Cooper Industries Bussmann MV DIN English ()

Cooper Industries Bussmann MV DIN English ()
Circuit Protection Solutions
Medium Voltage DIN Fuses
Medium Voltage DIN Fuses
WORLDWIDE CIRCUIT PROTECTION SOLUTIONS
Cooper Bussmann is one of the world’s leading suppliers of fuse-links and
fusible protection systems. Provider of the world’s first truly global product
line, each product is backed by an efficient worldwide distribution network
service and unrivalled technical support. Cooper Bussmann® circuit protection
solutions comply with major international standards: BS, IEC, DIN and UL.
Cooper Bussmann® Medium Voltage fuses have absorbed and embodied the expertise and
experience of thirteen of the most prestigious manufacturers and are able to offer an
unbeatable range of products in terms of technical excellence, performance and quality.
Cooper Bussmann offer a wider range of Medium Voltage fuses than any other
manufacturers and types are available to meet most service applications. With over 50
years experience in design and manufacture, Cooper Bussmann have supplied fuselinks
to more than 90 countries worldwide.
Cooper Bussmann® Medium Voltage fuse-links are extremely effective in preventing
damage to a system in the event of a fault, due to considerable limitation of let-through
current in DIN and British Standard designs to the latest IEC requirements.
Cooper Bussmann are pioneers in the development of Full Range Medium Voltage fuselinks and is consequently the market leader in this field offering genuine full range
characteristics.
Cooper Bussmann’s team of specialist engineers play a leading role in international
standardisation of Medium Voltage fuses, offering a comprehensive service of advice, on
selection and applications.
With a continual commitment to meet our customers’ needs, with innovative, high quality
products with ISO 9002 ‘approved systems’, Cooper Bussmann is the suppliers’ choice for
Medium Voltage Circuit Protection Solutions.
Medium Voltage DIN Fuses
Medium Voltage DIN Fuses
Table of Contents
Introduction
Features & Benefits
3.6kV
7.2kV
12kV
17.5kV
Page
2-4
5
6
7
8
9
24kV
10
Fuse-Links Bases
12
36kV
Applications
Cross-Reference
Striker Force Diagrams
Part Referencing System
11
13 - 14
15
16
17
Medium Voltage DIN Fuses
Introduction
Offering unparalleled short-circuit interruption capabilities, medium voltage current-limiting fuse-links are the principle protection
device used by electrical utilities and switchgear manufacturers throughout the world. Safe, reliable, environmentally friendly and
cost effective, medium voltage fuse-links are the protection device of choice for distribution transformer circuits due to their
speed of operation and current limiting ability in the event of a short-circuit fault.
The diagram below shows the operation of a fuse-link interrupting a short circuit fault, achieving a current zero well within the
first half-cycle of a fault. Energy let-through into the site of a fault maybe typically only 1/500th that any other type of
switching device.
RMS
amps
lt
2
Time in seconds
Peak amps
l
2
The speed of operation reduces the effect of short circuit currents, dramatically limiting the energy delivered to the faulted circuit
- preventing the catastrophic results of high faults and disturbing voltage arcs. The fuse-link operation significantly limits the arcflash hazard at the fault location. Improved power supply quality also results from the use of fuse-links. High fault currents are
interrupted in a few milliseconds, minimising voltage dips in system supply voltage.
Glossary for medium voltage fuse-links
The following is a brief introduction to medium voltage fuse-link technology. Some of the terms are also used in other areas of
fuse technology.
l
l
l
l
l
l
l
l
l
2
Current-rating/Rated current, In - The rated current of the fuse-link, given in amps, in free air.
De-rating - A reference to the fact that all medium voltage fuse-links must be de-rated once they are placed in a
confined space, for example when mounted in switchgear. The fuse-link must be de-rated to take into account the
effect of heating on element resistance. Typically a fuse-link is de-rated by between 5-20% depending on
application.
Test duty, TD - A term used to refer to a specific type test within IEC. Test duty one (TD1), short-circuit test, Test
duty two (TD2), maximum arc energy test and Test duty three (TD3), low overcurrent test.
Minimum breaking capacity current, MBC, I3 - The minimum current the fuse-link can interrupt safely, without
assistance from switchgear associated all phase tripping.
Minimum fusing current (MFC) - The minimum current which will cause the fuse-link elements to start to melt.
I2T - The minimum value of pre-arcing and maximum value of total clearing energy a fuse-link will allow to pass
through it during short circuit operation, expressed as an amount of current (I2), multiplied by time in seconds.
Watts loss - The power dissipation of the fuse-link at a stated value of load current.
Breaking capacity, I1 - The maximum short circuit current the fuse-link has been tested to in accordance with test
duty one (TD1), expressed in kA.
Resistance - The resistance of the fuse-link in free air at (20oC), measured in mΩ.
For product datasheets, visit www.cooperbussmann.com
Medium Voltage DIN Fuses
Medium Voltage Fuse Technology
The main standard covering medium voltage fuse-links is IEC 60282-1, 2005. IEC defines medium voltage as from 1kV to 72.5kV.
Current-limiting medium voltage fuse-links (MV fuses), split into three internationally recognised types: Back-Up (or sometimes
called partial range), fuse-links, which will interrupt any current from their rated breaking capacity down to a minimum breaking
current, specified by the manufacturer. General Purpose MV fuses will interrupt all currents that will melt the elements within one
hour. Full Range MV fuses can interrupt any current below the rated breaking capacity that melts the fuse elements satisfactorily.
The diagram below illustrates the three performance criteria in terms of their minimum breaking current I3.
IEC 60282 - I
Back-Up
Fuse-link
General Purpose
Fuse-link
Full Range
Fuse-link
Current-limiting MV fuses are similar in construction to LV cartridge types. Fuse elements do need to be much longer however to
safely interrupt a high voltage short-circuit. This is achieved by winding the elements round an internal core or holder, often called a
star-core or spider; using this technique a one metre length element can be accomodated in a 250 mm length body. The elements
are surrounded by a pure, highly compacted granular quartz filler.
Like a low voltage fuse-link, an MV fuse has a ceramic body. Most current-limiting MV fuses are also fitted with a striker mechanism.
This is used to operate the trip bar or mechanism in a fuse-switch combination, fuse-switch or ring main unit (RMU) to achieve low
overload fault interruption and three phase disconnection.
Typically striker mechanisms are driven by a spring mechanism, triggered by a thin striker wire or striker coil running the length of
the fuse, connected in parallel to the fuse elements. The striker coil is of much higher resistance than the fuse elements, so a
current only flows through the striker coil when the fuse elements melt. The current heats up the striker coil and this in turn melts the
wire retaining the spring, releasing it and pushing out the striker.
