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® TITANUS PRO·SENS TECHNICAL MANUAL ® TITANUS PRO·SENS Air Sampling Smoke Detection System Technical Manual MAN3046 Note: This manual must be used in conjunction with the requirements of local standards, codes and job specifications. PRO·SENS® APID and CLI interface information please see their Installation guides.
® TITANUS PRO·SENS TECHNICAL MANUAL Contents General ............................1 Introduction ........................1 Safety Information ......................1 Guarantee ........................2 Copyright ........................2 Packaging ........................3 Disposal ......................... 3 Introduction ............................4 ® Features of the TITANUS PRO·SENS ASD System ........... 4 Areas of Application .......................
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® TITANUS PRO·SENS TECHNICAL MANUAL 4.3.5 Project planning for forced air flow ..............68 Mains supply ........................ 72 ® Installation TITANUS PRO·SENS ................73 General ........................73 ® Opening the TITANUS PRO·SENS ................74 Settings ........................75 5.3.1 Detector module ....................75 Installation of the reset board ..................
® TITANUS PRO·SENS TECHNICAL MANUAL General Introduction This manual is for installers of air sampling smoke detection systems, in particular for engineers, technicians, and fitters etc. who have technical knowledge in the field of smoke detection technology but who are possibly working with this device for the first time.
® TITANUS PRO·SENS TECHNICAL MANUAL Guarantee The manual is subject to technical modification without notice and makes no claim to completeness. In principle our “Terms and Conditions of Supply and Assembly” apply. No claims under the guarantee or for liability can be made for damage to persons or property if they are based on one or more of the following causes: insufficient observance of the instructions about the design, assembly of •...
® TITANUS PRO·SENS TECHNICAL MANUAL Packaging The individual air sampling smoke detection systems are packed in accordance with the anticipated transport conditions. Exclusively environmentally friendly materials were used for the packaging. The packaging is intended to protect the air sampling smoke detection system from being damaged until it is installed.
® TITANUS PRO·SENS TECHNICAL MANUAL Introduction ® Features of the TITANUS PRO·SENS ASD System ® TITANUS PRO·SENS is the latest generation of WAGNER air sampling smoke detection systems. Besides its use for room and equipment protection the variant can be used for monitoring climatic cabinets and climatic ducts. Sensitivity The device has a response sensitivity of up to 0.5 %/m, 0.1 %/m or 0.015 %/m light obscuration.
® TITANUS PRO·SENS TECHNICAL MANUAL The voltage can be set to 10 V, 11 V and 12 V with • the FC-3 fan control circuit board. The FC-3 fan control circuit board ® available as an option for all TITANUS PRO ·SENS -SL devices.
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® TITANUS PRO·SENS TECHNICAL MANUAL Room monitoring with air conditioning Room monitoring takes place in rooms with air conditioning for server rooms, etc., in ventilation ducts, via floor voids, ceiling voids, in EDP rooms, distribution cabinets, transformer cells, at climatic cabinets (see Fig. 1.2) or at climatic ducts in the by-pass.
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® TITANUS PRO·SENS TECHNICAL MANUAL Equipment Protection non-ventilated and ventilated installations/cabinets like i. e. distribution cabinets, switch cabinets telephone switch boards measuring and control units Fig. 1.3: Scheme - equipment monitoring with the air sampling smoke detection ® system TITANUS PRO·SENS ®...
® TITANUS PRO·SENS TECHNICAL MANUAL Technical Description System Description ® The air sampling smoke detection system TITANUS PRO·SENS consists of the basic device and the pipe system. The most important components of the basic device are the range of optical detector modules to detect the smoke aerosols, the aspiration unit to pass the air samples to the detector module and the air flow sensor in order to monitor the pipe system for fracture and blockage.
® TITANUS PRO·SENS TECHNICAL MANUAL 2.1.1 Function The aspiration unit in the basic device draws air samples from the area to be monitored via a pipe system with defined air sampling points. The air samples are then passed to the sensitive detector module (refer to 2.1) Detector Module Dependent on the response sensitivity of the used detector module (up to ®...
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® TITANUS PRO·SENS TECHNICAL MANUAL After a delay period which can be programmed by switches the fault is indicated at the air sampling smoke detection system and, if required, the fault signal is passed to the fire detection control and indicating equipment (F.D.C.I.E.) via a fault contact.
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® TITANUS PRO·SENS TECHNICAL MANUAL ® Relay output TITANUS PRO·SENS possesses a potential-free change- over contact for the existing alarm threshold and the collective fault . Thus, the air sampling smoke detection system can be connected to the addressable detection lines of any fire detection control and indicating equipment (F.D.C.I.E.).
® TITANUS PRO·SENS TECHNICAL MANUAL ® TITANUS PRO·SENS and accessories 2.2.1 Overview ® Fig. 2.3: Overview TITANUS PRO·SENS The components illustrated in Fig. 2. can be used as an option. Page 12...
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® TITANUS PRO·SENS TECHNICAL MANUAL ® 2.2.2 Basic device TITANUS PRO·SENS ® The basic device TITANUS PRO·SENS consists of the following components: • plastic housing • plastic connection piece • integrate pipe return • Connection for pipe with 25 mm outside diameter •...
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® TITANUS PRO·SENS TECHNICAL MANUAL ® Numbers Function Explanation TITANUS PRO·SENS Fig. 2. displays (refer to Fig. ON (green LED) operation display alarm (red LED) alarm display fault (yellow LED) fault pipe system or failure ventilator or fault detector module connection for air return pipe to return the air cable entry of fire detection cable for...
® TITANUS PRO·SENS TECHNICAL MANUAL 2.2.3 Diagnostics Fig. 2.6: Diagnostic software for reading out the device state For maintenance and service the diagnostic software is able to display the memorized and current device state as well as fault signals of TITANUS ®...
® TITANUS PRO·SENS TECHNICAL MANUAL 2.2.4 Response Indicators For a hidden installation of the air sampling smoke detection system it is necessary to mount an alarm display in a clearly visible place. ® TITANUS PRO · SENS offers the possibility to connect the response indicators DJ1191 and DJ1192.
® TITANUS PRO·SENS TECHNICAL MANUAL 2.2.5 Device Support Fig. 2.8: Support for the air sampling smoke detection system TITANUS ® PRO·SENS ® TITANUS PRO·SENS can be directly mounted to a wall. If required, additional supports are available e.g. for the fixing at racks. Page 17...
