Bosch Appliances 3122 475 22015en Webcam User Manual

INTEGRUS
Installation and User Instructions
en
Integrus
Language Distribution
System
INTEGRUS | Installation and User Instructions | Safeguards
Important Safeguards
Prior to installing or operating this product always
read the Safety Instructions which are available as
a separate document.
Bosch Security Systems | 2005-04 | 3122 475 22015en
INTEGRUS | Installation and User Instuctions | Table of contents
Table of contents
1
System description and planning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1
1.1
System overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
1.2
System technology . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
1.2.1 IR radiation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
1.2.2 Signal Processing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
1.2.3 Quality modes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
1.2.4 Carriers and channels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
1.3
Aspects of infra-red distribution systems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
1.3.1 Directional sensitivity of the receiver . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
1.3.2 The footprint of the radiator . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
1.3.3 Ambient lighting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
1.3.4 Objects, surfaces and reflections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
1.3.5 Positioning the radiators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
1.3.6 Overlapping footprints and multipath effects . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
1.4
Planning an Integrus infra-red radiation system . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
1.4.1 Rectangular footprints . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
1.4.2 Planning radiators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
1.4.3 Cabling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
1.5
Setting the radiator delay switches . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
1.5.1 System with one transmitter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
1.5.1.1 Determining delay switch positions by measuring the cable lengths . . . . . . . . . . . . . .9
1.5.1.2 Determining delay switch positions by using a delay measuring tool . . . . . . . . . . . .10
1.5.2 System with two or more transmitters in one room . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
1.5.3 System with more than 4 carriers and a radiator under a balcony . . . . . . . . . . . . . . . . . . . 13
1.6
Testing the coverage area . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
2
Integrus Transmitters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15
2.1
Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
2.2
Audio interface modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
2.2.1 Integrus DCN interface module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
2.2.2 Mounting an interface module in the transmitter housing . . . . . . . . . . . . . . . . . . . . . . . . . . 17
2.2.3 Upgrading an LBB4502/xx to an INT-TX . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
2.2.3.1 Removing the main PCB and the rear panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18
2.2.3.2 Installation of the INT-TXK . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .19
2.3
Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
2.3.1 Connecting the DCN Next Generation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
2.3.2 Connecting the DCN system . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
2.3.3 Connecting other external audio sources . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
2.3.4 Connecting an emergency signal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
2.3.5 Connecting to another transmitter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
2.4
Using the configuration menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
2.4.1 Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
2.4.2 Navigate through the menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
2.4.3 Examples . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25
Bosch Security Systems | 2005-04 | 3122 475 22015en
INTEGRUS | Installation and User Instuctions | Table of contents
2.5
Configuration and operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
2.5.1 Start-up . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
2.5.2 Main menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
2.5.3 View transmitter status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
2.5.4 View fault status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31
2.5.5 Set monitoring options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32
2.5.6 View version information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33
2.5.7 Set transmission mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33
2.5.8 Set network mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33
2.5.9 Set number of channels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34
2.5.10 Set channel quality and assign inputs to channels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35
2.5.11 Set channel names . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37
2.5.12 Disable or enable carriers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38
2.5.13 View carrier assignments . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38
2.5.14 Configure auxiliary inputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39
2.5.15 Set sensitivity of the inputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40
2.5.16 Enable / disable IR-monitoring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40
2.5.17 Enable / disable headphone output . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40
2.5.18 Choose transmitter name . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41
2.5.19 Reset all options to factory default values . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41
3
Integrus Radiators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .42
3.1
Medium and High Power Radiators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42
3.1.1 Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42
3.1.2 Radiator status indication . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43
3.1.3 Mounting the radiators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44
3.1.4 Connecting radiators to the transmitter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45
3.1.5 Using the output power selection switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46
3.2
Low Power Wide Beam Radiator. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46
3.2.1 Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46
3.2.2 Radiator Status Indication . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47
3.2.3 Mounting the Radiator . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47
4
Integrus Receivers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .48
4.1
Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48
4.2
Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49
4.3
Reception test mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49
4.4
Receiver headphones . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49
5
Integrus Charging Units . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .50
5.1
Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50
5.2
Wall mounting the charging cabinet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51
5.3
Charging procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51
6
Troubleshooting
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .52
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INTEGRUS | Installation and User Instructions | Table of contents
7
Technical Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .54
7.1
System Specification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 54
7.2
Transmitters and Modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55
7.2.1 Infra Red Transmitters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55
7.2.2 Transmitter Kit Board range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55
7.2.3 Integrus DCN interface module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55
7.3
Radiators and Accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55
7.3.1 Medium and High Power Radiators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55
7.3.2 Wall Mounting Bracket . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56
7.3.3 Low Power Wide Beam Radiator . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56
7.4
Receivers, Battery Packs and Charging Units . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56
7.4.1 Pocket Receivers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56
7.4.2 Battery Pack . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56
7.4.3 Charging Units . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56
7.5
Connection details . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57
7.5.1 Mains cables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57
7.5.2 Audio cables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57
7.5.3 Earphones . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57
7.5.4 Emergency switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57
7.6
Guaranteed rectangular footprints . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58
Product index . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 60
Bosch Security Systems | 2005-04 | 3122 475 22015en
INTEGRUS | Installation and User Instructions |
Bosch Security Systems | 2005-04 | 3122 475 22015en
INTEGRUS | Installation and User Instructions | System description and planning
1
System description and
planning
1.1
System overview
Integrus is a system for wireless distribution of audio
signals via infra-red radiation. It can be used in a
simultaneous interpretation system for international
conferences where multiple languages are used.
To enable all participants to understand the proceedings, interpreters simultaneously translate the speaker’s
language as required. These interpretations are distributed throughout the conference venue, and delegates
select the language of their choice and listen to it
through headphones.
The Integrus system can also be used for music distribution (mono as well as stereo).
en | 1
Interface modules
One of two different interface modules can be mounted in the transmitter housing to connect the transmitter
to a wide range of conference systems:
• LBB 3423/20 Integrus DCN interface module to
connect to the Digital Congress Network (DCN).
• LBB 3222/04 Integrus audio input and interpreters
module to connect to analogue discussion and
conference systems (such as CCS 800) or to
LBB 3422/20 6-channel interpreters desks.
Infra-red radiators
Three types of radiators are available:
• LBB 3410/05 low power wide beam radiator for
small conference venues
• LBB 4511/00 medium-power radiator for small/
medium conference venues
• LBB 4512/00 high-power radiator for medium/large
conference venues
All three types can be switched between full and half
power use. They can be mounted on walls, ceilings or
floor stands.
Figure 1.1
Integrus system overview
(with DCN-system as input)
The Integrus Language Distribution System comprises
one or more of the following:
Infra-red transmitter
The transmitter is the core of the Integrus system. Four
types are available:
• INT-TX04 with inputs for 4 audio channels
• INT-TX08 with inputs for 8 audio channels
• INT-TX16 with inputs for 16 audio channels
• INT-TX32 with inputs for 32 audio channels
The transmitter can be directly connected to the DCN
Next Generation conference system (see section 2.3).
Bosch Security Systems | 2005-04 | 3122 475 22015en
Infra-red receivers
Three multi-channel infra-red receivers are available:
• LBB 4540/04 for 4 audio channels
• LBB 4550/08 for 8 audio channels
• LBB 4540/32 for 32 audio channels
They can operate with a rechargeable NiMH battery
pack or with disposable batteries. Charging circuitry is
incorporated in the receiver.
Charging equipment
Equipment is available for charging and storing 56
infra-red receivers. Two versions are available:
• LBB 4560/00 charging suitcase for portable systems
• LBB 4560/50 charging cabinet for permanent
systems
INTEGRUS | Installation and User Instructions | System description and planning
1.2 System technology
1.2.1 IR radiation
The Integrus system is based on transmission by modulated infra-red radiation. Infra-red radiation forms
part of the electro-magnetic spectrum, which is composed of visible light, radio waves and other types of
radiation. It has a wavelength just above that of visible
light. Like visible light, it is reflected from hard surfaces, yet passes through translucent materials such as
glass. The infra-red radiation spectrum in relation to
other relevant spectra is shown in figure 1.2.
%
100
75
1
50
25
en | 2
The signal processing in the transmitter consists of the
following main steps (see figure 1.3):
1. A/D conversion - Each analogue audio channel is
converted to a digital signal.
2. Compression - The digital signals are compressed
to increase the amount of information that can be
distributed on each carrier. The compression factor
is also related to the required audio quality.
3. Protocol Creation - Groups of up to four digital
signals are combined into a digital information
stream. Extra fault algorithm information is added.
This information is used by the receivers for fault
detection and correction.
4. Modulation - A high frequency carrier signal is
phase-modulated with the digital information
stream.
5. Radiation – Up to 8 modulated carrier signals are
combined and sent to the IR radiators, which convert the carrier signals to modulated infra-red light.
4
2
0
400
5
500
600
700
3
800
900
1000 nm
In the IR receivers a reverse processing is used to convert the modulated infra-red light to separate analogue
audio channels.
1
Daylight spectrum
2
Sensitivity of the human eye
3
IR radiator
4
Sensitivity of IR sensor
1.2.3 Quality modes
5
Sensitivity of IR sensor with daylight filter
The Integrus system can transmit audio in four different quality modes:
• Mono, standard quality, maximum 32 channels
• Mono, premium quality, maximum 16 channels
• Stereo, standard quality, maximum 16 channels
• Stereo, premium quality, maximum 8 channels
Figure 1.2
Infra-red radiation spectrum in relation to other
spectra
1.2.2 Signal Processing
The Integrus system uses high frequency carrier signals
(typically 2-8 MHz) to prevent interference problems
with modern light sources (see section 1.3.2). The digital audio processing guarantees a constant high audio
quality.
Audio
Channel
4x
Audio
Channel
Figure 1.3
The standard quality mode uses less bandwidth and
can be used for transmitting speech. For music the premium quality mode gives near CD quality.
A/D Conversion
& Compression
4x
A/D Conversion
& Compression
Overview of the signal processing (for one carrier)
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Protocol Creation
& Modulation
Carrier (to IR Radiators)
INTEGRUS | Installation and User Instructions | System description and planning
en | 3
1.2.4 Carriers and channels
The Integrus system can transmit up to 8 different carrier signals (depending on the transmitter type). Each
carrier can contain up to 4 different audio channels.
The maximum number of channels per carrier is
dependent on the selected quality modes. Stereo signals use twice as much bandwidth as a mono signals,
premium quality uses twice as much bandwidth as
standard quality.
Per carrier a mix of channels with different quality
modes is possible, as long as the total available bandwidth is not exceeded. The table below lists all possible
channel combinations per carrier:
45
45
90
Figure 1.4
Directional characteristics of the receivers
Channel quality
Mono
Mono
Stereo
Stereo
Standard
Premium
Standard
Premium
4 x 10 kHz
4
Possible
number of
channels
2
Bandwidth
2 x 10 kHz and 1 x 20 kHz
1
2
1
per carrier
1
2 x 10 kHz and 1 x 10 kHz (left) and 1 x 10 kHz (right)
1
1 x 20 kHz and 1 x 10 kHz (left) and 1 x 10 kHz (right)
2
2 x 10 kHz (left) and 2 x 10 kHz (right)
2 x 20 kHz
2
1
1.3 Aspects of infra-red
distribution systems
A good infra-red distribution system ensures that all
delegates in a conference venue receive the distributed
signals without disturbance. This is achieved by using
enough radiators, placed at well planned positions, so
that the conference venue is covered with uniform IRradiation of adequate strength.
There are several aspects that influence the uniformity
and quality of the infra-red signal, which must be considered when planning an infra-red radiation distribution system. These are discussed in the next sections.
1.3.1 Directional sensitivity of the receiver
The sensitivity of a receiver is at its best when it is
aimed directly towards a radiator. The axis of maximum sensitivity is tilted upwards at an angle of 45
degrees (see figure 1.4). Rotating the receiver will
decrease the sensitivity. For rotations of less than
+/- 45 degrees this effect is not large, but for larger
rotations the sensitivity will decrease rapidly.
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1 x 20 kHz (left) and 1 x 20 kHz (right)
1.3.2 The footprint of the radiator
The coverage area of a radiator depends on the number of transmitted carriers and the output power of the
radiator. The coverage area of the LBB 4512/00
radiator is twice as large as the coverage area of the
LBB 4511/00. The coverage area can also be doubled
by mounting two radiators side by side. The total
radiation energy of a radiator is distributed over the
transmitted carriers. When more carriers are used, the
coverage area gets proportionally smaller. The receiver
requires a strength of the IR signal of 4 mW/m2 per
carrier to work without errors (resulting in a 80 dB
S/N ratio for the audio channels). The effect of the
number of carriers on the coverage area can be seen in
figure 1.5 and figure 1.6. The radiation pattern is the
area within which the radiation intensity is at least the
minimum required signal strength.
INTEGRUS | Installation and User Instructions | System description and planning
en | 4
m2
2000
LBB 4512/00
1800
LBB 4511/00
1600
LBB 3410/05
1400
1200
1000
800
600
400
200
0
1
Figure 1.5
2
3
4
5
6
7
Figure 1.8
The radiator mounted at 45° to the ceiling
Figure 1.9
The radiator mounted perpendicular
8
Total coverage area of LBB 3410/05, LBB 4511/00
and LBB 4512/00 for 1 to 8 carriers
1
2
4
8
Figure 1.6
Polar diagram of the radiation pattern for 1, 2, 4
and 8 carriers
The cross section of the 3-dimensional radiation pattern with the floor of the conference venue is known as
the footprint (the white area in figure 1.7 to figure 1.9).
This is the floor area in which the direct signal is
strong enough to ensure proper reception, when the
receiver is directed towards the radiator. As shown, the
size and position of the footprint depends on the
mounting height and angle of the radiator.
Figure 1.7
The radiator mounted at 15° to the ceiling
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(at 90°) to the ceiling
1.3.3 Ambient lighting
The Integrus system is practically immune for the
effect of ambient lighting. Fluorescent lamps (with or
without electronic ballast or dimming facility), such as
TL lamps or energy saving lamps give no problems
with the Integrus system. Also sunlight and artificial
lighting with incandescent or halogen lamps up to 1000
lux give no problems with the Integrus system.
When high levels of artificial lighting with incandescent or halogen lamps, such as spotlights or stage lighting are applied, you should directly point a radiator at
the receivers in order to ensure reliable transmission.
For venues containing large, unscreened windows, you
must plan on using additional radiators.
For events taking place in the open air a site test will
be required in order to determine the required amount
of radiators. With sufficient radiators installed, the
receivers will work without errors, even in bright sunlight.
