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FLEXIBLE CONTROL CABLE
UL AND CSAPVC InsulationPVC Jacket90°C 600V
APPLICATIONS:Continuous flex cable for robotics, pick and placeequipment, automated handling equipment, auto-mated handling equipment, machine tools, convey-or systems or any other application where there iscontinuous flexing. Cable is resistant to mineraloils, synthetic oils and water based coolants.Available in 20 AWG to 14 AWG in most conductorcounts. Larger sizes also available.
SPECIFICATIONS:1. CONDUCTORS: Extra fine stranded bare copper conductors.2. INSULATION: PVC. Has a green ground with a yellow stripe.3. JACKET: PVC. PUR jacket optional as UL style 20234 rated 80°C.4. TEMPERATURE: Flexing: -5°C to 90°C
Static: -40°C to 90°C5. RATED VOLTAGE: 600V6. FLEX LIFE: Typically in excess of 1 million cycles.7. BENDING RADIUS: 10X cable diameter.8. STANDARDS: UL AWM Style 2587, CSA AWM I A/B, II A/B
Anixter Conductor Size Number of Nominal No. of Nom O.D. Approx. Wt.Number AWG Conductors Strands/AWG IN (Lbs. per 1000 Ft.)
2RF-2002 20 2 66/38 .284 65
2RF-2003 20 6 66/38 .260 79
2RF-2004 20 4 66/38 .280 92
2RF-2005 20 5 66/38 .295 108
2RF-2007 20 7 66/38 .343 137
2RF-2012 20 12 66/38 .402 214
2RF-2018 20 18 66/38 .480 293
2RF-1802 18 2 105/38 .264 70
2RF-1803 18 3 105/38 .276 91
2RF-1804 18 4 105/38 .295 112
2RF-1805 18 5 105/38 .311 118
2RF-1807 18 7 105/38 .311 185
2RF-1809 18 9 105/38 .370 219
Note: Weights, O.D. and stranding varies by manufacturerJacket color may vary by manufacturerManufacturer denoted by suffixShielded version also available
APPLICATIONS:Designed for use in the machine tool industry, inrobotics and machine production or anywhere highflexibility is essential. Also appropriate for dragchain applications.
SPECIFICATIONS:1. CONDUCTORS: Extra fine stranded bare copper conductors.2. INSULATION: PVC, numbered for identification. Has a green ground with a yellow stripe.3. JACKET: PVC, available in grey or orange. PUR jacket optional.4. TEMPERATURE: Flexing: -5°C to 80°C
Static: -40°C to 80°C5. RATED VOLTAGE: 300/500V6. FLEX LIFE: Typically in excess of 1 million cycles.7. BENDING RADIUS: 10X cable diameter. 15X cable diameter for shielded.
Anixter Conductor Size Number of Nominal No. of Nom O.D. Approx. Wt.Number AWG Conductors Strands/AWG IN (Lbs./1000 Ft.)
2FD-2002 20 2 28/34 .248 31
2FD-2003 20 3 28/34 .260 38
2FD-2004 20 4 28/34 .280 47
2FD-2005 20 5 28/34 .295 62
2FD-2007 20 7 28/34 .342 108
2FD-2012 20 12 28/34 .402 119
2FD-2018 20 18 28/34 .480 190
2FD-2025 20 25 28/34 .567 243
2FD-2034 20 34 28/34 .650 327
2FD-1802 18 2 42/34 .264 39
2FD-1803 18 3 42/34 .276 49
2FD-1804 18 4 42/34 .062 52
2FD-1805 18 5 42/34 .311 80
2FD-1807 18 7 42/34 .370 111
2FD-1812 18 12 42/34 .453 166
2FD-1816 18 16 42/34 .488 215
2FD-1818 18 18 42/34 520 239
2FD-1825 18 25 42/34 .650 166Note: Weight, O.D. and stranding varies by manufacturer. Shielded version also available
OIL RESISTANT FLEXIBLE CONTROL CABLEPVC InsulationPVC Jacket600V UL/CSA
APPLICATIONS:
Designed for use in all electrical equipment in dry,damp and wet conditions. Recommended applica-tions are machine tools, assembly lines, controlsystems, data processing equipment, machinecenters, grinding machine, and bottling equipment.
