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7/26/2019 Generic Spec OPGW
1/15
Test OPGWCCC
Generic Specifcation
Optical Ground Wire Cables (OPGW)or Installation on High Voltage Poer !ines
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Table of Contents
1 Scope 2
2 Standards 2
3 OPGW Cable Design 3
"#$ General ""#% Optical fber ""#" Cable core& alu'inu' central buer tube "# Cable ar'oring *"#* Standard OPGW design a'ilies *
4 Tests 6
#$ General +#% Tests on ires ,#%#$ -ia'eter ,
#%#% Tensile strength ,#%#" .longation at brea/ ,#%# Wrapping test ,#%#* Conducti0it1 ,#%#+ Thic/ness o 2l3cladding ,#%#4 Torsion test ,#" Tests on fnished OPGW 5#"#$ 6ualit1 o surace 5#"#% -ia'eter o cable 5#"#" -ia'eter o buer tube 5#"# !a1length 5#"#* Position o ires 5#"#+ 7iber e8cess length 5
#"#4 Cable eight 5#"#, -C resictance 5#"#5 Special t1pe tests 5
5 Packaging 1
2nne8 2$& Standard OPGW Cable9 Single !a1er -esign $$2nne8 2%& Standard OPGW Cable9 -ouble !a1er -esign $%2nne8 :& ;eel si
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$ Scope
This specifcation co0ers Optical Ground Wire Cables (OPGW) or the installation on high
0oltage o0erhead poer lines# The cable contains optical fbers or data trans'issionand teleco' purposes and is installed instead o an ground ire#
The specifcation describes the basic design o an OPGW3cable ith its 'ainco'ponents& the fbers9 the central buer tube and the cable ar'oring# 7urther'ore thisspecifcation contains inor'ation concerning the Bualit1 assurance during'anuacturing9 the fnal acceptance tests9 the t1pe tests and the pac/aging# 2n1technical data 'entioned in this product specifcation ser0e or describing the productonl1 and should not be understood as an assurance o properties#
% Standards
The specifcation generall1 reers to the olloing standards&
I.C +@4533$& Optical fber cables 2erial optical cables or high30oltage poer
lines
I... Std$$",& I... standard construction o co'posite fber optic o0erhead ground
ire (OPGW) or use on electric utilit1 poer lines
I.C +$@,5& ;ound ire concentric la1 o0erhead electrical stranded conductors
I.C +@$@ 2& 2lu'inu'3'agnesiu'3silicon allo1 ire or o0erhead line conductors
I.C +$%"% %@S2& 2lu'inu'3clad steel ires or electrical purposes
.I2ATI2 *5,& Color coding o fber optic cables
I.C +@45"3$& Optical fbers 3 Part $& Generic Specifcation
I.C +@45"3%& Optical fbers 3 Part %& Product Specifcations
IT>3T ;eco''endation G#+*@& -efnition and test 'ethods or the rele0ant
para'eters
o single3'ode fbers
IT>3T ;eco''endation G#+*%& Characteristics o a single3'ode optical fber cable
IT>3T ;eco''endation G#+**& Characteristics o a non3
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" OPGW Cable -esign
"#$ General
OPGW ha0ing the dual peror'ance unctions o a con0entional ground ire ith opticalfberteleco''unication capabilities#
Hence9 the 'ain co'ponents o an OPGW3cable are such as ollos&a) the optical fbers9b) the alu'inu' central buer tube9c) the cable ar'oring consisting o one9 to or 'ore la1ers o ar'oring ires#
a) t1pical single la1er design b) t1pical double la1er design
7ig# $ & Principle cross sections o OPGW ith central alu'inu' buer tube
The olloing chapters gi0e a description o these 'ain co'ponents o an OPGW3cable#
"#% Optical fber
The OPGW cable are designed or dierent t1pes o fbers9 e#g# Standard Single3=ode7ibers (.59 SS=7) and on3
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Fiber color coding
The fbers are 'ar/ed b1 a code o $% dierent colors according to TI2A.I23*5,&
fber $& blue fber 4& redfber %& orange fber ,& blac/fber "& green fber 5& 1ellofber & bron fber $@& 0ioletfber *& slate A gra1 fber $$& rose A pin/fber +& hite fber $%& aBua A turBuoise
