ML20207D294
| ML20207D294 | |
| Person / Time | |
|---|---|
| Site: | Sequoyah  |
| Issue date: | 11/07/1986 |
| From: | Baumann J, Chitwood E, Shea T TENNESSEE VALLEY AUTHORITY |
| To: | |
| Shared Package | |
| ML20207D213 | List: |
| References | |
| DS-E12.6.3, NUDOCS 8612300368 | |
| Download: ML20207D294 (51) | |
Text
MA Record'
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- M B05 '861107 5 00 GROUP: CABLE TITLE: Ampacity Tables for Auxiliary and Control ELECTRICAL DESIGN Power Cables (0-15,000V)
STANDARD DS-E12.6.3 mpD JRBaumann hl/h ORIG ISSUE:
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1.0 GENERAL s..
This standardi is applicable to all TVA nuclear plants for use in sizing insulated auxiliary and control power cables.
It is being issued for the l1 purpose of providing a consolidated source of information that can be used by project engineering personnel for sizing cable, taking into consideration cable ampacities and the applicable decating factors that affect cable size. Other factors, such as voltage drop and fault current, must also be considered in cable sizing, but are intentionally not covered in this design standard.
Conductor sizing, in general, shall be accomplished by applying the appropriate multiplying factor to the indicated load current for the i
specified load type as shown in Table 8.
For load types not listed in Table 8, consult the cable specialist.
Ampacity ratings in this design standard are based on Insulated Cabla Engineers Association (ICEA) and NEC ampacities and:
(a) a load factor of 100 percent which is defined as continuous loading for a period of 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> or longer; (b) maximum copper conductor temperatures of 75'C, 90*C, 125*C, and 200*C with an ambient temperature of 40*C; (c) 60-Hz ac; (d) skin effect which was included only for cables in random-filled tray while skin and proximity effects were taken into account for cables installed in conduit and in tray with maintained spacing.
ICEA ampacities for power cables in randomly filled cable tray with no spacing as given in ICEA Standard P-54-440 cover depths of tray fill of 1.0, 1.5, 2.0, 2.5, and 3.0 inches.
Interpolation of these ampacitiec was used to obtain ampacities corresponding to the various percent fills and depth of cable in random-filled V3, V4, and V5-level cable trays.
The ampacity ratings and correction factors provided in this standard are for application to copper conductors only. For other conductor materials, consult the cable specialist.
Power cables in general are defined as those designed to distribute primary power to equipment as oppposed to those for control operation.
Control power cables are those cables routed in a V3-level raceway whose 1
load current for the particular conductor size could produce sufficient heat to warrant consideration.
As V3-level cables are, by definition, limited to less than 30 amperes, this consideration is restricted to conductor size No. 8 AWG and smaller.
The following has been established as the basis for defining control power cables:
1.
This design standard supersedes DS-E12.1.lR0 dated September 28, 1976; DS-E12.1.2RO dated September 28, 1976; DS-E12.1.3R0 dated March 21, 1977; and DS-E12.1.4R0 dated June 27, 1977.
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GROUP: CABLE TITLE: Ampacity Tables for Auxiliary and Control ELECTRICAL DESIGN Power Cables (0-15,000V)
STANDARD DS-E12.6.3 No. 14 AWG conductor (s) installed in a V3-level raceway in a maximum ambient air temperature of 40*C is a control power cable if the load current exceeds 6 amperes.
No. 12 AWG conductor (s) installed in a V3-level raceway in a maximum ambient air temperature of 40*C is a control power cable if the load current exceeds 8 amperes.
No. 10 AWC conductor (s) installed in a V3-level raceway in a maximum ambient air temperature of 40*C is a control power cable if the load current exceeds 12 amperes.
No. 8 AWG conductor (s) installed in a V3-level raceway in a maximum ambient air temperature of 40*C is a control power cable if the load current exceeds 22 amperes.
EXCEPTION: Nos. 14 AWG, 12 AWG, and 10 AWG conductor (s) installed in i
a V3-level raceway in a maximum ambient air temperature of 40*C whose load current does not exceed 15 amperes tnd whose load operation does not exceed a total of 20 minutes in any 5-hour interval are not considered control power cables.
(Ambient air temperature correction method for other than 40*C is addressed in section 2.0 of this document.)
Cables which meet the exception or whose load currents are below those indicated above do not warrant further ampacity consideration and are not considered control power cables. Those cables which exceed these limita-tions must have the specific allowable ampacity of the cable verified for adequacy for the load current and installation configuration.
The following voltage level definitions apply as used in this standard:
V3 - Auxiliary and control ac and de power cables operating at a voltage of up to 277V and a carrent of less than 30 amperes.
V4 - Auxiliary ac and de power cables operating at a vol: age up to 600V.
This includes cables of 277V or less with a rated l.oad current of 30 amperes or greater.
V5 - Medium voltage auxiliary power cables with a nominal rateo voltage of 5, 8 or 15 kV.
When cables are routed in different raceway types (i.e., conduit snd tray), the cable size for ampacity shall be based on the most limiting raceway condition.
When sizing a V3-or V4-level cable, consideration must be given to the insulation temperature ratings of the existing cables in the raceways in which the new cable is proposed to be routed.
As discussed in Gener.11 3
Notes 4, 5, and 7, if auxiliary or control power cables of differtat
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GROUP: CABLE TITLE: Ampacity Tables for Auxiliary and Control Power Cables (0-15,000V)
ELECTRICAL DESIGN STANDARD DS-E12.6.3 insulation temperature ratings are routed in the same raceway, the ampacities of all the cables shall be derated to the lowest of the insulation temperature ratings.
Therefore, when routing cables in V3-or V4-level raceways, the insulation temperature ratings of the installed cables shall be checked.
If cables with insulation temperature ratings lower than that of the new cable exist, the allowable anpacity of the new cable shall be derated to the lowest of the existing cables.
If all of 1
the existing ratings exceed that of the new cable, the adequacy of the installed cables' allowable ampacity at the insulation temperature rating of the new cable shall be verified.
If any unacceptable discrepancies are found, the size or insulation rating of the new cable may be changed or an alternate route selected.
The safety classifications listed for the cable mark numbers in Tables 1, 2, and 3 are for reference purposes only and are not to be considered as a source of such information.
2.0 CORRECTION FACTORS FOR AMBIENT TEMPERATURES OTHER THAN 40*C Determination of ambient temperatures shall be based upon the maximum normal ambient temperature shown on the plant environmental drawi'ngs.
All 1
ampacities on the attached tables are for a 40*C ambient temperature.
Whe'n cable is to be installed in other than a 40*C ambient air temperature, correction factors are calculated based on the following formula taken from ICEA Standard P-46-426, Page III:
I' = I Tc' - Ta' - Delta TD' x 234.5 + Tc Tc - Ta - Delta TD 234.5 + Tc' Where:
I'
= Desired new ampacity (in amperes)
I
= Original ampacity (in amperes) at conductor temperature Tc and ambient temperature Ta Ta = Original ambient temperature (*C)
Tc = Original conductor temperature (*C)
Ta' = New ambient temperature (*C)
Tc' = New conductor temperature (*C)
Delta TD = Dielectric loss temperature rise Delta TD' = Dielectric loss temperature rise (power factor correction)
Ambient temperature correction factors based on 75*C conductor insulation temperature rating for:
20*C 1.254 x table value 40*C 1.000 x table value 25'C 1.195 x table value 50*C 0.845 x table value 30*C 1.134 x table value 60*C 0.655 x table value 1
35*C 1.069 x table value 65'C 0.535 x table value --
GROUP: CABLE TITLE: Ampac!ty Tables for Auxiliary and C'ontrol Power Cables (0-15,000V)
ELECTRICAL DESIGN STANDARD DS-E12.6.3 Ambient temperature correction factors based on 90*C conductor insulation temperature rating for:
20*C 1.183 x table value 40*C 1.000 x table value 25*C 1.140 x table value 50*C 0.894 x table value 30*C 1.095 x table value 60*C 0.775 x table value 1
35'C 1.049 x table value 65*C 0.707 x table value Ambient temperature correction factors based on 125*C conductor insulation temperature rating for:
20*C 1.111 x table value 50*C 0.939 x table value 25'C 1.085 x table value 60*C 0.874 x table value 30*C 1.057 x table value 65'C 0.840 x table value 1
35*C 1.029 x table value 70*C 0.804 x table value 40*C 1.000 x table value 75'C 0.767 x table value Ambient temperature correction factors based on 200*C conductor insulation temperature rating for:
20*C 1.061 x table value 50*C 0.968 x table value 25*C 1.046 x table value 60*C 0.935 x table value 30*C 1.031 x table value 65'C 0.919 x table value 1
35'C 1.016 x table value 70*C 0.901 x table value 40*C 1.000 x table value 75*C 0.884 x table value The lead electrical engineer on each project shall prepare and issue a listing of areas and the associated ambient air temperature to be used in cable sizing. A copy of this listing shall be provided to the Chief Electrical Engineer.