Porcelain Barrel
End Cap
Striker Coil
Striker
Porcelain
Barrel
Granular
Quartz
Striker
Coil
Weather Seal
Fuse Elements
Star Core
Granular Quartz
For product datasheets, visit www.cooperbussmann.com
Elements
Starcore
3
Medium Voltage DIN Fuses
Medium Voltage Fuse Technology
Thermal effects of low overload faults
During overload faults lasting a long time, it is possible for medium voltage elements to get very hot prior to actually melting.
Given that silver has a melting temperature of 960oC, for fuses with no temperature limitation, this can result in a fuse barrel
temperature of over 400oC and 180oC at the insulating surface surrounding the fuse. To prevent deterioration of the insulation
and to the fuse itself, all medium voltage fuse-links should incorporate some form of technology to limit the thermal stress heating, that is possible under prolonged low overload faults, often referred to as temperature limiting technology.
Since the launch of its first MV DIN fuses almost half a century ago, Cooper Bussmann has employed M-effect technology to
achieve temperature limitation throughout their medium voltage fuse range. A small mass of special low melting point alloy is
added to each fuse element, this has the effect of drastically reducing the temperature of the MV fuse during operation. The
larger cross section of the fuse elements made possible by use of this feature ensures cooler running and lower power
dissipation under normal service conditions than comparable temperature limitation technology.
Other manufacturers employ a temperature-limiting (or thermal) striker to overcome their overheating problems. In general with
this approach the maximum temperatures reached by the fuse and it surrounding insulation are not as low as with the use of Meffect. Such a solution is no more effective than use of M-effect on the fuse elements and moreover does not bring the additonal
advantages of lower watts loss cooler running and greater withstand against transient surge currents.
When a Cooper Bussmann® fuse operates under low overload fault conditions the maximum temperature rise of the fuse-link is
such that the temperature of the surrounding synthetic insulation remains below the temperature limits for all insulated fuse
switchgear. The fuse barrel therefore remains intact and the fuse carrier and it contacts remain unimpaired.
Typically a Cooper Bussmann® MV fuses of a given rating may run 10-30oC cooler than comparable fuse-links which do
not employ M-effect. This advantage is particularly useful when the MV fuse-link is used in totally enclosed all insulated
switchgear, such as cast resin fuse-switches or compact SF6 insulated Ring Main Units (RMUs), or GIS MV switchgear, since
less derating is required and hence a smaller rating of MV fuse-link will do the same job as a higher rated MV fuse-link from
another manufacturer.
The Cooper Bussmann® T Range
The Cooper Bussmann® T range of medium voltage current-limiting fuse-links to dimensional standard DIN 43625 are one of
the most advanced designs of medium voltage fuse-links available anywhere in the world today. Developed by Cooper
Bussmann, they comply with the very latest issues of IEC 60282-1, are lead and cadmium free (complying with RoHS and WEE
directives) and have been designed to meet current and future electrical utility specifications worldwide.
The T range offers time current characteristics that are optimised to improve discrimation with upstream devices, giving fast
clearance of earth faults in secondary terminal zones. The fuses utilise Cooper Bussmann M effect technology, ensuring low
power consumption during operation, while at the same time providing temperature limitation in the event of an overload
fault.
The fuses are suitable for both indoor and outdoor applications and are fitted with a spring striker. This gives either an output
force of 80N with a travel of 30mm in the case of fuse-links with part number sequence “E”, or in the case of part number
referring to “S”, a spring striker with an output force of 50N and a maximum travel of 26mm. This follows Cooper Bussmann
easy to use intelligent part numbering system (see page 17)
4
For product datasheets, visit www.cooperbussmann.com
Medium Voltage DIN Fuses
Features & Benefits
Certification. The Cooper Bussmann® MV DIN range of fuses has been fully tested and certified. Interrupting performance has
been certified at the world class independent test laboratories of KEMA. All other performances requirements such as
temperature-rise, time-current characteristics, weather sealing etc. have been thoroughly tested to ASTA approval procedures.
All Cooper Bussmann® medium voltage DIN fuses exhibit cool running and low power dissipation during normal operation in
service. The use of M-effect (as already explained), drastically reduces the temperature of the fuse-link during operation.
The larger cross section of the fuse-link elements made possible by using M-effect ensures cooler running and low power
dissipation under normal service conditions. This ensures maximum levels of network efficiency by reducing unnecessary
power loss and minimizing switchgear wear and tear due to the fact the fuse-link is running much cooler during its service life.
Cool operation. When Cooper Bussmann® MV fuse-links operate under low fault conditions, the maximum temperature rise of
the fuse-link is well within the temperature limits for all switchgear due to the use of M-effect, ensuring fuse carrier contacts
remain unimpaired, thereby increasing the life cycle of the substation and so reducing capital and maintenance costs.
Silver elements. All Cooper Bussmann® Back-Up MV fuses use 99.8% pure silver in their elements, ensuring high conductivity
and low power (revenue) loss, maximising network efficiency.
Reduced nuisance operation due to surge currents. The use of M-effect allows a larger element cross section for a given
current rating, improving withstand capability against transient overcurrents due to transformer magnetizing inrush current,
reducing mal operation. This improves system reliability reducing maintenance costs.
Low arc voltages during short-circuit operation. Cooper Bussmann® MV fuse-links are designed to produce low levels of arc
voltage, allowing fuses to be used down to half their rated voltage, so during short-circuit operation, the switchgear and cables
are not unduly stressed by being exposed to high arc voltages, thereby prolonging the life of the switchgear and improving
asset utilization.
Additionally stock holdings and part numbers can be reduced, as a 24kV Cooper Bussmann MV DIN fuse can be used on a
12kV system. Utilities that run a mixed voltage network (say 24, 15.5, 13.8 12 and 10 kV) can standardise on one type of
switchgear with one type of fuse-link, reducing costs and removing the need for an additional fuse extension and
inventory.
Construction. All electrical connections within the Cooper Bussmann® MV fuse-link are made by welded or brazed joints. This
firstly ensures a very mechanically robust fuse-link and secondly, greatly reduces the risk of poor intermittent internal
contacts, improving substation reliability.
X-Ray. All Cooper Bussmann® MV fuses are X-rayed during production. Element alignment, M-effect position etc are all checked
by trained operators, this process ensures defects that would normally not be detected by purely visual or electrical based quality
systems are detected during manufacture.
Element design. Unlike many other medium voltage fuse-link manufacturers, Cooper Bussmann® medium voltage fuse element
employ a “neck” or “notch” design principle as opposed to a perforated element design principle, see diagram below.
Cooper Bussmann
Other Medium Voltage
fuse-links designs
This element design insures that even the smallest degree of accidental element damage is easily detected during manufacturing
test measurements and thus avoids the possibility of such imperfect fuses being put into service. This is far more difficult to
achieve with perforated element designs.
