Page 3 Air Sampling Smoke Detection System ® TITANUS MICRO·SENS Rev.a Technical Manual WAGNER Group GmbH Schleswigstraße 1 - 5 D-30853 Langenhagen item number: 69-30-0525 Telephone +49 (0) 511 / 97383-0 dated: 01/09 Telefax +49 (0) 511 / 97383-140 supersedes: 12/06 E-Mail support@wagner.de...
Page 5: Table Of Contents
0 – 1 Introduction Safety Information Guarantee Copyright Packaging Disposal Product Description 1 – 1 ® Characteristics of the TITANUS MICRO·SENS aspirating smoke detection system Areas of Application Technical Description 2 – 1 System Description 2.1.1 Function ® TITANUS MICRO·SENS and Accessories 2.2.1...
Page 6 Installation TITANUS MICRO·SENS 5 – 1 General Installation site ® 5.2.1 Fitting the TITANUS MICRO·SENS air sampling smoke detector2 5.2.2 Connecting the air sampling pipe Incorporation and electrical connection of additional modules Connection to CFDU, with reset button Incorporating the reset board 5.5.1...
Page 7 Fitting the network module into the ® TITANUS MICRO·SENS additional housing 5.9.2 Connecting the Network Module 5.10 Parallel displays ® 5.10.1 Connecting the parallel displays to TITANUS MICRO·SENS 5.10.2 Parallel display housing 5.10.3 Electrical connection 5.11 Reaction indicator 5.11.1 Addressing the reaction indicators 5.11.2 Connecting the reaction indicator to the ®...
Page 8 ® TITANUS MICRO·SENS Contents Contents Installation Pipe System 6 – 1 Linear expansion of the pipe system Patented air sampling points Ceiling lead through Monitoring in forced air flow systems (ventilation or climatic applications)9 6.4.1 Detection at air inlets/outlets 6.4.2...
Page 9 ® Contents TITANUS MICRO·SENS Contents Maintenance 8 – 1 Visual check Testing detector and alarm forwarding Testing pipe system Exchanging the detection unit Exchanging the type AF-TM air filter for the device base Changing the filter on the LF-AD-x air filter...
Page 10 ® TITANUS MICRO·SENS Contents MS_A_Inhalt-en-e Data: 01/09...
Page 11: General
For damage and faults resulting from the non-observance of this manual WAGNER Group GmbH, called WAGNER in the following, does not as- sume liability. This manual refers to the air sampling smoke detection systems ®...
Page 12: Guarantee
• force majeure 0.4 Copyright The copyright in this Technical Manual remains with WAGNER. The manual is designed exclusively for the assembler and his col- leagues. Reproduction of the manual, including extracts, is not allowed. Copying or distribution of the manual in any form is only allowed with permission in writing from WAGNER.
Page 13: Packaging
® TITANUS MICRO·SENS General 0.5 Packaging The individual air sampling smoke detection systems are packed in ac- cordance with the anticipated transport conditions. Exclusively environ- mentally 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.
Page 14 ® General TITANUS MICRO·SENS 0 – 4 Data: 01/09 MS_A_00-en-e...
Page 15: Product Description
Safe airflow monitoring PIPE·GUARD, the comprehensive package for airflow monitoring, recognises safe breakdowns such as pipe breakages or blocked detection apertures. Using dynamic airflow monitoring, the TITANUS ® MICRO·SENS reacts even to small, quick changes in the airflow and thus makes an important contribution to sabotage safety.
Page 16 So the smoke detection system can be switched to col- lective and addressable recording lines of any central fire alarm systems (FAS). A relay card (optional) can be connected to the TITANUS ® MICRO·SENS in order to connect the potential-free contact for the pre- alarm to a detector line of a CFDU.
Page 17: Areas Of Application
® TITANUS MICRO·SENS Product Description 1.2 Areas of Application ® The TITANUS MICRO·SENS air sampling smoke detection system is a fire alarm system for the protection of rooms, equipment and air condi- tioning ducts. Principle Air samples for a monitoring area are taken through the draw-off holes in a pipe system and fed to the detection unit.
Page 18 M I C R O · S E ® T I T A N U S M I C R O · S E ® ® Fig.. 1.1: Principle of Room Monitoring with TITANUS MICRO·SENS Smoke Detection System 1 – 4 Data: 01/09 MS_A_01-en-e...
Page 19 Its high level of sensitivity means goods and equipment can be reliably ® monitored. The TITANUS MICRO·SENS is therefore especially suitable for areas of application. 1 – 5...
Page 20 / cabinets such as, e.g. • distribution cabinets, switching cabinets, • telephone switching equipment, • measuring, control and regulation equipment. ® Fig. 1.3: Equipment monitoring principle using the TITANUS MICRO·SENS 1 – 6 Data: 01/09 MS_A_01-en-e...
Page 21: System Description
To guarantee safe operation even under the most difficult conditions (e.g. recycling area), there are extensive accessories available such as, e.g., an integrated air filter, various external air filters or the blow through device. In very cold areas, a deep freeze version of the TITANUS ® MICRO·SENS can be used.
Page 22: Function
2.1.1 Function Air samples are taken from the area to be monitored via a pipe system ® with defined aspiration apertures, using the TITANUS MICRO·SENS aspiration unit and these are sent to the sensitive detection unit (see Fig.2.1). Locating the site of the fire It is possible to locate the site of the fire using ROOM·IDENT with an I-...
Page 23 Fig. 2.5: Phase 4 ROOM-IDENT Localisation. ® The alarm is indicated on the TITANUS MICRO·SENS itself, indicated within the monitored area via an optical external alarm indicator. The System with enabled option “Fire alarm after ROOM IDENT » will now activate an alarm.
Page 24 Device monitoring The detection unit is monitored for dirt and signal fault. Any fault which ® occurs is displayed at the TITANUS MICRO·SENS and can be for- warded to the FAS via a contact. Signal from the air flow sensor...
Page 25 ® TITANUS MICRO·SENS Technical Description Resetting through FAS A fault message is reset via the connected FAS. If whilst the TITANUS ® MICRO·SENS is operating an FAS alarm and fault [menages] have to be reset at the same time as the control line, then as an option a reset 1 can be inserted in a separate housing.
Page 26: Overview
Cable entries Cable entries (o ptio nal) M 20 (o ptio nal) (optional) (optional) ® Fig. 2.7: Overview TITANUS MICRO·SENS The components shown in F ig. 2.7 can be used by way of option. 2 – 6 Data: 01/09 MS_A_02-a-en-e...
Page 27 2.2.2 TITANUS MICRO·SENS air sampling smoke detec- tion system ® The TITANUS MICRO·SENS air sampling smoke detection system comprises the following components, device base, detection unit and pipe system: Device base Connections for 25 mm aspiration pipe (in and return)
Page 28 ® Technical Description TITANUS MICRO·SENS ® Number Function Explanation TITANUS MICRO·SENS F ig. Displays (see to Fig. 2.8 F ig. 2.9) Smoke level display 1 to 10 Current smoke level (10 yellow LEDs) Operation (green LED) Operation display Fire alarm (red LED)
Page 29: Detector Box
2.2.3 Detector Box External detector boxes can be used in the pipe system in connection ® with the TITANUS MICRO·SENS smoke detection system. The detector box is used … to create a two-detector or two-line dependency, to be able to locate the branch affected by smoke in multi-branch pipe...
