[0001] The present invention relates to an electrical connector to be connected to a twisted
pair cable and a method of connecting a twisted pair cable to the electrical connector.
[0002] In general, there are two types of twisted pair cable, i.e., an unshielded twisted
pair cable (UTP) and a shielded twisted pair cable (STP). The unshielded twisted pair
cable is a cable made by twisting a pair of single wires. As compared with a simple
parallel cable, the unshielded twisted pair cable is not susceptible to noises from
outside and has good noise performance with less noise radiation. Further, the unshielded
twisted pair cable is easy to handle and reasonable priced. Accordingly, the unshielded
twisted pair has been widely used. However, the unshielded twisted pair cable does
not have excellent noise performance in comparison with a coaxial cable. For this
reason, the shielded twisted pair cable, which is made by twisting a pair of single
wires and coated with a conductive shield so as to improve the noise performance,
has also been widely used.
[0003] When a conventional electrical connector is connected to an end portion of the unshielded
twisted pair cable, end parts of a pair of single wires of the unshielded twisted
pair cable are connected to a plurality of terminals of the electrical connector.
The terminals are disposed within a housing of the conventional electrical connector,
and are arranged away from each other with a specific positional relationship. For
this purpose, it is necessary to untwist the pair of single wires at the end portion
of the unshielded twisted pair cable. As a result, although the unshielded twisted
pair cable has specific characteristic impedance at a high frequency when the pair
of single wires is twisted, the specific characteristic impedance tends to increase
at a portion where the pair of single wires is untwisted.
[0004] In addition, in case of the shielded twisted pair cable, the single wires are untwisted
after removing a conductive shield at the end parts to expose the pair of single wires.
As a result, although the shielded twisted pair cable has specific characteristic
impedance at a high frequency when the pair of single wires is twisted, the specific
characteristic impedance tends to increase at a portion where the pair of single wires
is untwisted.
[0005] As described above, when the single wires are untwisted or the conductive shield
is removed, the impedance tends to increase at the portion where the twisted pair
cable is untwisted. Accordingly, it is difficult to achieve impedance matching between
circuits or devices, which are connected via the conventional electrical connector
and the twisted pair cable.
[0006] Furthermore, when the single wires are untwisted or the conductive shield is removed,
initial noise performance of the twisted pair cable tends decrease at the end portion
of the twisted pair cable connected to the conventional electrical connector.
[0007] Patent Reference has disclosed a method of adjusting impedance of the twisted pair
cable. According to Patent Reference, a pair of untwisted single wires is bundled
with a tape or a tube at an untwisted portion of the twisted pair cable.
Patent Reference: Japanese Patent Application Publication No. 2004-71404
[0008] According to Patent Reference, in case of a small-sized electrical connector or in
case of connecting a plurality of twisted pair cable (a plurality of paired wires)
to one electrical connector at small intervals, it is not easy to bundle the untwisted
pair of single wires with the tape or the tube. As a result, according to the technique
described in Patent Reference, it is difficult to connect the conventional electrical
connector to the twisted pair cable in a simple procedure, and it is necessary to
take more time for the connection work. Further, it may result in poor yield due to
poor attachment of the tape or the tube.
[0009] In view of the above-described problems, an object of an invention is to provide
an electrical connector and a method of connecting a twisted pair cable to the electrical
connector. In the present invention, it is possible to control impedance and maintain
noise performance of the twisted pair cable, especially at an untwisted portion of
a shielded twisted pair cable. Further, it is possible to easily or securely connect
the twisted pair cable to the electrical connector.
[0010] Further objects and advantages of the invention will be apparent from the following
description of the invention.
[0011] The above object is achieved by the invention recited in claim 1.
[0012] In order to solve the above problems, according to a first aspect of the present
invention, an electrical connector is for connecting to an end portion of a twisted
pair cable, which is made by twisting a pair of single wires, each of which respectively
includes a conductor and an insulator that coats the conductor.
[0013] According to the first aspect of the present invention, the electrical connector
includes a connector main body, which is made of an insulating material, for attaching
an end portion of each single wire of the untwisted pair of single wires that are
untwisted at the end portion of the twisted pair cable; and a shell member to hold
the untwisted portion, which is a portion of the pair of single wires that are untwisted
at an end portion of the twisted pair cable.
[0014] According to the first aspect of the present invention, the shell member includes
a base portion, which is made of a conductive material, to dispose the connector main
body at the front end side and the untwisted portion at the basal end side; a cable
holding portion, which is made of a conductive material, to hold the pair of single
wires at the untwisted portion that is disposed at the basal end section of the base
portion while positioning single wires of the pair so as to parallel to each other
and close or contact to each other; and a cover portion provided on the base portion
so as to have at least the untwisted portion and the cable holding portion between
the cover portion and base portion.
[0015] According to the first aspect of the present invention, electrical connector of the
invention, the cable holding portion holds the untwisted portion of the twisted pair
cable and positions the single wires of the pair at the untwisted portion so as to
be parallel to each other and close or contact to each other. With the configuration,
it is possible to reduce impedance at the untwisted portion, and thereby achieve impedance
matching between circuits or devices that are connected via the electrical connector
and twisted pair cable.
[0016] Furthermore, both the base portion and the cable holding portion are formed of the
conductive material. Accordingly, it is possible to cover the untwisted portion with
a conductive material. With the configuration, if the conductive material is grounded,
it is possible to further reduce the impedance at the untwisted portion, and thereby
more effectively achieve impedance matching between circuits or devices that are connected
via the electrical connector and the twisted pair cable. Moreover, with the configurations,
it is possible to control the decrease of the noise performances originally owned
by the twisted pair cable at the end portion of the twisted pair cable connected to
the electrical connector.
[0017] According to a second aspect of the present invention, the electrical connector in
the first aspect of the present invention may be characterized by that the cable holding
portion completely or partially covers periphery of the pair of single wires at the
untwisted portion.
[0018] With the configuration, it is possible to further reduce the impedance at the untwisted
portion, and even more effectively achieve the impedance matching between the circuits
or devices that are connected via the electrical connector and the twisted pair cable.
[0019] According to a third aspect of the present invention, the electrical connector in
the first aspect or the second aspect may be characterized by that the cable holding
portion continuously covers the untwisted section from the basal part of the base
portion up to a position so as to reach the connector main body or get close thereto.
[0020] With the configuration, it is possible to further reduce the impedance at the untwisted
portion, and thereby even more effectively achieve the impedance matching between
the circuits or devices that are connected via the electrical connector or the twisted
pair cable.
[0021] According to a fourth aspect of the present invention the electrical connector in
one of the first through third aspects may be characterized by that the cable holding
portion is formed by attaching a conductive member, which is independent from the
base portion, to the base portion.
[0022] With the configuration, it is possible to easily achieve a configuration to hold
the untwisted portion by the cable holding portion.
[0023] According to a fifth aspect of the present invention, the electrical connector in
the fourth aspect may be characterized by having at least a pair of protrusions that
protrudes from the base portion so as to interpose both sides of the untwisted section
therebetween and positions the pair of single wires at the untwisted portion onto
the base portion. The conductive member is attached to the base portion or the pair
of protrusions so as to link between the pair of protrusions.
[0024] With the configuration, by disposing the pair of single wires of the untwisted portion
between the pair of protrusions, it is possible to easily make a configuration to
hold the untwisted portion by attaching the conductive member to the base portion
after positioning the pair of single wires on the base portion. Therefore, it is possible
to enhance the workability upon connecting the electrical connector to the twisted
pair cable, make the connecting work easy, and enhance the reliability of the connecting
work.
[0025] According to a sixth aspect of the present invention, the electrical connector in
the fourth aspect or the fifth aspect may be characterized by that the cover portion
has a pressing section to press the conductive member between the cover portion and
the base portion.
[0026] With the configuration, it is possible to securely keep holding of the untwisted
portion. In addition, by imparting a function of pressing the conductive member to
the cover portion, it is possible to reduce the number of members required for holding
the untwisted portion.
[0027] According to a seventh aspect of the present invention, the electrical connector
in one of the first through the third aspects may be characterized by making the cable
holding portion by cutting and bending a part of the base portion.
