Halma Ampac TITANUS PRO-SENS Technical Manual

Aspirating smoke detector

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Fire detection and evacuation solutions that save lives.

Aspirating smoke detector

TITANUS PRO·SENS®

Technical Manual

MAN3184

Table of Contents

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Page 1 Fire detection and evacuation solutions that save lives. Aspirating smoke detector TITANUS PRO·SENS® Technical Manual MAN3184...
Page 2: Table Of Contents
MAN3184 - TITANUS PRO•SENS® Contents 1 General information ............................ 5 Introduction ............................5 Safety notices........................... 5 Warranty ............................6 Copyright............................6 Packaging ............................6 Environmental protection ........................7 Instructions for the operating company ..................... 7 2 Product description ............................. 8 Characteristics ..........................
Page 3 MAN3184 - TITANUS PRO•SENS® 5.2.4 Opening diameter ........................ 63 Special project planning ........................67 5.3.1 Project planning with single hole monitoring ................. 67 5.3.2 Simplified pipe project planning .................... 75 5.3.3 Project planning with stubs ....................79 5.3.4 Project planning with pipe supply lines Ø > 25 mm ............... 82 5.3.5 Project planning with acceleration openings .................
Page 4 MAN3184 - TITANUS PRO•SENS® 7.10.1 Condensate separator type KA-DN-25 ................148 7.10.2 Condensate separator type KA-1 ..................149 7.11 Installation of detonation prevention device ................... 150 7.12 Test adapter ..........................152 8 Commissioning ............................153 Airflow sensor calibration ......................153 8.1.1 Air pressure-independent calibration ..................
Page 5: General Information
MAN3184 - TITANUS PRO•SENS® 1 General information 1.1 Introduction This manual is intended for installers of fire alarm systems. It includes primarily engineers, service technicians, fitters etc. that have expertise in the field of fire alarm technology, but might be working with this device for the first time.
Page 6: Warranty
MAN3184 - TITANUS PRO•SENS® 1.3 Warranty This manual may be subject to technical changes without prior notice and makes no claim to completeness. The our “Delivery and installation conditions” apply as a matter of principle. Guarantee and liability claims in the case of personal injuries and damage to property cannot be asserted if they are based on one or more of the following causes: ▪...
Page 7: Environmental Protection
MAN3184 - TITANUS PRO•SENS® The packaging material is to be disposed of in accordance with applicable statutory provisions and local regulations. ▪ Dispose of the packaging materials in an environmentally friendly manner. ▪ Observe local disposal regulations. NOTICE Packaging materials are valuable raw materials and can be re-used in many cases or treated and recycled.
Page 8: Product Description
MAN3184 - TITANUS PRO•SENS® 2 Product description 2.1 Characteristics TITANUS PRO·SENS® is a tried-and-tested WAGNER aspirating smoke detector. In addition to monitoring rooms and equipment, the TITANUS PRO·SENS® can be used to monitor air conditioning units or ducts. Sensitivity The device has a response sensitivity of 0.5%/m light obscuration, 0.1%/m light obscuration or 0.015%/m light obscuration.
Page 9 MAN3184 - TITANUS PRO•SENS® The aspiration apertures of the system are equivalent to point-type smoke Point-type detector project detectors. The monitoring areas can therefore be planned in accordance planning with the currently valid national directives. Diagnostics A diagnostic software system is available for maintenance and servicing. This enables quick and convenient fault identification.
Page 10: Areas Of Application
MAN3184 - TITANUS PRO•SENS® 2.2 Areas of application The TITANUS PRO·SENS® is an aspirating smoke detector used for early fire and very early fire detection in rooms and facilities. Principle Air samples are taken from the monitored area using a pipe system with defined aspiration apertures and supplied to the detector module.
Page 11 MAN3184 - TITANUS PRO•SENS® Room monitoring The TITANUS PRO·SENS® is suitable e.g. for the monitoring of rooms with, e.g.: ▪ Raised floors, suspended ceilings ▪ Tunnels, channels, difficult-to-reach hollow spaces ▪ Warehouses, high-bay warehouses, lift shafts ▪ Museums, cultural facilities ▪...
Page 12 MAN3184 - TITANUS PRO•SENS® Room monitoring is achieved: Room monitoring with air conditioning ▪ In rooms with air conditioning for server rooms etc. ▪ On ventilation ducts ▪ Over raised floors, suspended ceilings ▪ In IT rooms, e‑distributor rooms, transformer cells ▪...
Page 13 MAN3184 - TITANUS PRO•SENS® System monitoring The TITANUS PRO·SENS® is suitable e.g. for the monitoring of un- ventilated and forced-ventilated units/cabinets, for example: ▪ Distributor cabinets, control cabinets ▪ Telephone exchange installations ▪ Measuring and control systems. Figure 3: Principle of system monitoring The TITANUS PRO·SENS®...
Page 14: Technical Description
MAN3184 - TITANUS PRO•SENS® 3 Technical description 3.1 System description The TITANUS PRO·SENS® comprises a basic device and a pipe system. As the most important component, the basic unit contains the sensitive detector module for identification of smoke aerosols and the aspiration unit for the transport of air samples to the detector module with integrated airflow sensor, in order to monitor the pipe system for break and blockage.
Page 15: Function
MAN3184 - TITANUS PRO•SENS® 3.1.1 Function Air samples are taken from the monitored area using a aspiration unit in the basic unit via a pipe system with defined aspiration apertures, and supplied to the sensitive detector module. Detector module Depending on the response sensitivity of the detector module used (optionally up to 0.5%/m light obscuration, 0.1%/m light obscuration or 0.015%/m light obscuration), the main alarm is triggered on the TITANUS PRO·SENS®...
Page 16 MAN3184 - TITANUS PRO•SENS® After expiry of a delay time that can be programmed via a switch, the fault is shown on the aspirating smoke detector and the message is passed onto a connected fire detection control panel via a fault contact. The thresholds for the monitoring window can be adapted to the ambient conditions.
Page 17 MAN3184 - TITANUS PRO•SENS® Relay output The TITANUS PRO·SENS® has a potential-free switch contact per detector module for each alarm level and for the collective fault. This means that the aspirating smoke detector can be switched to collective and addressable detector lines of any FDCP (using the addressing modules of the respective FDCP).
Page 18: Titanus Pro·sens® And Accessories
MAN3184 - TITANUS PRO•SENS® 3.2 TITANUS PRO·SENS® and accessories 3.2.1 Overview Figure 6: Structure and accessory components The components illustrated in the overview can be used optionally.
Page 19: Titanus Pro·sens® Basic Device
MAN3184 - TITANUS PRO•SENS® 3.2.2 TITANUS PRO·SENS® basic device The TITANUS PRO·SENS® basic device comprises the following components: ▪ Plastic housing – Plastic attachment nozzles – Connection for pipe with 25 mm outer diameter – Integrated pipe return ▪ Aspiration unit with optimised air supply ▪...
Page 20: Detector Box
MAN3184 - TITANUS PRO•SENS® Item Function Explanation Operation (green LED) Operating indicator Alarm (red LED) Alarm display Fault (yellow LED) Failure of the fan or pipe system/detector module fault Cable gland for fire alarm cable 5x M20 Connection for air return pipe For air return Cable gland for fire alarm cable 2x M25...
Page 21 MAN3184 - TITANUS PRO•SENS® Figure 9: Function principle with detector box for dual detection dependency Figure 10: Function principle with detector boxes to localise and increase the response sensitivity The detector box consists of the following components: ▪ Device base –...
Page 22 MAN3184 - TITANUS PRO•SENS® ▪ Detection unit (in the housing cover) – Sensitive detection according to the principle of visual scattered light smoke detectors – Potential-free contacts for connection to a FDCP – LEDs for main alarm, pre-alarm (optional), fault and operation –...
Page 23: Diagnostics
MAN3184 - TITANUS PRO•SENS® Item Components Description Smoke level indicator 1 to 10 Current smoke level (10 yellow LEDs) Operation (green LED) Operating indicator Main alarm (red LED) 100% smoke level Pre-alarm 1) (red LED) 66% smoke level Fault (yellow LED) Detection unit fault Infrared interface Commissioning and fault diagnostics...
