Background of the invention
1. Field of the invention
[0001] The present invention relates to a cable connector shell for a multiple wire cable
and, in particular, for a multiple wire twisted pair cable.
2. Description of the prior art
[0002] Connectors for connecting multiple wire cable (e.g. multiple coaxial cables or multiple
twisted pair cables) are known in the art. Such connectors are used, for example,
in telecommunication applications to connect a multiple wire cable to an electronic
card at the face plate of a 19" rack card. Such a connector, as well as a connector
shell, are described, for example, in EP-A-0 952 637.
[0003] In DE-C-37 10 616, a cable connector shell is described that comprises a housing
including a printed circuit board and a connector element, attached to the printed
circuit board, for engaging with a mating connector element of an electronic device
that is to be electrically connected to the cable. The cable is a twisted pair wire
cable and extends through an opening of the housing. The printed circuit board includes
a circuitry for converting parallel signals at the contact pins of the connector element
into serial signals to be transmitted via the twisted pair wire cable and vice versa.
[0004] US-A-2002/0097105 discloses a multi-circuit signal transformer comprising a chassis-mountable
housing with connector elements on the front for attaching the connector elements
of twisted pair cables to connector elements on the rear that are attached to coaxial
cables. Within the housing, there is located a printed circuit board, including baluns,
for transforming the impedance of the signals and attenuation of the amplitude of
the signal voltages. The circuitry may include provisions for the baluns to be removably
inserted, so that baluns of different impedance levels may be utilized.
[0005] US-A-5 190 479 discloses a female connector receptacle including replaceable modules
for effecting electromagnetic interference (EMI), radio frequency interference (RFI),
and electromagnetic transient pulses (EMP) protection for the electronics with which
the connector is used.
[0006] In EP-A-0 324 629 there is described a multicontact connector having a shell including
an insulating body with two sets of first and second sets of conductors, respectively.
Attached to the body is at least one electronic module for electrical contact with
the contact pins. The module may comprise components for protecting sensitive electrical
equipment connected directly or indirectly to the multicontact connector.
[0007] There is still a need in the telecommunication field to increase the signal density
and the signal transmission rate. This need can be achieved by increasing the number
of wires or cables to a connector and by increasing the frequency by which the signals
are transmitted. However, accommodation for increasing numbers of wires in a connector
typically leads to a bulky overall design of the connector. Bulkiness and size are
also a problem if one chooses to include electronic circuitry within the connector
because the connector must be large enough to accommodate the circuitry. Accordingly,
there is a need for a smart design of a multiple wire cable connector shell which
is easily to manufacture and to repair as well as relatively small in overall size.
Summary of the Invention
[0008] The invention provides a cable connector shell for a multiple wire cable, comprising
- a housing having at least one opening for passing therethrough at least one multiple
wire cable,
- an electronic circuitry within the housing,
- a first connector arranged within the housing, the first connector comprising at least
one first connector element to be electrically connected to the individual wires of
the multiple wire cable, and an engagable and disengagable second connector element
electrically connected to the electronic circuitry, and
- a third connector element electrically connected to the electronic circuitry, the
third connector element interacting with an engageable and disengageable mating connector
element of an electrical device to electrically connect the device to the multiple
wire cable.
[0009] According to a first aspect of the invention, the cable connector shell is provided
with an electronic circuitry that can be removed or replaced even if all the wires
of the multiple wire cable are connected thereto. This is achieved by providing a
first connector arranged within the shell that comprises: (i) at least one first connector
element, to which the wires are electrically connected, and (ii) a second connector
element, which can be electrically connected to the electronic circuitry, such connector
elements being engagable together and disengagable.
[0010] If all the wires of the multi-wire cable to be connected are attached to one first
connector element, then a first connector with only one first connector element is
needed to wire the cable. However, if individual wires or pairs or sets of wires are
to be attached to different first connector elements, then several first connector
elements should be provided in the shell.
[0011] The shell further includes a third connector element that is engagable, and preferably
also disengagable, with a connector element on the electronic device to be connected
to the multiple wire cable. In one embodiment of the invention according to the first
aspect, the third connector element can be positioned within the shell such that it
is exposed through an opening in the housing of the shell. In such a configuration,
the third connector element may project partly, or not at all, through the opening.
[0012] After disengaging the first and second connector elements of the first connector
from each other, the electronic circuitry, together with the third connector element,
can be removed from the shell, thereby permitting removal, replacement, repair, testing,
etc. of the electronic circuitry.