The color used or fber color coding does not inhibit the operation o !I- (!ocal "nEectionand Detection) de0ices (splicing de0ices9 attenuation 'easuring s1ste's etc#)# Thecolor is 'ade o an >V3cured acr1late 'aterial#
The optical fber colors are stable during te'perature c1cling and do not subEect to
ading or s'earing onto each other or into the gel flling 'aterial#
With fber counts 'ore than $% fbers the indi0idual fbers are bundled up into singlegroups o or instance $% colored fbers# These groups are held together b1 colored1arns9 hich ollo the sa'e color code as described or the fbers# :1 color coding oboth9 the fbers and the 1arns9 an un'ista/able identifcation o each fber in the buertube is ensured# Thus each fber is indi0iduall1 accessible# It can easil1 be separated andused at Eoints using con0entional splicing 'achines#
"#" Cable core& 2lu'inu' central buer tube
The cable design is based on a central alu'inu' buer tube9 that 'eans the applicationo the ell /non loose buer tube techniBue#
This buer tube usuall1 contains se0eral fbers9 the identifcation o hich is ensured b1the color code described in chapter "#%# The fbers lie loosel1 in the tube# 2part ro' thefbers9 the buer tube is flled ith a non3h1groscopic9 non3nutriti0e to ungus9electricall1 non3conducti0e9 ho'ogenous9 paraDn oil based gel in order to pre0entater penetration and 'igration# The gel is ree ro' dirt and oreign 'atter and can bereadil1 re'o0ed ith con0entional non3to8ic sol0ents#
One outstanding eature o the central alu'inu' buer tube is the act9 that9 b1 'eanso a special 'anuacturing 'ethod9 the optical fbers are housed helicall1 in the centraltube# 2s a result the fbers are longer than the cable# The standard fber e8cess length(7.!) is F @9" #
This 7.! ensures a suitable operating indo9 ithout an1 fber strain9 up to *@ ;TSo the cable#That 'eans9 i a tensile orce is applied to the cable and hence to the central buertube9 a ide range o cable3 A buer tube3elongation ill not lead to fber strain9 that'eans no increase in attenuation#2 closer loo/ at the fbers in case o 0er1 strong cable elongation ('ore than *@ ;TS)re0eals the 'ain ad0antage o the central buer tube design# .0en i the cable isstressed up to its brea/ing load the fbers sta1 in the center o the buer tube# That'eans9 attenuation increase due to 'icrobending eects beteen the inner all o thecentral buer tube and the fbers ill not occur#
-ue to the central alu'inu' buer tube ith its 7.!9 the hole cable design is9 ithin aide range9 insensiti0e to e8ternal inuences# The central buer tube is shoing best
peror'ance at te'perature induced contractions or tensile stressing o the cable#These OPGW can e0en sur0i0e stor's and se0ere icing ithout fber elongation# Thecentral buer tube is a good protection against lateral co'pression as ell#
CCS P!= .>-ocu'ent& Generic?Spec?OPGW ;e0#& %-ate& 2ugust %@@$ A $"
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"# Cable ar'oring
In order to protect the optical fbers ithin the central buer tube ro' e8ternalinuences9 OPGW cables are 'ade up o one or 'ore la1ers o ar'oring ires or strainrelie and protection against buc/ling# The ar'oring consists o alu'inu'3allo1 ires(22) and A or alu'inu'3cladsteel ires (2CS)#The cross3section o the indi0idual 'aterial depends on the electrical and 'echanicalreBuire'ents and is tailored to suit the needs o the custo'er#
The used ar'oring ires are described in the olloing standards&
3 22 ires according to I.C +@$@ 2
3 2CS ires according to I.C +$%"% %@S2A2
The standard stranding direction o the outer la1er is right hand la1# The other la1erschange ro' right hand la1 to let hand la19 starting ro' the outer la1er to the innercore#Hoe0er on reBuest other la1 directions are possible#