Page 24: Response Indicator
MAN3184 - TITANUS PRO•SENS® Diagnostic messages are stored in the diagnostic software for at least three days in order to allow analysis of short, sporadic faults (e.g. changed operating conditions). Device reset using the diagnostic software results in all diagnostic messages being deleted. Furthermore, the software allows fault messages to be deleted.
Page 25: Device Brackets
MAN3184 - TITANUS PRO•SENS® 3.2.6 Device brackets Figure 15: Bracket for the TITANUS PRO·SENS® The TITANUS PRO·SENS® can be directly mounted on a wall. Additional brackets can be delivered if required e. g. for fixing to shelf racks.
Page 26: Pipe System
MAN3184 - TITANUS PRO•SENS® 3.3 Pipe system 3.3.1 Entire overview of available pipe components Figure 16: Pipe system components The accessory components shown in the figure are to be selected for the corresponding individual application and can be used in combination.
Page 27: Air Jet Equipment
MAN3184 - TITANUS PRO•SENS® 3.3.2 Air jet equipment In areas with an increased occurrence of dust particles or freezing conditions, it may be necessary to clear out the pipe system and its aspiration apertures. The figures show the components of each manual and automatic air jet equipment.
Page 28: Aspiration Apertures For Room Monitoring
MAN3184 - TITANUS PRO•SENS® 3.3.3 Aspiration apertures for room monitoring 3.3.3.1 Aspiration reducing film sheets Figure 19: Aspiration apertures with aspiration reducing film sheet and sleeve A aspiration aperture is a 10 mm drill hole in the aspiration pipe which is covered with an aspiration reducing film sheet with the required opening diameter.
Page 29 MAN3184 - TITANUS PRO•SENS® 3.3.3.2 Aspiration reducing clips Figure 20: Aspiration reduction for areas with excessive dirt and deep freeze applications The aspiration apertures in areas where blockages can be anticipated must be equipped with a plastic clip type AK‑C and a flexible aspiration reducer type AK‑x.
Page 30: Ceiling Duct For Concealed Installation
MAN3184 - TITANUS PRO•SENS® 3.3.4 Ceiling duct for concealed installation Figure 21: Ceiling duct for the suspended ceiling Aesthetics Fitting in suspended ceilings is possible if concealed installation of the pipe system is required for room monitoring. Ceiling ducts are placed in the suspended ceiling.
Page 31 MAN3184 - TITANUS PRO•SENS® Figure 22: Capillary hose and upstream panel installation The aspiration hoses with upstream aspiration reduction in T-pieces (pipe hoods) can be used for concealed installation in e.g. lamps or plastering.
Page 32: Air Filters For Areas With Excessive Dirt
MAN3184 - TITANUS PRO•SENS® 3.3.5 Air filters for areas with excessive dirt Figure 23: TITANUS PRO·SENS® with air filter In areas with disturbing ambient influences, e.g. dust, an air filter can be used to protect the device's detector module. Air filter type LF-AD-x Air filter type LF-AD-x, consisting of a plastic housing with two pipe connections, is used as a standard air filter.
Page 33 MAN3184 - TITANUS PRO•SENS® Special filter type SF‑x In case of excessive dirt, special filter type SF‑400 or type SF‑650 with a larger surface is available. The special filter ensures reliable filtration of dust and dirt particles. The particles are reliably separated and permanently withheld from the filter medium.
Page 34 MAN3184 - TITANUS PRO•SENS® Figure 25: Filter type LF-AD in multiple aspiration branches Instead of an air filter in the main aspiration branch, an air filter can be installed in each descending branch to extend the maintenance intervals. The same project planning specifications as defined in the annexed project planning table apply.
Page 35: Air Return For Pressure Areas And Air Pollution
MAN3184 - TITANUS PRO•SENS® Moreover, multiple air filters can be installed in parallel in the main aspiration branch to extend the maintenance intervals. For this purpose, the main aspiration branch must be partitioned into two or several branches and each equipped with the same air filter or air filter combination.
Page 36: Silencer
MAN3184 - TITANUS PRO•SENS® Figure 28: TITANUS PRO·SENS® with air return The air return pipe is connected directly to the air outlet duct inside the TITANUS PRO·SENS® through the exhaust vent. The pre-stamped opening in the safety guard has to be broken away. A secure hold is achieved because the air return pipe fits precisely into the air outlet duct.
Page 37: Condensate Separator For Humid Areas
MAN3184 - TITANUS PRO•SENS® 3.3.8 Condensate separator for humid areas If the TITANUS PRO·SENS® is operated in environments where condensate can form in the pipe system, a condensate separator is used. The condensate separator is placed at the lowest point of the pipe system between the air filter and aspirating smoke detector to collect the condensate.
Page 38: Detonation Prevention Device
MAN3184 - TITANUS PRO•SENS® Figure 31: Condensate separator type KA-1 Automatic condensate separation is possible due to a capillary effect thanks to an integrated cotton wick. The condensate separator can be operated within a temperature range of 0 °C … +60 °C. 3.3.9 Detonation prevention device Figure 32: Detonation protector Due to the additional installation of detonation protectors in the pipe system,...
Page 39 MAN3184 - TITANUS PRO•SENS® The vapour/air or gas/air mixture flow through the detonation protector during normal operation. The flow can occur in any direction. If the existing mixture ignites in the TITANUS PRO·SENS®, the resulting detonation is stopped. Ignition (nominal gap width) is prevented by the flame filters. If the mixture is burnt off at the flame filters, it can result in a blowback of the detonation front.
Page 40 MAN3184 - TITANUS PRO•SENS® ▪ The occurrence of ignitable discharges (from experience) ▪ The pipe system configuration ▪ The aspiration aperture configuration ▪ The earthing concept. The aspiration apertures can either have aspiration reducing film sheets and sleeves or aspiration reducing clips or be drilled directly into the pipe system in the corresponding size.
Page 41: Technical Data
MAN3184 - TITANUS PRO•SENS® 4 Technical data NOTICE All current consumptions specified refer to an ambient temperature of 20 °C. 4.1 Device TITANUS PRO·SENS® TITANUS PRO·SENS® 2 Voltage 14 … 30 Supply voltage (Ue) [V] Nominal supply voltage [V DC] Current Fan voltage U Starting current (at 24 V) [mA]...
Page 42 MAN3184 - TITANUS PRO•SENS® TITANUS PRO·SENS® TITANUS PRO·SENS® 2 Housing Material Plastic (ABS) Colour Papyrus white, RAL 9018 Temperature range -20 … +60 [°C] -40 … +60 Deep freeze version [°C] Humidity 10 … 95 Non-condensing [% RH] Design Radial Fan service life (12 V) 43,500 h at 24 °C Displays on the device...
Page 43 MAN3184 - TITANUS PRO•SENS® TITANUS PRO·SENS®-SL TITANUS PRO·SENS® 2- Voltage 14 … 30 Supply voltage (Ue) [V] Nominal supply voltage [V DC] Current Fan voltage U [V] of fan control circuit board FC‑2 Starting current (at 24 V) [mA] (without reset circuit board) Current consumption, standby (at 24 V) [mA] (without reset circuit board)
Page 44 MAN3184 - TITANUS PRO•SENS® Protection class IP code in accordance with IEC/DIN IP20 EN 60529 Impact resistance In accordance with IEC/EN 62262, EN IK04 50102 Housing Material Plastic (ABS) Colour Papyrus white, RAL 9018 Temperature range 0 … +40 [°C] Humidity 10 …...
Page 45: Pipe System
MAN3184 - TITANUS PRO•SENS® 4.2 Pipe system TITANUS PRO·SENS® TITANUS PRO·SENS® 2 TITANUS PRO·SENS®-SL TITANUS PRO·SENS® 2- Max. pipe length [m] Max. number of aspiration apertures [piece] Max. monitoring area [m 3000 5600 Max. length of aspiration hose per ceiling duct [m] Temperature range 0 …...
Page 46: Project Planning
MAN3184 - TITANUS PRO•SENS® 5 Project planning 5.1 General information Project planning of the aspirating smoke detector according to AS ISO 7240- 20 is described below. The framework conditions are shown in this chapter. Project planning must be carried out according to the chapter "Pipe project planning".
