SSS Siedle DoorCom IP User manual
Manual
DoorCom IP
DCIP 740-0
2
Contents
1 System description 3
2 Safety remarks 3
System requirements 3
3 Structure
DCIP 740-0 4
Group calculation
Max. number of PC users 5
Terms 6
4 Components
Calling 8
Input module, camera module 9
Power supply, programming,
IP video server 10
Software 11
Siedle Multi 12
5 Installation
Wiring diagrams DCIP 740-0
Terminals DCIP 740-0 14
LED display SIVS 610 15
Block diagrams 16
Wiring diagram Siedle Multi 17
6 Commissioning
DCIP 740-... 20
SIM 740-... 21
Multicasting 22
Configuration software DCIP CO 24
Software client DCIP SC 26
7 Setting the speech volume,
level adjustment
DCIP 740-... 28
8 DoorCom DCA 740-01 29
9 Factory reset 29
10 DoorCom IP FAQ and
trouble shooting 30
11 Glossary, index 33
3
DoorCom IP 740-0
Siedle DoorCom IP links the Siedle
world of building communication
to the IP world. Door calls are
transformed via the DoorCom IP and
transmitted via the IP network
to certain PCs. If video cameras
are fitted at the door station, the
picture of the visitor is additionally
transmitted. The DoorCom IP
Software Client is used here as
a virtual in-house telephone for
communication to the door station.
The Software Client must be
installed on every PC in the network
which is intended to receive a door
call. Assignment of door calls to the
Software Clients takes place using
an IWA address (Interface Working
Address) which is entered in the
DoorCom IP with the aid of the
configuration software.
DCIP 740-0
The DoorCom IP 740-... serves as
an interface between a Siedle Multi
system and an IP network.
The DoorCom IP is able to display
the picture on the PC monitor in
conjunction with the Siedle Software
Client and at the same time hold the
door call via the PC. The door call
can optionally also be held over the
telephone system using a telephone,
while the picture is displayed by
the Software Client and all control
functions such as door release can
also be initiated by the software. For
this, a DCA 740-01 must additionally
be connected to the DoorCom IP.
Danger
Mounting, installation and
servicing work on electrical
devices may only be performed
by a suitably qualified electrician.
Failure to observe this regulation
could result in the risk of serious
damage to health or fatal injury
due to electric shocks.
• When working at the device,
observe the instructions for mains
cut-off.
• Observe the standard DIN EN
60065!
When establishing the electronic
connection, observe the
requirements of VDE 0805 / EN
60950.
• An all-pole mains switch must be
provided in the building installation
with a contact opening
of at least 3 mm.
• Ensure that the connection point
in the building installation is fused
with max. 16 A.
• When planning, the required
distributor space for switch panel
mounted devices must be taken into
account.
• External voltages >30 V AC/
DC must not be injected into the
in-house telephones.
Devices with 230 V connection
In accordance with DIN VDE 0100
Part 410, Section 411.1.3 ensure
that the DoorCom installation and
the mains voltage are securely
isolated. The sheathing of the
connection cable (safety extra-low
voltage) should only be stripped
back far enough to ensure that
reliable connection is possible.
For mains connection
!and network settings such as
assignment of the IP address, the
responsible network administrator
must be consulted.
1 System description
DoorCom IP 740-0
2 Safety remarks
System requirements
Find out about the necessary safety
measures and system requirements
before starting installation and
commissioning of the DoorCom IP.
System requirements
for the configuration software
• PC with Intel Pentium III from
1 GHz or comparable processor
• at least 256 MB RAM
• min. 25 MB hard disk memory
• Serial COM interface RS232 or
USB interface
• CD-ROM drive for installation
• VGA graphic card with
at least 1024 x 768 pixel
• Operating system Windows 2000/
XP
• Admin rights for installation
Additional memory capacity is
required for:
• Acrobat Reader 7
• Microsoft Internet Explorer from
version 4
System requirements
for the Software Client
•Operating system Microsoft
Windows 2000/XP
•Pentium IV from 1.8 GHz or
compatible CPUs
•min. 256 MB RAM
•Graphic card with
at least 1024 x 768,
128 MB and 16 bit colour depth
MPEG 4 capability
•100 Mbit Ethernet card
•Sound card
•Microsoft DirectX 9.0b or newer
•Microsoft Internet Explorer
from version 4.0 for reading the help
Speech quality
The audio quality (speech
transmission) is highly dependent on
the quality of the audio components
built into the PC (headset, handset
and sound card).