® TITANUS PRO·SENS TECHNICAL MANUAL Pipe system 2.3.1 Overview of available pipe components ® Fig. 2.9: Components for the TITANUS PRO·SENS pipe system The components illustrated in Fig. 2.9 are selected for each specific application and are interchangeable. Page 18...
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® TITANUS PRO·SENS TECHNICAL MANUAL Blow-through system In areas where dust particles or icy conditions are possible it might be necessary to blow through the air sampling pipe system and aspiration points. Figs. 2.10 and 2.11 show the components of a manual and automatic blow-through system.
® TITANUS PRO·SENS TECHNICAL MANUAL 2.3.2 Air sampling points for room monitoring 2.3.2.1 Aspiration-reducing film sheets Fig. 2.12: Air sampling point with aspiration-reducing film sheet and marking tape An air sampling point is a 10mm-hole in the air sampling pipe. This hole is sealed by means of a patented aspiration-reducing film sheet which has an opening of the required diameter.
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® TITANUS PRO·SENS TECHNICAL MANUAL 2.3.2.2 Air flow reducer clips Fig. 2.13: Air flow reducer for dirty areas and deep freeze storage The air sampling points, when used in areas where blockages can occur, are equipped with a patented plastic clip, type AK-C, and a patented flexible air flow reducer, type AK-x (refer to Fig 2.13).
® TITANUS PRO·SENS TECHNICAL MANUAL 2.3.3 Ceiling feed-through for hidden installations Fig. 2.14: Ceiling feed-through for ceiling voids Aesthetics If a hidden installation is required for monitoring of the pipe system, it can be installed in the ceiling void. The ceiling feed through are put in the false ceiling. According to the pipe design guidelines the ceiling feed-through are equipped with aspiration-reducing film sheets with defined air sampling points (see...
® TITANUS PRO·SENS TECHNICAL MANUAL 2.3.4 Air filter for dusty areas ® Fig. 2.15: TITANUS PRO·SENS with air filter In highly dusty areas air filters are to be used in order to protect the detector module of the device. These sailings can occur e.g. in clean rooms with fresh air supply.
® TITANUS PRO·SENS TECHNICAL MANUAL 2.3.5 Air return for pressurised and dusty areas ® Fig.2.16: Principle of air return with TITANUS PRO·SENS ® If the air sampling smoke detection system TITANUS PRO · SENS and the pipe system are installed in two areas P1 and P2 with different air pressures, the air is to be returned to the pressure area of the pipe system (refer to Fig.
® TITANUS PRO·SENS TECHNICAL MANUAL 2.3.6 Noise suppressor ® Fig. 2.18: TITANUS PRO·SENS with noise suppressor By using the SD-1 noise suppressor, the noise level can be reduced by up to 10 db(A) for use in areas in which low noise emissions are required from the ®...
® TITANUS PRO·SENS TECHNICAL MANUAL 2.3.7 Steam trap for humid areas Fig. 2.19: Steam trap to eliminate water vapour from the pipe system and to collect the condensate from the pipe system ® If TITANUS PRO·SENS is used in environments with high humidity condensate can occur in the air sampling system.
® TITANUS PRO·SENS TECHNICAL MANUAL 2.3.8 Detonation prevention device for endangered areas Fig. 2.20: Detonation prevention device in the air sampling smoke detection system and air return system ® TITANUS PRO·SENS can also be used in dangerously explosive areas by installing a detonation prevention device.
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® TITANUS PRO·SENS TECHNICAL MANUAL Protection Type Approval Nominal Gap Width Explosion Groups EG IIA > 0,7 mm BAM* EG IIB3 > 0,5 mm IIB1 – IIB3 BAM* EG IIC > 0,2 mm BAM* Bundesanstalt für Materialprüfung (Federal German Office of Material Research) The connection between the air sampling smoke detection system and the detonation prevention device is a metal pipe.
® TITANUS PRO·SENS TECHNICAL MANUAL Technical Data All listed power values relate to a surround temperature of 20ºC. INSTRUCTION ® TITANUS PRO·SENS TITANUS TITANUS ® ® PRO·SENS PRO·SENS supply voltage (Ue) 14 to 30 V DC Voltage nominal supply voltage 24 V DC = 6.9 V = 9 V...
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® TITANUS PRO·SENS TECHNICAL MANUAL TITANUS TITANUS ® ® PRO·SENS PRO·SENS ® TITANUS PRO · SENS -20° to +60° C Temperature Range deep freeze variety -40° to +60° C non-condensed 10 to 95 % rf Humidity construction type radial Ventilator service life of the ventilator (12 V) 43.500 h at 24°...
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® TITANUS PRO·SENS TECHNICAL MANUAL TITANUS TITANUS ® ® PRO·SENS PRO·SENS 2-SL Voltage supply voltage (Ue) 14 to 30 V DC nominal supply voltage 24 V DC Voltage with Strom ventilator control board FC-2 6,5 V 6,9 V 6,5 V 6,9 V starting current (at 24V) 300 mA...
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® TITANUS PRO·SENS TECHNICAL MANUAL TITANUS TITANUS ® ® PRO·SENS PRO·SENS 2-SL protection class (DIN IEC 34 part 5) IP 20 Protection classification Material plastic (ABS) Housing Colour Housing papyrus white, RAL 9018 0° to +40°C Temperature range Not Condensed 10 to 95 % rf Humidity Type...
® TITANUS PRO·SENS TECHNICAL MANUAL ® Pipe system – TITANUS PRO·SENS Pipe system TITANUS TITANUS ® ® PRO·SENS PRO·SENS ® ® PRO·SENS PRO·SENS 2-SL max. pipe length 300 m 560 m Pipe system max. number of air sampling points max. length of air sampling hose per ceiling feed through Temperature range PVC pipe...
® TITANUS PRO·SENS TECHNICAL MANUAL Design 4.1 General The following describes the project planning of the air sampling smoke detection system to EN54.20 (AS7240.20). The basic conditions are described in Chapter 4.1. The project planning is to be conducted in accordance with Chapter 4.2.
® TITANUS PRO·SENS TECHNICAL MANUAL 4.1.1 Regulations The current respective national regulations in each particular country must also be complied with and project planning must be adjusted to such regulations. ® The Wagner Titanus PRO·SENS is approved to: AS1603.8 – Automatic fire detection and alarm systems – part 8 Multi- •...