Page 47: Requirements
MAN3184 - TITANUS PRO•SENS® 5.1.1 Requirements In the following project planning regulation, the corresponding national provisions of the countries must be observed in their respective valid version and project planning must be adapted to these specifications. AS ISO 7240‑20 In order to comply with AS ISO 7240-20, the aspirating smoke detectors must be planned in accordance with the chapter "Project planning guidelines".
Page 48: Pipe System
MAN3184 - TITANUS PRO•SENS® 5.1.2 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. The number of aspiration apertures and the setup of the pipe system complies with the size and geometry of the monitored area.
Page 49 MAN3184 - TITANUS PRO•SENS® Figure 33: Example of a symmetrical and an asymmetrical U-pipe system The previous figure shows an example of a U-pipe system with symmetrical or asymmetrical structure and with the diameters of the aspiration apertures calculated according to the chapter "Standard planning". The diameters of the aspiration apertures are determined for each pipeline branch individually and depend on the number of aspiration apertures on the pipeline branch in question.
Page 50 MAN3184 - TITANUS PRO•SENS® Pipe configurations Depending on the room geometry, 5 pipe configurations can be selected (see fig. "Pipe configurations"). An… ▪ I-pipe is a system without branches. ▪ U-pipe is a pipe system that separates into two branches after connection to the TITANUS PRO·SENS®.
Page 51 MAN3184 - TITANUS PRO•SENS® Figure 34: Pipe shapes...
Page 52 MAN3184 - TITANUS PRO•SENS® Change of direction A change of direction in the pipe system can increase the flow resistance. A gentle change of direction (e.g. with 90° elbow or aspiration hose) is already permissible in the scope of project planning in accordance with AS ISO 7240‑20 and need not be taken into further consideration.
Page 53: Airflow Monitoring
MAN3184 - TITANUS PRO•SENS® 5.1.3 Airflow monitoring AS ISO 7240‑20 requires the detection of a 20% change in the total airflow of the pipe system. In order to accomplish this, the airflow sensor system's triggering threshold must be set to level II. Level I may also be set as an alternative.
Page 54: Sensitivity
MAN3184 - TITANUS PRO•SENS® ▪ The airflow sensor was calibrated depending on the air pressure (see chapter "Air pressure-dependent airflow calibration"). ▪ No large airflow fluctuations can occur. Air pressure differences The same air pressure must be present throughout the aspiration pipe. NOTICE If the aspirating smoke detector and pipe system are located in areas with different air pressure, return of the air drawn in by the...
Page 55 MAN3184 - TITANUS PRO•SENS® The table shows the selectable sensitivity levels of the TITANUS PRO·SENS® Response sensitivity (main alarm) TITANUS PRO·SENS® Detector module Detector module Detector module Type DM‑TT‑50‑L Type DM‑TT‑10‑L Type DM‑TT‑01‑L [% light obscuration/m] [% light obscuration/m] [% light obscuration/m] 0.12 0.4 (standard) 0.06 (standard)
Page 56: Project Planning Limits
MAN3184 - TITANUS PRO•SENS® 5.1.5 Project planning limits The following threshold values must be observed for every connected pipe system: Standard project planning ▪ The minimum pipe length between 2 aspiration apertures is 4 m. ▪ The maximum pipe length between 2 aspiration apertures is 12 m. ▪...
Page 57: Pipe Project Planning
MAN3184 - TITANUS PRO•SENS® 5.2 Pipe project planning 5.2.1 Project planning guidelines The knowledge of specific factors is essential in order to carry out project planning in accordance with AS ISO 7240‑20. These are the requirements for the sensitivity of the TITANUS PRO·SENS®, the number of aspiration apertures and the accessories necessary for the corresponding application.
Page 58: Pipe Accessories
MAN3184 - TITANUS PRO•SENS® ▪ Detector box ▪ Detonation protector ▪ OXY·SENS® Aspiration detector. 5.2.2 Pipe accessories Air filter Type Application Examples LF-AD-k Insects, fibres, hair Coarse filter for separating particles > approx. 30 µm LF-AD Coarse filter for separating Dust, insects, fibres, particles >...
Page 59: Sensitivity And Pipe Project Planning
MAN3184 - TITANUS PRO•SENS® 5.2.3 Sensitivity and pipe project planning 5.2.3.1 Pipe project planning with pipe accessories The following project planning tables are available in the appendix for project planning and for planning pipe systems for each previously selected pipe accessory: ▪...
Page 60 MAN3184 - TITANUS PRO•SENS® Procedure In the following example, project planning without air filters with 8 aspiration apertures fulfills class B with additional use of a condensate separator. The red arrows show the possible project planning for different pipe shapes and fan voltage.
Page 61 MAN3184 - TITANUS PRO•SENS® Figure 36: Example pipe project planning with pipe accessories...
Page 62 MAN3184 - TITANUS PRO•SENS® Results The following modules can be optionally 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: ▪...
Page 63: Opening Diameter
MAN3184 - TITANUS PRO•SENS® 5.2.4 Opening diameter The opening diameter of the aspiration apertures are to be taken from the corresponding table for the respective pipe configuration: I-pipe Figure 37: I-pipe system Number of aspiration apertures Item Punching diameter of the aspiration reducing film sheets [mm]...
Page 64 MAN3184 - TITANUS PRO•SENS® U-pipe Figure 38: U-pipe system Number of aspiration apertures Item Punching diameter of the aspiration reducing film sheets [mm] M-pipe Figure 39: M-pipe system Number of aspiration apertures Item Punching diameter of the aspiration reducing film sheets [mm]...
Page 65 MAN3184 - TITANUS PRO•SENS® Double U-pipe Figure 40: Double U-pipe system Number of aspiration apertures Item Punching diameter of the aspiration reducing film sheets [mm]...
Page 66 MAN3184 - TITANUS PRO•SENS® Quadruple U‑pipe Figure 41: Quadruple U‑pipe system Number of aspiration apertures Item Punching diameter of the aspiration reducing film sheets [mm] * = Distance of the acceleration openings, the distance to the last aspiration aperture can be freely selected.
Page 67: Special Project Planning
MAN3184 - TITANUS PRO•SENS® 5.3 Special project planning 5.3.1 Project planning with single hole monitoring The following system parameters apply to the detection of an individual or a particular number of blocked aspiration apertures, depending on the pipe configuration. The specifications according to the chapter "Pipe project planning" apply for project planning.
Page 68 MAN3184 - TITANUS PRO•SENS® Diameter of aspiration apertures Number of aspiration apertures Item Punching diameter of the aspiration reducing film sheet [mm] 3.8- 3.8- Trigger thresholds Number of aspiration apertures 1 blocked aspiration apertures… 2 blocked aspiration apertures… 3 blocked aspiration apertures…...
Page 69 MAN3184 - TITANUS PRO•SENS® 5.3.1.2 U-pipe system Figure 43: U-pipe system for single hole monitoring Threshold values Min. distance between the device and the T-piece Max. distance between the device and the T-piece 20 m Max. branch lengths 40 m With low fan voltage 6.5 …...
Page 70 MAN3184 - TITANUS PRO•SENS® Diameter of aspiration apertures Number of aspiration apertures Item Punching diameter of the aspiration reducing film sheet [mm] Trigger thresholds Number of aspiration apertures 1 blocked aspiration aperture… 2 blocked aspiration aperture… 3 blocked aspiration aperture… 4 blocked aspiration aperture…...
Page 71 MAN3184 - TITANUS PRO•SENS® 5.3.1.3 M-pipe system Figure 44: M-pipe system for single hole monitoring Threshold values Min. distance between the device and the T-piece Max. distance between the device and the T-piece 20 m Max. branch lengths 30 m With low fan voltage 6.5 …...
Page 72 MAN3184 - TITANUS PRO•SENS® Diameter of aspiration apertures Number of aspiration apertures Item Punching diameter of the aspiration reducing film sheet [mm] Trigger thresholds Number of aspiration apertures 1 blocked aspiration aperture… 2 blocked aspiration aperture… 3 blocked aspiration aperture… 4 blocked aspiration aperture…...
Page 73 MAN3184 - TITANUS PRO•SENS® 5.3.1.4 Double U-pipe system Figure 45: Double U-pipe system for single hole monitoring Threshold values Min. distance between the device and the last T-piece Max. distance between the device and the last T-piece 20 m Max. branch lengths 20 m With low fan voltage 6.5 …...