4
3 Structure DCIP 740-0
Siedle Multi with link to system telephone
Camera assignment mode
DCIP 740-...
Siedle Multi link
The DCIP 740-... behaves in
the system in the same way as
an internal call station and is
consequently bound by the same
system limitations (range and
number of users). The DCIP 740-...
can be used in two operating modes
(camera assignment and monitor
assignment). The operating mode is
set in the SIM 740-... The operating
mode depends on the arrangement
and system topology.
The DCIP 740-... comprises the
components:
• SIVS 610-.., system interface video
server. Processing and adjustment of
data, audio and video.
• IPVS 600- .., IP video server.
Transmits data, audio and video to
the IP network.
• SIM 740-... system interface Multi.
Interface to Siedle Multi
Camera assignment mode
The SIM 740-... is assigned to
a door / camera. In this mode,
the device can be assigned up
to 49 different call destinations
which correspond to the functions
of 49 Multi telephones. In this
operating mode, a DCIP 740-...
is required for each door. This
operating mode is advisable in
systems with a small number of
doors and a large number of PC
users.
Monitor assignment mode:
Up to a maximum of 4 call
destinations, i.e. Siedle Multi system
addresses, can be assigned to the
interface SIM 740-...
These correspond to the functions
of the 4 Multi telephones. The call
destination can be dialled from
every door within the Siedle Multi
(max. 254). This operating mode
is advisable in systems with a
large number of doors and a small
number of PC users.
Power supply
The DCIP 740-... is supplied directly
from the Siedle-Multi bus. A
separate supply is consequently not
required. An optionally connected
DCA 740-01 is supplied from the
SIVS 610-...
The a/b public network interface is
supplied from the TC system. It is
not possible to connect an individual
public network telephone directly to
the a/b line of the DCA 740-01.
The DCIP 740-... or the IPVS 600-...
is linked using a standard network
cable with RJ45 plug to the IP
network.
Functions
• Door call from the Siedle Multi
system and signalling to the PC
• Text display of which door or
which Multi telephone is calling.
• Door release actuation by means
of a mouse click
• Light actuation by means of a
mouse click
• Selective dialling of a connection
to a Multi door station or Multi
in-house telephone.
• Initiation of control and switching
functions via a mouse click to the
Multi system
• Reception of status messages from
the Siedle Multi bus
• Speech connection via PC
(headset) or optionally via the
telephone.
PRI 602-... USB
5
Calculation
For calculation of the maximum
number of possible PC users (single
and parallel calls), the following rules
are applied:
• In general, an IPVS can manage a
maximum of 50 registrations.
• In the monitor assignment mode,
the maximum number of users is
four.
This applies depending on which
limit is reached first.
• Every PC user to which a door call
has been established currently occu-
pies 2 registrations in the IPVS.
Camera assignment mode:
• If no groups are created, a
maximum of 49 single PC users can
be integrated. If one of these PC
users is called, it currently occupies 2
registrations, the others occupy only
one each. In total, this adds up to
1*2+48=50, which is the maximum
possible assignment per IPVS.
• If several groups are created, the
biggest group is decisive for the
calculation. The maximum group
size is 25. If this group is called,
each PC user currently occupies 2
Commissioning and
programming
After connection of the supply
voltage, the devices SIM 740-... and
SIVS 610-... can be programmed
with the aid of a PRI 602 via the PC.