[0028] With the configuration, it is possible to reduce the number of members necessary
for holding the untwisted portion.
[0029] According to an eighth aspect of the present invention, the electrical connector
in one of the first through the third aspects may be characterized by forming the
whole or a part of the cover portion from a conductive material and making the cable
holding portion by attaching the cover portion to the base portion so as to cover
at least an upper part of the untwisted portion at a portion of the cover portion
that is made of a conductive material.
[0030] More specifically, if the whole cover is made of a conductive material, the configuration
is preferably the one to cover at least the upper part of the untwisted section by
attaching the cover portion to the base portion. In addition, if the whole cover portion
is not made of a conductive material, it is also possible to configure to cover at
least the upper part of the untwisted portion by a portion of the cover portion that
is made of the conductive material. Since it is possible to achieve the cable holding
portion using the cover portion in any of the above-described configurations, it is
possible to reduce the number of members to configure the electrical connector, achieve
cost reduction for manufacturing, etc., and simplify the connecting work of connecting
the electrical connector to a twisted pair cable.
[0031] According to a ninth aspect of the present invention, the electrical connector in
one of the first through the eighth aspects may be characterized by attaching a plurality
of pairs of single wires that are respectively untwisted to the connector main body,
respectively disposing untwisted portions of single wires of the plurality of pairs
on the basal end side of the base portion, providing a plurality of cable holding
portions, and respectively holding the untwisted portions of the single wires of the
plurality of pairs disposed on the basal end side of the base portion by the cable
holding portions.
[0032] With the configuration, it is possible to efficiently reduce the impedance at the
respective untwisted portions of the plurality of twisted pair cables. In addition,
it is possible to efficiently control reduction of the noise performances at the end
portions of the plurality of twisted pair cables.
[0033] According to a tenth aspect of the present invention, in the electrical connector
in one of the first through the third aspects, the base portion has a bottom plate
portion that forms a bottom plate of the base portion and a pair of side plate portions
that form lateral walls of the base portion, the cable holding portion has a pair
of separation wall portions, the pair of separation wall portions is disposed between
the pair of side plate portions on the bottom plate portion of the base portion, rises
up in relative to the bottom plate portion of the base portion, extends being parallel
to each other until reaching or getting close to the connector main body from the
basal end section of the base portion, and the untwisted portion is held between the
pair of separation wall portions of the cable holding portion. The cover portion is
formed to be flat, and is provided on the base portion so as to cover the whole space
between the pair of dividing walls of the cable holding portion from thereabove.
[0034] According to the tenth aspect of the present invention, in the electrical connector,
the whole circumference of the untwisted portion is fully covered with the separation
wall portions of the cable holding portion, the bottom plate portion of the base portion,
and the cover portion, any of which is made of a conductive material. Therefore, it
is possible to securely reduce the impedance at the untwisted portion and more effectively
achieve impedance matching between circuits or devices that are connected via the
electrical connector and the twisted pair cable. In addition, it is possible to securely
control reduction of the noise performances originally owned by the twisted pair cable
at the end of the twisted pair cable connected to the electrical connector.
[0035] According to an eleventh aspect of the present invention, the electrical connector
in the first aspect may be characterized by that the cable holding portion has a substrate
section to be mounted on the bottom plate portion of the base portion and the pair
of separation wall portions is provided on the bottom plate portion.
[0036] According to the eleventh aspect of the present invention, in the electrical connector,
it is possible to form the cable holding portion as a single member having a substrate
section and a pair of separation wall portions by providing the pair of separation
wall portions of the cable holding portion on the substrate section. With the configuration,
it is possible to improve the assembling efficiency of the electrical connector.
[0037] According to a twelfth aspect of the present invention, the electrical connector
in the first aspect may be characterized by that the cable holding portion has a latching
section that positions the substrate section and the pair of separation wall portions
on the bottom plate portion of the base portion and latches to the base portion.
[0038] According to the twelfth aspect of the present invention, in the electrical connector,
it is possible to easily and highly precisely position and attach the cable holding
portion to the base portion and make assembling of the electrical connector easier
and more efficient.
[0039] According to a thirteenth aspect of the present invention, the electrical connector
in one of the tenth through the twelfth aspects may be characterized by that the cover
portion has an inner lid section, which is made of a conductive material, goes inside
the pair of separation wall portions of the cable holding portion, and fully covers
the untwisted portion held between the pair of separation wall portions inside the
pair of separation wall portions from thereabove.
[0040] According to the thirteenth aspect of the present invention, in the electrical connector,
the whole circumference of the untwisted portion is covered by the separation wall
portions of the cable holding portion, the bottom plate portion of the base portion
(the substrate section of the cable holding portion if the cable holding portion has
a substrate section), and the inner lid section of the cover portion, any of which
is made of a conductive material, and the outer circumference side is fully covered
by the side plate portions of the base portion, the bottom plate portion of the base
portion, and the cover portion, any of which is made of a conductive material. Since
the untwisted portion is totally surrounded doubly by conductive materials as described
above, it is possible to significantly enhance the shielding of the untwisted portion,
and it is possible to even more securely control reduction of the impedance and noise
performance at the untwisted portion.
[0041] According to a fourteenth aspect of the present invention, the electrical connector
in one of the tenth through the thirteenth aspects may be characterized by that a
plurality of pairs of single wires, which are respectively untwisted, are attached
to the connector main body, the cable holding portion has a plurality of pairs of
the separation wall portions, and the untwisted portions of single wires of the plurality
of pairs of single wires are respectively held between the plurality of pairs of separation
wall portions.
[0042] With the configuration, it is possible to efficiently and more securely reduce the
impedance at the respective untwisted portions of the plurality of twisted pair cables.
[0043] According to a fifteenth aspect of the present invention, the electrical connector
in one of the first through the fourteenth aspects may be characterized by that the
twisted pair cable is a shielded twisted pair cable that has a conductive shield made
of a conductive material that covers together at least the pair of single wires twisted
to each other and an insulating shield made of an insulating material to cover the
conductive shield. The twisted pair cable has a conductive shied connecting section,
which is provided on the basal end side of the base portion, and connects the conductive
shield to the base portion while an end portion of each single wire at the end section
of the shielded twisted pair cable is attached to the connector main body and the
untwisted portion is held by the cable holding portion.
[0044] In this way, it is possible to ground the base portion and the cable holding portion
by electrically connecting the grounded conductive shield to the base portion via
the conductive shield connecting section, and it is possible to easily obtain an effect
of reducing the impedance of the untwisted portion.
[0045] According to a sixteenth aspect of the present invention, a method is for connecting
an end portion of a twisted cable, which is made by twisting to each other a pair
of single wires having a conductor and an insulator that coat the conductor, to an
electrical connector. The method includes a step of untwisting the pair of single
wires at an end portion of the twisted pair cable and attaching the end portion of
each single wire to a connector main body made of an insulating material; a step of
disposing the untwisted pair of single wires of the twisted pair cable so as to be
parallel to each other or get close or contact to each other at a basal end side of
a base portion, at a front end side of which the connector main body is disposed;
a step of holding the pair of single wires, which is disposed at the basal end side
of the base portion, with the cable holding portion made of a conductive material
at the basal end side of the base portion; and a step of attaching a cover portion
to the base portion so as to position at least the untwisted section and the cable
holding portion between the cover portion and the base portion.
[0046] With the configuration, it is possible to reduce the impedance at the untwisted portion
of the twisted pair cable, and it is possible to control the reduction of the noise
performances at an end portion of the twisted pair cable.
[0047] According to the invention, it is possible to control increase of the impedance or
reduction of the noise performance at the untwisted portion of the twisted pair cable,
especially the shielded twisted pair cable. In addition, it is possible to easily
or securely connect the twisted pair cable to the electrical connector, and to shorten
time required for the connecting work or to improve the yield.
[0048] Embodiments of the invention will now be described by way of example with respect
to the accompanying drawings, in which:
Fig. 1 is a perspective view of an electrical connector according to a first embodiment
of the invention;
Fig. 2 is a sectional view of the electrical connector of the first embodiment of
the invention, which is viewed from a II-II direction indicated with an arrow in Fig.