Page 30 ® Technical Description TITANUS MICRO·SENS ® The TITANUS MICRO·SENS detector box comprises the following com- ponents: Device base Connections for 25 mm aspiration pipe (in and out) Cable feeds Potential-free contacts for connection to a FAS Detection unit Sensitive detection with the latest technology according to the principle...
Page 31 ® TITANUS MICRO·SENS Technical Description Number Function Explanation Detector box in Fig. 2.15 Displays Smoke level display 1 to 10 Current smoke level (10 yellow LED’s) Operation (green LED) Operation display Fire alarm (red LED) Smoke level (where main alarm threshold is set)
Page 32: Diagnostics Tool
® from the TITANUS MICRO·SENS on a PC or laptop. For the data trans- fer to the diagnostics equipment the infrared interface of the TITANUS ® MICRO· SENS is used. There is a USB cable for transferring data from the diagnostics equipment to the PC/laptop connection.
Page 33: Parallel Displays
® The TITANUS MICRO·SENS offers the possibility of connecting one or more parallel displays. The displays on the parallel display are identical to those on the detection unit. The connection is made in the TITANUS ® MICRO·SENS device base. A parallel display can be connected up to a distance of 1000 m. If a second parallel display [sic] is connected behind the first one, this can in turn again be 1000 m from the first one.
Page 34: Reaction Indicator
Reaction Indicator Fig. 2.16: Reaction indicator for locating the site of a fire ® When the TITANUS MICRO·SENS is used with fire location, up to 5 addressable reaction indicators can be used via the indicator bus. The reaction indicator can be connected up to a distance of 1000 m.
Page 35: Pipe System
® TITANUS MICRO·SENS Technical Description 2.3 Pipe system 2.3.1 Overview C onnec t ions 90° arc pipe system steam trap sleeve sampling hose- ceiling feed through special filter air filter double screw joint T-piece air sampling pipe test adapter 90° elbow ®...
Page 36 ® Technical Description TITANUS MICRO·SENS Free blow device In areas in which there is expected to be an increased occurrence of dust particles or ice formation, blowing through of the aspiration pipe system and aspiration apertures may be necessary. Fig. 2.22 and Fig. 2.23 each show the components of a manual and an automatic blowing-out system.
Page 37: Aspiration Apertures For Room Monitoring
® TITANUS MICRO·SENS Technical Description 2.3.2 Aspiration apertures for room monitoring 2.3.2.1 Aspiration reduction films Marking tape for aspiration reducing film sheet Air sampling pipe Aspiration reducing film sheet Colour: transparent Colour: Marking tape for aspiration blazing red Aspiration reducing film sheet...
Page 38: Aspiration Reduction Clips
® Technical Description TITANUS MICRO·SENS 2.3.2.2 Aspiration reduction clips air flow reducer for deep freeze storage areas plastic clip for air flow reducer Fig. 2.25: Aspiration reduction for dirty areas and deep freeze areas The aspiration apertures used in areas where there may be blockages...
Page 39: Ceiling Duct For Concealed Mounting
35 mm in strength. The aspiration reduction films are available in two colours (pure white, RAL 9010 and papyrus white, RAL 9018) and also in special colours on request. 3 The calculation is worked out by WAGNER 2 – 19 MS_A_02-b-en-e...
Page 40: Air Filters For Dusty Areas
Air sampling pipe Special filter for ADx und TITANUS ® Fig. 2.27: TITANUS MICRO·SENS with air filter In areas with interference to the environment such as, e.g. dust, an air filter is to be used to protect the smoke detection system.
Page 41: Air Return For Pressure Differences And Air Pollution
Technical Description 2.3.5 Air return for pressure differences and air pollution ® Fig. 2.28: Principle of air return in the TITANUS MICRO·SENS ® If the TITANUS MICRO·SENS and the pipe system are installed in two areas P1 and P2 with different air pressures, the air drawn off has to be returned to the pipe system pressure range (see F ig.
Page 42: Noise Suppressor
® TITANUS MICRO·SENS ® Fig. 2.30: TITANUS 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 ®...
Page 43: Steam Trap For Humid Areas
Fig. 2.31: Steam trap to eliminate water vapour from the pipe system and to collect the con- densate from the pipe system ® If the TITANUS MICRO·SENS is operated in environments where condensate can form in the pipe system, then a condensate trap is used.
Page 44 ® Technical Description TITANUS MICRO·SENS 2 – 24 Data: 01/09 MS_A_02-b-en-e...
Page 45: Technical Data
® TITANUS MICRO·SENS Technical Data 3 Technical Data All power consumption figures relate to an ambient temperature of 20°C. INSTRUCTION ® 3.1 TITANUS MICRO·SENS ® TITANUS MICRO·SENS Voltage Power supply (Ue) 16 to 30 V DC Nominal power supply 24 V DC...
Page 46 ® Technical Data TITANUS MICRO·SENS ® TITANUS MICRO·SENS Material Plastic (ABS) Housing Colour Housing papyrus white, RAL 9018 ® TITANUS MICRO·SENS – 20° to +60° C Temperature range Deep freeze version – 40° to +60° C not condensed max. 95 % rf (without dew)
Page 47 ® TITANUS MICRO·SENS Technical Data ® 3.2 TITANUS MICRO·SENS detection box Detection box Voltage Power supply (Ue) 15 to 30 V DC Nominal power supply 24 V DC with Bargraph and Power consumption at idle status 30 mA Processor Power consumption at alarm status...
Page 48: Accessories – Titanus Micro·sens
® Technical Data TITANUS MICRO·SENS ® 3.3 Accessories – TITANUS MICRO·SENS Parallel display for ® TITANUS MICRO·SENS Parallel display Voltage Nominal voltage Power consumption (at 24 V) idle 15 mA maximum 50 mA electr. connection lengths max. 1000 m Dimensions (H x W x D mm)
Page 49 ® TITANUS MICRO·SENS Technical Data Reaction indicator Voltage 15 to 30 V DC Nominal voltage 24 V DC Power consumption (at 24 V) Stand by 2 mA Blink light 5 mA Steady burning 8 mA electr. connection lengths 1000 m...
Page 50: Pipe System – Titanus Micro·sens
® Technical Data TITANUS MICRO·SENS ® 3.4 Pipe System – TITANUS MICRO·SENS Pipe system for ® TITANUS MICRO · SENS max. pipe length ∅ 25 mm 50 m Pipe system plus max. pipe length ∅ 12 mm 8 x 3 m max.
Page 51: Design
® TITANUS MICRO·SENS Pipe Design 4 Design 4.1 General The following describes the project planning of the air sampling smoke detection system to EN 54-20. The basic conditions are described in Chapter 4.1. The project planning is to be conducted in accordance with Chapter 4.2.
Page 52: Regulations
® Pipe Design TITANUS MICRO·SENS 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. EN 54-20 The air sampling smoke detection systems shall be planned in accor- dance with the project planning guidelines described in Chapter 4.2.1 in...
Page 53: Pipe System
® TITANUS MICRO·SENS Pipe Design 4.1.2 Pipe system When planning the pipe system, it must be ensured that reliable fire de- tection is guaranteed for any fire present in an installation or in a moni- tored area. Fig. 4.1 depicts an example of a U-pipe system with symmet- rical or asymmetrical design and the diameters of the aspiration aper- tures calculated according to Chapter 4.6.2 “Standard planning.”...
