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25-pair color code

From Wikipedia, the free encyclopedia

Single-core 25-pair/50 conductor cable
Single-core 25-pair/50 conductor cable

The 25-pair color code, originally known as even-count color code,[1] is a color code used to identify individual conductors in twisted-pair wiring for telecommunications.

Color coding

With the development of new generations of telecommunication cables with polyethylene-insulated conductors (PIC) by Bell Laboratories for the Bell System in the 1950s, new methods were developed to mark each individual conductor in cables.[2] Each wire was identified by the combination of two colors, one of which is the major color, and the second the minor color. Major and minor colors are chosen from two different groups, resulting in 25 color combinations. The color combinations are applied to the insulation that covers each conductor. Typically, one color was a prominent background color of the insulation, and the other was a tracer, consisting of stripes, rings, or dots, applied over the background. The background color always matches the tracer color of its paired conductor, and vice versa.

The major, or primary group of colors consists of the sequence of white, red, black, yellow, and violet. The minor, or secondary color was chosen from the sequence blue, orange, green, brown, and slate.[3][4]

25-pair color coding using twisted pairs with solid color coding only, without tracers. This method was rarely used.
25-pair color coding using twisted pairs with solid color coding only, without tracers. This method was rarely used.
25-pair color code
Pair
no.
Major color Minor color
1 White Blue
2 Orange
3 Green
4 Brown
5 Slate
6 Red Blue
7 Orange
8 Green
9 Brown
10 Slate
11 Black Blue
12 Orange
13 Green
14 Brown
15 Slate
16 Yellow Blue
17 Orange
18 Green
19 Brown
20 Slate
21 Violet Blue
22 Orange
23 Green
24 Brown
25 Slate

The wire pairs are referred to either directly by their color combination, or by the pair number. For example, pair 9 is also called the red-brown pair. In technical tabulations, the colors are often suitably abbreviated.

Violet is the standard name in the telecommunications and electronics industry, but it is sometimes referred to as purple. Similarly, slate is a particular shade of gray. The names of most of the colors were taken from the conventional colors of the rainbow or optical spectrum, and in the electronic color code, which uses the same ten colors, albeit in a different order.[citation needed]

When used for POTS, the first wire is known as the tip or A-leg (U.K.) conductor and is usually connected to the positive side of a direct current (DC) circuit, while the second wire is known as the ring lead or B-leg (U.K.), and is connected to the negative side of the circuit. Neither of these two sides of the line has a connection to the local ground. This creates a balanced audio circuit with common-mode rejection, also known as a differential pair. The tip and ring convention is based on the 14″ (6.5 mm) TRS phone connectors, which were employed in telephone switchboards in the 19th and 20th centuries, where the tip contact of the connector is separated from the ring contact by a spacer of insulation. The connection furthest from the cable is known as the tip, the middle connection is the ring, and the (largest) connection closest to the wire is the sleeve.

Older Bell System wiring inside customer premises used 4-conductor untwisted wire cable. The 4 conductors were solid red, green, yellow & black wires. They match to the current 25-color code as follows:

Wire green.svg
green ("Line 1" tip)
Wire white blue stripe.svg
white/blue
Wire red.svg
red ("Line 1" ring)
Wire blue white stripe.svg
blue/white
Wire black.svg
black ("Line 2" tip)
Wire white orange stripe.svg
white/orange
Wire yellow.svg
yellow ("Line 2" ring)
Wire orange white stripe.svg
orange/white

25-pair telco cable pinout

A common application of the 25-pair color code is the cabling for the Registered Jack interface RJ21, which uses a female 50-pin miniature ribbon connector, as shown in the following table. The geometry of the pins of the receptacle (right hand image) corresponds to the pin numbers of the table. The left column of pins are the ring (R) conductors, while all tip (T) conductors are on the right.

