Connector assembly for printed circuit boards

Description

[0001] The invention relates to a connector assembly according to the preamble of claim 1.

[0002] Such connector assemblies are known in various embodiments. In the design of the known connector assemblies attention has mainly been paid to the mechanical aspects of the connector assembly, in particular with respect to the forces required for mating and unmating the connector elements. Attention was only paid to the electrical aspects in that one aimed at realizing good reliable connections between the contacts of both connector elements. With increasing speeds of the digital signals to be transferred, i.e. decreasing rise times, the electrical performance of the contacts as a circuit element becomes important. In the known connector assemblies problems occur with higher signal speeds with respect to cross-talk between signal contacts, transmission losses, reflections and ground bounce or switching noise. Despite an optimal distribution of the ground and signal contacts these problems cannot be eliminated below rise times of 0,6ns in the known connector assemblies.

[0003] A connector assembly according to the preamble of claim 1 is known from US-A-4 867 707. In this known connector assembly the contact means of each outer conductor adapted to contact the adjacent ground contacts is made as a female contact type for receiving and enclosing a ground contact pin.

[0004] The invention aims to provide a connector assembly of the above-mentioned type wherein the problems occurring at high signal speeds in the known connector assemblies can be obviated by making the connector elements in such a mannerthat the performance of the contacts as a circuit element can be previously determined and said signal distortions are minimized.

[0005] To this end the connector assembly according to the invention is characterized by the features of the characterizing part of claim 1.

[0006] In this manner it is obtained that with coupled connector elements the signal contacts together with the corresponding outer conductors each form more or less a transmission line with a geometry, the dimensional parameters of which can be determined in such a manner that the electrical requirements which are made on the connector assembly, are met. Further it is possible to previously make an equivalent electrical diagram of the connector which can be used in designing the overall system in order to take account of the electrical performance of the connector assembly from the beginning. This latter possibility is an important advantage as at high bit rates an interaction occurs between the connector and the surrounding connection elements of the system, whereby the operation of the overall system is affected. With the connector assembly according to the invention it is now possible to obtain an optimal operation despite this interaction.

[0007] Further the connector assembly according to the invention shows the advantage that the connector elements and the male and female contacts can be made in a usual manner so that all known design and manufacturing techniques of the ususal connector assemblies can be used advantageously. The connection between the male and female contacts is comparable with the same of the known connector assemblies so that the favourable mechanical properties thereof, such as mating/unmating forces and in particular the tolerances with respect to the mutual positions of the contacts are maintained when used in rack and panel configurations. Further all contacts and outer conductors can be manufactured from metal strips by stamping and forming so that the manufacturing costs of the connector assembly according to the invention are low.

[0008] Each signal contact of the second connector element is mounted in the corresponding outer conductor by means of a dielectric insert. In this manner a reliable mounting of the signal contact in the corresponding outer conductor is realized. The impedance of each signal contact can be determined by using an insert wherein by providing more or less recesses the dielectric constant of the insert between the signal contact and the outer conductor can be determined. Thereby the combination of signal contact and outer conductor which can be considered as a transmission line, can be provided with a desired impedance.

[0009] The invention will be further explained by reference to the drawings in which some embodiments are schematically shown.

Fig. 1 is a section of a first embodiment of a connector assembly wherein the first and second connector elements are shown in a disassembled position.

Fig. 2 is a section corresponding with fig. 1 of an amended embodiment of the connector assembly according to the invention.

Fig. 3 is a top view of the first connector element of figs. 1 and 2.

Figs. 4a and 4b show perspective the ground contact plates of the second connector element of figs. 1 and 2, respectively.

Fig. 5 is a partially shown perspective cut-away view of the second connector element of the connector assembly of fig. 1.

Fig. 6 is a section corresponding with fig. 1 of an amended embodiment of the connector assembly according to the invention.

Fig. 7 is a perspective view of an amended embodiment of the outer conductor and corresponding signal contact as the same can be used in the second connector element.

Fig. 8 is a partially shown perspective cut-away view of an amended embodiment of the second connector element of a connector assembly according to the invention.

Fig. 8a is a perspective view of an outer conductor of the connector element of fig. 8 with dielectric insert.

fig. 9 is a schematic section of the connector element of fig. 8 to explain the ground connection.

Fig. 10 is a section corresponding with fig. 1 of an amended embodiment of the connector assembly according to the invention.

Fig. 11 is a perspective view of the outer conductors of the second connector element of the connector assembly according to fig. 10.

Fig. 12 is a perspective view of a ground contact of the first connector element of the connector assembly according to fig. 10.

Fig. 13 shows in perspective an outer conductor of the second connector element with two female signal contacts.

Fig. 14 is a top view of an alternative embodiment or the first connector element according to the invention.

Fig. 15 is a section according to the line XV-XV of fig. 14.

Fig. 16 is a perspective view of an outer conductor with signal contact of the first connector element of fig. 14.

Fig. 17 is a section corresponding with fig. 15 of a first connector element with amended connection to a printed circuit board.

Fig. 18 shows in perspective the outer conductors with signal contacts of the connector element of fig. 17.

[0010] Referring to fig. 1 there is shown a cross-section of a connector assembly 1 comprising a first connector element 2 with a first housing 3 of insulating material and contact pins 4 and 5 arranged in parallel rows rand columns c (see fig. 3). These contact pins 4, 5 each have a connection element 6, by which the contact pins 4, 5 can be connected with the plated inner wall of holes in a printed circuit board 7 indicated by a dashed. To this end the connection elements 6 are preferably provided with a known press-fit portion not further shown.