Lead and Cadmium Free. All Cooper Bussmann® T Ranges fuse-links are lead and cadmium free and comply fullly wth the
latest WEE and RoHS directives.
Recycling scheme. Cooper Bussmann operates a recycling scheme for all medium voltage fuse-links.
For product datasheets, visit www.cooperbussmann.com
5
Medium Voltage DIN Fuses
3.6 kV - A & W Range Fuse-Links
3.6 kV, Current Limiting Back-Up Fuse-Links, 6.3A to 200A
Specifications
Description: A range of medium voltage DIN Fuses, complete with
striker, suitable for transformer protection. The fuses can be used even
when there is no secondary LV protection, provided they are used with
fuse switches fitted with instantaneous striker tripping.
Ratings:
Volts: 3.6kV
Amps: 6.3A - 200A
Breaking Capacity: 40kA - 50kA
Agency Information:
Comply with DIN Dimensional standard DIN 43625, VDE 0670 part 4 and
with IEC 60282-1 (2005)
Suitable for indoor use.
Dimensions (mm):
Fuse Reference
ADOSJ
WDOSJ
WFOSJ
A
C
192
76
76
Current Rating
In (A)
3.6ADOSJ16
16
3.6ADOSJ25
3.6ADOSJ31.5
3.6ADOSJ40
3.6WDOSJ50
3.6WDOSJ63
3.6WDOSJ80
10
20
25
31.5
40
50
63
80
3.6WDOSJ100
100
3.6WFOSJ160
160
3.6WDOSJ125
3.6WFOSJ200
6
1.1
51
54
6.3
3.6ADOSJ20
51
54
192
3.6ADOSJ6.3
3.6ADOSJ10
Weight (Kg)
192
Table of ratings:
Part Number
D
125
200
Breaking
Capacity
I1 (kA)
40
40
40
40
1.1
2.1
Minimum
Breaking
Capacity
W
Minimum PreArcing
31
79.2
11
2.3 X 102
49
38.1
13
49
106
40
106
50
50
50
50
50
50
50
Joule Integral (I2t)
mΩ
I3 (A)
40
40
Cold
Resistance &
Watts Loss in
Free Air
106
158
50.8
18
28.9
25
19.2
11.6
180
5.36
288
2.88
225
360
450
600
600
9
3.68
2.16
1.73
1.28
0.938
21
26
26
20
21
27
31
39
47
52
Maximum
Operating
Length
Diameter
Weight
51
1.1
5
1.1
mm
4.5 X 101
1.9 X 102
192
5.5 X 102
2.4 X 103
192
9.8 X 102
1.3 X 102
2.9 X 102
8.0 X 102
1.8 X 103
3.8 X 103
6.3 X 103
9.8 X 103
1.5 X 104
3.1 X 104
5.7 X 104
9.7 X 102
4.2 X 103
1.2 X 103
2.7 X 103
7.5 X 103
2.4 X 104
4.5 X 104
8.0 X 104
1.1 X 105
2.2 X 105
6.2 X 105
1.1 X 106
For product datasheets, visit www.cooperbussmann.com
192
mm
51
192
51
192
51
192
192
192
192
192
192
192
192
192
51
51
51
51
51
51
51
76
76
kg
1.1
1.1
1.1
1.1
1.1
1.1
1.1
1.1
1.1
1.1
2.1
2.1
Medium Voltage DIN Fuses
7.2 kV - T Range Fuse-Links
7.2 kV, Current Limiting Back-Up Fuse-Links, 6.3A to 160A
Specifications
Description: A range of medium voltage DIN Fuses, complete with
striker, suitable for transformer protection. The fuses can be used even
when there is no secondary LV protection, provided they are used with
fuse switches fitted with instantaneous striker tripping.
Ratings:
Volts: 3.0kV - 7.2kV
Amps: 6.3A - 160A
Breaking Capacity: 40 kA
Agency Information:
Comply with DIN Dimensional standard DIN 43625, VDE 0670 part 4
and with IEC 60282-1 (2005)
Suitable for indoor and outdoor use.
Dimensions (mm):
Fuse Reference
TDLSJ
A
292
TFLSJ
292
C
54
80
Table of ratings:
Part Number
7.2TDLSJ6.3
7.2TDLSJ10
7.2TDLSJ16
7.2TDLSJ20
7.2TDLSJ25
7.2TDLSJ31.5
7.2TDLSJ40
7.2TDLSJ50
7.2TDLSJ63
7.2TFLSJ80
7.2TFLSJ100
7.2TFLSJ125
7.2TFLSJ160
Current Rating
In (A)
6.3
10
16
20
25
31.5
40
50
63
80
100
125
160
Breaking
Capacity
I1 (kA)
40
40
40
40
40
D
Weight (Kg)
76
3.1
51
Minimum
Breaking
Capacity
I3 (A)
20
2.5 X 102
11
48.9
27
80
40
264
40
Minimum PreArcing
49
49
143
40
205
114
180
338
375
525
65.1
32.6
26.0
16.0
12.9
8.14
6.01
4.65
3.60
2.73
Joule Integral (I2t)
W
19
40
40
mΩ
99.7
100
40
Cold
Resistance &
Watts Loss in
Free Air
31
40
40
1.63
23
28
36
97
mm
kg
51
1.63
5.5 X 102
8.2 X 103
292
51
1.63
9.7 X 102
5.7 X 102
8.9 X102
8.0 X 102
79
mm
292
45
64
Weight
6.5 X 103
2.0 X 102
54
Diameter
4.8 X 101
36
46
Maximum
Operating
Length
3.2 X 102
5.0 X 103
9.1 X 103
1.5 X 104
3.0 X 104
2.7 X 103
1.1 X 104
8.0 X 103
1.0 X 104
2.2 X 104
3.2 X 104
7.5 X 104
6.5 X 104
1.1 X 105
1.7 X 105
3.1 X 105
For product datasheets, visit www.cooperbussmann.com
292
292
292
292
292
292
292
292
292
292
292
51
51
51
51
51
51
51
76
76
76
76
1.63
1.63
1.63
1.63
1.63
1.63
1.63
3.1
3.1
3.1
3.1
7
Medium Voltage DIN Fuses
12 kV - T Range Fuse-Links
12 kV, Current Limiting Back-Up Fuse-Links, 6.3A to 200A
Specifications
Description: A range of medium voltage DIN Fuses, complete with
sealed striker, suitable for transformer protection. The fuses can be
used even when there is no secondary LV protection, provided they
are used with fuse switches fitted with instantaneous striker tripping.