® TITANUS PRO·SENS TECHNICAL MANUAL 4.1.2 Pipe system When planning the pipe system, it must be ensured that reliable fire detection is guaranteed for any fire present in an installation or in a monitored area. Fig. 4.21 depicts an example of a U-pipe system with symmetrical or asymmetrical design and the diameters of the aspiration apertures calculated according to Chapter 4.6.2 “Standard planning.”...
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® TITANUS PRO·SENS TECHNICAL MANUAL Branch length In order to ensure a short transport time for the smoke fumes in the sampling pipe and thus enable rapid detection, it is better to plan several shorter than a few long ones (preferably a U- or double U- pipe system ).
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® TITANUS PRO·SENS TECHNICAL MANUAL Direction change Angles and bends in the pipe system increase flow resistance. For that reason, the number of angles and bends should be kept to a minimum. It is preferable to use bends, since angles have a higher flow resistance. Angles should therefore only be used where they are necessary due to structural constraints.
® TITANUS PRO·SENS TECHNICAL MANUAL 4.1.3 Air flow monitoring EN54.20 (AS 7240.20) requires the recognition of a 20 percent change in the air flow volume by the detector module’s air flow sensor system. In order to accomplish this, the air flow sensor system’s triggering threshold must be set to level II.
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® TITANUS PRO·SENS TECHNICAL MANUAL Level I limitations The air flow monitoring may only be set to level I if: Project planning according to “Individual aperture monitoring” has been carried out (see Chap. 4.3.1 “Pipe project planning individual aperture monitoring”), the air flow sensor has been compensated depending on the air pressure (see Chap.
® TITANUS PRO·SENS TECHNICAL MANUAL 4.1.4 Sensitivity According to EN54.20 (AS 7240.20), the sensitivity of an air sampling smoke detection system can be divided into particular fire sensitivity classes. These sensitivity classes describe particular example applications in which the systems can be used. Permissible system project planning can be determined for each classification according to Chapter 4.2.
® TITANUS PRO·SENS TECHNICAL MANUAL 4.1.5 Project planning limits The following limit values must be complied with at all times with the TITANUS ® PRO·SENS per pipe system connected. The minimum pipe length between 2 aspiration apertures is 4 m. The maximum pipe length between 2 aspiration apertures is 12 m.
® TITANUS PRO·SENS TECHNICAL MANUAL Project planning 4.2.1 Project planning guidelines In order to conduct project planning in accordance with the EN54.20 (AS7240.20) standard, it is necessary to be familiar with particular factors. These are the requirements for the system’s sensitivity, the number of aspiration apertures and the accessories necessary for the corresponding application.
® TITANUS PRO·SENS TECHNICAL MANUAL 4.2.3 Sensitivity and pipeline project planning 4.2.3.1 Pipeline project planning with pipe accessories The following project planning tables for pipeline project planning can be found in the appendix for each previously selected pipe accessory. Project planning without filter Project planning with LF-AD air filter Project planning with LF-AD-1 air filter Project planning with LF-AD-2 air filter...
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® TITANUS PRO·SENS TECHNICAL MANUAL Procedure In the following example, a project plan is supposed to fulfil class B requirements without air filters, with 8 apertures and with the additional use of a condensation separator. The red arrows show the possible project plans with varying pipe shapes and fan voltages.
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® TITANUS PRO·SENS TECHNICAL MANUAL Results: The following modules may optionally be used with the corresponding settings for class B or A: Module 0.015 % LT/m – with a sensitivity of min. 0.12 % LT/m Module 0.1 % LT/m – with a sensitivity of min. 0.2 % LT/m Possible system parameters: I-pipe system ≥...
® TITANUS PRO·SENS TECHNICAL MANUAL 4.2.4 Aperture diameter The aperture diameters of the aspiration apertures can be found in the corresponding table for the respective pipe configuration: I- pipe Fig. 4.24: I-pipe system Number of Aspiration apertures apertures Sampling aperture ∅ in mm —...
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® TITANUS PRO·SENS TECHNICAL MANUAL U-pipe Fig. 4.25: U-pipe system Aspiration apertures Number of apertures Sampling aperture ∅ in mm — — — — — — — — — — — — — — — — — — — — —...
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® TITANUS PRO·SENS TECHNICAL MANUAL Double U-pipe Fig. 4.27: Double U-pipe system Aspiration apertures Number of apertures Sampling aperture ∅ in — — — — — — — — — — — — — — — Quadruple U-pipe Fig. 4.28: Quadruple U-pipe Aspiration apertures Number of apertures Sampling aperture ∅...
® TITANUS PRO·SENS TECHNICAL MANUAL Special project planning 4.3.1 Project planning for individual aperture monitoring The following system parameters apply to the detection of an individual or a particular number of blocked aspiration apertures, depending on pipe configuration. The specifications according to Chapter 4.2 apply to project planning. The following limit values and aperture diameters should also be taken into account.
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® TITANUS PRO·SENS TECHNICAL MANUAL 4.3.1.2 U-shape pipe system 1 pipe system ® TITANUS PRO · SENS 2 pipe systems ® TITANUS PRO · SENS Fig. 4.30: U-shape pipe system for area protection ® Min. distance from TITANUS to T-piece Limit values ®...
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® TITANUS PRO·SENS TECHNICAL MANUAL Number of Aspiration apertures apertures per pipe system Sampling aperture ∅ in mm — — — — — — — — — — — — — — — — — — — — — U-pipe system triggering thresholds Number of apertures per pipe system 1 blocked aperture...
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® TITANUS PRO·SENS TECHNICAL MANUAL 4.3.1.3 M-pipe system 1 pipe system ® TITANUS PRO·SENS 2 pipe systems ® TITANUS PRO·SENS Fig. 4.31: M-shape pipe system for area protection ® Min. distance from TITANUS to T-piece Limit values ® Max. distance from TITANUS to T-piece 20 m Max.
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® TITANUS PRO·SENS TECHNICAL MANUAL Number of apertures Aspiration apertures per pipe system Sampling aperture ∅ in — — — — — — M-pipe system triggering thresholds Number of apertures per pipe system 1 blocked aperture — — 2 blocked apertures —...