Page 54 U- pipe An air sampling smoke detection pipe system which branches into 2 air sampling branches after ® the connection to the TITANUS MICRO ·SENS M-pipe An air sampling smoke detection pipe system which branches into 3 air sampling branches after ®...
Page 55 ® TITANUS MICRO·SENS Pipe Design ® I-pipe syste m ® U-pipe syste m TITANUS ® M-pipe syste m ® Double -U-pipe syste m Fig. 4.2: Pipe designs Direction change Angles and bends in the pipe system increase flow resistance. For that reason, it is necessary to limit the number of them to the amount re- quired.
Page 56 INSTRUCTION Special cases If the pipe system does not match the project planning guidelines de- scribed here due to structural constraints, WAGNER should make the in- dividual calculations for such a case. Checking Check detection reliability with activation tests in cases where use of the system is critical.
Page 57: Air Flow Monitoring
® TITANUS MICRO·SENS Pipe Design 4.1.3 Air flow monitoring EN 54-20 requires the recognition of a 20 percent change in the air flow volume by the detector module’s air flow sensor system. The activating threshold of the air flow sensor system has to be adjusted to ≤ 20 % in order to achieve this.
Page 58 Air pressure differences The same air pressure must be present throughout the sampling pipe. If the air sampling smoke detection system and pipe system are in ar- eas with different air pressure, the air sampled by the TITANUS ® MICRO·SENS should be re-circulated in the pipe system pressure area (see Chapter 2.3.5 “Air recirculation”).
Page 59: Sensitivity
® TITANUS MICRO·SENS Pipe Design 4.1.4 Sensitivity According to EN 54-20, the sensitivity of a air sampling smoke detection system can be divided into particular fire sensitivity classes. These sensi- tivity classes describe particular example applications in which the sys- tems can be used.
Page 60: Design Limits
® Pipe Design TITANUS MICRO·SENS 4.1.5 Design Limits The following limit values must always be observed with the TITANUS ® MICRO·SENS • The minimum pipe length between 2 aspiration apertures is 0.1 m. • The minimum pipe length between 2 aspiration apertures when locating a fire is 3 m.
Page 61: Project Planning
Components which have not been approved by WAGNER are used, CE conformity on the basis of EN 54-20 will not be possible. INSTRUCTION...
Page 62: Pipe Accessories
® Pipe Design TITANUS MICRO·SENS 4.2.2 Pipe accessories Air filters Type Application Examples LF-AD Coarse filter for separating Dust, insects, fibres, hair, particles > approx. 15 µm cinders, pollen LF-AD-1 Filter for separating particles As above. Additionally: > approx. 10 µm...
Page 63: Sensitivity And Pipeline Project Planning
® TITANUS MICRO·SENS Pipe Design 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...
Page 64 ® Pipe Design TITANUS MICRO·SENS Procedure In the following example, a project plan is supposed to fulfil class B re- quirements with air filters LF-AD-1, with 4 apertures and without further accessory. The red arrows show the possible project plans with varying pipe shapes and fan voltages.
Page 65 ® TITANUS MICRO·SENS Pipe Design 4 – 15 MS_A_04-en-e Data: 01/09...
Page 66 ® Pipe Design TITANUS MICRO·SENS Results: The following modules may optionally be used with the corresponding settings for class B or A: Detection unit DM-TM-10 – with a sensitivity of 0,1 % LT/m to 0,6 % LT/m Detection unit DM-TM-50 – with a sensitivity of 0,5 % LT/m to...
Page 67: Aperture Diameter
® TITANUS MICRO·SENS Pipe Design 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. 4.3: I –Pipe system Number of apertures Aspiration apertures Sampling aperture ∅...
Page 68 ® Pipe Design TITANUS MICRO·SENS M-Pipe ® TITANUS M-pipe syste m Fig. 4.5: M –Pipe system Number of apertures Aspiration apertures Sampling aperture ∅ in mm — Double-U-Pipe ® Double-U-pipe syste m Fig. 4.6: Double -U –Pipe system Number of apertures Aspiration apertures Sampling aperture ∅...
Page 69: Special Project Planning
4.3.1.1 I-Pipe system 1 Pipe system TITANUS ® MICRO· SENS Fig. 4.7: I-Pipe system for area protection ® min. distance TITANUS – 1 aspiration aperture Limit values ® max. distance TITANUS – 1 aspiration aperture 20 m max.
Page 70 ® Pipe Design TITANUS MICRO·SENS Number of apertures Aspiration apertures per pipe system ∅ Aspiration aperture in mm T P 4 F — — — — — — — — — — Trigger Thresholds I-Pipe system Number of apertures Trigger threshold ±...
Page 71: U-Pipe System
Pipe Design 4.3.1.2 U-Pipe system 1 Pipe system TITANUS ® MICRO·SENS Fig. 4.6: U-Pipe system for area protection ® min. distance TITANUS – T piece Limit values ® max. distance TITANUS – T piece 20 m max. branch length 25 m max.
Page 72 ® Pipe Design TITANUS MICRO·SENS Trigger Thresholds U-pipe System Number apertures per pipe system ± ± 25 % 15 % 1 blocked aperture — — T P 7 F ± ± ± 25 % 20 % 15 % 2 blocked apertures T P 8 F ±...
Page 73: M-Pipe System
M-Pipe system 1 Pipe system ® TITANUS TITANUS ® MICRO ·SENS Fig. 4.8: M-Pipe system for area protection ® min. distance TITANUS – T piece Limit values ® max. distance TITANUS – T piece 20 m max. branch length 16,5 m max.
Page 74 ® Pipe Design TITANUS MICRO·SENS Trigger Thresholds M-pipe System Number apertures per pipe system ± ± 30 % 15 % 1 blocked aperture ± 30 % 2 blocked apertures T P 1 0 F 3 blocked apertures 4 blocked apertures...
Page 75: Double-U-Pipe System
Double-U-Pipe system 1 Pipe system ® TITANUS TITANUS ® MICRO·SENS Fig. 4.9: Double-U-Pipe system for area protection ® min. distance TITANUS – T piece Limit values ® max. distance TITANUS – T piece 20 m max. branch length 12,5 m max.
Page 76 ® Pipe Design TITANUS MICRO·SENS Trigger Thresholds Double U-pipe System Number apertures per pipe system ± 15 % 1 blocked aperture — T P 1 2 F ± ± 30 % 15 % 2 blocked apertures ± 25 % 3 blocked apertures T P 1 3 F ±...
Page 77: Simplified Pipe Design
® TITANUS MICRO·SENS Pipe Design 4.3.2 Simplified pipe design Simplified pipe design is used for equipment protection and in areas with small dimensions. The advantage of this design is the unified diameters of the aspiration apertures. For the project planning’s, the specifications according to chapter 4.2 ap- ply.
Page 78: U-Pipe System
TI T A N U S M I C R O · SEN S TITANUS ® Fig. 4. 11: U-pipe system, e.g. for equipment protection ® min. distance TITANUS – T piece Limit values ® max. distance TITANUS – T piece 20 m max.