;egarding en0iron'ental conditions the OPGW 'eet the olloing te'perature ranges&
Transport and Operation & 3@C to ,@C#
Installation & 3$@JC to *@JC#
"#* Standard OPGW design a'ilies
Cable design standardi-ocu'ent& Generic?Spec?OPGW ;e0#& %-ate& 2ugust %@@$ * A $"
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Tests
#$ General
There are dierent test series to assure the Bualit1 o the OPGW& ;outine test (in3process testing according to internal Bualit1 plan)
7actor1 acceptance test (72T9 itnessed b1 custo'er)
T1pe test (onl1 in case o a basic ne design9 repetition in e8ceptional cases onl1)
2s a general rule the tests ill be peror'ed according I.C +@4533$#
Hoe0er9 i necessar1 tests according I... Std$$", are possible#
In all cases the actual test ite's to be peror'ed and the criteria or each test ha0e tobe deter'ined in accordance ith agree'ent beteen purchaser and 'anuacturer#
Routine Test
The optical attenuation coeDcient on all production cable lengths is 'easured accordingtoI.C +@45"3$3C$C (:ac/3scattering techniBue9 OT-; )#
Standard single3'ode fbers are 'easured at $"$@ n' and at $**@ n'#
on3
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The olloing table shos the three dierent test progra's&
#o$tine %&T T'pe Test Test Proced$re
Test on fbers
=ode feld dia'eter L I.C +@45"3$3C5:Geo'etric para'eter L I.C +@45"3$32%L2ttenuation (OT-;) L L L I.C +@45"3$3C$CSpectral attenuation L I.C +@45"3$3C$2Chro'atic dispersion L I.C +@45"3$3C*2Cut3o a0elength (cable cuto)
L I.C +@45"3$3C4:
Test on wires beore
stranding
-ia'eter L L L See chapter *#%#$Tensile strength L L L See chapter *#%#%.longation at brea/ L L L See chapter *#%#"Wrapping test L L L See chapter *#%#Conducti0it1 L L L See chapter *#%#*Thic/ness o 2l3cladding L L L See chapter *#%#+Torsion test L L L See chapter *#%#4
Tests on OPGW
6ualit1 o surace L L L See chapter *#"#$-ia'eter o cable L L L See chapter *#"#%-ia'eter o buer tube L L L See chapter *#"#"!a1length L L L See chapter *#"#Position o ires L L L See chapter *#"#*7iber e8cess length L L L See chapter *#"#+Cable eight L L See chapter *#"#4-C3resistance L L See chapter *#"#,Stress Strain Test L I.C +@4533$ Clause
,#$Tensile peror'ance test L I.C +@4533$ Clause
,#%Shea0e test L I.C +@4533$ Clause
,#"2eolian 0ibration si'ulation L I.C +@4533$ Clause
,##Galloping test L I.C +@4533$ Clause
,#*Creep test L I.C +@4533$ Clause
,#+Te'perature c1cle test L I.C +@4533$ Clause
,#4Water penetration L I.C +@4533$ clause
,#,Short circuit current test L I.C +@4533$ Clause,#5
!ightning test L I.C +@4533$ Clause
CCS P!= .>-ocu'ent& Generic?Spec?OPGW ;e0#& %-ate& 2ugust %@@$ 4 A $"
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,#$@
CCS P!= .>-ocu'ent& Generic?Spec?OPGW ;e0#& %-ate& 2ugust %@@$ , A $"
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#% Tests on ires
The ires are tested beore stranding according to the olloing standards#
2lu'inu' M 'agnesiu' M silicon allo1 ires (22) I.C +@$@ 22lu'inu'3clad steel ires (2CS) I.C +$%"% %@S2A2
The tests are peror'ed according to an internal rando' test plan#
#%#$ -ia'eter
The ire dia'eter is the a0erage 0alue deri0ed ro' to 'easure'ents at the sa'epoint under an angle o 5@J# The 'easure'ents are carried out ith a 'icro'eterscre#
#%#% Tensile strength
The tensile strength test is peror'ed ith a tension and elongation de0ice9 regulated
and recorded b1 a co'puter#
#%#" .longation at brea/
The elongation at brea/ test is peror'ed ith a tensile and elongation de0ice9regulated and recorded b1 a co'puter# Test =ethod on unar'ored ire (inco'ing test)#