Page 74 MAN3184 - TITANUS PRO•SENS® Diameter of aspiration apertures Number of aspiration apertures Item Punching diameter of the aspiration reducing film sheet [mm] Trigger thresholds Number of aspiration apertures 1 blocked aspiration aperture… 2 blocked aspiration aperture… 3 blocked aspiration aperture… 4 blocked aspiration aperture…...
Page 75: Simplified Pipe Project Planning
MAN3184 - TITANUS PRO•SENS® 5.3.2 Simplified pipe project planning Simplified project planning is applied in equipment monitoring and in rooms with small dimensions. The advantage in this project planning is the uniform diameters of the aspiration apertures. The specifications according to the chapter "Pipe project planning" apply for project planning.
Page 76 MAN3184 - TITANUS PRO•SENS® 5.3.2.2 U-pipe system Figure 47: U-pipe system for simplified pipe project planning Threshold values Min. distance between the device and the T-piece Max. distance between the device and the T-piece 20 m Max. branch lengths 20 m Max.
Page 77 MAN3184 - TITANUS PRO•SENS® 5.3.2.3 M-pipe system Figure 48: M-pipe system for simplified pipe project planning Threshold values Min. distance between the device and the T-piece Max. distance between the device and the T-piece 20 m Max. branch lengths 20 m Max.
Page 78 MAN3184 - TITANUS PRO•SENS® 5.3.2.4 Double U-pipe system Figure 49: Double U-pipe system for simplified pipe project planning Threshold values Min. distance between the device and the T-piece Max. distance between the device and the T-piece 20 m Max. branch lengths 20 m Max.
Page 79: Project Planning With Stubs
MAN3184 - TITANUS PRO•SENS® 5.3.3 Project planning with stubs Project planning with stubs is suitable for aspiration apertures that are located away from the main path of the pipe system. I branch Y ® TIT ANUS ® TIT ANUS ® TI TANUS ®...
Page 80 MAN3184 - TITANUS PRO•SENS® The stubs must be planned based on the previous figure. The I-pipe project planning configurations shown in the diagram are to be transferred to the individual aspiration branches of other pipe shapes (U-, M-, double U- and quadruple U‑pipe systems).
Page 81 MAN3184 - TITANUS PRO•SENS® If the maximum distance is exceeded, this can be rectified by an additional aspiration aperture on the stub. Note that a maximum of 2 aspiration apertures may be planned on one stub.
Page 82: Project Planning With Pipe Supply Lines Ø > 25 Mm
MAN3184 - TITANUS PRO•SENS® 5.3.4 Project planning with pipe supply lines Ø > 25 mm Projects with long pipe supply lines may only be planned using pipes of Ø 32 mm or Ø 40 mm. NOTICE The national provisions must be observed during project planning. The pipe supply line is described as the pipe system between the aspirating smoke detector and the last T-piece (U-pipe and double U-pipe system) or the 1st aspiration aperture (I-pipe system).
Page 83: Project Planning With Acceleration Openings
MAN3184 - TITANUS PRO•SENS® 5.3.5 Project planning with acceleration openings The use of so-called acceleration openings is required to achieve the maximum pipe project planning. Acceleration openings are additional openings at the end of the pipe system, which aim to reduce the transport time of the smoke in the aspiration pipe.
Page 84 MAN3184 - TITANUS PRO•SENS® 5.3.5.1 I-pipe system Figure 54: I-pipe system with acceleration opening Number of aspiration apertures Item Punching diameter of the aspiration reducing film sheets [mm] AO = acceleration opening = 7.0 mm...
Page 85 MAN3184 - TITANUS PRO•SENS® Number of aspiration apertures Item Punching diameter of the aspiration reducing film sheets [mm] AO = acceleration opening = 7.0 mm...
Page 86 MAN3184 - TITANUS PRO•SENS® 5.3.5.2 U-pipe system Figure 55: U-pipe with acceleration opening Number of aspiration apertures Item Punching diameter of the aspiration reducing film sheets [mm] AO = acceleration opening = 7.0 mm...
Page 87 MAN3184 - TITANUS PRO•SENS® Number of aspiration apertures Item Punching diameter of the aspiration reducing film sheets [mm] AO = acceleration opening = 7.0 mm...
Page 88 MAN3184 - TITANUS PRO•SENS® 5.3.5.3 M-pipe system Figure 56: M-pipe with acceleration opening Number of aspiration apertures Item Punching diameter of the aspiration reducing film sheets [mm] AO = acceleration opening = 7.0 mm...
Page 89 MAN3184 - TITANUS PRO•SENS® Number of aspiration apertures Item Punching diameter of the aspiration reducing film sheets [mm] AO = acceleration opening = 7.0 mm...
Page 90 MAN3184 - TITANUS PRO•SENS® 5.3.5.4 Double U-pipe system Figure 57: Double U-pipe with acceleration opening Number of aspiration apertures Item Punching diameter of the aspiration reducing film sheets [mm] AO = acceleration opening = 7.0 mm...
Page 91 MAN3184 - TITANUS PRO•SENS® Number of aspiration apertures Item Punching diameter of the aspiration reducing film sheets [mm] AO = acceleration opening = 7.0 mm...
Page 92: Project Planning For Forced Airflow
MAN3184 - TITANUS PRO•SENS® 5.3.6 Project planning for forced airflow Air conditioning duct Air conditioning systems are distinguished between high-speed and low- monitoring speed systems. The information listed in this section only applies to low- speed systems. There are insufficient empirical values for high-speed systems.
Page 93 MAN3184 - TITANUS PRO•SENS® Figure 59: Change in direction of a duct without baffles Figure 60: Silencer in a duct The following must be observed when installing pipe systems in air conditioning ducts: ▪ Air return (see following page) is to be planned for, since the TITANUS PRO·SENS®...
Page 94 MAN3184 - TITANUS PRO•SENS® Figure 61: Air return Air return The air return must be positioned at a distance of at least 2 m from the aspiration. The open end of the air recirculation must be bevelled at a 45° angle.
Page 95 MAN3184 - TITANUS PRO•SENS® Drill hole intervals The distances of the aspiration apertures to each other and to the wall of the duct are listed in the following table. Duct cross-section Duct cross-section ≤ 0.5 m² > 0.5 m² Distance of aspiration apertures from the wall 100 to 200 mm 200 to 300 mm Mutual distance between aspiration apertures...
Page 96: Project Planning With Aspiration Hose
MAN3184 - TITANUS PRO•SENS® 5.3.7 Project planning with aspiration hose The use of aspiration hoses can make sense if several changes of direction are required in a pipe system over short distances, e.g. to bypass obstacles such as ceiling beams. As the use of aspiration hoses can have a negative impact on the transport time, the influence of the used aspiration hose on the permissible overall pipe length must be determined in advance.
Page 97 MAN3184 - TITANUS PRO•SENS® Example 2 For the pipe project planning, a total of 100 m aspiration pipe and aspiration hose is connected to a TITANUS PRO·SENS® aspirating smoke detector with a fan voltage of 6.5 V. The permissible overall pipe length for the entire pipe project planning can be 120 m according to the project planning table.
Page 98: Project Planning With Air Return
MAN3184 - TITANUS PRO•SENS® 5.3.8 Project planning with air return In cases where there are air pressure differences between the area of the TITANUS PRO·SENS® and the area of the aspiration apertures, air return of the drawn-in sample air into the pressure area of the aspiration apertures may be necessary.
Page 99: Energy Supply
MAN3184 - TITANUS PRO•SENS® Example An air return (Ø 25 mm) of 22 m is connected to a TITANUS PRO·SENS® with a fan voltage of 6.9 V. The permissible overall pipe length for the pipe system is 120 m. The following results for the maximum aspiration pipe length: Max.
Page 100 MAN3184 - TITANUS PRO•SENS® Alarm-ready state In the alarm-ready state, the energy supply must ensure that the backup batteries are charged and supply the standby current for: ▪ Connected devices ▪ Any connected accessories To be able to calculate the power supply current that is actually required for the alarm-ready state, the standby current and the charging...
Page 101 MAN3184 - TITANUS PRO•SENS® Nominal battery capacity To select the required nominal battery capacity , consider the following criteria: ▪ Available nominal battery capacities > ▪ Possible nominal battery capacity according to the energy supply manufacturer ▪ Restrictions due to energy supply device approvals. Minimum required battery capacity [Ah] Actual nominal battery capacity [Ah] Charging current...