Page 79: M-Pipe System
1 Pipe system TITANUS ® MICRO·SENS TITAN US ® Fig. 4. 12: M-Pipe system, e.g. for equipment protection ® min. distance TITANUS – T piece Limit values ® max. distance TITANUS – T piece 20 m max. branch length 16,5 m max.
Page 80: Double-U-Pipe System
® Pipe Design TITANUS MICRO·SENS 4.3.2.4 Double-U-pipe system 1 Pipe system TITANUS ® MICRO·SENS TITANUS ® Fig. 4.13: Double U-pipe system, e.g. for equipment protection Limit values min. distance ® TITANUS – last T piece max. distance ® TITANUS – last T piece 20 m max.
Page 81: Design For Forced Air Flow
® TITANUS MICRO·SENS Pipe Design 4.3.3 Design for Forced Air Flow Monitoring air conditioning ducts Air conditioning plants are divided into low-speed and high-speed plants (see table below). The information given in this chapter applies only to low-speed plants. There is insufficient information from experience with high-speed plants.
Page 82 When a pipe system is built into air conditioning ducts, the following must be observed: • ® As the TITANUS MICRO·SENS and the pipe system are in different pressure areas, there must be an air return arrangement (see following page).
Page 83 ® TITANUS MICRO·SENS Pipe Design A ir c onditioning duc t Duc t a da pte r ® TITA NUS 1/2 b A spira tion A ir re turn Front vie w A ir c onditioning duc t Air stream...
Page 84 ® Pipe Design TITANUS MICRO·SENS Arrangement The aspiration apertures are to be arranged against the air flow. Take care in the design that, for assembling the pipe system, the air conditioning ducts are often only accessible from two sides. Example The following figure shows two design examples of pipe systems in air conditioning ducts.
Page 85: Power Supply
The higher figure of the total current calculated (I ) is used to design total the power supply! INSTRUCTION ® The power consumption of the TITANUS MICRO·SENS can be found in Chapter 3, "Technical Data". 80% charging in 24 hours 4 – 35 MS_A_04-en-e...
Page 86 ® Pipe Design TITANUS MICRO·SENS Line calculation The maximum line length results from the permitted line drop on the feed. The permitted line drop is the difference resulting from the stand-by ac- cus discharge voltage (21.5 V) and the lower operating voltage limit of the aspiration smoke detection system.
Page 87: General
5.1 General The regulations, guidelines and provisions set out in Chapter 4.1 apply. ® The following must be considered when the TITANUS MICRO·SENS aspirating smoke detector is being installed: Interventions, changes and modifications to equipment are to be avoided. If adjustments are unavoidable, they must be discussed with the operator, the manufacturer and/or the supplier (written ap- proval).
Page 88: Installation Site
10 cm distance from other objects Aspiration pipe ® Fig. 5.1: Installation of TITANUS MICRO·SENS Aspiration from above Ensure that the air outlet from the aspirating smoke detector is not blocked. Maintain a distance of at least 10 cm between the air outlet from the TITA- ®...
Page 89 ® MICRO·SENS must be turned by 180°. ATTENTION ® Fig. 5. 2: Turn the cover of the TITANUS MICRO·SENS detection unit ® To turn the cover of the TITANUS MICRO·SENS detection unit by 180 the following steps must be taken: Turn cover Release the 4 screws (for position see Fig.
Page 90 – Head diameter: max. 8 mm Hole distances The dimensions (all dimensions in mm) of the holes for fixing the ® TITANUS MICRO·SENS are shown in the following Figures. ® ® Fig. 5.3: Hole distances TITANUS MICRO·SENS base unit 5 – 4 Data: 01/09 MS_A_05-en-e...
Page 91 Installation 5.2.2 Connecting the air sampling pipe Aspiration pipe ® Fig. 5.4: Connecting the aspiration pipe to the TITANUS MICRO·SENS air sampling smoke detector ® When connecting the air sampling pipe to the TITANUS MICRO·SENS the following steps must be taken: ®...
Page 92 INSTRUCTION The electrical connection is made via screw terminals 1a to 8a and 1b to ® 8b on the TITANUS MICRO·SENS base unit. In so doing, note the per- mitted cable cross-sections on the threaded joints and the permitted wire cross-sections on the terminals for a max.
Page 93 ® TITANUS MICRO·SENS Installation Aspiration pipe connection Terminal block Device base unit Fig. 5.6: Arrangement of screw terminals in the device base unit Alarm and fault contact can be used, for example, to connect to a CFDU or to control signals, guidance systems etc. There is also the option of connecting a parallel display or reaction indicators to the device indicator bus.
Page 94 ® Installation TITANUS MICRO·SENS The installation plate is for all additional modules and prefabricated for the parallel display switching power supply. for up to 2 reset plates AlgoRex line modules ® Network module Switching power supply for parallel display Reset-and isolation button plate...
Page 95: Connection To Cfdu, With Reset Button
Indicator bus Principle of alarm connection Line end or line outlet to next device Resistances depend on the FAS connected ® Fig. 5.9: Example of connecting TITANUS MICRO·SENS to a CFDU and reset button 5 – 9 MS_A_05-en-e Data: 01/09...
Page 96: Incorporating The Reset Board
® Installation TITANUS MICRO·SENS 5.5 Incorporating the reset board The reset board can be used as an option for the TITANUS ® MICRO·SENS . The reset board is mounted in an additional housing. If ® several TITANUS MICRO·SENS are connected to a detection line, then the reset board is only connected into the detection line after the last ®...
Page 97 ® TITANUS MICRO·SENS Installation Reset plate Type E548 ® Fig. 5.10: Fitting the rest board into the TITANUS MICRO · SENS additional housing ® Fitting To fit the reset board into the TITANUS MICRO·SENS additional hous- ing, the following steps must be taken: Using a screwdriver, loosen the four screws on the additional housing cover.
Page 98: Connection To A Cfdu, With Reset Board
- Ub + Ub The reset plate must always be mounted in the last device on the line ® Fig. 5.11: Example of connecting a TITANUS MICRO · SENS to a CFDU and reset board 5 – 12 Data: 01/09 MS_A_05-en-e...
Page 99 If a reset or isolating button is needed, the plate must be fitted into an additional housing. ® Fig. 5.12: Incorporating the reset and isolating board into the TITANUS MICRO·SENS ditional housing Fitting Proceed as follows to incorporate the reset and isolating button board: Using a screwdriver, loosen the four screws on the additional housing cover.
Page 100: Function Switching Plan, Reset And Isolating Button Board
3 4 5 6 7 1 2 3 4 Resistances depend on the FAS connected Reset and Isolating button front plate ® Fig. 5.13: Example of TITANUS connections with reset and isolating button board 5 – 14 Data: 01/09 MS_A_05-en-e...
Page 101 5.7 Incorporating the relay board RU-1/RU-2 If a relay board are needed, the board must be fitted into an additional housing. ® Fig. 5.14: Incorporating the relay board into the TITANUS MICRO·SENS additional housing Fitting Proceed as follows to incorporate the relay board: Using a screwdriver, loosen the four screws on the additional housing cover.
Page 102 Additional housing Relay board RU-1 localization localization localization localization localization room 1 room 2 room 3 room 4 room 5 ® Fig. 5.15: Example of TITANUS MICRO·SENS connections with relay board RU-1 5 – 16 Data: 01/09 MS_A_05-en-e...