(See commissioning chapter 6)
No programming is required for the
DCA 740-01. For programming and
configuration of the TC system, see
the relevant product information
and programming instructions of the
manufacturer.
Mounting and installation
The DCIP 740-... can be connected
at any optional point of the Siedle
Multi system bus. The devices are
intended for switch panel mounting.
These should preferably be mounted
directly one next to the other.
The maximum conductor length
of the device connection must not
exceed 1 metre.
The SIM 740-... is linked to the
SIVS 610-... with 6 cores. Actuation
of the link between the SIVS 610-...
and the IPVS 600-... takes place via
the patch cable.
Performance features
• Transmission of door calls with/
without video via the Ethernet to
PC users
• Free combination of PC call
stations and Multi Siedle terminals
• Audio transmission also possible
via the telephone network
(DCA 740-01)
• Full duplex calls between door call
station and Software Client
• Actuation of the door release and
light possible from the PC with a
mouse click.
• Video: MPEG-4 (ISO/IEC 14496)
Codec, Audio: G.711; (300Hz -
3.4KHz)
• From 1 door up to 49 different PC
call users can be connected
• Selective connection to a door
station. (Audio and/or video)
• Parallel call possible to max. 25 PC
users
• With the TLC 640-... in
combination with code lock module
COM 611-..., alphabetical input
module AEM 645-0 or display call
module DRM 611-... direct calls are
possible from PC users.
Monitor assignment mode
PRI 602-... USB
3 Group calculation
Max. number of PC users
6
3 Terms
Camera assignment
A Siedle Multi door station can be
assigned up to 49 different PC users.
This operating mode is only possible
with DCIP 740-...
Client
PC user connected to a network.
Full duplex
Both users (PC client and door
station) have an unrestricted
speech connection. Open duplex
communication, i.e. as opposed to
the simplex speech mode.
Gateway
Gateways link two different
networks and create connections
across network boundaries. During
this process, both the physical
transmission modes and also
protocols and addresses are adjusted
accordingly.
Half duplex
Two speaking users have one speech
connection which they can use
alternately, also known as push to
talk.
HTTP
The Hypertext Transfer Protocol is a
protocol used for the transmission
of data via a network. It is used
mainly to load websites and other
data from the Internet into a web
browser.
Hub
The term hub when used in relation
to network technology describes a
device which links network nodes in
a star formation. Normally, the term
hub is used to denote a multiport
repeater. It is used in order to link
network nodes or other hubs, for
example by means of an Ethernet.
IP address
Internet Protocol address
An IP address is a number which
permits PCs and other devices in
an IP network to be addressed. In
technical terms, the number is a
32- or 128-bit binary number.
registrations. In total, this adds up
to 25*2=50, which is the maximum
possible assignment per IPVS.
In the following is a list with five
combinations. Each example compri-
ses a group with a different number
of users and individual clients.
Clients
in group
Individual
Clients
Calculation
5 40 5*2+40=50
10 30 10*2+30=50
15 20 15*2+20=50
20 10 20*2+10=50
25 0 25*2+0=50
Example in case of several
groups:
The following is a combination
example comprising two groups
and five individual clients, with each
group and each individual client
occupying one address. Consequent-
ly a total of seven addresses are used
in the system.
Group 1: 20 PC users
Group 2: 5 PC users
Clients: 5 individual PC users
• If the biggest group (group 1) is
called, this group occupies 20*2=40
registrations in the IPVS. Group 2
and the individual PC users each
occupy 5 registrations. In total, this
adds up to 20*2+5+5=50, which is
the maximum possible assignment
per IPVS.
Monitor assignment mode:
• If no groups are created, a
maximum of 4 single PC users can
be integrated. If one of these PC
users is called, it currently occupies
2 registrations, the others occupy
only one each. In total, this adds
up to 1*2+3=5. In this operating
mode, this represents the maximum
number of users.
• If several groups are created, the
biggest group is decisive for the
calculation. The maximum group
size is 25. If this group is called,
each PC user currently occupies 2
registrations. In total, this adds up
to 25*2=50, which is the maximum
possible assignment per IPVS.