INTEGRUS | Installation and User Instructions | System description and planning
en | 5
1.3.4 Objects, surfaces and reflections
The presence of objects in a conference venue can
influence the distribution of infra-red light. The texture
and colour of the objects, walls and ceilings also plays
an important role.
Infra-red radiation is reflected from almost all surfaces.
As is the case with visible light, smooth, bright or shiny
surfaces reflect well. Dark or rough surfaces absorb
large proportions of the infra-red signal (see figure
1.10). With few exceptions it cannot pass through materials that are opaque to visible light.
Figure 1.11
Infra-red signal blocked by a person in front of
the participant
100%
Figure 1.10
40%
100%
80%
The texture of the material determines how
much light is reflected and how much is
absorbed
Problems caused by shadows from walls or furniture
can be solved by ensuring that there are sufficient radiators and that they are well positioned, so that a strong
enough infra-red field is produced over the whole conference area. Care should be taken not to direct radiators towards uncovered windows, as most of this radiation will subsequently be lost.
1.3.5 Positioning the radiators
Since infra-red radiation can reach a receiver directly
and/or via diffused reflections, it is important to take
this into account when considering the positioning of
the radiators. Though it is best if receivers pick up
direct path infra-red radiation, reflections improve the
signal reception and should therefore not be minimised. Radiators should be positioned high enough
not to be blocked by people in the hall (see figure 1.11
and figure 1.12).
Figure 1.12
of the participant
The figures below illustrate how infra-red radiation can
be directed to conference participants. In figure 1.13,
the participant is situated clear from obstacles and
walls, so a combination of direct and diffused radiation
can be received. Figure 1.14 shows the signal being
reflected from a number of surfaces to the participant.
Figure 1.13
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Infra-red signal not blocked by a person in front
Combination of direct and reflected radiation
INTEGRUS | Installation and User Instructions | System description and planning
Figure 1.14
en | 6
Combination of several reflected signals
Figure 1.16
Radiator positioning in a conference hall with
For concentrically arranged conference rooms, centrally placed, angled radiators located high up can cover
the area very efficiently. In rooms with few or no
reflecting surfaces, such as a darkened film-projection
room, the audience should be covered by direct path
infra-red radiation from radiators positioned in front.
When the direction of the receiver changes, e.g. with
varying seat arrangements, mount the radiators in the
corners of the room (see figure 1.15).
If the audience is always directed towards the radiators, you do not need radiators at the back
(see figure 1.16).
If the path of the infra-red signals is partially blocked,
e.g. under balconies, you should cover the ‘shaded’
area with an additional radiator (see figure 1.17).
Figure 1.17
The figures below illustrate the positioning of the
radiators:
1.3.6 Overlapping footprints and multipath
effects
auditorium seating and podium
Radiator for covering seats beneath a balcony
When the footprints of two radiators partly overlap,
the total coverage area can be larger than the sum of
the two separate footprints. In the overlap area the signal radiation power of two radiators are added, which
increases the area where the radiation intensity is larger than the required intensity.
However, differences in the delays of the signals
picked up by the receiver from two or more radiators
can result in that the signals cancel each other out
(multi path effect). In worst-case situations this can lead
to a loss of reception at such positions (black spots).
Figure 1.15
Radiator position for covering seats in a square
arrangement
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INTEGRUS | Installation and User Instructions | System description and planning
Figure 1.18 and figure 1.19 illustrate the effect of overlapping footprints and differences in signal delays.
en | 7
1.4 Planning an Integrus infra-red
radiation system
1.4.1 Rectangular footprints
Determining the optimal number of infra-red radiators
required to give 100% coverage of a hall can normally
only be done by performing a site test. However, a
good estimation can be made by using ‘guaranteed rectangular footprints’. Figure 1.20 and figure 1.21 show
what is meant by a rectangular footprint. As can be
seen, the rectangular footprint is smaller than the total
footprint. Note that in figure 1.21 the ‘offset’ X is negative because the radiator is actually mounted beyond
the horizontal point at which the rectangular footprint
starts.
Figure 1.18
Increased coverage area caused by added
radiation power
H
W
X
L
Figure 1.20
A typical rectangular footprint for a mounting
angle of 15°
H
X
Reduced coverage area caused by differences
W
Figure 1.19
in cable signal delay
The lower the carrier frequency, the less susceptible
the receiver is for differences in signal delays.
The signal delays can be compensated by using the
delay compensation switches on the radiators
(see section 1.5).
Bosch Security Systems | 2005-04 | 3122 475 22015en
L
Figure 1.21
A typical rectangular footprint for a mounting
angle of 90°
The guaranteed rectangular footprints for various number of carriers, mounting heights and mounting angles
can be found in section 7.6. The height is the distance
from the reception plane and not from the floor.
INTEGRUS | Installation and User Instructions | System description and planning
Guaranteed rectangular footprints can also be calculated with the footprint calculation tool (available on the
documentation CD-ROM). The given values are for
one radiator only, and therefore do not take into consideration the beneficial effects of overlapping footprints. The beneficial effects of reflections are also not
included. As rule of thumb can be given for systems
with up to 4 carriers, that if the receiver can pick up
the signal of two adjacent radiators the distance
between these radiators can be increased by a factor
1.4 approximately (see figure 1.22).
50m
50m
50m
50m
Figure 1.23
R1
R2
R3
R4
W
R3
R4
L
1.4 L
Figure 1.22
Radiators with equal cable length
R2
1.4 W
R1
en | 8
When radiators are loop-through connected, the
cabling between each radiator and the transmitter
should be as symmetrical as possible (see figure 1.24
and figure 1.25). The differences in cable signal delays
can be compensated with the signal delay compensation switches on the radiators.
The effect of overlapping footprints
1.4.2 Planning radiators
Use the following procedure to plan the radiators:
1. Follow the recommendations in section 1.3 in order
to determine the positioning of the radiators.
2. Look up (in the table) or calculate (with the footprint calculation tool) the applicable rectangular
footprints.
3. Draw the rectangular footprints in the lay-out of the
room.
4. If the receiver can pick up the signal of two adjacent radiators in some areas, determine the overlap
effect and draw the footprint enlargement(s) in the
lay-out of the room.
5. Check whether you have sufficient coverage with
the radiators at the intended positions.
6. If not so, add additional radiators to the room.
Figure 1.24
Asymmetrical arrangement of radiator
cabling (to be avoided)
See figure 1.15, figure 1.16 and figure 1.17 for examples
of a radiator lay out.
1.4.3 Cabling
Signal delay differences can occur due to differences in
the cable length from the transmitter to each radiator.
In order to minimize the risk of black spots, use equal
cable length from transmitter to radiator if possible (see
figure 1.23).
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Figure 1.25
Symmetrical arrangement of radiator cabling
(recommended)
INTEGRUS | Installation and User Instructions | System description and planning
1.5 Setting the radiator delay
switches
As described in section 1.3.6, differences in the delays
of the signals picked up by the receiver from two or
more radiators can cause black spots as a result of the
multi path effect.
en | 9
The next sections describe how to calculate the delay
switch positions manually for systems with one transmitter, or two or more transmitters. See the delay
switch calculation tool for the procedures how to calculate the delay switch positions automatically.
Tip: The delay switch calculation tool eases
The signals picked up by the receiver are delayed by:
• the transmission from transmitter to radiator
through the cable (cable signal delay)
• the transmission from radiator to receiver through
the air (radiation signal delay)
• for systems with two or more transmitters: the
transmission through the slave transmitter(s)
To compensate the signal delay differences, the delay of
each radiator can be increased. These signal delays can
be set with the delay switches at the back of the radiator.
The cable signal delays can be determined in the following two ways:
• by measuring the cable lengths
• by measuring the impulse response time with a
delay measurement tool
In both cases the cable signal delays can be calculated
manually and with the delay switch calculation tool
(available on the documentation CD-ROM).
It is not necessary to calculate the cable signal delay in
case:
• the radiators are directly connected to the transmitter with equal cable length;
• radiators are loop-through connected, but with less
than 5 m distance between the first and last radiator
in a trunk, and with equal cable length between the
first radiator in each trunk and the transmitter.
the calculation of the delay switch positions.
1.5.1 System with one transmitter
1.5.1.1 Determining delay switch positions by
measuring the cable lengths
Use the following procedure to determine the delay
switch position based on cable lengths:
1. Look up the cable signal delay per meter of the
used cable. The manufacturer specifies this factor.
2. Measure the lengths of the cables between the
transmitter and each radiator.
3. Multiply the lengths of the cables between the
transmitter and each radiator with the cable signal
delay per meter. These are the cable signal delays
for each radiator.
4. Determine the maximum signal delay.
5. Calculate for each radiator the signal delay difference with the maximum signal delay.
6. Divide the signal delay difference by 33. The
rounded off figure is the signal delay switch position for that radiator.
7. Add delay switch positions for radiators under a
balcony, if applicable (see section 1.5.3).
8. Set the delay switches to the calculated switch positions.
Caution: Turn the delay switches carefully
to a new position until you feel that it
In these cases set the delay switches on all radiators to
zero and determine whether to compensate for radiation signal delay (see section 1.5.3).
clicks into position, to prevent that a
switch is positioned between two numbers, which would result in a wrong delay
setting.
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INTEGRUS | Installation and User Instructions | System description and planning
Note: For systems with a cable length difference of more than 50 meters, it is recommended to use a measurement tool to
determine the delay differences in order
to calculate the delay switch positions.
Figure 1.26 and table 1.1 illustrate the calculation of the
cable signal delay.
20m
30m
R1
R2
20m
R3
30m
R5
R4
20m
Figure 1.26
System with five radiators and measured cable
lengths
Table 1.1
Radiator
number
Calculation of the cable signal delays
Total cable
length [m]
en | 10
1.5.1.2 Determining delay switch positions by
using a delay measuring tool
The most accurate way to determine the cable signal
delays is to measure the actual signal delay for each
radiator as described in the following procedure:
1. Disconnect the cable from a radiator output of the
transmitter and connect this to a delay measurement tool.
2. Disconnect a radiator from this cable.
3. Measure the impulse response time (in ns) of the
cable(s) between the transmitter and the radiator.
4. Reconnect the cable to the radiator and repeat
steps 2 to 4 for the other radiators that are connected to the same transmitter output.
5. Reconnect the cable to the transmitter and repeat
step 1 to 5 for the other radiator outputs of the
transmitter.
6. Divide the impulse response times for each radiator
by two. These are the cable signal delays for each
radiator.
7. Determine the maximum signal delay.
8. Calculate for each radiator the signal delay difference with the maximum signal delay.
9. Divide the signal delay difference by 33. The
rounded off figure is the delay switch position for
that radiator.
10. Add delay switch positions to radiators under a balcony, if applicable (see section 1.5.3)
11. Set the delay switches to the calculated delay switch
positions.
Cable signal delay
per meter [ns/m]
Cable signal
delay [ns]
Signal delay
difference [ns]
Delay switch
position
112/33 = 3.39 = 3
1
30
5.6
30*5.6 = 168
280-168 = 112
2
30+20 = 50
5.6
50*5.6 = 280
280-280 =
0
0/33 = 0
3
20
5.6
20*5.6 = 112
280-112 = 168
168/33 = 5.09 = 5
4
30
5.6
30*5.6 = 168
280-168 = 112
112/33 = 3.39 = 3
5
30+20 = 50
5.6
50*5.6 = 280
280-280 = 0
0/33 = 0
Note: The used cable signal delay per
Caution: Turn the delay switches carefully
meter is an example. Use the actual sig-
to a new position until you feel that it
nal delay per meter in this calculation as
clicks into position, to prevent that a
specified by the manufacturer.
switch is positioned between two
numbers, which would result in a wrong
delay setting.
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INTEGRUS | Installation and User Instructions | System description and planning
584 ns
350 ns
R2
R1
237 ns
R4
563 ns
339 ns
Figure 1.27
1.5.2 System with two or more transmitters
in one room
When radiators in one multi purpose room are connected to two transmitters, an extra signal delay is
added by:
• Transmission from master transmitter to slave transmitter (cable signal delay).
• Transmission through the slave transmitter.
R3
R5
en | 11
System with five radiators and measured
impulse response times
Figure 1.27 and table 1.2 illustrate the calculation of
the signal delays and the delay switch positions.
Use the following procedure to determine the delay
switch positions in a master-slave configuration:
1. Calculate the cable signal delay for each radiator,
using the procedures for a system with one transmitter.
2. Calculate the signal delay of the cable between the
master and the slave transmitter in the same way as
for cables between a transmitter and a radiator.
Table 1.2 Calculation of the delay switch positions of a system with one transmitter
Radiator
number
Impulse response
time [ns]
Cable signal
delay [ns]
Signal delay
difference [ns]
Delay switch
position
1
350
350/2 = 175
292-175 = 117
117/33 = 3.54 = 4
2
584
584/2 = 292
292-292 =
0
0/33 = 0
3
237
237/2 = 118
292-118 = 174
174/33 = 5.27 = 5
4
339
339/2 = 169
292-169 = 123
123/33 = 3.73 = 4
5
563
573/2 = 281
292-281 = 11
11/33 = 0.33 = 0
Note: The calculated delay switch positions based on impulse response time
can differ from the calculated delay
switch positions based on cable lengths.
This is caused by the accuracy of the
measurements and the accuracy of the
cable signal delay factor per meter as
specified by the manufacturer of the
cable. If the impulse response time is
measured correctly, the calculated delay
switch positions will be the most accurate.
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3. Add to the cable signal delay of the cable between
the master and the slave, the delay of the slave
transmitter itself: 33 ns. This gives the master-toslave signal delay.
4. Add the master-to-slave signal delay to each radiator connected to the slave transmitter.
5. Determine the maximum signal delay.
6. Calculate for each radiator the signal delay difference with the maximum signal delay.
7. Divide the signal delay difference by 33. The
rounded off figure is the signal delay switch position for that radiator.
8. Add delay switch positions to radiators under a balcony, if applicable (see section 1.5.3)
9. Set the delay switches to the calculated delay switch
positions.
INTEGRUS | Installation and User Instructions | System description and planning
en | 12
30m
20m
Caution: Turn the delay switches carefully
R1
R2
to a new position until you feel that it
clicks into position, to prevent that a
20m
switch is positioned between two
R3
numbers, which would result in a wrong
Tx1
delay setting.
R5
20m
R4
30m
R7
20m
R6
30m
50m
Note: When a master-slave configuration
is used for rooms which are always separated, the delay switch positions can be
Tx2
R8
determined per system and the delay
20m
caused by transmission from master to
slave transmitter can be ignored.
R9
R10
20m
Figure 1.28, table 1.1, table 1.3 and table 1.4 illustrate
the calculation of the extra master-slave signal delay.
