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AB B i-bus®
KN XIntelligent Installation System s
System description
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1. Difference compared to the conventional
electrical installation 4
2. ABB i-bus® KNX System Overview
2.1 G eneral 5
2.2 Typical distribution structure for one line 6
2.3 Line topology 7
2.4 D istribution structure for several lines 8
3. KNX Cost estimation3.1 G eneral 12
3.2 In the preplanning stage 12
3.3 In the execution planning stage 13
4. Physical address and group address
4.1 Physical address 14
4.2 G roup address 14
5. System Engineering
5.1 The European Tool Softw are (ETS ) 155.2 The program m ing process 15
6. The commissioningprocess 16
7. Tips and Tricks 16
8. Planning support Busch-triton® 17
9. Electrical Design (Consulting)
9.1 G e neral 18
9.2 Installation sheets 18
9.3 C ircuit diagram 20
10. Documentation Examples
10.1 D istribution plan 22
10.2 G eneral plan 23
21
Contents
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Child1
Child2
Lightings
Blinds
Central
Livingroom
Bedroom
Kitchen
Aisle
Toilet
Home
System 23°C 13:45 Extra s
Home
L ivingroom Chi ld1
Child2
Lightings
Blinds
Central
Bedroom
Kitchen
Aisle
Toilet
System 23°C 13:45 Extra s
1. Difference compared to the conventional electrical installation
Without KNX
With KNX
B rightness sensor
Infrared
Lighting
Panel forvisualization
B us linePow er trans-m ission line
The so-called
conventional electrical
installation
requires not only
•supply lines for pow er
transm ission,
but also a separate line
or w ire
•for every sw itching
com m and,
•or every
m easurem ent,•for every m essage,
•for every controller or
regulator.
All lines whichare not required
for power trans-mission are replacedby a bus line in theABB i-bus® KNXsystem.
!
The follow ing illustration
m akes this clear:
•The bus line is
connected to an KN X
pow er supply and all
the other subscribers
(SU B s).
•The 230 V line (or the
400 V line) is not
required for the control
subscribers (SU B s)
(sensors). It is only
required for the pow er
supply to the
consum ers.
•As a consequence,
there are 2 supply
system s; one for
pow er transm ission
and one for inform a-
tion transm ission.
230-V-50-H z-pow er cable
B us line e.g. JY (ST)-Y 2*2*0.8
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2. ABB i-bus® KNX System Overview2.1 General
2.1 General
The KN X system
operates
decentrally and does not
require a P C or any other
special control unit after
start-up. The “intelli-
gence”or rather the pro-
gram m ed functions are
stored in the subscribers
(SU B s) them selves.
Each SU B can exchange
inform ation w ith any
!
other SU B by m eans of
telegram s.
The low est configuration
level is referred to as a
line. A m ax. of 64 sub-
scribers (SU B s) can be
used in one line. The
actual num ber of sub-
scribers (SU B s) depends
on the selected pow er
supply and the pow er
consum ption of the indi-
vidual SU B s.
There are four types of devices
• System devices:Pow er supply, serial
interface R S-232 or
U SB . C onnectors,
choke, line couplers
and area couplers
and still be found in
older projekts.
• Sensors:Pushbuttons, trans-
ducers (w ind, rain,
light, heat, etc.), ther-
m ostats, analogue
inputs
• Actuators:Sw itching actuators,
dim m ing actuators,
actuators for blinds,
heating actuators
• Controllers:Sensors and actua-
tors can be logically
connected together
by m eans of
controllers (logic
unit, logic m odule or
sim ilar) for m ore
com plex functions.
2 SU B s can collaborate
w ith a pow er supply via
the bus line in the sm all-
est configuration. The
installation bus progres-
sively adapts itself to
the size of the system
and the required func-
tions and can be extend-
ed to m ore than 57,000
SUBs.