In the following is a list with four
combinations. Each example compri-
ses a group with a different number
of users and individual clients.
Clients
in group
Individual
Clients
Calculation
23 3 23*2+3=49
24 2 24*2+2=50
24 1 24*2+1=49
25 0 25*2+0=50
Example in case of several
groups:
The following is a combination
example comprising two groups and
two individual clients, with each
group and each individual client
occupying one address. Consequent-
ly a total of four addresses are used
in the system.
Group 1: 20 PC users
Group 2: 8 PC users
Clients: 2 individual PC users
• If the biggest group (group 1) is
called, this group occupies 20*2=40
registrations in the IPVS. Group 2
occupies 8 registrations and the
two individual PC users each
occupy one. In total, this adds up to
20*2+8+2=50, which is the maxi-
mum possible assignment per IPVS.
For parallel calls to groups, note the
section on multicasting, page 22.
7
IP
Internet Protocol
The IP is a network protocol in
widespread use in computer
networks. IP forms the first layer of
the Internet protocol family which
is independent of the transmission
medium. This means that computers
can be grouped within a network
into logical units known as subnets
by means of an IP address and
subnet mask.
IGMP V3
The Internet Group Management
Protocol is based on the Internet
Protocol (IP) and permits IP
multicasting (group communication)
in the Internet. IP multicasting is the
distribution of IP packages under
an IP address to several stations
simultaneously. Here, it is possible to
specify which source is required for
the multicast stream.
IWA
Interface Working Address
Six-digit address with which the
system interface video server
SIVS 600-... addresses the PC users.
These IWA addresses are stored in
the Software Client.
LAN
Local Area Network
Local, cable-linked network.
Monitor assignment
Up to 254 Siedle Multi door stations
can be assigned to a maximum
of 4 different PC users. This
operating mode is only possible with
DCIP 740-... .
Multicasting
Term to denote group/parallel calls
with video image to several PC users
which have the Software Client
installed. For this to be possible, the
UDP and IGMP V3 protocols must be
implemented in the network.
Push to Talk
In case of a connection using the
half-duplex mode (push to talk) a
button always has to be pushed to
change the speech direction.
Router
A router is a network device which
links several computer networks.
Network packages of a protocol
arriving at the router are analysed
for information and forwarded or
routed to the intended destination
network.
RS232
Designation for a serial interface, for
instance the COM interface of a PC.
RS485
Interface for serial data transmission
in the half-duplex mode.
Transmission to a pair of cores.
Server
A server is a program which waits to
be contacted by a client program,
after which it exchanges data with
the client program. The hardware
on which the server runs is known
as the host.
Subnet mask
The subnet mask, also known
as network mask, is a bit mask
which separates an IP address into
a network and a device or host
section. It is used in IP networks in
order to make routing decisions.
TCP
Transmission Control Protocol
The TCP is a protocol which
determines the way in which data
is exchanged between computers.
All operating systems in modern
computers have TCP capability and
use this protocol for data exchange
with other computers. The protocol
is a reliable, connection-oriented
transport protocol used in computer
networks.It is part of the internet
protocol family, which forms the
foundation of the Internet.
UDP
User Datagram Protocol
The UDP is a minimal connectionless
network protocol which belongs to
the transport layer of the Internet
protocol family. It is the task of the
UDP to assign data transmitted via
the network to the right application.
Vario bus
Various different input and control
units can be connected to the Vario
bus. It comprises 4 cores. The Vario
bus is a RS485-bus. The information
will be transfered on the Vario bus
protocol.
Web browser
Software for the display and
indication of Internet pages or
corresponding configuration pages.
E.g. Internet Explorer or Firefox.
8
TME 640-0
Call button module extension in
protective housing with screw
terminals, for connection of call
button modules TM 612-... or call
buttons of other makes.
A maximum of 16 call button
modules can be connected to the
TME 640-… by means of a matrix
installation.
