CN203444820U - Data cable with high electromagnetic interference resistance - Google Patents
Data cable with high electromagnetic interference resistance Download PDFInfo
- Publication number
- CN203444820U CN203444820U CN201320440284.7U CN201320440284U CN203444820U CN 203444820 U CN203444820 U CN 203444820U CN 201320440284 U CN201320440284 U CN 201320440284U CN 203444820 U CN203444820 U CN 203444820U
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- copper conductor
- copper wire
- aluminium foil
- data cable
- copper
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Abstract
The utility model discloses a data cable with high electromagnetic interference resistance, which comprises eight copper wire pairs. Two copper wires whose surfaces are plated with silver layers make up each copper wire pair; in each copper wire pair, the two copper wires are arranged in parallel, each copper wire is coated with an insulating foam layer serving as an insulation, and the insulating foam layer is provided with a plurality of empty holes; each of the six copper wire pairs in the eight copper wire pairs is wrapped with a first polyester belt on the outer surface; each of the other two copper wire pairs in the eight copper wire pairs is wrapped with a first single-face aluminum foil on the outer surface; drain wires are arranged between the copper wire pairs and the first polyester belts and the first single-face aluminum foils; a non-woven fabric coats the two copper wire pairs wrapped with first single-face aluminum foils; and the six copper wire pairs wrapped with the first polyester belts are twisted outside the non-woven fabric. According to the data cable, influence of high-frequency electromagnetic radiation and capacitance coupling on data communication can be reduced on the basis that transmission characteristics of the high-speed data cable are ensured.
Description
Technical field
The utility model relates to a kind of high-speed data cable, relates in particular to a kind of anti-interference high-speed data cable.
Background technology
The structure of ordinary numbers cable: common high-speed data cable is to extrude one deck PE insulation outward by copper conductor to form insulated single wire, then is twisted into line pair by two single lines, then forms through stranding, sheath.Because two single lines are in twisting process, can be subject to stretching in various degree, thereby cause end properties center line defective to the index of delay inequality, this is particularly outstanding when high-frequency.Therefore, for above-mentioned design defect, how to design a kind of poor cable of present low delay that meets, become the direction that those of ordinary skills make great efforts.
Summary of the invention
The utility model provides a kind of data cable with high resistance electromagnetic interference, this data cable with high resistance electromagnetic interference, on assurance high-speed data cable transmission characteristic basis, can reduce high frequency electromagnetic radiation and capacitive coupling to the impact of data communication and efficiently solve cable end properties center line to delay inequality problem.
For achieving the above object, the technical solution adopted in the utility model is: a kind of data cable with high resistance electromagnetic interference, comprise: eight copper conductor lines pair that formed by 2 silver coated copper conductors in surface, 2 copper conductors of this copper conductor line centering be arranged in parallel, described copper conductor is the outer insulation foaming layer being covered with as insulation all, if this insulation foaming layer has individual cavity; Six copper conductor lines of described eight copper conductor line centerings are all surrounded with the first polyester belt to outer surface separately, and another two the copper conductor lines of described eight copper conductor line centerings are surrounded with the first one side aluminium foil to outer surface; Between described copper conductor line pair and the first polyester belt and the first one side aluminium foil, be equipped with drain wire;
One nonwoven fabrics is coated on two copper conductor lines pair that are surrounded with the first one side aluminium foil, and described six copper conductor line strands that are surrounded with the first polyester belt are in described nonwoven fabrics outside;
The second polyester belt is wrapped in six copper conductor lines pair that are positioned at described nonwoven fabrics outside;
The second one side Aluminium Foil Package is overlying on described the second polyester belt outer surface;
The one shielding braid band being formed by tinned copper wire braiding is coated on described the second one side aluminium foil outer surface, and the aluminium foil surface of described the second one side aluminium foil and described shielding braid band electrically contact;
One PVC restrictive coating is coated on described shielding braid band outer surface.
In technique scheme, further improved technical scheme is as follows:
1, in such scheme, if described individual empty volume accounts for 30%~60% of described insulation foaming layer volume.
2,, in such scheme, the count of described shielding braid band is 60% ~ 80%.
3,, in such scheme, the diameter of described drain wire is 0.25mm ~ 0.30mm.
Because technique scheme is used, the utility model compared with prior art has following advantages:
1, the utlity model has the data cable of high resistance electromagnetic interference, have the high-speed data cables of two and single line, its single line in process of production two parallel extruding of copper conductor forms figure-8 structure line pair, then by strand to, stranding, sheath.Because two single lines of line centering are that parallel extruding forms, strand to time the stretching that is subject to also identical, substantially be two identical lines, so the delay inequality between these two single lines is very little, the delay inequality that ordinary numbers cable test gets off is 10ns/100m, uses its time delay difference of high-speed data cable of two and single line can be controlled at 3ns/100m.