1;
Fig. 3 is a perspective view of the electrical connector of the first embodiment of
the invention, in which a connector main body is disposed on a base portion;
Fig. 4 is a perspective view of the electrical connector of the first embodiment of
the invention, in which a connector main body and an untwisted portion of the shielded
twisted pair cable are disposed on the base portion;
Fig. 5 is a perspective view of the electrical connector of the first embodiment of
the invention, in which a cable cover member is attached to the base portion;
Fig. 6 is a perspective view of the cable cover member of the electrical connector
of the first embodiment of the invention;
Fig. 7 is a sectional view of the electrical connector of the first embodiment of
the invention upon attaching the cable cover member to the base portion, which is
viewed from the same direction as Fig. 2;
Fig. 8 is a perspective view of an end portion of the shielded twisted pair cable;
Fig. 9 is a perspective view, in which an insulating shield is removed at an end portion
of the shielded twisted pair cable, the conductive shield is folded back, each conductive
coating film is removed, two pairs of single wires are untwisted, and end portion
of conductor of each single wire is exposed;
Fig. 10 is a perspective view of an electrical connector according to a second embodiment
of the invention, which is in the middle of connecting the shielded twisted pair cable;
Fig. 11 is a perspective view of an electrical connector according to a third embodiment
of the invention, which is in the middle of connecting the shielded twisted pair cable;
Fig. 12 is a perspective view of an electrical connector according to a fourth embodiment
of the invention, which is in the middle of connecting the shielded twisted pair cable;
Fig. 13 is an extracted perspective view of a major part of the electrical connector
according to a fifth embodiment of the invention;
Fig. 14 is a perspective view of an electrical connector according to a sixth embodiment
of the invention, which is in the middle of connecting the shielded twisted pair cable;
Fig. 15 is a perspective view of an electrical connector according to a seventh embodiment
of the invention;
Fig. 16 is an exploded perspective view of the electrical connector according to the
seventh embodiment of the embodiment;
Fig. 17 is a perspective view of the electrical connector according to the seventh
embodiment of the invention, which shows a base portion, connector main body,
a cable holding portion, etc;
Fig. 18 is a perspective view of the cable holding portion in the electrical connector
according to the seventh embodiment of the invention; and
Fig. 19 is a perspective view of the electrical connector according to the seventh
embodiment of the invention, which shows a lower face of a shell cover portion.
[0049] Hereunder, embodiments of the invention will be described with reference to the accompanying
drawings.
(First Embodiment)
[0050] First, an electrical connector according to a first embodiment of the invention will
be described. Figs. 1 and 2 show an electrical connector according to the first embodiment
of the invention. On the other hand, Figs. 8 and 9 show a shielded twisted pair cable
to be connected to the electrical connector of Fig. 1.
[0051] The electrical connector 1 according to a first embodiment of the invention is an
electrical connector to connect to an end portion of a shielded twisted pair cable
101. As shown in Fig. 8, the shielded twisted pair cable 101, which is described as
an example in the embodiment, has two twisted wire pairs made by twisting a pair of
single wires 102 together. Furthermore, the shielded twisted pair cable 101 has a
drain wire 103 for each twisted wire pair, and each twisted wire pair is covered together
with the drain wire 103 by a conductive coating film 107.
[0052] In addition, the two twisted wire pairs respectively covered together with the drain
wire 103 by the conductive coating film 107 is covered together by a conductive shield
104, and further, the conductive shield 104 is covered by an insulating shield 105.
Each single wire 102 has a linear conductor 102A that is made of, for example, copper
and an insulator 102B made of polyvinyl chloride or the like to coat the conductor
102A. Moreover, the conductive shield 104 is made of a conductive material such as
copper alloy or aluminum, and the insulating shield 105 is made of an insulating material
such as polyester or polypropylene.
[0053] Upon connecting the electrical connector 1 to the shielded twisted pair cable 101,
as shown in Fig. 9, the insulating shield 105 is removed at an end portion of the
shielded twisted pair cable 101 on the side of connecting to the electrical connector
1, the conductive shield 104 is folded back to the outer side, and each conductive
coating film 107 is removed. Then, the two pairs of single wires 102 are respectively
untwisted, and then the insulator 102B is removed at an end portion of each single
wire 102, so as to expose the end portion of the conductor 102A.
[0054] Hereafter, the untwisted portion of the single wires 102 of each pair at end portions
of the shielded twisted pair cable 101 is referred to as "untwisted portion 106".
Each untwisted portion 106 refers a portion that extends from a part where each single
wire 102 starts to expose by folding back the conductive shield 104 and removing each
conductive coating film 107 to the end section of each untwisted single wire 102.
[0055] In Fig. 1, the electrical connector 1 is generally composed of a connector main body
2, a shell member 3, and a cable fastening securing section 10.
[0056] The connector main body 2 is made of an insulating material, and has a plurality
of attaching ports 2A (see Fig. 3) formed to attach an end portion of each single
wire 102 of the untwisted two wire pairs of the shielded twisted pair cable 101. In
addition, inside the connector main body 2, there is provided a terminal housing section
(not illustrated) to house connecting terminal 12 (see Fig. 2) to electrically connect
to an end portion of the conductor 102A of each single wire 102.
[0057] The shell member 3 is to hold the connector main body 2 and an end portion of the
shielded twisted pair cable 101. More specifically, as shown in Fig. 1, the shell
member 3 has a base portion 4 and a shell cover portion 8, and holds the connector
main body 2 and an end portion of the shielded twisted pair cable 101, whose end section
of each single wire 102 is attached to the connector main body 2 as shown in Fig.
2. Furthermore, as shown in Fig. 2, the shell member 3 has a cable holding portion
7 between the base portion 4 and the shell cover portion 8 to hold each untwisted
portion 106 of the shielded twisted pair cable 101.
[0058] Fig. 3 shows a state where the connector main body 2 is disposed on the base portion
4 of the shell member 3, and Fig. 4 shows a state where each untwisted portion 106
of the shielded twisted pair cable 101 is further disposed on the base portion 4.
Fig. 5 shows a state where each cable cover member 6 is further attached to the base
portion 4.
[0059] In Fig. 3, the base portion 4 of the shell member 3 is made of a conductive material
such as copper alloy. The base portion 4 is formed by bending both end portions of
a quadrate sheet metal to form a square-bottomed shaped lateral section which is opened
upward, and has a bottom plate portion 4A and side plate portions 4B and 4C arranged
on both sides of the bottom plate portion 4A in the width direction. The connector
main body 2 is disposed between the side plate portions 4B and 4C on the bottom plate
portion A positioned at a front end side of the base portion 4.
[0060] On the other hand, as shown in Fig. 4, each untwisted portion 106 of the shielded
twisted pair cable 101, in which an end portion of each single wire 102 is attached
to the connector main body 2. More specifically, on the bottom plate portion 4A provided
on the basal end side of the base portion 4, two untwisted portions 106, which respectively
correspond to two wire pairs of the shielded twisted pair cable 101, are disposed
being away from each other in the width direction of the base portion 4.
[0061] Furthermore, the pair of single wires 102 of each untwisted portion 106 is held by
a plurality of lanced (cut and bent up) sections 5 while the pair of single wires
102 is being positioned to be parallel to each other and get close or contact to each
other. In other words, in two areas that are away from each other in the width direction
on the bottom plate portion 4A of the base portion 4, i.e. two areas to dispose the
two untwisted sections 106 that respectively correspond to the two wire pairs, lanced
sections 5, for example six lanced sections, are respectively formed.
[0062] More specifically, on the base plate section 4A of the base portion 4, in the area
to dispose the untwisted portion 106 that corresponds to the wire pair attached on
the left side in Fig. 4, three lanced sections 5 are arranged in two rows at specified
intervals from the basal end side to the front end side of the bottom plate portion
4A. The two rows are respectively linear and parallel to each other. The distance
between the two rows (i.e. the distance between the two lanced sections that face
each other in the width direction of the base portion 4) is for example, generally
about two times the diameter of each single wire 102. Each lanced section 5 protrudes
upward from the bottom plate portion 4A and the height dimension is for example, almost
equal to the diameter of each single wire 102.