Dimensions: 100 x 50 x 20 mm
cable.
Dimensions: 99 x 99 mm
TM 612-1 - TM 612-4
Call button modules, potential-free
buttons, 1-4 call buttons, integrated
LED lighting. Connection by means
of terminal block. Power supply
to the LED lighting by means of
terminal b and c with 12 V AC/DC,
current consumption 25 mA per call
button module TM 612-...
Used as call buttons 1-4 directly at
the SIVS 600-...
TME 645-0
Call button module extension
with interface to the Vario bus for
max. 8 TME 645-... . Suitable for
connection of call button module
BTM 650 -... A maximum of 16
bus call button modules can be
connected per TME 645-… . With
an acoustic signal which sounds on
button assignment. The call button
modules are connected to the
TME 645-… by means of a ribbon
4 Components for DCIP 740-...
Call buttons
BTM 650-01 - BTM 650-04
Bus call button modules for In-Home
bus. 1-4 call buttons, integrated LED
lighting. Connection via ribbon cable
to the TME 645-... Power supply
to the LED lighting via terminals b
and c with 12 V AC/DC, current
consumption 25 mA per bus call
button module BTM 650-...
9
CMC 612-...
Camera module, colour. Integrated
2-step heating system, day/night
switchover, infrared lighting and
video signal transformer. Power
supply using line rectifier NG 600-...
or VNG 602-... With Siedle Multi via
PCM 640-.../NG 600-..., NG 608-...
or NG 640-... Heating power supply
12 V AC, 100 mA.
COM 611-01
Code lock module as an input unit
in conjunction with the Siedle Vario
bus.
A C button for deleting incorrect
inputs. LED as status display
(external potential-free contact).
Operating voltage 12 V AC /DC
Current consumption max. 100 mA
Ambient temperatue
-20°C to +70°C
Dimensions: 99 x 99 mm
AEM 645-0
Alphabetical input module with
keypad A - I. Input unit for
alphanumerical selection of PC users.
For use in Siedle Multi systems only
in conjunction with the TLC 640-02,
COM 611-01
DIM 640-0 and SIVS 600-...
Operating voltage 12 V AC /DC
Current consumption max. 100 mA
4 Components for DCIP 740-...
Input module, camera module
DRM 611-0
Display call module as an input unit
with 4-line display for placing door
calls.
To scroll through the name index,
there are two arrow keys provided
for „up/down“. An external DR
button can be connected.
• 4-line display x 18 characters each,
with LED backlighting
• 3 displacement-free piezo buttons
• Button actuation confirmed by
acoustic tone
• Backlit symbols
Operating voltage 12 V AC/DC
• Current consumption max.
200 mA
Ambient temperature
-20°C to +70°C
Dimensions: 99 x 99 mm
10
4 Components for DCIP 740-...
Power supply, programming, video server
NG 600-0
Line rectifier in 10-grid switch panel
housing for universal power supply.
Suitable for surface mounting with
ZAP 10-0. Primary 230 V AC, 50 Hz,
+6%-10%
Secondary b/c: 14 V AC, 1 A;
+/-: 24-28 V DC, 0.7 A
Ambient temperature 0°C to +40°C,
protection rating IP 20
Dimensions: 180 x 89 x 60 mm
PRI 602-... USB
Programming interface for
connection of a Windows PC via
USB interface to the Vario bus.
Required for configuration of the
system interface video server with
software DCIP CO 600-... version
1.1. or higher.
IPVS 600-0
System interface video server
Processing and adjustment of audio
and video, transmission of data,
audio and video to the IP network.
Dimensions: 112 x 85 x 40 mm
DCA 740-01
The DoorCom Analog DCA 740-01
can be connected to a universal a/b
interface.
In conjunction with the DCIP 740-...
it serves as an alternative speech
connection if no speech connection
via PC is preferred.
Connection takes place at the
standardized a/b interface of a TC
system (analogue PBX extension) or
directly at the analogue telephone
network.