SU B 1 SU B 3 SU B 5 SU B 6SU B 2 SU B 4 SU B 64
Pow ersupply
230 V
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2. ABB i-bus® KNX System Overview2.2 Typical distribution structure for one line
2.2 Typical distribu-tion structure for oneline
Description of thedevice:
1.Residual-current-
operated circuit
breaker for sub-distri-
bution board
2.M iniature circuit-
breakers; reserveone for the KN X
and the service
socket
3.Socket for service
w ork, e.g. for a lap-
top
4.KN X pow er sup-
ply (SV/S 30.640.5)
5.USB -Interface for
service w ork w ith
the laptop (U SB /S1.1) +
5
4
1 2
3
Explanation of thestructure:There are 2 pow er sup-
plies of different sizes:
320 m A and 640 m A.
In case of doubt, the
larger pow er supply
w ith 640 m A should be
selected because
there are som e KN X
users that consum e
double or m any tim esthe pow er. The
connection is m ade on
the one hand to the
low -voltage netw ork
(L, N , PE) and, on the
other hand, to the bus
line (24 V). A ll users
belonging to the line
and the pow er supply
are connected via this
bus line.
A s a third pow er
supply, there is an unin-
terrupted KN X pow er
supply (SU /S 30.640.1),
also 640 m A , w hich, in
conjunction w ith a
battery m odule (A M /S
12.1), m aintains the
bus com m unication for
10 m ins under full load.
The bus users
are supplied
exclusively. The
advantage is that all
object values of the
users are retained and
“settling”of the
system is not
necessary. The other
consum ers (lam ps,roller blinds, PC s and
m onitors etc.) m ust be
supplied via a separate
UPS.
!
Low -voltage supply w ith a batterym odule for 10 m inutes full load
12V
OK
12V
Code
150mA
q
650mA
10 Minutes
OK
L1 N
230V OK ON I> ImaxOK
Reset
12V
q
Code 650mA150mA
30V DC
Reset
D irect bus access(unrestricted pow er
supply)
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S U B 1
S U B 3
S U B 4S U B 2
S U B 3
Pow ersupply
SU B 5 SU B 6
S U B 7
SU B 8 SU B 9
S U B 1 0 SUB 15
SUB 13SUB 12
SUB 11 SU B 16 SU B 17
SUB 18
SUB 14
230 V
Line
Star
Tree
Ring notpermissible!
2. ABB i-bus® KNX System Overview2.2 Typical distribution structure for one line
2.3 Line topology
requisite physical prop-
erties
(num ber of cores,
cross-section, isolation
voltage, etc.), the bus
line can be im m e-
diately distinguished
Maximum distanceB etw een pow er supply
and last user: m ax. 350 m
from other w eak-
current lines.
(e.g. YC YM 2 x 2 x 0.8
or J-Y (ST) Y 2 x 2 x
0.8).
Maximum distanceB etw een tw o users:
m ax. 700 m
Minimum distanceBetw een tw o pow er
supplies: m in. 200 m
The bus line is led to
the rem aining
subscribers (SU B s).
W e recom m end using
an KN X-certified bus
line. In addition to the
max.
1000 m
S UB 5
SUB 4
SUB 2
SUB 1
SUB 64
SV
max. 350 m
SUB 5
SUB 4
S UB 2
S UB 1
SUB 64
SV
max. 700 m
SUB 5
S UB 4
SUB 2
SUB 1
SUB 64
SV
min. 200 m
SV
SUB 5
SUB 4
SUB 2
SUB 1
SUB 64
SV
2.3 Line topologyThe w ire lengths w ithin a
line are lim ited. Total length
m ax. 1000 m
SV = P ow er supply
SU B = Subscriber
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2.4 Distribution struc-ture for several linesIf there are m ore than
64 SU B s, or several
parts of the building are
involved, w ith the result
that it is necessary to
bring in at least a sec-
ond line, the lines are
connected together by
m eans of a line coupler.
The so-called m ain line,
w hich also requires a
pow er supply, form s the
backbone of the line
couplers.
A m ain line is topolo-
gically structured like a
line, w ith the only differ-
ence that in a m ain line
there are no sensors and
actuators, but only a line
coupler.
D uring planning, m ax. 12
lines should be used.
Technically, 15 lines are
possible. Lines 13 - 15
should be considered as
reserves.
