瑞典专利SE1350349A1 Improved cushioned cables

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专利摘要:
The invention relates to a cable having at least two pairs of insulated wires. The adjacent pairs are separated at their contact point(s) by a cushion layer that does not wrap completely around the pairs or any one of the pairs. The cable provides low variability in insertion loss or the ratio of input of voltage injected into the cable vs. output voltage.
公开号:SE1350349A1
申请号:SE1350349
申请日:2013-03-21
公开日:2013-09-22
发明作者:Carl S Booth；Russell K Isch；Timothy M Tassmer；Albert M Ermer Jr；Gregory P Vaupotic
申请人:Amphenol Corp；
IPC主号:

专利说明:

[1] [0001] This application claims the priority of U.S. Provision Patent Application SerialNo. 6l/6l3,747, filed March 21, 2012, which is incorporated herein by reference.
[3] [0003] Multiple pair twinaxial copper cables are well known in the computer andtelecommunications industry for transmitting digital data signals over short distances at highfrequency. Some typical current industry standard application standards include Serial AttachedSCSI (SAS), InﬁniBand, and l0Gb Ethemet. Cables are commonly used within corporate datacenters, where multiple copper cable connections are deployed between switches, routers, hubs,servers, and storage units. In these applications it is common to employ eight twinaxial pairs in around cable configuration, whereby four of the pairs transmit data, and four pairs receive data.[0004] In order for data transmission to be error free, the twinaxial copper pairs mustexhibit a very high degree of physical consistency relative to each other. If the pairs arephysically different from each other in any way, insertion loss, which is measured as the ratio ofinput of voltage injected into the cable vs. output voltage can vary greatly. Furthermore, theinsertion loss deviation, or the difference in loss between the lowest and highest loss pair can be111550.00190/36217251v.1greatly affected. This “insertion loss deviation” is an electrical parameter that must becontrolled tightly, since pairs with too much received voltage can cause unwanted energy tocouple with neighboring pairs, creating crosstalk and further data errors. ln addition, insertionloss deviation forces system designers to use complicated and power hungry signal conditioningtechniques to equalize received voltage as much as possible. Therefore bulk cablemanufacturers go to great lengths to ensure that the pair”s individual insulated wire”s physicalproperties such as insulation diameter, ovality, and conductor concentricity are properlymaintained throughout a production lot. These properties are critical to maintain, not only at theinitial extrusion operation, where the insulation is applied, but also through all subsequentmanufacturing operations, such as pair shielding, cabling, braiding and final jacketing.
[5] [0005] Skew also adds to the error in data transmission. Skew is the delayed arrival of asignal from the pairs in the cable, and can be significant in a long cable. ldeally, all signalswould arrive at the same time; however, physical inconsistencies between the pairs in the cableresults in some signal arriving later than others. It is, therefore, desirable to reduce skewvariation in the cable to reduce transmission errors.
[6] [0006] Also important to the design of these cables is finished cable diameter, whichneeds to be kept to a minimum. As a result, cable manufacturers typically use a variety of airenhanced cable dielectrics in order to achieve the lowest possible diameter for a given AWG andcable impedance. Unfortunately, whenever air is introduced into a dielectric, its physicalresistance to crushing and deformation is reduced according to the amount of air content.
[7] [0007] A cable cross section of industry standard eight-pair cable is shown in Figure 1.The process of combining the eight pairs together is commonly referred to as “cabling”. In thecabling operation, all eight pairs are simultaneously helically wound by machine around a central111550.00190/36217251v.1axis. In order to arrange the pairs in the most compact geometry, there is an inner layer of twopairs (7 and 8) which are surrounded by six pairs (1-6). Each layer is helically wound through aclosing die to ensure diameter control and the proper positioning of pairs in numerical sequence.Typical industry practice uses one or more taping machines that are positioned after the closingdie(s) in order to apply various industry standard EMI/RFI shields and tapes. As depicted inFigure 1, each of the 8 pairs is taped with at least one layer of wrapping tape. These tapes aregenerally polymeric (e.g. polyester) and have adhesive on one side. The wrapping tapes can bewound helically or longitudinally around each of the pairs.
[8] [0008] The center two pairs (7 and 8) are then wrapped with a first layer of tape(sometimes referred to in the industry as “binder tape” or “buffer tape”). The buffer tape is madefrom a soft, pliable, non-conducting tape that can cushion and absorb shock when the cable isimpacted. The buffer tape is preferably made from polymers, such as foamed polypropylene,Teﬂon (polytetraﬂuoroethylene), PVC and the like, and contains no adhesive.
[9] [0009] The remaining six pairs (1-6) are wound around the ﬁrst layer of buffer tape 100.A second layer of buffer tape (100) is then wrapped around the outer pairs (1 to 6). Thus, Figure1 shows two distinct layers of buffer tape (100). One layer is immediately applied directly overinner pairs 7 and 8. The other layer is immediately applied directly over outer pairs 1 through 6.[0010] Beyond the second layer of buffer tape, there can be successive layers of shielding(102) and acket (104). As shown in Figure 1, the shielding can include an aluminum tape and/ora braided shield. The jacket can be made from known jacketing material for communicationcable.