[0011] As indicated in figs. 1 and 3, the connector element 2 comprises two rows with signal contact pins 4 which are indicated by an s, wherein at both sides of each row with only signal contact pins 4 a row with only ground contact pins 5 indicated by a g is provided. The arrangement is such that a column with only ground contact pins 5 is provided on both sides of each column c with alternatingly signal contact pins 4 and ground contact pins 5. The rows with contact pins 4, 5 have a fixed intermediate spacing of 2mm, while in row direction the ground contact pins 5 lie at a fixed intermediate spacing of 2mm and the signal contact pins 4 lie at a fixed intermediate spacing of 4mm.

[0012] The connector assembly 1 is further provided with a second connector element 8 with a second housing 9 of insulating material adapted to be inserted with a mating side 10 in the first housing 3 of the connector element 2. The second connector element 8 is shown in perspective in fig. 5 and includes two rows with female signal contacts 11 for contactinq the signal contact pins 4 when the second housing 9 is received in the first housing 3. Each signal contact 11 is enclosed by an outer conductor 12 which seen in column direction has opposite contact springs 13. In mated position these contact springs 13 contact the ground contact pins 5 of the first connector element 2 lying in the same column as the corresponding signal contact pin 4.

[0013] Seen in row direction the outer conductors 12 have opposite contact tongues 14 adapted to contact ground contact plates 15 located on both sides of each outer conductor 12 in the second housing 9. The contact tongues 14 lying at the mating side in fig. 5 conduct the current to the inner side of the outer conductor 12 whereas the contact tongues 14 lying at the other end conduct the current from the inner side of the outer conductor to the ground contact plates 15.

[0014] Fig. 4a shows one ground contact plate 15 in perspective. This ground contact plate 15 is provided with female contact elements 16 at the mating side, which contact elements 16 cooperate with the columns with only ground contact pins 5 of the first connector element 2. In this manner a very good ground connection between both connector elements 2, 8 is obtained, wherein a favourable current distribution in the outer conductors 12 occurs.

[0015] Opposite of the mating side the ground contact plates 15 extend beyond the connection elements 17 of the signal contacts 11. At these sides the ground contact plates 15 have connection elements 18 for connection to a printed circuit board 70 indicated with a dashed line in fig. 1. The connection elements 17 and 18 maybe provided with a press-fit portion.

[0016] It is noted that the open space between each two succeeding ground contact plates 15 can be closed by providing a ground contact plate 15 with extensions which extend from this ground contact plate 15 to the adjacent ground contact plate 15. Thereby the signal contacts 11 will be fully enclosed by ground contact plates.

[0017] Due to the fact that the signal contacts 11 are surrounded by the outer conductors 12 and are further enclosed between the ground contact plates 15, the signal contacts 11 with the outer conductor 12/ground contact plates 15 form a transmission line with a geometry, of which the electrical parameters and thereby the performance as circuit element can be determined. The signal contacts 11 are mounted in the outer conductors 12 by means of dielectric inserts 19. These dielectric inserts 19 which can be manufactured by injection molding at low costs, have a predetermined dielectric constant. By providing larger or smaller recesses so that more or less air is present between the signal contacts 11 and the outer conductors 12, this dielectric constant can be determined and thereby among others the impedance of the transmission line formed by the signal contacts 11 and the outer conductors 12/ground contact plates 15. In this manner a connection can be realized with a constant impedance, wherein cross-talk between signal contacts cannot occur because each signal conductor is surrounded by a ground conductor.

[0018] The connection elements 17, 18 of the signal contacts 11 and the ground contact plates 15 may also be made as contact springs adapted for surface mounting as appears from fig. 2, showing a connector assembly, the connector element 2 of which fully corresponds with the connector element 2 of fig. 1 and the connector element 8 of which is provided with ground contact plates 20 and signal contacts 11 adapted for surface mounting. The connection elements are indicated by 17' and 18'. Fig. 4b shows in perspective a ground contact plate 20 used in the embodiment according to fig. 2.

[0019] Fig. 6 shows a cross-section of a connector assembly 21 mainly made in the same manner as the connector assembly according to fig. 2. In this case however two rows of ground contact pins 5 are mounted between the two rows of signal con) tact pins 4. Ground contact plates 23 each having a contact spring 18' are used, which contact plates 23 can only contact the ground contact pins 5 on both sides of the corresponding signal contact pins 4. Thereby separated ground connections for the two rows of signal contact pins 4 are obtained. Due to the increased width of the connector assembly 21 it is also possible to use a printed circuit board 22 with increased thickness.

[0020] Fig. 7 shows in perspective one outer conductor 24 which can be mounted in the second connector element 8 for connecting coaxial cables 25 to the printed circuit board 7. The outer conductor 24 comprises a connection element 26 to provide a simple connection with the outer conductor 27 of the coaxial cable 25. To this end the connection element 26 is first bent around the outer conductor 27. The signal contact not further shown and mounted in the outer conductor 24 by the dielectric insert 19, has a connection element 28 for connecting the inner conductor 29 of the coaxial cable 25. The connection between the outer conductor 27 and the inner conductor 29 can be obtained by soldering. After connecting the coaxial cable 25 the parts 30 which are bent open and one of which is not shown in fig. 7 for the sake of clearness, are closed.

[0021] Fig. 8 shows a perspective view of an amended embodiment of the second connector element 8 with the housing 9, wherein the outer conductors 12 at the side opposite of the mating side 10 are provided with an extension 31 having two ground contact pins 32 to be connected to a printed circuit board 33. In fig. 8a one of the outer conductors with dielectric insert 19 and both ground contact pins 32 is shown in perspective. The ground contact pins 32 can be provided with a press-fit portion. As appears from fig. 8a, the contact pins 32 are lying with respect to the longitudinal direction of the outer conductor 12 diagonally with respect to each other. Straight opposite of each contact pin 32 a recess 34 is provided, leaving free a hole 35 of the printed circuit board 33 which is intended to receive the ground contact pin 32 of an adjacent outer conductor 12.