3.0 AMPACITY FOR POWER CABLE IN CONDUIT Cable ampacity and derating factors for cables in conduit are based on ICEA P-46-426, 1962 edition, and the latest edition of the National Electrical Code.
See General Note 7 of Attachment 1 for installation guidelines and restrictions.
The ampacities of cables in conduit given in Tables 1 and 3 of Attach-ment 1 of this standard are based on exposed conduit or conduit embedded in walls or floor (not duct banks). Ampacities for V4-and V5-level conduits are based on one circuit with no more than three current-carrying conductors in the conduit.
If a fourth conductor is in the circuit, refer to NEC Article 310, Note 10 to Tables 310-16 through 310-31 to determine I
if this conductor is to be considered as current carrying. The follcwing table provides adjustment factors fcr more than three current-carrying conductors in a V4-or V5-level conduit.
This derating is not applicable to V3-level conduits due to their inherent diversity. _ - _ _.. - _.
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i GROUP: CABLE TITLE: A.tpacity Tables for Auxiliary and Control ELEC'IRICAL DESIGN Power Cables (0-15,000V)
STANDARDDS-E12.6.3j t
l The 1987 NEC provides the following ampacity values for Nos. 14 AVG, 12 AVG, and 10 AWG cable sizes in conduit:
NECL NECF NECL NECp NEC Table (75'C)
(75'C)
(90*C)
(90*C)
No.
1/C No. 14 15 17 15 22 310-16 3/C No. 14 15 15 15 19 310-22 1/C No. 12 20 22 20 27 310-16 3/C No. 12 20 21 20 2a 310-22 1/C No. 10 30 30 30 36 310-16 3/C No. 10 30 29 30 32 310-22 1
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~NECL is NEC limited shpacity based on overcurrent protection per footnote in Tables 310-16 and 310-22.
NECp ls N5IC 1 11 ampacity from Tables 310-16 and 310-22.
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For 74-level cables in conduit (Nos. 14 AWG, 12 AWG and 10 AVG), the dorating factor due to the number of conductors in the conduit, or grouplur, of conduits, shall be applied to NECF (full ampacity) valdes and not NECL (limited ampacity) values.
If the resultant ampacity r:1ue p
is greater than or equal to NEC, the NECL ampacity value sheli L
L./
prevail. If the resultant ampacity value is Itas than NEC, the L
resultant ampacity value shall prevail.
Ampacity derating factors resulting from the use of 10CFR50 Appendix R fire wrap materials are listed in Tables 5 and 6 of Attachment 3.
4.0 AMPACITY FOR_POVER CABLE IN CABLE TRAY Ampacity of auxiliary and control power cables installed in ladder type cable trays shall be taken from Tables 1 and 2 of Attachment 1.
Derating factors applicable to cable coating, cable tray covers and bottoms, and 10CFR50 Appendir R fire wraps are eddressed in section 6.0.
Ampacities for control power cables in randomly filled control trays (V3-level) are based on an effective 1-inch depth of tray fill. This accounts for the inherent diversity in control level cable tray. See General Note 4 of Attachment i for installation guidelines and restrictions.
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12/18/85 17:05 P.13 TOTAL P.13
GROUP: CABLE TITLE: Ampacity Tables for Auxiliary and Control Power Cables (0-15,000V)
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ELECTRICAL DESIGN STANDARD DS-E12.6.3 Ampacity values for V4-level cables in randomly filled trays in Tables 1 and 2 are based on a maximum uniform 3-or 4-inch cable tray depth.
General Note 5 of Attachment 1 for installation guidelines and See restrictions.
The ampacity values in Tables 1 and 2 for a 3-inch tray are based on a calculated " depth of fill" of 1.146 inches.
ampacity is based on a calculated " depth of fill" of 1.528 inches.For a 4-inch-d Ampacity of cables in ICEA P-54-440 for randomly filled cable trays are based on specific cable diameters. The ampacities in this standard use the minimum cable outside diameter (OD) taken from TVA Electrical Design Standards DS-E12.1.13 and DS-E12.1.14 and have been adjusted based on the cable ODs given in ICEA P-54-440.
The ampacity values in Tables 1 and 2 represent " full" trays.
Conditions may exist when it is prudent to base the ampacity on actual fill condi-
- tions, i.e., less than full.
Future cable installation in the cable tray would have to be stopped.
Approval and justification by the lead electri-cal engineer must be obtained before any such approach is undertaken and also before any cable tray overfill is allowed.
Ampacities for medium-voltage (5-15kV) shielded power cables (VS-level) installed in cable tray are included in Tables 1 and 2.
See General Note 6 of Attachment 1 for installation guidelincs and restrictions.
An adjustment factor of 0.82 against ICEA P-46-426 "in air" ampacity was used to obtain the ampacities of maintained spaced 5, 8, and 15-kV cables (types CPSJ and EPSJ). For nonmaintained spacing of No. 2/0 AWG and smaller cables, ampacities are taken from ICEA P-54-440.
Ampacity of single conductor cable arranged triplexed is based on short-circuited or open-circuited shields.
5.0 AMPACITY FOR POWER CABLES IN DUCT BANK For cables routed in underground ducts, ampacities from ICEA P-46-426
" Cables in Duct Bant," shall be used.
Ampacities of cables installed in duct configurations not covered by ICEA P-46-426 may require additional 4
derating and shall be analyzed using a computer program approved by the Chief diectrical Engineer.
Ampacities shall be based on 25'C soil temperature and 100 percent load factor unless otherwise documented.
Soil thermal resistivity shall be determined for each plant by either test or analysis.
The cable specialist shall be consulted as required.
6.0 AMPACITY DERATING FACTORS FOR POWER CABLE COATING ON CABLE TRAYS,10CFR50
_ APPENDIX R FIRE WRAPS. TRAY COVERS AND BOTTOMS, AND FIRE STOPS Ampacities contained in the NEC, ICEA P-54-440 ICEA P-46-426, or tables in this design standard do not account for the effects of cable coating on cable trays, fire stops, tray covers and bottoms, and Appendix R fire. -.
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GROUP: CABLE TITLE: Ampacity Tables for Auxiliary and Control ELECTRICAL DESIGN Power Cables (0-15,0007)
STANDARD DS-E12.6.3 wraps. Specific testing was conducted to determine these effects on existing ampacity. The factors to multiply against the ampacities in Tables 1, 2, and 3 of Attachment 1 are as follows:
Ampacity derating factors for cable coating on cable tray are listed l1 a.
in Table 4 of Attachment 2.
Thickness of cable coating shall be determined and documented.
(Since Flamemastic 71A contains asbestos, appropriate safety precautions shall be taken when measuring thickness.)