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® TITANUS PRO·SENS TECHNICAL MANUAL 4.3.1.4 Double U-pipe system 1 pipe system ® TITANUS PRO·SENS 2 pipe systems ® TITANUS PRO·SENS Fig. 4.12: Double U pipe system for area protection Min. distance from Limit values ® TITANUS to last T-piece Max.
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® TITANUS PRO·SENS TECHNICAL MANUAL Number of aspiration apertures per Aspiration apertures pipe system Sampling aperture ∅ in mm — — — Double U-pipe system triggering thresholds Number of apertures per pipe system 1 blocked aperture — — 2 blocked apertures —...
® TITANUS PRO·SENS TECHNICAL MANUAL 4.3.2 Simplified pipe project planning Simplified project planning is used for equipment protection and in rooms with small dimensions. The advantage in this project planning is the uniform diameters of the aspiration apertures. The specifications according to Chapter 4.2 apply to project planning. The following limit values and aperture diameters should also be taken into account.
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® TITANUS PRO·SENS TECHNICAL MANUAL 4.3.2.2 U-pipe system 1 pipe system ® TITANUS PRO ·SENS 2 pipe systems ® TITANUS PRO ·SENS Fig. 4.14: U-pipe system, e.g. for equipment protection ® Min. distance from TITANUS to T-piece Limit values ® Max.
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® TITANUS PRO·SENS TECHNICAL MANUAL 4.3.2.3 M-pipe system 1 pipe system ® TITANUS PRO ·SENS 2 pipe systems ® TITANUS PRO ·SENS Fig. 4.15: M-pipe system for area protection Limit values ® Min. distance from TITANUS to last T-piece ® Max.
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® TITANUS PRO·SENS TECHNICAL MANUAL 4.3.2.4 Double U-pipe system 1 pipe system ® TITANUS PRO ·SENS 2 pipe systems ® TITANUS PRO ·SENS Fig. 4.16: Double U-pipe system, e.g. for equipment protection Limit values Min. distance from ® TITANUS to last T-piece Max.
® TITANUS PRO·SENS TECHNICAL MANUAL 4.3.3 Project planning with long intake lines Project planning for long pipe intake lines may only be carried out under use of pipes with a diameter of 32mm or 40mm. Observe national regulations during project planning! INSTRUCTION The pipe intake line here refers to the pipe system between the air sampling smoke detection system and the last T-piece (U- and double U- pipe system)
® TITANUS PRO·SENS TECHNICAL MANUAL 4.3.4 Project planning with acceleration apertures Acceleration aperture It may be necessary to increase the system's transport time in order to meet individual requirements. For this purpose, acceleration apertures can be planned at the end of the pipe branch, which will increase the transport rate. The dimensioning of an acceleration aperture with a simple or double diameter of the final sampling aperture of a pipe branch may be necessary depending on the transport time requirements.
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® TITANUS PRO·SENS TECHNICAL MANUAL sensitivity of 0.1 % LT/m are approved to meet requirements for class B. An acceleration aperture in the same size as the final sampling aperture should be used to increase the transport time. In accordance with Table A1, the necessary sensitivity of the detector module amounts to 0.1 % LT/m * 0.85 = 0.085 % LT/m in this case.
® TITANUS PRO·SENS TECHNICAL MANUAL 4.3.5 Project planning for forced air flow Air conditioning duct Air conditioners are distinguished between low-speed and high-speed systems monitoring (see table below). The specifications provided in this chapter apply only to low- speed systems. There are not enough empirical values available for high- speed systems.
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® TITANUS PRO·SENS TECHNICAL MANUAL If it is absolutely necessary to attach the pipe system directly behind baffles, sound suppressers or angles, the main flow speed areas will have to be monitored (see Fig. 4.19/20). Fig. 4.20: Change in direction of a duct without baffles Fig.
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® TITANUS PRO·SENS TECHNICAL MANUAL Fig. 4.22: Air recirculation Air recirculation The air recirculation must take place at a distance of at least 2 m from the sampling. The open end of the air recirculation should be bevelled at a 45° angle (see Fig.
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® TITANUS PRO·SENS TECHNICAL MANUAL The distances of the aspiration apertures to each other and to the wall of the duct are represented in the following table. Duct cross section Duct cross section Bore distance ≤ ≤ ≤ ≤ 0.5 m² >...
® TITANUS PRO·SENS TECHNICAL MANUAL Mains supply The appropriate size power supply fitted with appropriate sized backup batteries ® must be used to power the Wagner Titanus PRO·SENS Please consult the applicable installation standards. For Australian installations, the requirements of AS1670.1:2004 Fire detection, warning, control and intercom systems –...
® TITANUS PRO·SENS TECHNICAL MANUAL ® Installation TITANUS PRO·SENS General The regulations, guidelines and instructions given in chapter 4.1 apply. The following is to be considered when mounting the air sampling smoke ® detection system TITANUS PRO·SENS Any changes in the design of installations are to be avoided. If changes are inevitable the operator, manufacturer and/or supplier are to be informed (written approval).
® TITANUS PRO·SENS TECHNICAL MANUAL ® Opening the TITANUS PRO·SENS ® Fig. 5.1: Opening the TITANUS PRO·SENS air sampling system The components on the base and circuit board must be protected from damage with an anti-static set. ATTENTION ® To open TITANUS PRO·SENS follow the steps below (see fig.
® TITANUS PRO·SENS TECHNICAL MANUAL Settings 5.3.1 Detector module ® Fig. 5.2: Standard settings on the detector module of TITANUS PRO·SENS 5.3.1.1 Setting of the response sensitivity The sensitivity of the detector module is set via the switch S1 (1, 2) on the ®...
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® TITANUS PRO·SENS TECHNICAL MANUAL 5.3.1.2 Delay period of the alarm activation The delay period for the alarm thresholds can be set via the switch S1 (3, 4). As a standard the delay period for the alarm is set to 10 sec. If the smoke level increases during operation so that the alarm threshold is reached the delay period starts.
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® TITANUS PRO·SENS TECHNICAL MANUAL 5.3.1.4 Delay period of the air flow fault Set the delay period for the transmission of a fault signal via the switch S1 (7, ® 8) on the detector module (see fig. 5.2) of TITANUS PRO·SENS Setting of the Delay Period Switch S1 Switch S1...
