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GENERAL TECHNICAL INFORMATION
Contents
Basic design elements for insulated wires and cables 185
Common insulation and sheathing materials (polymers) and their use 186
Properties of insulation and sheathing materials of cables and wires 187
Type codes for harmonised insulated wires 188
Type codes for power cables 189
Type codes for telecommunication cables 190
Terms for cables relating to their behaviour in case of fire 191
Core identification 192
Colour codes for insulated wires and power cables according to HD 308 S2 192
Colour codes for installation cables JE-LiYCY and JE-Y(St)Y ... Bd according to VDE 0815 192
Colour code for telecommunications cables according to VDE 0815 193
Colour code for telecommunication cables according to EN 60708 194
Packing 195
Drum capacity 195
Standard delivery drums 196
GENERAL TECHNICAL INFORMATION
Basic design elements for insulated wires and cables
ConductorConsists of one or more metal wires and is used for transportation of electric current.
Round, solid (RE) For small and medium diameter or cross-sections, made of copper (bare or tinned) up to 16 mm2 and of aluminium up to 35 mm2. Used in single- and multi-core cables and wires for fixed installation. Round, stranded (RM) For medium and large cross-sections of copper-conductors from 6 mm2 and aluminium conductors from 25 mm2. Used in single- and multi-core cables and wires for fixed installation.
Round, stranded, compressed (RM) For particularly compact conductors of medium and large cross-section made of copper from 6 mm2 and aluminium from 16 mm2. For use in single- and multi-core cables and wires for fixed installation.
Fine or superfine-wire (F)For all cross-sections of copper-conductors (bare or tinned). Used for flexible cables.
Sector-shaped, solid (SE)For medium and large cross-sections of aluminium conductors from 50 mm2 up to 240 mm2. Used for 3-, 31/2-, 4- and 5-core cables.
Sector-shaped, stranded (SM)For medium and large cross-sections of copper and aluminium conductors from 35 mm2 up to 300 mm2. Used for 3-, 31/2-, 4- and 5-core cables.
Core insulationCovers the conductor and is used for electrical separation from the surroundings. Mainly made of extruded polymers but also of paper, glass or minerals, varnish etc or a combination of several of these materials. Conductor and insulation together form the core.
Inner covering, taping Covers the stranded core consisting of several or many cores and is used for filling the interstices between the stranding-elements, maintaining a round shape of the cable. The inner covering has mostly no electrical function and consists usually either of extruded polymers, of one or more layers of tape or a combination of these elements.
ScreenPrevents electrical influences (electric fields) from reaching elements within the screen or electric fields generated by these elements from penetrating outside by conductance. Consists of metallic tapes (e.g. copper or aluminium), laminated metallic tapes, wires, wire braids or a combination of these elements.
ArmouringUsually arranged over the jacket, the armouring provides mechanical reinforcement of the cable jacket. The armouring protects the interior of the cable from damage which may arise from radial forces (e.g. running over by vehicles or pressure of stones in the cable bed etc.) Under certain circumstances, the armouring can take over or assist the electrical function of the screen. Tapes as well as round or flat wires made of galvanized steel or aluminium are usually used as armouring material. If protection against chewing damage by rodents is merely required, thin, bare steel tapes are usually used. Non-metallic designs as protection against chewing damage by rodents or termites are provided by reinforcing the jacket with HDPE and PP.
Sheath, outer coveringFunctions as the outermost cover of a cable or insulated wire and is used as mechanical protection, as protection against water penetration and as protection against chemical influences. Mostly made of extruded polymers, but also of metal (lead, aluminium), impregnated fabric tapes etc.
SCHWECHATER KABELWERKE
SKW.AT | MEMBER OF SKB-GROUP
GENERAL TECHNICAL INFORMATION
Common insulation and sheathing materials (polymers) and their use
Polymers Designs Examples of usage
ThermoplasticsNon-cross-linked plastics which undergo reversible plastic deformation at higher temperatures, i.e. which do not harden after cooling and remelting.