Page 103 Device Base detection unit to the next board or parallel display Additional housing Relay board RU-2 action alarm action alarm Fire alarm Fire alarm fault ® Fig. 5.16: Example of TITANUS MICRO·SENS connections with relay board RU-2 5 – 17 MS_A_05-en-e Data: 01/09...
Page 104: Using Titanus Micro·sens
To do that, the alarm contact and the fault contact are joined with a collective detection line. Fig. 5.17 ® shows the preferred connections for the TITANUS MICRO·SENS Ensure the correct polarity when 5.6 V Z diodes are used. INSTRUCTION 5 –...
Page 105: Function Switching Plan, Collective Connection
RE (E3M080 Index Z-Diode 18V Transzorb > BD u. SW>V4.4x) Alarm Alarm Alarm criterion Z-Diode 5,6 V Alar m 5,6 V Siemens Fault Fault ® Fig. 5.17: Collective collection of TITANUS MICRO·SENS with reset button 5 – 19 MS_A_05-en-e Data: 01/09...
Page 106: Use Of The Titanus Micro·sens
These are to be incorporated into an additional housing to complement the device. ® Fig. 5.18: Fitting the line components into the TITANUS MICRO·SENS additional housing Fitting To fit the line components, proceed as follows: Using a screwdriver, loosen the four screws on the additional housing cover.
Page 107 ® TITANUS MICRO·SENS Installation Also comply with the installation instructions enclosed with each line component. INSTRUCTION ® 5.8.3.2 TITANUS MICRO·SENS and AnalogPLUS technology + 24V 1k87 AnalogPLUS-Line from 4k75 central unit 1k87 4k75 AnalogPLUS-Line to central unit or to input...
Page 108 ® Installation TITANUS MICRO·SENS ® 5.8.3.3 TITANUS MICRO·SENS and interactive technology + 24V 1k87 Interactive line 4k75 from central unit 1k87 4k75 Interactive Line to central unit or to input component DC 1157-AA of the next device Reset- button Reset +...
Page 109: Fitting The Network Module Into The
With the aid of a screwdriver, loosen the four screws on the additional housing cover. ® Fit the network module into the TITANUS MICRO·SENS addi- tional housing (for fixing points see Fig. 5.8). The network module is connected as per Fig. 5.22.
Page 110 . Fig. 5.22 shows the electrical switching plan which must be followed for this in the aspirating smoke detector. ® To operate the TITANUS MICRO·SENS in a network, more information is needed about the bus system and the PC software.
Page 111: Parallel Displays
Device base unit ® Fig. 5.23: Connection of parallel display to TITANUS MICRO·SENS To connect the parallel display, take the following steps: Using a screwdriver loosen the four screws on the TITANUS ® MICRO·SENS detection unit. Feed the fire alarm cable through the cable entry on the ®...
Page 112: Parallel Display Housing
® Installation TITANUS MICRO·SENS 5.10.2 Parallel display housing Fitting the front film Ca ble e ntr y Ca ble e ntr y Ca ble e ntr y Fr ont fi lm Parallel display unit in wall housing (optional) Ca ble e ntr y Fig.
Page 113: Electrical Connection
5.10.3 Electrical connection Connect the parallel displays via the terminal block 7b and 8b indicator ® bus on the device base unit of the TITANUS MICRO·SENS . The power ® is supplied via TITANUS MICRO·SENS or for greater distances, exter- ®...
Page 114: Reaction Indicator
® Installation TITANUS MICRO·SENS 5.11 Reaction indicator 5.11.1 Addressing the reaction indicators Test Permanent or flashing light Reaction indicator A Reaction indicator B Reaction indicator C TEST Reaction indicator D Reaction indicator E Permanent or flashing light Fig. 5.26: Reaction indicator board with fire location Addressing the up to 5 reaction indicators happens by setting up switch S1 on the board.
Page 115: Connecting The Reaction Indicator To The
Reaction Indicator B Flashing light Reaction indicator A Reaction indicator B Reaction indicator C TEST Reaction indicator D Reaction indicator E Permanent or flashing light ® Fig. 5.29: Connecting the reaction indicators to TITANUS MICRO·SENS 5 – 29 MS_A_05-en-e Data: 01/09...
Page 116 The components on the board are to be protected against damage from electrostatic charges. ATTENTION ® Proceed as follows to insert the TITANUS MICRO·SENS in the device base unit: Put the device in the pre-mounted device base. When inserting the detection unit, note the mechanical coding, this protects the device against twisting.
Page 117: Settings
00000 Serial No. Fig. 5.32: Height, Air Pressure and Fan Voltage settings ® In the diagnostic software, the current TITANUS MICRO·SENS figures are displayed on the Settings screen. The figures can be changed by pressing the Settings button. 5 – 31...
Page 118: Setting Reaction Sensitivity
The alarm delay time should be set to 0 seconds only for testing pur- poses. 5.13.1.3 Threshold for air flow monitoring The threshold for air flow monitoring can be changed for the detection ® unit by using the diagnostic tool for TITANUS MICRO·SENS Threshold Threshold Settings stages Standard...
Page 119: Delay Time For Air Flow Fault
5.13.1.4 Delay time for air flow fault If you want to change the delay time for forwarding an air flow fault, this ® can be done by using the diagnostic tool for TITANUS MICRO·SENS Settings Fault delay Fault delay stages...
Page 120: Dynamic Air Flow
– on 5.13.1.9 LOGIC·SENS LOGIC·SENS intelligent signal processing can be activated or deacti- ® vated by using the diagnostic tool for TITANUS MICRO·SENS . If signal evaluation is switched on, LOGIC·SENS prevents false alarms by recog- nising short-term fault variables. LOGIC·SENS LOGIC·SENS...
Page 121: Fire Alarm Threshold After Room·ident
5.13.1.11 Setting the ventilator voltage The standard setting for the ventilator voltage is 9 V. In critical applica- tions the ventilator voltage can be set higher by using the TITANUS ® MICRO·SENS diagnostic tool, to raise the transport speed in the pipe system and thus guarantee faster detection where there are longer pipe runs.
Page 122: Inputting The Current Air Pressure
The figure for the height above normal sea level is that for the installation ® site of the TITANUS MICRO·SENS above sea level. The figure is input by using the diagnostic tool. The standard setting is 0 m. The figure has to be changed if the device’s air flow sensory analysis has to be balanced...
Page 123: Data Logging
(±10°) of up to 3 m distance to the infrared interface. The data are read via an infrared interface on the TITANUS ® MICRO·SENS using the DIAG 3 which is connected to the USB inter- face on the PC by a USB cable.
Page 124 ® Installation TITANUS MICRO·SENS 5 – 38 Data: 01/09 MS_A_05-en-e...
Page 125: Installation Pipe System
® TITANUS MICRO·SENS Installation Pipe System 6 Installation Pipe System The pipes and fittings used for the pipe system must always meet re- quirements for Class 1131 in accordance with EN 61386-1, 2004. Class 1131 puts the following requirements on the pipe system used:...
Page 126 Arcs should be used instead of elbows. If there are too many direction ® changes, an air flow fault can occur in TITANUS and detection time can be affected. INSTRUCTION 4.