Page 102 MAN3184 - TITANUS PRO•SENS® The maximum cable length between the energy supply and the device is Cable length and calculated based on the conductivity (cable material), the wire cross-section, wire cross-section the maximum current and the permissible drop in voltage on the device supply line.
Page 103: Installation
MAN3184 - TITANUS PRO•SENS® 6 Installation 6.1 General information The provisions, guidelines and terms listed in the chapter "Project planning" apply. The following must be observed when installing the TITANUS PRO·SENS®: 1. Incursions, changes and modifications to equipment must be avoided. If adjustments are required, these must be arranged with the operating company, device manufacturer and/or supply company (written approval).
Page 104: Opening The Titanus Pro·sens
MAN3184 - TITANUS PRO•SENS® 6.2 Opening the TITANUS PRO·SENS® Figure 64: Opening the TITANUS PRO·SENS® ATTENTION The components on the basic board must be protected against damage due to static discharge. To open the TITANUS PRO·SENS®, proceed as follows: ► Carefully unlock the clips on the housing using a flat-head screwdriver by simultaneously pressing in the closing flaps on one side.
Page 105: Installing The First Detector Module
MAN3184 - TITANUS PRO•SENS® 6.3 Installing the first detector module Only perform the following work with the device disconnected from the mains. ► Carefully unlock the clips on the housing using a flat-head screwdriver by simultaneously pressing in the closing flaps on one side. Then carefully lift the housing cover.
Page 106: Settings
MAN3184 - TITANUS PRO•SENS® ► Connect the display circuit board to the basic board. Connection: X4 (DISPLAY) ► The operating voltage must be reconnected before initialisation. Press the flow init button on the detector module to initialise the pipe system. ►...
Page 107 MAN3184 - TITANUS PRO•SENS® 6.4.1.2 Alarm trigger delay time The delay time for alarm thresholds can be set using switch S1 (3, 4). The default setting for the alarm delay period is 10 s. If the smoke level rises during operation up to the alarm threshold, the delay time starts to run. The report is only transferred with the alarm still pending after expiry of the delay time.
Page 108 MAN3184 - TITANUS PRO•SENS® 6.4.1.4 Delay time for the airflow fault Set the delay time for transmission of the fault message via switch S1 (7, 8) on the detector module of the TITANUS PRO·SENS®. Delay period DIL switch S1 [min] Contact 7 Contact 8 2 (standard)
Page 109 MAN3184 - TITANUS PRO•SENS® 6.4.1.7 Collective fault contact function Figure 67: Jumper settings of the collective fault contact The contact type (N/C or N/O contact) of the collective fault is set with jumpers JU2 and JU3. The contact type of the 1st fault contact is adjusted with jumper JU2 while the 2nd fault contact is adjusted with jumper JU3.
Page 110 MAN3184 - TITANUS PRO•SENS® 6.4.1.8 Setting the fan voltage of TITANUS PRO·SENS® Figure 68: Switching the fan voltage on the basic board The standard setting for the fan voltage is 6.9 V. In critical areas, the fan voltage can be switched from 6.9 V to 9 V by unplugging jumper JU1 in order to increase the transport speed in the pipe system and therefore to guarantee faster detection in case of greater pipe lengths.
Page 111 MAN3184 - TITANUS PRO•SENS® 6.4.1.9 connection of the fan for TITANUS PRO·SENS® The electrical connection of the fan is made using terminal strip X5 (FAN) on the TITANUS PRO·SENS® basic board. ▪ Connect the red fan connection cable to terminal strip X5 / terminal 1 (+). ▪...
Page 112 MAN3184 - TITANUS PRO•SENS® 6.4.1.10 Setting the fan voltage of TITANUS PRO·SENS®-SL Figure 69: Switching the fan voltage and fan connection terminal strip on the FC-2 or FC-3 fan control circuit board The standard setting for the fan voltage is 6.9 V. The fan voltage can be adjusted according to project planning by plugging or removing the BR1 and/ or BR2 bridges.
Page 113: Installing The Reset Circuit Board
MAN3184 - TITANUS PRO•SENS® ATTENTION When changing the fan voltage, perform airflow initialisation again. Only close or open bridge BR1 and BR2 when the device is switched off. 6.4.1.11 Connection of the fan on TITANUS PRO·SENS®‑SL The electrical connection of the fan control circuit board is made using terminal strip X5 (FAN) on the TITANUS PRO·SENS®...
Page 114 MAN3184 - TITANUS PRO•SENS® NOTICE The reset circuit board can only be used when the standby current of the detector line is between 5 mA and 50 mA and the detector line end is formed by an Ohm resistance. The reset impulse is triggered if the line voltage falls below 3 V when resetting the control panel.
Page 115 MAN3184 - TITANUS PRO•SENS® Figure 70: Installing the reset circuit board in the TITANUS PRO·SENS® Installation The following work steps must be performed for installation of the reset circuit board in the TITANUS PRO·SENS®: ► Carefully unlock the clips on the housing using a flat-head screwdriver by simultaneously pressing in the closing flaps on one side.
Page 116: Installation Location
MAN3184 - TITANUS PRO•SENS® NOTICE The reset circuit board can only be fitted at the above-described position due to its height. 6.6 Installation location 6.6.1 Installation When choosing the installation location, make sure that… ▪ …the displays are clearly visible. ▪...
Page 117 MAN3184 - TITANUS PRO•SENS® Aspiration downwards If the TITANUS PRO·SENS® is fitted with the air inlet pointing downwards, make sure that no foreign particles and no dripping water can enter the air outlet opening, which is then pointing up. Use a short pipe angled down for this.
Page 118 MAN3184 - TITANUS PRO•SENS® Figure 73: Drill hole intervals for bracket type MT-1 [mm]...
Page 119: Aspiration Pipe Connection
MAN3184 - TITANUS PRO•SENS® 6.6.2 Aspiration pipe connection Figure 74: Connecting the aspiration pipe to the TITANUS PRO·SENS® ► Insert the aspiration pipe into the pipe connection provided in order to connect the aspiration pipe to the TITANUS PRO·SENS® (see figure "Aspiration pipe connection").
Page 120: Electrical Connection
MAN3184 - TITANUS PRO•SENS® 6.7 Electrical connection The following steps must be initially performed to prepare the electrical connections: ► Break through the necessary number of cable glands (e.g. with a screwdriver). ► Insert the M20/M25 membrane cable entries (device accessories kit) into the corresponding cable glands.
Page 121: Connecting A Fdcp, With Reset Button
MAN3184 - TITANUS PRO•SENS® 6.7.1 Connecting a FDCP, with reset button The relay contacts on the basic board can be used e.g. to connect a FDCP or activate signal devices and control systems. A response indicator can also be connected here. NOTICE The reset input must not be permanently switched with +24 V, as otherwise all messages, including alarms, are reset automatically as soon as the...
Page 122: Connecting Several Titanus Pro·sens® Without Fdcp, With Reset Button
MAN3184 - TITANUS PRO•SENS® 6.7.2 Connecting several TITANUS PRO·SENS® without FDCP, with reset button Figure 76: Example connection of several devices without FDCP, with reset button...
Page 123: Connecting A Fdcp, With Reset Circuit Board
MAN3184 - TITANUS PRO•SENS® 6.7.3 Connecting a FDCP, with reset circuit board Figure 77: Example connection to FDCP with reset circuit board ATTENTION The fault indicator must be set to "non-saving" (see section "Fault display settings").
Page 124: Installing The Second Detector Module
MAN3184 - TITANUS PRO•SENS® 6.8 Installing the second detector module Figure 78: Installing detector module II ► Only perform the following work with the device disconnected from the mains. ► Carefully unlock the clips on the housing using a flat-head screwdriver by simultaneously pressing in the closing flaps on one side.
Page 125 MAN3184 - TITANUS PRO•SENS® ► Connect the detector module to the basic board using the ribbon cable. Connection: X3 (HEAD 2) NOTICE Ensure the marking pen is positioned correctly before plugging the ribbon cable plug into the basic board. ► Connect the display circuit board to the basic board. Connection: X4 (DISPLAY) ►...