S U B 3
S U B 2
S U B 4
S U B 5
SUB 64
S U B 1
S U B 3
S U B 2
S U B 4
S U B 5
SUB 64
S U B 1
S U B 3
S U B 2
S U B 4
S U B 5
SUB 64
S U B 1
LC 1 LC 2 LC 12
230 V
230 V 230 V 230 V
Pow ersupply
Pow ersupply
Pow ersupply
Pow ersupply
Schematically:
Line 1 Line 2 Line 12
Main line
2. ABB i-bus® KNX System Overview2.4 Distribution structure for several lines
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2. ABB i-bus® KNX System Overview2.4 Distribution structure for several lines
In practice, a new
line should be
configured w ith far less
than 64 SU B s, so that
the addition of a single
SU B does not
im m ediately require the
installation of a second
line.
!
Wiring:
The line couplers are
connected exclusively
via bus term inals, both
for the line and for the
m ain line.
Article no. TE
U ninterrupted pow er supply 640 m A SU /S 30.640.1 6 TE
B attery m odule AM /S 12.1 8 TE
Line coupler LK/S 4.1 2 TE
30VDC230VAC
50/60Hz
12V
30V640mA
-5°C ...45°C
Line
ON
Main
1 =MainLine
2 =Line
Line
OK
12V
Code150 m A
OK
Line
ON
Main
1=MainLine
2=Line
Line
OK
12V
OK
OK OK
Line
ON
Main
1=MainLine
2=Line
Line
OK
12V
Code150 m A
OK
SU B 1 SU B 3 SU B 5 SU B 6SU B 2 SU B 4 SU B 64
SU B 1 SU B 3 SU B 5 SU B 6SU B 2 SU B 4 SU B 64
SU B 1 SU B 3 SU B 5 SU B 6SU B 2 SU B 4 SU B 64
L1 N
230V OK ON I> ImaxOK
Reset
12V
q
Code / 650mA150mA
30V DC
12V
Code
150mA
q
Un=12 V DC
564
L1 N
230V OK ON I> ImaxOK
Reset
12V
q
Code / 650mA150mA
30V DC
12V
Code
150mA
q
Un= 12 V DC
L1 N
230V OK ON I> ImaxOK
Reset
12V
q
Code / 650mA150mA
30V DC
12V
Code
150mA
q
Un=12 V DC
L1 N
230V OK ON I> ImaxOK
Reset
12V
q
Code / 650mA150mA
30V DC
12V
Code
150mA
q
Un=12 V DC
650mA
650mA
650mA
650mA
230 V AC
M a i n l i n e
L i n e 1
L i n
e 2
L i n e 1 2
Pow ersupply
LK
LK
Pow ersupply
Pow ersupply
LK
Pow ersupply
230 V AC
230 V AC
230 V AC
B attery m odule
B attery m odule
B attery m odule
B attery m odule
SU B = Subscriber
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SU B 1 SU B 3 SU B 5 SU B 6SU B 2 SU B 4 SU B 64
SU B 1 SU B 3 SU B 5 SU B 6SUB 2 SUB 4 SUB 64
SU B 1 SU B 3 SU B 5 SU B 6SUB 2 SUB 4 SUB 64
Line
ON
Main
1 =MainLine
2 =Line
Line
Line
ON
Main
1=MainLine
2=Line
Line
SU B 3 SU B 5 SU B 6B 2 SU B 4 SU B 64
SU B 3 SU B 5 SU B 6B 2 SU B 4 SU B 64
SU B 3 SU B 5 SU B 6B 2 SU B 4 SU B 64
BK
Power
supply
Power
supply
LK
System coupler
System coupler
M a i n l i n e 1 5
L i n e 1
L i n e 2
L i n e 1 2
230V/400V Information network
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3. KNX Cost estimation3.1 General
3.2 Cost estimation in the preplanning stage
3.3 Cost estimation in the execution planning stage
3.1 General
Sim plified cost
estim ation m ethods can
be applied depending on
these construction
stages:
•preplanning
•execution planning
The objective is to
portray the functionality
in relation to cost. The
proposed m odels natu-rally can not provide
exact results that could
be used in one form or
another in the final
calculations.
Instead, the m odels
illustrate the ability to
estim ate cost in com -
parison w ith conventio-
nal technology or other
system s. Experience in
the field has dem on-
strated that the costs for
KN X in functionalbuildings generally are
•In functional
buildings, it is gener-
ally possible during
the preplanning
phase to start atcost neutrality, even
if the costs are
estim ated flat rate
and based onsquare-m etres area.
