Page 1 Air sampling smoke detection system Fire Detection TOP·SENS TITANUS Rev.a ® Technical Manual...
Page 3: Technical Manual
Air sampling smoke detection system TOP·SENS TITANUS ® Rev. a Technical Manual Item Number 69-30-0336 WAGNER Group GmbH Schleswigstraße 1 - 5 Edition 04/13 D-30853 Langenhagen Telephone +49 (0) 511 / 97383-0 Supersedes 08/12 Telefax +49 (0) 511 / 97383-140 E-Mail support@wagner.de...
Page 5: Table Of Contents
TOP·SENS TITANUS ® Inhaltsverzeichnis Contents General Introduction Safety Information Disclaimer Copyright Packaging Disposal Product Description Features of the TITANUS air sampling smoke detection ® system Areas of Application Technical Description System Description 3.1.1 Function TOP·SENS TITANUS and accessories ® 3.2.1 Overview TOP·SENS 3.2.2...
Page 6 TOP·SENS TITANUS Inhaltsverzeichnis ® 3.3.2.1 Aspiration-reducing film sheets 3.3.2.2 Air flow reducer clips 3.3.2.3 Ceiling feed-through for hidden installationse 3.3.3 Air filter for dusty areas 3.3.4 Air return for pressurised and dusty areas 3.3.5 Noise suppressor 3.3.6 Steam trap for humid areas Technical Data TOP·SENS TITANUS...
Page 7 TOP·SENS TITANUS ® Inhaltsverzeichnis Special project planning 5.3.1 Project planning for air sampling port monitoring 5.3.1.1 I-pipe system 5.3.1.2 U-shape pipe system 5.3.1.3 M-pipe system 5.3.1.4 Double U-pipe system 5.3.2 Simplified pipe project planning 5.3.2.1 I-pipe system 5.3.2.2 U-pipe system 5.3.2.3 M-pipe system 5.3.2.4 Double U-pipe system 5.3.3...
Page 8 TOP·SENS TITANUS Inhaltsverzeichnis ® 6.3.1.7 Setting of fan voltage 6.3.1.8 Connecting the fan 6.3.1.9 TITANUS -SL: Fan voltage setting ® TOP·SENS 6.3.1.1 Connecting the fan TITANUS ® Mounting instructions TOP·SENS 6.4.1 Installation of TITANUS air sampling smoke ® detection system 6.4.2 Connection of air sampling pipe Electrical connection...
Page 9 TOP·SENS TITANUS ® Inhaltsverzeichnis Filter 7.6.1 Air filter installation, type LF-AD-x 7.6.2 Mounting of the special filter type SF-400/650 Air return Noise suppressor 3-Way ball valve 7.10 Steam trap 7.10.1 Steam trap Type KA-DN-25 7.10.2 Steam trap Type KA-1 7.11 Test adapter Commissioning Adjustment Air Flow Sensor...
Page 10 TOP·SENS TITANUS Inhaltsverzeichnis ® 9.2.1 1 x Flashing (Fault: Internal Voltage Monitoring 1) 9.2.2 2x Flashing (Fault: Internal Voltage Monitoring 2) 9.2.3 3x Flashing (Fault: Monitoring Fan Voltage) 9.2.4 4x Flashing (Fault: Monitoring of Air Pressure Adjustment Voltage ) 9.2.5 5x Flashing (Fault: Programme Error) 9.2.6 6x Flashing or 7x Flashing (Internal Fault 1 and 2)
Page 11 ® TITANUS Glossary Glossary Technical Term Definition Aerosol An aerosol is a floating particle in the microscopic or submicroscopic particle size range. Consists of Also: smoke aerosol unburned parts of the fire load, intermediate products of the oxidation and finely divided carbon (soot).
Page 12 ® TITANUS Glossary Concentration of Values The concentration of values is an important factor for the evaluation of the fire risk. It is calculated with the values to be protected. An added consideration is the replace ability of the endangered goods. Cumulative effect A phenomenon common only to air sampling smoke detection systems.