[0013] In another embodiment of the first aspect of the invention, the third connector element
can be attached to the housing of the shell. Such connector will remain within the
shell when the electronic circuitry is removed from the shell. In this case, the third
connector element is engageable and disengagable with an additional connector element
that is attached to the electronic circuitry. Accordingly, the electronic circuitry
can be disengaged from the first connector element of the first connector and from
the third connector element. This embodiment can also provide the feature of replaceability
of the electronic circuitry without exchanging the cable connector shell and the multiple
wire cable attached thereto. The replaceability of the electronic circuitry within
the shell is an advantageous feature because replacing the multiple wire cable arranged
in cable channels of and routed in a building comprising the electronic devices can
be cumbersome and time consuming. Moreover, by removing the electronic circuitry from
the housing it is possible to have access to the electronic device to which the shell
is connected. This is useful, e.g., for testing the electronic device from outside.
[0014] In one embodiment of the invention, the electronic circuitry comprises rigid or flexible
printed circuit board. Moreover, the second and third connector elements can be edge-mountable
connector elements (socket connectors or headers) or can be attached in a different
way to the printed circuit board.
[0015] In order to reduce the overall size of the shell, the housing should be similar in
size to the printed circuit board. Close tolerances between the interior surface of
the shell and the printed circuit board may make it difficult to thread the cable
through the opening in the housing. In order to provide the necessary space for positioning
the cable within the shell while keeping to a minimum the height of the housing, the
printed circuit board, in accordance with another embodiment of the invention, can
be provided with a cutout portion adjacent to the opening in the housing. The cable
connector shell for a multiple wire cable according to a second aspect of the invention
comprises
- a housing having a at least one opening for passing therethrough at least one multiple
wire cable,
- a printed circuit board within the housing, the printed circuit board being provided,
along an edge, with contact pads for electrical connection to the wires of the cable,
and
- wherein the at least one opening of the housing is located near the edge of the printed
circuit board.
[0016] The second aspect of the invention may be used together with the features of the
first aspect of the invention providing removal of the electronic circuitry or without
those features.
[0017] When the second connector element is attached along an edge of the printed circuit
board, the cutout portion in the circuit board should be adjacent the second connector
element.
[0018] Moreover, in order to reduce the overall length of the cable connector shell, it
is useful to employ connector elements having multiple rows of contact pins, for example,
four rows of contact pins.
[0019] In a further embodiment of the present invention, the at least one opening in the
housing is positioned in a plane that is perpendicular to the length direction of
the connector element(s) arranged in the housing. Accordingly, the multiple wire cable
can exit the housing substantially at a 90° angle with respect to the side wall of
the housing.
[0020] The design of the cable connector shell of the present invention permits a lot of
contact pins per connector element, for example, up to 128 or more per connector element.
This is particularly true for the third connector element.
[0021] The contact elements of the third connector element of the shell, and the contact
elements of the mating connector element of the electronic device, should be carefully
aligned when engaging or disengaging the connector elements. Relatively small movements
between the male and female contact elements can cause damage resulting in malfunctions.
Therefore, the housing of the cable connector shell can be provided with guiding elements
that help align the contact elements of the electronic device with those of the third
connector element prior to the engagement.
[0022] Moreover, due to the limited space available in the racks for mounting cable connector
shells, cable connector shells are generally arranged side-by-side. In order to easily
grip a cable connector shell after it is mounted in the rack, the housing of the shell
may be further provided with at least one handle element. One embodiment of such a
handle element is configured as a flange laterally projecting from the surface of
the housing pointing outwardly from the rack.
[0023] The cable connector shell according to the invention can accommodate connection of
multiple twisted pair wire cables. Such cables are typically provided with a common
shield which is placed in electrical connection to a portion of the housing to provide
grounding.
[0024] For shielding purposes, the housing preferably comprises an electrically conductive
material for providing a Faraday-cage effect.
[0025] In the field of telecommunications different countries have different standards for
how systems are cabled, and for the characteristics of the signals (e.g. unbalanced
or balanced) transmitted via the cables. For example, unbalanced signals are generally
transmitted via coaxial cables while balanced signals are generally transmitted via
twisted pair cables. Signals coming from the various electronic devices in the systems
may vary depending upon the application. Accordingly, it is sometimes necessary to
transform a signal from an electronic device, like the aforementioned electronic card,
before the signal is transmitted to a cable.
[0026] One way to transform a balanced signals to an unbalanced signal and vice versa is
to use an electronic module called a balun (
balanced/
unbalanced). It converts the impedance of a signals and attenuates the signal voltage.