If remaining space in randomly filled tray is used up by cable coating, credit may be taken for reduced cable fill when 1
determining cable ampacity (if performed after all cable is installed and future tray fill is stopped by the engineering projects).
(See section 4.0.)
The factors in Table 4 are not to be applied directly to cables in the VS-level tray which were sized for maintained spacing.
In this instance, the ampacity for random-filled cable tray l1 shall be determined first from ICEA P-54-440 and then derated as shown in Table 4.
b.
Ampacity derating factors for cable trays and conduit wrapped with TSI thermolas products are includcd in Table 5 of Attachment 3.
- Likewise, factors in Table 6 of Attachment 3 shall be used for 3M Fire Barrier Flexible Wrap System. These derating factors shall be applied whenever the raceway is wrapped for a length exceeding 6 feet.
(Conduit Application Only:
For Nos. 14 AWG, 12 AWG, and 10 AWG cable sizes, the appropriate TSI or 3M-ampacity derating factor obtained from Table 5 or 6 shall be applied to NECp (full ampacity) values as listed in NEC /NECp amapacity table in section 3.0.
If the 1
L resultant ampacity value is greater than or equal to NEC, the L
NECL ampacity value shall prevail. If the resultant ampacity value is less than MEC, the resultant ampacity value shall prevail.)
L Factors for other products shall be obtained from the cable specialist.
Trays with covers longer than 10 feet or trays having multiple covers c.
whose combined length exceeds 10 feet and which are spaced less than 10 feet apart shall have ampacities derated by the multiplying factor 7
indicated in Table 7.
d.
Consult the cable specialist for ampacity derating for cables in conduit or cable tray with respect to fire stops.
l1
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GROUP: CABLE TITLE: Ampacity Tables for Auxiliary and Control ELECTRICAL DESIGN Power Cables (0-15,000V)
STANDARD DS-E12.6.3 The following deratings shall be applied to determine the cumulative e.
effect of any combination of the above factors for cable tray instsllations:
Installed Decating Configuration CC and TSI ISI only CC and 3M 3M only CC and TC Multiply CC derating times TC derating CC and TB Greater of CC derating or TB derating CC and TCB TCB only
- TSI and TCB Multiply TSI derating times TCB'derating
- 3M and TB 3M only
- 3M and TC 3M only
- 3M and TCB 3M only where:
(*) = With or without cable coating CC = Cable coating (Flamemastic 71A, Flamemastic 77, Vimasco 2-B)
TC = Tray cover TB = Tray bottom TCB = Tray cover and tray bottom TSI = TSI brand, Appendix R wrap 3M = 3M brand, Appendix R wrap ---
GROUP: CABLE TITLE: Ampacity Tables for Auxiliary and Control ELECTRICAL DESIGN Power Cables (0-15.000V)
STANDARD DS-E12.6.3 8.8 Industrial Testing Laboratories (ITL) Report No. 82-355-F-1 dated January 1985 "Ampacity Test for 600 Volt Power Cables in an Open Top Cable Tray Protected by the Thermo-Lag 330-1 Subliming Coating Envelope System" 8.9 ITL Report No. 84-3-275A dated March 1984, "Ampacity Decating Test for 1000 Volt Power Cables Installed In a Ladder Cable Tray Test Assembly Protected With a Three Hour Fire Rated Design of The Thermo-Lag 330 F!re Barrier System" 8.10 Thermal Science, Incorporated, ISI Technical Note 111781 dated February 1985, " Engineering Report on Ampacity Test for 600 Volt Power Cables Installed in a Five Foot Length of Two Inch conduit Protected With Thermo-Lag 330-1 Subliming Coating Envelope System" 8.11 ITL Report No. 84-10-5 dated October 1984, " Engineering Report on an Ampacity Test for 600 Volt Power Cables Installed in a Five Foot Length of Two-Inch Conduit Protected With a Three Hour Fire Rated Design of The Thermo-Lag 300 Fire Barrier System" 8.12 Memorandum to Electrical Engineering Files from C. H. Sudduth dated February 10, 1977, " Evaluation of Test Results of Cable Ampacity Tests for Completed Fire Stop Penetrations" (EEB 770211 908) 8.13 DNE Calculations, " Methodology Used as Basis for Cable Ampacities Shown in TVA Electrical Design Standard DS-E12.6.3" (B43 860902 901) 8.14 3M Ampacity Report dated September 1986, "Interam Fire Protection Materials; Protective Envelope System,"
(B43 860917 001) 8.15 J. Stolpe, "Ampacities for Cables in Randomly Filled Trays," IEEE Transactions on Power Apparatus and Systems. Volume PAS-90, Part 1, pages 962-974, 1971 8.16 Gary Engmann, "Ampacity of Cable in Covered Tray " IEEE Transactions on power Apparatus and Systems, Volume PAS-103, pages 345-352, 1984 ~
l 8.17 Memorandum from Thermal Science, Incorporated (TSI) dated May 13, 1986, "Thermo-Lag 330-1 Fire Barrier System - Ampacity Derating,"
(B43 860516 009) 8.18 DNE Calculations, "Ampacities and Methodology for Cables Outside the Limitations of TVA Electrical Design Standard DS-E12.6.3" (843 861030 910)
7
.1 DS-E12.6.3 m
General Notes Page 1 of 3-GENERAL NOTES AMPACITY TI.3LES 1, 2. AND 3 FOR AUXILIARY AND CONTROL POWER CABLES 1.
Insulated cable No. 2 AWG or smaller shall be multiconductor when routed in cable trays. In addition, insulation types THHN and XHHW shall not be routed in cable trays.
2.
Ampacity values for this cable in tray cannot be calculated until a QA-verified minimum outside diameter is provided by respective engineering projects.
3.
From the date of issuance of this standard forward, cables with an insulation temperature rating of 75'C shall not be used in auxiliary '
or control power applications. Power cables shall have an insulation temperature rating of at least 90*C and shall be a minimum size No. 14 AWG.
This ampacity is applicable only to the cable mark number, description, 4.
and insulation temperature rating indicated when installed in a maximum ambient air temperature of 40*C.
Ampacities are for any width cable tray. If auxiliary or control power cables of different insulation temperature ratings are routed in the same cable tray, the ampaci' ties of all of the cables shall be dorated to the lowest of the insulation temperature ratings. The ampacity shown is based on the minimum outside diameter indicated and may be adjusted for like cables with larger QA-verified diameters up to 1 inch using the formula I' = I(D'/D), where the prime values represent the new ampacity and diameter and the nonprime values represent the ampacity and diameter from Table 1, 2 or 3.
The ampacity shown is not dependent on cable tray fill, cable tray covers or bottoms, cable coatings, or fire wraps due to the inherent diversity of 1
V3-level cable trays.
5.
This ampacity is' applicable only to the cable mark number, description.
and insulation temperature rating indicated when installed up to the maximum uniform cable tray depth and percent till shown and in a maximum ambient air temperature of 40*C.
Ampacities are for any width cable tray. If auxiliary or control power cables of different insulation temperature ratings are routed in the same cable tray, the ampacities of all of the cables shall be derated to the lowest of the insulation temperature ratings. The ampacity shown is based on the minimum outside diameter indicated and may be adjusted for like cables with larger QA-verified diameters (up to 1.146 inches diameter in a 3-inch tray and 1.528 inches diameter in a 4-inch tray). This would be accomplished using the formula I' = I(D'/D) where the prime values represent the new ampacity and diameter and the nonprime values represent the ampacity and diameter from Table 1, 2 or 3.
However, no cable shall have an adjusted ampacity greater than 80 percent of the ampacity of the same cable in free air as taken from ICEA Publication No. P-46-426.
i
a.f DS-E12.6.3 General Notes Page 2 of 3 GENERAL NOTES (Continued)
AMPACITY TABLES 1, 2. AND 3 FOR AUXILIARY AND CONTROL POWER CABLES The ampacity shown does not consider the dorating effects of cable tray covers or bottoms, cable coatings, or fire wraps. These derating effects shall be applied separately as addressed in section 6.0 of this standard.