Page 127: Linear Expansion Of The Pipe System
® TITANUS MICRO·SENS Installation Pipe System 6.1 Linear expansion of the pipe system Linear expansions (lengthening or shortening) of the pipe system are caused by variations in temperature. An increase in temperature results in lengthening of the pipe, a decrease in temperature shortens the pipe. It is very important to take this into consideration if the installation tempera- ture differs considerably in comparison to the operating temperature.
Page 128 ® Installation Pipe System TITANUS MICRO·SENS There are two fixing points for the plastic pipe clip CLIC-PA when install- ing 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).
Page 129: Patented Air Sampling Points
® TITANUS MICRO·SENS Installation Pipe System 6.2 Patented air sampling points Fig. 6.2: Example of an air sampling point with aspiration-reducing film sheet Air sampling point Design air sampling points (bore holes) and their positioning according to project requirements and pipe design guidelines.
Page 130 ® Installation Pipe System TITANUS MICRO·SENS Fig. 6.3: Attaching the aspiration-reducing film sheet 6 – 6 Data: 01/09 MS_A_06-en-e...
Page 131: Ceiling Lead Through
® TITANUS MICRO·SENS Installation Pipe System 6.3 Ceiling lead through Fig. 6.4: Installation of ceiling feed-through To install the ceiling feed-through use the following steps: Before gluing remove dirt and grease with the recommended clea- ner. Glue the hose connector to the corresponding T-piece with Tangit glue.
Page 132 ® Installation Pipe System TITANUS MICRO·SENS The aspiration-reducing film sheets are available in two colours. Depend- ing on the colour of the ceiling, either type AFW-x (pure white, RAL 9010) or type AF-x (papyrus white, RAL9018) are used. On request, film sheets in special colours are produced.
Page 133: Detection In Bypass Systems
For connection of air return refer to chapter 6.6 "Air Return". Fig. 6.6: Positioning of air return, example of a climatic duct (bypass) ® For the pipe design of TITANUS MICRO·SENS in these areas see chap- ter 4.3.4 “Pipe Design for Forced Air Flow“.
Page 134: Filter
® Installation Pipe System TITANUS MICRO·SENS 6.5 Filter 6.5.1 Installation of air filter, type LF-AD-x PG29-threaded joint PG29-threaded joint Air sampling pipe Air sampling pipe Union nut Union nut Fig. 6.7: Spacing for bore holes on base of air filter housing...
Page 135 TITANUS MICRO·SENS Installation Pipe System 6.5.2 Mounting of the special filter type SF-400/650 Clamping clip type NG 23 Elbow 45° Special filter for ADx and TITANUS type SF-650 type SF-400 Elbow 45° Clamping clip type NG 23 i n g...
Page 136: Air Return
TITANUS ® Fig. 6.9: Mounting of the air return Feed the air return into the pipe connection provided on the TITANUS ® MICRO·SENS . As the air return pipe sits perfectly in the connection, it will be held securely.
Page 137: Noise Suppressor
® TITANUS MICRO·SENS Installation Pipe System 6.7 Noise suppressor noise suppre ssor TITANUS ® Fig. 6.10: Mounting of noise suppressors 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 ®...
Page 138: Way Ball Valve
Pressed air is compressed, non-purified surround air, containing humidity. Compressed air ⋅ ® is purified and de-humidified. If TITANUS TOP SENS and the pipe system are located in areas below freezing, compressed air must be used for blow-through.
Page 139: Steam Trap
Fig. 6.12: Mounting of the steam trap to the pipe system Install the steam trap at the lowest point in the pipe system, before the ® air filter and the TITANUS MICRO·SENS . Fit the steam trap to the pipe system using the PG threaded joints.
Page 140: Test Adapter
® Installation Pipe System TITANUS MICRO·SENS 6.10 Test adapter PVC-test adapter type PA-PVC Fig. 6.13: Installing the test adapter in the pipe system The test adapter is stuck into the pipe system immediately next to the air sampling smoke detection system. The test adapter must always be closed during normal operation and is only opened for maintenance and service purposes, to introduce test gas or smoke.
Page 141: Commissioning The Detection Unit
INSTRUCTION 7.1 Commissioning the detection unit Before the detection unit is used, the pipe system must be installed in full, ® be operational and be connected to the TITANUS MICRO·SENS device base. TITANUS MICRO · SENS ®...
Page 142: Plug And Play Commissioning
When the TITANUS MICRO·SENS is initialising, the green operating display flashes. When initialising is complete, the operating display changes to a permanent light. ® During the initialising phase, the TITANUS MICRO·SENS air flow should not be influenced. Device base PIN 1 and 2...
Page 143: Installing Diagnostics Software
PC using the enclosed USB cable. The diagnosis software is started via the DIAG 3 button. ® , the software If the DIAG 3 recognises a TITANUS MICRO·SENS goes via the current device number into the following screen. MICRO · SENS ®...
Page 144 ® Commissioning TITANUS MICRO·SENS For correct colour representation, the monitor used and the graphics card must be able to show more than 256 colours. INSTRUCTION 7 – 4 Data: 01/09 MS_A_07-en-e...
Page 145: Air Flow Sensor Adjustment
Commissioning 7.3 Air flow sensor adjustment ® Air flow initialising for the TITANUS MICRO·SENS is completed suc- cessfully if a stable status for temperature and air flow is set for a pe- riod of 2 minutes. The maximum duration is 2 hours.
Page 146: Air Pressure-Dependent Adjustment
® Commissioning TITANUS MICRO·SENS 7.3.2 Air Pressure-Dependent Adjustment This kind of adjustment can only be carried out by using the diagnostics tool. A barometer is required for air pressure-dependent adjustment of the air flow sensor. The following steps must be taken: Press the “Settings”...
Page 147 ® TITANUS MICRO·SENS Commissioning MICRO · SENS ® TITANUS (Date Time) File Record Settings Device-Selection Status Fault messages Settings ROOM-IDENT 0,500 Sensitivity (Fire alarm) Fault latched Alarm delay Dynamic air flow Air flow range ROOM-IDENT Fault delay LOGIC SENS LOGIC SENS...
Page 148 Commissioning TITANUS MICRO·SENS 7.4 Testing the detection unit and alarm forwarding ® Trigger the TITANUS MICRO·SENS and test the transmission route to the FAS as follows: Spray the test aerosol either into the first aspiration aperture or into ® the TITANUS MICRO·SENS pipe system test adapter.
Page 149: Testing Air Flow Monitoring
ATTENTION Pipe breaks Test that a pipe break will be recognised: ® 1. Loosen the pipe at the connection to the TITANUS MICRO·SENS open the test adapter. 2. Check whether the fault display on the aspirating smoke detector is flashing.
Page 150: Testing Fault Forwarding
® Commissioning TITANUS MICRO·SENS 7.6 Testing fault forwarding The following steps can only be taken after air flow adjustment as described in Chapter 7.3 "Air Flow Sensor Adjustment" has been carried out. ATTENTION Test fault forwarding. Check when testing air flow monitoring whether a fault is displayed on the ®...
Page 151: Preparations For Function Testing
Release the pipe system from the TITANUS MICRO·SENS ® After the pipe system is released from the TITANUS MICRO·SENS the air flow fault delay time has elapsed, it signals a fault. If no air flow fault is recognised, the device is defective.
Page 152 ® Commissioning TITANUS MICRO·SENS ® Connect the PC to the TITANUS MICRO·SENS through the diagnosis interface and start the diagnosis program. In the diagnosis tool, open the “Settings“ screen and set the follow- ing settings for function testing: ® TITANUS MIC RO · SENS...