Page 126: Response Indicator - Electrical Connection
MAN3184 - TITANUS PRO•SENS® 6.9 Response indicator – electrical connection Connect the response indicator using terminal strip X6 on the basic board in the TITANUS PRO·SENS®. Observe the permissible cable diameters of the respective screw connection and the permissible wire cross-sections of the terminals (see chapter ➔...
Page 127: Data Logging
MAN3184 - TITANUS PRO•SENS® 6.10 Data logging A device test can be performed using the diagnostic software. Various status values can be read out for the current airflow sensor data, which facilitates the detection of changed operating conditions in a service case. The airflow and smoke level readings can be read out directly on-site using a laptop.
Page 128: Installing The Pipe System
MAN3184 - TITANUS PRO•SENS® 7 Installing the pipe system 7.1 General installation The pipes, hoses and fittings used for the pipe system must at least fulfil the requirements of class 1131 in accordance with EN 61386‑1, 2004. Class 1131 defines the following requirements for the pipe system used: Characteristics Severity Compression resistance [N]...
Page 129: Installing The Pipe System
MAN3184 - TITANUS PRO•SENS® 7.1.1 Installing the pipe system The pipe system must be installed according to project specifications and taking into account the project planning guidelines (see chapter "Project planning"). ► Cut the pipes with a pipe cutter or a metal saw. Deburr the cut edges and remove any shavings.
Page 130: Installing The Aspiration Hose
MAN3184 - TITANUS PRO•SENS® NOTICE Do not use pipe clips with rubber inserts as they do not permit length extensions, meaning that the pipe system would bend or even break. ► Close open pipe ends with end caps. NOTICE After completing the pipe system, check for the following: - Leaks (e.g.
Page 131 MAN3184 - TITANUS PRO•SENS® Type SCH‑P‑25 Glue the aspiration hose with UPVC adhesive in fittings/sleeves of a pipe system with a 25 mm outer diameter. NOTICE After completing the pipe system, check for the following: - Leaks (e.g. due to damage) - Incorrect connections - Correct aspiration aperture project planning.
Page 132: Length Alterations On The Pipe System
MAN3184 - TITANUS PRO•SENS® 7.2 Length alterations on the pipe system Length alterations (extensions and reductions) of the pipes are caused by temperature changes. Temperature increase leads to extension of the pipe, temperature reduction leads to shortening of the pipe. The change in length must be considered all the more the further the temperature of the pipe system deviates from the standard operating temperature at the time of installation.
Page 133 MAN3184 - TITANUS PRO•SENS® Type CLIC-PA plastic pipe clips have two fastening points for fixing the pipe: ▪ Position 1 (first engaging) Locks the pipe, allowing length extension (used in deep freeze applications). ▪ Position 2 (second engaging) Fixes the pipe and does not allow pipe extension. Pipe clips for Ø...
Page 134: Aspiration Apertures
MAN3184 - TITANUS PRO•SENS® 7.3 Aspiration apertures Figure 83: Example of a drill hole with aspiration reducing film sheet Aspiration apertures Select the type of aspiration aperture and its position in the pipe system according to project specifications while taking the project planning guidelines into account.
Page 135 MAN3184 - TITANUS PRO•SENS® Figure 84: Attaching the aspiration reducing film sheet...
Page 136: Ceiling Duct
MAN3184 - TITANUS PRO•SENS® 7.4 Ceiling duct 7.4.1 Ceiling duct for suspended ceilings Figure 85: Installing the ceiling duct The following work steps are required to install a ceiling duct: ► Rid the bonding surfaces of dirt and grease with the stipulated cleaning agent before gluing.
Page 137 MAN3184 - TITANUS PRO•SENS® ► Adhere the necessary aspiration reducing film sheet to the ceiling duct (according to project planning guidelines). Two versions of aspiration reducing film sheets are available. According to the colour of the ceiling on which the ducts are mounted, use either type AFW‑x (pure white, RAL 9010) or type AF‑x (papyrus white, RAL 9018) aspiration reducing film sheets.
Page 138: Other Ceiling Ducts
MAN3184 - TITANUS PRO•SENS® 7.4.2 Other ceiling ducts Figure 86: Capillary hose and upstream panel installation The following work steps are required to install a ceiling duct: ► Rid the bonding surfaces of dirt and grease with the stipulated cleaning agent before gluing.
Page 139: Forced Airflow Monitoring
MAN3184 - TITANUS PRO•SENS® NOTICE The hole in the aspiration reducing film sheet must fit over the opening in the pipe hood exactly. The diameter of the opening in the aspiration reducing film sheet must not be changed. Carefully avoid touching the film sheet's adhesive surface to ensure it is kept free of dust and grease.
Page 140: Detection In The Bypass
MAN3184 - TITANUS PRO•SENS® 7.5.2 Detection in the bypass NOTICE In case of detection in airflows ≥ 2 m/s, additionally return the exhaust air from the TITANUS PRO·SENS® back into the airflow area. Cut off the end of the air return pipe at an angle of 45°. Refer to the chapter "Installing the pipe system"...
Page 141: Filter
MAN3184 - TITANUS PRO•SENS® 7.6 Filter 7.6.1 Installing the air filter type LF-AD-x Figure 89: Drill hole intervals for the holes in the bottom of the air filter housing ► Insert the aspiration pipe in the provided pipe connection of the bottom part of the housing.
Page 142: Installing The Special Filter Type Sf-400/650
MAN3184 - TITANUS PRO•SENS® NOTICE Never use glue to join the aspiration pipe and the pipe connections. If there are great variations in temperature, the pipe must be attached very close to the air filter, so that the pipe does not come out of the pipe connections due to fluctuations in length which may occur (see chapter "Installing the pipe system"...
Page 143 MAN3184 - TITANUS PRO•SENS® Installation materials Air filter Pipe fittings made of UPVC or ABS: - 45° angle When using the combination of the special filter type SF-x and air filter type LF-AD, the air filter must be installed behind the special filter viewed from the TITANUS PRO·SENS®.
Page 144: Air Return
MAN3184 - TITANUS PRO•SENS® 7.7 Air return Figure 92: Installing the air return ► Remove the pre-stamped pipe opening in the safety guard of the air outlet opening (e.g. using a small cutter). ► Feed the air return through the pipe opening in the safety guard and fix it in the air outlet opening in the device.
Page 145: Silencer
MAN3184 - TITANUS PRO•SENS® 7.8 Silencer Figure 93: TITANUS PRO·SENS® with silencer ► Remove the pre-stamped pipe opening in the safety guard of the air outlet opening (e.g. using a small cutter). ► Feed a bit of the pipe (Ø 25 mm) through the pipe opening in the safety guard and fix it through the air opening in the TITANUS PRO·SENS®.
Page 146 MAN3184 - TITANUS PRO•SENS® NOTICE Never use glue to join the aspiration pipe and the pipe connections. If there are great variations in temperature, the pipe must be attached very close to the air filter, so that the pipe does not come out of the pipe connections due to fluctuations in length which may occur (see chapter "Installing the pipe system"...
Page 147: 3-Way Ball Valve
MAN3184 - TITANUS PRO•SENS® 7.9 3‑way ball valve Figure 94: Installing the 3-way ball valve The ball valve is required for clearing with compressed air (preferably) or pressurised air. It switches between fire detection (0° position) and clearing (180° position). Fix it into the pipe system using the transitional screw connections.
Page 148: Condensate Separator
MAN3184 - TITANUS PRO•SENS® 7.10 Condensate separator 7.10.1 Condensate separator type KA-DN-25 Figure 95: Installing the condensate separator type KA-DN 25 in the pipe system Install the condensate separator at the lowest point of the pipe system behind the air filter and the TITANUS PRO·SENS®. Fix the condensate separator to the pipe system using the PG screw connections.
Page 149: Condensate Separator Type Ka-1
MAN3184 - TITANUS PRO•SENS® 7.10.2 Condensate separator type KA-1 Figure 96: Installing the condensate separator type KA-1 Install the condensate separator at the lowest point of the pipe system in front of the air filter and the TITANUS PRO·SENS®. Glue the pipe system to be airtight with the condensate separator.
Page 150: Installation Of Detonation Prevention Device
MAN3184 - TITANUS PRO•SENS® 7.11 Installation of detonation prevention device WARNING Danger of pipe deflagration or detonation The TITANUS PRO·SENS® must not be mounted in areas with a potentially explosive atmosphere. Non-observance could lead to an ignition of the explosive atmosphere due to static discharge. The following is to be discussed with an expert in advance: ▪...