SPECIFICATIONS:
1. CONDUCTORS: Finely stranded bare copper conductors.2. INSULATION:PVC, numbered for identification. Has a green ground with a yellow stripe.3. JACKET: Grey PVC.4. TEMPERATURE: Flexing: -5°C to 90°C
Static: -40°C to 90°C5. RATED VOLTAGE: 600V6. BENDING RADIUS: 15X cable diameter.7. STANDARDS: UL AWM
CSA AWM II A/B
Anixter Conductor Size Number of Nominal No. of Nom O.D. Approx. Wt.Number AWG Conductors Strands/AWG IN (Lbs./1000 Ft.)
2FL-2002 20 2 12/30 .228 39
2FL-2003 20 3 12/30 .240 38
2FL-2004 20 4 12/30 .260 44
2FL-2005 20 5 12/30 .287 50
2FL-2007 20 7 12/30 .311 66
2FL-2009 20 9 12/30 .409 91
2FL-2012 20 12 12/30 .421 114
2FL-2018 20 18 12/30 .508 158
2FL-1802 18 2 19/30 .244 42
2FL-1803 18 3 19/30 .260 75
2FL-1804 18 4 19/30 .283 94
2FL-1805 18 5 19/30 .303 109
2FL-1807 18 7 19/30 .335 145
2FL-1809 18 9 19/30 .441 199
2FL-1812 18 12 19/30 .457 244
Note: Weights, O.D. and stranding varies by manufacturer. Shielded version also available
Anixter Conductor Size Number of Nominal No. of Nom O.D. Approx. Wt.Number AWG Conductors Strands/AWG IN (Lbs./1000 Ft.)
2FL-1825 18 18 19/30 .547 248
2FL-1602 16 2 30/30 .629 486
2FL-1603 16 3 30/30 .272 57
2FL-1604 16 4 30/30 .287 64
2FL-1605 16 5 30/30 .311 78
2FL-1607 16 7 30/30 .346 133
2FL-1609 16 9 30/30 .378 180
2FL-1612 16 12 30/30 .512 214
2FL-1618 16 18 30/30 .528 309
2FL-1402 14 2 50/30 .618 424
2FL-1403 14 3 50/30 .323 87
2FL-1404 14 4 50/30 .343 93
2FL-1405 14 5 50/30 .398 124
2FL-1407 14 7 50/30 .429 146
2FL-1409 14 9 50/30 .614 202
2FL-1412 14 12 50/30 .661 268
2FL-1418 14 18 50/30 .768 480
2FL-1425 14 25 50/30 .945 677
Note: Weights, O.D. and stranding varies by manufacturer. Shielded version also available
FLEXIBLE CONTROL CABLE
9004S07A.QXD 6/9/99 1:45 PM Page 6
FLEXIBLE CONTROL CABLE
UL/CSA/VDE/SEVPVC InsulationPVC Jacket90C 600V
APPLICATIONS:Flexible control cable with international approvalsallowing cable to be used on machinery, equip-ment etc. designed for use in the U.S. as well asaround the world. For use in electronic, communi-cations, process control and instrumentation.Extremely resistant to oil. Excellent for industrialapplications.
SPECIFICATIONS:1. CONDUCTORS: VDE 0295, Class 52. INSULATION: PVC. Has a green ground with a yellow stripe.3. JACKET: Grey PVC4. TEMPERATURE: UL/CSA -5°C to 90°C
VDE/SEV -5°C to 70°C5. RATED VOLTAGE: UL/CSA 600V
VDE/SEV 300/500V6. BENDING RADIUS: 10X cable diameter.7. STANDARDS: UL AWM
CSA AWM II A/B FT1
Anixter Conductor Size Number of Nominal No. of Nom O.D. Approx. Wt.Number AWG Conductors Strands/AWG IN (Lbs./1000 Ft.)