Figure 1.28
30m
System with master and slave transmitter in
multi purpose room
Table 1.3
Calculation of the master-to-slave signal delays
Cable length
master-slave
transmitter [m]
Cable
signal delay
per meter [ns/m]
Cable
signal delay
[ns]
Signal delay
slave transmitter
[ns]
Master-to-slave
signal delay [ns]
50
5.6
50 x 5.6 = 280
33
280 + 33 = 313
Table 1.4
Calculation of the delay switch positions of a system with two transmitters
Radiator Transmitter
number
Master-toslave signal
Cable signal
delay [ns]
Total signal
delay [ns]
Signal delay
difference
Delay switch
position
1
Master
0
168
0+168 = 168
593-168 = 425
425/33 = 12.88 = 13
2
Master
0
280
0+280 = 280
593-280 = 313
313/33 = 9.48 = 9
3
Master
0
112
0+112 = 112
593-112 = 481
481/33 = 14.58 = 15
4
Master
0
168
0+168 = 168
593-168 = 425
425/33 = 12.88 = 13
5
Master
0
280
0+280 = 280
593-280 = 313
313/33 = 9.48 = 9
6
Slave
313
168
313+168 = 481
593-481 = 112
112/33 = 3.39 = 3
7
Slave
313
280
313+280 = 593
593-593 =
0
0/33 = 0
8
Slave
313
112
313+112 = 425
593-425 = 168
168/33 = 5.09 = 5
9
Slave
313
168
313+168 = 481
593-481 = 112
112/33 = 3.39 = 3
10
Slave
313
280
313+280 = 593
593-593 =
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0
0/33 = 0
INTEGRUS | Installation and User Instructions | System description and planning
1.5.3 System with more than 4 carriers and a
radiator under a balcony
Figure 1.29 illustrates a situation in which a radiation
signal delay occurs and which can be compensated for.
For systems with more than four carriers, add one
delay switch position per 10 meter (33 feet) difference
in signal path length to the radiators which are closest
to the overlapping coverage area. In figure 1.29 the signal path length difference is 12 meter. Add one delay
switch position to the calculated switch position(s) for
the radiator(s) under the balcony.
16m
Figure 1.29
4m
Radiation path length difference for two radiators
en | 13
Testing during a meeting
1. Set a receiver in the Test-mode and select the highest available carrier. The quality of the received carrier signal is indicated on the display of the receiver
(see section 4.3).
2. Test all positions and directions (see next paragraph). The quality indication should be between
00 and 39 (good reception).
Testing all positions and directions
With the transmitter and receiver in one of the two test
modes, go around the conference hall and test the
reception quality at every position where the infra-red
signals must be received. When an area is detected
where there is bad reception or even no reception at
all, three main causes must be considered:
Bad coverage
The receiver can not pick-up infra-red radiation of adequate strength. This can be because the tested position
is outside the footprint of the installed radiators or the
radiation is blocked by obstacles such as a column, an
overhanging balcony or other large objects.
1.6 Testing the coverage area
An extensive reception quality test must be done to
make sure that the whole area is covered with IR radiation of adequate strength and that there are no black
spots. Such a test can be done in two ways:
Testing during installation
1. Check that all radiators are connected and powered
up and that no loose cables are connected to a radiator. Switch the transmitter off and on to re-initialise
the auto equalisation of the radiators.
2. Set the transmitter in the Test-mode (see section
2.5.7). For each channel, a different test tone frequency will be transmitted.
3. Set a receiver on the highest available channel and
listen via the headphones to the transmitted test
tone.
4. Test all positions and directions (see next paragraph).
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Check that you used the correct footprints for the system design, that radiators with enough output power
are installed and that a radiator is not accidentally
switched to half power operation. When the bad reception is caused by a blocked radiation path, try to
remove the blocking obstacle or add an extra radiator
to cover the shaded area.
Black spots
The receiver picks-up IR signals from two radiators
which cancel out each other. The multipath effect can
be identified by the observation that the bad reception
only occurs along a specific line and/or when good
reception returns when the receiver is rotated to another direction. This can be confirmed by keeping the
receiver in the position and direction with the bad
reception and then either shading-off the radiation
from one radiator with your hand or switching off one
radiator. If this improves the reception quality, then the
multipath effect is causing the problem. Note that IR
radiation that is reflected from a surface with a high
reflectabiliy can also cause multipath problems.
INTEGRUS | Installation and User Instructions | System description and planning
Black spots can occur in case a transmitter is located in
the same room as the radiators. In that case, disable
the mini IR radiator of the transmitter with the configuration menu (see section 2.5.16).
Check that the signal delay compensation switches on
the radiators are set to the correct value and that a
switch is not accidentally positioned between two
numbers. Re-check your system design. When necessary, reduce the distance between the two radiators
that cause the problem and/or add an extra radiator.
Note that due to the physical characteristics of the signal distribution, it is not always possible to completely
avoid multi path effects.
Interference from IR systems
IR assistive hearing systems and IR microphones operating at frequencies above 2 MHz, can disturb the
reception at the lowest carriers. If such is the case,
disable the lowest two carriers (see section 2.5.12) and
re-check the reception.
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en | 14
INTEGRUS | Installation and User Instructions | Integrus Transmitters
2
Integrus Transmitters
2.1 Description
The transmitter is the central element of the Integrus
system. It accepts asymmetrical audio sources from a
maximum of 32 external channels (dependent on the
transmitter type) and can be used with the Digital
Congress Network (DCN) and DCN Next Generation
conference systems. It can also be used with analogue
discussion and interpretation systems (e.g. CCS 800
with up to 12 interpreter desks), or as a stand-alone
system distributing external audio sources.
The transmitter is suitable for either table-top or
19-inch rack-mounted use. Four feet (for table top use)
and two mounting brackets (for rack mounting) are
supplied. The mounting brackets can also be used to
mount the transmitter to a flat surface.
en | 15
2. Mini IR-radiator – Four IREDs, transmitting the
same infra-red signal as the radiator output.
This can be used for monitoring purposes.
They can be disabled via the configuration menu.
3. Menu display – A 2x16 character LCD-display
gives information about the transmitter status. It is
also used as a an interactive display for configuring
the system.
4. Menu button – A turn-and-push button to operate
the configuration software in combination with the
display (3).
5. Monitoring headphone output – A 3.5 mm
(0.14 inch) jack socket to connect a headphone for
monitoring purposes. It can be disabled via the
configuration menu.
Note: The mini IR-radiator and the headphone output can also be permanently
disabled by removing two resistors.
Consult your regular service contact for
more information.
1
2
3
4
0
1
2
4
3
5
7
8
10
9
11
12
13
14
15
5
16
18
17
19
20
22
24
26
28
30
21
23
25
27
29
31
Network
1
6
Figure 2.1
3
4
5
7
6
1
2
8
9
Transmitter with optional mounting brackets and
Figure 2.3
table-top feet
1
Figure 2.2
2
2
3
4
5
Transmitter, front view
Figure 2.2:
1. Mains on/off switch – After switching the mains
on, the transmitter starts up and the display (3) will
light-up.
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Transmitter, rear view
Figure 2.3:
1. Interface module slot – An optional audio interface module can be mounted in the transmitter
housing. Its connectors are accessible via an opening at the back of the transmitter.
2. Emergency switch connector – A terminal block
socket for a single, ‘normally open’ switch. When
the switch is closed, the audio signal on the Auxright input is distributed on all output channels,
overriding all other audio inputs. A matching cable
connector is provided.
The emergency contact does not function when the
network mode of the transmitter is enabled (see
section 2.5.8) and it cannot connect to the optical
network (e.g. because the control unit of the DCN
Next Generation conference system is switched off).
INTEGRUS | Installation and User Instructions | Integrus Transmitters
3. Auxiliary audio inputs – Two female XLR connectors for extra audio inputs. They can be used to
connect auxiliary symmetrical audio signals such as
a music installation, the floor language or emergency messages.
4. Audio signal inputs – 4, 8, 16 or 32 cinch plugs to
connect external asymmetrical audio input signals.
The number of connectors depends on the transmitter type.
5. Earth connection point – Only used for factory
testing purposes.
6. Radiator signal loop-through input – A HF BNC
connector to loop-through the radiator output of
another transmitter.
7. Radiator signal outputs – Six HF BNC connectors, used to connect the radiators. Up to 30 radiators can be loop-through connected to each output.
8. Optical network connections – Two connections
used to connect directly to the DCN Next
Generation conference system with an optical
network cable.
9. Mains input – Euro mains socket. The transmitter
has automatic mains voltage selection. A mains
cable is provided.
en | 16
2.2 Audio interface modules
2.2.1
Integrus DCN interface module
An Integrus DCN interface module is required if the
transmitter is to be used with the DCN Conference
System.
The module must be mounted in the transmitter housing (see section 2.2.2).
2
Figure 2.4
1
4
3
3
1
2
Integrus DCN interface module
Figure 2.4:
1. DCN output connector – A 6-pole trunk output
female DIN connector for loop-through interconnection with DCN units.
2. DCN input cable – A 2 m (6 ft 6 in) trunk input
cable with 6-pole male DIN connector for loopthrough interconnection with DCN units.
3. PCB connector
4. Mounting plate
When the DCN system supply voltage on the trunk
input switches off, the Integrus DCN interface module
automatically switches the transmitter to standby.
When the DCN system supply voltage switches on, the
transmitter is switched to operating mode.
Note: When the Integrus DCN interface
module is used in combination with audio
signals connected to the cinch inputs, the
DCN and audio signals on corresponding
inputs are mixed.
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INTEGRUS | Installation and User Instructions | Integrus Transmitters
2.2.2
Mounting an interface module in the
transmitter housing
en | 17
Warning: To prevent damage to the PCB
connectors (4), be sure that the connectors are aligned properly before pushing
Warning: Before opening the transmitter
the module in.
housing, make sure that the mains
power and all other connections are
disconnected!
1
Warning: ICs and many other electronic
components are susceptible to electrostatic
discharge (ESD). Take preventive measures
when handling the interface modules. Keep
2
the PCBs as long as possible in their protective packing. Wear an anti-ESD bracelet.
Figure 2.5
Interface module slot cover
2
Follow the instructions below to mount an interface
module in the transmitter housing. The numbers refer
to figure 2.5 and figure 2.6.
1. Remove the top cover of the transmitter housing.
2. Remove the interface module slot cover (1) at the
back of the transmitter. Keep the screws (2).
3. Insert the module (3) (with the components faced
down) into the transmitter housing and push it firmly into the PCB connector (4).
4. Fasten the slot cover (5) to the back of the transmitter housing. Use the screws (2) from step 2.
5. Fasten the module’s PCB to the distance studs (6).
Use the screws (7) provided with the interface
module.
6. Close the transmitter housing.
Bosch Security Systems | 2005-04 | 3122 475 22015en
5
3
4
7
6
Figure 2.6
Mounting an interface module in the transmitter
housing
INTEGRUS | Installation and User Instructions | Integrus Transmitters
2.2.3 Upgrading an LBB4502/xx to an INT-TX
To upgrade an LBB4502/xx to an INT-TX the following upgrade kits are available:
• INT-TXK04: 4 channel transmitter upgrade kit
• INT-TXK08: 8 channel transmitter upgrade kit
• INT-TXK16: 16 channel transmitter upgrade kit
• INT-TXK32: 32 channel transmitter upgrade kit
en | 18
2.2.3.1 Removing the main PCB and the rear
panel
Follow the instructions below to remove the main PCB
and the rear panel. The numbers refer to figure 2.7
and figure 2.8.
Note: The upgrade kits do not contain
Each kit comprises the following items:
• 1 (type dependent) rear panel
• 1 (type dependent) main PCB
• 1 extra screw for the main PCB
• 1 glue stud
Warning: Before opening the transmitter
housing, make sure that the mains power
and all other connections are disconnected.
Warning: ICs and many other electronic
components are susceptible to electrostatic
discharge (ESD). Take preventive measures
when handling the PCBs. Keep the PCBs as
long as possible in their protective packing.
Wear an anti-ESD bracelet.
Bosch Security Systems | 2005-04 | 3122 475 22015en
new fixing materials. Therefore make
sure to keep all screws and washers.
1. Remove the top cover of the transmitter housing.
2. If the transmitter contains an interface module (1):
Remove the interface module proceeding in reverse
order of mounting. The mounting instructions can be
found in section 2.2.2. Note that the distance studs
of the transmitter module can remain in place.
3. If the transmitter does not contain an interface
module: Remove the interface module slot cover
proceeding as described in section 2.2.2.
4. Remove the analogue input/output PCB (2):
• Loosen the screws (3) between the cinch plugs
on the rear panel (4). The number of screws
depends on the transmitter type.
• Loosen the screws (5) at the XLR connectors
on the rear panel.
• Loosen the screws (6) of the distance studs (7) of
the analogue input/output PCB. Do not lose the
(spring) washers (8).
• On the main PCB (9) detach the flexible cables
(10) to the analogue input/output PCB. To this
end release the catches (11) on both sides and
pull out the flexible cable. See inset in figure 2.7.
• Remove the analogue input/output PCB.
5. Remove three distance studs (7A, 7B and 7C) of the
analogue input/output PCB.
6. On the main PCB (9):
• Detach the user interface cable (12).
• Detach the power supply connector (13).
• Loosen the screws (14) of the distance studs.
Do not lose the (spring) washers (15).
7. Remove the main PCB.
INTEGRUS | Installation and User Instructions | Integrus Transmitters
8. Remove the rear panel (4):
• Loosen the screws (16). Do not lose the (spring)
washers (17).
• Pull the connectors (18) of the mains inlet wires
and the earth wire out of the mains socket (19).
• Detach the mains socket from the rear panel.
The mains socket is snapped into the rear panel.
1
6
8
2
9
7A
7B
7C
10
en | 19
2.2.3.2 Installation of the INT-TXK
Follow the instructions below to install the INT-TXK.
The numbers refer to figures 2.9 and 2.10.
1. If the LBB4502/xx transmitter is missing a stud to
mount the new main PCB (2) of the INT-TXK,
paste the glue stud (1) from the upgrade kit to the
bottom of the transmitter. See inset in figure 2.9 for
the recommended pasting position.
2. Click the mains socket (3) in position in the new
rear panel (4).
3. Fit the connectors (5) of the mains inlet wires
(5A – brown, 5B – blue) and the earth wire (5C)
on the pins of the mains socket.
10
5
3
7
7
Warning: Pay attention to the correct
position of the mains inlet wires.
See inset in figure 2.9.