Polyvinyl chloride PVC Cables and insulated wires for fixed installation and flexible cables, low-voltage cables for utility networks
Thermoplastic polyethylene PE Low-voltage cables for utility networks subject to fairly high mechanical stressing, insulated overhead lines
Polypropylene PP Environmentally friendly clad leads
Fluoropolymers ETFE, FEP Cables for fixed installation under particularly unfavourable ambient conditions, cables in turbines
Polyamide PA
ThermosetsCross-linked plastics which are no longer deformable at higher temperatures and exhibit certain thermoelastic properties at this temperature and which are re-established after cooling and re-melting.
Cross-linked polyethylene PE(XLPE)
Low-, medium- and high voltage cables, insulated overhead lines
Cross-linked polyvinyl chloride VPVC Heat-resistant insulated wires, e.g. for connecting irons
Thermoplastic elastomersBlends of polyolefins and rubber having amorphous and crystalline regions which undergo reversible plastic deformation at higher temperatures and exhibit rubber-elastic properties without cross-linking at usage temperatures.
Thermoplastic polyurethane elastomer TPE-U
Control cables in cable drag chains
Thermoplastic polyester elastomer TPE-E
Cables for particular thermal and mechanical stresses
Thermoplastic polyolefin elastomer TPE-O
Cables for particular thermal and mechanical stresses
ElastomersCross-linked rubber-like polymers which exhibit rubber-elastic properties at usage temperatures and are no longer plastically deformable at higher temperature.
Ethylene propylene rubber (EPR):EPDM, EPM
Flexible cables for low- and medium voltage, low- and medium-voltage cables
Silicone rubber SiR Heat-resistant insulated wires for temperatures up to 180 °C (up to 250 °C for a short time)
Natural rubber NR
Polychloroprene CR Sheathing material e.g. for flexible cables
Ethylene vinyl acetate (EVA) Heat-resistant insulated wires for temperatures up to 110 °C
DuroplasticsCross-linked shape-stable plastics produced from curable resins.
Polyurethane (PUR) Casting resins for cable fittings
Epoxy resin EP
Special compounds Flame-retardant, halogen-free polymer compounds, non-cross-linked HFFR
Flame-retardant, halogen-free safety cable for protecting high concentrations of people and material goods
Flame-retardant, halogen-free polymer compounds, cross-linked HFFR
Flame-retardant, halogen-free safety cable for protecting high concentrations of people and material goods
GENERAL TECHNICAL INFORMATION
Properties of insulation and sheathing materials of cables and wires
Mat
eria
lAb
bre-
viat
ion
Abbr
e-vi
atio
n ac
cord
ing
to V
DE
Ope
ratin
g te
mpe
ra-
ture
(°C)
Die
lect
ric
cons
tant
(1
0-3)
Spec
ifi c
insu
latio
n re
sist
ance
(Ω
x c
m)
Tens
ile
stre
nght
N
/mm
2 M
Pa
Elon
gatio
n at
bre
ak
%
Wat
er a
b-so
rptio
n (2
0 °C
) %
Wea
ther
re
sist
-an
ce
Fuel
re
sist
-an
ce
Oil
resi
st-
ance
Flam
mab
ility
Bio
-oil
resi
stan
t M
ater
ial
P4/1
1–
-40
+12
02.
410
1510
–20
450–
550
1–2
very
goo
dgo
odB
io-o
il re
sist
ant
ver
y go
odfl a
mm
able
Poly
viny
l chl
orid
ePV
CY
-30
+70
4.0
1012
–10
1510
–25
150–
300
0,4
mod
erat
em
oder
ate
good
self-
extin
guis
hing
Poly
viny
l chl
orid
e he
at-r
esis
tant
PVC
Y-2
0+
903.