Ratings:
Volts: 6kV - 12kV
Amps: 6.3A - 200A
Breaking Capacity: 50 kA
EJ Outline
Agency Information:
Comply with DIN Dimensional standard DIN 43625, VDE 0670 part 4,
VDE 0670 part 402 and with IEC 60282-1 (2005)
Suitable for indoor and outdoor use.
Dimensions (mm):
Fuse Reference
A
C
D
Weight (Kg)
64
2.6
TDLEJ
292
54
51
TKLEJ
292
80
76
THLEJ
292
TXLEJ
67
292
TFMSJ
88
442
80
SJ Outline
1.7
3.5
88
3.7
76
5.1
Table of ratings:
Part Number
Current Rating
In (A)
12TDLEJ6.3
6.3
12TDLEJ16
16
12TDLEJ10
12TDLEJ20
12TDLEJ25
12TDLEJ31.5
12TDLEJ40
12TDLEJ50
12TDLEJ63
12THLEJ80
12THLEJ100
12TKLEJ125
12TXLEJ160*
12TXLEJ200*
12THMEJ100
12TFMSJ160
Breaking
Capacity
10
20
25
31.5
40
50
63
80
100
125
160
200
100
160
I1 (kA)
63
63
63
63
63
63
Minimum
Breaking
Capacity
I3 (A)
63
63
63
50
2.8 X 102
54.6
16
87
31.2
73
111
235
63
16
53
63
63
Minimum PreArcing
10
35
168
272
388
687
560
610
272
485
131
39.1
23.4
17.2
13.5
10.6
7.81
5.74
3.99
18
24
28
93
217
5.74
85
3.65
333
139
mm
kg
1.7
2.6 X 102
3.9 X 103
292
51
1.7
5.2 X 102
8.1 X 102
1.4 X103
2.8 X 103
7.9 X 103
2.0 X 104
4.0 X 104
1.1 X 105
1.5 X 105
2.0 X 104
5.0 X 104
2.3 X 103
5.4 X 103
8.4 X 103
1.5 X 104
2.5 X 104
3.1 X 104
4.7 X 104
9.1 X 104
1.4 X 105
3.5 X 105
5.0 X 105
6.5 X 105
1.4 X 105
3.5 X 105
* Not compliant with VDE 0670 part 402
8
mm
51
4.3 X 103
85
Weight
292
60
72
Diameter
1.0 X 103
36
47
Maximum
Operating
Length
9.8 X 101
2.4 X 103
4.30
3.80
Joule Integral (I2t)
W
222
143
63
mΩ
23
63
63
Cold Resistance
& Watts Loss in
Free Air
For product datasheets, visit www.cooperbussmann.com
292
292
292
292
292
292
292
292
292
292
292
292
442
442
51
51
51
51
51
51
51
64
64
76
88
88
64
76
1.7
1.7
1.7
1.7
1.7
1.7
1.7
2.6
2.6
3.5
3.7
3.7
3.7
5.1
Medium Voltage DIN Fuses
17.5 kV - T Range Fuse-Links
17.5 kV, Current Limiting Back-Up Fuse-Links, 6.3A to 125A
Specifications
Description: A range of medium voltage DIN Fuses, complete with
sealed striker, suitable for transformer protection. The fuses can be
used even when there is no secondary LV protection, provided they
are used with fuse switches fitted with instantaneous striker tripping.
Ratings:
Volts: 10kV - 17.5kV
Amps: 6.3A - 125A
Breaking Capacity: 35.5kA - 50kA
Agency Information:
Comply with DIN Dimensional standard DIN 43625, VDE 0670 part 4,
VDE 0670 part 402 and with IEC 60282-1 (2005)
Suitable for indoor and outdoor use.
Dimensions (mm):
Fuse Reference
A
C
D
Weight (Kg)
76
3.1
TDLSJ
292
54
51
TDMEJ
442
54
51
TFLSJ
292
THMEJ
80
442
TKMEJ
67
442
80
Table of ratings:
Part Number
17.5TDLSJ6.3*
17.5TDLSJ10*
17.5TDLSJ16*
17.5TDLSJ20*
17.5TDLSJ25*
17.5TDLSJ31.5*
17.5TDLSJ40*
17.5TFLSJ50*
Current Rating
In (A)
6.3
16
20
25
31.5
40
50
6.3
17.5TDMEJ16
16
17.5TDMEJ20
17.5TDMEJ25
17.5TDMEJ31.5
17.5TDMEJ40
17.5TDMEJ50
17.5TDMEJ63
17.5THMEJ80
17.5THMEJ100
17.5TKMEJ125
I1 (kA)
10
17.5TDMEJ6.3
17.5TDMEJ10
Breaking
Capacity
10
20
25
31.5
40
50
63
80
100
125
35.5
35.5
35.5
35.5
64
76
Minimum
Breaking
Capacity
I3 (A)
23
19
59
80
35.5
100
35.5
148
35.5
35.5
50
50
50
50
50
50
50
118
225
25
36
111
50
270
50
5.1
Cold Resistance
& Watts Loss in
Free Air
mΩ
313
185
104
69.2
55.4
41.4
31.1
17.3
324
192
45.5
174
50
3.7
87
50
50
2.5
79.6
87
200
376
467
SJ Outline
1.7
55
69
EJ Outline
57.0
34.1
25.0
19.7
15.4
W
Minimum PreArcing
23
2.8 X 102
15
34
38
48
58
2.0 X 103
292
51
1.7
5.7 X 102
8.9 X 102
5.1 X102
8.1 X 103
27
5.2 X 102
69
89
108
5.95
146
127
kg
2.9 X 102
2.8 X 102
53
mm
1.7
24
41
mm
51
14
34
Weight
292
9.8 X 101
23
Diameter
6.1 X 102
8.0 X 102
62
Maximum
Operating
Length
4.8 X 101
76
11.5
8.38
Joule Integral (I2t)
2.6 X 102
8.1 X 102
1.4 X 103
2.4 X 103
2.8 X 103
4.3 X 103
7.9 X 103
2.0 X 104
3.4 X 104
4.0 X 103
4.4 X 103
6.6 X 103
1.1 X 104
1.8 X 104
6.0 X 104
1.0 X 103
2.3 X 103
3.9 X 103
5.4 X 103
8.4 X 103
1.5 X 104
2.5 X 104
3.1 X 104
4.7 X 104
9.1 X 104
1.4 X 105
3.5 X 105
292
292
292
292
292
292
442
442
442
442
442
442
442
442
442
442
442
442
51
51
51
51
51
76
51
51
51
51
51
51
51
51
51
64
64
76
1.7
1.7
1.7
1.7
1.7
3.1
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
3.7
3.7
5.1
* Not compliant with VDE 0670 part 402
For product datasheets, visit www.cooperbussmann.com
9
Medium Voltage DIN Fuses
24 kV - T Range Fuse-Links
24 kV, Current Limiting Back-Up Fuse-Links, 6.3A to 160A
Specifications
Description: A range of medium voltage DIN Fuses, complete with
sealed striker, suitable for transformer protection. The fuses can be
used even when there is no secondary LV protection, provided they
are used with fuse switches fitted with instantaneous striker tripping.