Page 151 MAN3184 - TITANUS PRO•SENS® Non-Ex area Ex area Pipe system Air return Figure 97: Installing the detonation protector 1 Aspiration pipe with transition screw connection and aspiration apertures 2 Grounding clamp (if necessary) 3 Steel aspiration pipe with screw-in connection (type R‑2525) 4 Air return 5 Wall (segregates Ex area from non-Ex area) 6 45°...
Page 152: Test Adapter
MAN3184 - TITANUS PRO•SENS® 7.12 Test adapter Figure 98: Installing the test adapter in the pipe system The test adapter is glued into the pipe system in the immediate proximity of the aspirating smoke detector. The test adapter must always be closed in normal operation and is only opened for maintenance and service purposes, to introduce test gas or smoke.
Page 153: Commissioning
MAN3184 - TITANUS PRO•SENS® 8 Commissioning NOTICE The test record must generally be completed during commissioning (see chapter "Appendix"). This is required for subsequent assessment of the data such as the airflow value, type of calibration (see chapter "Airflow sensor calibration"), commissioning temperature, air pressure and height above mean sea level.
Page 154 MAN3184 - TITANUS PRO•SENS® initialisation has finished, the operating LED is permanently illuminated and the airflow sensor has determined its actual value for the connected pipe system.
Page 155: Air Pressure-Independent Calibration
MAN3184 - TITANUS PRO•SENS® 8.1.1 Air pressure-independent calibration Figure 99: Calibration of the airflow sensor independent of air pressure ► Make sure that the device is in operation for at least 30 min. ► Check the voltage on measuring points MP1 (+) and MP4 (-). Pay attention to polarity.
Page 156: Air Pressure-Dependent Calibration
MAN3184 - TITANUS PRO•SENS® 8.1.2 Air pressure-dependent calibration Figure 100: Calibration of the airflow sensor, depending on air pressure A barometer (recommendation: digital precision pocket barometer GPB 1300, Greisinger electronic GmbH) and a multimeter are required for air pressure-dependent calibration of the airflow sensor. The following work steps are required: ►...
Page 157 MAN3184 - TITANUS PRO•SENS® ► Determine the calibration value to which the airflow sensor must be set using the air pressure correction tables (see chapter "Appendix") and enter it in the test record. Observe the pipe project planning when selecting the air pressure correction table. ►...
Page 158: Checking The Detector Module And Alarm Transmission
MAN3184 - TITANUS PRO•SENS® 8.2 Checking the detector module and alarm transmission Trigger the detector module and check the transmission path to the FDCP as follows: ► Make sure that the LOGIC·SENS switch S1 (10) is set to "OFF" (see chapters "Installation"...
Page 159: Checking The Airflow Monitoring And Fault Signal Transmission
MAN3184 - TITANUS PRO•SENS® 8.3 Checking the airflow monitoring and fault signal transmission A break or blockage in the pipe system is displayed on the FDCP or by a flash code on each detector module. The flash code is repeated every 2 s. ▪...
Page 160: Function Test
MAN3184 - TITANUS PRO•SENS® ▪ …any test adapters and air filters are connected. ▪ …any filter inserts are clean. ▪ …any ball valves and clearing valves are in "operating position". If no defects are established, the TITANUS PRO·SENS® or airflow sensor is checked for functionality using a test pipe or diagnostic software (see section "Function test").
Page 161 MAN3184 - TITANUS PRO•SENS® Figure 101: Check the functionality of the TITANUS PRO·SENS® 1 Device 2 Test pipe 3 Aspiration aperture Ø 4.6 mm 4 Aspiration aperture Ø 4.2 mm 5 Aspiration aperture Ø 7.0 mm 6 Pressure measurement hose 7 Adapter 8 Digital fine pressure gauge (example) ►...
Page 162: Performing The Function Test
MAN3184 - TITANUS PRO•SENS® 8.4.2 Performing the function test The function test can be performed with or without a digital manometer. The complete test is described in the following. If any deviations from the described procedure occur when checking the TITANUS PRO·SENS®, the device or its airflow sensor is defective.
Page 163 MAN3184 - TITANUS PRO•SENS® ► Close the test pipe aspiration apertures with a bit of adhesive tape. The flash code of the LED on the detector module must signalise "Blockage" after several seconds. ► Open all test pipe aspiration apertures again. The flash code of the LED must go out after a few seconds.
Page 164 MAN3184 - TITANUS PRO•SENS® After completing the function test, the commissioning of the device with the pipe system must be repeated starting with the "Airflow sensor calibration" section . NOTICE After completing the commissioning, the setting values must be established and stored using the diagnostic tool.
Page 165: Maintenance
MAN3184 - TITANUS PRO•SENS® 9 Maintenance The test record must be completed during the maintenance (see chapter "Appendix"). The test record is required for the subsequent evaluation of the data (e.g. airflow value, air pressure and temperature during maintenance). 9.1 Visual inspection Check whether…...
Page 166: Flash Code Table
MAN3184 - TITANUS PRO•SENS® 9.2 Flash code table The detector modules are equipped with an LED that displays different faults and device statuses using a flash code. Figure 102: Flash code LED on the detector module Meaning Number of flashes Airflow too low (pipe system blockage) Airflow too high (pipe system break) Stabilisation phase after switch-on or fan is switched off...
Page 167: Checking The Pipe System
MAN3184 - TITANUS PRO•SENS® 9.4 Checking the pipe system Check the aspiration apertures of the pipe system for blockage in areas where dust particles are possible. Clear the pipe system and aspiration apertures with compressed air if necessary. Use a transportable compressed air bottle (air jet equipment) or activate the manual air jet unit installed on site for this purpose.
Page 168: Replacing The Detector Module
MAN3184 - TITANUS PRO•SENS® 9.5 Replacing the detector module Figure 103: Replacing the detector module Only perform the following work with the device disconnected from the mains. ► Carefully unlock the clips on the housing using a flat-head screwdriver by simultaneously pressing in the closing flaps on one side. Then carefully lift the housing cover.
Page 169 MAN3184 - TITANUS PRO•SENS® ► Spread the two retaining clips apart again and insert the new detector module. Both clips must be positioned against the detector module and audibly engage. Then press both retaining clips together again. ► Reconnect the detector module to the basic board using the ribbon cable.
Page 170: Replacing The Filter On Air Filter Lf-Ad-X
MAN3184 - TITANUS PRO•SENS® 9.6 Replacing the filter on air filter LF-AD-x Figure 104: Replacing the LF-AD filter inserts Perform the following work steps to clean or replace the filter inserts: ► Only perform the following work with the device disconnected from the mains.
Page 171: Replacing The Filter On Special Filter Sf-400/650
MAN3184 - TITANUS PRO•SENS® NOTICE Opening the device cover on the LF-AD-x air filter leads to an airflow fault on the TITANUS PRO·SENS®. 9.7 Replacing the filter on special filter SF-400/650 Figure 105: Replacing the filter element on the special filter Perform the following work steps to change the filter element: ►...
Page 172: Checking The Airflow Sensor Calibration
MAN3184 - TITANUS PRO•SENS® NOTICE When installing the special filter, observe the direction of flow. NOTICE Opening the special filter leads to an airflow fault on the TITANUS PRO·SENS®. 9.8 Checking the airflow sensor calibration ► Check the airflow sensor value with the diagnostic software. Functional principle During the initialisation of the connected pipe system, the device initially saves the measured actual value of the airflow as a target value via the...
Page 173 MAN3184 - TITANUS PRO•SENS® Air pressure dependency In order to ensure fault-free long-term operation of the device, the airflow sensor must be calibrated depending on air pressure (see chapter "Commissioning"). Only with this type of calibration are slight air pressure fluctuations still within the monitoring window and therefore in the permissible tolerance range.
Page 174 MAN3184 - TITANUS PRO•SENS® ATTENTION Only authorized personnel is permitted to replace the detector module in case of an airflow monitoring defect. If no deviations are detected in the process described during the function test, this confirms there is no defect in the airflow monitoring system. ►...