Page 153: Carrying Out Function Testing
Close all the aspiration holes on the test pipe with some sticky tape. ® The negative pressure generated by the TITANUS MICRO·SENS must, after a short running time, be 80 Pa. For limited function test- ing without the digital precision manometer, this step is omitted.
Page 154 Chapter 7.3 “Air Flow Sensor Adjustment“. Connection testing Test whether ... ® 1. The pipe system is firmly connected to the TITANUS MICRO·SENS pipe connection. 2. All pipe fittings are glued and the pipe system is sealed tight. For this, first close all aspiration apertures (e.g.
Page 155: Commissioning Fire Seat Location
® TITANUS MICRO·SENS Commissioning 7.8 Commissioning fire seat location Locating the seating of a fire is undertaken using the diagnosis tool in the „ROOM·IDENT“ screen. MICRO · SENS ® TITANUS (Date Time) File Record Settings Device-Selection Status Fault messages Settings...
Page 156 ® Commissioning TITANUS MICRO·SENS MICRO · SENS ® TITANUS (Date Time) File Record Settings Device-Selection Status Fault messages Settings ROOM-IDENT 50,0 Amount of aspiration points 40,0 60,0 Blow out time 13,5 Blow out fan 30,0 12,0 Intake fan Pre selection time...
Page 157 ® TITANUS MICRO·SENS Commissioning ? Blow through ventilator The operating voltage for the blow through ventilator should if possible be kept at 13.5V for location. It can be changed as follows for special applications: Operating Status Voltage (V) - for an optimum (short) blow through time 13.5 V...
Page 158 ® Commissioning TITANUS MICRO·SENS The aspiration point for which the transport time is to be determined is now selected by clicking. For each aspiration point selected, the pre-selected time required for reaching the aspiration point and providing the smoke must be entered. When the pre-selected time has lapsed, the particular smoke detection point must be charged with smoke.
Page 159: Commissioning The Reaction Indicators
® TITANUS MICRO·SENS Commissioning 7.9 Commissioning the reaction indicators An indicator is selected in the “ROOM·IDENT” screen for testing the ad- dress setting for the reaction indicators during commissioning. You can then test whether the right reaction indicator is lit up and as set is either flashing or on permanently.
Page 160 ® Commissioning TITANUS MICRO·SENS 7 – 20 Data: 01/09 MS_A_07-en-e...
Page 161: Maintenance
Use a portable compressed air bottle to do this (blow through device) or press the manual blow through equipment installed on site. Before blowing through the pipe system, separate the TITANUS ® MICRO·SENS from the pipe system, as otherwise the air flow sensor will be damaged.
Page 162: Exchanging The Detection Unit
® Maintenance TITANUS MICRO·SENS 8.4 Exchanging the detection unit Fig. 8.3: Exchanging the detection unit With the aid of a screwdriver, loosen the four screws on the detection unit and remove it from the device base. When inserting the new detection unit, note the mechanical coding, this protects the device against twisting.
Page 163 Air filter mounting Filter insert ® Fig. 8.4: Exchanging the type AF-HBTM air filter in the TITANUS MICRO·SENS device base With the aid of a screwdriver, loosen the four screws on the detection unit and remove it from the device base.
Page 164 Replace the housing cover and screw it down again. When used where there is mainly fine dust, three optional fine dust filters can be used. Opening the device cover on the LF-AD air filter on the TITANUS ® MICRO·SENS can lead to an air flow fault.
Page 165 Replace the special filter in the pipe system and fix it with the PVC transition threaded joints. When the special filter is being installed, pay attention to the throughflow direction! INSTRUCTION Opening the special filter will produce an air flow fault on the TITANUS ® MICRO·SENS INSTRUCTION 8 – 5...
Page 166: Pipe System Blow Through Process
® Maintenance TITANUS MICRO·SENS 8.8 Pipe system blow through process 3-way muff ball valve (max.16 bar) TITANUS MICRO · SENS ® Scheme of the ball valve: position 0° position 90° position 180° Fig. 8.7: Lever position on the ball valve...
Page 167 ® TITANUS MICRO·SENS Maintenance 8.9 Checking the air flow sensor adjustment Test the air flow sensor value using the diagnosis software. Operating principle Whilst the connected pipe system is initialising, the device first stores the measured actual value of the air flow as an ideal value, via integrated air flow monitoring.
Page 168 ® Maintenance TITANUS MICRO·SENS Clearing an air flow fault If air flow adjustment was conducted as air pressure-dependent and the actual value is still no longer within the tolerance range for the air flow threshold selected (air flow fault signalled by the device), then there must be another fault variable apart from any air pressure or temperature oscillation.
Page 169: Testing Fire Seat Location And The Reaction Indicators
® TITANUS MICRO·SENS Maintenance 8.10 Testing fire seat location and the reaction indicators Testing fire seat location and the reaction indicators. ® MICRO · SENS (Date Time) TITANUS File Record Settings Device-Selection Status Fault messages Settings ROOM-IDENT Test external indicators...
Page 170: Testing Air Flow Monitoring
Test air flow monitoring in accordance with the instructions described in Chapter 7.5 "Air Flow Monitoring". 8.12 Testing Fault Forwarding ® A fault is displayed on the TITANUS MICRO·SENS and possibly on the FAS. Proceed as described in Chapter 7.6 "Fault Forwarding ".
Page 171 Appendix Projection Tables System Product List Certificate of Approval of Components and Systems EMC Declaration of Conformity Inspection Protocol Glossary Conformity certification pursuant to EU...
Page 173 Projection without filter Number of points Sensitivity Type (% Lt/m) DM-TM-10 DM-TM-50 without pipe accessories or with detector box or VSK Pipe shape ≥9 ≥9 ≥9 ≥9 Double U with OXY·SENS and detector box or with steam trap or with VSK and detector box Pipe shape ≥9 ≥9...
Page 174 Projection with air filter LF-AD Number of points Sensitivity Type (% Lt/m) DM-TM-10 DM-TM-50 without additional pipe accessories or with detector box or VSK Pipe shape ≥9 ≥9 ≥9 ≥9 Double U with OXY·SENS and detector box or with steam trap or with VSK and detector box Pipe shape ≥9 ≥9...
Page 175 Projection with air filter LF-AD -1 Number of points Sensitivity Type (% Lt/m) DM-TM-10 DM-TM-50 without additional pipe accessories or with detector box Pipe shape ≥9 ≥9 ≥9 ≥9 Double U with OXY·SENS and detector box or with steam trap or with VSK and/or detector box Pipe shape ≥9 ≥9...
Page 176 Projection with air filter LF-AD-2 Number of points Sensitivity Type (% Lt/m) DM-TM-10 DM-TM-50 without additional pipe accessories or with detector box Pipe shape ≥9 ≥9 ≥9 ≥9 Double U with OXY·SENS and detector box or with steam trap or with VSK and detector box Pipe shape ≥9 ≥9...
Page 177 Projection with SF-400 / SF-650 Number of points Sensitivity Type (% Lt/m) DM-TM-10 DM-TM-50 without additional pipe accessories Pipe shape ≥9 ≥9 ≥9 ≥9 Double U with detector box and/or VSK Pipe shape ≥9 ≥9 ≥9 ≥9 Double U...