Dimensions: 107 x 89 x 60 mm
11
DCIP SC 600-0
DoorCom IP Software Client PC
program, which depicts a virtual
house telephone with video on a PC
monitor.
Door calls with video are possible to
one or more Siedle door stations.
Execution of switching and control
functions such as door release, light
switch or display of messages on the
PC monitor.
For each installation of the Software
DCIP CO 600-0
DoorCom IP configuration software
PC program for set-up and
programming of the Siedle interface
video server
SIVS 610-... Programming takes
place via the USB programming
interface PRI 602-... USB
configuration software version 1.1.
or higher.
Commissioning software for the
administrator.
CD contains
• DoorCom IP Software Client
(DCIP SC 600-0)
•DoorCom IP Configuration
software (DCIP CO 600-0)
• DoorCom IP Manual
• Siedle default configuration for
IPVS 600-...
• Java Runtime Environment (JRE)
5.0
• Microsoft Installer 3.1
Client on a PC, a licence is required
for the DCIP SC 600-0.
4 Device overview for DCIP 740-...
Software
12
4 Device overview only DCIP 740-...
Siedle Multi
SIVS 610-0
System interface video server,
for connection of Siedle Multi to
the IPVS 600-0. The SIM 740-0 is
required for connection.
The SIVS 610-... features galvanic
isolation in addition to the
SIVS 600-0.
Dimensions: 144 x 130 x 55 mm
SIM 740-0
The Multi system interface processes
all Multi data protocols. System
information is managed here and
forwarded in neutral form to the
SIVS. The SIM 740-... is able to
simulate several Multi telephones,
depending on the operating
mode. Only one of these “virtual
telephones“ can ever be active at
one time, i.e. conduct a call.
Dimensions: 107 x 89 x 60 mm
VMS 641-0
Video monitor switching unit, links
the SIVS 610-... with the Multi
video bus, in order to create the
connection to the corresponding
door call station. Is required in the
monitor assignment mode when
the SIM 740-... simulates more than
1 user.
Dimensions: 62 x 230 x 35 mm
TLC 640-02
Door loudspeaker controller in 6-grid
switch panel housing. Control unit
to be used between TLM 645-...
and Siedle-Multi, for two speech
channels.
Dimensions: 107 x 89 x 60 mm
13
Block diagram CMC 612-0
+M/-M Supply voltage
Video 20 - 30 V DC
Vc/- Actuation from
door loudspeaker for
camera on. With
DoorCom IP the contact
is permanently
active. Potential - is
switched via
the UPS terminal.
VKA Actuation of
camera distributor -M
is switched
A1/A1 Potential-free contact
for additional
applications
b/c Power supply 12 V AC
for heating
5 Terminals
CMC 612-0
14
5 Terminals
DCIP 740-...
abc
defg
Terminals and LEDs IPVS 600-0
aNo function
bConnecting socket to the
SIVS 610-...
cRJ45 socket ETH network
connection
dReset button to recreate the
as-delivered status (after a reset, the
Siedle modes must be reinstalled,
see page 30.)
eLED operating status lights up in
green on readiness for operation
fLED L lights up in green with an
existing network connection
gLED T flashes orange on data
transmission via the network
Terminals IPVS 600-0
hVideo input 1Vss from the
SIVS 610-...
iAudio-Line-In to the SIVS 610-...
jTerminal plug for control signals
kAudio-Line-Out to the SIVS 610-...
Terminals
SIVS 610-...
aVideo signal 1 Vss (cinch jack)
bTerminating resistor 75 Ohm
ON/OFF
cIN = video signal 1 Vss input,
D = Video signal 1 Vss throughput
dTerminals for installation
eConnection to IPVS 600-...
fTerminals for installation
gGrounding terminal
a
b
c
d
e
f
g
hijk
15
5 LED display
SIVS 610-... /SIM 740-0 and IPVS 600-...
LED signalling SIVS 610-... /SIM 740-0
Switching on
LED green LED red Function
OFF ON After reset, power on: Device boots to operating status.