6.
This ampacity is applicable only to the cable mark number, description, and insulation temperature rating indicated when installed in a maximum ambient air temperature of 40*C.
Ampacities are for any cable tray width.
1 1
Ampacities.for cables larger than No. 2/0 AWG are based on single layer installation on trays in grouped three-phase circuits. The minimum nominal spacing between adjacent three-phase circuits shall be equal to i
one-fourth the overall effective diameter of the larger cable (2.155 times the 1/C diameter equals the overall effective diameter of a grouped three-j phase circuit). For cables No. 2/0 AWG or smaller, two separate entries are provided. The entry noted (RF) in the description is for cables laid side by side with no spacing between individual conductors and a maximum l
of two cables high. The entry noted (HS) in the description is for cables grouped and spaced as above for cables larger than No. 2/0 AWG. When l
using the maintained nominal spacing sepacities for cables No. 2/0 AWG and smaller, the engineering project shall take specific steps to ensure proper installation in the field. In general, the nonmaintained spacing i
ampacities for these cables shall be used. The ampacity shown does not i
consider the derating effects of cable tray covers or bottoms, cable coatings, or fire wraps. These derating effects shall be applied separately as addressed in section 6.0 of this standard.
7.
This ampacity is applicable only to the cable mark number, description, j
and insulation temperature rating indicated when installed in a maximum ambient air temperature of 40*C.
If auxiliary or control power cables of different insulation temperature ratings are routed in the same conduit, the ampacities of all the cables shall be derated to the lowest of the insulation temperature ratings. Ampacities for V3-level cables in conduit are independent of the number of cables in the conduit and the installed i
spacing between conduits due to their inherent diversity. Ampacities for l
V4-and VS-level cables in conduit are based on one circuit, up to three current carrying conductors, in a conduit.
See section 3.0 for the l1 derating factors applicable to additional cables in the conduit. In t
addition, the ampacities for V4-and VS-level cables are based on a minimum spacing between conduits of one-fourth the diameter of the larger conduit. Conduits for V4-and VS-level cables have been assumed to be installed in a worst case grouping of one conduit high and six conduits 1
wide resulting in an additional ampacity dorating of 0.86.
When so i
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DS-E12.6.3 General Notes Page 3 of 3 GENERAL NOTES (Cc-ntinued)
AMPACITY TABLES 1, 2. AND 3 FOR AUXILIARY AND CONIROL POWER CABLES dictated by the actual field installation, the allowable ampacity for V4-and V5-level cables in conduit may be revised using the formula I' = I(GF/.86) where "I'" equals the new impacity; "I" the ampacity from Table 1, 2, or 3; and "GF" the grouping factor provided in section 3.0 of this standard. However, for Nos. 14 AWG, 12 AWG, and 10 AWG, I' shall not exceed the value for NEC listed in the NEC /NECp arapacity table in i
L L
section 3.0.
If this approach is selected, the engineering project shall have taken specific steps to ensure that the existing conduit configura-tion will not be altered in the future without proper engineering evaluation. The values in this table do not include the derating effects of fire wraps which are applicable to all voltage levels referenced.
These derating effects shall be applied separately as addressed in section 6.0 of this standard.
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!!!05/36 AMPACITY TABLES FOR AUI!LIARY AND CCHTFDL PDWER CABLES ELECTRICAL IESIGN STANDARD DS-E12.6.3 TAELE 1 -- SORTED BY CABLE MARK NO CABLE INSUL ALLOWABLE ALLOWBLE AMPACITY All0untLE ALLOWABLE MAEK TEMP VCLT AMPACITY IN V4 TEAY W/ MAI AMPACITY AMPACITY.
NO.
CLASS DESCRIPTION RAING LEV MIN 00 IN V3 TRAY 30I FILL INOTE 51 IN V5 TRAY INCONDUIT (ETE 31 (NDTE 41 3'
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!!!05/86 AMPACITY TABLES FCR AUIILIARY AND CCNTROL POWER CABLES ELECTRICAL CESIGN STANCARD CS-E!2.6.3 TABLE 1 -- SCRTED BY CA!LE MARK ND CABLE INSUL ALLOWAELE ALLOWELE AMPACITY ALLOWAPLE ALLOWABLE MAEK TEMP VOLT AMPACITY
.N V4 TRAY W/ MAI AMPACITY AMPACITY NO.
CLASS DESCE!PTION KATNS LEY MIN OD IN V3 TEAY 301 FILL (NOTE 5)
IN V5 TRAY IN CONDUli (NOTE 31 (NOTE 41 3'
4' (NOTE 61 (NOTE il WN3 IE (MS! 12/0 AW5 1/C SKV OR EKV 90 5 0.000 NA NA NA 210
!?0 CFSJ WNB IE (EFl 82/0 AWB 1/C 5KV CFSJ 90 5 0.E60 NA NA NA 143 190 WNS-1 IE (RF) 12/0 APG 1/C EKV EPSJ 90 5 1.000 NA NA NA 152 190 WNE-!
IE (MS) 82/0 AW5 1/C EKV EFSJ 90 5 1.000 NA NA NA 210 190 WNB-2 1E (EF) 12/0 AW3 !!C EKV EPSJ 90 5 0.000 NA NA NA NOTE 2
!?0 WN3-2 lE (MS) #2/0 AWG 1/C EKV EFSJ 90 5 0.000 NA NA NA 210
!?0 WNC IE 14/0 AWS 1/C EKV CPSJ 90 5
246 WND IE 300 MCM 1/C EKV CFSJ
?O 5 1.207 NA NA NA 339 294 WND-!
IE 300 MCM 1/C EEV EFSJ 90 5 1.255 NA NA
. NA 339 294 KNE 1E 400 MCM 1/C EKV CPSJ 90 5 1.293 NA NA NA 40?
355 WNE lE 400 MCM 1/C 5KV CFSJ 90 5 0.000 NA NA NA 409 355 WNE-1 IE 400 MCM 1/C EKV EFSJ 90 5 1.346 NA NA NA 409 355 WNF IE 500 MCM I/C EKV CFSJ 90 5 1.330 NA NA NA 473 406 WNF IE 500 MCM l/C SEV CFSJ 90 5 0.000 NA NA NA 473 406 WNF-1 IE 500 MCM 1/C EKV EFSJ 90 5 1.429 NA NA NA 473 406 WMF-2 lE 500 MCM 1/C EKV EPSJ LOCA 90 5 1.430 NA NA NA 473 406 WNF-3 NC 500 MCM 1/C EKV EFSJ 90 5 0.000 NA NA NA 473 406 WNF-4
!E 500 MCM 1/C EKV EFSJ
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WN5 IE 750 MCM l/C 5KV CFSJ 90 5 0.000 NA NA NA 596 497 WN5-1 IE 750 MCM 1/C EKV EPSJ 90 5 1.540 NA NA NA 5?6 497 WN5-2 IE 750 MCM 1/C EKV EPSJ LOCA 90 5 1.620 NA NA NA 5?6 497 WN5-3 IE 750 MCM t/C EKV EPSJ 90 5 0.000 NA NA NA 5?6 4?7 WHH-1 IE 13/0 AW5 1/C EKV EFSJ 90 5 1.050 NA
.o$e>e NA NA 242 216
!b " Y WNI IE 250 MCM 1/C EKV CPSJ 90 5 0.000 NA NA NA 310 270
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Page Ns.
11
!!/05/S6 AMPACITY TABLES FOR AUI!LIARY AND CCNTROL F0WER CAELES ELECTEICAL CESIGN STA':DARD ES-E12.6.3 TABLE 1 -- SORTED BY CABLE MAEK NO CABLE INSUL ALLOWABLE ALLOWELE AMPACITY ALLOWAELE ALLOWABLE MAEK TEMP VOLT AMFACITY IN V4 TRAY W/ MAI AMFACITY AMPACITY NO.