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® TITANUS PRO·SENS TECHNICAL MANUAL 5.3.1.7 Function of the collective fault contact Fig. 5.3: Jumper settings on the collective fault contact The contact type (break contact or make contact) of the collective fault is set using the jumper JU2 and JU3. Adjust with jumper JU2 the contact type of the 1.
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® TITANUS PRO·SENS TECHNICAL MANUAL 5.3.1.8 Setting of the Ventilator Voltage Fig. 5.4: Switching of the ventilator voltage on the base board The standard setting of the ventilator voltage is 6.9 V. In critical areas the ventilator voltage can be switched from 6.9 V to 9 V by removing the jumper JU1 in order to increase the transport speed in the pipe system and thus to guarantee a quicker detection in case of greater pipe lengths.
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® TITANUS PRO·SENS TECHNICAL MANUAL 5.3.1.9 Connecting the ventilator The electrical connection of the ventilator is made via terminal block X5 (FAN) ® on the base board of TITANUS PRO·SENS connect the red connecting lead of the ventilator with terminal block X5 / clip 1 (+) connect the black connecting lead of the ventilator with terminal block X7 / clip 2 (-)
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® TITANUS PRO·SENS TECHNICAL MANUAL ® 5.3.1.10 Setting of ventilator voltage at TITANUS PRO·SENS Fig. 5.5: Switching the fan voltage and fan connection terminal board on the FC- 2 or FC-3 fan control circuit board The default setting for the fan voltage is 6.9 V. The fan voltage can be adjusted according to project planning by plugging or removing the BR 1 and/or BR 2 bridges.
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® TITANUS PRO·SENS TECHNICAL MANUAL The JU 1 bridge on the base board must always be removed. ATTENTION Conduct the air flow initialisation again if you change the fan voltage. Only close or open the BR 1 and BR 2 bridges when the device is turned off. ATTENTION Page 82...
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® TITANUS PRO·SENS TECHNICAL MANUAL ® 5.3.1.11 Connecting the ventilator to the TITANUS PRO ·SENS The electrical connection of the fan control circuit board is made via terminal ® block X5 (FAN) on the base board (see fig. 5.3) of TITANUS PRO·SENS The electrical connection of the ventilator is made via terminal block X1 (FAN) on the fan control circuit board (see fig.
® TITANUS PRO·SENS TECHNICAL MANUAL Installation of the reset board ® The reset board can be installed into TITANUS PRO·SENS as an option. If ® several TITANUS PRO·SENS are connected to one detection line the reset ® board is only installed to the last TITANUS PRO·SENS on the detection line.
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® TITANUS PRO·SENS TECHNICAL MANUAL ® Fig. 5.6: Installation of the reset board in TITANUS PRO·SENS ® ® Installation TITANUS In order to install the reset board in TITANUS PRO · SENS the following steps are to be followed: Carefully unlock the snap-in closures of the housing using a screwdriver by simultaneously pressing in both clips located at one side of the housing lid.
® TITANUS PRO·SENS TECHNICAL MANUAL Mounting Location ® 5.5.1 Fixing of the air sampling system TITANUS PRO·SENS Mount the air sampling system in such a way that the displays are clearly visible. Screw the air sampling smoke detection system either directly to the wall with its bottom casing or mount it by means of a special support (refer to 2.2.5 "Device Support").
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® TITANUS PRO·SENS TECHNICAL MANUAL The distances of the holes are given in the following figures Distances of the holes (all dimensions in mm). ® Fig. 5.8: TITANUS hole-spacing without support Fig. 5.9: Hole distances of the support type MT-1 Page 87...
® TITANUS PRO·SENS TECHNICAL MANUAL 5.5.2 Connection of the air sampling pipe Fig. 5.10: Connection of the air sampling pipe to the air sampling smoke ® detection system TITANUS PRO·SENS In order to connect the air sampling pipe to TITANUS Connection of ®...
® TITANUS PRO·SENS TECHNICAL MANUAL Electrical connection In order to prepare the electrical connections follow the steps below: 1. Break through the required cable entries e.g. by means of a screwdriver. 2. Attach the plastic connection pieces M 20 or M 25 to the cable entries. 3.
® TITANUS PRO·SENS TECHNICAL MANUAL 5.6.1 Connection to F.D.C.I.E. , with reset button The relay contacts on the base board can be used to e.g. connect TITANUS ® to a fire detection control and indicating equipment, to trigger PRO·SENS signalling devices, security management systems etc. It is also possible to connect a response indicator.
® TITANUS PRO·SENS TECHNICAL MANUAL ® 5.6.2 Connection of several TITANUS PRO·SENS with reset button Fig. 5.12: Example of the connection of several TITANUS PRO · SENS® without fire detection control and indicating equipment, with reset button Page 91...
® TITANUS PRO·SENS TECHNICAL MANUAL 5.6.3 Connection to F.D.C.I.E., with reset board Fig. 5.13: Example of the connection of TITANUS PRO · SENS® with fire detection control and indicating equipment and reset board The fault display is to be set to "non-latched" (refer to section 5.3.1.5). ATTENTION Page 92...
® TITANUS PRO·SENS TECHNICAL MANUAL Installation of the second detector module Fig 5.14: Installation of the second detector module Only carry out the following work if the device is current-free. With a slot screwdriver, carefully undo the snap-in closures of the housing by simultaneously pressing in the clips located on one side.
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® TITANUS PRO·SENS TECHNICAL MANUAL Ensure that the position of the marker is correct before plugging the flat cable into the base board. INSTRUCTION Connect the display board with the base board. Connection: X4 DISPLAY Before initialisation, operating power must be restored. Press the Flow-Init button at the detector module in order to initialise the pipe system.
® TITANUS PRO·SENS TECHNICAL MANUAL Response indicator -electrical connection Connect the response indicator via the terminal block X6 on the base board in ® TITANUS PRO·SENS Note the permissible cable cross sections of the corresponding screw joints and the permissible wire cross sections of the terminals (refer to chapter 3 "Technical Data").
® TITANUS PRO·SENS TECHNICAL MANUAL Data Log The device can be tested with the diagnostic software DIAG 3. Besides the current air flow sensor data, different status values can be read out, which help the service technician to easily recognise modified operating conditions. Air flow and smoke level values can be read out on site with a laptop.