[0022] In the embodiment of the second connector element 8 according to fig. 8 it is possible to give each group of one or more signal contacts a ground connection which is independent of the same of other groups of signal contacts. Thereby a programmable lay-out of ground connections is possible. By way of illustration fig. 9 schematically shows a section of the housing 9 of the connector element 8, wherein for the sake of clearness the outer conductors 12 and the inserts 19 are not shown. In fig. 9 the signal contacts 11 are indicated by an open rectangle, whereas the locations for the contact pins 4, 5 are indicated by shaded squares. In the second connector element 8 according to fig. 8 ground contact plates 36 are used which are separated for the two rows of signal contact pins 4 and which are indicated in fig. 9 by an oblique shading. These ground contact plates 36 have only one female contact element 16 which can only contact a corresponding ground contact pin 5 of the outermost rows of ground contact pins 5. In the embodiment shown insulating plates 37 (indicated by a horizontal shading) are provided at three locations in the housing 9 of the second connector element 8, while in the middle row of ground contact pins 5 only one ground contact pin 5 is mounted and four non-conductive insulating pins 38 (also horizontally shaded). Thereby the outer conductors 12 of different groups of signal contact pins 4 and corresponding female signal contacts 11 are insulated with respect to each other, so that the ground connection of these groups is separated and these groups cannot effect each other. By mounting at suitable locations the insulation pins 38 and insulating plates 37 instead of ground contact plates 36 and ground contact pins 5, each desired group of signal contacts with common ground connection can be realized. It is noted that instead of insulating pins 38 it is sufficient just to omit the ground contact pins 5 for separating the outer conductors 12 lying in one column.

[0023] The ground contact plates 36 can also be coated on one side with an insulating layer to obtain a separation between adjacent outer conductors 12. Thereby not only a separation is possible but the outer conductor 12 lying at the conductive side of the ground contact plate 36 maintains its ground connection through this ground contact plate.

[0024] Fig. 10 shows a cross-section of a connector assembly 39, wherein the first connector element 40 mainly corresponds with the first connector element of fig. 1. In this case however the contact pins 4, 5are located in column direction at a mutual distance of 2,5mm. The signal contact pins 4 lie at an intermediate spacing of 4,5mm. Each three subsequent ground contact pins 5 are united into a ground contact lip 41 shown in fig. 12, which can have three connection elements 42 with a mutual spacing of 1,5mm.

[0025] As appears from fig. 10, the connector assembly 39 comprises a second connector element 43 which in the same manner as the second connector element 8 is provided with two rows of female signal contacts. The second connector element 43 further comprises for each signal contact an outer conductor 44 and 45, respectively, having an extension 46 and 47, respectively. The outer conductors 44, 45 are perspectively shown in fig. 11. The extensions 46, 47 have four connection elements 48 which may be provided with a press-fit portion. The outer conductors 44, 45 further have two contact springs 49 on both sides for contacting the ground contact lips 41 which are adjacent on both sides of the corresponding signal contact pin 4 of the first connector element 40. Thereby the ground connection is separated for each column of signal contacts. If two rows of ground contact pins 5 are provided between both rows of signal contact pins 4 as in the embodiment of fig. 6, each signal contact pin 4 can have a separated ground connection.

[0026] Although not shown in fig. 11, each female signal contact is mounted in the corresponding outer conductor 44, 45 also by means of a dielectric insert in the connector assembly 39. In fig. 10 two connection elements 50 of the female signal contacts of the second connector element 43 are shown.

[0027] It is noted that in the embodiments of figs. 8 and 10 the signal contacts and the outer conductors of the second connector element are provided with connection elements for mounting in plated holes of a printed circuit board. Of course, also in these embodiments the connection elements can be made as contact springs for surface mounting.

[0028] Although in the above-described embodiments of the invention each female signal contact is enclosed by an outer conductor, it is also possible to mount two or more signal contacts within one outer conductor. Thereby twinax or triax connections with the same favourable properties can be obtained. The connector assembly according to the invention is therefor for example also suitable for use in systems equiped with ECL circuits.

[0029] Fig. 13 shows in perspective as an example an outer conductor 51 of a second connector element not shown, in which two female signal contacts 52 are mounted by means of an insert 53. The outer conductor 51 comprises ground connection elements 54, whereas the signal contacts 52 each have a connection element 55. Further the outer conductor 51 is provided with contact springs 56 for contacting ground contacts of the corresponding signal contact of the first connector element not shown. It wi be clear that both connector elements can be made in the above-described manner for the remaining part.

[0030] The described connector assemblies already give a substantial improvement as to the high frequency performance. A further improvement can even be obtained if the signal contacts of the first connector element are mounted in an outer conductor in the same manner as the signal contacts of the second connector element.

[0031] Figs. 14 and 15 show a top view and a section, respectively, of a first connector element 56, wherein each signal contact 4 is enclosed by an outer conductor 57 along the portion of the signal contact extending in the insulating material of the first housing 3. The signal contacts 4 are in this case mounted in the outer conductor 57 by means of an insert 58. It is noted that in this case also two or more signal contacts 4 can be enclosed by a common outer conductor 57.

[0032] The ground contacts 5 of the connector element 56 each comprise a plate-like portion 59 contacting the outer conductor 57 of adjacent signal contacts 4. At the location of the contact points the outer conductors 57 are provided with a contact tongue 60 as shown in fig. 16.