#%# Wrapping test
The test is peror'ed in accordance ith the reBuired ire specifcation (specifednu'ber o indings9 turned around a 'andrel ith ire dia'eter)#
#%#* Conducti0it1
The conducti0it1 is 'easured on a sa'ple o $' in an electric -C resistance bridge# The'easured 0alue then is con0erted into the resistance 0alue at a te'perature o %@JC b1a co'puter#
#%#+ Thic/ness o 2l3cladding
The thic/ness o 2l3cladding (2CS3ires onl1) is 'easured ith a profle proEector on apolished cross3section o the ire#
#%#4 Torsion test
The test is peror'ed in accordance ith the reBuired ire specifcation (specifednu'ber o turns on the ire in a8ial direction)
CCS P!= .>-ocu'ent& Generic?Spec?OPGW ;e0#& %-ate& 2ugust %@@$ 5 A $"
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#" Tests on fnished OPGW
#"#$ 6ualit1 o surace
Visual inspection i there are no scratches and da'ages or e8a'ple loose and
upstanding ires#
#"#% -ia'eter o cable
The dia'eter o the cable is 'easured ith a dia'eter 'easuring tape#
#"#" -ia'eter o buer tube
The dia'eter o the buer tube is 'easured ith a dia'eter 'easuring tape or ith aslide caliper rule#
#"# !a1length
The la1length is 'easured on a straight length o the OPGW# This 'easure'ent is
carried out in the ar'oring line hile the cable is under so'e tensile load#
#"#* Position o ires
Witness test9 co'parati0e ith the OPGW data sheet#
#"#+ 7iber e8cess length
The optical fbers are housed helicall1 in the central tube9 so that the fber is longer thanthe cable# 7or deter'ining the 7.! the fbers are separated ro' a cable sa'ple (e#g# *') and the dierence o the length (fber M cable) is 'easured 'echanicall1#The fber e8cess length is defned as the ratio & (fber length M cable length) A cablelength#
#"#4 Cable eight
The cable eight is 'easured on a sa'ple o appro8# $' ith a balance#
#"#, -C resictance
The conducti0it1 is 'easured on a sa'ple o $' in an electric -C resistance bridge# The'easured 0alue then is con0erted into the resistance 0alue at a te'perature o %@JC b1a co'puter#
#"#5 Special t1pe tests
These special tests are intended to 0eri1 the basic design concept#;epeat o these or selected tests are necessar1 i there is a signifcant change in the
optical unitor 'aterial used in the OPGW#General results ro' t1pe tests on OPGW o si'ilar design 'a1 be e0aluated#In case o no acceptance o si'ilar t1pe test reports9 the tests can be peror'ed to theappropriate costs#
Stress strain test I.C +@4533$ Clause ,#$Tensile peror'ance test I.C +@4533$ Clause ,#%Shea0e test I.C +@4533$ Clause ,#"2eolian 0ibration si'ulation I.C +@4533$ Clause ,##Galloping test I.C +@4533$ Clause ,#*Creep test I.C +@4533$ Clause ,#+
Te'perature c1cle test I.C +@4533$ Clause ,#4Water penetration I.C +@4533$ Clause ,#,Short circuit current test I.C +@4533$ Clause ,#5!ightning test I.C +@4533$ Clause ,#$@
CCS P!= .>-ocu'ent& Generic?Spec?OPGW ;e0#& %-ate& 2ugust %@@$ $@ A $"
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* Pac/aging
The cables are supplied on a non3returnable ooden dru'# .ach length o cable isound on a separate dru'#
7ig# % & =ain di'ensions o standard OPGW deli0er1 dru's
The standard lagging consists o e8ible pac/aging and causes onl1 a 'ini'al increaseo eight#I reBuired9 ooden lagging can be used#
-epending on the cable dia'eter there are dierent lengths or each cable design9hich can be deli0ered on a certain dru'# 2n o0er0ie about the reel si-ocu'ent& Generic?Spec?OPGW ;e0#& %-ate& 2ugust %@@$ $$ A $"
eel si
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Product Specifcation or Optical Ground Wire Cables
2nne8 2$& Standard OPGW Cable9 Single !a1er -esign