4
10
Figure 2.7
11
Removing the main PCB and the rear panel
(steps 1 - 5)
14
15
9
12
13
16 17
4
Figure 2.8
18
19
Removing the main PCB and the rear panel
(steps 6 - 8)
Bosch Security Systems | 2005-04 | 3122 475 22015en
4. Mount the rear panel using the screws (6) and the
(spring) washers (7).
5. Install the main PCB (2) using the screws (8) and
the (spring) washers (9). If the LBB4502/xx transmitter is provided with a stud to mount the main
PCB, use the extra screw from the upgrade kit.
6. On the new main PCB:
• Fasten the user interface cable (10).
• Fasten the power supply connector (11).
7. Mount the three distance studs (12A, 12B and 12C)
of the analogue input/output PCB through the orifices in the new main PCB.
8. Mount the analogue input/output PCB (13):
• Place the analogue input/output PCB on its distance studs (12).
• Fit the screws (14) with the (spring) washers (15).
• Carefully give the screws a few turns. Do not
yet tighten the screws.
• Fit and tighten the screws (16) at the XLR connectors on the rear panel.
• Fit and tighten the screws (17) between the cinch
plugs on the rear panel.
• Tighten the screws (14) of the distance studs
(12).
INTEGRUS | Installation and User Instructions | Integrus Transmitters
en | 20
9. On the new main PCB (2) fasten the flexible cables
(18) to the analogue input/output PCB. To this end
release the catches (19) on both sides and insert the
flexible cable.
2
10
8
9
11
Note: Make sure that the flexible cables
are entirely and correctly inserted into the
connector as incorrect mounting will lead
67
1
to transmitter failure.
4
See inset in figure 2.10.
18
5C
3
10. If the transmitter contained an interface module
(20): Mount the interface module proceeding as
described in section 2.2.2.
11. If the transmitter did not contain an interface
module: Mount the interface module slot cover on
the new rear panel.
12. Mount the top cover of the transmitter housing.
1
Figure 2.9
5B
Installation of the INT-TXK (steps 1 - 6)
20
14
15
13
2
12A
12B
12C
18
16
17
Figure 2.10
18
12
12
18
Bosch Security Systems | 2005-04 | 3122 475 22015en
5A
19
Installation of the INT-TXK (steps 7 - 12)
INTEGRUS | Installation and User Instructions | Integrus Transmitters
en | 21
2.3 Connections
2.3.2
This chapter gives an overview of typical system
connections using the INT-TX range transmitter:
• Connecting the DCN Next Generation system
• Connecting the DCN system
• Connecting other external audio sources
• Connecting an emergency signal switch
• Connecting to another transmitter
The transmitter requires the Integrus DCN Interface
Module (LBB 3423/20) to interface with the Digital
Congress Network (DCN). This module must be
mounted in the transmitter housing (see section 2.2.2).
The connections between DCN units and the transmitter are made in a loop-through configuration via the
DCN 6-pole circular connectors on the module’s rear
panel. See the DCN Installation and Operating
Manual for more information.
Connecting the DCN system
2.3.1 Connecting the DCN Next Generation
The transmitter can be directly connected to the optical network of the DCN Next Generation conference
system. Use an optical network cable to connect one
of the optical network sockets of the transmitter to the
optical network (see figure 2.11). The network mode
must be enabled with the configuration menu (see
section 2.5.8).
1
2
3
4
5
6
Netw
ork
1
2
Note: See the DCN Next Generation
Installation and User Instructions for
more information about connecting the
transmitter in the optical network.
Figure 2.12
Connecting the DCN systems to the
Modular IR transmitter
2.3.3
1
2
3
4
5
5
6
Netwo
rk
1
6
Netw
2
ork
1
2
Connecting other external audio
sources
The transmitter has up to 32 audio inputs (depending
on the transmitter type) to interface with external
asymmetrical audio sources, such as congress systems
from other manufacturers or for music distribution.
The audio signals (stereo or mono) are connected to
the audio input cinch connectors.
Note: When the cinch audio inputs are used
Figure 2.11
Connecting the optical network to the modular
in combination with inputs via one of the
IR transmitter
interface modules, the signals on corresponding channels are mixed. This situation should normally be avoided by using
higher-numbered cinch audio inputs.
Bosch Security Systems | 2005-04 | 3122 475 22015en
INTEGRUS | Installation and User Instructions | Integrus Transmitters
en | 22
1
2
3
4
5
6
1
Netw
ork
2
1
3
4
2
5
6
Netw
ork
1
2
1
1
2
2
3
3
4
4
5
5
6
Figure 2.13
6
Connecting external audio sources to the
Modular IR transmitter
2.3.4
Connecting an emergency signal
To use the emergency signal function, a switch (normally-open) must be connected to the emergency
switch connector. The reaction of the transmitter on a
closed switch depends on the configuration of the auxiliary inputs (see also section 2.5.14):
• If the auxiliary input is 'Mono + Emergency', the
audio signal on the Aux-Right input is distributed
to all output channels, overriding all other audio
inputs.
• If the auxiliary input is 'Stereo' or 'Stereo to Mono',
the audio signals on the Aux-Left and Aux-Right
inputs are distributed to all output channels, overriding all other audio inputs.
Figure 2.14
2.3.5
Connecting an emergency signal
Connecting to another transmitter
The transmitter can be operated in slave mode to loopthrough the IR radiator signals from a master transmitter. One of the four radiator outputs of the master
transmitter is connected with an RG59 cable to the
radiator signal loop-through input of the slave transmitter.
The Transmission mode of the slave transmitter must
be set to ‘Slave’ (see section 2.5.7).
Note: When the network mode is enabled
1
1
2
2
3
3
4
4
5
6
5
Netwo
rk
6
1
Netwo
rk
1
2
2
(see section 2.5.8), the emergency signal
function is not available when the control
unit of the DCN Next Generation confer-
1
1
2
2
ence system is switched off or defective.
3
3
4
4
5
5
6
MASTER
Figure 2.15
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6
SLAVE
Connecting to another transmitter
INTEGRUS | Installation and User Instructions | Integrus Transmitters
en | 23
2.4 Using the configuration menu
2.4.1
Overview
All configuration and operation options of the transmitter are set via an interactive menu, using a 2x16 character LCD display and a ‘turn-and-push’ menu button.
Figure 2.16 gives an overview of the menu structure.
A general description of how to use the menu is given
in section 2.4.2. Some examples are given in section
2.4.3. The detailed descriptions of all menu items can
be found in section 2.5.
Transmitter
Status
0
4P Defaults
Fault Status
1
4O Unit Name
4N Headphone on/off
4M Mini Radiator on/off
4L Level Inputs
4K
3D FW Version
Monitoring
4J
2
3C FPGA Version
4I
4H
3B HW Version
Level Aux. Left
Aux. Input Mode
Carrier Overview
4G Carrier Settings
3A Serial Number
Enquiry
4F
4E
3
Channel Names
Language List
4D Channel Quality
4C
4B
4A
Setup
Network Mode
Transmission Mode
4
<
Figure 2.16
Number of Channels
Back
Menu overview
Bosch Security Systems | 2005-04 | 3122 475 22015en
Level Aux. Right
INTEGRUS | Installation and User Instructions | Integrus Transmitters
2.4.2
Navigate through the menu
Operating the menu is always a sequence of alternating
turns and pushes:
Turn the button to:
• Cycle through the menu items within a menu (the
menu item number and title on the first line is
blinking).
• Go to a settable option within a menu item (a
blinking cursor moves through the menu screen).
• Cycle through the available values for a settable
option (the value is blinking).
en | 24
To navigate through the Main menu:
1. Turn the button to move through the Main menu
items. The item number and title starts blinking.
(The first item, Transmitter Status, doesn’t blink.)
To jump to a sub-menu:
1. Navigate in the Main menu to an item with three
dots (e.g. ‘Setup ...’).
2. Push the button to go to the sub menu. The submenu item character and title starts blinking.
Note: To enter the Setup sub-menu,
Push the button to:
• Confirm a chosen menu item (the menu item number and title stops blinking, a blinking cursor
appears).
• Go to a sub-menu (the sub-menu item character
starts blinking).
• Confirm the selection of a settable option (the cursor disappears, the option value starts blinking).
• Confirm a selected value for a settable option (the
value stops blinking, the cursor appears again).
After 3 minutes of inactivity, the display automatically
switches back to the first item of the Main menu
(Transmitter Status).
Each menu item is identified by a number (for the
Main menu) or by a number plus a character (for the
sub-menus). The item identification can be found at
the start of the first line and is used to navigate to and
from sub-menus.
Most menu items have one or more settable configuration options. The value of an option can be changed
by selecting a value from a list of available values.
main menu
item number
sub-menu
item character
4D Ch. Quality
Per Channel ...
Figure 2.17
Menu item screen elements
Bosch Security Systems | 2005-04 | 3122 475 22015en
push and hold the button for at least
3 seconds.
To navigate through a sub-menu:
1. Turn the button to move the cursor to the submenu item character.
2. Push the button. The item character and title starts
blinking.
3. Turn to select another sub-menu item character.
4. Push to confirm the selection.
To change option values
1. Navigate to the applicable menu item.
2. Turn the button to move the cursor to the option
value you want to change.
3. Push the button to activate the option. The option
value starts to blink.
4. Turn the button to select a new option value.
5. Push the button to confirm the new value.
The option value stops blinking.
6. Turn the button to move the cursor to another
settable option (when available) and repeat steps
3 to 5.
menu item title
three dots indicate
that the item has a
sub-menu
4D Channel 12
Stereo PQ In 03
option values
INTEGRUS | Installation and User Instructions | Integrus Transmitters
To jump back from a sub-menu to an item of the
Main menu:
1. Turn the button to move the cursor to the Main
menu item number.
2. Push the button. The item number and title starts
blinking.
3. Turn to select another item number.
4. Push to confirm the selection.
When you are turning counter-clockwise through submenu items, the display jumps automatically to the
Main menu after you have reached the first item (A) of
the sub-menu. Example:
4C Nr. of Ch.
32 Channels
4A Transmission
On
Bosch Security Systems | 2005-04 | 3122 475 22015en
en | 25
To jump back from an item of the Main menu to
the Transmitter Status:
1. Turn the button to the < Back screen.
2. Push the button to go to the Transmitter Status.
2.4.3
Examples
Each step in the examples below shows the text on the
display and the action to go to the next step. Bold text
in italics (ttext) indicates that the text is blinking. An
underscore ( _ ) indicates the position of the cursor.
Each example starts at the Transmitter Status screen.
4 Setup
...
3 Enquiry
...
INTEGRUS | Installation and User Instructions | Integrus Transmitters
en | 26
Example 1: Disable carrier 2. (See also section 2.5.11).
Transmitter
32 Channels
1. Turn the button to select
the ‘Setup’ item (4) in
the Main menu.
4 Setup
2. Push and hold the
button for 3 seconds to
go to the ‘Setup’ submenu.
3. Turn to select the
‘C.Settings’ sub-menu
item (4G).
4A Transmission
On
4G
C.Settings...
4G Carrier 0
Enabled
4. Push to go to the
‘C.Settings’ sub-menu.
5. Turn to select carrier 2.
4G Carrier 2
Enabled
4G Carrier 2
Enabled
8. Push to confirm.
9. Turn to select ‘Disabled’.
4G Carrier 2
Disabled
10. Push to confirm.
4G Carrier 2
Disabled
11. Turn to move the cursor
to the Main menu item
number (4).
4G Carrier 2
Disabled
12. Push to confirm.
4G Carrier 2
Enabled
6. Push to confirm.
4 Setup
...
13. Turn to select
the < Back screen.
4G Carrier 2
Enabled
7. Turn to move the cursor
to the second line.
< Back
...
14. Push to confirm
Transmitter
32 Channels
Bosch Security Systems | 2005-04 | 3122 475 22015en
15. Ready
INTEGRUS | Installation and User Instructions | Integrus Transmitters
en | 27
Example 2: Assign a new user defined name to
channel 12. (See also section 2.5.11.)
1. Turn the button to select
the ‘Setup’ item (4) in
the Main menu.
4F Channel 12
• - - -
11. Turn to move the cursor
to the first dash.
2. Push and hold the button for 3 seconds to go
to the ‘Setup’ sub-menu.
4F Channel 12
• - - -
12. Push to confirm.
4A Transmission
On
3. Turn to select the ‘Ch.
Names’ sub-menu item
(4F).
4F Channel 12
• - - -
13. Turn to select the first
character (C).
4F Ch.Names ...
Floor
4. Push to go to the ‘Ch.
Names’ sub-menu.
4F Channel 12
• C--
14. Push to confirm this
character.
4F Channel 00
Spanish
5. Turn to select the
required channel number (12).
4F Channel 12
• C--
15. Repeat steps 11 to 14 for
the other characters.
4F Channel 12
Spanish
6. Push to confirm.
4F Channel 12
• CD Music
16. Turn to move the cursor
to the Main menu item
number (4).
4F Channel 12
Spanish
7. Turn to move the cursor
to the start of the second
line.
4F Channel 12
• CD Music
17. Push to confirm.
4G Carrier 12
Spanish
8. Push to confirm.
4 Setup
...
18. Turn to select
the < Back screen.
4F Channel 12
Spanish
9. Turn clockwise until the
channel name changes
to: • - - -
< Back
...
19. Push to confirm
4F Channel 12
• - - -
10. Push to confirm.
Transmitter
32 Channels
Transmitter
32 Channels
4 Setup
...
Bosch Security Systems | 2005-04 | 3122 475 22015en
20. Ready
INTEGRUS | Installation and User Instructions | Integrus Transmitters
en | 28
Example 3: Set channel 11 to transmit a Stereo signal
in Premium Quality, using audio inputs
14 (L) and 15 (R) as source.
(See also section 2.5.10.)
1. Turn the button to select
the ‘Setup’ item (4) in
the Main menu.
4D Channel 00
Mono SQ
In 00
9. Turn to select the
required channel number (11).
...
2. Push and hold the button for 3 seconds to go
to the ‘Setup’ sub-menu.
4D Channel 11
Mono SQ
In 00
10. Push to confirm.
4A Transmission
On
3. Turn to select the ‘Channel Quality’ sub-menu
item (4D).
4D Ch. Quality
All Mono SQ
4. Push to confirm.
4D Ch. Quality
All Mono SQ
5. Turn to move the cursor
to the option on the second line.
4D Ch. Quality
All Mono SQ
6. Push to confirm.
4D Ch. Quality
All Mono SQ
7. Turn to select the option
value ‘Per Channel ...’.
4D Channel 11
Stereo PQ In 12
4D Ch. Quality
Per Channel ...