Page 13 ® TITANUS Glossary Electromagnetic compatibility (EMC) This is the ability of an electrical or electronic system to operate correctly in its electromagnetic environment and have no adverse affect on this environment. End-of-line resistor Element at the end of a →detection or control line to check the line for broken wires and short circuits.
Page 14 ® TITANUS Glossary Loop line →Detection line which forms a loop from the fire alarm control panel via the →smoke detectors and back to the fire alarm control panel to increase operation reliability. Monitoring area Area which is monitored by an automatic fire detector.
Page 15 ® TITANUS Glossary Cross group zoning System to verify alarm status. The fire alarm is activated after one detector of two related →detector groups has been activated. When the first detector has been activated an internal alarm or control function can be activated. Cross zoning alarm verification A second detector module with usually a lower sensitivity setting is used to verify an alarm made...
Page 16 ® TITANUS Glossary TITANUS_Glossar-UL.DOC – Data: 04/09...
Page 17: General
For damage and faults resulting from the non-observance of this manual, WAGNER Group GmbH, along with its affiliates, subsidiaries and representatives (collectively “Wagner”) does not assume liability.
Page 18: Safety Information
TOP·SENS TITANUS General ® with all safety-related processes and regulations in your area. This also includes how to act in the event of an alarm and the initial steps to take if a fire breaks out. The operating instructions must always be available on site. It is a required part of the system and must be given to the new owner if the system is ever sold.
Page 19 TOP·SENS TITANUS ® General agrees that Wagner is not liable for any claims of any kind for damage or injury resulting from any one or more of the follow- ing: ▪ insufficient observance of the instructions about the design, assembly of the aspirating smoke detection system, assem- bly of the pipe system, commissioning and maintenance ▪...
Page 20: Copyright
TITANUS General ® Copyright The copyright in this Technical Manual remains with WAGNER. The manual is designed exclusively for the assembler and his colleagues. 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 21: Disposal
If no return or disposal agreements have been made, disas- sembled components must be disposed and/or recycled in ac- cordance with local ordinances and regulations. Wagner sup- ports eco-friendly policies and encourages the user to recycle disassembled components where possible.
Page 23: Product Description
Like spot-type detectors, which are electronically monitored in order to detect line fractures and short circuits, air sampling sys- tems require complex and safe air flow monitoring. The unique air flow sensor technology used in all WAGNER air sampling 04/13...
Page 24 Patented detection ports The air sampling ports have defined hole diameters in accord- ance with the pipe planning. Wagner´s patented pre measured aspiration-reducing film sheets and marking tape allow easy in- stallation. This also reduces the secondary noise side effect.
Page 25: Areas Of Application
TOP·SENS TITANUS ® Product Description ▪ The voltage can be set to 6.5 V, 6.9 V and 9 V with the FC-2 fan control circuit board. The FC-2 fan control circuit board is TOP·SENS standard in all TITANUS -SL devices. ®...
Page 26 TOP·SENS TITANUS Product Description ® ▪ where filters are required due to impurities in the atmos- phere ▪ which must be protected from vandalism 04/13...
Page 27 TOP·SENS TITANUS ® Product Description TITANUS is suitable for: ® Room protection Rooms such as: ▪ raised floors, dropped ceilings ▪ tunnels, ducts, voids with difficult access ▪ storage areas, high-rack storage, elevator shafts ▪ museums, cultural centre ▪ deep-freeze storage Pipe system: Raised Figure 1: Principle room monitoring with the TITANUS air sampling smoke detection...
Page 28 TOP·SENS TITANUS Product Description ® Room monitoring with air Room monitoring takes place conditioning ▪ in air-conditioned rooms for servicing etc ▪ in ventilation ducts ▪ of raised floors, dropped ceilings ▪ in EDP rooms, E-distribution cabinets, transformer cells ▪ in climatic cabinets or ▪...