510
12–
1015
10–
2515
0–30
00,
4m
oder
ate
mod
erat
ego
odse
lf-ex
tingu
ishi
ng
Low
den
sity
po
lyet
hyle
neLD
PE2Y
-50
+70
2.3
1017
20–
3050
00,
1go
odlo
wm
oder
ate
fl am
mab
le
Hig
h de
nsity
po
lyet
hyle
neH
PDE
2Y-5
0+
100
2.3
1017
3080
00,
1m
oder
ate
low
mod
erat
efl a
mm
able
Poly
uret
hane
PUR
11Y
-40
+90
/100
4.0–
6.0
1012
30–
4530
0–60
01,
5ve
ry g
ood
good
good
self-
extin
guis
hing
*
Poly
amid
ePA
4Y-4
0+
803.
5–7.
010
1450
–18
020
0–30
01–
2go
odm
oder
ate
good
fl am
mab
le
Poly
buty
lene
te
reph
thal
ate
PBTP
–-6
0+
110
3.0–
4.0
1016
50–
100
50–
300
0,5
good
good
good
fl am
mab
le
Poly
tetr
afl u
oro-
ethy
lene
PTFE
5Y-1
90+
260
2.1
1018
14–
4024
0–40
00,
01ve
ry g
ood
very
goo
dve
ry g
ood
non-
fl am
mab
le
Fluo
rinat
ed e
thyl
ene
prop
ylen
eFE
P6Y
-100
+20
02.
110
1820
–25
250–
350
0,01
very
goo
dve
ry g
ood
very
goo
dno
n-fl a
mm
able
Ethy
lene
te
trafl
uor
oeth
ylen
eET
FE7Y
-100
+15
02.
610
1640
–50
100–
300
0,01
very
goo
dve
ry g
ood
very
goo
dno
n-fl a
mm
able
Perfl
uoro
alko
xy
poly
mer
PFA
–-1
90+
260
2.1
1015
3030
00,
01ve
ry g
ood
very
goo
dgo
odno
n-fl a
mm
able
Poly
chlo
ropr
ene
CR5G
-40
+10
06.
0–8.
010
1325
450
1ve
ry g
ood
low
good
self-
extin
guis
hing
Silic
one
rubb
erSI
2G-6
0+
180
2.8–
3.2
1015
5–10
200–
350
1ve
ry g
ood
low
mod
erat
efl a
me
reta
rdan
t
Ethy
lene
vin
yl a
ceta
teEV
A4G
-30
+12
55–
710
135
200
0,01
good
low
low
fl am
mab
le
Ethy
lene
Pro
pyle
ne
rubb
erEP
M/
EPD
M3G
-30
+12
03.
210
142–
2520
0–45
00,
02go
odlo
wlo
wfl a
mm
able
Ther
mop
last
ic
poly
olefi
n e
last
omer
TPE-
O–
-40
+12
02.
7–3.
65
x 10
14≥
6≥
400
1,5
very
goo
dm
oder
ate
mod
erat
efl a
mm
able
Ther
mop
last
ic
poly
este
r ela
stom
erTP
E-E
12Y
-70
+12
53.
7–5.