2FM-2003 20 3 16/32 0.244 42
2FM-2004 20 4 16/32 0.272 46
2FM-2005 20 5 16/32 0.291 48
2FM-2007 20 7 16/32 0.358 80
2FM-2012 20 12 16/32 0.445 133
2FM-2018 20 18 16/32 0.520 180
2FM-2025 20 25 16/32 0.591 256
2FM-1803 18 3 32/32 0.283 60
2FM-1804 18 4 32/32 0.354 67
2FM-1805 18 5 32/32 0.354 89
2FM-1807 18 7 32/32 0.437 114
2FM-1812 18 12 32/32 0.512 192
2FM-1825 18 25 32/32 0.748 383
2FM-1603 18 3 30/30 0.276 74
2FM-1604 18 4 30/30 0.354 95
Note: Weights, O.D. and stranding vary by manufacturer. Shielded version also available
SPECIFICATIONS:1. CONDUCTORS: Class B stranded tinned copper per ASTM B-3, B-8 and B-33.2. INSULATION: Ethylene propylene rubber (EPR) per ICEA S-73-532 (NEMA WC57).
Meets UL 44 requirements for VW-1, Type XHHW-2 conductors.3. COLOR CODE: Conductors shall be color coded per ICEA Method 1, Table E-2 (formerly K-2).4. ASSEMBLY: Conductors are cabled with fillers where necessary to make round. Two
conductor cables are flat.5. OVERALL JACKET: Sunlight resistant chlorinated polyethylene (CPE) per UL 1277.6. STANDARDS: Tested per UL requirements for Type TC cables having VW-1, XHHW-2
conductors. Cables are listed for direct burial and meet the IEEE 1202, UL 1277 and ICEA 210,000 BTU flame tests.
7. AMPACITY: Based on not more than three conductors in raceway or cable or earth with anambient temperature of 30˚C per NEC 310-16. The values have been derated where applicable.
NOTE: For Method 1, Table E-1 color code add -1 to Anixter No. (e.g. 2MR-1407-1).Diameters and weights may vary between manufacturers.Other conductor counts available upon request.† Unless otherwise specifically permitted in the NEC, the overcurrent protection shall not exceed 15A for 14 AWG, 20A
APPLICATIONS:Designed for power and control, telemetering,relay control, traffic control, switching, lightingand signal transmission. May be used inClass 1, Div. 2 Hazardous Locations per
NEC Art. 501. These cables also conform to Art. 318 “Cable Trays” and Art. 340 “Power and Control Tray Cable.”
NOTE: For Method 1, Table E-1 color code add -1 to Anixter No. (e.g. 2MR-1407-1).Diameters and weights may vary between manufacturers.Other conductor counts available upon request.† Unless otherwise specifically permitted in the NEC, the overcurrent protection shall not exceed 15A for 14 AWG, 20A
SPECIFICATIONS:1. CONDUCTORS: Class B stranded bare copper per UL 83 and 62.2. INSULATION: Polyvinyl chloride (PVC) per UL 62 for Type TFFN (18–16 AWG) or UL 83
for Type THWN or THHN wire. Average thickness is 15 mils for sizes 18–12 AWG and 20 mils for 10 AWG.
3. INSULATION JACKET: Each insulated conductor is jacketed with nylon meeting UL 62 for Type TFFN or UL 83 for Type THWN or THHN wire. Minimum thickness is 4 mils.
4. COLOR CODE: ICEA Method 1, Table E-2.5. ASSEMBLY: Conductors are cabled with fillers where necessary to make round. Two
conductor cables are flat.6. OVERALL JACKET: Sunlight resistant polyvinyl chloride (PVC) per UL 1277.7. STANDARDS: Tested per UL requirements for Type TC cables having THWN or THHN
(TFFN) conductors. Cables are listed for direct burial and meet the IEEE 1202, UL 1277 and ICEA 210,000 BTU flame tests.
8. AMPACITY: Based on not more than three conductors in raceway or cable or earth with an ambient temperature of 30˚C per NEC 310-16. The values have been derated where applicable.