[0027] When signal transformation between a cable and an electronic device is necessary
in a system, the telecommunications equipment manufacturer must add baluns to their
system. The baluns is usually added to the electronic device (e.g., by adding a printed
circuit board with baluns). However, that means the telecommunication equipment manufacturers
have to provide different electronic equipment (with and without baluns) in their
systems which can be disadvantageous.
[0028] Accordingly, instead of having different electronic cards, it would be better to
provide for different multi-wire cable connector shells, wherein the one type of shell
includes baluns while the other does not. However, the overall height and size of
the connector shell is a major concern, because rack space is limited. Inclusion of
baluns in the connector shell can be accomplished by the invention in that the electronic
circuitry within the housing of the cable connector shell can comprise a balun.
Brief Description of the Drawing
[0029] In the following a preferred embodiment of the invention will be described referring
to the drawing in which
- Fig. 1
- is an isometric view of the cable connector shell,
- Fig. 2
- is a view into the interior of the shell when open,
- Fig. 3
- is a side view of the cable connector shell in the direction of arrow III of Fig.
2,
- Fig. 4
- is an exploded representation showing the individual elements of the cable connector
shell according to Figs. 1 and 2 when disassembled,
- Fig. 5
- is representing the situation in which the cable connector shell is already aligned
with the electronic device but without the connector elements engaged,
- Fig. 6
- is a different view into the interior of an other embodiment of a cable shell connector
comprising alternative features for the first connector and the third connector element,
and
- Fig. 7
- is an exploded presentation similar to that of Fig. 3 showing the individual elements
of the cable connector shell according to Fig. 6 when disassembled.
Detailed Description of a Preferred Embodiment
[0030] According to Fig. 1 a multiple cable connector shell 10 comprises a box-like housing
12 having major side walls 14 and 16 (see also Fig. 3) and lateral side walls 18,20,22,
and 24. These side walls can be made of metal to provide a shielding effect (e.g.,
Faraday-cage). Other materials known in the art can be used for the housing 12 and
provide shielding too, for example, synthetic materials with a metal layer or coating.
The shape of the housing need not necessarily be box-like. Other shapes of the housing
are possible, for example, a shape similar to the connector shown in EP 0 952 637
B1 .
[0031] Access to the inside of the housing 12 of the cable connector shell 10 can be provided
by removing, for example, the major side wall 14 (referred to hereinbelow also as
cover 14), but other configurations permitting opening are acceptable. For example,
one or more lateral side walls can be removed to provide access to the inside of the
housing. Alternatively, the housing 12 can be comprised of two substantially identical
housing halves which are attached together so they can be opened and reclosed, for
example by a hinge and a latch, by pins, screws, etc.
[0032] Within the housing 12 is arranged an electronic circuitry 26 comprising a printed
circuit board 28 and electronic modules 30. The electronic modules 30 can be arranged
on one side of the printed circuit board or on both thereof. In this particular embodiment,
the electronic modules 30 function as baluns for transforming signal impedance and
voltage attenuation. In particular, baluns are used for converting signals transmitted
via twisted pair cables into signals transmitted via coaxial cables and vice versa.
Any baluns known in the art is suitable for use in this invention.
[0033] As can be seen from Fig. 2, two multiple wire cables 32 comprising twisted pair cables
34 extend from outside into the housing 12 through an opening 36 of the housing 12
located in its lateral side 24. Instead of a single opening 36 for one or more multiple
wire cables, it is also possible to provide separate openings each for one or several
cables 32. The multiple wire cables 32 are provided with common shield layers 38 which
are in electrical contact, e.g. at 39, with the housing 12 for shielding purposes.
For the electrical contact between the shield layer 38 and the housing 12 a clamp
(not shown) or the like can be used.
[0034] The individual wires of the twisted pairs are connected to a first connector element
40 that is located within the housing. This first connector element, which may be
a male or female connector element, is part of a first connector 42 that also comprises
an engagable and disengagable mating second connector element 44. The mating second
connector element 44 is attached to the printed circuit board 28 and, in this embodiment,
it is an edge-mountable connector element. However, also other designs of the connector
elements 40 and 44 are acceptable.
[0035] Attached to the printed circuit board 28 is a third connector element 46, which in
this specific embodiment, is an edge-mountable connector element. Other designs are
acceptable. This third connector element 46 has its contact interface is exposed through
an opening 48 (see Fig. 4) in the lower side wall 18 of the housing 12. The third
connector element 46 is engageable and disengagable with a mating connector element
50 of the electronic device or equipment 52 to which the multiple wire cable 32 is
to be connected. In this embodiment, the electronic equipment 52 is an electronic
card such as that used in the telecommunication field for central signal switching
and signal distribution units.