8. Push to go to the ‘Channel’ sub-menu (4C).
4D Channel 11
Stereo PQ In 12
Transmitter
32 Channels
4 Setup
*
Note that after selecting ‘Stereo’ as input mode
(step 14) the input number changes automatically
to the next even number (12), which is the input
number of the left signal.
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4D Channel 11
Mono SQ
In 10
4D Channel 11
Mono SQ
In 10
4D Channel 11
Mono SQ
In 10
4D Channel 11
Stereo PQ In 10
11. Turn to move the cursor
to the quality option.
12. Push to confirm.
13. Turn to select the
required quality value
(Stereo PQ).
14. Push to confirm. *
15. Turn to move the cursor
to the input number.
16. Push to confirm.
INTEGRUS | Installation and User Instructions | Integrus Transmitters
4D Channel 11
Stereo PQ In 12
4D Channel 11
Stereo PQ In 14
4D Channel 11
Stereo PQ In 14
4D Channel 11
Stereo PQ In 14
17. Turn to select the
required input number
(14).
18. Push to confirm.
19. Turn to move the cursor
to the Main menu item
number (4).
20. Push to confirm.
4 Setup
...
21. Turn to select
the < Back screen.
< Back
...
22. Push to confirm
Transmitter
32 Channels
23. Ready
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2.5 Configuration and
operation
The next sections give descriptions of the possible configuration options. Each description is followed by the
relevant menu items with detailed information per
menu option. The default values (see section ‘Reset all
options to factory defaults’) are indicated by an asterisk
(*) when applicable.
2.5.1
Start-up
When the transmitter is switched on, the display shows
the Transmitter Status screen, which is the first item of
the Main menu. The display also goes to this screen
after 3 minutes of inactivity.
In case the system detects a fault, the display shows a
flashing fault message (see section 2.5.4).
2.5.2
Main menu
The main menu contains the screens to view the transmitter status and the radiator fault status. It also contains the entry points to the Monitoring, Enquiry and
Setup sub-menus.
Menu Item
Description
Transmitter Status
Shows the transmitter status
(see section 2.5.3)
Shows the radiator fault status
(see section 2.5.4)
Go to the ‘Monitoring’ sub-menu
(see section 2.5.5)
Go to the ‘Enquiry’ sub-menu
(see section 2.5.6)
Go to the ‘Setup’ sub-menu
(see sections 2.5.7 and higher)
1 Fault Status
2 Monitoring . . .
3 Enquiry . . .
4 Setup . . .
2.5.3
View transmitter status
The first screen of the Main menu gives information
about the present status of the transmitter. The screens
shows the name of the transmitter (1st line) and the
present transmission mode (2nd line). See examples
below. See section 2.5.7 to change the transmission
mode.
Transmitter
10 Channels DCN
Transmitter
Aux to All
Transmitter
Standby
Transmitter is transmitting
Transmitter is transmitting the
Transmitter is in Standby mode
10 channels from DCN.
Aux inputs on all channels.
(not transmitting).
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Menu Items
Options (read only)
Description
Transmitter Status
Name
The first line shows the user defined name of the transmitter (see
section 2.5.16).
Mode:
The second line shows the actual transmission mode:
- nn Channels
Audio signals are distributed on nn channels.
- Aux to All
The signal on the Aux. inputs is distributed on all channels.
- nn Ch. Test
The test signals are distributed on nn channels.
- Slave
The transmitter operates in slave-mode: the radiator signal on the
- Standby
The transmitter is in stand by mode.
- Emergency Call
An emergency signal from the Aux. inputs is distributed to all
slave input is looped-through to all radiator outputs.
channels.
DCN
The text ‘DCN’ is shown at the right side of the second line when
a DCN or a DCN Next Generation system is connected to the
transmitter.
2.5.4
View fault status
The fault status of the radiators can be seen in the
second screen of the Main menu:
Menu Items
Value (read only)
1 Fault Status
Fault:
Description
- No Faults
The connected radiators function without problems.
- Radiator Fault
One of the connected radiators is not functioning properly.
- No Radiators
No radiators are connected to the transmitter.
- No Network
When the Network Mode (see section 2.5.8) is Enabled, this fault
is shown when there is a fault in the optical network.
- Network Error
When the Network Mode (see section 2.5.8) is Disabled, this fault
is shown when there is a fault in the optical network. This message
usually occurs when the Network Mode (see section 2.5.8) is
disabled, and a DCN Next Generation CCU is connected to the
transmitter.
When the system detects a failure for the first time, a
flashing fault message pops-up on any menu screen:
No Radiators
Radiator Fault
or
or
Push the menu button to remove the fault message
from the screen and to go back to the menu screen
that was visible before the fault message popped-up.
The flashing message will also disappear when the fault
has been resolved.
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Network Error
No Network
or
or
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2.5.5
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Set monitoring options
The Monitoring sub-menu (2) is used to set which signal is sent to the monitoring headphone output. It can
be one of the inputs, one of the channels or no signal.
When the sensitivity of one of the inputs is being
changed in the Setup menu (4J, 4K or 4L), or when
assigning inputs to channels (menu 4D, Per Channel),
the monitoring output automatically switches temporarily to that source, even when the option ‘None’ has
been chosen.
When the headphone output is disabled (see section
2.5.18), the output level can not be changed and the
level indicator is not visible.
Menu Item
Option
2A Source/Volume
Source;
- In. nn
- Ch. nn
Value 1
Value 2
Description
Input nr:
Volume:
The signal from audio input nn is available
00 ... 31
-31 ... 0 dB
on the monitoring headphone output.
Channel nr:
Volume:
The signal on channel nn is available on the
00 ...31
-31 ... 0 dB
monitoring headphone output.
Volume:
The signal on the Aux. Left input is available on
-31 ... 0 dB
the monitoring headphone output.
- Aux.L
- Aux.R
- None
Volume:
The signal on the Aux. Right input is available
-31 ... 0 dB
on the monitoring headphone output.
Volume:
The monitoring headphone output is switched off
-31 ... 0 dB
during normal operation, but is active when the
sensitivity of one of the inputs is being changed.
The ‘Source/volume’ screen also displays level meters (two
for a stereo source, one for a mono source) for a visual indication of the actual signal strength: ■ = low level,
■ = high
level, ▲ = overflow.
2.5.6
View version information
In the Enquiry sub-menu (3), version information of
the transmitter can be found. This information should
be mentioned in service requests or failure reports.
Menu Item
Value (read only)
Description
3A Serial Number
e.g. 19.0.00001
Shows the serial number of the transmitter board.
3B HW Version
e.g. 01.00
Shows the version number of the transmitter board.
3C FPGA Version
e.g. 2.00.00
Shows the version number of the FPGA software of the
transmitter board.
3D FW Version
e.g. 1.00.0001
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Shows the version number of the transmitter firmware.
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2.5.7
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Set transmission mode
The Transmission Mode menu item (4A) is used to
select which signals will be distributed over the channels. It is also possible to switch all channels off
(Standby).
When using an Integrus system with a DCN Next
Generation system (see section 2.5.8), the transmitter is
automatically switched to 'Standby' when the connected DCN Next Generation system is switched off.
When the DCN Next Generation system is switched
on, the transmitter is automatically switched to 'On'.
When using an Integrus DCN interface module of version 01.05 or higher, the transmitter is automatically
switched to ‘Standby’ when the connected DCN system is switched off. When the DCN system is switched
on, the transmitter is automatically switched to ‘On’.
Menu Item
4A Transmission
Option
Description
Mode:
- Standby
* - On
All channels are switched off, no signals are distributed.
Normal transmission. Input signals are distributed on the channels
as set in the Channel Quality sub-menu (4D).
- Aux to All
The signals on the Auxiliary inputs are distributed on one carrier to
all channels.
- Test
A different test tone is distributed on each channel. The frequency
increases with increasing channel number. For stereo channels the
tone for left and right will also be different.
- Slave
The radiator signal on the slave input is looped-through to all
radiators.
2.5.8
Set network mode
The network mode menu item (4B) is used to enable
and disable the optical network connections. When the
transmitter is connected to a DCN Next Generation
conference system, the optical network connections
must be enabled.
Menu Items
Option
4B Network Mode
Mode:
- Disabled
Description
Optical network connections disabled. Use this mode when the
transmitter is not used in combination with DCN Next Generation.
- Enabled
Optical network connections enabled. Use this mode when the
transmitter is used in combination with DCN Next Generation.
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2.5.9
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Set number of channels
Via sub-menu item 4C the number of channels that
will be used can be set. Note that the maximum number of channels depends on the transmitter type (4, 8,
16 or 32 channels) and the chosen quality modes.
When a DCN Next Generation or a DCN system is
connected to the transmitter, the number of channels
can be automatically set by the connected system.
Menu Items
Option
4C Nr. of Ch.
Nr. of channels
* - Automatic: nn
Description
The number of used channels is set automatically to the maximum
possible number of channels (depending on transmitter type and
the selected quality modes). When a DCN Next Generation
or a DCN system is connected to the transmitter, the number of
channels is determined by the settings of the connected system.
- Manual: nn
Set the number of used channels (the maximum number depends
on the transmitter type and the selected quality modes).
An asterisk (*) is shown when the selected number is not possible
because it is higher than the maximum number of channels.
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2.5.10 Set channel quality and assign inputs
to channels
The audio quality of the channels (mono/stereo, standard/premium) can be set in sub-menu 4D. The quality can be set the same for all channels or for each
channel separately. Note that choosing stereo and/or
premium quality uses more bandwidth and decreases
the number of available channels (see section 1.2.4).
In stereo mode, the left signal is always an even numbered input. The next higher input number is used for
the right signal.
When the quality is set the same for all channels with
the ‘All Mono’ or ‘All Stereo’ options, the inputs are
assigned automatically to the channels as indicated in
the table below:
All Mono
All Stereo
Channel
Input
Channel
Input L
Input R
00
00
00
00
01
01
01
01
02
03
...
...
...
...
...
31
31
15
30
31
With menu option 4D (Per Channel Settings), the
assignment can also be done for each channel
separately.
Menu Items
4D Ch. Quality
Option
Description
Quality:
* All Mono SQ
Set all channels to mono, standard quality.
All Mono PQ
Set all channels to mono, premium quality.
All Stereo SQ
Set all channels to stereo, standard quality.
All Stereo PQ
Set all channels to stereo, premium quality.
Per Channel . . .
Select this option to go to the ‘Per Channel Settings’ menu.
If, in the network mode, stereo quality is selected, the
floor language is assigned to the left channel and the
translation is assigned to the right channel. This can be
used for language learning applications.
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Per Channel Settings:
Menu Item
Options
Description
Channel nr.:
4D Channel nn
00 ... 31
Select which channel to configure.
Quality:
- Disabled
Disable selected channel.
* - Mono SQ
Set selected channel to mono, standard quality.
- Mono PQ
Set selected channel to mono, premium quality.
- Stereo SQ
Set selected channel to stereo, standard quality.
- Stereo PQ
Set selected channel to stereo, premium quality.
Source:
In 00 .. 31
Select the audio input that should be distributed on the selected
channel. For stereo signals, the input number of the left signal
(even number) should be selected.
On 00 .. 31
Select the optical network channel that should be distributed on
the selected channel.
Note: An asterisk (*) is shown behind the
channel number when the channel in the
configured quality does not fit on the available carriers (see section 1.2.4).
With an optical network connected, an
asterisk (*) is shown behind the input number and the channel number when the
selected input can not be routed to the
selected channel, due to the routing limitations of the hardware. The user has to
browse through the inputs in order to
determine which input can be routed to the
selected channel.
Without an optical network connected, an
asterisk (*) is shown behind the input number and the channel number when an optical network channel (On) is selected, or
when an input is selected that can not be
routed to the selected channel due to the
routing limitations of the hardware (typically inputs 28, 29, 30 & 31 can not be routed
to other carriers than carrier 7).
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2.5.11 Set channel names
Each channel can be assigned a name via the Channel
Names menu (4F). This can be ‘Floor’ or one of 30
pre-defined ISO language names. Also up to 32
userdefined names can be added.
See also example 2 in section 2.4.3. The language in
which the pre-defined names are presented can be
chosen via the Language List menu option (4E).
Menu Item
Options
4F Ch. Names ...
Description
Push the button to go to the sub-menu.
Channel nr.:
4F Channel nn
00 ... 31
Select which channel to name.
Language name:
Set the name for the selected channel.
* - ‘Floor’
Use this name for the channel that carries the ‘Floor’ language.
- ISO language names
Choose from pre-programmed ISO language names.
- User defined names
Up to 32 user defined names (max. 12 characters) can be
added and chosen.
Menu Item
Options
4E Language List
Language:
*
Description
English
Present language list in English.
French
Present language list in French.
Original
Present each language name in it’s original language
(e.g. English, Français, Deutsch, etc.)
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2.5.12 Disable or enable carriers
Normally the channels are automatically assigned to
the available carriers. However, when the reception
quality of a specific carrier is not good, that carrier can
be disabled manually. The channels are then automatically re-assigned to the next available carriers.
Each of the 8 carriers (0 to 7) can be disabled or
enabled in the Carrier Settings menu (4G).
Menu Items
Options
Description
4G C.Settings ...
4G Carrier n
Push the button to go to the sub-menu.
Carrier nr.:
0 ... 7
Select which carrier to configure.
Status:
- Disabled
The selected carrier is disabled (off).
* - Enabled
The selected carrier is enabled (on).
2.5.13 View carrier assignments
With menu option 4H the carrier assignment can be
seen, i.e. which channels are transmitted on each carrier. Note that the number of channels that can be distributed on one carrier depends on the chosen quality
mode. See examples below.
4H Carrier 1
Ch. 04 05 06 07
4H Carrier 4
Ch. 16 17 -- --
4H Carrier 5
Ch. 18 18 19 19
Channels 4, 5, 6, and 7 (all Mono
Channels 16 and 17 (both Mono MQ)
Channels 18 and 19 (both Mono
MQ) are assigned to carrier 1.
are assigned to carrier 4. Room for
PQ) are assigned to carrier 5.
more channels on same carrier.
Menu Item
Options
4H C.Overview ...
4H Carrier n
Description
Push the button to go to the sub-menu.
Carrier nr.:
0 ... 7
Select which carrier to view.
Channel numbers:
-00 ... 31 or --
Shows the channel numbers that are assigned to the selected
carrier. The symbol ‘- -’ is used when less than 4 channels are
assigned.
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2.5.14 Configure auxiliary inputs
The way the signals on the auxiliary inputs (Aux-.L
and Aux.-R) are handled can be set in the Aux. Input
Mode menu (4I).
