Doepke DFS 4 B SK Series Посібник з монтажу та експлуатації - Сторінка 2

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Doepke DFS 4 B SK Series Посібник з монтажу та експлуатації
Doepke
DE EN
Installation and Operating Manual
residual current circuit-breakers of series
DFS 4 B SK / F60 / V500 / V500 F60 / S / S V500
Installation position
Any installation position may be used.
Intended use and mounting
By snapping onto top-hat rail and for installation in distribution boards with compli-
ant covers for preventing direct contact with hazardous live parts.
Electrical connection
Guide all active conductors and outer cables (L1, L2, L3 and the neutral conductor
MP/N) through the switch. When doing so, pay attention to the energy flow direction,
i. e., the input terminals are 1, 3, 5, 7, the consumer system side is 2, 4, 6, 8. Scrape and
grease aluminium conductors immediately before connection.
Function and area of application
The residual current circuit-breakers of the DFS 4 B SK model ranges are AC-DC sen-
sitive residual current circuit-breakers for detecting Type B residual currents. These
devices are designed for use in single- and multi-phase mains systems. They are not
intended for use in DC networks. They consist of a mains voltage-independent part
for detecting sinusoidal AC and pulsating DC residual currents with a rated frequen-
cy of 50 Hz (rated frequency of 60 Hz with series F60), as well as a mains voltage-
dependent part for detecting residual currents within a frequency range of 0 Hz to
100 kHz.
In order to ensure protection in the event of indirect contact with a maximum touch
voltage of 50 V resp. 25 V across the entire covered frequency range, the earth re-
sistance must be < 167 Ohm resp. < 83 Ohm, when a residual current circuit-breaker
with a rated residual current < 300 mA is used. When using residual current circuit-
breakers with a rated residual current of 500 mA, the earth resistance must be < 100
Ohm resp. < 50 Ohm.
For frequencies > 1 kHz the tripping current for a DFS 4 B SK is below 2 A. This means
that highest possible system availability is ensured in this frequency range, within
which the usual switching frequencies of frequency converters are located.
Testing and functional check
An insulation test of the user equipment is to be carried out in accordance with DIN
EN 61557-2. This may only be done when the device is switched off. Insulation test-
ing when the device is switched on or insulation testing on the input side may lead
to incorrect measured values. A functional inspection of the residual current circuit-
breaker itself is possible with connected mains voltage by pressing the test button T
and, as in commercial use (BGV A3), should be carried out at least every six months in
the case of stationary systems and should be repeated every working day in the case
of non-stationary systems.
The green LED signals that the internal operating voltage is sufficient for AC-DC sen-
sitive residual current detection (residual currents of type AC, A and B). If the LED
does not illuminate, then only tripping via type AC and A residual currents is still guar-
anteed. The internal supply of the DFS 4 B SK is carried out via the terminals 1, 3, 5,
7. At least two arbitrary conductors must conduct AC voltage of greater than 50 V in
order to guarantee residual current detection that is sensitive to all currents.
Important information on operation with electronic equipment (such as frequency
converters, inverters etc.)
1. Electronic equipment and its associated EMC protective provisions, such as e. g.
integrated or in series-connected EMC filters, as well as shielded cables, can give
rise to high capacitive leakage currents.
2. The maximum number of items of electronic equipment connected downstream
of the DFS 4 B SK is based on the level of leakage currents that occur. Excessive
discharge currents may lead to undesired tripping in spite of the special release
frequency response. Relevant information concerning the discharge currents that
are produced can be requested from the manufacturers of the electronic equip-
ment.
3. During operation with frequency converters long, shielded motor cables may lead
to high discharge currents in the event of the controller release of the frequency
converter, which lead to undesired tripping. If necessary, a sinusoidal output filter
should then be used directly behind the frequency converter (before the shielded
motor cable).
4. When switching on and off electrical systems with electronic equipment, it is pos-
sible that very high surge leakage currents will be produced, which will lead to
tripping in the event of an appropriate duration. In order to keep the processes
for switching on and off as short as possible, the electrical system should not be
switched on with the DFS 4 B SK. Quick-switching, all-pole contactors or switches
with stored energy operating mechanisms are suitable (manual rotary switches
should not be used).
5. According to the instructions, a conventional 3-conductor EMC filter should only
be connected in series with the relevant electronic equipment. So that the filter
3930228 | 05/2013 | Doepke Schaltgeräte GmbH, Stellmacherstraße 11, D-26506 Norden
effect is not impaired, under no circumstances should further single-phase con-
sumers such as incandescent bulbs be connected on the output side of the EMC
filter.
6. As a rule, different clock frequencies (chopper) can be selected in the case of elec-
tronic equipment. In an unfavourable case, the clock frequency may lead to a ten-
dency to oscillation in an upstream EMC filter and therefore to greatly increased
leakage currents, which then result in a tripping of the DFS 4 B SK. In this case, the
clock frequency must be changed.
