108
SIVACON S8 Planning Principles – Glossary and rated parameters
11.4 Index of figures
Fig. Title Page
Chapter 1
1.1
Totally Integrated Power (TIP) as holistic
approach to electric power distribution
4
1.2 SIVACON S8 for all areas of application 5
1.3 Use of SIVACON S8 in power distribution 6
Chapter 2
2/1 Cubicle design of SIVACON S8 9
2/2 Dimensions of enclosure parts 14
2/3 Integration of the corner cubicle 15
2/4 Variable busbar position for SIVACON S8 16
Chapter 3
3/1 Cubicles in circuit-breaker design 22
3/2 Forced cooling in a circuit-breaker cubicle 23
3/3
Cubicle types for direct supply and direct feeder
(refer to the text for explanations)
31
Chapter 4
4/1
Cubicles for universal mounting design: on the
left with front cable connection; on the right for
rear cable connection
34
4/2
Cubicle with forced cooling for universal
mounting design
35
4/3
Combination options for universal mounting
design
36
4/4
Equipment in fixed-mounted design (left) and
connection terminals in the cable connection
compartment (right)
37
4/5
Design variants of the withdrawable units in
standard feature design (SFD; left) and high
feature design (HFD; right)
38
4/6 Positions in the SFD contact system 39
4/7
Normal withdrawable unit in SFD with a
withdrawable unit height of 100 mm
39
4/8 Open withdrawable unit compartments in SFD 40
4/9 Structure of a small withdrawable unit in HFD 41
4/10 Positions in the HFD contact system 41
4/11
Front areas usable for an instrument panel on
small withdrawable units with an installation
height of 150 mm
43
4/12
Front areas usable for an instrument panel on
small withdrawable units with an installation
height of 200 mm
43
4/13
Front areas usable for an instrument panel on
normal withdrawable units
43
4/14
Compartment for normal withdrawable unit in
HFD
44
4/15 Adapter plate for small withdrawable units 44
Chapter 5
5/1
Cubicles for in-line design, plug-in: on the left for
in-line switch-disconnectors 3NJ62 with fuses, on
the right for switch-disconnectors SASIL plus with
fuses
50
5/2 Pluggable in-line switch-disconnectors 3NJ62 51
5/3 Pluggable in-line switch-disconnectors SASIL plus 53
Fig. Title Page
Chapter 6
6/1
Cubicles for fixed-mounted in-line design with
3NJ4 in-line switch-disconnectors
56
6/2 Cubicles for fixed mounting with front cover 59
6/3
Installation of switching devices in fixed-
mounted cubicles with a front cover (cover
opened)
60
6/4
Cable connections in fixed-mounted cubicles
with a front cover
60
6/5
Mounting kit for modular installation devices
(without cover)
62
6/6 Cubicles for customized solutions 63
Chapter 7
7/1 Cubicle for reactive power compensation 66
7/2
Capacitor modules for reactive power
compensation
67
Chapter 8
8/1 Clearances to obstacles 72
8/2
Maintenance gangway widths and passage
heights
72
8/3
Minimum widths of maintenance gangways in
accordance with IEC 60364-7-729
73
8/4
Cubicle arrangement for single-front (top) and
double-front systems (bottom)
74
8/5 Permissible deviations of the installation area 75
8/6 Installation on raised floors 75
8/7 Foundation frame mounted on concrete 75
8/8 Mounting points of the single-front system 75
8/9 Mounting points of the single-front system 75
8/10 Mounting points for the corner cubicle 75
Chapter 9
9/1
Insulated main busbar in the SIVACON S8
(optional N insulation)
81
9/2 Arc barrier in SIVACON S8 81
9/3
Comparison of seismic scales for the
classification of seismic response categories of
SIVACON S8
84
9/4
EC-Declaration of Conformity for SIVACON S8 in
respect of the Low Voltage and EMC Directives
86
9/5
Declaration of Conformity for SIVACON S8
regarding design verification
87
9/6
Declaration of Conformity for SIVACON S8
regarding design verification - Annex Page 1/2
88
9/7
Declaration of Conformity for SIVACON S8
regarding design verification - Annex Page 2/2
89
Chapter 10
10/1
Systems according to the type of connection to
earth in accordance with IEC 60364-1
92
10/2 Double fault in the IT system 93
10/3 Double fault in the IT system 94
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