[0033] In fig. 17 a section as in fig. 15 of a first connector element 61 is shown, which connector element 61 is adapted for a perpendicular connection to a printed circuit board in dicated by a dashed line.

[0034] In this case the outer conductors 57 comprise an extension 62 which in the same manner as the extensions 31 of the outer conductors 12 is provided with ground connection elements 63. In this case the ground contacts 5 are made without connection elements 6. By way of illustration the outer conductors 57 with extensions 62 are perspectively shown in fig. 18. As appears from fig. 18, the connection elements 63 are provided in the same manner as the connection elements 32 of the extension 31 of the outer conductors 12. Also in this case recesses 34 are made for the connection elements of adjacent outer conductors. In fig. 18 the signal contact pins 4 with their connection elements 6 can also be seen.

[0035] It is noted that in the described embodiments of the connector assembly according to the invention the first con nector element comprises rows of only signal contacts. It is however also possible to mount a ground contact between subsequent signal ontacts. In that case the ground contact plates of the corresponding second connector elements can be omitted so that the ground contacts lying in a row of signal contacts can directly contact the outer conductors through suitable contact springs or the like.

[0036] In the first connector element 56 according to fig. 14 it is also possible to mount ground contacts between subsequent signal contacts.

[0037] Further it is noted that it is possible to use for example U-shaped outer conductors, wherein the subsequent outer conductors join each other so that more or less closed outer conductors are obtained.

[0038] The connector assembly according to the invention can also be provided with signal contacts mounted in the usual manner which of course are only suitable for relatively low frequency signals.

[0039] From the above description it will be clear that the invention provides a connector assembly wherein the signal contacts with corresponding outer conductors can be considered as a transmission line with such a geometry that the electrical parameters of the connector assembly can be determined. Thereby it is possible to adapt the impedance of the signal contacts to the output impedance of the signal source and in put impedance of the receiver.

[0040] The connector assembly according to the described embodiments of the invention provides a connection with a predetermined impedance between printed circuit boards or between a printed circuit board and a multi-core cable. The manufacturing costs of this connector assembly are relatively low because all signal and ground contacts and outer conductors can be manufactured by stamping and forming. Further both press-fit and surface mounting connections to printed circuit boards are possible. The connection between male and female contacts can be compared with the same of the known connector assemblies so that the favourable mechanical properties thereof, like mating and unmating forces and in particular the tolerances with respect to the mutual positions of the contacts, are maintained when used in rack and panel configurations.

[0041] The invention is not restricted to the above-described embodiments which can be varied in a number of ways within the scope of the following claims.

Claims

1. Connector assembly (1, 21, 39) for printed circuit boards (7), comprising

a first connector element (2, 40, 56, 61) with a first housing (3) of insulating material and regularly arranged male signal and ground contacts (4,5) connectable to a printed circuit board, and

a second connector element (8, 43) with a second housing (9) of insulating material, which can be inserted with a mating side (10) into the first housing, and with regularly arranged female signal and ground contacts (11, 16, 52) with a connection element (17, 18), which female contacts will contact the corresponding male contacts when the second housing is received in the first housing, wherein said second connectorele- ment (8, 43) is provided with a plurality of outer conductors (12, 24, 44, 45, 51 ), each of said outer conductors mainly enclosing at least one signal contact (11, 52) in a circumferential direction and each of said outer conductors having contact means (13, 49, 56) adapted to contact the adjacent ground contacts (5) of the/each corresponding signal contact (4) of the first connector element (2, 40, 56, 61), wherein each outer conductor of the second connector element is provided with a dielectric insert (19, 53), the/each corresponding signal contact being mounted in said insert,
characterized in that the contact means of each outer conductor (12, 24, 44, 45, 51) of the second connector element (8) is formed out of the outer conductor as contact springs (13, 49, 56) for contacting the ground contacts (5) of the first connector element (2, 40, 56, 61).

2. Connector assembly according to claim 1, wherein the male and female contacts are arranged in parallel rows and columns, characterized in that the first connector element (2) comprises at least one row with signal contacts (4), wherein a row with only ground contacts (5) is provided at both sides of each row with signal contacts (4).

3. Connector assembly according to claim 1 or 2, characterized in that the first connector element (2) is provided with a column with only ground contacts (5) at both sides of each column with one or more signal contacts (4) and ground contacts (5).

4. Connector assembly according to anyone of the preceding claims, characterized in that each outer conductor (12, 44, 45, 51) of the second connector element (8) has an extension (31, 46, 47) opposite of the mating side (10), said extension having ground connection elements (32,48, 54).

5. Connector assembly according to claim 4, characterized in t hat each outer conductor (12) of the second connector element (8) has two connection pins (32) for connection to a printed circuit board (33), which connection pins are located diagonally with respect to the longitudinal direction of the outer conductor, wherein opposite of each connection pin (32) a recess (34) is provided in the outer conductor for receiving the connection pin (32) of an adjacent outer conductor (12).

6. Connector assembly according to anyone of the preceding claims, characterized in that seen in the direction of the respective row of signal contacts (4) each outer conductor (12,24,44,45,51) is provided with opposite contact tongues (14) for contacting ground contact plates (15, 20, 23) which can be mounted at both sides of each outer conductor in the second housing (9), said ground contact plates (15, 20, 23) being provided with female contact elements (16) at the mating side (10) for contacting the ground contacts (5) of the first connector element (2, 40, 56, 61).