Page 29 TOP·SENS TITANUS ® Product Description Equipment protection non-ventilated and power-ventilated devices/cabinets such as ▪ distribution cabinets, switch cabinets ▪ telephone switching equipment ▪ measuring and control units Figure 3: Principle Equipment monitoring with TITANUS air-sampling smoke detec- ® tion system The air sampling system TITANUS can also be used for early ®...
Page 31: Technical Description
TOP·SENS TITANUS ® Technical Description Technical Description System Description The TITANUS Air Sampling Smoke Detection System consists ® of the basic device and the pipe system. The most important components of the basic device include the sensitive detector modules for the detection of smoke aerosols and the aspiration unit to carry air samples to the detector mod- ule.
Page 32: Function
TOP·SENS TITANUS Technical Description ® 3.1.1 Function The aspiration unit in the basic device takes air samples from the protected area via a pipe system with defined sampling ports and carries them to the sensitive detector module (see fig. Air sampling system TITANUS ®...
Page 33 TOP·SENS TITANUS ® Technical Description ▪ increase of aerosol or dirt particles in the protected area de- pending on activity (e.g. maintenance work, welding or in- crease of steam, waste gases and dust). SENS LOGIC· TITANUS incorporates an intelligent signal processing system ®...
Page 34 TOP·SENS TITANUS Technical Description ® Figure 5: Signal curve of air flow sensor during fault Fault signal A fault in the detector module or air flow activates a fault signal which is displayed on the TITANUS display. The fault display ®...
Page 35 TOP·SENS TITANUS ® Technical Description after each modification to the pipe design and after any change of fan voltage. Thus, the device determines and memorises the air flow characteristics of the pipe network. Pipe system A pipe system up to a total length of 984 ft (300 m) with a max- imum number of 100 air sampling ports can be connected.
Page 36: Titanus Top·sens ® And Accessories
TOP·SENS TITANUS Technical Description ® TOP·SENS TITANUS and accessories ® 3.2.1 Overview Figure 6: Overview TITANUS ® The above components are optional extras. 04/13...
Page 37: Basic Device Titanus Top·sens
TOP·SENS TITANUS ® Technical Description TOP·SENS 3.2.2 Basic device TITANUS ® TOP·SENS The TITANUS basic device includes the following ® components: ▪ plastic housing – plastic connection pieces – connector for pipes with an outer diameter of 0.98 in (25 –...
Page 38 TOP·SENS TITANUS Technical Description ® Figure 7: Displays and connections TITANUS TOP•SENS ® Figure 8: Displays TITANUS TOP•SENS ® Figure 9: Displays TITANUS TOP•SENS ® 04/13...
Page 39 TOP·SENS TITANUS ® Technical Description TOP·SENS TITANUS ® Numbers Function Explanation Displays smoke level indicators 1 to 10 (10 actual smoke level yellow LED’s) in operation (green LED) operation display fire alarm (red LED) 100% smoke level action alarm (red LED) 66% smoke level alert alarm (red LED) 33% smoke level...
Page 40: Diagnostics
TOP·SENS TITANUS Technical Description ® 3.2.3 Diagnostics Figure 10: Diagnostic soft ware to read the device condition For maintenance and servicing purposes, the diagnostic soft- ware can display (PC or laptop) the saved and current device TOP·SENS status as well as any fault signals from TITANUS ®...
Page 41 TOP·SENS TITANUS ® Technical Description It is a good idea to read, adjust and record the commissioning conditions. 04/13...
Page 42: Device Supports
TOP·SENS TITANUS Technical Description ® 3.2.4 Device supports Figure 11: Support for the TITANUS TOP·SENS air sampling smoke detection sys- ® TITANUS can be directly mounted to the wall. If required, addi- ® tional supports are available, e.g. for fitting to racking. 04/13...