[0036] An advantage of the design of the cable connector shell 10 according to Figs. 1 and
2 is that the printed circuit board 28, i.e. the electronic circuitry 26, can be removed
or exchanged by opening the housing 12 and thereafter disconnecting the first connector
42 at 53 between its two connector elements the twisted pair cables 34 and the electronic
circuitry 26. The printed circuit board 28 together with the attached second and third
connector elements 44 and 46 are then replaced.
[0037] Fig. 4 shows an exploded view of the individual elements of the cable connector shell
10.
[0038] Another aspect of the present invention will be apparent from Figs. 2 to 4. Namely,
in order to reduce the overall height of the cable connector shell 10, the housing
12 should be just big enough to encompass the printed circuit board 28 and electronic
circuitry 26 together with the connectors and connector elements 42 to 46. It is useful
in such situations to use four row (or more) connector elements, i.e., wherein the
individual male and female contact elements are arranged in four rows. This helps
reduces the length of the connector elements and, in particular, the length of the
first connector 42 and its respective second connector element 44. That way the second
connector element will not occupy the complete length of the upper edge of the printed
circuit board 28 (see Fig. 2 and 4). Accordingly, it is possible to provide the printed
circuit board 28 with a cutout section 56 located adjacent and close to the opening
36. From Fig. 3, one can see that the level of the upper edge 54 of the printed circuit
board 28 is below or within the lower area of the opening 36 of the housing 12. That
means that within the housing 12, and close to the opening 36, there is additional
available space for the wires 34 although the cables 32 are located rather close to
the printed circuit board 28.
[0039] To manually grip the housing 12 to engage and disengage the connector shell from
the electronic equipment 52, the upper side wall 22 and the vertical side wall 24
with the opening 36 are each provided with handle elements 58,60 configured as flange
portions 62,64. The handle elements 58,60 laterally project from their respective
side walls 12. Other handle elements known in the prior art of cable connector shells
are also acceptable.
[0040] Finally, another aspect of the present invention will be described referring to Fig.
5. As already mentioned above, the connector elements of the cable connector shell
10 and the electronic equipment 52 can include a significant number of contact elements
(up to 128 and more). Accordingly, the connector elements should be aligned with each
other when engaging and disengaging them. Guidance is provided in the instant embodiment
by means of cooperating guiding elements 66 and 68 attached to the cable connector
shell 10 and the electronic equipment 52. The respective guiding elements 66,68 cooperate
with each other. In this embodiment, each pair of guiding elements 66,68 comprises
one guiding element 68 built as a pin and projecting from the electronic device 52
while the other guiding element 66 comprises a body having a bore 70 therein for glidingly
receiving the guiding element 68. When engaging the cable connector shell 10 with
the electronic equipment 52, the housing 12 of the shell 10 is guided towards the
electronic equipment 52 in that the guiding elements 68 are received by the guiding
elements 66. Prior to the engagement of the connector elements of the cable connector
shell 10 and the electronic equipment 52 the guiding elements 68 are already received
by the bores 70 of the guiding element 66 to such an extent that any tilting or lateral
relative movements of the shell 10 and the electronic equipment 52 can be substantially
prevented. The housing 12 can be mechanically fixed to the electronic equipment 52
by any known suitable engageable and disengageable fastening means like thumb screws
or other kinds of screws, bail mount, or the like.
[0041] Figs. 6 and 7 show another embodiment of a multiple wire cable connector shell 10'
which except for two features is more or less identical to the shell 10 of Figs. 1
to 5. Both alternative features can be used separately from or in combination with
each other.
[0042] The first alternative feature relates to the provision of the first connector 42'
as a card-edge connector element 40' connected to the wires 34' and interacting with
a mating connector element 44' comprising individual contact pads 45' on one or both
sides of the printed circuit board 28' along its edge 54' (see Fig. 7). With the printed
circuit board 28' by sliding the card-edge connector element 40' onto the edge 54'
of the printed circuit board 28' contact elements 47' of the card-edge connector element
40' are in contact with the contact pads 45' of the printed circuit board 28'.
[0043] The other alternative feature of the embodiment of Figs. 6 and 7 relates to provision
of an additional connector element 49' arranged between the third connector 46' and
the printed circuit board 28'. The additional connector element 49' is an edge-mountable
connector element electrically connected to the printed circuit board 28'. However,
also other designs for the additional connector element 49' are acceptable. The third
connector element 46' is fixed to the housing 12'. The third and additional connector
elements 46',49' are engageable and disengageable. Accordingly, when removing the
electronic circuitry 26' from the housing 12', the additional connector element 49'
is disengaged from the third connector element 46' which remains in the housing 12.