•For private
properties, the
im plem entation of
KNX m akes
financial sense only
if there are
increased
requirem ents.
not higher that those of
an alternative solution,
since, even in buildings
of low er standards, the
functions have a certain
dem and for autom ation.
For private properties,
this is usually not the
case, w hich explains
the additional cost. In
such cases, the end
custom er has to m ake a
decision by w eightingthe resulting advan-
tages.
3.2 Cost estimation inthe preplanning stage
In term s of the electrical
installation, preplanning
sim ply entails estim ating
the total costs based on
the prototype of the buil-ding to be constructed.
In doing so, a three-
level, flatrate sum based
on the square-m etre
area of the building is
often used to achieve
this estim ate. The so-
called low , m iddle and
raised standards used in
this estim ation generally
do not specify details
w ith regard to the
individual assem bly
groups or theirfunctions. This estim ate
can be described from
the perspective of the
constructor or investor
as m ore or less a rough
quote of the costs based
on the size of the
building and the level of
the equipm ent. Indepen-
dent of the executionlevel, it can be said for
non-residential buildings
that the cost of im ple-
m enting KN X does not
differ from that of
alternative solutions if
KN X is to be used for
autom ation tasks only. In
the case of a low er stan-
dard, this can of course
m ean, for exam ple, that
only a few central fault
m essages or tim ed
sw itch functions can betaken on. N evertheless,
even such lim ited
im plem entations have
proved useful, as
unforeseeable changes
to the requirem ents pro-
file are m ade
continuously throughout
the construction phase.
The adaptability of theKN X is, especially in this
case, a great advantage.
For private properties,
the im plem entation is
w orthw hile only if there
are increased require-
m ents on the electrical
installation. This for
exam ple could be the
im plem entation of
electric blinds or a high-
quality lighting control
system w ith light
scenes.
3.3 Cost estimation inthe execution planningstage
D uring the execution
planning stage, the plan-
ner (generally the
installer for private prop-
erties) determ ines thefunctionality of the
electrical installation in
co-operation w ith the
client or the client's
agent independent of
the system to be used.
The expected costs are
then determ ined based
on the functional
description determ ined
by the planner and
client. Those w ho are
new to KN X frequently
find it especially difficult
to estim ate the costs. A
frequent m istake is to
base the estim ate on
individual devices,
w hich, w ithout detailed
context, often appear
"too expensive."
H ow ever, it is possible
to com e to an
estim ation that is quite
accurate w ithout great
effort.
The cost estim ate
presented here is based
on flat rates w hich have
been calculated
according to list prices in
the € zone.
The estim ate is
calculated in four steps.
•D eterm ining the costs
of active devices
•D eterm ining the costs
of system devices
including accessories
•D eterm ining the costs
of program m ing and
com m issioning
•D eterm ining costs for
special item s
!
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An example:
This exam ple is intended
to clarify the process of
cost estim ation. A new
school is to be built.
A m eeting betw een
builders and building
planners results in the
follow ing requirem ents
profile, w hich includes
the im plem entation ofKNX.
3. KNX Cost estimation3.3 Cost estimation in the execution planning stage
1. Determining costs for active devices
A ctive devices are all actuators and
sensors that are part of the KN X. Instead
of calculating the actual, concrete device
that is to be im plem ented, flat rates that
are based on specific functions are used
in estim ating the costs.
•Sw itched loads . . . . . . . . . . . . . . 120
•D im m ed loads. . . . . . . . . . . . . . . 220
•G roups of blinds . . . . . . . . . . . . . 180
•H eating circuitw ith continuously regulated valves 400
w ith electro-therm al valves . . . . 260
•M essage m onitoring . . . . . . . . . . . 60
2. Determining costs for
system devices
W ith the presum ption that the individual
KN X line is equipped w ith about 50
devices, and w hile assum ing a m ean
price for active devices, it is possible to
assess the costs of the system devices as
w ell.
C osts of system devices =
7% of the cost of active devices
3. Determining the service cost
B ased on experience and using flat rates,
it is possible to estim ate the costs for
program m ing and com m issioning.