[11] [0011] The purpose of the multiple layers of buffer tape is to minimize any physicaldistortion that may happen to the pairs as a result of the cabling torque forces applied, or as a111550.00190/36217251v.1result of compressive forces applied to the cable as a result of downstream cable braiding andfinal j acketing operations. However, the prior art cables do not provide consistent insertion lossand skeW characteristics between the pairs in the cable. Therefore, there remains a need forcommunication cables that reduce insertion loss and skeW Variability between the different pairsWithin a cable.111550.00190/36217251v.1SUMMARY OF THE INVENTION
[12] [0012] An object of the present invention is to provide communication cables having lowvariability in insertion loss (the ratio of input of voltage injected into the cable vs. outputvoltage). The present invention provides communications cables containing a plurality of wirepairs, each pair having a binder tape completely covering the pair around their mutualcircumference. The cables further include a cushioning member between at least two adj acentpairs. That cushioning member is disposed such that it prevents any direct contact between theadj acent pairs, but does not completely cover the circumference of any one particular pair. Thecushioning member can be placed between selected adjacent pairs or all adjacent pairs.Preferably, a cushioning member is placed between any adj acent pairs that come into contactwith each other. Applicants have discovered that the cables of the present invention provideconsistent insertion loss profile without sacrificing ﬂexibility and size of the cable.
[13] [0013] Another object of the present invention is to provide methods for making thecables. In a preferred method, the cushioning member is cabled in with the plurality of wirepairs as the pairs are being assembled into a cable. This method avoids the difﬁcult and costlyprocess of adding an additional layer of wrapping tape or extruded jacket around each pair,which adds to the size and lowers the ﬂexibility of the cable.
[14] [0014] A ﬁlrther object of the present invention is to provide for methods for connectingcommunication equipments with the cables.111550.00190/36217251v.1BRIEF DESCRIPTION OF THE DRAWINGS
[15] [0015] Figure 1 shows the cross-section the eight pair cable of the prior art.
[16] [0016] Figure 2 shows the cross-section of the eight pair cable of the present inventionwhere the cushioning member covers a minor portion of the center pairs.
[17] [0017] Figure 3 shows the cross-section of the eight pair cable of the present inventionwhere the cushioning member covers a maj or portion of the center pairs.
[18] [0018] Figure 4 shows the cross-section of the eight pair cable of the present inventionwhere the cushioning member covers only where the center pairs are in contact.
[19] [0019] Figure 5 shows the cross-section of a four pair cable of the present invention.[0020] Figure 6 shows insertion loss of the pairs in the cable depicted in Figure 1.[0021] Figure 7 shows insertion loss of the pairs in the cable depicted in Figure 4.[0022] Figure 8 shows the standard deviation for the insertion loss for each of the pairs,at 1.5 GHz, in the cable of the present invention (Figure 4) and the prior art cable (Figure 1).The numbers on the x-axis denote the wire pair as noted in the inset of Figure 1. The “S”indicates the corresponding pair in the cable of the present invention.
[23] [0023] Figure 9 shows the standard deviation for the insertion loss for each of the pairs,at 2.5 GHz, in the cable of the present invention (Figure 4) and the prior art cable (Figure 1).The numbers on the X-axis denote the wire pair as noted in the inset of Figure 1. The “S”indicates the corresponding pair in the cable of the present invention.
[24] [0024] Figure 10 shows the standard deviation for the insertion loss for each of the pairs,at 5.0 GHz, in the cable of the present invention (Figure 4) and the prior art cable (Figure 1).The numbers on the x-axis denote the wire pair as noted in the inset of Figure 1. The ”S”indicates the corresponding pair in the cable of the present invention.111550.00190/36217251v.1
[25] [0025] Figure 11 shows the standard deviation for the skew for each of the pairs in thecable of the present invention (Figure 4) and the prior art cable (Figure 1). The numbers on thex-axis denote the Wire pair as noted in the inset of Figure 1. The “S” indicates the correspondingpair in the cable of the present invention.111550.00190/36217251v.1DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
[26] [0026] The present invention provides communication cables having consistent insertionloss profile without sacriﬁcing ﬂexibility of size. The communications cable of the presentinvention contains a plurality of wire pairs, each pair having a binder tape completely coveringthe pair around their mutual circumference. Each pair contains two insulated Wires and a drainwire held together with a wrapping tape. Each pair can be constructed, e.g., as disclosed in U.S.Patent No. 7,790,98l to Vaupotic et al., which is incorporated herein by reference. The pluralityof pairs may further be covered by successive layers of buffer tape(s), shielding, and/ or jacket asdepicted in Figure l. The cable further includes a cushioning member between at least twoadj acent pairs. That cushioning member is disposed such that it prevents any direct contactbetween the adj acent pairs, but does not completely cover the circumference of any oneparticular pair. That way, the cushioning member does not significantly increase the stiffnessand the size of the cable. The cushioning member can be placed between selected adjacent pairsor all adj acent pairs. Preferably, a cushioning member is placed between any adjacent pairs thatcome into contact with each other. Applicants have unexpectedly discovered that the addition ofthe cushioning tape unexpectedly provides consistent and low variability in insertion loss or theratio of input of voltage inj ected into the cable vs. output voltage.
[27] [0027] The cushioning member provides shock dampening effect when the cable iscompressed. Preferably, the dampening effect is at least the same or greater than that providedby the binder tape. The cushioning member can be made from soft, pliable, non-conductivematerial. The material can be polymers, such as foamed polyolefin, Teﬂon(polytetrafluoroethylene) or expanded Teﬂon, and PVC; or cloth. Preferably, the cushioningmember is provided as a tape and contains no adhesive.111550.00190/36217251v.1