Ratings:
Volts: 10kV - 24kV
Amps: 6.3A - 160A
Breaking Capacity: 50 kA - 63kA
Agency Information:
Comply with DIN Dimensional standard DIN 43625, VDE 0670 part 4,
VDE 0670 part 402 and with IEC 60282-1 (2005)
Suitable for indoor and outdoor use.
Dimensions (mm):
Fuse Reference
A
C
D
Weight (Kg)
64
3.7
TDMEJ
442
54
51
TFMEJ
442
80
76
THMEJ
442
TXMEJ
67
442
88
Table of ratings:
Part Number
Current Rating
In (A)
24TDMEJ6.3
6.3
24TDMEJ16
16
24TDMEJ10
24TDMEJ20
24TDMEJ25
24TDMEJ31.5
24TDMEJ40
24TDMEJ50
24THMEJ63
24TFMEJ80
10
20
25
31.5
40
50
63
80
24TFMEJ100*
100
24TXMEJ160*
160
24TXMEJ125*
Breaking
Capacity
125
I1 (kA)
50
50
50
50
50
50
50
88
Minimum
Breaking
Capacity
I3 (A)
mΩ
Minimum PreArcing
32
2.8 X 102
109
34
262
73
78.2
92
46.8
92
118
217
430
760
900
62.4
34.3
27.0
21.1
15.7
18.0
11.0
9.60
Joule Integral (I2t)
W
56
34
265
31.5
Cold Resistance
& Watts Loss in
Free Air
20
50
40
5.9
444
185
63
5.1
23
50
50
2.5
38
49
59
79
98
127
153
400
340
515
Maximum
Operating
Diameter
Weight
mm
mm
kg
9.8 X 101
1.0 X 103
442
51
2.5
2.6 X 102
3.9 X 103
442
51
2.5
5.2 X 102
8.1 X 102
1.4 X 103
2.4 X 103
2.8 X 103
4.3 X 103
7.9 X 103
2.8 X 104
9.7 X 104
1.3 X 105
2.3 X 103
5.4 X 103
8.4 X 103
1.5 X 104
2.5 X104
3.1 X 104
4.7 X 104
9.1 X 104
9.4 X 104
3.5 X 105
5.0 X 105
* Not compliant with VDE 0670 part 402
10
Length
For product datasheets, visit www.cooperbussmann.com
442
442
442
442
442
442
442
442
442
442
442
51
51
51
51
51
51
64
76
76
88
88
2.5
2.5
2.5
2.5
2.5
2.5
3.7
5.1
5.1
5.9
5.9
Medium Voltage DIN Fuses
36 kV - T Range Fuse-Links
36 kV, Current Limiting Back-Up Fuse-Links, 3.15A to 63A
Specifications
Description: A range of medium voltage DIN Fuses, complete with
sealed striker, suitable for transformer protection. The fuses can be
used even when there is no secondary LV protection, provided they
are used with fuse switches fitted with instantaneous striker tripping.
Ratings:
Volts: 17.5kV - 36kV
Amps: 3.15A - 63A
Breaking Capacity: 20kA - 35.5kA
EJ Outline
Agency Information:
Comply with DIN Dimensional standard DIN 43625, VDE 0670 part 4,
VDE 0670 part 402 and with IEC 60282-1 (2005)
Suitable for indoor and outdoor use.
Dimensions (mm):
Fuse Reference
A
C
D
Weight (Kg)
76
6.0
TDQSJ
537
54
51
TXQSJ
537
88
88
TFQSJ
537
TXQEJ
80
537
88
88
SJ Outline
2.9
6.5
6.5
Table of ratings:
Part Number
36TDQSJ3.15
36TDQSJ6.3
36TDQSJ10
36TDQSJ16
36TDQSJ20
36TDQSJ25
36TFQSJ31.5
36TFQSJ40
36TFQSJ50
36TXQEJ63*
Current Rating
In (A)
Breaking
Capacity
3.15
6.3
10
16
20
25
31.5
40
50
63
I1 (kA)
20
35.5
35.5
35.5
35.5
Minimum
Breaking
Capacity
I3 (A)
Cold Resistance
& Watts Loss in
Free Air
mΩ
1.0 X 102
35
402
44
70
98
165
117
98.0
35.5
178
52.4
20
34
18
684
112
35.5
Minimum PreArcing
1455
35.5
35.5
W
23
23
116
255
360
73.4
36.8
35.0
Joule Integral (I2t)
52
62
85
96
116
133
271
Maximum
Operating
Length
Diameter
Weight
mm
mm
kg
2.0 X 101
2.4 X 102
537
51
2.9
3.1 X 102
3.6 X 103
537
51
2.9
4.6 X 102
8.9 X 102
1.2 X 103
2.1 X 103
4.1 X 103
8.3 X 103
1.1 X104
1.2 X 103
5.1 X 103
8.2 X104
1.5 X 104
2.3 X 104
3.9 X 104
8.1 X 104
6.2 X 104
537
537
537
537
537
537
537
537
51
51
51
51
51
76
76
88
2.9
2.9
2.9
2.9
6.0
6.0
6.0
6.5
* Not compliant with VDE 0670 part 402
For product datasheets, visit www.cooperbussmann.com
11
Medium Voltage DIN Fuses
Fuse-Link Bases for Mounting
12/24 kV Medium Voltage DIN Fuse Bases
Specifications
Description: A range of medium voltage DIN fuse bases. Suitable for
outdoor fuse mounting, optional moving and fixed contacts, complete with
or without micro-switch.
Ratings:
Volts: 12kV - 24kV
Amps: 6.3A - 200A
Agency Information:
Comply with DIN Dimensional standard DIN 43624, VDE 0670 part 4,
and with IEC 60282-1 (2005)
Suitable for indoor and outdoor use.
12FBMS-MC
24FBMS-MC
12
12FBMS
24FBMS
For product datasheets, visit www.cooperbussmann.com
Medium Voltage DIN Fuses
Applications
l
Selection guide using LV Fuse-Links operation class gG/gL on low voltage side for individual cable exit protection.