110
123–
2528
0–65
00,
3–0,
6ve
ry g
ood
good
very
goo
dfl a
mm
able
Styr
enic
blo
ck-
copo
lym
erTP
E-S
–-7
5+
105/
140
2.2–
2.6
1016
9–25
500–
700
1–2
mod
erat
ego
odlo
wfl a
mm
able
* O
nly
with
add
ition
al fl
ame
reta
rdan
ts
GENERAL TECHNICAL INFORMATION
Type codes for harmonised insulated wires
Code for standard
Harmonised standard H Austrian national type AT-N
Protective conductor
X Without protective conductorG With protective conductor
Conductor design
–U Solid wire–R Stranded wire–K Fine wire (for fi xed installation)–F Fine wire (for fl exible cables)–H Super-fi ne wire
(for fl exible cables)–Y Tinsel wire–D fl exible (for welding cables)–E Super-fl exible (for welding
cables)
Rated voltage U0/U
100/100 V 01300/300 V 03300/500 V 05450/750 V 07 0.6/1 kV 1
Special design
Flat, separable HFlat, non-separable H2
Central element D5
Insulation material
PVC VNatural and synthetic rubber R
Silicone rubber SXLPE X
Flame-retardant, halogen-free polymer compounds, cross-
linked
Z
Flame-retardant halogen-free compounds, non-cross-linked
Z1
Jacketing material
PVC VNatural and synthetic rubber R
Chloroprene rubber NChloroprene rubber (special compound)
N2
Glass fi bre braid JTextile braid T
Textile braid, mass impregnated, fl ame retardant
T2
Conductor cross-section
Number of cores
Example: H03VV-F 3G1.5Light PVC flexible cable,
fine-wire 3 x 1.5 mm2
GENERAL TECHNICAL INFORMATION
SCHWECHATER KABELWERKE
SKW.AT | MEMBER OF SKB-GROUP
- Code for the type - Code(s) for the cable design - Number of cores x nominal conductor cross-section- Code(s) for core identification
- Code for the conductor design- If necessary after a slash: Nominal cross-section of
the screen or concentric conductor
- Code for core identification- Code for rated voltage - Code for additional information
Type codes for power cables
Design- / code element Energy cables according to TP PRAKAB
Halogen-free energy cables according to
TP PRAKAB
Cables according to DIN VDE and ÖVE
Standard TP Prakab 01/03 and 02/08
TP Prakab 02/99, 02/04, 01/05,
and 03/05
DIN VDE 0266, 0276-603, -604, -620,
-627
ÖVE/ÖNORM E 8200-603, -604,
-620, -626, -627TypeStandard type - - N -Power cable - - - E-
Special design - - - X
Rated voltage U0/U300/500 V 05 05 - -0.6/1 kV 1 1 - -
ConductorCu C C no code no codeAl A A A (only 0276) ATinned conductor - - VConductor covered (taping) - no code no code F
InsulationPVC Y - Y YPE - - 2Y 2YVPE - X 2X 2XHalogen-free polymer compounds, non cross-linked - H - NYHalogen-free polymer compounds, cross-linked - - HX NG, 3G
Special structural featuresCable, unscreened K K - -Cable, fl at with web M - - -Cable, aluminium tape screened - F - -Cable, fl exible - T - -Cable, fl exible screened - TF - -
Screen, concentric conductorConcentric conductor (Cu, conventionally stranded) C - C CConcentric conductor (Cu, wave-form) - - CW CCu screen F - S CCu screen (longitudinally water-proof) - - S(F) CJIndividual Cu screen over each core - - SE CE
Sheath, inner coveringPb - - K MPVC Y - Y YPE 2Y - 2Y 2YHalogen-free polymer compounds, non cross-linked - - H NYHalogen-free polymer compounds, cross-linked - H HX NG
Armouring/cable structureSteel tape P D1 B BSteel fl at wire - - F FSteel round wire D D R RSteel tape (counter helix) - - G GCable, fl at Lo - - -Cable, self-supporting Z - - -
Outer coveringPVC Y - Y YPE 2Y - 2Y 2YHalogen-free polymer compounds, non cross-linked - H H -
Protective conductorWith protective conductor -J -J -J -JWithout protective conductor -O -O -O -O
Insulation / Circuit IntegrityHalogen-free, without insulation/circuit integrity - -R - FRHHalogen-free, with insulation integrity ...minutes - -V ... FE ... FE ...Halogen-free, with circuit integrity ...minutes - - E .. E ..