[0063] By attaching a pair of single wires 102 of the untwisted portion 106 between the
two rows of the lanced sections 5, the pair of single wires 102 of the untwisted portion
106 is positioned by the lanced section 5 and held thereby. More specifically, by
clamping both sides of a pair of single wires 102 of the untwisted portion 106 by
the three lanced sections 5 that are linearly disposed in each row, the pair of single
wires 102 is positioned to be parallel to each other.
[0064] In addition, since the distance between the lanced sections 5 that face each other
is almost twice the diameter of each single wire 102, the pair of single wires 102
of the untwisted portion 106 is positioned while being close or contacting to each
other. This is the same also in an area on the base plate section 4A of the base portion
4, where the untwisted portion 106 that correspond to the wire pair attached on the
right side is disposed.
[0065] Furthermore, as shown in Fig. 5, onto the base portion 4, for example, two cable
cover members 6 are attached, and each untwisted portion 106 disposed on the bottom
plate portion 4A of the base portion 4 is covered by the cable cover member 6. Here,
Fig. 6 is an enlarged view of the cable cover member 6 and Fig. 7 shows a state where
the cable cover member 6 is attached to the base portion 4.
[0066] As shown in Fig. 6, the cable cover member 6 is a member independent from the base
portion 4, and is made of, for example, the same conductive material as that of the
base portion 4. In addition, the cable cover member 6 has a ceiling plate section
6A that is formed to be a long flat section, and a bent section, for example, four
bent sections 6B formed by bending both sides of the ceiling plate section 6A in the
width direction, protrusions 6C formed on each bent section 6B, and a projecting section
6D that projects from a front end side of the ceiling plate section 6A to the front
end side of the base portion 4 upon attaching onto the base portion 4.
[0067] As shown in Fig. 7, the cable cover member 6 is attached to the base portion 4 so
as to cover the untwisted portion 106, which is disposed on the bottom plate portion
4A of the base portion 4, from thereabove. With the configuration, the ceiling plate
section 6A of the cable cover member 6 links between the lanced sections 5 provided
on both sides of the untwisted portion 106, and covers an upper side of the untwisted
portion 106.
[0068] At the same time, each bent section 6B of the cable cover member 6 engages in between
the lanced sections 5, and covers a right side and a left side of the untwisted portion
106 with the lanced sections 5. Accordingly, whole circumference of the pair of single
wires 102 of the untwisted portion 106 is covered by a portions of the ceiling plate
section 6A of the cable cover member 6, the bent section 6B, the lanced sections 5,
and the bottom plate portion 4A of the base portion 4, where the untwisted portion
106 is disposed.
[0069] Moreover, the ceiling plate section 6A of the cable cover member 6 extends from a
basal end section of the base portion 4 to a position right before reaching the connector
main body 2, and the bent sections 6B and the lanced sections 5, which are alternately
provided, generally extend from the basal end section of the base portion 4 to a position
reaching the connector main body 2.
[0070] Moreover, the projecting section 6D of the cable cover member 6 extends to a position
reaching the connector main body 2. With the configuration, the untwisted portion
106 is continuously covered from the basal end section of the base portion 4 to the
connector main body 2. As a result, whole circumference and whole range in the length
direction of each untwisted section 16 is covered by a conductive material.
[0071] In addition, the protrusions 6C of the cable cover member 6 are caught by the lanced
section 5 upon attaching the base portion 4 to the cable cover member 6, and thereby
the cable cover member 6 is secured on the base portion 4.
[0072] Here, a portion to cover each untwisted portion 106, where the untwisted section
106 is disposed on the cable cover member 6, the lanced sections 5, and the bottom
plate portion 4A of the base portion 4, composes the cable holding portion 7 (see
Fig. 2). In addition, the cable cover member 6 is a specific example of the conductive
member and the lanced section 5 is a specific example of the protrusion.
[0073] Referring again to Fig. 1, the shell cover portion 8 is provided on the base portion
4, so as to position the connector main body 2, an end section of the shielded twisted
pair cable 101 including each untwisted section 106, and the cable holding portion
7 between the shell cover portion 8 and the base portion 4, and houses the connector
main body 2, an end portion of the shielded twisted pair cable 101 including each
untwisted section 106, the cable cover member 6, etc. The shell cover portion 8 is
attached to a base portion 4, with a latching structure, which is not illustrated
in the figure but for example, is formed between the shell cover portion 8 and side
plate portions 4B and 4C of the base portion 4.
[0074] The shell cover portion 8 is, for example, made of the same conductive material as
that of the base portion 4, and has a cover plate section 8A that cover an upper side
of the base portion 4. Furthermore, the cover plate section 8A has pressing sections
8B, which protrude towards the base portion 4, at positions that correspond to those
of each cable cover member 6. Upon attaching the shell cover portion 8 to the base
portion 4, each pressing section 8B contacts with an upper face of the ceiling plate
section 6A of the cable cover member 6, and presses the cable cover member 6 towards
the base portion 4. Here, the shell cover portion 8 may be also made of an insulating
material.
[0075] In addition, as shown in Fig. 1, on the basal end side of the electrical connector
1, there is provided an insertion through hole 9 to insert an end portion of a so-called
"end-treated" shielded twisted pair cable 101 as shown in Fig. 9 between the base
portion 4 and the shell cover portion 8. Furthermore, on the basal end side of the
electrical connector 1, there is provided a cable fastening securing section 10 to
fasten and secure the end-treated shielded twisted pair cable 101 at a portion where
the conductive shield 104 is folded back and its periphery. The cable fastening securing
section 10 is made of the same conductive material as that of the base portion 4,
and is made so as to be continuously integrated to the base portion.
[0076] The cable fastening securing section 10 fastens a portion of the shielded twisted
pair cable 101, where the conductive shield 104 is folded back, so as to contact to
the conduct shield 104 and electrically connect thereto. With the configuration, when
the conductive shield 104 of the shielded twisted pair cable 101 is grounded, the
base portion 4 is grounded via the cable fastening securing section 10. Furthermore,
the lanced sections 5 of the base portion 4 and the cable cover member 6 that contacts
with the lanced sections 5 are also grounded. As a result, each untwisted section
106 is covered by a grounded conductive material. Here, the cable fastening securing
section 10 is a specific example of a conductive shield connecting section.
[0077] A method of connecting the electrical connector 1 configured as above to an end portion
of the shielded twisted pair cable 101 is as follows.
[0078] First, as shown in Fig. 9, the insulating shield 105 is removed at an end portion
of the shielded twisted pair cable 101, the conductive shield 104 is folded back outside,
and each conductive coating film 107 is removed. Then, two pairs of single wires 102
are respectively untwisted, the insulator 102B is removed at an end portion of each
single wire 102 so as to expose the end portion of the conductor 102A. Then, a connecting
terminal 12 is crimped to an end portion of the conductor 102A of the each exposed
single wire 102, and an end portion of the conductor 102A of each single wire 102,
to which the connecting terminal 12 is crimped, is attached to an attaching port 2A
of the connector main body 2.
[0079] Thereafter, a pair of single wires 102 of each untwisted portion 106 is disposed
between two rows of the lanced sections 5 on the bottom plate portion 4A on the basal
end side of the base portion 4, so as to dispose the pair of single wires 102 to be
parallel or contact or get close to each other.
[0080] Then, the cable cover member 6 is attached to the base portion 4 so as to cover each
untwisted section 106, which is disposed on the bottom plate portion 4A on the basal
end side of the base portion 4, from thereabove.
[0081] Then, the shell cover portion 8 is attached to the base portion 4, the connector
main body 2, an end section of the shielded twisted pair cable 101 including each
untwisted section 106 and each cable cover member 6 are housed between the base portion
4 and the shell cover portion 8, and each cable cover member 6 is pressed by the pressing
member 8B of the shell cover portion 8.