[0044] Alternatively, the third connector element 46 of the embodiment of the multiple wire
cable connector shell 10 according to Figs. 1 to 5 or the additional connector element
49' of the embodiment according to Figs. 6 and 7 can be provided as a card-edge connector
element similar to the card-edge connector element 40' of the multiple wire cable
connector shell 10' of Figs. 6 and 7.
1. Cable connector shell for a multiple wire cable comprising
- a housing (12) having at least one opening (36) for passing therethrough at least
one multiple wire cable (32),
- an electronic circuitry (26) within said housing (12),
- a first connector (42) arranged within said housing (12) said first connector (42)
comprising at least one first connector element (40) to be electrically connected
to the individual wires (34) of the multiple wire cable (32), and an engageable and
disengageable mating second connector element (44) electrically connected to said
electronic circuitry (26), and
- a third connector element (46) electrically connected to said electronic circuitry
(26) said third connector element (46) being engageable with a mating connector element
(50) of an electrical device (52) to be electrically connected to the multiple wire
cable (32).
2. Cable connector shell according to claim 1, wherein the electronic circuitry (26)
comprises a printed circuit board (28).
3. Cable connector shell according to claim 2, wherein said third connector element (46)
is attached to said printed circuit board (28) and is exposed through an opening (48)
of said housing (12).
4. Cable connector shell according to claim 2 or 3, wherein said second connector element
(44) of said first connector (40) is attached along an edge (54) of said printed circuit
board (28) said opening (36) of said housing (12) being arranged substantially in
the direction of said edge (54) of said printed circuit board (28).
5. Cable connector shield according to claim 4, wherein said edge (54) of said printed
circuit board (28) is provided with a cutout portion (56) adjacent to said opening
(36) of said housing (12).
6. Cable connector shell according to any one of claims 1 to 5, wherein said second and
third connector elements (44,46) each comprises contact elements (47') both for electrical
contact with a respective mating connector element (50) and said circuitry (26), said
contact elements being arranged in at least two rows, in particular, in four rows,
respectively.
7. Cable connector shell according to any one of claims 1 to 6, wherein said opening
(36) of said housing (12) is in a plane perpendicular to the lengthwise direction
of said connector elements (44,46).
8. Cable connector shell according to any one of claims 1 to 7, wherein said housing
(12) is provided with guiding elements (66) arranged adjacent to opposite ends of
said third connector element (46), said guiding elements (66) for engaging with mating
guiding elements (68) of the electronic device (52), and for aligning said third connector
element (46) with the mating connector element (50) of the electronic device (52)
prior to their engagement.
9. Cable connector shell according to any one of claims 1 to 8, wherein said housing
(12) comprises at least one handle element (58,60) for manually gripping said housing
(12) for connecting and disconnecting said third connector element (46) with the mating
connector element (50) of the electronic device (52).
10. Cable connector shell according to any one of claims 1 to 9, wherein the at least
one handle element (58,60) is formed as at least one flange portion (62,64) of said
housing (12) and laterally projects therefrom.
11. Cable connector shell according to any one of claims 1 to 10, wherein said housing
(12) substantially has a box-like shape.
12. Cable connector shell according to any one of claims 1 to 11, wherein said electronic
circuitry (26) comprises at least one balun (30) for converting unbalanced signals
transmitted via the electronic device (52) into balanced signals to be transmitted
through the multiple wire cable (32).
13. Cable connector shell according to any one of claims 1 to 12, wherein said housing
(12) comprises an electrically conductive material for providing a Faraday-cage effect.
14. Cable connector shell according to any one of claims 1 to 13, wherein said housing
(12) is provided with a contact portion (39) for contacting thereto a common shielding
layer (38) of the multiple wire cable (32).
15. Cable connector shell according to any one of claims 1 to 14, wherein at least one
multiple wire cable (32) is connected to said first connector element (40) of said
first connector (42) and extends through said at least one opening (36) of said housing
(12).
16. Cable connector shell according to any one of claims 1 to 15, further comprising an
additional connector element (49') engageable and disengageable with said third connector
element (46') said additional connector element (49') being electrically connected
to said electronic circuitry (26').
17. Cable connector shell according to any one of claims 1 to 16, wherein said first connector
element comprises a card-edge connector element (40') and wherein said second connector
element is integral with the electronic circuitry (26) and comprises contact pads
(44') contactable by contact elements (47') of said card-edge connector element (40').