CLASS DESCRIPT!DN KATNS LEY MIN OD IN V3 TRAY 101 FILL (NOTE 5)
IN V5 TRAY INCONDUli (NOTE 3)
(NOTE 41 3'
4' (NOTE 61 (NOTE 7)
WFF-1 IE 16 AW5 1/C 600V SEDAJH LOCA 200 3 0.300 NOTE I NA NA NA
!!5 11 WFF-!
IE 86 AWS 1/C 600V SECAJH LOCA 200 4 0.!20 NA NOTE 1 NOTE 1 NA 9?
WF5 lE II AW5 1/C 600V SROAJ LOCA 125 3 0.415 NOTE l-NA NA NA 120 l1 l
WF5 IE 14 AWS 1/C 600V SEDAJ LOCA 125 4 0.415 NA NOTE I NOTE I NA 103 WFH IE 12 AWS 1/C 6007 SRCAJ LOCA 125 3 0.000 NOTE !
HA NA NA 161 l1 WFH lE 82 AWG 1/C 600V SECAJ LOCA 125 4 0.000
?!A NOTE !, NOTE 1 tiA
!!B WFH-!
IE 12 AW5 1/C 600V SROAJH LOCA 200 3 0.523 NOTE 1 NA NA NA 200 11 WFH-1 lE 12 AW5 1/C 600Y SROAJH LOCA 200 4 0.523
!!A NOTE I NOTE 1 NA 172 WFJ IE 11/0 AWS !!C 600V SROAJ LOCA 125 3 0.620 29 NA NA NA 221 11 WFJ 1E 11/0 AWS 1/C 600V SEDAJ LOCA 125 4 0.620 NA 150 124 NA 190 WFK lE 12/0 AWS 1/C 600V SROAJ LOCA 125 3 0.669 29 NA NA NA 252 11 WFK IE 82/0 AWS 1/C 600V SROAJ LOCA 125 4 0.669 NA 183 151 NA 217 WFK-1 IE 12!0 AW5 1/C 600V SROAJH LOCA 200 3 0.675 29 NA
.N4 NA 315 11 WFK-1 lE B2/0 AWS 1/C 600Y SEDAJH LOCA 200 4 0.675 NA 230
!?0 NA 271 WFL lE 14/0 AW5 1/C 600V SEDAJ LOCA 125 4 0.780 NA 270 222 NA 296 WFM IE 200 MCM 1/C 600V SROAJ LDCA 125 4 0.907 NA 372 306 NA 36?
WF0 lE 500 MCM 1/C 600V SRDAJ LOCA 125 4 NOTE 2 NA NOTE 2 NOTE 2 NA 508 WFR lE 750 MCM 1/C 600V SRDAJ LOCA 125 4 t;DTE 2 NA i0TE 2 FIOTE 2 NA 637 WRA-1 lE 014 AWS 2/C 600V SROJJH LOCA 200 3 fl0TE 2 NOTE 2 NA NA NA 29 WFA-1 IE 014 AWS 2/C 6007 SROJJH LOCA 200 4 NOTE 2 NA NOTE 2 !!DTE 2 NA 25 WEA-2 lE 114 AW5 2/C 600V SROJJ LOCA 125 3 0.292 10 tia NA NA 23 WEA-2 1E 114 AWS 2/C 600V SE0JJ LOCA 125 4 0.292 NA 10 7
NA 20 WRA-3 lE 114 AWS 3/C 600V SROJJ LOCA 125 3 0.437 13 NA NA NA 23 WFA-3 lE 114 AW5 3/C 600V SROJJ LOCA 125 4 0.437 NA 12 9
NA 20 WEA-4
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WED IE 812 AWS 4/C 600V SROJJ LOCA 125 4 NOTE 2 NA NOTE 2 NOTE 2 NA 25 WRN lE 010 AWS 2/C 600V SROJJ LOCA 125 3 NOTE 2.
NOTE 2 NA FA NA 39 U
Page No.
12
!!!05/86 AMPACITY TABLES FOR AUI!LIARY AND LC!Tco. POWER CABLES ELECTRICAL DES!5N STANDARD DS-Ele.6.3 TAELE 1 -- SCRTED BY CABLE MARK HO CAELE INSUL ALLOWABLE ALLOW 9LE AFJACITY ALLOWABLE ALLOWABLE NAEK TEMP VOLT APIACITY IN V4 TEAY N/ NA!
AMFACITY AMPACITY NO.
CLASS DESCRIPT!DN RAING LEV NIN OD IN V3 TRAY J6:5!LL (NOTE 5)
IN V5 TRAY INCONDUli (NOTE 31 (NOTE 41 3'
4' (N3TE 61 (NOTE 71 WEN lE 110 AWS 2/C 600V SROJJ LOCA 125 4 NOTE 2 NA NOTE 2 NOTE 2 NA 34 WE0 lE 010 AW5 3/C 600V SE0JJ LOCA 125 3 0.530 25 NA NA NA 39 WR0 IE 110 AW5 3/C 600V EE0JJ LOCA 125 4 0.530 NA 23 19 NA 34 g
WEP IE 110 AW5 4/C 600V SE0JJ LOCA 125 3 0.565 23 NA NA NA
!?
WEP
!E 110 AWS 4/C 600V SROJJ LOCA 125 4 0.565 NA 21 17 NA 34 WFW
!E IS AW5 4/C 600V SEDU LOCA 125 3 0.7?0 29 NA NA NA 64 WKW IE 13 AW5 4/C 600V SROJJ LD:A 125 4 0.7?0 NA 37 31 NA 55 5
WEW-1 NC 69 AWS 3/C 600V SHLD SK0JJ 125 3 NOTE 2 NOTE 2 NA NA NA 64 11 WEW-1 NC 18 AWS 3/C 600V SHLD SROJJ 125 4 NOTE 2 NA NOTE 2 NOTE 2 NA 55 WEW-3 1E IS AWS 3/C 600V SROJJ LOCA 125 3 0.620 29 NA flA NA 64 l1 WEW-3 IE 18 AWS 3/C 600V SROJJ LOCA 125 4 0.690 NA 37 31 NA 55 WRY 1E 04 AW5 2/C 600V SE0JJ LOCA 125 3 0.795 29 NA NA NA 112 11 WRY IE 14 AW5 2/C 600V SROJJ LOCA 125 4 0.795 NA B6 70 NA 96 WEY-3 1E 14 AW5 3/C 600V SE0JJ LOCA 125 3 0.8/l 29 NA NA NA 112 l'1 WEf-3 IE 14 AWS !/C 600V SE0JJ LOCA 125 4 0.371 NA 77 63 NA 96 WEZ IE is AWS 3/C 600V SE0JJ LOCA 125 3 0.776 2?
NA NA NA E5 11 WRI
!E 16 AWS 3/C 600V SROJJ LOCA 125 4 0.776 NA 54 44 NA 73 WEZ-3 1E 02 AWS 3/C 600V SE0]J LOCA 125 3 1.020 29 NA NA NA 152 11 WRZ-3 IE 12 AWS 3/C 600V SROJJ LOCA 125 4 1.020 NA
!!3 94 NA 131
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7 11/05!E6 AMPACITY TABLES FOR AUIILIARY AND CONTROL F0WER CABLES ELECTRICAL DESIEN STANDARD DS-E12.6.3 TABLE 2--SDRTED BY VDLT LEV, INEUL TEMP, ALLOW AMPACITY-TRAY CAELE INSUL ALLOWAELE ALLOWELE AMPACITY ALLOWABLE ALLOWABLE MARK TEMP VOLT AMPACITY IN V4 TRAY WI MAI AMPACITY AMPACITV N3.
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Page No.