The complete cable code consists of (according to each standard different composition and structur):
Example: NHXCH 4 x 2.5 RE/2.5 0.6/1 kV FE180/E30, 1-CXKH-V180 -J 4 x 25 RM
GENERAL TECHNICAL INFORMATION
Type codes for telecommunication cables
Design- /code element Telecom. cable according to TP PRAKAB Telecom. cable according to DIN VDETypeTelecommunication cable - -Outdoor cable T A-Outdoor cable with protection against interference - AJ-Installation cable S J-Installation cable for industrial electronics - JE-Switchboard cable - S-
Special design - -
ConductorCu C no codeTinned conductor - -InsulationPaper - PPVC Y YPE E 2YXLPE X -Foam-PE - 02YFoam-PE with skin of solid PE EP 02YSHalogen-free polymer compounds, non cross-linked H H
Design of coreNo fi lling of cable cavities K -Jelly fi lling of cable cavities KP F
ScreenStatic screen, laminated Al-tape F (St)Cu screen - C, KIndividual screen - -
Sheath, inner coveringPb - MAl-tape, taped F -Al laminated sheath, longitudinallly applied FL (L)2YPVC Y YPE E -Halogen-free polymer compounds, non cross-linked H H
ArmouringSteel tape - bSteel fl at wire - -Steel round wire D -Steel tape (counter helix) - -Steel wire braid - QAl round wire Z -
Outer coveringMass-impregnated jute - cPVC Y YPE E 2Y
Strain-bearing elementStrain-bearing element, supporting element S T
Stranding elementsPairs - PPairs, individually screened with metal tape - PiMFStar-quads - StStar-quads in long distance cables - St IStar-quads in local cables - St IIIMultiple-twin quad cables - DMStranded in layers - LgStranded in groups - Bd
Insulation / Circuit integrityHalogen-free, without insulation/circuit integrity -R FRHHalogen-free, with insulation integrity ...minutes -V ... FE ...Circuit integrity ... minutes - E ...
- Code for the type- Code(s) for the cable design
- Number of elements x number of cores per element x conductor diameter
- Codes for the stranding elements and the kind of stranding
- Codes for additional information
The complete cable code consists of (according to each standard different composition and structure):
JE-H(St)H Bd 2x2x0.8 FE180/E30, TCEPKPFLE 50 x 4 x 0.8
GENERAL TECHNICAL INFORMATION
Terms for cables relating to their behaviour in case of fi re
Halogen free, non-corrosive combustion gasesThis property ensures that cable materials will generate zero or only small quantity of corrosive gases in case of fire. These gases can cause damage to machinery and other equipments without direct effect of fire. Cables with this property must comply with standard EN 60754.
Flame-retardant (“self-extinguishing”)This property ensures that a single cable will extinguish itself within a certain time after the ignition due to the use of almost non-flammable materials. Cables with this property must comply with standard EN 60332-1-2.
Enhanced flame-retardant (“reduced flame propagation”)This property ensures that there will be no spread of fire beyond the local source of ignition on bunched cables. Cables with this property must comply with standard EN 60332-3 series.
Low smoke emissionThis property ensures that a cable will generate only a minimum quantity of smoke in case of fire. Cables with this property must comply with standard EN 61034-2.
Insulation integrity (e.g. FE 180)This property ensures that a single cable will maintain insulation integrity for a certain time in case of fire. Cables with this property must comply with standards IEC 60331-21 or DIN VDE 0472-814.
Circuit integrity (e.g. E30, E90)This property ensures that a cable installation will maintain circuit integrity for a certain time in case of fire. It is important that in this case the entire cable system is considered, i.e. including installation materials (trays, ladders, cleats, etc.). Cables with this property must comply with standard DIN 4102-12.
GENERAL TECHNICAL INFORMATION
Coreidentifi cation
Cores in cables and insulated wires (except insulated overhead lines) are identified by the colour of the insulation and/or printed colours (numbers, rings) or longitudinal colour stripes. The following colour abbreviation are used:
Colour Abbreviation Colour Abbreviation
blue bu orange orbrown bn pink pkyellow ye red rdgrey gy black bk
green gn violet vtnatural nat white wh
In case of insulated overhead lines, the cores are identifi ed by longitudinal ribs on the insulation surface.