® TITANUS PRO·SENS TECHNICAL MANUAL Installation Pipe System The pipes and fittings used for the pipe system must always meet requirements for Class 1131 in accordance with EN 61386-1, 2004. Class 1131 puts the following requirements on the pipe system used: characteristics severity code compression resistance...
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® TITANUS PRO·SENS TECHNICAL MANUAL Installation instructions The pipe system must be designed according to the requirements of the project and the pipe design guidelines (see chapter 4 "Pipe Design"). 1. Cut the pipes with a pipe cutter or a metal saw. Chips must be removed and rough edges trimmed.
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® TITANUS PRO·SENS TECHNICAL MANUAL Do not use pipe clips with rubber cores as these do not expand lengthwise and the pipes would sag or crack. INSTRUCTION 5. Close open pipe ends with end caps. After pipe installation is complete, check for the following: - air tightness (eg due to damage) - any faulty connections INSTRUCTION...
® TITANUS PRO·SENS TECHNICAL MANUAL Linear expansion of the pipe system Linear expansions (lengthenings or shortenings) of the pipes are caused by variations in temperature. An increase in temperature results in a lengthening of the pipe and a decrease in temperature in a shortening of the pipe. This is especially important if the mounting temperature of the pipe system differs considerably in comparison to its operating temperature.
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® TITANUS PRO·SENS TECHNICAL MANUAL There are two fixing points for the plastic pipe clip CLIC-PA when installing the pipes: Position 1 (first locking into place): Fixes the pipe so that a linear expansion is possible (used in deep freeze areas, if necessary).
® TITANUS PRO·SENS TECHNICAL MANUAL Patented air sampling points Fig. 6.2: Example of an air sampling hole with an aspiration-reducing film sheet Air Sampling Points The layout of the air sampling points (air sampling hole) is to be designed according to the requirements of the project and the guidelines of the pipe design.
® TITANUS PRO·SENS TECHNICAL MANUAL Ceiling lead through Fig. 6.4: Mounting of the ceiling lead through The following steps are necessary for the mounting of the ceiling lead through: Before gluing remove dirt and grease from the pipe using an appropriate cleaning agent.
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® TITANUS PRO·SENS TECHNICAL MANUAL The aspiration-reducing film sheets are available in two colours. According to the ceiling colour the aspiration-reducing film sheets of the type AFW-x (pure white, RAL 9010) or type AF-x (papyrus white, RAL 9018) can be used. If required specially colour film sheets are available. The perforation of the aspiration-reducing film sheet is to be placed exactly on the opening of the ceiling lead through.
® TITANUS PRO·SENS TECHNICAL MANUAL Monitoring in forced air flow systems (ventilation or climatic applications) 6.4.1 Detection at air inlets/outlets If aspiration takes place in a forced air flow system (ventilator, climatic systems), the air sampling points must be positioned in the air flow. Place the air sampling points as shown in fig.
® TITANUS PRO·SENS TECHNICAL MANUAL Filter 6.5.1 Installation of the air Filter type LF-AD-x Fig. 6.7: Distances of the drill holes in the bottom of the air filter housing To fit the filter into the pipe systems use the two PG29-screw joints of Air filter LF-AD-x filter.
® TITANUS PRO·SENS TECHNICAL MANUAL 6.5.2 Mounting of the special filter type SF-400/650 Fig. 6.8: Mounting of the special filter into the pipe system Special Filter SF-x In order to install or de-install the special filter use the two PVC reducing couplings at both filter ends.
® TITANUS PRO·SENS TECHNICAL MANUAL Air return Fig. 6.9: Mounting of the air return Remove the pre-punched pipe lead-through in the protection grid of the air outlet opening (e.g. by means of a small side cutter). Pass the air return through the opened pipe lead-through in the protection grid and fix it through the air outlet opening of TITANUS ®...
® TITANUS PRO·SENS TECHNICAL MANUAL Noise suppressor Fig. 6.10: Mounting of noise suppressor Remove the pre-punched pipe lead-through in the protection grid of the air outlet (e.g. with a small side cutter). Pass the pipe (∅ 25mm) through the opened feed-through in the protection grid and fix it with the existing pipe collar in the air outlet ®...
® TITANUS PRO·SENS TECHNICAL MANUAL 3-Way ball valve Fig. 6.11: Installation of 3-way ball valve The ball valve is required for blowing-through with compressed air (preferably). The ball valve switches between fire detection (position 0° ) and blowing-through (position 180° ). Connect the ball valve to the pipe system by means of the screw joints.
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® TITANUS PRO·SENS TECHNICAL MANUAL The following steps should be taken for the blow-through process of the pipe system: 1. Connect the compressed air supply (compressor or mobile blow-through device), which is necessary for the blow-through of the pipe system, to the 3-way socket ball valve via the quick-acting coupling sleeve of the blown- through pipe system.
® TITANUS PRO·SENS TECHNICAL MANUAL Steam trap Fig. 6.12: Mounting of the steam trap to the pipe system The steam trap is installed at the deepest point of the pipe system in front of the ® air filter and TITANUS PRO·SENS .
® TITANUS PRO·SENS TECHNICAL MANUAL 6.10 Detonation prevention device Fig. 6.13: Mounting of the detonation prevention device to the pipe system and to the air return The detonation prevention devices are installed at a minimum distance of 1 m from the air sampling smoke detection system into the pipe system and into the air return.
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® TITANUS PRO·SENS TECHNICAL MANUAL It is necessary to use thread sealing tape or thread sealing agent to make a gas-tight connection between the detonation prevention device and the steel pipe/reducing screw joint. During the installation of the detonation prevention device the air flow INSTRUCTION direction plays a secondary role.
® TITANUS PRO·SENS TECHNICAL MANUAL 6.11 Test adapter Fig. 6.14: Mounting of the test adapter at the pipe system The test adapter is glued into the pipe system near the air sampling smoke detection system. For standard operation the test adapter has always to be closed.
® TITANUS PRO·SENS TECHNICAL MANUAL Commissioning During commissioning, the inspection protocol must be filled out (see appendix). This will be needed for later evaluation of data such as air flow value, type of adjustment (see chapter 7.1), commissioning temperature, air pressure and height above sea level.
® TITANUS PRO·SENS TECHNICAL MANUAL Air flow sensor adjustment ® In order to adjust TITANUS PRO·SENS correctly for the connected pipe system, the device must have been operating for at least 30 minutes. INSTRUCTION Adjustment types • The air flow sensor adjustment can be independent of the current air pressure (refer to chapter 7.1.1 "Adjustment Independent of the Air Pressure").