8
!!/05/S6 AMPACITY TABLES PDR AUI!LIARY AND CCNTEDL PCWER CABLES ELECTRICAL DESIGN STANDARD DS-E12.6.3 TABLE 2-50RTF!' 5' 56LT LEV, INSUL TEMP, ALLOW AMPACITY-TRAY CABLE INSUL MAEK ALLOWAELE ALLOWBLE AMPACITY ALLOWABLE ALLOWABLE TEMP VOLT AMPACITY IN V4 TEAY N/ MAI AMPACITY AMPACITY NO.
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AMPACITY TA!LES FOR AUIILIARY AND CONTEOL F0WEP. CAELES ELECTRICAL CES!5N STANDARD DS-E!2.6.3 TABLE 3-50RTED BY VOLT LEV, JNSUL TEMP, !!LLOW AliPACITY-COND CAELE INSUL ALLOWABLE ALLOWPLE AMFACITY ALLOWABLE ALLOWABLE MAFK TEr.P VDLT AMFACITY IN V4 TEAY W/ NAI AMPACITY AMPACITY NO.
CLASS DESCRIPTION RAIN 5 LEY NIN OD IN V3 TRAY 303 FILL (N3TE 5)
IN V5 TRAY IN CONDUIT (N3TE 31 (NOTE 41 3'
4' (NOTE 6)
(NOTE 71 W35 IE 121/C 6007 CFJ
?0 3 0.450 NOTE 1 NA NA NA 130 E5-1 IE 92 1/C 600V FIJ 90 3 0.420 NOTE !
NA NA NA 130 l
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NA NA NA 130 EH-2 lE 11/0 2/C 6007 FIMJ LOCA 90 3 1.150 2?
NA NA NA 166 HH-3 IE 11/0 3/C 600V FINJ LOCA 90 3 1.220 29 t:A NA NA 166 EH-4 IE 01/0 4/C 600V FIMJ LUCA 90 3 1.340 2?
NA NA NA 166 f
WDH IE 11/0 t/C 600V CPJ 90 3 0.575 29 NA NA NA 179 I
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29 NA NA NA li?
WDH-5 IE 11/0 1/C 600V P!J LOCA 90 3 0.553 2?
NA NA NA 179 l
WDJ-2 IE 12/0 2/C 600V FIMJ LOCA 90 3 1.220 2?
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WDJ-3 lE 12/0 3/C 600V FIMJ LOCA 90 3 1.330 2?
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NEP lE 110 AW6 4/C 600V SE0JJ LOCA 125 3 0.565 23 NA NA NA 39 WFC IE 010 AWS !!C 600V SROAJ LOCA 125 3 0.273 NOTE 1 NA NA NA 50 yygg NEW IE fB AW5 4/C 600V SE0JJ LOCA 125 3 0.790 2?
NA
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!!/05/86 l
AMPACITYTABLESFORf*.3!11ARYANDCCNTECLPCWERCABLES ELECTRICAL DESIGN STANDARD DE-E!2.6.3 TAELE 3-50RTED BY VOLT LEY, INSUL TEMP, ALLOW AMPACITY-COND CAELE INSUL ALLOWABLE ALLCWBLE AMPACITY ALLOWABLE ALLOWABLE MAFK TEMP VOLT AMPACITY IN V4 TRAY W/ MAI AMPACITY AMPACITY.
NO.
CLASS DESCRIPTION AAINS LEV MIN OD IN V3 TEAY 303 FILL (WOTE 5)
IN V5 TRAY IN CONDUIT (NOTE 3)
(NOTL 41 3'
4' (NOTE 6)
(NOTE 71 WM3
!E 13 3/C 600V CPJJ
?0 4 0.640 NA 23 24 NA 44 WDD IE 831/C 600V CPJ 90 4 0.250 NA NOTE I NOTE 1 NA 47 WDD-1 lE 13 1/C 500V PIJ 90 4 0.230 NA NOTE 1 NOTE I NA 47
)
WID-2 IE 19 1/C 600V FIJ LOCA 90 4 0.264 NA NOTE I NOTE 1 NA 47 i
WFA lE 16 3/C 600V PIMJ 90 "4 NOTE 2 NA NOTE 2 NOTE 2 NA 59 I
WFA-Il
!E I6 2/C 600V PIMJ LOCA 90 4 0.620 NA 47 38 NA 59 i
WFA-15
!E 16 3/C 600V PIMJ LOCA 90 4 0.735 NA 41 34 NA 59 WFA-!?
!E 86 4/C 6007 FIMJ LOCA 80 4 0.220 NA 40 33 NA 5?
kFA-3 IE li 3/C 600V PIMJ 90 4 0.709 NA 40 33 NA 5?
WFA-6 IE I6 4/C 600V PIMJ 90 4 NOTE 2 NA NOTE 2 NOTE 2
!!A 5?
WMJ lE 16 3/C 600V CPJJ 90 4 0.735 NA 41 33 NA 5?
WDE lE 16 1/C 600V CPJ 90 4 0.320 NA NOTE 1 NOTE 1 NA 64 WDE-1 IE 86 1/C 600V PIJ 90 4 9.320 NA N3TE 1 NOTE I NA 64 WEE-2 IE I6 1/C 600V PIJ LOCA 90 4 0.325 NA NOTE 1 NOTE 1 NA 64 WFA-12 1E I4 2/C 600V FIMJ LOCA 90 4 0.700 NA 61 50 NA 78 WFA-16 IE 14 3/C 600V PIMJ LOCA 90 4 0.890 NA 64 52 NA 78 WFA-2 IE I4 3/C 600V PIMJ 90 4 0.934 NA 60 49 NA 78 WFA-20 lE 14 4/C 600V PIMJ LOCA 90 4 NOTE 2 NA NOTE 2 NOTE 2 NA 78 WFA-7 IE I4 4/C 6007 FIMJ 90 4 NOTE 2 NA NOTE 2 NOTE 2 NA 79 W50 lE I4 3/C 600V CPJJ 90 4 0.E85 NA 63 51 NA.
7B WDF IE 14 1/C 6007 CPJ 90 4 0.3?0 NA N3TE I NOTE 1 NA B3 i)
WDF-1 lE I41/C 600V PIJ 90 4 0.378 NA NOTE I NOTE 1 NA B3 WDF-2 lE I4 1/C 600V PIJ LOCA 90 4 0.370 NA NOTE I NOTE 1 NA B3 WFA-1 IE 12 3/C 600V PIMJ 90 4 0.982 NA 88 72 NA 105 WFA-13 IE 12 2/C 600V PIMJ LOCA 90 4 0.?!0 NA 100 82 NA 105 WFA-17 IE 12 3/C 600V PIMJ LOCA 90 4 1.005 NA
?!
74 NA 105 WFA-21 IE 12 4/C 600V PIMJ LOCA 90 4 1.120 NA 87 72 NA 105 gyRg NTA-8 JE 82 4/C 600V PIMJ 90 4 1.100 NA E6 70 NA 105 g$g&
WFA-?
NC 52 3/C 600V PIMJ 90 4 1.020 NA
- 2 75 NA 105
,aaZ WMT lE 82 3/C 600V CPJJ 90 4 1.020 NA
'l 75 NA 105 u(,
WD5 IE 12 1/C 6007 CPJ 90 4 0.460 NA NOTE 1 NOTE I NA mo
4 0.420 NA NOTE 1 NOTE 1 NA
[
WD5-2 1E 121/C600VPIJLOCA 90 4 0.432 NA NOTE I NOTE 1 NA g
Pa;e No.
9
!!!05!55 AMPACITY TABLES FOR AUIILIARY AND CONTROL POWER CAELES ELECTRICAL DES!6N STANDARD DS-E12.6.3 TABLE 3--50RTED BY VOLT LEV, INSUL TEMP, ALLOW A!!PACITY-COND CABLE INSUL ALLOWABLE ALLOWBLE AMPACITY ALLOWAELE ALLOWABLE MAEK TEMP VOLT AMFACITY IN V4 TRAY W/ MAI AMFACITY AMFACITY hd.