2, the utlity model has the data cable of high resistance electromagnetic interference, its copper conductor is the outer insulation foaming layer being covered with as insulation all, if this insulation foaming layer has individual cavity, can reduce the impact on data communication of high frequency electromagnetic radiation and capacitive coupling, and increased the mechanical strength of cable, thereby increased the service life.
3, the utlity model has the data cable of high resistance electromagnetic interference, between its copper conductor line pair and the first polyester belt and the first one side aluminium foil, be equipped with drain wire, effectively avoided the interference of outer bound pair signal code, electric current total on cable is significantly reduced, improve shielding properties simultaneously, further strengthened the stability of cable insulation and high-frequency signal transmission performance.
Accompanying drawing explanation
Accompanying drawing 1 is for the utlity model has the data cable structural representation of high resistance electromagnetic interference.
In above accompanying drawing: 1, copper conductor line pair; 11, silver layer; 12, copper conductor; 2, insulation foaming layer; 21, cavity; 3, the first polyester belt; 4, the first one side aluminium foil; 5, nonwoven fabrics; 6, the second polyester belt; 7, the second one side aluminium foil; 8, shielding braid band; 81, tinned copper wire; 9, PVC restrictive coating; 10, drain wire; 13, cavity.
Embodiment
Below in conjunction with drawings and Examples, the utility model is further described:
Embodiment 1: a kind of data cable with high resistance electromagnetic interference, comprise: eight copper conductor lines that are comprised of the copper conductor 12 on 2 surfaces silver coated 11 are to 1, this copper conductor line be arranged in parallel to 2 copper conductors 12 in 1, described copper conductor 12 is the outer insulation foaming layer 2 being covered with as insulation all, if this insulation foaming layer 5 has individual empty 13; Described eight copper conductor lines to six copper conductor lines in 1 to 1 separately outer surface be all surrounded with the first polyester belt 3, described eight copper conductor lines are surrounded with the first one side aluminium foil 4 to another two copper conductor lines in 1 to 1 outer surface; Described copper conductor line is to being equipped with drain wire 10 between the 1 and first polyester belt 3 and the first one side aluminium foil 4;
One nonwoven fabrics 5 is coated on two copper conductor lines that are surrounded with the first one side aluminium foil 4 to 1, and described six copper conductor lines that are surrounded with the first polyester belt 3 are stranded in described nonwoven fabrics 5 outsides to 1;
Wrapped six the copper conductor lines in being positioned at described nonwoven fabrics 5 outsides of the second polyester belt 6 are to 1;
The second one side aluminium foil 7 is coated on described the second polyester belt 6 outer surfaces;
The one shielding braid band 8 being formed by tinned copper wire 81 braidings is coated on described the second one side aluminium foil 7 outer surfaces, and the aluminium foil surface of described the second one side aluminium foil 7 and described shielding braid band 8 electrically contact;
One PVC restrictive coating 9 is coated on described shielding braid band 8 outer surfaces.
If above-mentioned individual empty 7 volumes account for 32% of described insulation foaming layer 5 volume.
The diameter of above-mentioned drain wire 10 is 0.28mm.
Embodiment 2: a kind of data cable with high resistance electromagnetic interference, comprise: eight copper conductor lines that are comprised of the copper conductor 12 on 2 surfaces silver coated 11 are to 1, this copper conductor line be arranged in parallel to 2 copper conductors 12 in 1, described copper conductor 12 is the outer insulation foaming layer 2 being covered with as insulation all, if this insulation foaming layer 5 has individual empty 13; Described eight copper conductor lines to six copper conductor lines in 1 to 1 separately outer surface be all surrounded with the first polyester belt 3, described eight copper conductor lines are surrounded with the first one side aluminium foil 4 to another two copper conductor lines in 1 to 1 outer surface; Described copper conductor line is to being equipped with drain wire 10 between the 1 and first polyester belt 3 and the first one side aluminium foil 4;
One nonwoven fabrics 5 is coated on two copper conductor lines that are surrounded with the first one side aluminium foil 4 to 1, and described six copper conductor lines that are surrounded with the first polyester belt 3 are stranded in described nonwoven fabrics 5 outsides to 1;
Wrapped six the copper conductor lines in being positioned at described nonwoven fabrics 5 outsides of the second polyester belt 6 are to 1;
The second one side aluminium foil 7 is coated on described the second polyester belt 6 outer surfaces;
The one shielding braid band 8 being formed by tinned copper wire 81 braidings is coated on described the second one side aluminium foil 7 outer surfaces, and the aluminium foil surface of described the second one side aluminium foil 7 and described shielding braid band 8 electrically contact;
One PVC restrictive coating 9 is coated on described shielding braid band 8 outer surfaces.