When the option ‘Stereo’ is chosen, the signals on both
Aux. inputs are distributed as a stereo signal to all
channels. This setting can for instance be used to transmit a music signal during breaks in a conference. Note
that the Transmission mode must be set to ‘Aux to All’
(menu item 4A) to actually transmit this stereo signal.
The ‘Stereo to Mono’ and ‘Mono+ Emergency’ options
can be selected when the transmitter is used in combination with an interpretation system. The Aux. input(s)
will be distributed to the Symmetrical Audio Input and
Interpreters Module. In this configuration the ‘floor’
signal should be connected to the Aux. inputs.
Menu Items
4I Aux. Input
Option
Description
Type:
* - Stereo
The Aux. inputs will be distributed in stereo to all channels when
the transmission mode (menu item 1) is set to ‘Aux to All’.
- Stereo to Mono
The Aux-L and Aux-R inputs are combined into a mono signal and
distributed to the Symmetrical Audio Input and Interpreters
Module (when present).
- Mono + Emergency
The Aux-L input is distributed to the Symmetrical Audio Input and
Interpreters Module (when present). The Aux-R input is distributed
as emergency signal to all channels when the emergency switch
is closed.
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2.5.15 Set sensitivity of the inputs
The sensitivity of the audio and Aux. inputs can be set
in the Input Sensitivity menus (4J, 4K, 4L). The sensitivity can be set the same for all audio inputs (menu
item 4L) or for each audio input separately.
Menu Items
Options
4J Level.Aux.L
Value
Description
Level:
-6 ... +6 dB
4K Level.Aux.R
Set the required sensitivity for the left auxiliary input.
Level:
-6 ... +6 dB
4J Level.Inputs
Mode:
Level:
- All
-6 ... +6 dB
Set the required sensitivity for the right auxiliary input.
Set the sensitivity of all audio inputs to a user defined level.
- Per Input ...
Select this option to go to the ‘Per Input Sensitivity
Settings’ menu.
Per Input Sensitivity settings:
Menu Items
4L Sens.Input nn
Options
Value
Input nr.:
Level:
00 ... 31
-6... +6 dB
Description
Select which input to set and select the required sensitivity.
The sensitivity screens also displays a level meter for a visual indication of the actual signal strength: ■ = low level,
■
= high level, ▲ = overflow.
2.5.16 Enable / disable IR-monitoring
The mini IR-radiator at the front of the transmitter can
be used for monitoring the IR-signal. When required
(e.g. for security reasons) this option can be switched
off (menu 4M).
Menu Items
Options
Description
4M Mini Radiator
Enabled or Disabled
Enable or disable the mini IR-radiator at the front of the transmitter.
2.5.17 Enable / disable headphone output
The headphone output at the front of the transmitter
can be used for monitoring the input-and channel signals. When required (e.g. for security reasons) this
option can be switched off in menu item 4N.
Menu Items
Options
Description
4N Headphone
Enabled or Disabled
Enable or disable the headphone output at the front of the
transmitter.
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2.5.18 Choose transmitter name
The transmitter can be assigned a user-defined name.
This name is used in the Transmitter Status screen.
The name can be edited in the Unit Name menu (4O).
Menu Items
4O Unit Name
Options
Description
Name:
- Free text
Assign a user defined name to the transmitter
(max. 16 characters). The default name is ‘Transmitter’.
2.5.19 Reset all options to factory default
values
Use menu item 4P to reset all options to the factory
defaults. The user defined transmitters name, the user
defined language names and the transmission mode
are not reset. (The default values are indicated by an
asterisk (*) in the menu descriptions.)
Menu Items
Options
4P Defaults ...
4P Defaults ...
Description
Push the button to go to the sub-menu.
Reset to defaults?
* - No
- Yes
Cancel Reset.
Reset all options to the factory default value.
The user defined transmitters name, the user defined language
names and the transmission mode are not reset.
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3
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Integrus Radiators
3.1 Medium and High Power
Radiators
3.1.1 Description
These units accept the carrier signals generated by the
transmitter and emit infra-red radiation carrying up to
32 audio distribution channels. They are connected to
one or more of the four HF BNC outputs of the IR
transmitter. A maximum of 30 radiators can be connected to each of these outputs by means of loopthrough connections.
The LBB 4511/00 has an infra-red output of 16 Wpp,
while the LBB 4512/00 has an infra-red output of
32 Wpp. Both have an automatic mains power voltage
selection and are switched on automatically when the
transmitter is switched on.
The attenuation of the signal by the cable is equalised
automatically by the radiator. When the radiator is supplied with power and the transmitter is switched on,
the radiator initialises the equalisation. The red LEDs
flash for a brief period of time to indicate that the initialisation is in progress.
When not receiving carrier waves, the radiators switch
to standby mode. There is also a temperature protection mode which automatically switches the radiators
from full to half power or from half power to stand-by
if the temperature of the IREDs becomes too high.
5 6
Figure 3.2
5 6
LBB 4512/00 High Power Radiator (Front view)
Figure 3.1 and 3.2
1. Mains input - Male Euro mains connector. The
radiators have automatic mains voltage selection.
2. IR signal input/loop-through - Two HF BNC
connectors for connecting the radiator to the transmitter and for loop-through connection to other
radiators. Automatic cable termination is achieved
by a built-in switch in the BNC connectors.
3. Output power selection switch - The radiators
can be switched between full- and half-power
operation.
4. Delay compensation switches - Two 10-position
switches to compensate for differences in cable
lengths to the radiators.
5. Amber indicator LEDs - Give an indication of the
radiator status.
6. Red indicator LEDs - Give an indication of the
radiator status.
Note: The indicator LEDs are positioned
behind the semi-transparent cover and
1
100-240 V
Loop - Through inputs
2
Do not
terminate
Output power
3
High
Low
Delay compensation
X10
4
X1
Figure 3.1
LBB 4511/00 and LBB4512/00 Radiators
(Back view)
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are only visible when ON.
INTEGRUS | Installation and User Instructions | Integrus Radiators
3.1.2 Radiator status indication
A radiator consists of two IRED panels. Each IRED
panel has an amber and a red indicator LED (see
figure 3.2) which show the status of the radiator panel
Red LED
Amber LED
Status
on
off
Stand-by mode
off
on
Transmitting
flashing
on
At switch-on:
Initialising signal equalisation
During operation:
Temperature protection mode.
See chapter 6,
en | 43
Attaching the suspension bracket
First assemble the supplied suspension bracket and
connect it to the radiator (see figure 3.3 and figure 3.4).
This bracket is attached to the radiator by two bolts
with washers. There are corresponding holes on the
back of the radiators. There is also a spring-loaded
plunger (indicated by a black arrow in figure 3.4),
located above the bolt hole on the right-hand arm of
the bracket, which is used for adjusting the angle of the
radiator (shown in inset in figure 3.4). There are corresponding holes on the back of the radiator for accepting this plunger. The mounting angle can be adjusted
in steps of 15°.
Trouble-shooting
on
on IRED panel failure.
See chapter 6,
Trouble-shooting
3.1.3 Mounting the radiators
Radiators in permanent installations can be either fixed
to a wall, hung under a ceiling or balcony or secured
to any sturdy material, using the suspension bracket
supplied with the radiator. The mounting angle can be
adjusted for optimal coverage.
For wall mounting a separate bracket (LBB 3414/00) is
also required. In non-permanent installations, a floor
stand can be used.
Figure 3.3
Attaching the plate to the suspension bracket
Figure 3.4
Attaching the suspension bracket to the
Warning: When you install the radiator in
a ceiling, you must leave at least 1 m3 of
free space around the back of the radiator. To prevent the radiator from becoming too hot, make sure that there is a
good airflow in this free space.
Note: When in operation, the radiators
may feel warm to the touch. This is quite
normal, and does not indicate a radiator
fault or malfunction.
Warning: Always ensure that natural airflow is not obstructed by ceilings, walls
etc. when determining the position of the
radiator. Leave plenty of space around the
radiator to prevent it becoming too hot.
radiator
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Mounting on a floor stand
The top of the floor stand is screwed into the suspension bracket (figure 3.5). The bracket is supplied with
both metric and Whitworth threaded plates, and is
therefore compatible with most standard floor stands.
For floor stands, the mounting angle can be set at 0°,
15° or 30°.
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Wall mounting
For wall mounting, an extra wall bracket (LBB
3414/00) is required (must be ordered separately).
This bracket is attached to the wall by means of four
bolts (see figure 3.8). Four holes of 10 mm in diameter
and 60 mm in depth must be drilled using the drilling
pattern (see figure 3.7).
Note: The four bolts used to attach the
bracket must each be able to withstand
a pull-out force of 200 kg (440 lb).
The bolts and plugs delivered with the
LBB 3414/00 wall bracket are only intended for mounting the unit on a solid brick
or concrete wall.
Figure 3.5
Attaching the stud of a floor stand to the
suspension bracket of the radiator
Figure 3.7
Figure 3.6
Attaching the radiator inclusive suspension
bracket and stud to the floor stand
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LBB 3414/00 wall mounting bracket showing
dimensions and drilling pattern
INTEGRUS | Installation and User Instructions | Integrus Radiators
The radiator (plus suspension bracket) is attached to
the wall bracket by sliding the mounting bolt over the
slot on the wall bracket and then tightening it (see
figure 3.9). A split pin is then inserted into a small hole
in the bolt to stop it from working loose (see inset in
figure 3.9). The vertical angle of the radiator can be
adjusted between 0 and 90° in steps of 15°. The horizontal orientation of the radiator can be adjusted by
loosening the bolt then turning the radiator to the
required position.
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Ceiling mounting
The radiators can be attached to the ceiling using the
supplied suspension bracket. This ensures enough
space for a proper air flow around the radiator.
Mounting a radiator in the ceiling will in most cases
require a forced air flow by means of a ventilator to
prevent overheating.
Mounting on horizontal surfaces
When the radiator has to be positioned a horizontal
surface (e.g. on top of an interpreter booth), the distance between the radiator and the surface must be at
least 4 cm (1.5 inch) to enable enough air flow around
the radiator. This can be achieved by using the suspension bracket as a support. If this is not possible, switch
the radiator to half power. If the radiator is used at full
power on top of an interpreter booth, the ambient temperature must not exceed 35° C.
3.1.4 Connecting radiators to the transmitter
Figure 3.8
Attaching the wall mounting bracket to a wall
The transmitter has six BNC HF Output connectors
labelled 1, 2, 3, 4, 5 and 6 on the rear panel. All six
outputs are functionally identical. They can each drive
up to 30 radiators (LBB 4511/00 and/or LBB 4512/00)
in a loop-through configuration. The radiators are connected with RG59 cables. The maximum cable length
per output is 900 m (2970 ft) to the last radiator.
Automatic cable termination is achieved by a built-in
switch in the BNC connectors on the radiator.
Notes:
•
For the automatic cable termination to
work, never leave an open-ended
cable connected to the last radiator in
a loop-through chain.
•
When connecting infra-red radiators,
do not split the cable, else the system
will not function correctly.
Figure 3.9
Attaching the radiator to the wall mounting
bracket
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INTEGRUS | Installation and User Instructions | Integrus Radiators
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3.2 Low Power Wide Beam Radiator
3.2.1 Description
This radiator is designed for small or medium-sized
conference venues. The radiator has an infra-red output of 3 Wpp and they have a built-in power supply
and are switched on automatically when the transmitter
is switched on. A mains cable is provided. When not
receiving carrier waves, the radiators switch to standby
mode. They can be mounted on walls and ceilings or
on a floor stand. Figures 3.11 and 3.12 show front and
rear views of the radiators.
Figure 3.10
Figure 3.11
LBB 3410/05 Radiator (Front view)
Figure 3.12
LBB 3410/05 Radiator (Rear view)
Loop-through connection of radiators
3.1.5 Using the output power selection
switch
The radiators can be switched to half power. This can
be used when full power is not required, e.g. when a
mobile system is used in a small conference venue.
Also switch a radiator to half power when an adequate
air flow can not be guaranteed, e.g. when the radiator
is mounted on top of an interpreters booth. Reducing
the power when possible saves energy and increases
the lifetime.
1
3
2
2
4
1. Male mains connector - for connecting the radiator to the mains supply.
2. HF BNC input and output connectors - for connecting the radiator to the transmitter or for loopthrough connection to other radiators.
3. Power reduction switch - reduces the output
power of the radiator to 1.5 Wpp.
4. Radiator mounting bracket.
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INTEGRUS | Installation and User Instructions | Integrus Radiators
The following are found on the radiator printed circuit
board: (Figure 3.13):
•
•
•
6
5
•
Figure 3.13
LBB 3410/05 Radiator (PCB)
5. Green LED - indicates that the radiator is switched
on and is receiving carrier waves from the transmitter.
6. Red LED - indicates that the radiator output is 70%
or less of the normal output level.
en | 47
Don’t use this radiator in combination with LBB
4511/00 and LBB 4512/00 radiators in one system,
as the internal signal delay of these radiators are
different.
No automatic cable termination: the termination
plug has to be connected to the last radiator in a
trunk.
No communication of the radiator status to the
transmitter.
Using this radiator at 105 to 125 V requires internal
adjustments.
3.2.2 Radiator Status Indication
When the radiator is transmitting, a green LED mounted internally on a printed circuit board illuminates. If
there is a failure in the radiator, a red LED illuminates
on the printed circuit board.
3.2.3 Mounting the Radiator
Mains voltage selection of 115 V or 230 V is internally
selectable. On delivery the radiator is set for 230 Va.c.
operation. To alter the mains voltage selection for the
LBB 3410/05 radiators, it is necessary to solder two
leads to contacts on the printed circuit board (PCB)
inside the radiator. To locate the PCB, remove the four
securing screws at the rear of the radiator and remove
the unit from its housing. Remove the PCB from its
mounting by removing the PCB’s six securing screws
and the small connector X1 (figure 3.13). To select
115 V operation, solder two small leads, one connecting X4 to X6 and one connecting X5 to X7. Then
remove the small SMD resistor R3. When this is completed replace fuse F1 (160 mA) with a fuse rated at
350 mA.
Limitations:
• Not more than the first 4 carriers can be transmitted.
• Not more than 100 m cable length from transmitter
to last radiator.
• Directly connection of the radiators to the transmitter with equal cable length. In loop-through connection, the total cable length from the first to the
last radiator may not exceed 5 meters. Reason:
there are no facilities on this radiator for compensating the cable signal delay.
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Radiators in permanent installations can be fixed to a
wall, hung under a ceiling or balcony or secured to
any sturdy material using the unit’s built-in bracket and
mounting adaptor supplied with the radiator (figure
3.14). In non-permanent installations, a floor stand can
be used. The mounting adaptor enables the radiator to
be positioned for optimum performance.