ON ON The boot area is checked. Software runs in the flash
Fast flashing ON After a software update, the boot area is recreated.
This can take up to around 3 minutes.
Operation
LED green LED red Function
ON OFF Booting is complete. All OK. Normal status
Slow flashing OFF Display, a connection exists
Fast flashing OFF A software update or reconfiguration process is under way
Fault
LED green LED red Function
OFF Slow flashing ERROR, software running only in bootloader. Program memory
defective. (Device defective, possibly new software update or
exchange.)
ON Slow flashing Variobus address error (error remedy possible on site)
ON Fast flashing The 15 V power supply (terminal bv, cv) is overloaded. (Error
remedy possible on site) (only SIVS 610-...)
OFF OFF If supply voltage is definitely connected, the device
is defective. (Exchange)
Frequencies: Slow appr. 2 Hz, fast appr. 16 Hz
LED signalling IPVS 600-...
The underneath of the IP video server IPVS 600-... has 3 LEDs which display operating statuses and can provide an
indication of possible errors.
LED operating status Function
OFF IPVS 600-... is switched off.
Lights up in green IPVS 600-... is switched on
Flashes green Access to the IPVS 600-...
Lights up in red (briefly) Start process running
Lights up in red (continuous) Error in the device or failed upload
LED L
Lights up in green Network connection exists
LED T
Lights up in orange Active data transmission via the network
16
5 Terminals
SIVS 610-0, SIM 740-0
Block diagram SIVS 610-0
G Reference for the inputs
E1–E4
E4 not assigned
E3 not assigned
E2 not assigned
E1 not assigned
cv- Power supply for
bv+ Vario bus, 15 V DC, max.
300 mA
Da/Db Vario bus
+ Supply voltage
- 24 V DC
Tö not used, DR via
Tö TLC 640-02
Li not used
USP Universal Serial Port,
SN1 RF signal, path
SN2 SIM 740-...–SIVS 610-...
n1 RF signal for
n2 connected
DCA 740-01
Block diagram SIM 740-0
S1 Switching output 1
S2 Switching output 2
S3 Switching output 3
S4 Switching output 4
cv- Power supply for
bv+ 15 V DC
1–8 Siedle Multi
E1 Input 1
E2 Input 2
E3 Input 3
Da/Db Vario bus
SN1 RF signal, path
SN2 SIM 740-...–SIVS 610-...
17
Monitor assignment mode
5 Installation
DCIP 740-... Siedle multi
Siedle Multi requires additional supply devices which are not listed in this wiring diagram!
18
5 Installation
DCIP 740-... Siedle multi
Camera assignment mode Siedle Multi requires additional supply devices which are not listed in this wiring diagram!
19
DCIP 740-... Siedle multi
Functional characteristics
Depending on the operating mode
camera assignment or monitor
assignment, 49 or 4 PC users can
be called.
Calling, speech and door release via
the Software Client DCIP SC 600-... .
The Software Client must be
installed on every PC which receives
door calls. Standard call tones for
the Software Client 3-tone chime. A
dedicated *.wav file can be assigned
for each call tone.
It is not possible to listen in to an
existing call from other PC users in
the network.
The door is opened by the called
PC user using a “virtual door
release button”, the light switching
function is actuated using a “virtual
light button”. The door call can be
muted with an optical display on the
monitor.
Camera assignment mode
The SIM 740-... is assigned to a
door / camera. In this mode, the
device can be assigned up to 49
different call destinations, i.e. Siedle
Multi system addresses which
correspond to the functions of 49
Multi telephones. In this operating
mode, a DCIP 740-... is required
for each door. This operating
mode is advisable in systems with a
small number of doors and a large
number of PC users.
Monitor assignment mode:
Up to a maximum of 4 call
destinations, i.e. Siedle Multi system
addresses, can be assigned to the
interface. These correspond to the
functions of the 4 Multi telephones.