NOTE: For method 4 color code add -4 to Anixter No. (e.g. 2A-1203-4).Diameters and weights may vary between manufacturers.Other conductor counts available upon request.
APPLICATIONS:Designed for power & control, telemetering, relay control, traffic control, switching, lighting and signal transmission. May be used in Class 1, Div. 2 Hazardous Locations per
NEC Art. 501. These cables also conformto Art. 318 “Cable Trays” and Art 340 “Power and Control Tray Cable.”
NOTE: For method 4 color code add -4 to Anixter No. (e.g. 2A-1203-4).Diameters and weights may vary between manufacturers.Other conductor counts available upon request.Composite power and control available upon request.† Unless otherwise specifically permitted in the NEC, the overcurrent protection shall not exceed 15A for 14 AWG, 20A
NOTE: For method 4 color code add -4 to Anixter No. (e.g. 2A-1203-4).Diameters and weights may vary between manufacturers.Other conductor counts available upon request.Composite power and control available upon request.† Unless otherwise specifically permitted in the NEC, the overcurrent protection shall not exceed 15A for 14 AWG, 20A
SPECIFICATIONS:1. CONDUCTORS: Class B stranded bare copper per UL 83 and 62.2. INSULATION: Polyvinyl chloride (PVC) per UL 62 for Type TFFN (16 AWG) or UL 83 for
Type THWN or THHN wire. Average thickness is 15 mils.3. INSULATION JACKET: Each insulated conductor is jacketed with nylon meeting UL 62
for Type TFFN or UL 83 for Type THWN or THHN wire. Minimum thickness is 4 mils.4. COLOR CODE: ICEA Method 1, Table K-2.5. ASSEMBLY: Conductors are cabled with fillers where necessary to make round.6. SHIELD: Aluminum/mylar helically applied with tinned copper drain wire.7. OVERALL JACKET: Sunlight resistant polyvinyl chloride (PVC) per UL 1277.8. STANDARDS: Tested per UL requirements for Type TC cables having THWN or THHN
(TFFN) conductors. Cables are listed for direct burial and meet the IEEE 1202, UL 1277and ICEA 210,000 BTU flame tests.
9. AMPACITY: Based on not more than three conductors in raceway or cable or earth with anambient temperature of 30˚C per NEC 310-16. The values have been derated where applicable.
NOTE: Diameters and weights may vary between manufacturers. Other conductor counts available upon request.†Unless otherwise specifically permitted in the NEC, the overcurrent protection shall not exceed 15A for 14 AWG and
APPLICATIONS:Designed for power and control, telemetering,relay control, traffic control, switching, lightingand signal transmission. May be used inClass 1, Div. 2 Hazardous Locations per
NEC Art. 501. These cables also conform to Art. 318-3 “Cable Trays” and Art. 340 “Power and Control Tray Cable.”
APPLICATIONS:Used as tray cable where extra flexibility and confined space requirements are involved in the installation.
SPECIFICATIONS:1. CONDUCTORS: Bare, annealed copper per ASTM B-3. Class C stranded per ASTM B-8.2. INSULATION: Polyvinyl chloride (PVC) with .004˝ extruded nylon overall.3. COLOR CODE: ICEA Method 1, Table E-2 (formerly K-2).4. ASSEMBLY: Insulated conductors are cabled with fillers where necessary to make
round. A binder tape is applied overall.5. OVERALL JACKET: Polychloroprene (Neoprene).6. STANDARDS: Individual conductors meet the UL requirements for Type TFFN (18–16 AWG)
or Type THHN/THWN (14–12 AWG). Cables meet the UL 70,000 BTU and the ICEA T-29-520210,000 BTU flame tests. Finished cable meets the UL requirements for Type TC cable.
7. AMPACITY: Based on not more than three conductors in raceway or cable or earth with anambient temperature of 30˚C per NEC 310-16. The values have been derated where applicable.