Color
(minor/major)
(R) (T) Color
(major/minor)
The corresponding
pin order in the
female RJ21 connector
Pin No.
Wire blue white stripe.svg
blue/white
1 26
Wire white blue stripe.svg
white/blue
RJ21-female-connector.jpg
Wire orange white stripe.svg
orange/white
2 27
Wire white orange stripe.svg
white/orange
Wire green white stripe.svg
green/white
3 28
Wire white green stripe.svg
white/green
Wire brown white stripe.svg
brown/white
4 29
Wire white brown stripe.svg
white/brown
Wire gray white stripe.svg
slate/white
5 30
Wire white gray stripe.svg
white/slate
Wire blue red stripe.svg
blue/red
6 31
Wire red blue stripe.svg
red/blue
Wire orange red stripe.svg
orange/red
7 32
Wire red orange stripe.svg
red/orange
Wire green red stripe.svg
green/red
8 33
Wire red green stripe.svg
red/green
Wire brown red stripe.svg
brown/red
9 34
Wire red brown stripe.svg
red/brown
Wire gray red stripe.svg
slate/red
10 35
Wire red gray stripe.svg
red/slate
Wire blue black stripe.svg
blue/black
11 36
Wire black blue stripe.svg
black/blue
Wire orange black stripe.svg
orange/black
12 37
Wire black orange stripe.svg
black/orange
Wire green black stripe.svg
green/black
13 38
Wire black green stripe.svg
black/green
Wire brown black stripe.svg
brown/black
14 39
Wire black brown stripe.svg
black/brown
Wire gray black stripe.svg
slate/black
15 40
Wire black gray stripe.svg
black/slate
Wire blue yellow stripe.svg
blue/yellow
16 41
Wire yellow blue stripe.svg
yellow/blue
Wire orange yellow stripe.svg
orange/yellow
17 42
Wire yellow orange stripe.svg
yellow/orange
Wire green yellow stripe.svg
green/yellow
18 43
Wire yellow green stripe.svg
yellow/green
Wire brown yellow stripe.svg
brown/yellow
19 44
Wire yellow brown stripe.svg
yellow/brown
Wire gray yellow stripe.svg
slate/yellow
20 45
Wire yellow gray stripe.svg
yellow/slate
Wire blue violet stripe.svg
blue/violet
21 46
Wire violet blue stripe.svg
violet/blue
Wire orange violet stripe.svg
orange/violet
22 47
Wire violet orange stripe.svg
violet/orange
Wire green violet stripe.svg
green/violet
23 48
Wire violet green stripe.svg
violet/green
Wire brown violet stripe.svg
brown/violet
24 49
Wire violet brown stripe.svg
violet/brown
Wire gray violet stripe.svg
slate/violet
25 50
Wire violet gray stripe.svg
violet/slate

Larger cables

For cables with more than 25 pairs, each group of 25 is called a binder group. The binder groups are marked with mylar ribbons using the same color coding system, starting with a white/blue ribbon, then a white/orange ribbon, and so on. The 24th binder group has a violet/brown ribbon, completing a super binder of 600 pairs.[3][4]

In cables of more than 600 pairs, each of the 600-pair binder group bundles is wrapped with a mylar binder ribbon, or string, matching the "tip" colors of the color code, starting with white. The pattern then starts over with the first 25-pair group as white/blue, and continues indefinitely, in multiples of 600 pairs or parts thereof. For example, a 900-pair cable has the first 600 pairs in 24 groups of 25 pairs in a white binder, and the remaining 300 pairs in 12 groups of 25 pairs wrapped in a red binder.[3][4]

Some cables are "mirrored" or "clocked" with a pattern that is known throughout the telephone industry. Starting with the first binder group in the center, the technician counts the cable's groups in a spiral direction depending on the location of the central office or switch. If looking at the cable's core and the switch is in that direction, the groups are counted counter-clockwise. If the cable is the field side, the count is clockwise. There are indicators on the mylar ribbons to know where to begin for each layer and a diagram for the different cable sizes should be readily available for reference.[3][4]

Other color schemes are sometimes used for outdoor cables, particularly outside the U.S., but this color code is common for aerial and underground cables up to several thousand pairs in North America. In the UK, the British Post Office (later BT) used this color code for what is now known loosely as CW1308 specification cables, referring to the Post Office's "Cable and Wire" specification No. 1308.

Extra pairs and colors

Colors of additional pairs in multi-pair cable as per Bell Standards
Colors of additional pairs in multi-pair cable as per Bell Standards

When working on aerial cable splicing and installation, it is common to use a telephone lineman's set or "Butt Set" to communicate over long distances. To facilitate this, extra pairs of wires are embedded in cables. One extra pair (Red-White) may be embedded into cables that are 6 to 75 pairs; two pairs (Red-White and Black-White) may be encapsulated in cables of 100 to 300 pairs; and three pairs (Red-White, Black-White, and Yellow-White) may be included in cables of 400 to 900 pairs.[4] These extra pairs are often referred to as 'talk pairs', and are never used to deliver dial tone.

Optical fiber cables use a twelve-color code, where the first ten are the same as in the 25-pair color code, and the last two are Rose and Aqua.[5]

Memorizing the colors

Various mnemonics have been used to remember the color coding of the major color groups and the minor color groups:

Why Run Backwards, You'll Vomit - White-Red-Black-Yellow-Violet[6]

Bell Operators Give Better Service - Blue-Orange-Green-Brown-Slate[7]

See also

References

  1. ^ AT&T, Bell System Practices, Section 461-200-101 Issue 7, Connector Cables—Identification (May 1979)
  2. ^ F.W. Horn, Even-Count Cable, Bell Laboratories Record 37(6), 208 (June 1959)
  3. ^ a b c d Highhouse, John (1997). A Guide for Telecommunications Cable Splicing. Cengage Learning. ISBN 9780827380660.
  4. ^ a b c d e American Telephone And Telegraph Company (February 1959). Even PIC Cables (PDF). Bell System Practices – Outside Plant Construction and Maintenance, Section G50.607.3 Issue 2.
  5. ^ Color for Fiber Optic Cables
  6. ^ Abruzzino, James: Communications Cabling (2E), page 187. CNC Press, 2000
  7. ^ http://www.kadiak.org/tel/color.htm https://www.berktek.us/eservice/US-en_US/fileLibrary/Download_540165025/US/files/CBMJuly08_Colors_ReelTime.pdf
This page was last edited on 30 September 2020, at 00:48
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