Page 175: Checking The Airflow Monitoring System
MAN3184 - TITANUS PRO•SENS® 9.9 Checking the airflow monitoring system A pipe break or pipe blockage is displayed by a flash code via an LED on each detector module. Check the airflow monitoring system in accordance with the specifications described in the chapter "Commissioning" ➔ "Airflow monitoring". 9.10 Checking the fault signal transmission A fault is displayed on the TITANUS PRO·SENS®...
Page 176: Glossary
MAN3184 - TITANUS PRO•SENS® Glossary Aerosol Area with potentially explosive atmosphere Airborne particles in microscopic or sub- microscopic grain size range. They exist of A potentially explosive area where a potentially unburned parts of the burning material, explosive atmosphere exists. intermediate products of oxidative conversion and finely distributed carbon (soot).
Page 177 MAN3184 - TITANUS PRO•SENS® DIL switch Detector group Dual in line for setting e.g. the addressing and Summary of fire alarms in a detector line for display type of response indicators. which a separate display in the fire detector control panel is intended. Disturbance alarm Detector line Message that there is a deviation from a target...
Page 178 MAN3184 - TITANUS PRO•SENS® triggering level which triggers the main alarm Monitoring area when the corresponding light obscuration is Entire area that is monitored by automatic fire reached. alarms. Single hole monitoring Monitoring window Detection of changes in the diameter (e.g. Adjustment area where the normal airflow is blockage) of every single aspiration aperture.
Page 179: Annex
MAN3184 - TITANUS PRO•SENS® Annex See also ▪ "Air pressure correction tables" [➔ 187] ▪ "Project planning tables with air filters" [➔ 190] ▪ "Project planning tables with acceleration openings and air fil- ters" [➔ 195] ▪ "Test record" [➔ 204]...
Page 180 Air pressure correction table for Equipment protection adjustment Height Air pressure [hPa] at a height [m above sea level] 1003 1008 1013 1018 1023 1028 1033 1038 1043 1002 1007 1012 1017 1022 1027 1032 1037 1001 1006 1011 1016 1021 1026 1031 1004 1009 1014 1019 1024...
Page 181 Air pressure correction table for Air pressure correction table for adjustment adjustment Room protection (I-shaped pipe system) Height Air pressure [hPa] at a height [m above sea level] 1003 1008 1013 1018 1023 1028 1033 1038 1043 1002 1007 1012 1017 1022 1027 1032 1037 1001 1006 1011 1016 1021 1026...
Page 182 Air pressure correction table for Room protection (U-shaped, M-shaped, double U-shaped and quadruple U-shaped pipe system) adjustment Height Air pressure [hPa] at a height [m above sea level] 1003 1008 1013 1018 1023 1028 1033 1038 1043 1002 1007 1012 1017 1022 1027 1032 1037 1001 1006 1011 1016 1021 1026...
Page 183 Air pressure correction table for adjustment Number of aspiration apertures Sensitivity Module [% light obs./m] 0,015 0,03 0,06 0,12 Number of aspiration apertures Fan voltage Pipe shape Without pipe accessories ≥ 9 ≥ 9 ≥ 9 Double U ≥ 9 Quad U (1 DM) ≥...
Page 184 ® ® Classification TITANUS PRO·SENS PRO·SENS Project planning with air filters type LF-AD Number of aspiration apertures Sensitivity Module [% light obs./m] 0,015 0,03 0,06 0,12 Number of aspiration apertures Fan voltage Pipe shape Without pipe accessories ≥ 9 ≥ 9 ≥...
Page 185 ® ® Classification TITANUS PRO·SENS PRO·SENS Project planning with air filters type LF-AD Number of aspiration apertures Sensitivity Module [% light obs./m] 0,015 0,03 0,06 0,12 Number of aspiration apertures Fan voltage Pipe shape Without pipe accessories ≥ 9 ≥ 9 ≥...
Page 186 ® ® Classification TITANUS PRO·SENS PRO·SENS Project planning with air filters type LF-AD-2 Number of aspiration apertures Sensitivity Module [% light obs./m] 0,015 0,03 0,06 0,12 Number of aspiration apertures Fan voltage Pipe shape Without pipe accessories ≥ 9 ≥ 9 ≥...
Page 187 ® ® Classification TITANUS PRO·SENS PRO·SENS Project planning with air filters type LF-AD-2 Number of aspiration apertures Sensitivity Module [% light obs./m] 0,015 0,03 0,06 0,12 Number of aspiration apertures Fan voltage Pipe shape Without pipe accessories ≥ 9 ≥ 9 ≥...
Page 188 Seite 1 von 2 ® ® Classification TITANUS PRO·SENS and PRO·SENS With acceleration openings and without air filters Number of aspiration apertures Sensitivity Module [% light obs./ft] 0,015 0,03 0,06 0,12 Number of aspiration apertures Fan voltage Pipe shape Without additional pipe accessories 150 150 130 130 130 130 130 130 130 130 130 130 110 110 110 110 ≥...
Page 189 Seite 1 von 2 ® ® Classification TITANUS PRO·SENS and PRO·SENS With acceleration openings and without air filters Number of aspiration apertures Sensitivity Module [% light obs./ft] 0,015 0,03 0,06 0,12 Number of aspiration apertures Fan voltage Pipe shape Without additional pipe accessories ≥...
Page 190 Seite 1 von 2 ® ® Classification TITANUS PRO·SENS and PRO·SENS With acceleration openings and with air filters type LF-AD Number of aspiration apertures Sensitivity Module [% light obs./ft] 0,015 0,03 0,06 0,12 Number of aspiration apertures Fan voltage Pipe shape Without additional pipe accessories 150 150 130 130 130 130 130 130 130 110 110 110 110 110 110 110 ≥...
Page 191 Seite 1 von 2 ® ® Classification TITANUS PRO·SENS and PRO·SENS With acceleration openings and with air filters type LF-AD Number of aspiration apertures Sensitivity Module [% light obs./ft] 0,015 0,03 0,06 0,12 Number of aspiration apertures Fan voltage Pipe shape Without additional pipe accessories ≥...
Page 192 Seite 1 von 2 ® ® Classification TITANUS PRO·SENS and PRO·SENS With acceleration openings and with air filters type LF-AD-1 Number of aspiration apertures Sensitivity Module [% light obs./ft] 0,015 0,03 0,06 0,12 Number of aspiration apertures Fan voltage Pipe shape Without additional pipe accessories 140 120 120 120 120 120 120 120 120 120 120 100 100 100 100 ≥...
Page 193 Seite 1 von 2 ® ® Classification TITANUS PRO·SENS and PRO·SENS With acceleration openings and with air filters type LF-AD-1 Number of aspiration apertures Sensitivity Module [% light obs./ft] 0,015 0,03 0,06 0,12 Number of aspiration apertures Fan voltage Pipe shape Without additional pipe accessories ≥...
Page 194 Seite 1 von 2 ® ® Classification TITANUS PRO·SENS and PRO·SENS With acceleration openings and with air filters type LF-AD-2 Number of aspiration apertures Sensitivity Module [% light obs./ft] 0,015 0,03 0,06 0,12 Number of aspiration apertures Fan voltage Pipe shape Without additional pipe accessories 140 120 120 120 120 120 120 120 120 120 120 100 100 100 100 ≥...
Page 195 Seite 1 von 2 ® ® Classification TITANUS PRO·SENS and PRO·SENS With acceleration openings and with air filters type LF-AD-2 Number of aspiration apertures Sensitivity Module [% light obs./ft] 0,015 0,03 0,06 0,12 Number of aspiration apertures Fan voltage Pipe shape Without additional pipe accessories ≥...
Page 196 ® ® Classification TITANUS PRO·SENS and PRO·SENS With acceleration openings and with air filters type SF-400/SF-650 Number of aspiration apertures Sensitivity Module [% light obs./ft] 0,015 0,03 0,06 0,12 Number of aspiration apertures Fan voltage Pipe shape Without additional pipe accessories 140 120 120 120 120 120 120 120 120 120 120 100 100 100 100 ≥...
Page 197 ® ® Test record TITANUS PRO·SENS and PRO·SENS Device identification Device number Serial number basic device Serial number detector module Measuring an adjustment values Commissionin (✓/ –) Visual check Depression [Pa] Sensitivity (main alarm) [% light obs./m] Alarm delay (small/medium/ Activating treshold (airflow) large/very large) Fault delay...

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