Transformer
Rating
(kVA)
50
100
Rated Current of the Medium Voltage
Fuse-Link
Min
Max
16
25
6.3
125
200
31.5
25
50
500
50
100
80
125
1000
100
1600
160
1250
2000
125
10
6.3
10
50
50
6.3
16
10
16
16
16
16
25
16
31.5
25
40
20
63
80
31.5
125
50
80
71
10
10
63
100
10
6.3
40
63
200
16
25
40
200
3.15
25
20
Max
3.15
31.5
125
Min
6.3
20
31.5
Rated Current of the Medium Voltage
Fuse-Link
25
16
125
30 (kV)
20
16
200
200
6.3
10
80
63
Max
10
63
40
Min
6.3
40
31.5
800
l
20
20
630
Rated Current of the Medium Voltage
Fuse-Link
25
315
400
20 (kV)
10
16
160
250
Transformer Primary Voltage
10 (kV)
40
50
40
160
50
63
63
63
Selection guide using LV Fuse-Links operation class gG/gL on low voltage side for overload protection of the
transformer.
Transformer
Rating
(kVA)
50
100
125
160
Rated Current of the Medium
Voltage Fuse-Link
Min
Max
16
25
10
20
40
50
315
50
500
63
40
63
Max
10
10
6.3
10
16
16
20
200
Min
Max
3.15
16
6.3
10
20
25
25
40
50
80
Rated Current of the Medium
Voltage Fuse-Link
3.15
31.5
63
30 (kV)
6.3
25
63
160
200
Min
125
125
1000
Rated Current of the Medium
Voltage Fuse-Link
31.5
100
100
20 (kV)
80
80
630
800
25
31.5
31.5
400
10
25
200
250
Transformer Primary Voltage
10 (kV)
40
6.3
10
16
16
16
20
200
16
16
20
25
40
50
For product datasheets, visit www.cooperbussmann.com
63
10
40
80
(A)
125
31.5
31.5
63
gG/gL
10
25
63
Low Voltage NH
Fuse Size
40
50
160
250
315
400
500
630
800
1000
1250
13
Medium Voltage DIN Fuses
Applications
l
Selection guide according to DIN VDE 0670 part 402 using LV fuse-links operating class gTr on low voltage side for
overload protection of the transformer.
Transformer
Rating
(kVA)
100
125
160
200
Rated Current of the Medium
Voltage Fuse-Link
Min
Max
16
16
16
20
40
50
400
50
630
800
1000
63
40
63
Rated Current of the Medium
Voltage Fuse-Link
Min
Max
10
10
10
16
16
16
25
16
25
25
Min
Max
10
10
6.3
10
16
16
20
40
50
31.5
80
40
63
160*
16
Rated Current of the Medium
Voltage Fuse-Link
31.5
125
125
10
30 (kV)
25
31.5
100
100
20 (kV)
80
80
* Not compliant with VDE 0670 part 402
l
25
31.5
31.5
500
16
25
250
315
Transformer Primary Voltage
10 (kV)
63
40
63
25
Low Voltage NH Fuse
Size
gTr
(A)
6.3
100
10
160
16
20
25
25
25
31.5
40
50
40
50
125
200
250
315
400
500
630
800
1000
Selection of these MV Fuse-Links has been based on the following:
1 - The fuse-link should withstand transformer magnetising inrush currents, taken as 12 times full load current for 0.1
seconds.
2 - The fuse-link should discrimate with the rating of the secondary fuse-link stated or where only individual cable exit
protection exists, the highest rating likely to be used.
3 - The fuse-link should operate within 2 seconds for transformers complying with IEC 60076-5 in respect of impedance,
voltage and short circuit withstand current.
4 - The fuse-link should operate reasonably quickly in the event of a transformer internal fault or an earth fault in the
secondary terminal zone of the transformer.
5 - In the case where there is no secondary fuse-link for overload protection, the minimum recommended HV fuse-link
rating applies to the use of fuse-links in encapsulated enclosures where permissible continuous overload is generally
limited to 120% of transformer full load current. However, if greater overload currents are permissible a higher
rating of fuse-link may be required. Where the fuse-link is used in open air or conditions of unrestricted ventilation a
higher permissible overload may be possible.
6 - In most cases more than one rating of HV fuse-link is recommended for a particular transformer size. Choice of fuselink will then depend on which fuse-link offers the best protection e.g. having one fuse-link for several transformer
sizes.
Recommendations for other voltage are available on request.
14
For product datasheets, visit www.cooperbussmann.com
Medium Voltage DIN Fuses
Cross-Reference
COOPER
BUSSMANN
EFEN
SIBA
MESA
3.6ADOSJ6.3
3.6ADOSJ10
3.6ADOSJ16
3.6ADOSJ20
3.6ADOSJ25
3.6ADOSJ31.5
3.6ADOSJ40
67110.0060
67110.00100
67110.0160
67110.0200
67110.0250
67110.0320
67110.0400
3000213
3000213
3000213
3000213
3000213
3000213
3000213
CF-7,2/6.3
CF-7,2/10
CF-7,2/16
CF-7,2/20
CF-7,2/25
CF-7,2/31.5
CF-7,2/40
3.6WFOSJ160
3.6WFOSJ200
67110.1600
67210.2000
3001813
3001814
N/A
N/A
7.2TFLSJ80
7.2TFLSJ100
7.2TFLSJ125
7.2TFLSJ160
N/A
N/A
N/A
N/A
3.6WDOSJ50
3.6WDOSJ63
3.6WDOSJ80
3.6WDOSJ100
3.6WDOSJ125
7.2TDLSJ6.3
7.2TDLSJ10
7.2TDLSJ16
7.2TDLSJ20
7.2TDLSJ25
7.2TDLSJ31.5
7.2TDLSJ40
7.2TDLSJ50
7.2TDLSJ63
67110.0500
67110.0630
67110.0800
67110.1000
67110.1250
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
3000213
3001013
3001013
3001013
3001013
3009813
3009813
3009813
3009813
3009813
3009813
3009813
3009813
3009913
N/A
N/A
CF-7,2/125
CF-7,2/160
3001213
3001213
CF-12/80
CF-12/100
67120.0060
67120.0100
67120.0160
67120.0200
67120.0250
67120.0320
67120.0400
67120.0500
67120.0630
12TKLEJ125
67120.1250
3001213
N/A
N/A
N/A
N/A
N/A
N/A
N/A
12TXLEJ160
12TXLEJ200
17.5TDLSJ6.3
17.5TDLSJ10
17.5TDLSJ16
17.5TDLSJ20
17.5TDLSJ25
17.5TDLSJ31.5
17.5TDLSJ40
17.5TFLSJ50
17.5TDMEJ6.3
17.5TDMEJ10
17.5TDMEJ16
17.5TDMEJ20
17.5TDMEJ25
17.5TDMEJ31.5
17.5TDMEJ40
17.5TDMEJ50
17.5TDMEJ63