Page 43: Pipe System
TOP·SENS TITANUS ® Technical Description Pipe system 3.3.1 Overview of available pipe components Figure 12: Components for the pipe system The components illustrated in Fig. "Components for the pipe system" are selected for each specific application and are inter- changeable. 04/13...
Page 44 TOP·SENS TITANUS Technical Description ® Purging system In areas where dust particles or icy conditions are possible it might be necessary to blow through the air sampling pipe sys- tem and aspiration points. The following figures show the com- ponents of a manual and automatic blow-through system. De- pending on the frequency of blockages this can be done manu- ally or automatically.
Page 45: Air Sampling Ports For Room Monitoring
TOP·SENS TITANUS ® Technical Description 3.3.2 Air sampling ports for room monitoring 3.3.2.1 Aspiration-reducing film sheets Figure 15: Air sampling port with aspiration-reducing film sheet and marking tape An air sampling port is a 0.39 in (10 mm) - hole in the air sam- pling pipe covered with a patented aspiration-reducing film sheet with the appropriate opening diameter.
Page 46: Air Flow Reducer Clips
TOP·SENS TITANUS Technical Description ® 3.3.2.2 Air flow reducer clips Figure 16: Air flow reducer for dirty areas and cold storage The air sampling ports, when used in areas where blockages can occur, are equipped with a patented plastic clip, type AK-C, and a patented flexible air flow reducer, type AK-x.
Page 47: Ceiling Feed-Through For Hidden Installationse
3.28 ft (1 m) are required, the air sampling pipe system must be calculated separately (calcula- tion is made by WAGNER). The ceiling feed-through is applicable for false ceiling panels with a thickness of up to approximately 1.38 in (35 mm). The...
Page 48: Air Filter For Dusty Areas
TOP·SENS TITANUS Technical Description ® 3.3.3 Air filter for dusty areas Figure 18: TITANUS with air filter ® In highly dusty areas air filters must be used in order to protect the unit’s detector. Impurities can occur in areas such as clean rooms with a fresh air supply.
Page 49 TOP·SENS TITANUS ® Technical Description Special Filter Type SF-x In case of a high amount of dust a special filter type SF-650 or type SF-400 with a larger surface is available. The special filter guarantees a safe filtration of dust and dirt. The particles are separated and permanently kept back from the filter medium.
Page 50: Air Return For Pressurised And Dusty Areas
TOP·SENS TITANUS Technical Description ® 3.3.4 Air return for pressurised and dusty areas Figure 19: Sketch of TITANUS air return ® If TITANUS and the pipe system are installed in two areas - P1 ® and P2 – each with different air pressures, the air must be re- turned to the pressure area of the pipe system.
Page 51 TOP·SENS TITANUS ® Technical Description The air return pipe system is directly connected through the pro- tection grid to the air outlet inside TITANUS . For this, the pre- ® punched opening in the protection grid must be used. As the air return pipe fits precisely into the air outlet a firm hold is ensured.
Page 52: Noise Suppressor
TOP·SENS TITANUS Technical Description ® 3.3.5 Noise suppressor Figure 21: TITANUS with noise suppressor ® By using the SD-1 noise suppressor, the noise level can be re- duced by up to 10 db(A) for use in areas in which low noise emissions are required from the TITANUS (such as in offices ®...
Page 53: Steam Trap For Humid Areas
TOP·SENS TITANUS ® Technical Description 3.3.6 Steam trap for humid areas Figure 22: Type KA-DN25 Steam trap to eliminate water vapor from the pipe system and to collect the condensate from the pipe system Figure 23: Type KA-1 Steam trap to eliminate water vapor from the pipe system and to collect the condensate from the pipe system 04/13...
Page 54 TOP·SENS TITANUS Technical Description ® If TITANUS is used in environments with high humidity, con- ® densation can occur. In order to collect this, a steam trap is in- stalled at the lowest point in the pipe system and before the air filter and the air sampling smoke detection system.