7. Connector assembly according to claim 6, characterized in that a ground contact plate (15, 20, 23) is provided at both sides of each outer conductor (12, 24, 44, 45, 51), said ground contact plate (15, 20, 23) having ground connection elements (18, 18') at the side opposite of the mating side (10).

8. Connector assembly according to claim 7, characterized in that each ground contact plate (15, 20, 23) extends at the side opposite of the mating side (10) beyond the connection elements (17, 17') of the signal contacts (11).

9. Connector assembly according to claim 6, 7 or 8, characterized in that the first connector element (2) comprises two rows with ground contacts (5) between two rows with signal contacts (4), wherein each ground contact plate (23) of the second connector element can only contact the ground contacts (5) of the rows with ground contacts at both sides of the corresponding row with signal contacts (4).

10. Connector assembly according to anyone of claims 4-9, characterized in that a ground contact plate (36) can be provided or not, as desired, adjacent to each of the outer conductors (12) of each row with signal contacts (11) of the second connector element, which ground contact plate (36) is adapted to contact a ground contact (5) of rows with ground contacts which are not adjacent to other rows of signal contacts (4), wherein a ground contact (5) can be provided or not, as desired, in each column with two or more signal contacts (4) of the first connector element between two signal contacts.

11. Connector assembly according to claim 10, characterized in that at the absence of a ground contact plate (36) an insulation plate (37) with an insulation layer at one side is provided adjacent an outer conductor (12) of the second connector element and in that at the absence of a ground contact (5) between two signal contacts in the same column of the first connector element an insulating pin (38) is provided.

12. Connector assembly according to claim 4, characterized in that the ground contacts (5) of the first connector element are united in groups in each row into ground contact lips (41), wherein each outer conductor (44, 45) of the second connector element is adapted to contact only those ground contact lips (41) which are adjacent the corresponding signal contact on both sides thereof.

13. Connector assembly according to anyone of the preceding claims, characterized in that one or more outer conductors (24) and corresponding signal contacts of the second connector element are provided with connection elements (26, 28) for connecting a coaxial cable (25).

14. Connector assembly according to anyone of the preceding claims, characterized in that the first connector element (56, 61) is provided with a plurality of outer conductors (57), each of said outer conductors mainly enclosing at least one signal contact (4) in a circumferential direction along at least the part of the/each signal contact extending in the insulating material of the first housing and each of said outer conductors being adapted to contact the adjacent ground contacts (5) of the/each corresponding signal contact (4) of the first connector element.

15. Connector assembly according to claim 14, characterized in that each outer conductor (57) of the first connector element (56, 61) is provided with a dielectric insert (58), the/each corresponding signal contact (4) being mounted in said insert.

16. Connector assembly according to claim 14 or 15, characterized in that each outer conductor (57) is provided with contact tongues (60) for contacting the ground contacts (5).

17. Connector assembly according to claim 16, characterized in that the ground contacts (5) of the first connector element (56, 61) each comprise a plate-like part (59) for contacting a contact tongue (60) of the outer conductor (57) of the/each adjacent signal contact (4).

18. Connector assembly according to anyone of the claims 14-17, characterized in that each outer conductor (57) of the first connector element (61) is provided with an extension (62) at its side opposite of the second connector element, said extension (62) being provided with ground connection elements (63) for connecting the ground contacts (5) to a printed circuit board, said ground connection elements (63) extending perpendicular to the longitudinal direction of the outer conductor.

Ansprüche

1. Verbinderanordnung (1, 21, 39) fürgedruckte Leiter platten (7), mit

- einem ersten Verbinderelement (2, 40, 56, 61) mit einem ersten Gehäuse (3) aus isolierendem Material und gleichmäßig verteilt angeordneten Signal- und Erdungssteckkontakten (4, 5), die mit der Leiterplatte verbindbar sind, und

- einem zweiten Verbinderelement (8, 43) mit einem zweiten Gehäuse (9) aus isolierendem Material, welches mit einer Steckseite (10) in das erste Gehäuse eingesteckt werden kann, welches gleichmäßig verteiltangeordnete Signal- und Erdungskontaktbuchsen (11, 16, 52) mit einem Verbindungselement (17,18) aufweist, wobei die Kontaktbuchsen die entsprechenden Steckerkontakte verbinden wenn das zweite Gehäuse in dem ersten Gehäuse aufgenommen ist, wobei das zweite Verbinderelement (8, 43) mit einer Vielzahl äußerer Leiter (12, 24, 44, 45, 51) ausgerüstet ist, von denen jeder im wesentlichen mindestens einen Signalkontakt (11, 52) in einer Umfangsrichtung aufweist und jeder äußere Kontakt Kontaktmittel (13,49, 56) aufweist, die so ausgebildet sind, daß sie mit den benachbarten Erdungskontakten (5) des/bzw. eines jeden entsprechenden Signalkontakts (4) des ersten Kontaktelements (2, 40, 56, 61) in Kontakt stehen, wobei jeder äußere Leiter des zweiten Verbinderelements mit einem dielektrischen Einsatz (19, 53) ausgerüstet ist, indem der/bzw. jeder entsprechende Signalkontakt in diesem Einsatz montiert ist,
dadurch gekennzeichnet, daß
das Kontaktmittel eines jeden äußeren Leiters (12, 24, 44, 45, 51) des zweiten Verbinderelements (8) aus dem äußeren Leiter als Kontaktfedern (13, 49, 56) geformt ist, um die Erdungskontakte (5) des ersten Verbinderelements (2, 40, 56, 61 ) zu kontaktieren.