CLASS DESCRIPTION RATNS LEV MIN OD IN V3 TRAY 30! FILL (NOTE 51 IN V5 TRAY IN CONDUIT (NOTE 3)
(NOTE 41 3'
4' (NOTE 61 (NOTE 71 WDH-2 IE 11/0 2/C 600V PIMJ LOCA 90 4
1.150 NA
!$0 131 NA 142 WEN-3 IE 11/0 !!C 600V PIMJ LOCA.
90 4 1.220 NA
!!?
NA 142 WDH-4 IE 11/0 4/C 600V PIMJ LOCA "O
4 1.340 NA 120 109 NA 142 WLH IE 11/0 1/C 600V CPJ
'O 4 0.575 NA
!!2 93 NA 153 W5H-1 IE 11/0 1/C 600V P!J 90 4 0.569 NA til 92 NA 153 WLH-5 IE 11/0 1/C 600V PIJ LOCA 90 4 0.553 NA 109 E?
NA 153 WDJ-2 lE 12/0 2/C 600V PIMJ LOCA
'O 4 1.220 NA 191 156 NA 163 WLJ-3 IE 1210 3/C 600V PIMJ LOCA e0 4 1.230 NA 160
!!9 NA 163 WDI IE 12/0 1/C 600V CPJ CR PIJ 90 4 NOTE 2 NA NOTE 2 NOTE 2 NA 175 WDJ lE 82/01/C 600V CPJ 90 4 0.629 NA
!!S
!!4 NA 175 WDJ-l 1E 12/0 1/C 600? PIJ 90 4 0.607 NA 134
!!0 NA 175 WDJ-4 IE 32/0 1/C 600V PIJ LOCA 80 4 0.522 NA 128 106 NA 175 WIK
!E 14/0 1/C 600V CPJ
'O 4 0.723 NA 202 166 NA 239 WIK-1 lE 14/01/C 600V FIJ 00 4 0.718 NA 201 165 NA 23?
WDK-2 IE I4/0 1/C 6007 PIJ LOCA 90 4 0.696 NA
!?5
!$0 NA 239 WEL lE 250 MCM 1/C 600V CFJ c0 4 NOTE 2 NA NOTE 2 NOTE 2 NA 272 W3L-1 lE 250 MCM 1/C 600V PIJ LOCA 90 4 0.910 NA 245 201 NA 272 WLN
'O 4 0.864 NA 226 235 NA 2c5 WDN-1
!E 300 MCM 1/C 6007 FIJ 90 4 0.674 NA 290 239 NA 2?B WEN-2 lE 300 MCt! 1/C 6007 PIJ LOCA C0 4 0.EE6 NA 2c4 241 NA 2eg WD0 IE 400 MCM l/C 600V CPJ
'O 4 0.96?
NA 370 303 NA 352 WDD-2 IE 400 MCM 1/C 600V PIJ LOCA 90 4
0.*?3 NA 321 3!2 NA 352 WLP IE 500 MCM 1/C 600V CPJ 90 4 1.053 NA 451 370 NA 410 WIP-1
!E 500 MCM t/C 6007 FIJ C0 4 1.012 NA 4:3 355 NA 410 WEP-2 IE 500 MCM 1/C 600V PIJ LOCA 90 4 1.031,
NA 441 342 NA 410 WDQ
!E 750 MCM 1/C 600V CPJ 90 4 1.292
- NA
$$1 551 NA 514 ypgg WE0-1 1E 750 MCM !!C 600V PIJ 90 4 1.240 NA 645
!?B NA 514 g gg A WRA-2
!E 114 AW5 2/C 600V SROJJ LOCA 125 4 0.2?2 NA 10 7
NA 20
,oa[
WEA-3 IE 114 AWS 3/C 600V SROJJ LOCA 125 4 0.437 NA 12
?
NA 20 wf*,
WEA-4 IE 114 AW5 4/C 6007 SROJJ LOCA 125 4 0.4?4 NA 12 9
NA 20 1
"io gy q
WTiB IE 112 AW5 2/C 600V SROJJ LOCA 125 4 0.500 NA 21 16 NA 25 y
WEC IE 112 AWG 3/C 600V SROJJ LOCA 125 4 0.522 NA 19 14 NA 25 y
L e No.
10 J
!!/05/S6 AMPACITY TABLES FOR AUI!LIARY AND CCNTRCL PCWER CAELES ELECTRICAL DES!5N STANDARD DS-E12.6.3 TABLE 3--50ETED BY VOLT LEV, INSUL TEMP, ALLOW AMPACITY-COND CABLE INSUL ALLOWABLE ALLOWBLE AMPACITY ALLOWABLE ALLOWABLE MAEK TEMP VOLT AMPACITY IN V4 TEAY N/ MAI AMFACITY AMPACITY NO.
CLASS DESCRIPT10N RATNG LEV MIN OD IN V3 TRAY 301 FILL (NOTE 5)
IN V5 TRAY IN CONDUIT (NOTE 31 (NOTE 41 3'
4' (NOTE 5)
(NOTE 71 WED lE 112 AWS 4/C 600Y SROJJ LOCA 125 4 NOTE 2 NA NOTE 2 NOTE 2 NA 25 s
WFA 1E 814 AWS 1/C 600V SEDAJ LOC 4 125 4 0.230 NA NOTE 1 NOTE I NA 24 WFB IE f!2 AW5 1/C 600V SRDAJ LOCA 125 4 0.259 NA NOTE 1 NOTE 1 HA 33 NFN 1E 010 AWS 2!C 100V SE0JJ LOCA 125 4 NOTE 2 NA NOTE 2 NOTE 2 NA 34 y
WED IE 110 AW5 3/C 600V SROJJ LOCA 125 4 0.5!0 NA 23 19 NA 34 WEP IE 110 AW5 4/C 600V SE0JJ LOCA 125 4 0.565 NA 21 17
!!A 34 WFC IE 010 AWS !!C 600V SRDAJ LOCA 125 4 0.273 NA NOTE 1 ' NOTE I NA 43 WFW lE 12 AWS 4/C 600V SE0JJ LOCA 125 4 0.7?0 NA 37 31 NA 55 WEW-1 NC la AWS 3/C 600V SHLD SROJJ 125 4 NOTE 2 NA NOTE 2 NOTE 2 NA 55 WFW-3 IE IS AW5 !!C 600V SE0JJ LOCA 125 4 0.620 NA 37 21 NA 55 WFD lE IS AWS !!C 600V SROAJ LOCA 125 4 0.!40 NA NOTE 1 NOTE I NA 59 WEZ
!E 56 AWS !!C 600V EE0JJ L0CA 125 4 0.776 NA 54 44 NA 73 WFF IE 16 AW5 !!C 600V SROAJ LOCA 125 4 0.371 NA NOTE 1 NGTE I NA 79 WEY IE 14 AWS 2/C 100V SE0JJ LOCA 125 4 0.795 NA E6 70 NA 96 WRY-3 IE I4 AW5 !!C 600V SROJJ LOCA 125 4 0.971 NA 77 63 NA
?6 WF5 IE I4 AW5 1/C 600V SECAJ LOCA 125 4 0.415 NA NOTE I NOTE 1 NA 103 WRI-3 IE 12 AW5 3/C 600V SROJJ LOCA 125 4 1.020 NA 113 94 NA 131 WFH IE 12 AWS 1/C 600V SEDAJ LOCA 125 4 0.000 NA NOTE 1 NOTE 1 NA
!!E WPJ lE 81/0 AWS !!C 600V SRDAJ LOCA 125 4 0.620 NA 150 124 NA 190 WFK IE 12/0 AWS 1/C 600V SEDAJ LOCA 125 4 0.66?
NA 12!