Figure 3.14
LBB 3410/05 Radiator Mounting
INTEGRUS | Installation and User Instructions | Integrus Receivers
4
Integrus Receivers
4.1 Description
LBB 4540 receivers are available for 4, 8 or 32 channels. They can operate with a rechargeable NiMH battery pack or with disposable batteries and have controls for channel selection, volume adjustment and an
on/off push button. All receivers have a 3.5 mm (0.14
inch) stereo jack output socket for mono or stereo
headphones.
An LCD display shows the channel number and indicators for signal reception and low battery power.
1
2
3
5
en | 48
4. Volume control - A slider to adjust the volume.
5. Channel selector - An up/down switch to select
an audio channel. The channel number is shown
on the LCD display.
6. On/Off button - When a headphone is connected,
the receiver switches to Stand-by state. Pressing the
On/Off button switches the receiver from Stand-by
to On. To switch back to Stand-by, press and hold
the button for approx. 2 seconds. When the headphone is removed, the receiver switches automatically to the Off-state.
7. Battery pack connector - This connection is used
to connect the battery pack to the receiver. Charging is automatically disabled when this connector is
not used.
8. Charging contacts - Used in combination with the
charging equipment to recharge the battery pack (if
used).
9. Battery pack or disposable batteries - Either a
rechargeable NiMH battery pack (LBB 4550/00) or
two disposable AA-size 1.5 V batteries.
4
6
Note: When the receiver is not used,
7
disconnect the headphones. This ensures
that the receiver is totally switched-of and
8
no energy is consumed from the batteries
or the battery pack.
9
Figure 4.1
Receiver, front view and back view with open
battery compartment
Charging circuitry is included in the receiver.
Figure 4.1:
1. Charging indicator LED - Used in combination
with the charging equipment.
2. Headphone connector - A 3.5 mm (0.14 inch)
stereo jack output socket for the headphone, with
integrated Stand-by/Off-switch.
3. LCD Display - A two digit display showing the
selected channel. An antenna symbol is visible
when the receiver picks up an infra red signal of
adequate quality. A battery symbol is visible when
the battery pack or the batteries are almost empty.
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4.2 Operation
Note: Disposable batteries and battery
The receiver cannot operate when no headphone is
connected. After connecting the headphone the receiver switches to stand-by mode. Push shortly on the
on/off button to switch the receiver on.
The channel number is shown on the LCD display.
The channel can be changed with the channel selector.
Push it to the up- or down-position to increase or
decrease the channel number. The highest channel
number is automatically matched to the number of
channels that has been set on the transmitter (see section 2.5.9).
A battery symbol is visible on the display when the
batteries or the battery pack is almost empty.
An antenna symbol is visible when the receiver picks
up a modulated infra red signal of adequate quality.
During short interruptions in the reception, the receiver mutes the headphones output. When no adequate
IR signal is detected for more than 1 minute (e.g.
when a delegate leaves the conference room), the
receiver automatically switches to stand-by mode.
The volume can be changed by moving the volume
control up or down.
The receiver can be manually switched to stand-by
mode by pressing the on/off button for more than 2
seconds.
When the headphone is disconnected, the receiver is
automatically switched off. (A switch in the headphone
connector disconnects the batteries.)
packs at the end of their technical lives
should be discarded with due care for
the environment. When possible, take
batteries to a local recycling station.
4.3 Reception test mode
The receivers can be switched to a test-mode to get an
indication of the reception quality for each carrier separately. To activate the test-mode: Push the channel
selector to the Up-position, press the on/off button and
hold both for ca. 2 seconds. When in test-mode,
switch between carriers by using the channel selector.
The receiver’s display will shortly show the carrier
number (0-7) and then a quality indication (00-90).
Note: When the receiver does not receive
the selected carrier, it keeps displaying
the carrier number and does not display
its quality.
The reception quality can be assessed as follows:
Indication
The infra-red receivers can operate with disposable
batteries (2x AA-size alkaline cells) or with a rechargeable battery pack (LBB 4550/00).
Insert the batteries or the battery pack in the receiver
with the correct polarity as indicated in the battery
compartment. The battery pack has a separate connection cable which must be connected to the receiver.
When this connection is not present, the charging circuitry in the receiver will not work. This also prevents
the unwanted charging of disposable batteries. The battery pack has a temperature sensor which prevents
overheating during charging.
For more information about charging the battery pack
see chapter 5.
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Quality
00-39
Good reception. Very good audio quality.
40-49
Weak reception. Ticks in the audio.
50-90
No or bad reception. Poor audio quality.
The test mode is deactivated when the receiver is
switched off.
4.4 Receiver headphones
The headphones connect with the receivers via a 3.5
mm (0.14 inch) stereo jack connector. Suitable headphone types are:
•
•
•
•
LBB 3441/10 Under the chin stereo headphones
LBB3442/00 Single earphone (mono)
LBB3443/00 Stereo headphones (recommended)
Or any other compatible type (see chapter 7,
Technical Data).
INTEGRUS | Installation and User Instructions | Integrus Charging Units
5
Integrus Charging Units
5.1 Description
The charging units can recharge up to 56 receivers at
once. The charging unit contains the power supply
with automatic mains voltage selection. The charging
electronics and a charging indicator LED are included
in each receiver. The charging circuitry checks if a battery pack is present and controls the charging process.
Note: These charging units are only
intended to charge LBB 4540 receivers
with a LBB 4550/00 battery pack. You
en | 50
Two versions are available, which are functionally
identical:
• LBB 4560/00 Charging suitcase for portable
systems.
• LBB 4560/50 Charging cabinet for permanent
systems. Suitable for either table-top or wall-mounted use.
Figure 5.1:
1. Mains input - Male Euro mains socket. The charging unit has automatic mains voltage selection.
A mains cable is provided.
2. Mains on/off switch
3. Receiver positions - One charging unit can charge
up to 56 receivers simultaneously.
cannot charge other receiver types with
the LBB 4560 charging units, nor can you
use other charging units to charge LBB
4540 receivers.
1
2
3
Figure 5.1
LBB 4560 Charging unit
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INTEGRUS | Installation and User Instructions | Integrus Charging Units
5.2 Wall mounting the charging
cabinet
LBB 4560/50 is suitable for either table-top or wallmounted use.
It can be wall-mounted using 5 mm (0.19 inch) screws,
with a head diameter of 9 mm (0.35 inch). The screws
and plugs delivered with the LBB 4560/50 are
designed to mount the unit on a solid brick or concrete
wall. Two holes, 8 mm in diameter and 55 mm in
depth, must be drilled 500 mm apart (see figure 5.2).
en | 51
5.3 Charging procedure
Ensure that the charging unit is connected to the mains
and that it is switched on. Place the receivers firmly in
the charging compartments. The charging indicator
LEDs on all receivers should illuminate. These LEDs
indicate the charging status of each receiver:
LED colour
Charging status
Green
Charging completed.
Red
Charging in progress.
Red blinking
Error status. See chapter 6,
Trouble-shooting.
Warning: To comply with UL and CSA
Off
Charger switched off or receiver not
properly inserted.
regulations, the charging cabinets must
be mounted in such a way that they can
be easily removed by hand in case of
emergency.
Notes:
•
It is preferred to switch on the charging unit before inserting the receivers.
Receivers can be inserted or removed
without damage while the charging
unit is switched on.
•
Charge the battery pack to full capacity before using them for the first time.
•
The charger always applies fast
charge during the first 10 minutes
after inserting a receiver. Inserting the
receiver multiple times with a fully
charged battery pack should therefore
Figure 5.2
Charging cabinet mounting dimensions
be avoided, as this will damage the
battery pack.
•
Continuously charging the receiver
will not damage the receiver or battery pack. Receivers can therefore
safely be left in their charging positions when they are not used.
•
When the rechargeable battery pack
is used, it is advisable to check regularly after three years that the batteries are not leaking. If there is any sign
of leakage or corrosion, replace the
battery pack. Ensure that only the battery pack LBB 4550/00 is used. The
battery pack has to be replaced at
least every five years.
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INTEGRUS | Installation and User Instructions | Troubleshooting
6
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Troubleshooting
In this chapter a simple fault-finding guide is given.
This is intended to be used to remedy the consequences of incorrect installation. If more serious faults
or problems arise the installer should contact a qualified technician.
Problem
Actions
Transmitter display does not light up:
•
Check that the mains supply to the transmitter is connected and that the
transmitter is switched on.
Transmitter indicates “no radiators”:
•
Ensure that connections to all radiators have been made correctly and that
each radiator’s mains supply is connected and switched on.
Transmitter indicates “radiator fault”:
•
Ensure that connections to all radiators have been made correctly and that
each radiator’s mains supply is connected and switched on.
Examine the radiator LEDs.
•
Transmitter indicates “no network”:
•
•
Check that the optical network is connected correctly.
Check that the control unit of the DCN Next Generation conference system
is switched on or disable the network mode (menu 4B).
Transmitter indicates “network error”:
•
Enable the network mode (menu 4B) or disconnect the transmitter from the
optical network.
Transmitter does not synchronise automatically
to the maximum number of channels in DCN:
•
Ensure that the number of channels is set to automatic (using menu item
4B).
Emergency contact does not work:
•
•
Check that the emergency contact is connected correctly.
Check that the audio is connected according to the selected auxiliary input
mode (menu 4I).
Red LED flashes and amber LED is on of one
or both IRED panels of a radiator:
•
IRED panel is in temperature protection mode. Check that the natural airflow around that radiator is not obstructed. If not so, replace the radiator.
Both red LED and amber LED are on of one or
both IRED panels of a radiator:
•
IRED panel malfunctions and the radiator should be replaced.
Infra red receiver fails to function properly:
•
If disposable batteries are used, check whether the batteries have sufficient capacity and whether they are inserted with the correct polarity.
If a battery pack is used, ensure that the battery pack is fully charged.
Ensure that the headphone is connected properly.
Switch the receiver on and check whether the display indicates a channel.
Ensure that the receiver picks up sufficient IR signal and check whether
the antenna symbol becomes visible.
Enable the mini radiator (menu 4M) and check the receiver by holding it in
front of the mini radiator of the transmitter.
Ensure that the volume control is turned up.
Set the transmitter in test mode and check whether the test tone is audible
on the receiver.
If the test tone is not audible, do the same test with other receivers.
If all receivers do not work properly at that spot, check the coverage of the
system (see section 1.6).
•
•
•
•
•
•
•
•
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INTEGRUS | Installation and User Instructions | Troubleshooting
Problem
Actions
The charging indicator LED on the receiver is
blinking:
•
•
•
•
en | 53
Check that the charging unit is used under the specified working conditions
(see technical data).
Check that the receiver contains a battery pack which is connected correctly.
Ensure that the receiver is at room temperature and re-insert the receiver
in the charging unit.
If the charging indicator starts blinking again, replace the battery pack and
check whether the problem is resolved.
Receiver discharges very quickly:
•
Replace the battery pack and check whether the problem is resolved.
Bad coverage:
•
Do the tests as described in section 1.6.
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INTEGRUS | Installation and User Instructions | Technical Data
7
Technical Data
7.1
System Specification
en | 54
System Environmental Conditions
Working conditions
Fixed/stationary/transportable
Temperature range
- transport
-40 to +70 °C (-40 to 158 °F)
Overall system characteristics
• Conforms to IEC 60914, the international standard
for conference systems
• Conforms to IEC 61603 part 7, the international
standard for digital infra-red transmission of audio
signals for conference and similar applications
- operating
+5 to +45 °C (41 to 113 °F)
Maximum relative humidity
< 93%
Transmission Characteristics
Safety
According to EN 60065,
+5 to +35 °C (41 to 122 °F)
for LBB 4560 range
+5 to +55 °C (41 to 131 °F) for
INT-TX range
IR transmission wavelength
870 nm
CAN/CSA-E65 (Canada and
Modulation frequency
Carriers 0 to 5: 2 to 6 MHz,
US) and UL 6500
according to IEC 61603 part 7
According to EN 60065,
Carriers 6 and 7: up to 8 MHz
CAN/CSA-E65 (Canada and
DQPSK, according to IEC
US) and UL 1419 for
Protocol and modulation
LBB 4511/00 and LBB 4512/00
technique 61603 part 7
EMC emission
System Audio Performance
(Measured from the audio input of an INT-TX range
transmitter to the headphone output of an
INT-RX range receiver.)
Audio frequency response
According to harmonized standard EN 55103-1 and FCC rules
part 15, complying with the limits
for a class A digital devices
EMC immunity
According to harmonized
standard EN 55103-2
20 Hz to 10 kHz (-3 dB) at
Standard Quality
EMC approvals
Affixed with the CE mark
20 Hz to 20 kHz (-3 dB) at
ESD
According to harmonized
standard EN 55103-2
Premium Quality
Total harmonic distortion at 1 kHz
< 0.05%
Crosstalk attenuation at 1 kHz
> 80 dB
Dynamic range
> 80 dB
Weighted signal-to-noise ratio
> 80 dB(A)
Mains harmonics
According to harmonized
standard EN 55103-1
Environmental requirements
Contains no banned substances
as specified in UAT-0480/100
(e.g. no cadmium or asbestos)
Cabling and System Limits
Cable type
75 Ohm RG59
Maximum number of radiators
30 per HF output
Maximum cable length
900 m (2,970 feet) per HF output.
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INTEGRUS | Installation and User Instructions | Technical Data
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7.2 Transmitters and Modules
7.2.3 Integrus DCN interface module
7.2.1 Infra Red Transmitters
Physical Characteristics
Mounting
Physical Characteristics
Mounting
Mounting plate and two screws
included
Brackets for 19” rack mounting
Dimensions (H x W x D)
or fixing to a table top
Detachable feet for free-standing
100 x 54 x 231 mm
(39 x 21 x 91 in)
Weight
324 g (0.73 lb)
use on a table top
Dimensions (H x W x D)
92 x 440 x 410 mm
Electrical Characteristics
(3.6 x 17.3 x 16.1 in) for table top
See DCN data brochure.
use, without brackets, with feet
88 x 483 x 410 mm
(3.5 x 19.0 x 16.1 in) for 19” rack
7.3 Radiators and Accessories
use, with brackets, without feet
36 mm (1.4 in) in front of
7.3.1 Medium and High Power Radiators
brackets, 372 mm (14,6 in)
behind brackets
Physical Characteristics
Weight
6.8 kg (15.0 lbs)
Mounting
Finish
Charcoal with silver
Suspension bracket for direct
ceiling mounting
Mounting plates for floor stands
Electrical Characteristics
Asymmetrical audio inputs
Symmetrical audio inputs
with M10 and 1/2” Whitworth
+3 dBV nominal, + 6 dBV
thread LBB 3414/00 Wall
Maximal (+/- 6 dB)
Mounting Bracket can be used
+15 dBV nominal, + 18 dBV
Maximal (+/- 6 dB)
for fixing radiator to wall surfaces
Dimensions (H x W x D)
LBB 4511/00 without bracket:
Emergency switch connector
emergency control input
200 x 500 x 175mm
Headphone output
32 Ohm to 2 kOhm
(7.9 x 19.7 x 6.9 in)
HF input
nominal 1 Vpp, minimum
LBB 4512/00 without bracket:
10 mVpp, 75 Ohm
300 x 500 x 175mm
1 Vpp, 6 VDC, 75 Ohm
(11.0 x 19.7 x 6.9 in)
HF output
Mains voltage
90 to 260 V, 50 to 60 Hz
Power consumption
maximal 55 W
Radiator angle
0, 15 and 30° for floor-stand
mounting
Power consumption (standby)
29 W
0, 15, 30, 45, 60, 75 and 90° for
wall/ceiling mounting.