Page 179 <Z> type DM-TM-ZB-10 <2> <> <0>=Generic purch. item, <1>=Purch. item fixed vendor, <2>=Proprietary develop. (ANT/develop.), <3>=in-house prod. (ANT/develop./prod.), <4>=Compon. 140l Fl. <AM>=discontinued model, <Z> = approved, =compulsory purchase, purchase only via WAGNER head office, <L>=compulsory supplier, purchase via fixed supplier...
Page 180 <Z> type DM-TMV-10 <2> <> <0>=Generic purch. item, <1>=Purch. item fixed vendor, <2>=Proprietary develop. (ANT/develop.), <3>=in-house prod. (ANT/develop./prod.), <4>=Compon. 140l Fl. <AM>=discontinued model, <Z> = approved, =compulsory purchase, purchase only via WAGNER head office, <L>=compulsory supplier, purchase via fixed supplier...
Page 181 <Z> type DM-TMV-RB-50 <2> <> <0>=Generic purch. item, <1>=Purch. item fixed vendor, <2>=Proprietary develop. (ANT/develop.), <3>=in-house prod. (ANT/develop./prod.), <4>=Compon. 140l Fl. <AM>=discontinued model, <Z> = approved, =compulsory purchase, purchase only via WAGNER head office, <L>=compulsory supplier, purchase via fixed supplier...
Page 182 <Z> type DM-TMV-B-50-F <2> <> <0>=Generic purch. item, <1>=Purch. item fixed vendor, <2>=Proprietary develop. (ANT/develop.), <3>=in-house prod. (ANT/develop./prod.), <4>=Compon. 140l Fl. <AM>=discontinued model, <Z> = approved, =compulsory purchase, purchase only via WAGNER head office, <L>=compulsory supplier, purchase via fixed supplier...
Page 183 <Z> type FW-AB-1 <2> <> <0>=Generic purch. item, <1>=Purch. item fixed vendor, <2>=Proprietary develop. (ANT/develop.), <3>=in-house prod. (ANT/develop./prod.), <4>=Compon. 140l Fl. <AM>=discontinued model, <Z> = approved, =compulsory purchase, purchase only via WAGNER head office, <L>=compulsory supplier, purchase via fixed supplier...
Page 184 (set = 6 candles) <0> <> <0>=Generic purch. item, <1>=Purch. item fixed vendor, <2>=Proprietary develop. (ANT/develop.), <3>=in-house prod. (ANT/develop./prod.), <4>=Compon. 140l Fl. <AM>=discontinued model, <Z> = approved, =compulsory purchase, purchase only via WAGNER head office, <L>=compulsory supplier, purchase via fixed supplier...
Page 185 DC 1157-AA, VdS-no.: G 299 031 <1> <> <0>=Generic purch. item, <1>=Purch. item fixed vendor, <2>=Proprietary develop. (ANT/develop.), <3>=in-house prod. (ANT/develop./prod.), <4>=Compon. 140l Fl. <AM>=discontinued model, <Z> = approved, =compulsory purchase, purchase only via WAGNER head office, <L>=compulsory supplier, purchase via fixed supplier...
Page 186: Spare Parts
DB-DIAG 3-TR <0> <> <0>=Generic purch. item, <1>=Purch. item fixed vendor, <2>=Proprietary develop. (ANT/develop.), <3>=in-house prod. (ANT/develop./prod.), <4>=Compon. 140l Fl. <AM>=discontinued model, <Z> = approved, =compulsory purchase, purchase only via WAGNER head office, <L>=compulsory supplier, purchase via fixed supplier...
Page 187 <Z> type SP-TM-4 <0> <> <0>=Generic purch. item, <1>=Purch. item fixed vendor, <2>=Proprietary develop. (ANT/develop.), <3>=in-house prod. (ANT/develop./prod.), <4>=Compon. 140l Fl. <AM>=discontinued model, <Z> = approved, =compulsory purchase, purchase only via WAGNER head office, <L>=compulsory supplier, purchase via fixed supplier...
Page 188 <Z> type DM-TM-R-50/a <2> <AM> <0>=Generic purch. item, <1>=Purch. item fixed vendor, <2>=Proprietary develop. (ANT/develop.), <3>=in-house prod. (ANT/develop./prod.), <4>=Compon. 140l Fl. <AM>=discontinued model, <Z> = approved, =compulsory purchase, purchase only via WAGNER head office, <L>=compulsory supplier, purchase via fixed supplier...
Page 197 ® Testing record for Aspirating Smoke Detection System of the TITANUS MICRO · SENS type Device number Detection unit serial number Device base serial number Measure/ + Measure / + Measure/ + Measure/ + Measure/ + Measure/ + Setting Setting...
Page 199 ® TITANUS MICRO·SENS Glossary Glossary Technical Term Definition Aerosol An aerosol is a floating particle in the microscopic or submicroscopic particle size range. It consist of Also: smoke aerosol unburned parts of the fire load, intermediate products of the oxidation and finely divided carbon (soot).
Page 200 ® TITANUS MICRO·SENS Glossary Collective effect A phenomenon common only to air sampling smoke detection systems. The sensitivity of the individual detection points (smoke sampling points), in contrast to point-type detectors, does not remain constant. The sensitivity of the individual air sampling points depends on the →...
Page 201 Interferences in smoke detection installations are external values which can impair the proper functioning of a smoke detection installation. ® Line module By means of line modules (AnalogPLUS ® interactive) TITANUS MICRO·SENS can be ® connected to the AlgoRex -smoke detection system. LOGIC·SENS Via the LOGIC·SENS switch the intelligent signal...
Page 202 Secondary line Non-monitored transmission lines. ® Sensitivity The TITANUS MICRO·SENS reaction threshold can be set at between 0.5 %/m and 2 %/m light extinction in steps of 0.1%/m. Single hole monitoring Detection of changes (e.g. blockages) of the diameter of each single air sampling point.
Page 203 ® TITANUS MICRO·SENS Glossary Two-detector dependency A system to verify alarm states. The fire alarm is activated after two detectors of a →detector group have raised the alarm. When the first detector has given an internal alarm a control function can be activated.
Page 204 ® TITANUS MICRO·SENS Glossary TMS_A_Glossar-e – Data: 01/09...
Page 205 (ID no. 0786, VdS). • The CE designation according to DIN EN 54-20 has been carried out. 0786 WAGNER Group GmbH Schleswigstrasse 1 - 5 30853 Langenhagen Nr. 0786 – CPD – 20322 EN 54-20: 2006 Air sampling smoke detector for fire detection...
Page 207 Cambridge CB22 3JH info@wagner-nl.com +44 (0)870 - 3336116 +44 (0)870 - 3334544 info@wagner-uk.com WAGNER SCHWEIZ AG WAGNER Poland Sp. z o.o. i Sp. k. Industriestrasse 44 ul. Puławska 38 CH-8304 Wallisellen PL 05-500 Piaseczno +41 (0)44 - 8325400 +48 (0)22 - 7263550...

WAGNER TITANUS Technical Manual

5 Installation TITANUS MICRO·SENS

1 Product Description

2 Technical Description

3 Technical Data

4 Design

6 Installation Pipe System

7 Commissioning

8 Maintenance

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