The call destination can be dialled
from every door within the Siedle
Multi (max. 254). This operating
mode is advisable in systems with a
large number of doors and a small
number of PC users.
Remarks
a) Door release 12 V AC, use at least
20 Ohm (e.g. TÖ 615-...)
• 12 V AC consumers in the wiring
diagram:
• Door release appr. 600 mA
• Light contact load in the door
loudspeaker max. 24 V AC, 2 A
c) Distance of the SIVS 610-... to the
door station max. 200 m with
J-Y(ST)Y 0.8 mm core material.
Distance between the two devices
SIVS 610-... and IPVS 600-... in
the distributor max. 1 m. During
installation, ensure that the door
release is laid in a separate cable.
Power supply voltage bv+/cv- of the
SIVS 610 15 V DC, max. 300 mA
When connecting additional devices
to the Vario bus (terminals Da/Db),
the Vario bus requires an additional
power supply.
d) ***Optionally the DCA 740-01
can be connected to the PBX
extension of a telephone system.
Active door calls can then be routed
via the telephone.
The functional features of the
Software Client can still be used.
20
6 Commissioning
DCIP 740-... Siedle multi
The procedure for commissioning
the DCIP 740-... is broken down into
4 steps:
1 Configuration of IPVS 600-...
2 Configuration of SIM 740-...
3 Configuration of SIVS 610-...
4 Installation of the software
DCIP SC 600-... on the PCs
Step 1 on this page
Configuration of IPVS 600-...
Issue of the IP address, subnet mask
address and gateway address for
assignment in the network. In the
case of group calls, issue of the
Multicast address.
Step 2 on pages 21
Configuration of SIM 740-...
Here, the multi-specific parameters
of the SIM 740-... are entered.
Selection of whether the
DCIP 740-... should run in the
camera or the monitor mode.
Step 2.1
Configuraion of DRM 611-...
Names are programmed with the
PRS-Software. The correspronding
numbers are also entered here.
Step 2.2
Configuration of DCA 740-...
The DCA 740-... will not be confi-
gured. The numbers are given in the
DCIP configuration programm, by
activating the DCA 740 and entering
the phone numbers.
Step 3 on pages 24
Configuration of SIVS 610-...
Assignment of Multi bus addresses
(now IWA address) to subsequent
PC users.
Additional modules such as the code
lock module or display call module
are programmed at the TLC 640-... .
After completion of programming,
a file (*.dcip) is created for the
Software Client.
Step 4 on pages 26
Installation of the Software
Clients
The Software Client has to be
installed on the PC users in the
network. Import of the generated
file (*.dcip). Selection of addresses
to be signalled on the affected PC
user.
Step 1
Issue of the IP address and
subnet mask in the IPVS 600-...
• The connection can be established
using a crossover network cable. The
IPVS 600-... can also be addressed
via the network if the PC and
IPVS 600-... are in the same address
area.
• Start the Internet Explorer on the
PC and enter the following in the
address line:
http://192.168.0.1
The IP settings in the as-delivered
status of the IPVS 610-...
IP address 192.168.0.1
Subnet mask 255.255.255.0
Gateway address 0.0.0.0
User name: Servicing
Password: None issued on
delivery
• The user interface is opened..
• In the user interface, select the
menu point Settings.
• On the left-hand side, select the
menu point Service parameters.
• Click the submenu Network. On
the right-hand side, the relevant
settings are opened up.
• The following settings can be
performed for operation in the
network.
IP address
Subnetmask address
Gateway address
Video transmission
HTTP browser port
Type of network connection
Changes to the IP address, subnet
mask address or gateway address
are transmitted to the device by
clicking on the Set button. However,
these only become valid after
restarting the device.
• After entering a new IP address,
click onto the Set button.
• Enter the old IP address in the
address line of the web browser,
followed by /reset (for example
192.168.0.11/reset). The IPVS is
restarted and can subsequently
only be reached using the new IP
address.
Connection of the PC to IPVS 600-...
This manual suits for next models
1
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