7. Frequency converters with an integrated EMC filter often only allow a maximum
length of the shielded motor cable of 5 to 10 m. Longer cable lengths lead to
greatly increased discharge currents and to the ineffectiveness of the integrated
EMC filter. The manufacturer's specifications must always be observed for the
frequency converter.
Application instructions and warnings
The following notes and warnings must be observed in order to ensure safe operation:
1. Installation may only be carried out by an authorised specialist, who is familiar
with the relevant national installation regulations.
2. Without any additional protective housing, residual current circuit-breakers
should only be stored and operated in a dry, low-dust environment. An aggressive
atmosphere must also be avoided.
3. The user must be made aware of repeat testing using the test button T.
4. Using surge current strength residual current circuit-breakers cannot absolutely
guarantee to rule out trips due to leakage currents caused by surge voltage. In
cases where an interruption of the power supply may lead to potential dangers for
humans and animals or serious damage to property, residual current protection
should be implemented by means of increased surge current strength, selective
residual current circuit-breakers and upstream surge arresters. In specific cases,
the switching status should be monitored by means of an auxiliary contactor at
the residual current circuit-breaker and an appropriate signalling device.
5. The guarantee will be rendered null and void if the device is opened.
Wiring diagrams
1 3
2 4
V two-pole
(N)
1 3 5
7
(N)
(N) 2 4 6
8
(N)
V four-pole, neutral on left or right, depending on device version
Technical Data
DFS 4 B SK / F60 / V500 / V500 F60 / S / S V500
Rated current
Rated residual current I �N
Detection range of residual
current
Rated
voltage U n
DFS 4 B
Rated
frequency
DFS 4 B
min.
operating
voltage
Internal consumption
Working
range of
test circuit
DFS 4 B
number of poles
Dissipation power P v (typ.)
Thermal back-up fuse
OCPD,
utilization category gG
Short-circuit back-up fuse
SCPD,
utilization category gG
Tripping times
Tripping times selective
Rated switching capacity I m
Rated short-circuit switching
capacity I �m
Rated short-circuit current I nc
Rated residual short-circuit
current I �c
Surge current strength
Shock resistance
Type of protection
Installation position
Supply side
Ambient temperature
Resistance to climatic
changes
~
Terminals
min. cross section
Tightening torque of
terminals
Endurance
Design requirements
Electromagnetic compat-
ibility
Weight
Dimensions
DIN VDE 0636, IEC 60269
1)
16 A
25 A
40 A
63 A
80 A 100 A 125 A
0.03 A; 0.1 A; 0.3 A; 0.5 A
0 – 100 kHz
SK, SK F60, SK S
230/400 V AC
SK V500
SK V500 F60
290/500 V AC
SK S V500
SK, SK S,
SK V500,
50 Hz
SK S V500
SK F60,
60 Hz
SK V500 F60
for detection of
residual currents
0 V (mains independent)
Type A/AC
for detection of
residual currents
50 V AC
Type B
max. 3.5 W
SK, SK F60, SK S
185 V AC – 440 V AC
SK V500,
SK V500 F60,
185 V AC – 500 V AC
SK S V500
two-pole, four-pole
0.5 W 1.2 W 2.9 W 7.2 W 12 W
16 A
25 A
40 A
63 A
1)
100 A
1)
1 x I �n ≤ 300 ms; 5 x I �n ≤ 40 ms
1 x I�n > 130 ms ≤ 500 ms;
5 x I�n > 50 ms ≤ 150 ms
500 A
630 A 800 A 1000 A 1250 A
500 A
630 A 800 A 1000 A 1250 A
10 kA
10 kA
Ring-wave 0.5 ms / 100 kHz:
200 A, impulse 8/20 µs: 3 kA
20 g / 20 ms duration
IP 40 (after installation in distribution board)
optional
terminals 1, 3, 5, 7
-25 °C to +40 °C
conforming to IEC 68-2-30: damp/heat,
cyclic (25 °C / 55 °C; 93 % / 97 % rel. hum., 28 cycles)
1 x 1.5 – 50 mm²
round-wire, solid
2 x 1.5 – 16 mm²
1 x 1.5 – 50 mm²
stranded
2 x 1.5 – 16 mm²
1 x 1.5 – 35 mm²
flexible
2 x 1.5 – 16 mm²
50 mm²
3 Nm
mechanical
> 5,000 cycles
electrical
> 2,000 cycles
DIN EN 61008-1, DIN EN 62423
DIN EN 61 543
(interference resistance – industrial environment)
approx. 500 g
W 72 mm (4 module width) × H 85 mm × D 75 mm
18 W
28 W
80 A
125 A