® TITANUS PRO·SENS TECHNICAL MANUAL 7.1.1 Adjustment independent of the air pressure Fig. 7.2: Adjustment independent of the air pressure of the air flow sensor of ® TITANUS PRO · SENS Make sure the device has been in operation for at least 30 minutes. Check the voltage at the measuring points MP1 (+) and MP4 (-).
® TITANUS PRO·SENS TECHNICAL MANUAL 7.1.2 Adjustment dependent on the air pressure Fig. 7.3: Adjustment dependent on the air pressure of the air flow sensor of ® TITANUS PRO·SENS For the adjustment dependent on the air pressure of the air flow sensor a barometer and a multimeter are necessary.
® TITANUS PRO·SENS TECHNICAL MANUAL Detector module and alarm transmission Trigger the alarm of the detector module and check the transmission to the central fire panel as follows: Spray test aerosol either into the first air sampling point or into the test ®...
® TITANUS PRO·SENS TECHNICAL MANUAL Check air flow monitoring Pipe Fracture Verify the detection of a pipe fracture: ® 1. Loosen the connection between the pipe and TITANUS PRO·SENS or open the test adapter. 2. Verify whether the fault display of the air sampling smoke detection system is lit.
® TITANUS PRO·SENS TECHNICAL MANUAL Check fault signal transmission The following steps can only be effected after the air flow adjustment has been effected according to chapter 7.1 "Adjustment Air Flow Sensor". INSTRUCTION 1. Check the fault signal transmission. Check the air flow monitoring (according to the following section) and verify ®...
® TITANUS PRO·SENS TECHNICAL MANUAL ® Operational check of TITANUS PRO·SENS ® If it is not possible to adjust TITANUS PRO·SENS check the functionality by means of the test pipe and a digital manometer or the diagnostic software. For ® this check TITANUS PRO·SENS must have been in operation for at least 30 minutes.
® TITANUS PRO·SENS TECHNICAL MANUAL 7.5.2 Operational check The operational check can be effected with or without a digital manometer. In the following the complete check is described. If during the operational check of ® TITANUS PRO · SENS the values vary from those given in the following the device or its air flow sensor is damaged.
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® TITANUS PRO·SENS TECHNICAL MANUAL 3. the correct aspiration-reducing film sheets were taped over the air sampling points. After adjusting the air flow sensors (chapter 7.1 “Air Flow Sensor Adjustment”), no further alterations on the pipe system must be made. If later alterations become necessary, the air flow sensor must again be adjusted.
® TITANUS PRO·SENS TECHNICAL MANUAL Maintenance Visual Check Check whether... • the pipe system is easily accessible, undamaged and mounted tightly, • the air sampling points of the pipe system are unblocked. • the air sampling pipe and the connection cable are connected tightly. •...
® TITANUS PRO·SENS TECHNICAL MANUAL Checking dector module and alarm transmission Proceed according to chapter 7.2 "Detector Module and Alarm Transmission". In addition, check the detector module through visual check for external dirt and damage and, if necessary, exchange it. A hardware defect of the detector module is displayed through the permanently lit detector module LED.
® TITANUS PRO·SENS TECHNICAL MANUAL Exchange of detector module Fig. 8.1: Exchange of the detector module Carry out the following steps only if the device is powered down. Carefully unlock the snap-in closures of the housing using a screwdriver by simultaneously pressing in both clips located at one side of the housing lid.
® TITANUS PRO·SENS TECHNICAL MANUAL Changing the air filter LF-AD -x Fig. 8.2: change the filter inserts To change the filter inserts, carry out the following steps (see fig. 8.2): Loosen the four screws and remove the housing lid. Remove the filter inserts and check how soiled they are. The inserts can be cleaned if there is a small amount of soiling and must be replaced if soiling is heavy Carefully clean the inside of the housing from dust deposits.
® TITANUS PRO·SENS TECHNICAL MANUAL Changing special air filter SF-400/650 Fig. 8.3: Exchange of filter element Follow these steps to change the filter elements: (see Fig 8.3): Loosen the PVC screw joints on the special filter and remove it Remove the two screw-in plugs on the filter housing. Remove the filter element.
® TITANUS PRO·SENS TECHNICAL MANUAL Check of the air flow sensor adjustment Check the air flow adjustment using the diagnostic software. Function Principle During initialization of the connected pipe system the device stores first via the integrated air flow sensor technology the measured current value of the air flow as rated value.
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® TITANUS PRO·SENS TECHNICAL MANUAL Clearance air flow fault If the air flow sensor adjustment has been effected in dependence on the air pressure and the measured value is not within the tolerance range of the selected air flow threshold (air flow fault is indicated at the device), another fault other than those caused by air pressure or temperature variations is present.
® TITANUS PRO·SENS TECHNICAL MANUAL Check air flow monitoring A pipe fracture or pipe blockage shows for each detector module via a flash code LED on the base board. Proceed according to chapter 7.3 "Air Flow Monitoring". 8.10 Check fault signal transmission ®...
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® TITANUS PRO·SENS TECHNICAL MANUAL Projection Tables Projection without filter M =Module S = Sensitivity (% Lt/m) HA = Fire alarm VA = Action alarm Number of points 0.015 0.03 0.015 0.06 0.12 without pipe accessories Pipe shape ≥9 ≥9 ≥9 Double U ≥9...
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® TITANUS PRO·SENS TECHNICAL MANUAL with detector box and/or VSK Pipe shape ≥9 ≥9 ≥9 Double U ≥9 with OXY⋅ ⋅ ⋅ ⋅ SENS® ® ® ® or steam trap 1) Pipe shape ≥9 ≥9 ≥9 Double U ≥9 Page 143...
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® TITANUS PRO·SENS TECHNICAL MANUAL with detonation prevention device Pipe shape ≥9 ≥9 ≥9 Double U ≥9 available for following pipe accessories: OXY⋅SENS® and/or DM-MB-TM-XX and/or KA-DN 25 available for following pipe accessories: Detonation prevention device EG IIx and/or KA-DN 25 Detonation prevention device EG IIx and/or DM-MB-TM-XX...