•Program m ing 10% of the cost of active
devices
•Com m issioning 5% of the cost of active
devices
Im portant: The program m ing can
require significantly m ore tim e in
private houses because each room can be
assigned its ow n individual functions.
Sim ply copying functions from room to
room , as is often possible in com m ercial
projects, frequently can not be done. In
cases of com plex application, program m ing
costs of up to 20% of the cost of active
devices can be reckoned w ith.
4. Special costs
Special costs include those w hich can not
estim ated on a flat-rate basis.
For exam ple:
•Visualisations
•Integration w ith other system s
•...
Switched loads
50 classroom s each w ith 3 lighting groups1 break room w ith 4 light groups154 light groups = . . . . . . . . . . .18480.00
Blinds
10 special-purpose room s (assum ingeach has 2 groups of blinds) . . . . .1800.00
Heating
N o heating control w ith KN X . . . . . . . .0.00
Message monitoringFlat rate assum ing5 fault m essages . . . . . . . . . . . . . . .300.00
Total active devices . . . . . . . . . .20580.00€
System devices
20580 * 7% = . . . . . . . . . . . . . .1440.60
Material costs . . . . . . . . . . . . . .22020.60€
Programming
20580 * 10% = . . . . . . . . . . . . .2058.00
Commissioning
20580 * 5% = . . . . . . . . . . . . . .1029.00
Service . . . . . . . . . . . . . . . . . . . . .3087.00€
Materials + service . . . . . . . . . .25107.60€
In our exam ple, visualisation of KN X functionsis planned from a central location. Because therequirem ents profile is not very com plex, w ehave chosen a sim ple touch screen as thevisualisation interface in our exam ple.
Material costs
Touch screen . . . . . . . . . .approx. 1000.00
Service
G raphic design and integrationof the KN X data points . . . .approx. 500.00
Special costs . . . . . . . . . . . . . . . .1500.00€
Total cost of our example . . . . .26607.60€
Our example:
Requirements
profile:
In the classroom s,
the lighting is to be
sw itched off based
upon outside bright-
ness. In order to
prevent interruptions,
this should occur only
during breaks. In labora-
tories and other special-purpose room s, electric
blinds are to be
controlled in addition to
the lighting. Likew ise,
the lighting of a break
room is to be sw itched
off w hen sufficient out-
side light is present.
Furtherm ore, several
m essages, w hich have
not yet been detailed,
shall be provided.
Room list:
Standard classroom s 40
Laboratories/special-
purpose room s 10
Break room s 1
Auditorium s 1
Teacher room s 2
O ffices 5
!
Price exam ple of the G erm an m arket.
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5. System Engineering5.1 The European Tool Software (ETS)
5.2 The programming process
5.1 The European ToolSoftware (ETS)
The ETS is the standard
softw are used for com -
m issioning the KN X.
U nlike other system s, all
m anufacturers of KN X
products use the ETS to
com m ission their
devices. This guarantees
product com patibility
betw een different m an-ufacturers. The product
data can be obtained
from the m anufacturers
free of charge. The
product data can be
im ported into the ETS by
the userw ithout a prob-
lem .
The E TS is not free of
charge and can be pur-
chased through the
KN X:w w w .knx.org
Training program m es are
offered in m any coun-
tries through certifiedtraining establishm ents.
For m ore inform ation on
training, please ask your
representative.
M anufacturer's
product database
System functionality
D evice functionalityETS
Im port/export
Com m issioning
Program m ing
5.2 The programmingprocess
Program m ing the sys-
tem in the ETS requires
several steps.
Create the building structure(optionally)B uilding, storeys and room s/distribu-
tors ofthe project are defined in the
form of a tree structure.
Create the devices of the projectThe devices required are added into
the room s/distributors and their param -
eters are defined.U nique "physical
addresses" are assigned to the
devices (see diagram on the right)
Define the functions in the projectEach function is given a nam e, w hich
serves as the so-called group address
(see diagram on the right)
Create the interconnectionsD evices are linked via the group
addresses,w hich is com parable to
the layout and connection of control
lines in the conventional technology.