2. Verbinderanordnung nach Anspruch 1, wobei die Steckerund Buchsenkontakte in parallelen Reihen und Spalten angeordnet sind dadurch gekennzeichnet, daß das erste Verbinderelement (2) mindestens eine Reihe Signalkontakte (4) aufweist, wobei eine Reihe mit ausschließlich Erdungskontakten (5) zu beiden Seiten jeder Reihe mit Signalkontakten (4) angeordnet ist.

3. Verbinderanordnung nach Anspruch 1 oder 2, dadurch gekennzeichnet, daß das erste Verbinderelement (2) mit einer Spalte mit ausschließlich Erdungskontakten (5) versehen ist, wobei zu beiden Seiten einer jeden Spalte ein Signalkontakt (4) oder mehrere Signalkontakte (4) und Erdungskontakte (5) angeordnet sind.

4. Verbinderanordnung nach einem der vorstehenden Ansprüche, dadurch gekennzeichnet, daß jeder äußere Leiter (12, 44, 45, 51) des zweiten Verbinderelements (8) eine Verlängerung (31, 46, 47) gegenüber der Steckseite (10) aufweist, wobei die Verlängerung Erdungsverbindungselemente (32, 48, 54) aufweist.

5. Verbinderanordnung nach Anspruch 4, dadurch gekennzeichnet, daß jeder äußere Leiter (12) des zweiten Verbinderelements (8) zwei Verbindungsstifte (32) aufweist zur Verbindung mit einer gedruckten Leiterplatte (33), wobei die Verbindungsstifte diagonal bezüglich der Längsrichtung der äußeren Leiter angeordnet sind, wobei gegenüber jedem Verbindungsstift (32) eine Aussparung (34) in dem äußeren Leiter vorgesehen ist um den Verbindungsstift (32) eines benachbarten äußeren Leiters (12) aufzunehmen.

6. Verbinderanordnung nach einem der vorstehenden Ansprüche, dadurch gekennzeichnet, daß in Richtung der Reihe von Signalkontakten (4) gesehen jeder äußere Leiter (12, 24, 44, 45, 51) mit gegenüberliegenden Kontaktzungen (14) versehen ist um die Erdungskontaktplatten (15, 20, 23) zu kontaktieren, die zu beiden Seiten eines jeden äußeren Leiters in dem zweiten Gehäuse (9) angeordnet sein können, wobei die Erdungskontaktplatten (15, 20, 23) mit Kontaktbuchsenelementen (16) auf der Stekkerseite (10) versehen sind, um die Erdungskontakte (5) des ersten Verbindungselements (2, 40, 56, 61) zu kontaktieren.

7. Verbinderanordnung nach Anspruch 6, dadurch gekennzeichnet, daß die Erdungskontaktplatte (15, 20, 23) zu beiden Seiten eines jeden äußeren Leiters (12, 24, 44, 45, 51) angeordnet ist, wobei die Erdungskontaktplatte (15, 20, 23) Erdungsverbindungselemente (18, 18') auf der der Steckseite (10) gegenüberliegenden Seite aufweist.

8. Verbinderanordnung nach Anspruch 7, dadurch gekennzeichnet, daß jede Erdungskontaktplatte (15, 20, 23) sich zur Steckseie (10) entgegengesetzten Seite hinter die Verbindungselemente (17, 17') der Signalkontakte (11) erstreckt.

9. Verbinderanordnung nach Anspruch 6, 7 oder 8, dadurch gekennzeichnet, daß das erste Verbindungselement (2) zwei Reihen Erdungskontakte (5) zwischen zwei Reihen mit Signalkontakten (49 aufweist, wobei jede Erdungskontaktplatte (23) des zweiten Verbindungselements nur die Erdungskontakte (5) der Reihen mit Erdungskontakten auf beiden Seiten der entsprechenden Reihe Signalkontakte (4) kontaktieren kann.

10. Verbinderanordnung nach einem der Ansprüche 4 - 9, dadurch gekennzeichnet, daß eine Erdungskontaktplatte (36) nach Wunsch vorgesehen sein kann oder nicht, die benachbart zu jedem der äußeren Leiter (12) einer jeden Reihe Signalkontakte (11) des zweiten Verbindungselements angeordnet ist, wobei die Erdungskontaktplatte (36) so ausgebildet ist, daß sie einen Erdungskontakt (5) der Reihen mit Erdungskontakten verbindet, die nicht benachbart zu den anderen Reihen von Signalkontakten (4) sind, wobei ein Erdungskontakt (5) nach Wunsch in jeder Spalte mit zwei oder mehr Signalkontakten (4) des ersten Verbinderelements zwischen zwei Signalkontakten vorgesehen sein kann oder nicht.

11. Verbinderanordnung nach Anspruch 10, dadurch gekennzeichnet, daß bei Nichtvorhandensein einer Erdungskontaktplatte (36) eine Isolierplatte (37) mit einer Isolierschicht auf einer Seite benachbart zu dem äußeren Leiter (12) des zweiten Verbinderelements vorgesehen ist und dadurch, daß in Abwesenheit eines Erdungskontakts (5) zwischen zwei Signalkontakten in der gleichen Spalte des ersten Verbinderelements ein Isolierstift (38) vorgesehen ist.

12. Verbinderanordnung nach Anspruch 4, dadurch gekennzeichnet, daß die Erdungskontakte (5) des ersten Verbinderelements in Gruppen in jeder Reihe in Erdungskontaktlippen (41) verbunden sind, wobei jeder äußere Leiter (44, 45) des zweiten Verbinderelements ausgebildet ist um nur solche Erdungskontaktlippen (41) zu kontaktieren, die benachbart zu dem entsprechenden Signalkontakt auf beiden Seiten davon liegt.