8. TEMPERATURE: 90˚C9. VOLTAGE: 600 Volts
OverallConductor
Number NumberInsulation Jacket Nominal
Approximate AmpsAnixter
Sizeof of
Thickness Thickness O.D.Weight Lbs. Per
Number AWG Strands Conductors IN IN IN 1000 Ft. Conductor
NOTE: Diameters and weights may vary between manufacturers. Other conductor counts available upon request.† Unless otherwise specifically permitted in the NEC, the overcurrent protection shall not exceed 15A for 14 AWG and
APPLICATIONS:Designed for power and control, telemetering, relaycontrol, traffic control, switching, lighting and signaltransmission. May be used in Class 1, Div. 2 HazardousLocations per NEC Art. 501. These cables also conform to Art. 318-3 “Cable Trays” and Art. 340 “Power and Control Tray Cable.”
SPECIFICATIONS:1. CONDUCTORS: Class B stranded bare copper per ASTM B-3 and B-8.2. INSULATION: Cross-linked polyethylene (XLP) per ICEA S-73-532 (NEMA WC57).
Meets UL 44 requirements for VW-1, Type XHHW-2 conductors.3. COLOR CODE: Conductors shall be color coded per ICEA Method 1, Table K-2.4. ASSEMBLY: Conductors are cabled with fillers where necessary to make round. Two
conductor cables are flat.5. OVERALL JACKET: Sunlight resistant polyvinyl chloride (PVC) per UL 1277.6. STANDARDS: Tested per UL requirements for Type TC cables having XHHW-2
conductors. Cables are listed for direct burial and meet the IEEE 1202, UL 1277 and ICEA 210,000 BTU flame tests.
7. AMPACITY: Based on not more than three conductors in raceway or cable or earth with an ambient temperature of 30˚C per NEC 310-16. The values have been derated per Note 8.
NOTE: Diameters and weights may vary between manufacturers.Other conductor counts available upon request.†Unless otherwise specifically permitted in the NEC, the overcurrent protection shall not exceed 15A for 14 AWG, 20A
NOTE: Diameters and weights may vary between manufacturers.Other conductor counts available upon request.†Unless otherwise specifically permitted in the NEC, the overcurrent protection shall not exceed 15A for 14 AWG, 20A
APPLICATIONS:Designed for power and control, telemetering, relay control, traffic control, switching, lighting and signal transmission. May be used in Class 1, Div. 2 HazardousLocations per NEC Art. 501. These cables also conform to Art. 318 “Cable Trays” and Art. 340 “Power and Control Tray Cable.”
SPECIFICATIONS:1. CONDUCTORS: Class B stranded tinned copper per ASTM B-3, B-8 and B-33.2. INSULATION: Cross-linked polyethylene (XLP) per ICEA S-73-532 (NEMA WC57).
Meets UL 44 requirements for VW-1, Type XHHW-2 conductors.
3. COLOR CODE: Conductors shall be color coded per ICEA Method 1, Table E-2.4. ASSEMBLY: Conductors are cabled with fillers where necessary to make round. Two
conductor cables are flat.5. OVERALL JACKET: Sunlight resistant Hypalon (CSPE) per UL 1277.6. STANDARDS: Tested per UL requirements for Type TC cables having VW-1, XHHW-2
conductors. Cables may be used for direct burial and meet the IEEE 1202, UL 1277 and ICEA 210,000 BTU flame tests.
7. AMPACITY: Based on not more than three conductors in raceway or cable or earth with anambient temperature of 30˚C per NEC 310-16. The values have been derated where applicable.
NOTE: For Method 1, Table E-1 color code add -1 to Anixter No. (e.g. 2RH-1209-1).Diameters and weights may vary between manufacturers.Other conductor counts available upon request.† Unless otherwise specifically permitted in the NEC, the overcurrent protection shall not exceed 15A for 14 AWG,
NOTE: For Method 1, Table E-1 color code add -1 to Anixter No. (e.g. 2RH-1209-1).Diameters and weights may vary between manufacturers.Other conductor counts available upon request.† Unless otherwise specifically permitted in the NEC, the overcurrent protection shall not exceed 15A for 14 AWG, 20A
APPLICATIONS:For use in control circuits for utility substations, andvarious operating, relaying, telemetering, indicating,signalling and measuring circuits for industrial plantsand processes. Suitable for use in duct, conduit andaerially.