Colour codes for insulated wires and power cables according to HD 308 S2
Number of cores
Cables for fi xed
installation
Flexible cables
With green-yellow core Cables for fi xed
installation
Flexible cables
Without green-yellow core
1 –J 1G –O 1X and other colours
2 –O 2X
3 –J 3G –O 3X
4 –J 4G –O 4X
5 –J 5G –O 5X
6 or more
–J nGother coreswith printed numbers
–O nX with printed numbers
These rules are not valid for cables, which are exclusively used for internal wiring of electrical devices and control cabinets.
Colour codes for installation cables JE-LiYCY and JE-Y(St)Y ... Bd according to VDE 0815
Basic Colours
core Pair 1 Pair 2 Pair 3 Pair 4
a
b
The pairs within a group are identified by the basic colours of the insulation. These colours are repeated in each unit in the same order. In cables with 2 pairs (stranded as star-quad), the a-core (physical circuit 1) is bu, the b-core (physical circuit 1) is rd, the a-core (physical circuit 2) is gy and the b-core (physical circuit 2) is ye.
Group identification by printed helical tapes (“BdZ”)Groups are identified by helical plastic tapes which carry the printed group number.
Group identification by colour rings (“BdSi”) For the identification of groups, the cores contained therein are marked with colour rings. In cables with more than 12 groups, the additional groups are identified with coloured helical plastic tapes.
Number of group 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
Ring colour
Rin
g gr
oup
in g
roup
un
it
4 cores I I II II8 cores of 4 pairs I II III IV I II III IV I II III IV I II III IV I II III IVHelix
Ring-type IRing-type IIRing-type IIIRing-type IV
GENERAL TECHNICAL INFORMATION
SCHWECHATER KABELWERKE
SKW.AT | MEMBER OF SKB-GROUP
Coreidentifi cation
Colour code for telecommunications cables according to VDE 0815
J–Y(St)Y ... Lg
core Pair 1 Pair 2 Pair 3 Pair 4
a 1) 1) 1) 1) 1)
b
1) The colour of the a-core of the fi rst pair in each layer (counting pair) is red, in all the other pairs it is white.
For more that 5 pairs the colour code is repeated in the same sequence. In cables with 2 pairs (stranded as star-quad), the a-core (physical circuit 1) is rd, the b-core (physical circuit 1) is bk, the a-core (physical circuit 2) is wh and the b-core (physical circuit 2) is ye.
Number of pairs
Number of pairs per layer
1 2 3 4 5 6
2 2 1)
3 34 45 56 6
10 2 812 3 916 5 1120 1 6 1330 4 10 1640 1 7 13 1950 4 10 15 2160 1 6 12 18 23
100 2 8 14 20 25 31
1) In star quad stranding.
A-2Y(L)2Y, A-2YF(L)2Y, J-H(St)H...Bd
In order to identify the group, a group (tracer group) is identified with a helix of red plastic tape in each layer. The quads in each group are identified by the basic colour of the core insulation. The colours are repeated in each group in the same sequence.
Quad 1 Quad 2 Quad 3 Quad 4 Quad 5
To distinguish the individual cores of each quad these are identified by colour rings. a-core physical circuit 1b-core physical circuit 1a-core physical circuit 2b-core physical circuit 2
GENERAL TECHNICAL INFORMATION
Colour code for telecommunication cables according to EN 60708
Colour code for cores in basic groups
Core insulation colourQuad number (XN) a-core b-core c-core d-core
1 white blue turquoise violet2 white orange turquoise violet3 white green turquoise violet4 white brown turquoise violet5 white grey turquoise violet
Spare quad white blue turquoise violet
Colour code for main groups 25 XN and super groups 50 XN
Sub-group number Colour of the marking plastic tape
1 blue2 orange3 green4 brown5 grey6 white7 red8 black
cable core white
Note: Control wire by non-fi lled cables: a-core: red, b-core: white.