Page 55: Technical Data
TOP·SENS TITANUS ® Technical Data Technical Data WARNING All listed power values relate to a surround temperature of 68° F (20ºC). TOP·SENS TITANUS ® TITANUS TITANUS ® ® TOP·SENS TOP·SENS Voltage supply voltage (Ue) 14 - 30 V DC nominal supply voltage 24 V DC Current = 6,9 V...
Page 56 TOP·SENS TITANUS Technical Data ® TITANUS TITANUS ® ® TOP·SENS TOP·SENS Protection classification Protection class (DIN IEC 34 part 5) IP 20 Housing material plastic (ABS) UL-94V0 colour papyrus white, RAL 9018 Temperature range ® TITANUS – 4° to 140°F (– 20° to +60°C) cold storage version –...
Page 57 TOP·SENS TITANUS ® Technical Data Display sensitivity detector module DM-TT-50 ... up to 0.015 % light obscuration/ ft (0.05 % light obscuration/m) detector module DM-TT-10 ... up to 0.003 % light obscuration/ ft (0.01 % light obscuration/m) detector module DM-TT-01 ... up to 0.0005 % light obscuration/ ft (0.0015 % light obscuration/m) UL sensitivity range...
Page 58 TOP·SENS TITANUS Technical Data ® TITANUS TITANUS ® ® TOP·SENS TOP·SENS 2-SL Voltage supply voltage (Ue) 14 - 30 V DC nominal supply voltage 24 V DC Current Voltage with fan control board FC-2 6,5 V 6,9 V 6,5 V 6,9 V starting current (at 24 V) 300 mA...
Page 59 TOP·SENS TITANUS ® Technical Data Humidity not condensed 10 to 95 % rf type radial service life of fan (12 V) 43.500 h at 75.2° F (24°C) Displays on the device ® ® TITANUS TOPSENS TITANUS TOP·SENS level smoke level 1 to 10 smoke level 1 to 10 (10 (10 sections) sections)
Page 60: Pipe System Titanus Top·sens
TOP·SENS TITANUS Technical Data ® TOP·SENS 4.1.1 Accessories - TITANUS ® Remote Indicators for ® TITANUS Remote Indicators voltage 8 to 30 V= nominal voltage 24 V current consumption (at 24 V) idle 10 mA maximum 65 mA electric connection lengths relay Indicators total length max.
Page 61: Design
TOP·SENS TITANUS ® Design Design General The following chapters are describing the design of the pipe- systems for the aspiration smoke detectors.  The first approach (chapter NFPA / UL design) relates to system planning according to UL268 /-A in respect of NFPA guidelines.
Page 62: Pipe System
TOP·SENS TITANUS Design ® ▪ NFPA 72 National fire alarm and signaling code. ▪ NFPA 75 Standards for the Protection of Information Tech- nology Equipment. ▪ NFPA 76 Standard for the fire protection of telecommunica- tions facilities. Canada: The following national regulations must also be complied with in Canada, for instance: ▪...
Page 63 TOP·SENS TITANUS ® Design WARNING Each connected pipe system must comply with the design lim- its of TITANUS for the selected pipe design (please refer to ® chapter “Project Planning Limits” (NFPA/UL Design)). Figure 24: Example of a symmetrical and an asymmetrical U-pipe system Figure „Example of a symmetrical and an asymmetrical U-pipe system”...
Page 64: Pipe Connections
TOP·SENS TITANUS Design ® plan several shorter than a few long ones (preferably a U- or double U-pipe system). Pipe designs 4 types of pipe designs can be selected, depending on the cab- inet geometry (see Figure „Project planning“). I-pipe An air sampling smoke detection pipe system without branches.
Page 65 TOP·SENS TITANUS ® Design ® I-pipe system ® U-pipe system ® TITANUS M-pipe system ® Double U-pipe system Figure 25: Pipe designs 04/13...