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® TITANUS PRO·SENS TECHNICAL MANUAL Projection with air filter LF-AD M = Module S = Sensitivity (% Lt/m) HA = Fire alarm VA = Action alarm Number of points 0.015 0.03 0.015 0.06 0.12 without additional pipe accessories Pipe shape ≥9 ≥9 ≥9...
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® TITANUS PRO·SENS TECHNICAL MANUAL with detector box and/or VSK Pipe shape ≥9 ≥9 ≥9 Double U ≥9 with OXY⋅ ⋅ ⋅ ⋅ SENS® ® ® ® or steam trap 1) Pipe shape ≥9 ≥9 ≥9 Double U ≥9 Page 146...
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® TITANUS PRO·SENS TECHNICAL MANUAL with detonation prevention device Pipe shape ≥9 ≥9 ≥9 Double U ≥9 available for following pipe accessories: and/or DM-MB-TM-XX OXY⋅SENS® OXY⋅SENS® and/or and/or DM-MB-TM-XX and/or KA-DN 25 and/or DM-MB-TM-XX available for following pipe accessories: Detonation prevention device EG IIx and/or KA-DN 25 Detonation prevention device EG IIx...
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® TITANUS PRO·SENS TECHNICAL MANUAL Projection with air filter LF-AD-1 M = Module S = Sensitivity (% Lt/m) HA = Fire alarm VA = Action alarm Number of points 0.015 0.03 0.015 0.06 0.12 without additional pipe accessories Pipe shape ≥9 ≥9 ≥9...
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® TITANUS PRO·SENS TECHNICAL MANUAL with detector box and/or VSK Pipe shape ≥9 ≥9 ≥9 Double U ≥9 with OXY⋅ ⋅ ⋅ ⋅ SENS® ® ® ® or steam trap 1) Pipe shape ≥9 ≥9 ≥9 Double U ≥9 Page 149...
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® TITANUS PRO·SENS TECHNICAL MANUAL with detonation prevention device Pipe shape ≥9 ≥9 ≥9 Double U ≥9 available for following pipe accessories: and/or DM-MB-TM-XX OXY⋅SENS® OXY⋅SENS® and/or and/or DM-MB-TM-XX and/or KA-DN 25 and/or DM-MB-TM-XX available for following pipe accessories: Detonation prevention device EG IIx and/or KA-DN 25 Detonation prevention device EG IIx...
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® TITANUS PRO·SENS TECHNICAL MANUAL Projection with air filter LF-AD-2 M = Module S = Sensitivity (% Lt/m) HA = Fire alarm VA = Action alarm Number of points 0.015 0.03 0.015 0.06 0.12 without additional pipe accessories Pipe shape ≥9 ≥9 ≥9...
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® TITANUS PRO·SENS TECHNICAL MANUAL with detector box and/or VSK Pipe shape ≥9 ≥9 ≥9 Double U ≥9 with OXY⋅ ⋅ ⋅ ⋅ SENS® ® ® ® or steam trap 1) Pipe shape ≥9 ≥9 ≥9 Double U ≥9 Page 152...
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® TITANUS PRO·SENS TECHNICAL MANUAL with detonation prevention device Pipe shape ≥9 ≥9 ≥9 Double U ≥9 available for following pipe accessories: OXY⋅SENS® and/or DM-MB-TM-XX and/or and/or DM-MB-TM-XX OXY⋅SENS® and/or KA-DN 25 and/or DM-MB-TM-XX available for following pipe accessories: Detonation prevention device EG IIx and/or KA-DN 25 Detonation prevention device EG IIx...
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® TITANUS PRO·SENS TECHNICAL MANUAL Projection with air filter SF-400 / SF-650 M = Module S = Sensitivity (% Lt/m) HA = Fire alarm VA = Action alarm Number of points 0.015 0.03 0.015 0.06 0.12 without additional pipe accessories Pipe shape ≥9...
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® TITANUS PRO·SENS TECHNICAL MANUAL with detector box Pipe shape ≥9 ≥9 ≥9 Double U ≥9 with OXY⋅ ⋅ ⋅ ⋅ SENS® ® ® ® or steam trap 1) Pipe shape ≥9 ≥9 ≥9 Double U ≥9 Page 155...
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® TITANUS PRO·SENS TECHNICAL MANUAL with detonation prevention device Pipe shape ≥9 ≥9 ≥9 Double U ≥9 available for following pipe accessories: OXY⋅SENS® KA-DN 25 and/or and/or DM-MB-TM-XX available for following pipe accessories: KA-DN 25 and/or and/or DM-MB-TM-XX and/or OXY⋅SENS® Detonation prevention device EG IIx and/or KA-DN 25...
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® TITANUS PRO·SENS TECHNICAL MANUAL ® Commissioning protocol for TITANUS PRO·SENS device number serial number Commissioning visual check ( / –) depression [Pa] sensitivity [%/m] alarm delay [sec] fault delay [min] (small/medium/ activating threshold large/very large) fault latched (yes/no) LOGIC · SENS (yes/no) adjustment dependent on the air pressure (yes/no)
® TITANUS PRO·SENS TECHNICAL MANUAL Glossary Technical Term Definition aerosol An aerosol is a floating particle in the microscopic also: smoke aerosol or submicroscopic particle size range. They consist of unburned parts of the fire load, intermediate products of the oxidation and finely divided carbon (soot).
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® TITANUS PRO·SENS TECHNICAL MANUAL with which phenomena are detected and indicated for whose perception a detection system is used. detector group Collection of smoke detectors in a → → → → detection line for which an own display in the → → → → central fire panel is installed.
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® TITANUS PRO·SENS TECHNICAL MANUAL ® line module By means of line modules (AnalogPLUS ® interactive) TITANUS PRO · SENS can be ® connected to the AlgoRex -smoke detection system. LOGIC·SENS Through the LOGIC·SENS switch the intelligent signal processing can be activated. It allows an analysis of the measured smoke level by comparing smoke...
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® TITANUS PRO·SENS TECHNICAL MANUAL two-detector dependency System to verify alarm states. The fire alarm is activated after two detectors of a → → → → detector group have been actuated. When the first detector has been actuated an internal alarm or a control function can be activated.
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(HEAD OFFICE) UNCONTROLLED DOCUMENT NOTE: Due to AMPAC’s commitment to continuous improvement specifications may change without notice. Version 1.0 Sept 2013...
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