Colur code for basic groups 5 XN
Sub-group numberin each layer
Colour of the marking plastic tape
1 – Counting red2 – Guiding green
other + cable core white
Note: The centre of 35 XN cable core has a red marking tape.
12
34
5
b d
c a
Star quad
1 x 4 x 0,4 mm0,6 mm0,8 mm
3 x 4 x 0,4 mm0,6 mm0,8 mm
5 x 4 x 0,4 mm0,6 mm0,8 mm
20 x 4 x (4 x 5 XN)
0,4 mm0,6 mm0,8 mm
15 x 4 x (3 x 5 XN)
0,4 mm0,6 mm0,8 mm
10 x 4 x (2 x 5 XN)
0,4 mm0,6 mm0,8 mm
50 x 4 x ((3 + 7) x 5 XN)
0,4 mm0,6 mm0,8 mm
35 x 4 x ((1 + 6) x 5 XN)
0,4 mm0,6 mm0,8 mm
25 x 4 x (5 x 5 XN)
0,4 mm0,6 mm0,8 mm
150 x 4 x ((1 + 5) x 25 XN)
0,4 mm0,6 mm0,8 mm
100 x 4 x (4 x 25 XN)
0,4 mm0,6 mm0,8 mm
75 x 4 x (3 x 25 XN)
0,4 mm0,6 mm0,8 mm
400 x 4 x ((1 + 7) x 50 XN)
0,4 mm0,6 mm0,8 mm
300 x 4 x ((1 + 5) x 50 XN)
0,4 mm0,6 mm0,8 mm
200 x 4 x ((1 + 7) x 25 XN)
0,4 mm0,6 mm0,8 mm
(view of the cable beginning, from the centre of the drum)
(view of the cable beginning, from the centre of the drum)
Example:25 x 4 x 0,4is equivalent to5 x 5 XN x 0,4
Star quad can be marked by the symbol XN
GENERAL TECHNICAL INFORMATION
Packing
Type of packingR ........... RingSp ......... Plywood reelD ........... Wooden or steel drum
Drum capacityCable Length in m per standard supply drum and cable diameter Cable
Ø DA 06 DA 07 DA 08 DA 10 DA 12 DA 14 DA 16 DA 18 DA 20 DA 22 DA 24 DA 25 Ø6 1451 2277 3560 67 1054 1617 2622 78 811 1288 1993 4213 89 618 1020 1515 3244 9
10 523 806 1309 2668 1011 396 667 1048 2149 1112 356 560 877 1872 1213 297 479 768 1615 2287 1314 243 404 645 1278 1973 2891 1415 232 336 552 1217 1721 2556 1516 185 322 466 1039 1487 2195 1617 175 261 448 901 1304 1950 1718 143 249 371 772 1132 1817 1819 135 207 315 726 1069 1595 2488 1920 127 196 301 632 915 1387 2375 3389 2021 159 287 590 858 1312 2111 3054 2122 149 238 506 746 1159 1862 2736 2223 149 226 487 720 1091 1764 2608 2913 2324 213 468 618 951 1583 2316 2777 2425 183 393 595 920 1538 2256 2516 2526 172 377 572 859 1327 1985 2390 2627 360 480 736 1286 1781 2148 2488 2728 295 460 709 1131 1679 2032 2426 2829 281 440 682 1093 1629 1809 2302 2930 281 420 597 1056 1446 1756 2053 2477 3031 267 343 573 916 1400 1548 1996 2408 3132 253 343 549 882 1230 1500 1762 2144 2507 3233 211 326 525 848 1188 1451 1711 2081 2435 3334 199 326 450 754 1145 1403 1659 2018 2167 3435 199 309 429 724 1145 1219 1607 1777 2101 3536 187 257 409 694 992 1176 1400 1720 2035 3637 243 409 664 954 1176 1353 1663 1850 3738 243 389 581 954 1006 1306 1445 1791 3839 229 389 554 814 968 1161 1445 1731 3940 229 307 554 780 968 1120 1393 1671 4041 214 307 528 780 929 1078 1342 1504 4142 214 290 