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8. Planning support Busch-triton®
Switchrocker 1
Switch rocker functions:
Switchrocker 2
Switchrocker 3
Switchrocker 4
Switchrocker 5
Room:
Display text 1:
Installationlocation:
1gang
3gang
3gang display3gang RTR
5gang
5gang display
5gang RTR
– – – – – – – – – – – – – – – –
Display text 3:– – – – – – – – – – – – – – – –
Display text 2:– – – – – – – – – – – – – – – –
Display text 4:– – – – – – – – – – – – – – – –
Display text 5:– – – – – – – – – – – – – – – –
Display texts (each w ith m ax. 16 characters/not com bined w ith room therm ostat and 1gang-triton)
Room thermostat (not com bined w ith display texts and 1gang-triton)
Socket outlet
Socket outlet
Socket outlet
Socket outlet
Infrared
Infrared
Infrared
Infrared
Infrared
Other remarks:
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9. Electrical Design (Consulting)9.1 General
9.2 Installation sheets
9.1 General
Planning w ith K N X dif-
fers little from planning
based on conventional
techniques. There are
tw o differences, how -
ever, w hich the planner
needs to consider.
1.The specification (bid)
should include a
detailed functionaldescription, as the
functionality generally
can not be determ ined
from the bid devices.
This functional
description allow s the
tendering com pany
(usually the installer)
to estim ate the input
required for program -
m ing the building
being constructed.
2.The layout of the KN Xshould be illustrated in
a diagram . This pro-
vides additional infor-
m ation on tim e and
cost requirem ents and
illustrates the planned
structure ofthe proj-
ect.
(R efer to "Topology".)
9.2 Installation sheets
Like planning using con-
ventional technology,
the installation plan
provides inform ation on
the special positioning
of the installation
N ote:
Program m ing the
devices generally is notincluded in the planning.
Instead, this service is
provided by the com pa-
ny carrying out the instal-
lation or by a specialised
service provider.
R ecom m endations for
planning w ith KN X:
Field experience has
show n that the less expe-
rienced tend to offer the
KN X as a separate item .
This leads to the follow -
ing disadvantages:
•O nly w ith difficulty can
the tendering installer
m ake correlations
betw een the various
assem bly groups.
•The constructor gets
the im pression that the
KN X is an optional item
that can be rem oved
from the bid. This of
course is the case only
if an alternative system
is im plem ented (w hich
often requires further
m easures) or if the par-
ties renounce agreed
solutions.
This can be avoided by
integrating the planned
im plem entation into the
standard segm entation of
the specification (e.g.
lighting, heating...) bid.
devices, the function
can not be m irrored in
the plan because the
function is ultim ately
determ ined w hen the
devices are
program m ed, not w hen
they are installed.
!
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9. Electrical Design (Consulting)9.3 Circuit diagram
9.3 Circuit diagram
The K N X distributor devi-
ces are represented in
the circuit diagram s by
block sym bols.
The single-line diagram is
the m ost com m on in the
plan. M ultiline diagram s
are needed only in speci-
al cases and in revision
plans.
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E l e c
t r i c
c i r c u
i t
C a
b l e D e s c r i p t i o n
0 0 5
. 1
L 1 - L
2 - L
3
N 0 0 5
. 1
P E
0 0 3
. 8
L 1 - L
2 - L
3
N 0 0 3
. 8
P E E
1 1
0 0 3
. 8
1 L 1 - 1
L 2 - 1
L 3
F 1
B 1 6 A
N
P E
2 . 5
b w
- X 1 1
. 1
N
P E
2 . 5
b w
- X 1 1
. 2
N
P E
2 . 5
b w
- X 1 2
. 2
F 0 3
B 6 A
1 . 1
L i g h t i n g
C o u r t r o o m
5 . 2
L i g h t i n g
C o u r t r o o m
6 . 1
L i g h t i n g
C o u r t r o o m
6 . 2
L i g h t i n g
C o u r t r o o m
N
P E
2 . 5
b w
- X 1 3
. 1
N
P E
2 . 5
b w
- X 1 3
. 2
N
P E
2 . 5
b w
- X 1 4
. 2
E 1 2
E 1 3
N
P E
2 . 5
b w
- X 1 6
. 1
N
P E
2 . 5
b w
- X 1 5
. 1
N P
E
2 . 5
b w
- X 1 5
. 2
F 5
B 1 6 A
F 6
B
1 6 A
N
P E
2 . 5
b w
- X 1 6
. 2
1 . 2
L i g h t i n g
C o u r t r o o m
2 . 1
C o n t r o l
C o u r t r o o m
2 . 2
L i g h t i n g
C o u r t r o o m
3 . 1
L i g h t i n g
C o u r t r o o m
3 . 2
L i g h t i n g
C o u r t r o o m
4
. 1
C o n t r o l C o u r t r o o m
4 . 2
L i g h t i n g
C o u r t r o o m
5 . 1
L i g h t i n g
C o u r t r o o m
0 0 5
. 1
1 L 1 - 1
L 2 - 1
L 3
F 3
B 1 6 A
.