13. Verbinderanordnung nach einem der vorstehenden Ansprüche, dadurch gekennzeichnet, daß einer oder mehrere der äußeren Leiter (24) und der entsprechenden Signalkontakte des zweiten Verbinderelements mit Verbindunselementen (26, 28) versehen sind, um ein Koaxialkabel (25) zu verbinden.

14. Verbinderanordnung nach einem der vorstehenden Ansprüche, dadurch gekennzeichnet, daß das erste Verbinderelement (56, 61) mit mehreren äußeren Leitern (57) versehen ist, die im wesentlichen mindestens einen Signalkontakt (4) in einer Umfangsrichtung entlang wenigstens des Teils des Signalkontakts bzw. der Signalkontakte umgibt, der sich in dem Isoliermaterial des ersten Gehäuses erstreckt, und wobei jeder der äußeren Leiter ausgebildet ist um die benachbarten Erdungskontakte (5) des entsprechenden Signalkontakts bzw. der entsprechenden Signalkontakte (4) des ersten Verbinderelements zu kontaktieren.

15. Verbinderanordnung nach Anspruch 14, dadurch gekennzeichnet, daßjederäußere Leiter(57) des ersten Kontaktelements (56, 61) mit einem dielektrischen Einsatz (58) versehen ist, wobei der entsprechende Signalkontakt (4) bzw. die entsprechenden Signalkontakte (4) in dem Einsatz montiert sind.

16. Verbinderanordnung nach Anspruch 14 oder 15, dadurch gekennzeichnet, daß jeder äußere Leiter (57) mit Kontaktzungen (60) versehen ist, zum Kontaktieren der Erdungskontakte (5).

17. Verbinderanordnung nach Anspruch 16, dadurch gekennzeichnet, daß die Grundkontakte (5) des ersten Verbindungselements (56, 61) jeweils ein plattenähnliches Teil (59) aufweisen zum Kontaktieren einer Kontaktzunge (60) des äußeren Leiters (57) des benachbarten Signalkontakts (4) bzw. der benachbarten Signalkontakte (4).

18. Verbinderanordnung nach einem der Ansprüche 14 - 17, dadurch gekennzeichnet, daß jeder äußere Leiter (57) des ersten Verbinderelements (61) mit einer Verlängerung (62) auf seiner im zweiten Verbindungselement gegenüberliegenden Seite versehen ist, wobei die Verlängerung (62) mit Erdungsverbindungselementen (63) versehen ist, zum Verbinden der Erdungskontakte (5) mit einer gedruckten Leiterplatte, wobei die Erdungsverbindungselemente (63) sich senkrecht zu der Längsrichtung des äußeren Leiters erstrecken.

Revendications

1. Ensemble de connexion (1,21,39) pour cartes de circuits imprimés (7) comprenant

un premier élément connecteur (2, 40, 56, 61) avec un premier logement (3) en matériau isolant et des contacts (4, 5) mâles de signaux et de masse disposés régulièrement pouvant être connectés sur une carte de circuits imprimés, et

un second élément connecteur (8, 43) avec un second logement (9) en matériau isolant, pouvant être introduit par un côté de couplage (10) dans le premier logement, et avec des contacts femelles de signaux et de masse disposés régulièrement (11, 16, 52) avec un élément de connexion (17,18), lesquels contacts femelles viennent en contact avec les contacts mâles correspondants lorsque le second logement est amené dans le premier logement, dans lequel le second élément connecteur (8, 43) est muni de plusieurs conducteurs extérieurs (12, 24, 44, 45, 51), chacun de ces conducteurs extérieurs enfermant principalement un contact de signaux (11, 52) dans une direction périphérique et chacun de ces conducteurs extérieurs ayant des moyens de contact (13, 49, 56) aptes à contacter les contacts de masse contigus (5) du/de chaque contact de signal correspondant (4), du premier élément connecteur (2, 40, 56, 61), dans lequel chaque conducteur extérieur du second élément connecteur est muni d'un insert diélectrique (19, 53), le/chaque contact de signal correspondant étant monté dans cet insert,
caractérisé en ce que les moyens de contact de chaque conducteur extérieur (12, 24, 44, 45, 51 ) du second élément connecteur (8) est formé à partir du conducteur extérieur sous forme de ressort de contact (13, 49, 56) pour la mise en contact des contacts de masse (5) du premier élément connecteur (2, 40, 56, 61).

2. Ensemble connecteur selon la revendication 1, dans lequel les contacts mâles et femelles sont disposés en rangées et en colonne parallèles, caractérisé en ce que le premier élément connecteur (2) comprend au moins une rangée avec des contacts de signal (4), dans lequel une rangée avec seulement les contacts de masse (5) est dotée des deux côtés de chaque rangée de contacts de signal (4).

3. Ensemble de connexion selon la revendication 1 ou 2, caractérisé en ce que le premier élément de connexion (2) est muni d'une colonne avec seulement des contacts de masse (5) des deux côtés de chaque colonne avec un ou plusieurs contacts de signal (4) et des contacts de masse (5).

4. Ensemble connecteur selon l'une quelconque des revendications précédentes, caractérisé en ce que chaque conducteur extérieur (12, 44, 45, 51) du second élément connecteur (8) présente une extension (31, 46, 47) en regard du côté de couplage (10), cette extension comportant des éléments de connexion de masse (32, 48, 54).

5. Ensemble connecteur selon la revendication 4, caractérisé en ce que chaque conducteur extérieur (12) du second élément connecteur (8) comporte deux broches de connexion (32) pour la connexion sur une carte de circuits imprimés (33), lesquelles broches de connexion sont situées diagonalement par rapport à la direction longitudinale du conducteur extérieur, dans lequel en opposition à chaque broche de connexion (32) est ménagé un évidement (34) dans le conducteur extérieur pour recevoir la broche de connexion (32) d'un conducteur extérieur contigu (12).