[28] [0028] Figure 2 depicts an embodiment of the present invention having eight pairs ofwires (202a-202h). Similar to Figure 1 (prior art), the pairs are also positioned with two pairs(202a and 202b) at the center and the other six pairs (202c-202h) surrounding the center pair. Inaddition to the inner and outer buffer tape layers (206 and 208), the shielding layer(s) (210), andthe jacket (212), the present invention provides a cushioning member (200) between the centerpairs (202a and 202b) of the cable. That cushioning member 200 functions to eliminate anydirect physical contact between pair 202a and pair 202b. Preferably, the cushioning member(200) does not completely cover any of the pair it is in contact with. As shown in Figure 2, thecushioning member (200) is inserted between pair 202a and pair 202b, but only partially coversthe circumference of those pairs. In Figure 2, the cushioning member (200) covers a minorportion of each pair 202a and pair 202b, while in Figure 3, the cushioning member (200) alsocovers a major portion of each pair 202a and pair 202b. Further, the cushioning member (200)can also be disposed as depicted in Figure 4, where the cushioning member (200) is in contactwith the pairs at a point where the pairs would have been in contact but for the cushioningmember (200). The remaining parts of the cushioning member need not be attached to any oneof the adjacent pairs. All of those embodiments are within the scope of the present invention. Itis important to note that the cushioning member provides a minimum of one separate layer ofplastic material between pairs 202a and 202b. Additional, layers between those pairs are alsocontemplated by the present invention. Further, although Figures 2-4 show only a singlecushioning member (200) between pair 202a and 202b, the present invention also contemplatesthe use of the cushioning member between any contact point of the other pairs (202c-202h). Forexample, consistent with the present invention, cushioning member(s) can be disposed between111550.00190/36217251v.1pairs 202c and 202d, 202d and 202e, 202e and 202f, 202f and 202g, 202g and 202h, and/or 202hand 202c.
[29] [0029] Figure 5 depicts an embodiment of the present invention having four pairs ofwires (502a-502d). The four pairs are arranged around a filler (520) Which serves to fill the voidbetween the pairs to prevent the pairs from shifting within the cable and to maintain the cross-sectional shape of the cable. Similar to the other embodiments, the four pairs may further besuccessively covered in a buffer tape layer (506), a shielding layer(s) (510), and/or a jacket(512). The cushioning members (500) are preferably disposed betvveen the contact points ofpairs 502a and 502b, pairs 502b and 502c, pairs 502c and 502d, and pairs 502d and 502a. Asdepicted in Figure 5, two separate cushioning tapes (5 00a and 500b) are used to cushion the fourcontact points. Here, tape 500a is positioned such that it cushions the contact points betweenpairs 502a and 502b and pairs 502a and 502d. Likewise, tape 500b is positioned so that itcushions the contact points between pairs 502b and 502c and pairs 502c and 502d. AlthoughFigure 5 shows two cushioning members, the present invention also contemplates the use, forexample, of four different cushioning tapes, each being disposed between one of the four contactpoints.
[30] [0030] During assembly of the cable, the cushioning member(s) are preferably helicallywound into the cable with a cable lay identical to that of the pairs. That Way, the tools andmachines for assembling the cable need only add equipments for handling the cushioningmember(s) without drastically changing the original machine. Further, directly cabling in thecushioning member during the assembly of the cable provides a much simpler process thanseparately wrapping or extruding a jacket for each pair.111550.00190/36217251v.1
[31] [0031] Although the Figures show only four or eight pairs of wires, the present inventionis also applicable to other cable conﬁgurations as long as at least two pairs are separated by acushioning member to prevent direct contact between the pairs.
[32] [0032] The cable of the present invention was compared the prior art cable. The prior artcable were constructed as shown in Figure 1; the cables of the present invention wereconstructed as shown in Figure 4. The cables were tested for insertion loss and skew. The datafor the cable of the present invention was collected from 21 cable samples consisting of 168individual measurements. The data for the prior art cable was taken from an in-house databasethat include all test data from the previous six months.
[33] [0033] Figure 6 shows insertion loss of a prior art cable. Note pair number 8 falls outsidethe grouping and close to the black dot spec limit. This is likely due to physical deformation ofthe pair during the cabling operation. Figure 7 shows the cable of the present invention. Notethat the cable of the present invention provided improvement in pair number 8 and in the overalltighter distribution of insertion loss.
[34] [0034] Figures 8-10 show the standard deviation of the insertion loss for each of the pairsin the cables at 1.5, 2.5, and 5.0 GHz, respectively. The cable of the present invention providedmuch lower variability in insertion loss when compared to the prior art.
[35] [0035] Figure 11 shows the standard deviation of the skew for each of the pairs in thecables. The cable of the present invention provided much lower variability in skew whencompared to the prior art.11111550.00190/36217251v.1
[36] [0036] Although certain presently preferred embodiments of the invention have beenspecifically described herein, it Will be apparent to those skilled in the art to Which the inventionpertains that Variations and modifications of the various embodiments shown and describedherein may be made Without departing from the spirit and seope of the invention. Accordingly, itis intended that the invention be limited only to the extent required by the appended claims andthe applicable rules of law.12111550.00190/36217251v.1