528 746 890 1078 1193 1450 4243 172 290 430 746 779 1037 1147 1397 4344 160 290 430 623 745 907 1147 1397 4445 160 273 407 623 745 871 1101 1194 4546 160 273 407 594 711 835 1055 1194 4647 256 407 594 711 835 923 1146 4748 205 385 564 677 798 883 1098 4849 205 385 564 581 798 883 1098 4950 205 385 564 581 798 883 1098 5051 191 302 458 552 653 843 919 5152 191 302 458 552 653 843 919 5253 191 302 433 523 622 803 877 5354 177 283 433 523 622 688 877 5455 177 283 433 523 622 688 836 5556 177 283 407 493 591 654 836 5657 264 407 411 591 654 836 5758 264 407 411 560 619 680 5859 264 339 387 467 619 680 5960 264 318 387 467 619 680 6061 318 387 467 619 645 6162 318 387 441 585 645 62
For fl at cables: thickness of fl at cable is cable diameter Cable length: length according to table x cable thickness/cable width
Standard delivery drums
d1 d2
b
Wooden drums
New drum designation
Size Flange diam. d1 mm
Max. winding diam.
Barrel diam. d2 mm
Winding width mm “b”
Weight kg
DA06 without helix 6 600 540 300 330 12DA07 without helix 7 700 640 350 370 20DA08 without helix 8 800 740 400 430 33
EA08 with helix 8 800 740 400 405 36DA10 without helix 10 1,000 940 550 600 65
EA10 with helix 10 1,000 940 550 580 68DA12 without helix 12 1,200 1,120 700 650 105
EA12 with helix 12 1,200 1,120 700 620 110DA14 without helix 14 1,400 1,320 850 750 170
EA14 with helix 14 1,400 1,320 850 720 175DA16 without helix 16 1,600 1,500 900 850 230
EA16 with helix 16 1,600 1,500 900 800 240DA18 without helix 18 1,800 1,700 1,000 950 320
EA18 with helix 18 1,800 1,700 1,000 900 330DA20 without helix 20 2,000 1,880 1,250 1,000 400
EA20 with helix 20 2,000 1,880 1,250 920 415DA22 without helix 22 2,200 2,000 1,300 1,100 450
EA22 with helix 22 2,200 2,000 1,300 1,020 465DA24 without helix 24 2,400 2,200 1,450 1,100 620
EA24 with helix 24 2,400 2,200 1,450 1,020 635DA25 without helix 25 2,500 2,300 1,500 1,150 800
EA25 with helix 25 2,500 2,300 1,500 1,070 820
Steel drums
New drum designation
Size Flange diam. d1 mm
Max. winding diam.
Barrel diam. d2 mm
Winding width mm “b”
Weight kg
10MC 100(3k) 1,000 940 600 575 5612MC 120(4k) 1,200 1,120 600 660 8215MC 150(5k) 1,500 1,400 750 940 15018MC 180(6k) 1,800 1,700 1,150 895 28020MC 200(7k) 2,000 1,800 1,200 895 38022MC 220(8k) 2,200 2,000 1,450 965 47525MC 250(ZF) 2,500 2,300 1,600 1,250 780
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WE MAKE NO COMPROMISES WHEN IT COMES TO QUALITY.QUALITY IS OUR TOP PRIORITY AND IS GUARANTEED BY BOTH
OUR STRINGENT IN-HOUSE TESTING AND INDUSTRY CERTIFICATION.
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