151 NA 217 WPL
!E 14/0 AWS 1/C 600V SROM LOCA 125 4 0.780 NA 270 222 NA 296 WFM
!E 300 MCM 1/C 6007 SEDAJ LOCA 125 4 0.907 NA 372 306 NA 369 WF0 IE 500 MCM 1/C 600V SRDAJ LOCA 125 4 NOTE 2 NA NOTE 2 NOTE 2 NA 503 WFK IE 750 NCM 1/C 600V SECAJ LOCA 125 4 NOTE 2 NA NOTE 2 NOTE 2 NA 637 WEA-1 lE 114 AWS 2/C 600V SROJJH LOCA 200 4 NOTE 2 NA NOTE 2 NOTE 2 NA 25 11 WFF-1 IE 86 AW51/C 600V E!:MH LOCA 200 4 0.!S0 NA NOTE 1 NOTE 1 NA 99 WFH-1 tE 82 AW5 !!C 600'
'UH LOCA 200 4 0.523 NA NOTE I NOTE 1 NA 172 ly y R g WFK-1 1E 82/0 AWS 1/C 6:
- AJH LOCA 200 4 0.675 NA 2!0
!?0 flA 271 y$g4 WNL IE (MS) 16 AWS !!:
EF5J 90 5 1.505 NA NA NA 76 71 8 o o u k *[
W/ JACKET WM NC (MSil6 AW5 1/C EKV EPSJ
?0 5 0.730 NA NA NA 79 71 S,
5*
WNL lE (RF) 15 AW5 3/C EKV EPSJ 90 5 1.505 NA NA NA 45 71 w
W/ JACKET y
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DS-E12.6.3 b
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Page No.
12
!!/05/26 AMPACITY TAELES FOR AUIILIARY AND CONTROL POWER CABLES ELECTRICAL DES!E!i STANDARD DS-E12.6.3 TABLE 3--50 RTE 3 BY VOLT LEV, INSUL TEMP, ALLCW AMPACITY-COND CABLE INSUL ALLCEBLE ALLOWBLE AMPACITY ALLOWABLE ALLOWABLE MAEK TEMP VDLT AMPACITY IN V4 TRAY W/ MAI AMPACITY AMPACITY NO.
CLASS DESCRIPTION RAINS LEY MIN OD IN V3 TRAY 30% FILL (NOTE 5)
IN V5 TRAY IN CONDUIT (NOTE 31 (NOTE 41 3'
4' (NOTE 61 (NOTE 7)
WNF-1 1E 500 MCM 1/C BKV EPSJ
?0 5 1.42?
NA NA NA 473 406 NNF-2 1E 500 MCM 1/C EKV EFSJ LOCA 90 5 1.4!0 NA NA NA 473 40h WNF-4 lE 500 MCM 1/C 8KV EPSJ
?O 5 0.000 NA NA NA 473 406 WNF-I NC 500 MCM I/C "KV EPSJ "O
5 0.000 NA NA NA 473 406 WNF IE 500 MCM 1/C SKV CPSJ 90 5 0.000 NA NA NA 473 406 WNT
!E 500 MCM 1/C !!KV CPSJ 90 5 0.000 NA NA NA 478 413 WNT-1 IE 500 MCM 1/C 15KV EPSJ 90 5 0.000 NA NA NA 479 413 WNS IE 750 MCM 1/C EW CPSJ 90 5 1.630 NA NA NA 596 497 WNS-1 IE 750 MCM 1/C BKV EPSJ 90 5 1.540 NA NA NA 596 497 WNS-2 1E 750 MCM 1/C EKV FPSJ LDCA 80 5 1.620 NA NA NA 5?6 4?7 WNS-3 IE 750 MCM 1/C BKV EPSJ 90 5 0.000 NA NA NA 5?6 497 WNS lE 750 MCM 1/C 5KV CFSJ 90 5 0.000 NA NA NA 586 497 WNU lE 750 MCM I/C 15KV CPSJ 90 5 0.000 NA NA NA 601 505 WNU-!
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DS-E12.6.3 Page 1 of 1 TABLE 4 CABLE AMPACITY DERATING FACTORS, FOR RANDOM FILL CABLE TRAY FIRE PROTECTIVE COATINGS 90*C CONDUCTOR TEMPERATURE (V4-AND V5-LEVELS ** ONLY)
Type of Dry Thickness Multiplying Factor Coating Material (Inches)
(V4 and VS only)
Flamemastic 71A 0
1.000 1/8 0.945 1/4 0.913 1/2*
0.916 1*
0.866 1-1/2*
0.859 2*
0.828 1
Flamemastic 77 0
1.000 1/8 0.980 1/4 0.960 1/2*
0.944 1*
0.920 1-1/2*
0.900 2*
0.880 Vimasco 2-B 0
1.000 cable coating 1/8 0.990 1/4 0.984
- Coating thicknesses more than 1/4 inch are ordinarily not applicable.
Application of successive coatings that accumulate to greater than 1/4-inch overall wet thickness shall be forbidden.
(Cables installed in trays in Category / Class I structures shall meet the flame-retardant requirements of IEEE 383-1974, thus eliminating the need of cable coating except where applicable at fire stops.)
- See section 6.0, item a., for determining the derating effects on VS-level cables.
_. ~. _ _ _
1,j DS-E12.6.3 Page 1 of 1 CABLE AMPACITY FACTORS FOR TSI (TABLE 5) AND 3M (TABLE 6) FIRE WRAP MATE TABLE
_5_
CABLE AMPACITY FACTORS FOR TSI FIRE WRAP MATERIAL Type or Description /
Multiplying Mfrr Catalog No.
Attachment Factor TSI Thermo-Lag 1-He conduit 0.910 3/4" through 1-1/2" TSI Thermo-Lag 1-He conduit 0.925 2" through 6" TSI Thermo-Lag 3-Hr conduit 0.883 3/4" through 1-1/2" 1
_ Thermo-Lag 3-He conduit 0.903 2" through 6" TSI Thermo-Lag 1-He panels 0.875 TSI Thermo-Lag 3-He panels
.795 TABLE 6 CABLE AMPACITY FACTORS FOR 3M FIRE VRAP MATERIAL Type or Description /
Multiplying Mfer Catalog No.
Attachment Factor 3M M-20A 1-He conduit 0.625 (5 layers of wrapping) 3M M-20A 1-He cable tray 0.440 (4 layers of 1
wrapping) 3M CS-195/M-20A 1-He cable tray 0.450 (1 layer CS-195, 1 layer M-20A)
.... '. v' DS-E12.6.3 Page 1 of 1 TABLE 8 CONDUCTOR SIZING FACTORS BY LOAD TYPES Application Multiplying Current Factor Reference 460V motors Full load 1.25 NEC ANLicle 430 TVA DS-E2.3.2 Medium voltage motors Full load 1.25 NEC Article 430 NEC Article 710 TVA DS-E2.2.2 Small distribution transformers Primary 1.25 NEC Article 450 (Under 112-1/2 kVA) full load 1
Large distribution transformers Primary 1.00 TVA DG-E2.4.1 (112-1/2 kVA and larger) full load at TVA DG-E2.6.1 maximum rating Lighting and distribution Panel bus or 1.00 NEC Article 240 panels panel main NEC Article 385 breaker rating TVA DS-E17.1.1 Motor control centers Motor control 1.00 TVA DS-E2.3.2 l
center bus rating 4807 switchgear Maximum from 1.00 TVA DG-E2.3.6 transformer secondary Electric heaters Full load 1.25 NEC Article 424 TVA DS-E17.6.1 Motor-operated valves Full load 2.00 TVA PM-86-18
ENCLOSURE 6 LIST OF COMMITMENTS
.1.
Cables not technically justified will be replaced or supplemented before unit restart.
2.
Provide summary of results and dispositions of the sampling program along with documentation by January 30, 1987.
L 6