If above-mentioned individual empty 7 volumes account for 50% of described insulation foaming layer 5 volume.
The count of above-mentioned shielding braid band 8 is 67%.
While adopting the above-mentioned data cable with high resistance electromagnetic interference, have the high-speed data cables of two and single line, its single line in process of production two parallel extruding of copper conductor forms figure-8 structure line pair, then by strand to, stranding, sheath.Because two single lines of line centering are that parallel extruding forms, strand to time the stretching that is subject to also identical, substantially be two identical lines, so the delay inequality between these two single lines is very little, the delay inequality that ordinary numbers cable test gets off is 10ns/100m, uses its time delay difference of high-speed data cable of two and single line can be controlled at 3ns/100m; Secondly, its copper conductor is the outer insulation foaming layer being covered with as insulation all, if this insulation foaming layer has individual cavity, can reduce the impact on data communication of high frequency electromagnetic radiation and capacitive coupling, and increase the mechanical strength of cable, thereby increase the service life; Again, between its copper conductor line pair and the first polyester belt and the first one side aluminium foil, be equipped with drain wire, effectively avoided the interference of outer bound pair signal code, electric current total on cable is significantly reduced, improve shielding properties simultaneously, further strengthened the stability of cable insulation and high-frequency signal transmission performance.
Above-described embodiment is only explanation technical conceive of the present utility model and feature, and its object is to allow person skilled in the art can understand content of the present utility model and implement according to this, can not limit protection range of the present utility model with this.All equivalences of doing according to the utility model Spirit Essence change or modify, within all should being encompassed in protection range of the present utility model.
Claims (4)
1. a data cable with high resistance electromagnetic interference, it is characterized in that: comprising: eight copper conductor lines that are comprised of the copper conductor (12) on 2 surfaces silver coated (11) are to (1), this copper conductor line be arranged in parallel to 2 copper conductors (12) in (1), described copper conductor (12) is the outer insulation foaming layer (2) being covered with as insulation all, and this insulation foaming layer (5) is if having individual cavity (13); Described eight copper conductor lines to six copper conductor lines in (1) to (1) separately outer surface be all surrounded with the first polyester belt (3), described eight copper conductor lines are surrounded with the first one side aluminium foil (4) to another two copper conductor lines in (1) to (1) outer surface; Described copper conductor line is to being equipped with drain wire (10) between (1) and the first polyester belt (3) and the first one side aluminium foil (4);
One nonwoven fabrics (5) is coated on two copper conductor lines that are surrounded with the first one side aluminium foil (4) to (1), and described six copper conductor lines that are surrounded with the first polyester belt (3) are stranded in described nonwoven fabrics (5) outside to (1);
Wrapped six the copper conductor lines in being positioned at described nonwoven fabrics (5) outside of the second polyester belt (6) are to (1);
The second one side aluminium foil (7) is coated on described the second polyester belt (6) outer surface;
The one shielding braid band (8) being formed by tinned copper wire (81) braiding is coated on described the second one side aluminium foil (7) outer surface, and the aluminium foil surface of described the second one side aluminium foil (7) and described shielding braid band (8) electrically contact;
One PVC restrictive coating (9) is coated on described shielding braid band (8) outer surface.
2. data cable according to claim 1, is characterized in that: if described individual cavity (7) volume accounts for 30%~60% of described insulation foaming layer (5) volume.
3. data cable according to claim 1, is characterized in that: the count of described shielding braid band (8) is 60% ~ 80%.
4. data cable according to claim 1, is characterized in that: the diameter of described drain wire (10) is 0.25mm ~ 0.30mm.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201320440284.7U CN203444820U (en) | 2013-07-23 | 2013-07-23 | Data cable with high electromagnetic interference resistance |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201320440284.7U CN203444820U (en) | 2013-07-23 | 2013-07-23 | Data cable with high electromagnetic interference resistance |
Publications (1)
Publication Number | Publication Date |
---|---|
CN203444820U true CN203444820U (en) | 2014-02-19 |
Family
ID=50095848
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201320440284.7U Expired - Lifetime CN203444820U (en) | 2013-07-23 | 2013-07-23 | Data cable with high electromagnetic interference resistance |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN203444820U (en) |
-
2013
- 2013-07-23 CN CN201320440284.7U patent/CN203444820U/en not_active Expired - Lifetime
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CX01 | Expiry of patent term |
Granted publication date: 20140219 |
|
CX01 | Expiry of patent term |