OPGW Codee#g#&S%@& Single !a1er 2r'oring Short Circuit T1pe$*A%5& 22A2CS Cross Section (''%)%.5 & =a8# 7iber Count 7iber T1pe(.5 Standard Single =ode 7iberQ .$@ !.27)(or $%.5)& Other possible 7iber Counts 7iber T1pes
IRtShortCircuit
Capacit1Tinit@JC
/2R sU
OPGW''U
Weight/gA/'U
;TS(;ated
TensileStrength)
/U
>TS(>lti'ateTensile
Strength)/U
;-COh'A/'
U
=oduluso
.lasticit1/A''R
U
Ther'alCoeDcient $@3+AU
!oad:earingCross
Section''RU
S20 - 15/29 - 24E9 (or 12E9) 17 10.0 280 39 44 0.92 127 14.5 44
S20 - 00/44 - 24E9 (or 12E9) 17 10.0 340 53 59 1.22 162 13.0 44
S20 - 00/49 - 48E9 (or 36E9;24E9;12E9) 23 10.8 385 59 65 1.06 162 13.0 49
S20 - 00/57 - 24E9 (or 12E9) 25 11.0 425 68 75 1.04 162 13.0 57
S20 - 25/25 - 48E9 (or 36E9;24E9;12E9) 27 10.8 285 36 40 0.72 110 15.6 49
S20 - 28/28 - 24E9 (or 12E9) 30 11.0 310 42 47 0.68 110 15.6 57
S20 - 29/20 - 48E9 (or 36E9;24E9;12E9) 30 10.8 265 32 35 0.68 99 16.5 49
S40 - 00 68 - 36E9 (or 24E9;12E9) 35 12.1 510 80 89 0.88 162 13.0 68
S40 - 00/59 - 96E9 (or 84E9;72E9;60E9;48E9) 35 12.4 475 71 78 0.82 162 13.0 59
S40 - 29/29 - 96E9 (or 84E9;72E9;60E9;48E9) 42 12.4 360 44 49 0.57 110 15.6 59
S40 - 34/34 - 36E9 (or 24E9;12E9) 43 12.1 375 50 55 0.57 110 15.6 68
S40 - 00/81 - 48E9 (or 36E9;24E9;12E9) 47 13.2 605 93 103 0.75 162 13.0 81S40 - 42/21 - 48E9 (or 36E9;24E9;12E9) 48 12.0 315 37 42 0.53 92 17.1 64
S60 - 41/41 - 48E9 (or 36E9;24E9;12E9) 58 13.2 445 58 64 0.48 110 15.6 81
S60 - 31/61 - 84E9 (or 72E9;60E9;48E9;36E9;24E9) 62 14.4 570 78 87 0.48 127 14.5 92
S60 - 51/26 - 60E9 (or 48E9;36E9;24E9;12E9) 68 13.1 380 45 50 0.45 92 17.1 77
S80 - 61/20 - 48E9 (or 36E9;24E9;12E9) 78 13.2 360 40 45 0.41 83 18.1 81
S100 - 61/31 - 84E9 (or 72E9;60E9;48E9;36E9;24E9) 94 14.4 450 52 58 0.38 92 17.1 92
CCS P!=-ocu'ent& GS OPGW ;e0#& %
-ate& 2ugust %@@$ $"A$"
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2nne8 2%& Standard OPGW Cable9 -ouble !a1er -esign
OPGW Codee#g#&-$%@& -ouble !a1er 2r'oring Short Circuit T1pe@4A& 22A2CS Cross Section (''%)%.5 & =a8# 7iber Count 7iber T1pe(.5 Standard Single =ode 7iberQ .$@ !.27)(or $%.5)& Other possible 7iber Counts 7iber T1pes
IRtShortCircuit
Capacit1Tinit@JC
/2R sU
OPGW''U
Weight/gA/'U
;TS(;ated
TensileStrength) /U
>TS(>lti'ate TensileStrength
) /U
;-COh'A/'U
=oduluso
.lasticit1/A''RU
Ther'alCoeDcient $@3
+AU
!oad:earingCross
Section''RU
D120 - 074/44 - 24E9 (or 12E9) 111 15.0 545 74 83 0.33 96 16.7 118
D140 - 079/49 - 48E9 (or 36E9;24E9;12E9) 131 15.8 605 82 91 0.31 97 16.6 128
D140 - 088/29 - 24E9 (or 12E9) 132 15.0 485 61 68 0.31 83 18.1 118
D160 - 103/15 - 24E9 (or 12E9) 154 15.0 425 47 53 0.28 70 20.1 118
D160 - 092/44 - 24E9 (or 12E9) 154 16.0 595 80 89 0.28 91 17.2 136
D160 - 098/29 - 48E9 (or 36E9;24E9;12E9) 162 15.8 525 64 71 0.28 81 18.4 128
D180 - 108/20 - 48E9 (or 36E9;24E9;12E9) 178 15.8 485 55 61 0.26 73 19.6 128
D180 - 088/59 - 96E9 (or 84E9;72E9;60E9;48E9) 177 17.4 725 96 107 0.26 99 16.5 147
D180 - 107/29 - 24E9 (or 12E9) 179 16.0 535 66 74 0.26 80 18.6 136
D180 - 099/49 - 48E9 (or 36E9;24E9;12E9) 184 16.8 660 88 97 0.26 92 17.1 148
D200 - 121/15 - 24E9 (or 12E9) 205 16.0 480 53 59 0.25 68 20.4 136
D220 - 124/25 - 48E9 (or 36E9;24E9;12E9) 229 16.8 560 65 73 0.23 74 19.4 148
D240 - 118/29 - 96E9 (or 84E9;72E9;60E9;48E9) 230 17.4 605 69 77 0.23 78 18.8 147
D260 - 127/42 - 48E9 (or 36E9;24E9;12E9) 266 18.0 695 88 98 0.22 83 18.1 170
D320 - 148/21 - 48E9 (or 36E9;24E9;12E9) 311 18.0 610 68 76 0.20 70 20.1 170
D380 - 154/51 - 60E9 (or 48E9;36E9;24E9;12E9) 383 19.7 835 105 117 0.18 83 18.1 205
D460 - 180/26 - 60E9 (or 48E9;36E9;24E9;12E9) 450 19.7 735 82 91 0.17 70 20.1 205
CCS P!=-ocu'ent& GS OPGW ;e0#& %
-ate& 2ugust %@@$ $A$"
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2nne8 :& ;eel si