SPECIFICATIONS:1. CONDUCTORS: Bare soft annealed copper, per requirements of ASTM B-3. Conductors
are Class B concentric strand in accordance with ASTM B-8.2. INSULATION: 20 mils of high-molecular-weight polyethylene (HMWPE), covered with
10 mils of color-coded polyvinyl chloride (PVC).3. COLOR CODE: Conductors shall be color coded as per ICEA Method 1, Table E-1.4. ASSEMBLY: Insulated conductors are cabled with fillers as necessary. The two-conductor
constructions are flat, all others round.5. OVERALL JACKET: Polyvinyl chloride (PVC) compound, meeting the requirements of ICEA.6. STANDARDS: Finished cable meets ICEA S-73-532 (NEMA WC57) requirements.7. TEMPERATURE: 75˚C8. VOLTAGE: 600 Volts
SCOPEThis appendix contains recommendations for con-ductor identification of conductors in control cables ifsuch identification is used.
NATIONAL ELECTRIC CODE APPLICATIONS– TheNational Electric Code specifies that conductors col-ored white be used only as grounded conductors andthat conductors colored green or green/yellow beused only as grounding conductors and that neither white nor green be used in any manner onungrounded conductors. Tables E-2 and E-4 providecolor sequences which do not include white or greenconductors. If grounded and/or grounding conductorsare used in the cable, that shall be colored white orgreen,respectively, and inserted as the second and/orthird designated conductor in the first sequence of circuit identification only. Where these conductors arerequired, they should be specified.
METHODS OF CONDUCTOR IDENTIFICATION
Method 1 – Colored Compoundswith TracersThis method uses base colors with tracers in accordance with Table E-1 or E-2. These color combinations should be repeated in regular sequenceas necessary.Base and tracer colors should be recognizably thecolor combinations given in the tables and shouldapproximately, but not necessarily exactly, match thecolor shades given in Table E-6.Base colors may be obtained by suitable color coatings applied to the insulation or jacket surface or by colored insulation or jacket compound.Tracers should be colored stripes or bands marked on the surface of the insulation or jacket in such amanner as to afford distinctive coding throughout thelength. Tracers may be continuous or broken lines,such as a series of dots or dashes, and should beapplied longitudinally, annularly, spirally or in otherdistinctive patterns.
Method 2 – Neutral Colored Compoundswith TracersThis method uses a neutral background or basecolor, such as tan, on all conductors, with tracers asdefined in Method 1 and in accordance with Table E-3 or E-4. These color combinations should berepeated in regular sequence as necessary.
Method 3 – Neutral or Single-Color Compounds withSurface Printing of Numbers and Color DesignationsThis method uses a single-color insulation or cover-ing on all conductors with printed conductor numbersand color designations in accordance with Table E-1or E-2. These color combinations should be repeatedin regular sequence as necessary.For example, using Table E-2, for conductors 1 to 3,inclusive1-Black 1-Black 1-Black2-Red 2-Red 2-Red3-Blue 3-Blue 3-Blue
Method 4 – Neutral or Single-Color Compoundswith Surface Printing of NumbersThis method uses a single color installation or cover-ing on all conductors with each conductor numberedin sequence by surface printing, beginning with thenumber 1.
Method 5 – Individual Color Coding with BraidsThis method uses colored braids over the insulatedconductors in accordance with Table E-2 or E-5.The tracers should consist of three carriers with eachcarrier composed of a minimum of two ends. Wheretwo tracers are used, they should be crossed.
Method 6 – Layer IdentificationThis method uses a distinctively identified conductorin each layer.
Method 7 – Paired ConductorsOne conductor of each pair should be coded “white”or “black” and the other conductors should be codedin accordance with the sequence given in Table E-2 or E-5, omitting white or black, respectively. Thiscolor sequence should be repeated as necessary.