17.5THMEJ80
17.5THMEJ100
17.5TKMEJ125
36TXQEJ63
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
INAEL (type)
ABB
N/A
N/A
N/A
N/A
N/A
N/A
N/A
IB-D2
IB-D2
IB-D2
IB-D2
IB-D2
IB-D2
IB-D2
1YMB531001M0001
1YMB531001M0002
1YMB531001M0003
N/A
1YMB531001M0004
N/A
1YMB531001M0005
4225017
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
1YMB531034M0001
1YMB531034M0002
1YMB531034M0003
N/A
1YMB531034M0004
N/A
1YMB531034M0005
1YMB531034M0006
1YMB531034M0007
51006 511 M0
51006 512 M0
51006 513 M0
51006 514 M0
51006 515 M0
51006 516 M0
51006 517 M0
51006 518 M0
51006 519 M0
ES 6509 006
ES 6509 010
ES 6509 016
ES 6509 020
ES 6509 025
ES 6509 030
ES 6509 040
ES 6509 050
ES 6509 063
IB-D1
IB-D1
IB-D1
IB-D1
IB-D1 & IB-D2
IB-D1 & IB-D2
IB-D1 & IB-D2
IB-D2
IB-D2
1YMB531042M0001
1YMB531042M0002
1YMB531042M0003
1YMB531042M0004
1YMB531002M0004
1YMB531002M0014
1YMB531002M0005
1YMB531002M0006
1YMB531002M0007
N/A
N/A
N/A
N/A
757352 BN
757352 BP
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
51006 522 M0
51006 523 M0
N/A
51006 524 M0
51006 525 M0
51006 526 M0
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
3023113
3023113
3023113
3023113
3023113
3023113
3023113
3023213
3023213
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
3023314
N/A
N/A
N/A
3022113
3023213
3023313
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
3000613
3000613
3000613
3000613
3000613
3000613
3000613
3001413
CF-24/6,3
CF-24/10
CF-24/16
CF-24/20
CF-24/25
CF-24/31.5
CF-24/40
CF-24/50
3002213
CF-24/100
N/A
67150.0060
67150.0100
67150.0160
67150.0200
67150.0250
N/A
3000813
3000813
3000813
3000813
3000813
N/A
CF-36/6.3
CF-36/10
CF-36/16
CF-36/20
CF-36/25
N/A
4266005
4266006
4266007
4266008
4266009
67150.0630
3002413
CF-36/63
4266013
67140.0630
67140.0800
67240.1250
67240.1600
67150.0320
67150.0400
67150.0500
3001413
3001413
3002213
N/A
3001613
3001613
3002413
CF-24/63
CF-24/80
4256005
4256006
4256007
4256008
4256009
4256010
4256011
4253012
4253013
4253014
4253015
N/A
N/A
4253016
N/A
CF-36/31.5
CF-36/40
CF-36/50
4266010
4266011
4266012
N/A
N/A
N/A
N/A
42350014
42350015
51006 520 M0
51006 521 M0
ES 6509 080
ES 6509 100
4235017
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
IB-D3
IB-D3
1YMB531002M0021
1YMB531002M0022
N/A
N/A
N/A
N/A
1YMB531003M0001
1YMB531003M0002
1YMB531003M0003
1YMB531003M0013
1YMB531003M0004
1YMB531003M0014
1YMB531003M0021
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
IB-D1
IB-D1
IB-D1
IB-D1
IB-D1
IB-D1
IB-D1
N/A
IB-D2
1YMB531037M0001
1YMB531037M0002
1YMB531037M0003
1YMB531037M0013
1YMB531037M0004
1YMB531037M0014
1YMB531037M0021
1YMB531037M0006
1YMB531037M0007
N/A
N/A
N/A
IB-D2
N/A
IB-D2
N/A
ES 6513-006
ES 6513-010
ES 6513-016
ES 6513-020
ES 6513-025
ES 6513-030
ES 6513-040
ES 6513-050
IB-D1
IB-D1
IB-D1
IB-D1
IB-D1 & IB-D2
IB-D1 & IB-D2
IB-D1 & IB-D2
IB-D2
4255015
51006 548 M0
ES 6513-100
IB-D3
N/A
4265005
4265006
4265007
4265008
4265009
N/A
51006 549 M0
51006 550 M0
51006 551 M0
51006 552 M0
51006 553 M0
N/A
ES 6515-006
ES 6515-010
ES 6515-016
ES 6515-020
ES 6515-025
N/A
IB-D1
IB-D1
IB-D1
IB-D1 & IB-D2
IB-D1 & IB-D2
4265013
51006 557 M0
ES 6515-063
IB-D3
4255016
4265010
4265011
4265012
N/A
N/A
51006 554 M0
51006 555 M0
51006 556 M0
ES 6513-063
ES 6513-080
N/A
N/A
ES 6515-030
ES 6515-040
ES 6515-050
For product datasheets, visit www.cooperbussmann.com
1YMB531043M0010
IB-D1
IB-D1
IB-D1
IB-D1
IB-D1 & IB-D2
IB-D1 & IB-D2
IB-D1 & IB-D2
51006 538 M0
51006 539 M0
51006 540 M0
51006 541 M0
51006 542 M0
51006 543 M0
51006 544 M0
51006 545 M0
51006 546 M0
51006 547 M0
1YMB531034M0008
1YMB531034M0009
1YMB531034M0010
1YMB531034M0011
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
4255005
4255006
4255007
4255008
4255009
4255010
4255011
4255012
4255013
4255014
1YMB531001M0006
1YMB531001M0007
1YMB531001M0008
1YMB531001M0009
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
4236017
N/A
IB-D2
IB-D2
IB-D2
IB-D2
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
CFR-17,5/10
CFR-17,5/16
N/A
CFR-17,5/25
CFR-17,5/31.5
CFR-17,5/40
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
3025513
3025513
3025513
3022113
3022113
3022113
3022113
3002013
3002014
4236014
4236015
4235005
4235006
4235007
4235008
4235009
4235010
4235011
4235012
4235013
51013 507 MO
51014 508 MO
51015 509 MO
51016 510 MO
N/A
42350016
67240.1000
36TFQSJ31.5
36TFQSJ40
36TFQSJ50
4226017
N/A
ELIMSAN
51006 500 MO
51007 501 MO
51008 502 MO
51009 503 MO
51010 504 MO
51011 505 MO
51012 506 MO
4236016
24TFMEJ100
36TDQSJ3.15
36TDQSJ6.3
36TDQSJ10
36TDQSJ16
36TDQSJ20
36TDQSJ25
4225012
4225013
4225014
4225015
4225016
Merlin Gerin
4225005
4225006
4225007
4225008
4225009
4225010
4225011
N/A
67220.1600
67220.2000
67140.0060
67140.0100
67140.0160
67140.0200
67140.0250
67140.0320
67140.0400
67140.0500
24TXMEJ125
24TXMEJ160
4226012
4226013
4226014
4226015
4226016
4226005
4226006
4226007
4226008
4226009
4226010
4226011
4236005
4236006
4236007
4236008
4236009
4236010
4236011
4236012
4236013
67120.0800
67120.1000
3000413
3000413
3000413
3000413
3000413
3000413
3000413
3000413
3001213
ETI (50N
striker)
CF-12/6,3
CF-12/10
CF-12/16
CF-12/20
CF-12/25
CF-12/31,5
CF-12/40
CF-12/50
CF-12/63