[0082] Next, the shielded twisted pair cable 101 is fastened and secured onto the cable
fastening securing section 10. At this time, contacting the conductive shield 104,
which is folded back, to the cable fastening securing section 10, the conductive shield
104 and the cable fastening securing section 10 are electrically connected. With the
procedure, connection of the electrical connector 1 to an end portion of the shielded
twisted pair cable 101 is completed.
[0083] As described above, according to the electrical connector 1 of the first embodiment
of the invention, upon connecting the electrical connector 1 to the shielded twisted
pair cable 101, it is possible to position the pair of single wires 102 of each untwisted
portion 106 of the shielded twisted pair cable 101 while being parallel to each other
and getting close to or contacting to each other. Furthermore, it is possible to cover
the whole circumference and whole range in the length direction of each untwisted
portion 106 by a conductive material.
[0084] With the configuration, it is possible to control the increase of the impedance at
the untwisted portion 106, even if each single wire 102 is untwisted at an end portion
of the shielded twisted pair cable 101 to connect the electrical connector 1 to the
shielded twisted pair cable 101. Therefore it is possible to achieve impedance matching
between circuits or devices that are connected via the electrical connector 1 and
the shielded twisted pair cable 101. Accordingly, it is possible to control signal
reflection and noise generation due to mismatched impedance. In addition, covering
each untwisted portion 106 by a conductive material within the electrical connector
1, it is possible to control reduction of noise performances originally owned by the
shielded twisted pair cable 101.
[0085] Furthermore, according to the electrical connector 1 of the first embodiment of the
invention, by disposing the untwisted portion 106 on the bottom plate portion 4A of
the base portion 4 and putting the cable cover member 6 thereover, it is possible
to control increase of impedance and reduction of noise performances. Therefore, it
is possible to achieve the above effects with more simple work in comparison with
a case of bundling an untwisted portion of the twisted pair cable with a tape or tube
as described in Patent Reference 1. Therefore, according to the first embodiment of
the first invention, it is possible to shorten the time required for connecting the
electrical connector 1 to the shielded twisted pair cable 101, to reduce generation
of poor connection between the shielded twisted pair cable 101 and the electrical
connector 1 and improve the yield.
(Second Embodiment)
[0086] Next, an electrical connector according to a second embodiment of the invention will
be described. Fig. 10 shows an electrical connector according to the second embodiment
of the invention, which is in the middle of connecting the shielded twisted pair cable.
Here, in Fig. 10, the same reference numerals are used to the same elements as those
of the electrical connector 1 of the first embodiment and the explanation will be
omitted.
[0087] In Fig. 10, the electrical connector 21 according to the second embodiment of the
invention has lanced sections provided on the bottom plate portion 4A of the base
portion 4 so as to continuously extend from a basal end section of the base portion
4 to a position right before the connector main body 2. In addition, each lanced section
22 is formed to have a V-shaped lateral section.
[0088] Prior to disposing the untwisted portion 106, upper ends of the lanced sections 22
are away from each other as in a pair of lanced sections 22 that face each other on
the right side of Fig. 10, and thereby it is possible to attach the untwisted portion
106 between the lanced sections 22. Then, after the untwisted portion 106 is attached
and the pair of single wires 102 of the untwisted portion 106 is disposed so as to
be parallel and get close to or contact to each other, the lanced sections 22 are
pushed to bend so as to have their upper ends of the lanced sections 22 contact to
each other as the pair of lanced sections that face each other on the left side of
Fig. 10.
[0089] As a result, the whole circumference and the whole range in the length direction
of the untwisted portion 106 is covered by a portion where the untwisted part 106
is disposed in each lanced section 22 and a bottom plate portion 4A of the base portion
4. Since each lanced section 22 is formed from the same conductive material as that
of the base portion 4, the whole circumference and the whole range in the length direction
of each untwisted section 106 is covered by the conductive material.
[0090] According to the electrical connector 21 of the second embodiment of the invention
having the above-described configuration, it is possible to obtain almost similar
effects to those obtained by the aforementioned electrical connector 1 of the first
embodiment of the invention. Especially since the electrical connector 21 of the second
embodiment of the invention is configured to cover an upper side, right side, and
left side of each untwisted portion 16 with each lanced section 22, it is not necessary
to provide a cable cover member as in the first embodiment, and furthermore, it is
also not necessary to provide a pressing section on the shell cover portion 8 to press
the cable cover member.
[0091] As a result, it is possible to reduce the number of members that compose the electrical
connector 21, to simplify a shape of the shell cover portion 8, and to reduce the
manufacturing cost. In addition, attaching the untwisted portion 106 between the lanced
sections 22 that face to each other and the lanced sections 22 are bent to close,
it is possible to cover the untwisted portion 106, so that it is possible to further
simplify the connecting work between the shielded twisted pair cable 101 and the electrical
connector 21.
(Third Embodiment)
[0092] Next, an electrical connector according to the third embodiment of the invention
will be described. Fig. 11 shows the electrical connector according to the third embodiment
of the invention, which is in the middle of connecting to a shielded twisted pair
cable. Here, in Fig. 11, the same reference numerals are used for the same elements
as those in the electrical connector 1 according to the first embodiment and the explanation
will be omitted.
[0093] While each lanced section 22 of the electrical connector 21 according to the second
embodiment of the invention is configured to clamp the both sides of the untwisted
portion 106 in the width direction, each lanced section 32B of the electrical connector
31 according to the third embodiment of the invention shown in Fig. 11 is configured
to surround the untwisted portion 106 from one side to the other in the width direction.
[0094] More specifically, in the electrical connector 31, the lanced sections that cover
each untwisted portion 106 is composed of lanced sections 32A, e.g. two lanced sections,
that relatively slightly protrude from the bottom plate portion 4A of the base portion
4, and one lanced section 32B that relatively largely protrudes from the bottom plate
portion 4A of the base portion 4, has a V-shaped lateral cross-section, and surround
the untwisted portion 106. A pair of single wires 102 of the untwisted portion 106
is disposed to be parallel to each other and get close or contact to each other between
each lanced section 32A and the lanced section 32B. Most part of the periphery or
almost whole range in the length direction of the untwisted portion 106 is covered
by the lanced section 32B.
[0095] Also with the electrical connector 31 according to the third embodiment of the invention
that is configured as above, it is possible to obtain almost similar effects to those
from the electrical connector 1 or 21 according to the first or the second embodiment
of the invention. Especially, according to the electrical connector 31 of the third
embodiment of the invention, similarly to the electrical connector 32 of the second
embodiment of the invention, since it is not necessary to provide a cable cover member
in case of the first embodiment and a pressing section to press the cable cover member,
it is possible to reduce manufacturing cost, etc.
(Fourth Embodiment)
[0096] Next, an electrical connector according to a fourth embodiment of the invention will
be described. Fig. 12 shows the electrical connector according to the fourth embodiment
of the invention, which is in the middle of connecting a shielded twisted pair cable.
Here, in Fig. 12, the same reference numerals are used for the same element as those
in the first embodiment, and the explanation will be omitted.
[0097] The electrical connector 41 according to the fourth embodiment of the invention,
which is shown in Fig. 12, is made of a conductive material and includes a cable cover
member 42 having a lateral cross-section of a squared bottomed U-shape, which includes
a ceiling plate section 42A and side plate portions 42B and 42C that are provided
on two sides of the ceiling plate section 42 in the width direction. Any of the ceiling
plate section 42A and the side plate portions 42B and 42C of the cable cover member
42 continuously extend from a basal end portion of the base portion 4 up to right
before the connector main body 2. In addition, there is provided a projecting section
42D on the front end side of the ceiling plate section 42A. Furthermore, a plurality
of protrusions 42E are formed at a lower end portion of the side plate portions 42B
and 42C of the cable cover member 42, and holes 43 are formed on the bottom plate
portion 4A of the base portion 4 to fit the protrusions 42E therein.
[0098] A pair of single wires 102 of the untwisted portion 106 is disposed so as to be parallel
to each other and get close or contact to each other, a cable cover member 42 is placed
thereover from thereabove, and each protrusion 42E of the cable cover member 42 is
fitted in each hole 43 of the base portion 4. With the operation, the whole circumference
and the almost whole range in the length direction of the untwisted portion 106 is
covered by a conductive material.