S h e e
t
S h
.
C o n
d i t i o n
C h a n g e
D a
t e
N a m e
S t a n
d a r d
T e s
t e d
P r o c
.
D a
t e
O r i g
.
E r s
. f .
E r s
. d .
1
2
3
4
5
6
7
8 8
7
6
5
4
3
2
1
A B C D E F
F i l e :
A u t o C A D R 1 4
F E D C B A
A B B G e b ä u d e t e c h n i k A G
a n d a c t i o n a b l e u n d e r c i v i l a n d c r i m i n a l l a w . p a r t i c u l a r r e p r o d u c t i o n o r h a n d i n g o v e r t o t h i r d p a r t i e s i s p r o h i b i t e d a p a t e n t a n d r e g i s t r a t i o n o f a n o t h e r i n d u s t r i a l r i g h t . M i s a p p l i c a t i o n , i n A l l r i g h t s a r e r e s e r v e d f o r t h i s d o c u m e n t , e v e n i n c a s e o f i s s u a n c e o f
M i s a p p l i c a t i o n , i n p a r t i c u l a r , r e p r o d u c t i o n
c r i m i n a l l a w . o r h a n d i n g o v e r t o t h i r d p e r s o n s i s p r o h i b i t e d a n d a c t i o n a b l e u n d e r c i v i l a n d
a p a t e n t a n d r e g i s t r a t i o n s o f a n o t h e r i n d u s t r i a l r i g h t . A l l r i g h t s a r e r e s e r v e d f o r t h i s d o c u m e n t , e v e n i n t h e c a s e o f i s s u a n c e o f
G e n e r a l p l a n
R o o f e d h a l l
B
S u b - d
i s t r i b u t i o n
F i n e n e t w o r k
0 0 4
5 x 2
. 5
A
B
C
D
1 . 3 . 5
1
A
B
C
D
1 . 3 . 5
2
A
B
C
D
1 . 3 . 5
3
F 2
B 1 6 A
K 2
. 1
E S B 2 0
A 1
A 2
1 2
3 4
2 . 1
/ 1
L i g h t i n g
C o u r t r o o m
2 . 1
/ 2
L i g h t i n g
C o u r t r o o m
0 0 5
. 5
F 0 3
P E
N 2 . 5
b w
2 . 2 . 1
- X 1
2 . 2 . 2
K 4
. 1
E S B 2 0
A 1
A 2
F 4
B 1 6 A
1 2
3 4
P E
N 2 . 5
b w
4 . 1 . 1
- X 1
4 . 1 . 2
4 . 1
/ 1
L i g h t i n g
C o u r t r o o m
4 . 1
/ 2
L i g h t i n g
C o u r t r o o m
5 x 2
. 5
S w i t c h a c t u a t o r , 4 - f o l d
, 1 6 A
S w i t c h a c t u a t o r , 4 - f o l d
, 1 6 A
S w i t c h a c t u a t o r , 4 - f o l d
, 1 6
A
3 x 2
. 5
N H X M H - J
3 x 2
. 5
N H X M H - J
3 x 2
. 5
N H X M H - J
N H X M H - J
3 x 2
. 5
N H X M H - J
3 x 2
. 5
N H X M H - J
N H X M H - J
N H X M H - J
3 x 2
. 5
N H X M H - J
3 x 2
. 5
N H X M H - J
3 x 2
. 5
N H X M H - J
3 x 2
. 5
N H X M H - J
3 x 2
. 5
10. Documentation Examples10.1 Distribution plan
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10. Documentation examples10.2 General plan
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