel to one another such that their longitudinal directions form a first contact plane ( 35 . 36 ) and wherein at least part of the near-end crosstalk layer ( 30 ) is substantially flat and is arranged substantially in a plane parallel to the first contact plane ( 35 . 36 ).

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