权利要求:
Claims (20)
[1] 1. A cable comprisinga plurality of pairs of wires, each pair comprises two insulated wires that are covered withat least one layer of wrapping tape; andat least one cushioning member disposed between two adj acent pairs to prevent direct contact between said two adj acent pairs.
[2] 2. The cable of claim l, wherein the cushioning member is made from a soft, pliable material.
[3] 3. The cable of claim 1, comprising eight pairs of wires.
[4] 4. The cable of claim 1, wherein two pairs are positioned at a center with six pairs disposed around the two pairs at the center.
[5] 5. The cable of claim 4, wherein the at least one cushioning member is positioned between the center two pairs.
[6] 6. The cable of claim 4, further comprising a first layer of buffer tape surrounding the two center pairs.
[7] 7. The cable of claim 6, wherein the six pairs are positioned around the first layer of buffer tape. 13 111550.00190/36217251v.1
[8] 8. The cable of claim 7, further comprising a second layer of buffer tape surrounding the additional pairs of wires.
[9] 9. The cable of claim 8, further comprising at least one shielding layer surrounding the second layer of buffer tape.
[10] 10. The cable of claim 9, wherein the at least one shielding layer comprises a metal tape layer and/or a braided shield layer.
[11] 11. The cable of claim 10, ﬁlrther comprising aacket surrounding the at least one shielding layer.
[12] 12. The cable of claim 1, wherein the layer of cushioning tape partially covers the perimeter of each of the two center pairs.
[13] 13. The cable of claim 1, comprising four pairs of wires.
[14] 14. The cable of claim 13, wherein the four pairs of wires are positioned around a center ﬁller.
[15] 15. The cable of claim 14, Wherein the at least one at least one layer of cushioning member contains two cushioning members disposed to prevent direct contact between the adj acent pairs.
[16] 16. The cable of claim 15, further comprising a buffer tape surrounding the four pairs.14 111550.00190/36217251v.1
[17] 17. The cable of claim 16, further comprising at least one shielding layer surrounding the second layer of buffer tape
[18] 18. The cable of claim 17, further comprising a jacket surrounding the at least one shielding layer.
[19] 19. A method for making a cable comprising the steps of a. providing a plurality of pairs of wires, each pair comprises two insulated wires thatare covered with at least one layer of wrapping tape; b. providing at least one cushioning tape; and c. assembling the cable by placing the at least one cushioning tape between two adj acentpairs, such that the cushioning tape prevents direct contact between said two adjacent pairs.
[20] 20. The method of claim 19, step c comprises helically winding the cushioning tape and the plurality of pairs with an identical cable lay. 111550.00190/36217251v.1

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法律状态:
2017-10-31| NUG| Patent has lapsed|

优先权:

申请号 | 申请日 | 专利标题

US201261613747P| true| 2012-03-21|2012-03-21|

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