7.2.2 Transmitter Upgrade Kit range
Weight
LBB 4511/00 without bracket:
6.8 kg (15 lbs)
LBB 4511/00 with bracket:
Physical Characteristics
Mounting
Dimensions (H x W x D)
Weight
Transmitter rear plate and
7.6 kg (17 lbs)
mounting stub included
LBB 4512/00 without bracket:
325 x 220 x 26 mm
9.5 kg (21 lbs)
(13 x 9 x 1 in)
LBB 4512/00 with bracket:
10.3 kg (23 lbs)
425 g (0.95 lb)
Finish
Electrical Characteristics
See 7.2.1 INT-TX Transmitter range.
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Bronze coloured
INTEGRUS | Installation and User Instructions | Technical Data
Electrical and Optical Characteristics
Number of IREDs
260 (LBB 4511/00),
en | 56
7.4 Receivers, Battery Packs and
Charging Units
480 (LBB 4512/00)
Total IR output at 20 °C
8 Wrms 16 Wpp
(LBB 4511/00),
Total optical peak intensity
7.4.1 Pocket Receivers
16 Wrms 32 Wpp
Physical Characteristics
(LBB 4512/00)
Dimensions (H x W x D)
9 W/sr (LBB 4511/00),
155 x 45 x 30 mm
(6.1 x 1.8 x 1.2 in)
18 W/sr (LBB 4512/00)
Weight excl. batteries/battery pack 75 g (0.16 lb)
+/- 22°
Weight incl. battery pack
125 g (27 lb)
HF input
nominal 1Vpp, minimal 10 mVpp
Finish
Charcoal with silver
Mains voltage
90 to 260 V, 50 to 60 Hz
Power consumption
100 W (LBB 4511/00),
Electrical and Optical Characteristics
180 W (LBB 4512/00)
IR irradiance level
8 W (LBB 4511/00),
Angle of half sensitivity
+/-50°
10 W (LBB 4512/00)
Headphone output level at 2.4V
450 mVrms (speech at maximum
Angle of half intensity
Power consumption (standby)
4 mW/m2 per carrier
volume, 32 Ohm headphone)
7.3.2 Wall Mounting Bracket
Physical characteristics:
Dimensions (H x W x D)
200 x 280 x 160 mm
Weight
1.8 kg (4.0 lb)
Finish
Quartz grey
Headphone output freq. range
20 Hz to 20 kHz
Headphone output impedance
32 Ohm to 2 kOhm
Max. signal-to-noise ratio
> 80 dB(A)
Supply voltage
1.8 to 3.6 V, nominal 2.4 V
Power consumption at 2.4 V
15 mA (speech at maximum
(7.9 x 11.0 x 6.3 in)
(battery voltage)
volume, 32 Ohm headphone)
Power consumption (standby)
< 1 mA
7.3.3 Low Power Wide Beam Radiator
7.4.2 NiMH Battery Pack
Physical Characteristics
Mounting
Dimensions (H x W x D)
Bracket for ceiling, wall and floor
stand mounting with 3/8“
Physical characteristics:
Witworth thread
Dimensions (H x W x D)
176 x 300 x 125 mm
(7 x 12 x 5 in)
Radiator angle
14 x 28 x 49 mm
(0.6 x 1.1 x 1.9 in)
Weight
50 g (0.11 lb)
0° to 90° (without steps)
Weight
1.5 kg (3.3 lb)
Electrical characteristics:
Finish
Black
Voltage
2.4 V
Capacity
1100 mAh
Electrical and Optical Characteristics
Number of IREDs
88
Total IR output
1.8 Wrms 3.0 Wpp
Total optical peak intensity
2.0 W/sr
Angle of half intensity
+/-24° vertical, +/-48° horizontal
Mains voltage
105 to 125 V or 220 to 240 V
internally selectable, 50 to 60 Hz
Power consumption
25 VA
Power consumption (standby)
5 VA
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INTEGRUS | Installation and User Instructions | Technical Data
7.4.3 Charging Units
Chinch connector (male)
Physical Characteristics
Mounting
en | 57
Pin 1
Signal +
Pin 2
Signal -
LBB 4560/50: screws and
plugs for wall mounting included
Dimensions (H x W x D)
LBB 4560/00:
230 x 690 x 530 mm
(9 x 27 x 21 in)
LBB 4560/50:
130 x 680 x 520 mm
(5 x 27 x 20 in)
Weight excl. receivers
LBB 4560/00: 15.5 kg (34 lbs)
7.5.3 Earphones
LBB 4560/50: 11.2 kg (25 lbs)
Weight incl. 56 receivers
Finish
LBB 4560/00: 22.3 kg (49 lbs)
3.5 mm Jack plug
LBB 4560/50: 18.0 kg (40 lbs)
Tip (1)
Signal left
Charcoal with grey
Ring (2)
Signal Right
Sleeve (3)
Electrical earth/screen
Electrical Characteristics
Mains voltage
90 to 260 V, 50 to 60 Hz
Power consumption
270 W (56 receivers charging)
Power consumption (standby)
7 W (no receivers in the charging unit)
7.5 Connection details
7.5.4 Emergency switch
7.5.1 Mains cables
Blue
Neutral
Brown
Live
Green/Yellow
Earth/Ground
7.5.2 Audio cables
3-pole XLR connector (female)
Pin1
Earth
Pin 2
Signal +
Pin 3
Signal -
Bosch Security Systems | 2005-04 | 3122 475 22015en
Terminal block
Connect the emergency switch to pin 1 and 2.
INTEGRUS | Installation and User Instructions | Technical Data
en | 58
7.6 Guaranteed rectangular footprints
LBB 3410/05 at full power
LBB 4511/00 at full power
LBB 4512/00 at full power
number of
mounting
mounting
area
length
width
offset
area
length
width
offset
area
length
width
carriers
height
angle
L
W
X
W
X
W
X
[m]
[m]
[m]
[m]
[m]
[m]
A
[m2]
L
[degrees]
A
[m2]
L
[m]
A
[m2]
[m]
[m]
[m]
1
2.5
0
130
13
10
4
627
33
19
7
1269
47
27
10
5
15
130
13
10
4
620
31
20
7
1196
46
26
8
30
140
14
10
3
468
26
18
4
816
34
24
6
45
120
12
10
3
288
18
16
2
480
24
20
2
60
100
10
10
1
196
14
14
0
324
18
18
0
90
56
7
8
-4
144
12
12
-6
196
14
14
-7
589
31
19
9
1288
46
28
10
30
72
9
8
7
551
29
19
5
988
38
26
6
45
90
9
10
4
414
23
18
2
672
28
24
2
60
108
12
9
0
306
18
17
-1
506
23
22
-1
90
80
8
10
-5
256
16
16
-8
400
20
20
-10
30
408
24
17
13
1080
40
27
11
45
368
23
16
7
945
35
27
4
60
418
22
19
1
754
29
26
-1
-13
10
20
15
90
2
324
18
18
-9
676
26
26
2.5
15
63
9
7
2
308
22
14
4
576
32
18
6
5
15
63
9
7
3
322
23
14
5
620
31
20
7
10
20
4
30
56
8
7
3
247
19
13
3
468
26
18
4
45
49
7
7
1
168
14
12
1
288
18
16
2
60
49
7
7
0
132
12
11
-1
196
14
14
0
90
42
6
7
-3
100
10
10
-5
144
12
12
-6
30
266
19
14
6
551
29
19
5
45
234
18
13
2
414
23
18
2
18
17
-1
-8
60
30
5
6
2
195
15
13
-1
306
90
42
6
7
-3
144
12
12
-6
256
16
16
60
195
15
13
3
418
22
19
1
90
196
14
14
-7
324
18
18
-9
4
2.5
15
160
16
10
3
308
22
14
5
15
144
16
9
4
322
23
14
5
30
140
14
10
3
247
19
13
3
10
8
offset
20
5
4
2
45
99
11
9
1
168
14
12
1
60
90
10
9
-1
132
12
11
-1
-5
90
64
8
8
-4
100
10
10
45
120
12
10
3
234
18
13
2
60
108
12
9
0
195
15
13
-1
90
100
10
10
-5
144
12
12
-6
20
90
64
8
8
-4
196
14
14
-7
2.5
15
84
12
7
2
160
16
10
3
5
15
60
10
6
4
144
16
9
4
30
70
10
7
3
140
14
10
3
45
63
9
7
1
99
11
9
1
60
49
7
7
0
90
10
9
-1
90
36
6
6
-3
64
8
8
-4
60
49
7
7
2
108
12
9
0
90
49
7
7
-3.5
100
10
10
-5
10
(The mounting height is the distance from the reception plane and not from the floor).
Bosch Security Systems | 2005-04 | 3122 475 22015en
INTEGRUS | Installation and User Instructions | Technical Data
LBB 3410/05 at full power
en | 59
LBB 4511/00 at full power
LBB 4512/00 at full power
number of
mounting
mounting
area
length
width
offset
area
length
width
offset
area
length
width
carriers
height
angle
A
L
W
X
A
L
WX
A
L
W
X
[feet]
[degrees]
[feet2]
[feet]
[feet]
[feet]
[feet2]
[feet]
[feet]
[feet]
[feet2]
[feet]
[feet]
8
0
1419
43
33
13
6696
108
62
23
13706
154
89
33
16
15
1419
43
33
13
6732
102
66
23
12835
151
85
26
1
33
2
1518
46
33
10
5015
85
59
13
8848
112
79
20
45
1287
39
33
10
3068
59
52
7
5214
79
66
7
60
1089
33
33
3
2116
46
46
0
3481
59
59
0
90
598
23
26
-13
1521
39
39
-20
2116
46
46
-23
6324
102
62
30
13892
151
92
33
780
30
26
23
5890
95
62
16
10625
125
85
20
45
990
30
33
13
4425
75
59
7
7268
92
79
7
60
1170
39
30
0
3304
59
56
-3
5400
75
72
-3
90
858
26
33
-16
15
52
52
-26
4356
66
66
-33
4424
79
56
43
11659
131
89
36
45
3900
75
52
23
10235
115
89
13
60
4464
72
62
3
8075
95
85
-3
90
3481
59
59
-30
7225
85
85
-43
8
15
690
30
23
7
3312
72
46
13
6195
105
59
20
15
690
30
23
10
3450
75
46
16
6732
102
66
23
66
30
598
26
23
10
2666
62
43
10
5015
85
59
13
45
529
23
23
3
1794
46
39
3
3068
59
52
7
60
529
23
23
0
1404
39
36
-3
2116
46
46
0
90
460
20
23
-10
1089
33
33
-16
1521
39
39
-20
30
2852
62
46
20
5890
95
62
16
45
2537
59
43
7
4425
75
59
7
3304
59
56
-3
-26
60
320
16
20
7
2107
49
43
-3
90
460
20
23
-10
1521
39
39
-20
2704
52
52
60
2107
49
43
10
4464
72
62
3
90
2116
46
46
-23
3481
59
59
-30
8
15
16
15
33
8
2704
30
16
33
4
[feet]
30
30
66
offset
208
16
13
7
1716
52
33
10
3312
72
46
13
1560
52
30
13
3450
75
46
16
30
1518
46
33
10
2666
62
43
10
45
1080
36
30
3
1794
46
39
3
60
990
33
30
-3
1404
39
36
-3
90
676
26
26
-13
1089
33
33
-16
45
1287
39
33
10
2537
59
43
7
60
1170
39
30
0
2107
49
43
-3
90
1089
33
33
-16
1521
39
39
-20
66
90
676
26
26
-13
2116
46
46
-23
8
15
897
39
23
7
1716
52
33
10
16
15
660
33
20
13
1560
52
30
13
30
759
33
23
10
1518
46
33
10
33
45
690
30
23
3
1080
36
30
3
60
529
23
23
0
990
33
30
-3
90
400
20
20
-10
676
26
26
-13
60
529
23
23
7
1170
39
30
0
90
529
23
23
-11
1089
33
33
-16
(The mounting height is the distance from the reception plane and not from the floor).
Bosch Security Systems | 2005-04 | 3122 475 22015en
INTEGRUS | Installation and User Instructions | Product Index
en | 60
Product index
Transmitters
INT-TX04
INT-TX08
INT-TX16
INT-TX32
INT-TXK04
INT-TXK08
INT-TXK16
INT-TXK32
4-channel transmitter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15
8-channel transmitter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15
16-channel transmitter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15
32-channel transmitter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15
4-channel transmitter upgrade kit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18
8-channel transmitter upgrade kit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18
16-channel transmitter upgrade kit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18
32-channel transmitter upgrade kit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18
Interface module
LBB 3423/20
Integrus DCN interface module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16
Radiators
LBB 4511/00
LBB 4512/00
LBB 3414/00
LBB 3410/05
Medium-power radiator . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .42
High-power radiator . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .42
Wall mounting bracket . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .44
Low power wide beam radiator . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .46
Receivers
LBB 4540/04
LBB 4540/08
LBB 4540/32
LBB 4550/00
4-channel pocket receiver . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .48
8-channel pocket receiver . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .48
32-channel pocket receiver . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .48
Rechargeable NiMH battery pack . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .48
Headphones
LBB 3441/10
LBB 3442/00
LBB 3443/00
Under the chin stereo headphones . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .49
Single earphone (mono) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .49
Stereo headphones 49
Charging units
LBB 4560/00
LBB 4560/50
Charging suitcase . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .50
Charging cabinet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .50
Bosch Security Systems | 2005-04 | 3122 475 22015en
For more information please visit www.boschsecuritysystems.com
© 2005 Bosch Security Systems B.V.
Data subject to change without notice
2005-04 | 3122 475 22015en