24TDMEJ6.3
24TDMEJ10
24TDMEJ16
24TDMEJ20
24TDMEJ25
24TDMEJ31.5
24TDMEJ40
24TDMEJ50
24THMEJ63
24TFMEJ80
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
3009913
3009913
3009913
3010013
12TDLEJ6.3
12TDLEJ10
12TDLEJ16
12TDLEJ20
12TDLEJ25
12TDLEJ31.5
12TDLEJ40
12TDLEJ50
12TDLEJ63
12THLEJ80
12THLEJ100
CF-7,2/50
CF-7,2/63
CF-7,2/80
CF-7,2/100
N/A
ETI (80N
striker)
IB-D2
IB-D3
1YMB531003M0022
1YMB531037M0008
1YMB531003M0009
1YMB531003M0010
1YMB531044M0001
1YMB531044M0002
1YMB531044M0003
1YMB531044M0004
1YMB531004M0004
1YMB531004M0012
1YMB531004M0005
1YMB531004M0021
1YMB531004M0022
1YMB531022M0001
1YMB531022M0002
N/A
N/A
1YMB531022M0003
N/A
IB-D2
IB-D2
IB-D3
N/A
1YMB531006M0005
N/A
N/A
1YMB531006M0001
1YMB531006M0002
1YMB531006M0003
N/A
1YMB531006M0004
N/A
15
Medium Voltage DIN Fuses
Striker Force Diagrams
E = Spring Striker 80N to DIN IEC 60282-1 designation “medium”
Force x Travel diagram for 80N DIN striker
100
90
80
Force (N)
70
60
50
40
30
20
10
0
0
4
8
12
16
20
24
Travel (mm)
28
32
36
S = Spring Striker 50N to DIN 43625 and IEC 60282-1 designation “medium”
Force x Travel diagram for 50N DIN striker
60
50
Force (N)
40
30
20
10
0
16
0
4
8
12
16
Travel (mm)
20
24
For product datasheets, visit www.cooperbussmann.com
28
32
Medium Voltage DIN Fuses
Part Referencing System for Current Limiting Fuses
1st Lettter General Type
kV
T = DIN Indoor/Outdoor range
2nd Letter Barrel
Diameter (mm)
3rd Letter Barrel
Length (mm)
4th Letter Striker
D = 50.8
O = 192
S = Striker to DIN
43625, form C, 50N
F, K = 76.2
M = 442
H = 63.5
W,A = DIN Indoor Range
L = 292
X = 88
5th/6th Letter and/or
Digit - Termination or
Fixing
E = Striker to DIN
43625, 80N
Q = 537
Amps
A
J = Ferrule to
DIN 43625
This reference number should be quoted in all correspondence. For example, when ordering or progressing an order or when
making a technical enquiry.
Ordering Key
1
X
2
X
3
Symbol
X
4
5
6
7
Meaning
Rated voltage of the fuse-link in kV
The type of fuse-link given by a single letter
X
Diameter of the fuse-link barrel (in mm) denoted by a letter
X
Length of the fuse-link barrel (in mm) denoted by a letter
X
Striker information: type of striker (if fitted) is denoted by a letter *
X
Tag information: type, if fitted, denoted by a letter
Current rating of the fuse-link given in amperes
1 > Voltage
4 > Barrel length
S = Spring striker 50N
2 > Type designation letter
5 > Striker information*
E = Spring striker 80N
3 > Barrel diameter
6 > Tag information
N = No striker fitted
Ordering Code Information
Rated Voltage of the Fuse-Link
Type of Fuse-Link
12
Body Diameter
Type Designation
T
Body Length
D
Type of Striker
L
Type of Tag
Current Rating
Complete Part Number
12
T
D
L
E
E
J
J
50
50
Part number 12TDLEJ50 represents an outdoor DIN fuse rated at 12kV for use in Air (T) with a body diameter of 50.8mm (D), a barrel
length of 292mm (L), a striker to DIN 43625 80N (E), a tag arrangemenet to DIN 43625 (J) and an Amp rating of 50A.
For product datasheets, visit www.cooperbussmann.com
17
Medium Voltage DIN Fuses
Notes
18
For product datasheets, visit www.cooperbussmann.com
Medium Voltage DIN Fuses
Notes
For product datasheets, visit www.cooperbussmann.com
19
Cooper Bussmann Products And
Technical Expertise Delivered Worldwide
Customer Assistance
Web Services
Customer Satisfaction Team
www.cooperbussmann.com
Contact can be made between
Monday - Thursday
7:30 a.m. - 5:30 p.m GMT
Friday
7:30 a.m. - 5.00 p.m. GMT
• Product Data Sheets for complete technical
information on Cooper Busmann® products
The Cooper Bussmann® Customer Satisfaction Team is available
to answers questions regarding Cooper Bussmann® products and
services.
The Cooper Bussmann® website makes
available free information and other resoures
that include:
The Customer Satisfaction Team can be reached via:
• Online catalogue for the latest United States
and European catalogues
• Phone: 00 44 (0) 1509 882 600
• Fax: 00 44 (0) 1509 882 786
• E-mail: [email protected]
Application Engineering
Application Engineering assistance is available to all customers.
The Application Engineering team is staffed by university qualified
eletrical engineers and available by phone with technical and
application support.
Contact can be made between
Monday - Thursday
7.30 a.m. - 5.30 p.m. GMT
Friday
7.30 a.m. - 5.00 p.m. GMT
• Safety BASICS™ for the essentials of electrical
safety
• Training Modules for increasing skill levels of
customers and end users
• Fuse Cross Reference to find the correct
Bussmann replacement for a competitive fuse
• Arc-Flash calculator to determine the incident
energy level and flash protection boundry
along with the recommendations the level
of Personal Protective Equipment (PPE)
Application Engineering can be reached via:
• Phone: 00 44 (0) 1509 882 699
• Fax: 00 44 (0) 1509 882 794
• E-mail: [email protected]
Your Authorised Cooper Bussmann Distributor is:
Cooper Bussmann (UK) Ltd l Melton Road, Burton-on-the-Wolds, Leicestershire,
LE12 5TH UK l
Tel: 44 (0)1509 882 737 l Fax: 44 (0)1509 882 786
Email: [email protected] l www.cooperbussmann.com
Reorder # MVDIN-2008
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