Background BackgroundConductor or Tracer Conductor or Tracer
Number Base Color Color Number Base Color Color
1 Black ... 11 Blue Black2 White ... 12 Black White3 Red ... 13 Red White4 Green ... 14 Green White5 Orange ... 15 Blue White6 Blue ... 16 Black Red7 White Black 17 White Red8 Red Black 18 Orange Red9 Green Black 19 Blue Red
10 Orange Black 20 Red Green21 Orange Green
Table E-2 (formerly K-2)COLOR SEQUENCE
Background BackgroundConductor or Tracer Conductor or Tracer
Number Base Color Color Number Base Color Color
1 Black ... 19 Orange Blue2 Red ... 20 Yellow Blue3 Blue ... 21 Brown Blue4 Orange ... 22 Black Orange5 Yellow ... 23 Red Orange6 Brown ... 24 Blue Orange7 Red Black 25 Yellow Orange8 Blue Black 26 Brown Orange9 Orange Black 27 Black Yellow
10 Yellow Black 28 Red Yellow11 Brown Black 29 Blue Yellow12 Black Red 30 Orange Yellow13 Blue Red 31 Brown Yellow14 Orange Red 32 Black Brown15 Yellow Red 33 Red Brown16 Brown Red 34 Blue Brown17 Black Blue 35 Orange Brown18 Red Blue 36 Yellow Brown
COLOR CODES
9004S07C.QXD 6/8/99 12:37 PM Page 24
CONDUCTOR IDENTIFICATIONFOR CONTROL CABLES
Table E-3 (formerly K-3)COLOR SEQUENCE
First Tracer Second Tracer First Tracer Second TracerConductor Color (e.g., Color (e.g., Conductor Color (e.g., Color (e.g.,
Number Wide Tracer) Narrow Tracer) Number Wide Tracer) Narrow Tracer)
1 Black ... 11 Blue Black2 White ... 12 Black White3 Red ... 13 Red White4 Green ... 14 Green White5 Orange ... 15 Blue White6 Blue ... 16 Black Red7 White Black 17 White Red8 Red Black 18 Orange Red9 Green Black 19 Blue Red
10 Orange Black 20 Red Green21 Orange Green
Table E-4 (formerly K-4)COLOR SEQUENCE
First Tracer Second Tracer First Tracer Second TracerConductor Color (e.g., Color (e.g., Conductor Color (e.g., Color (e.g.,
Number Wide Tracer) Narrow Tracer) Number Wide Tracer) Narrow Tracer)
1 Black ... 19 Orange Blue2 Red ... 20 Yellow Blue3 Blue ... 21 Brown Blue4 Orange ... 22 Black Orange5 Yellow ... 23 Red Orange6 Brown ... 24 Blue Orange7 Red Black 25 Yellow Orange8 Blue Black 26 Brown Orange9 Orange Black 27 Black Yellow
10 Yellow Black 28 Red Yellow11 Brown Black 29 Blue Yellow12 Black Red 30 Orange Yellow13 Blue Red 31 Brown Yellow14 Orange Red 32 Black Brown15 Yellow Red 33 Red Brown16 Brown Red 34 Blue Brown17 Black Blue 35 Orange Brown18 Red Blue 36 Yellow Brown
Background First Second Background First SecondConductor or Tracer Tracer Conductor or Tracer Tracer
Number Base Color Color Color Number Base Color Color Color
1 Black ... ... 20 Red Green ...2 White ... ... 21 Orange Green ...3 Red ... ... 22 Black White Red4 Green ... ... 23 White Black Red5 Orange ... ... 24 Red Black White6 Blue ... ... 25 Green Black White7 White Black ... 26 Orange Black White8 Red Black ... 27 Blue Black White9 Green Black ... 28 Black Red Green
10 Orange Black ... 29 White Red Green11 Blue Black ... 30 Red Black Green12 Black White ... 31 Green Black Orange13 Red White ... 32 Orange Black Green14 Green White ... 33 Blue White Orange15 Blue White ... 34 Black White Orange16 Black Red ... 35 White Red Orange17 White Red ... 36 Orange White Blue18 Orange Red ... 37 White Red Blue19 Blue Red ...