6. Ensemble connecteur selon l'une quelconque des revendications précédentes, caractérisé en ce que vu dans la direction de la rangée respective des contacts de signal (4), chaque conducteur extérieur (12, 24, 44, 45, 51) est doté de languettes de contact opposées (14) pour venir en contact avec les plaques de contact de masse (15, 20, 23) qui peuvent être montées des deux côtés de chaque conducteur extérieur dans le second logement (9), ces plaquettes de contact de masse (15, 20, 23) étant dotées d'éléments de contact femelles (16) sur le côté de couplage (10) pour la mise en contact des contacts de masse (5) du premier élément connecteur (2, 40, 56, 61 ).

7. Ensemble connecteur selon la revendication 6, caractérisé en ce qu'il est prévu une plaquette de contact de masse (15, 20, 23) des deux côtés de chaque conducteur extérieur (12, 24, 44, 45, 51), cette plaquette de contact de masse (15, 20, 23) comportant des éléments de connexion de masse (18, 18') sur le côté opposé du côté de couplage (10).

8. Ensemble connecteur selon la revendication 7, caractérisé en ce que chaque plaquette de contact de masse (15, 20, 23) s'étend sur le côté opposé au côté de couplage (10) au-delà des éléments de connexion (17, 17') des contacts de signai (11).

9. Ensemble connecteur selon la revendication 6, 7 ou 8, caractérisé en ce que le premier élément connecteur (2) comprend deux rangées avec des contacts de masse (5) entre deux rangées avec des contacts de signal (4), dans lequel chaque plaquette de contact de masse (23) du second élément connecteur ne peut contacter que les contacts de masse (5) des rangées avec les contacts de masse des deux côtés de la rangée correspondante avec les contacts de signal (4).

10. Ensemble connecteur selon l'une quelconque des revendications 4-9, caractérisé en ce qu'une plaquette ae contact de masse (16) peut être dotée ou non, selon les souhaits, de façon contiguë à chaque conducteur extérieur (12) de chaque rangée de contacts de signaux (11) du second élément connecteur, laquelle plaquette de contact de masse (36) est apte à venir en contact avec un contact de masse (5) des rangées avec des contacts de masse qui ne sont pas contiguës aux autres rangées des contacts de signal (4), dans lequel un contact de masse (5) peut être doté ou non, selon les souhaits, dans chaque colonne de deux ou de plus de deux contacts de signal (4) du premier élément connecteur entre deux contacts de signal.

11. Ensemble connecteur selon la revendication 10, caractérisé en ce qu'en l'absence d'une plaquette de contact de base (36), il est prévu une plaquette isolante (37) avec une couche isolante sur un côté de façon contiguë à un conducteur extérieur (12) du second élément connecteur et en ce qu'en l'absence d'un contact de masse (5) entre deux contacts de signal dans la même colonne du premier élément connecteur est prévu une broche isolante (38).

12. Ensemble de connexion selon la revendication 4, caractérisé en ce que les contacts de masse (5) du premier élément connecteur sont unis par groupe dans chaque rangée dans des lèvres de contact de masse (41), dans lequel chaque conducteur extérieur (44, 45) du second élément connecteur est apte à venir en contact uniquement avec les lèvres de contact de masse (41) qui i sont contiguës au contact de signal correspondant sur ses deux côtés.

13. Ensemble connecteur selon l'une quelconque des revendications précédentes, caractérisé en ce qu'il est prévu un ou plusieurs conducteurs extérieurs (24) et des contacts de signal correspondants du second élément connecteur avec des éléments de connexion (26, 28) pour connecter un câble coaxial (25).

14. Ensemble connecteur selon l'une quelconque des revendications précédentes, caractérisé en ce que le premier élément connecteur (56, 61) est doté de plusieurs conducteurs extérieurs (57), chaque conducteur extérieur renfermant principalement au moins un contact de signal (4) dans une direction circonférentielle le long d'au moins la partie du ou de chaque contact de signal s'étendant dans le matériau isolant du premier logement et chacun de ces conducteurs extérieurs étant apte à venir en contact avec les contacts de masse contigus (5) du/chaque contact de signal correspondant (4) du premier élément connecteur.

15. Ensemble connecteur selon la revendication 14, caractérisé en ce que chaque conducteur extérieur (57) du premier élément connecteur (56,61) est doté d'un insert diélectrique (58), le/chaque contact de signal correspondant (4) étant monté dans l'insert.

16. Ensemble connecteur selon la revendication 14 ou 15, caractérisé en ce que chaque conducteur extérieur (57) est muni de languettes de contact (60) pour la mise en contact des contacts de masse (5).

17. Ensemble connecteur selon la revendication 16, caractérisé en ce que les contacts de masse (5) du premieréiément connecteur (56,61) comprennent chacun une partie en forme de plaquette (59) pour la mise en contact d'une languette de contact (60) du conducteur extérieur (57) du/chaque contact de signal contigu (4).

18. Ensemble connecteur selon l'une quelconque des revendications 14-17, caractérisé en ce que chaque conducteur extérieur (57) du premier élément connecteur (61) est muni d'une extension (62) sur son côté opposé au second élément connecteur, cette extension (62) étant dotée d'éléments de connexion de base (63) pour connecter les contacts de masse (5) à une carte de circuits imprimés, ces éléments de connexion de base (63) s'étendant perpendiculai- rement à la direction longitudinale du conducteur extérieur.

Drawing