[0099] Also with the electrical connector 41 according to the fourth embodiment of the invention
configured as described above, it is possible to obtain almost similar effects to
those from the electrical connector 1, 21, or 31 according to the first, the second,
or the third embodiment of the invention. Especially, according to the electrical
connector 41 of the fourth embodiment of the invention, since it is possible to more
securely cover whole circumference and almost the whole range in the length direction
of each untwisted portion 106 by a conductive material, it is possible to effectively
reduce the impedance and effectively control reduction of the noise performances.
(Fifth Embodiment)
[0100] Next, an electrical connector according to a fifth embodiment of the invention will
be described. Fig. 13 shows an electrical connector according to the fifth embodiment
of the invention, which is in the middle of connecting the shielded twisted pair cable.
Here, in Fig. 13, the same reference numerals are used for the same elements as those
in the electrical connector 1 according to the first embodiment, and the explanation
will be omitted.
[0101] The electrical connector 51 according to the fifth embodiment of the invention shown
in Fig. 13 has a structure formed to cover each untwisted portion 106 at the shell
cover portion 52. More specifically, the basal end side of the cover plate section
52A of the shell cover portion 52 is bent so as to get close to the bottom plate portion
4A of the base portion 4, and the inner face on the basal end side of the cover plate
section 52A gets close or contacts to an upper part of each untwisted portion 106
disposed on the base portion 4 and cover the upper part of the untwisted portion 106.
Furthermore, a plurality of lanced sections 53, which are formed by cutting and bending
upward a bottom plate portion 4A of the base portion 4, and a plurality of lanced
sections 54, which are formed by cutting and bending downward the cover plate section
52A of the shell cover portion 52 engage to each other, so as to cover one side face
of the untwisted portion 106. With the configuration, by forming the shell cover portion
52 from a similar conductive material to that of the base portion 4, it is possible
to cover each untwisted portion 106 by a conductive material.
[0102] Also with the electrical connector 51 according to the fifth embodiment of the invention
configured as above, it is possible to obtain almost similar effects to those of the
electrical connector 1, 21, 31, or 41 according to the first, the second, the third,
or the fourth embodiment. Especially, according to the electrical connector 51 of
the fourth embodiment of the invention, since it is not necessary to provide a cable
cover member as in the first or the fourth embodiment by forming a structure to cover
each untwisted portion 106 at the shell cover portion 52, it is possible to reduce
the number of members that compose the electrical connector 51 and thereby reduce
the manufacturing cost, etc.
(Sixth Embodiment)
[0103] Next, an electrical connector according to the sixth embodiment of the invention
will be described. Fig. 14 shows an electrical connector according to the sixth embodiment
of the invention, which is in the middle of connecting the shielded twisted pair cable.
Here, in Fig. 14, the same reference numerals are used for the same elements as those
in the electrical connector 1 according to the first embodiment, and the explanation
will be omitted.
[0104] The electrical connector 61 according to the sixth embodiment of the invention shown
in Fig. 14 includes a intermediate plate section 64 so as to have a two-story structure
in the vertical direction, so that it is possible not only to attach a plurality of
paired wires in the lateral direction, but also to attach a plurality of paired wires
in the vertical direction, i.e. it is possible to obtain a structure that can attach
a number of paired wires. More specifically, similarly to the base portion 63, in
the electrical connector 61, the intermediate plate section 64 is formed of a conductive
material to have a plurality of lanced sections 65, and holds each untwisted portion
106 by clamping with the respective lanced sections 65 on the intermediate plate section
64.
[0105] Furthermore, the electrical connector 61 is configured so that cable cover portions
6 are attached to the intermediate plate section 64 for the number that corresponds
to the number of paired wires disposed to the intermediate plate 64, so as to cover
the whole circumference and the whole range in the length direction of each untwisted
portion 106 disposed on the intermediate plate section 64.
[0106] Also with the sixth embodiment of the invention having the above-described configuration,
it is possible to similar effects to those of the electrical connector 1, 21, 31,
41, or 51 according to the first, the second, the third, the fourth, or the fifth
embodiment. Especially according to the electrical connector 61 of the sixth embodiment
of the invention, it is possible to control increase of impedance and reduction of
noise performances of many paired wires that are connected to the electrical connector
61. In addition, according to the electrical connector 61 of the sixth embodiment
of the invention, it is possible to easily and securely connect many paired wires
and the electrical connector 61.
(Seventh Embodiment)
[0107] Figs. 15 and 16 show an electrical connector according to the seventh embodiment
of the invention. Fig. 17 shows a base portion, a connector main body, and a cable
holding portion, etc. of the electrical connector; Fig. 18 shows the cable holding
portion of the electrical connector; and Fig. 19 shows a lower face of the shell cover
portion of the electrical connector. Here, in Figs. 15 through 19, the same reference
numerals are used for the same elements as those in the electrical connector 1 according
to the first embodiment, and the explanation will be omitted. In addition, illustration
of the shielded twisted pair cable is omitted in Figs. 15 through 19.
[0108] In Fig. 15, the electrical connector 71 according to the seventh embodiment of the
invention, similarly to the electrical connector 1 of the first embodiment of the
invention, is an electrical connector to connect to an end portion of the shielded
twisted pair cable 101 (see Figs. 8 and 9) having two twisted wire pairs. The electrical
connector 71 generally includes the connector main body 2, the shell member 72, and
the cable fastening securing section 10.
[0109] Similarly to the shell member 3 of the electrical connector 1 according to the first
embodiment, the shell member 72 is a member to hold the connector main body 2 and
an end portion of the shielded twisted pair cable 101. As shown in Fig. 16, the shell
member 72 includes a base portion 73, a cable holding portion 75, and a shell cover
portion 87.
[0110] The base portion 73 is made of a conductive material such as copper alloy. As shown
in Fig. 16, the base portion 73 is formed to have a lateral cross-section of square-bottomed
U shape that opens upward by bending two end portions of a quadrangle sheet metal,
and has a bottom plate portion 73A that forms a bottom plate of the base portion 73,
and a pair of side wall plate sections 73B and 73C that form lateral walls of the
base portion 73.
[0111] In addition, the connector main body 2 is disposed between the side plate portion
73B and the side plate portion 73C on the bottom plate portion 73A that is provided
on a front end side of the base portion 73. On the other hand, the cable holding portion
75 is disposed on the bottom plate portion 73A that is provided on a basal end side
of the base portion 73.
[0112] Furthermore, latching protrusions 73D (only one of them is illustrated in the figure)
are respectively formed on the side plate portions 73B and 73C of the base portion
73 to catch the connector main body 2 so as to secure the connector main body 2 to
the base portion 73. Each latching protrusion 73D engages with an engaging recess
2B formed on the side face of the connector main body 2. In addition, on the side
plate portions 73B and 73C of the base portion 73, there are latching holes 73E respectively
formed to catch the cable holding portion 75 so as to secure the cable holding portion
75 onto the base portion 73. Two latching holes 73E are formed on the side plate portion
73B and another two are formed on the side plate portion 73C. Each latching hole 73E
engages with a latching protrusion 86 of the shell cover portion 87.
[0113] Here, a latching mechanism to latch the cable holding portion 75 to the base portion
73 does not have to be the latching holes 73 and may be recesses. Alternatively, it
is also possible to form protrusions on the side plate portions 73B and 73C and form
holes or recesses on the cable holding portion 75. This would be similarly applied
also to a latching mechanism to latch the shell cover portion 87 to the base portion
73 and a latching mechanism 73 to latch the connector main body 2 to the base portion
73.
[0114] The cable holding portion 75 is a member to hold each untwisted portion 106 of the
shielded twisted pair cable 101 on a basal end side of the base portion 73 (see Fig.
9). As shown in Fig. 17, the cable holding portion 75 is disposed between the side
plate portions 73B and 73C on the bottom plate portion 73A of the base portion 73
on the basal end side of the base portion 73. The cable holding portion 75 in the
embodiment holds two untwisted portions 106 that respectively correspond to two wire
pairs of the shielded twisted pair cable 101 while keeping them away from each other
in the width direction of the base portion 4. The cable holding portion 75 is made
of the same conductive material as that of the base portion 73.
[0115] As shown in Fig. 18, the cable holding portion 75 has a substrate section 76, a pair
of lateral side wall sections 77 and 78, basal-end side wall sections 70 and 80 that
are divided into two sections, two pairs of divided wall sections 81, 82, 83, and
84. The substrate section 76, lateral side wall sections 77 and 78, basal end side
wall sections 79 and 80, and separation wall portions 81, 82, 83, and 84 are formed,
for example, by bending sheet material that is formed to have a specific shape.
[0116] The substrate section 76 is mounted on the bottom plate portion 73A of the base portion
73. The lateral side wall sections 77 and 78 overlap with side plate portions 73B
and 73C of the base portion 73 respectively, when the substrate section 76 is mounted
on the bottom plate portion 73A of the base portion 73. The basal end side wall sections
79 and 80 become a wall on the basal end side of the shell member 72 when the substrate
section 76 is mounted on the bottom plate portion 73A of the base portion 73 and an
insertion hole 85 becomes formed between the basal end side wall section 79 and the
basal end side wall section 80 to insert an end section of the shielded twisted pair
cable 101 therethrough.
[0117] As shown in Fig. 17, a pair of dividing walls 81 and 82 rises from the bottom plate
portion 73A of the base portion 73 and extends from a basal end side of the base portion
73 so as to reach the connector main body 2 or to a position that is close threreto
while being parallel to each other. In addition, the respective separation wall portions
81 and 82 extend upward so as to contact with or get close to a lower face of the
cover plate section 88 of the shell cover portion 87 attached on the base portion
73.
[0118] A pair of single wires 102 of one untwisted portion 106 of the shielded twisted pair
cable 101 is held between the separation wall portion 81 and the separation wall portion
82 while positioning the pair of single wires 102 to be parallel to each other and
get close or contact to each other. The distance between the separation wall portion
81 and the separation wall portion 82 (distance between the separation wall portions
81 and 82 where the separation wall portions extend being parallel to each other)
is almost two times of diameter of the single wire 102 of the shielded twisted pair
cable 101, and a pair of single wires 102 of one untwisted portion 106 of the shielded
twisted pair cable 101 is set to just fit in between the separation wall portion 81
and the separation wall portion 82 while being positioned as described above. With
the configuration, it is possible to securely hold the pair of single wires 102 between
the separation wall portion 81 and the separation wall portion 82 while being positioned
and prevent displacement of the both single wires 102.
[0119] The respective separation wall portions 81 and 82 have slope sections 81A and 82A,
which are bent so as to be away from each other in the width direction and are sloped
so as to have longer distance between the separation wall portion 81 and the separation
wall portion 82, at an end section that faces front end side of the base portion 71.
With the slope sections 81A and 82A, it is possible to gradually flex each single
wire 102 upon introducing a pair of single wires 102, which is attached to an attachment
port 2A of the connector main body 2, from the attachment port 2A in between the separation
wall portions 81 and 82, and it is possible to prevent application of large bending
force to each single wire 102.
[0120] On the other hand, an end section of the separation wall portion 82, which faces
the basal end side of the base portion 73, has a slope section 82B formed being bent
to be away from the separation wall portion 81 in the width direction and being sloped
to get close to a center part in the width direction on the basal end side of the
base portion 73. With the slope section 82B, it is possible to gradually flex each
single wire 102 upon introducing a pair of single wires 102, which is held between
the separation wall portions 81 and 82, to the insertion hole 85, and it is possible
to prevent application of large bending force to each single wire 102.
[0121] A pair of separation wall portions 83 and 84 is also formed similarly to the separation
wall portions 81 and 82. A pair of single wires 102 of the other untwisted portion
106 of the shielded twisted pair cable 101 is held between the separation wall portion
83 and the separation wall portion 84 while the pair of single wires 102 is positioned
so as to be parallel to each other and get close or contact to each other. In addition,
the separation wall portions 83 and 84 also have slope sections 83A, 84A, and 84B
that are formed similarly to the slope sections 81A, 82A, and 82B of the separation
wall portions 81 and 82.
[0122] In addition, the lateral side wall sections 77 and 78 have latching protrusions 86
that are formed to position the cable holding portion 75 on the bottom plate portion
73A of the base portion 73 and to latch and secure the cable holding portion 75 to
the base portion 73. Two latching protrusions 86 are formed on the lateral side wall
section 77 and another two are formed on the lateral side wall section 78 so as to
correspond to the latching holes 73E formed on the side plate portions 73B and 73C
of the base portion 73. The latching protrusions 86 respectively engage to the latching
holes 73. By forming the latching protrusions 86 and the latching holes 73E as described
above, it is possible to easily and precisely position and secure the cable holding
portion 75 onto the base portion 73 and thereby attain easier and more efficient assembling
work of the electrical connector 71.
[0123] As shown in Fig. 15, the shell cover portion 87 is a member to fully cover the connector
main body 2 and an end portion of the shielded twisted pair cable 101, which are disposed
on the base portion 73, from thereabove. The shell cover portion 87 is provided on
the base portion 73 so as to position the connector main body 2, the cable holding
portion 75, and an end portion of the shielded twisted pair cable 101 including each
untwisted section 106 between the shell cover 87 and the base portion 73.
[0124] The shell cover portion 87 has a flat cover plate section 88, which is made of, for
example, the same conductive material as that of the base portion 73. When the shell
cover portion 87 is attached to the base portion 73, the base portion 73 is fully
covered by the cover plate section 88. At this time, the spaces between the separation
wall portions 81 and 82 and between the separation wall portions 83 and 84 of the
cable holding portion 75 provided on the bottom plate portion 73A of the base portion
73 are also fully covered by the cover plate section 88 from thereabove.
[0125] In addition, as described above, support sections 89, which protrude downward, are
respectively provided on both sides of the cover plate section 88 in the width direction.
Each support section 89 is formed by bending a sheet material that forms the cover
plate section 88. Furthermore, each support section 89 has a latching protrusion 90
formed. Moreover, a pair of projecting sections 91 is formed on a front end side of
the cover plate section 88.
[0126] As shown in Figs. 15 and 16, by inserting each projecting section 91 into a groove
section (not illustrated) formed on the connector main body 2 secured on the base
portion 73 and engaging each latching protrusion 90 to latching hole 73F formed on
the side plate portions 73B and 73C of the base portion 73, it is possible to secure
the shell cover portion 87 to the base portion 73. In addition, there is a projecting
section 92 formed on a basal end side of the cover plate section 88. Upon dissembling
the electrical connector 71, by hooking a tool or finger onto the projecting section
92, it is possible to detach the shell cover portion 87 from the base portion 73.
[0127] As shown in Fig. 19, the shell cover portion 87 has a pair of inner lid sections
93 and 94. Each inner lid section 93 and 94 is made of, for example, the same conductive
material as that of the cover plate section 88, and disposed on a lower face of the
cover plate section 88. For example, each inner lid section 93 or 94 is formed by
bending a sheet material that forms the cover plate section 88 and then making face-contact
to a joining section 95 formed at a front end portion of the inner lid sections 93
and 94 onto a lower surface of the cover plate section 88.
[0128] The inner lid section 93 is disposed to positions that correspond to the separation
wall portions 81 and 82 of the cable holding portion 75 disposed on the bottom plate
portion 73A of the base portion 73, and the inner lid section 94 is provided at positions
that correspond to the separation wall portions 83 and 84 of the cable holding portion
75 disposed on the bottom plate portion 73A of the base portion 73.
[0129] The inner lid section 93 has a cover face 93A that protrudes downward from a lower
face of the cover plate section 88 and extends parallel to the lower face of the cover
plate section 88 at a position being away from the lower face of the cover plate section
88. As shown in Fig. 15, upon attaching the shell cover portion 87 onto the base portion
73, the inner lid section 93 goes inside between the separation wall portions 81 and
82, and fully covers the untwisted portion 106 held between the separation wall portions
81 and 82 inside between the separation wall portions 81 and 82 of the cover face
93A.
[0130] Here, the inner lid section 93 extends from the basal end section of the base portion
73 to a position reaching or getting close to the connector main body 2. In addition,
an end face 93C of the basal end section of the inner lid section 93 is almost the
same face as an outer face on the basal end side of the basal end side wall sections
79 and 80 that form the wall on the basal end side of the shell member 72.
[0131] In addition, the width dimension of the inner lid section 93 is almost the same as
that between the separation wall portion 81 and the separation wall portion 82. With
the configuration, almost whole part of the untwisted portion 106 held between the
separation wall portions 81 and 82 is fully covered by the inner lid section 93 in
the length direction and also in the circumferential direction.
[0132] Furthermore, the inner lid section 93 has a fixed-fixed beam structure in which only
two parts, i.e. the frontal end portion and a basal end portion, are supported by
a lower face of the cover plate section 88. With the configuration, it is possible
to apply a suitable amount of pressing force to the untwisted portion 106 held between
the separation wall portions 81 and 82 from thereabove by the inner lid section 93,
and it is possible to press the untwisted portion 106 thereto while being positioned
as described above.
[0133] In addition, the inner lid section 93 has a slope section 93B formed at an end portion
that faces a front end side of the base portion 73, which is sloped so as to gradually
get close to a lower face of the cover plate section 88 towards the front end side
of the cover plate section 88. With the slope section 93B, it is possible to prevent
application of excess pressing force from thereabove to each single wire 102 guided
from the attachment port 2A of the connector main body 2 to between the separation
wall portions 81 and 82.
[0134] Moreover, the inner lid section 94 is formed similarly to the inner lid section 93.
As shown in Fig. 15, when the shell cover portion 87 is attached onto the base portion
73, the inner lid section 94 goes inside between the separation wall portions 83 and
84, and fully covers almost whole of the untwisted portion 106 in the length direction
and also in the circumferential direction, which is held between the separation wall
portions 83 and 84, inside between the separation wall portions 81 and 82 of the cover
face 93A.
[0135] Furthermore, the inner lid section 94 has a fixed-fixed beam structure similarly
to the inner lid section 93, and thereby it is possible to apply a suitable amount
of pressing force by elastic force to the untwisted portion 106 held between the separation
wall portions 83 and 84 from thereabove by the inner lid section 94, and it is possible
to press the untwisted portion 106 thereto while being positioned as described above.
In addition, the inner lid section 94 has a slope section 94B similarly to the slope
section 93B of the inner lid section 93, and thereby it is possible to prevent application
of excess pressing force to each single wire 102 guided from the attachment port 2A
of the connector main body 2 to between the separation wall portions 83 and 84.
[0136] A method of connecting the electrical connector 71 configured as described above
to an end portion of the shielded twisted pair cable 101 is as follows. As shown in
Fig. 9, an insulating shield 105 is removed at an end portion of the shielded twisted
pair cable 101 and the conductive shield 104 is folded outside and each conductive
coating film 107 is removed. Then, two pairs of single wires 102 are respectively
untwisted, and the insulator 102B is removed at an end portion of each single wire
102 so as to expose the end portion of the conductor 102A.
[0137] Subsequently, two pairs of single wires 102 are respectively untwisted and the insulator
102B is removed at an end portion of each single wire 102 so as to expose an end portion
of the conductor 102A. Then, the connecting terminal 12 (see Fig. 12) is crimped to
the exposed end of the conductor 102A of each single wire 102, and an end portion
of the conductor 102A of each single wire 102 crimped to the connecting terminal 12
is attached to the attachment port 2A of the connector main body 2, which is not attached
to the base portion 73.
[0138] Then, the cable holding portion 75 is attached to a basal end side of the base portion
73. With the procedure, the cable holding portion 75 and the base portion 73 are electrically
connected. Subsequently, the connector main body 2 is attached to a front end side
of the base portion 73 and two untwisted portions 106 of the shielded twisted pair
cable 101 attached to the connector main body 2 are respectively disposed between
the separation wall portions 81 and 82 and between the separation wall portions 83
and 84, and are positioned so that a pair of single wires 102 of each untwisted portion
106 is parallel to each other and contacts or gets close to each other and organized.
[0139] Next, the shell cover portion 87 is attached onto the base portion 73. With the operation,
the inner lid section 93 goes in between the separation wall portions 81 and 82, and
fully covers one untwisted portion 106 disposed between the separation wall portions
81 and 82 from thereabove and presses thereto. In addition, the inner lid section
94 goes in between the separation wall portions 83 and 84 and fully covers the other
untwisted portion 106 disposed between the separation wall portions 83 and 84 from
thereabove and presses thereto. Furthermore, the cover plate section 88 fully covers
the connector main body 2, the cable holding portion 75, and an end of the shielded
twisted pair cable 101 from thereabove. In addition, the shell cover portion 87 and
the base portion are electrically connected.
[0140] Then, the shielded twisted pair cable 101 is fastened to be secured onto the cable
fastening securing section 10. At this time, contacting the conductive shield 104
that is folded back to the cable fastening securing section 10, the conductive shield
104 and the cable fastening securing section 10 are electrically connected. With the
operation, the conductive shield 104 and the base portion 73 are electrically connected.
With above operations, connection of the electrical connector 1 to an end portion
of the shielded twisted pair cable 101 completes.
[0141] As described above, according to the electrical connector 71 of the seventh embodiment,
it is possible to fully cover the whole of each untwisted portion 106 of the shielded
twisted pair cable 101 in the length direction and the circumferential direction by
the separation wall portions 81, 82, 83, and 84 of the cable holding portion 75, the
substrate section 76 of the cable holding portion 75, and the inner lid sections 93
and 94 of the shell cover portion 87, any of which is made of a conductive material.
Furthermore, it is possible to fully cover whole of each untwisted portion 106 from
the outer circumferential side by the side plate portions 73B and 73C, the bottom
plate portion 73A of the base portion 73, and the cover plate section 88 of the shell
cover portion 87, any of which is made of a conductive material.
[0142] With the operation as described above, since it is possible to fully cover the whole
of each untwisted portion 106 doubly by a conductive material, it is possible to significantly
enhance the shielding performance of each untwisted portion 106. Therefore, it is
possible to reduce impedance at each untwisted portion 106 and it is possible to securely
match impedance between circuits or devices that are connected via the electrical
connector 71 and the shielded twisted pair cable 101.
[0143] Furthermore, according to the electrical connector 71 of the seventh embodiment,
it is possible to form the cable holding portion 75 as a single member having the
substrate section 76 and the separation wall portions 81, 82, 83, and 84, and thereby
improve the assembling work efficiency of the electrical connector 71.
[0144] Here, the aforementioned first through fifth and the seventh embodiments describe
the electrical connectors 1, 21, 31, 41, 51, and 71 to connect to the shielded twisted
pair cable 101 having two sets of paired wires as an example. However, the invention
is not limited to those and is applicable to an electrical connector to connect to
a shielded twisted pair cable having one set or at least three sets of paired wires.
[0145] In addition, in each embodiment described above, the electrical connectors 1, 21,
31, 41, 51, 61, and 71 to connect to a shielded twisted pair cable 101 are described
as an example, but the invention is not limited to those and also applicable to an
electrical connector to connect to an unshielded twisted pair cable.
[0146] Moreover; the aforementioned first through the sixth embodiments describe a case
of continuously covering almost whole of the untwisted portion 106 in the length direction
by a conductive member, such as a lanced section and cable cover member. It is preferred
to continuously cover almost whole untwisted portion 106 in the length direction since
it is possible to enhance the effect of controlling reduction of the noise performance.
However, it is also possible to obtain some effects also by a configuration that intermittently
covers a part or almost whole of the untwisted portion 106 in the length direction,
and it is possible to apply such configuration depending on uses of the electrical
connector.
[0147] Furthermore, it should be understood that the invention may be altered, modified,
or changed within scope of the invention that can be inferred from the claims and
the whole picture of the specification and the invention also encompasses such modified
electrical connector and a method of connecting a twisted pair cable and an electrical
connector.
[0149] While the invention has been explained with reference to the specific embodiments
of the invention, the explanation is illustrative and the invention is limited only
by the appended claims.