Page 66 Special cases If the pipe system does not match the project planning guide- lines de-scribed here due to structural constraints, WAGNER should make the individual calculations for such a case. Checking Check detection reliability with activation tests in cases where use of the system is critical.
Page 67 TOP·SENS TITANUS ® Design Double knock detection One intake line is to be allocated per detector module. The two detector modules of a device must be evaluated independently of one another. Only one extinguishing area may be monitored per air sampling smoke detection system. Figure 26: Pipe design for double knock detection Due to double knock detection TITANUS is on excellent choice...
Page 68: Nfpa / Ul Design
TOP·SENS TITANUS Design ® NFPA / UL Design 5.2.1 Air flow monitoring Project planning for the air flow monitoring system in sampling pipes is carried out while taking into consideration the respec- tive national regulations for each country. Adjusting the air flow The air flow sensor sensitivity must be adjusted to the applica- sensitivity tion in question.
Page 69: Project Planning Limits
TOP·SENS TITANUS ® Design ▪ the air flow sensor has been compensated depending on the air pressure (see Chap. Commissioning “Air pressure de- pendent air flow compensation") and ▪ No large air flow fluctuations occur. Air pressure differences The same air pressure must be present throughout the sam- pling pipe.
Page 70: Pipe Accessories
TOP·SENS TITANUS Design ® TITANUS is also suitable for open area protection. ® 5.2.3 Pipe accessories Air filters Type Application Examples LF-AD Coarse filter for separating particles > Dust, insects, fibres, approx. 0.59 mil (15 µm) hair, cinders, pollen LF-AD-1 Filter for separating particles >...
Page 71: Sensitivity Planning
TOP·SENS TITANUS ® Design 5.2.4 Sensitivity planning According to UL268 the sensitivity of an air sampling smoke de- tection has to be set according to results of the UL Fire Tests for each detector module. TOP·SENS TITANUS selectable sensitivity levels are as fol- ®...
Page 72 TOP·SENS TITANUS Design ® WARNING Only those settings which are ticked are allowed to use for the illustrated number of air sampling ports. 04/13...
Page 73: Pipe Planning
TOP·SENS TITANUS ® Design 5.2.5 Pipe planning 5.2.5.1 Pipeline planning The following project planning tables for pipeline project plan- ning can be found in the appendix for each previously selected NFPA Transport time. ▪ Project planning for NFPA 76 Very Early Warning (60 se- conds) ▪...
Page 74 TOP·SENS TITANUS Design ® Results: The following modules may optionally be used with the corre- sponding settings according to the UL sensitivity requirements: ▪ Module DM-TT-01 – with a sensitivity of min. 0.037 % obs/ft (0.12 % LT/m) ▪ Module DM-TT-10 – with a sensitivity of min. 0.031 % obs/ft (0.1 % LT/m) Possible system parameters: ≥...
Page 75 TOP·SENS TITANUS ® Design Double U-pipe system (1 detector module) 6.5 V fan voltage, max. 459 ft (140 m) overall pipe length 6.9 V fan voltage, max. 721 ft (220 m) overall pipe length 12 V fan voltage, max. 984 ft (300 m) overall pipe length Double U-pipe system (2 detector module) 6.5 V fan voltage, max.
Page 76: Air Sampling Ports Diameters
TOP·SENS TITANUS Design ® 5.2.5.2 Air sampling ports diameters For the design of the individual air sampling ports within the pipe-branches please follow the design tables for the appropri- ate pipe-shape (I-pipe, U-pipe, M-pipe, double U-pipe or four- fold U-pipe). I-pipe *Acceleration air sampling port Figure 27: I-pipe system...
Page 77 TOP·SENS TITANUS ® Design Air sampling ports Number of air sampling ports air sampling ports type Ax-x.x (1) (1) Aspiration-reducing film sheet type AF-x.x or AK-x.x a = Acceleration air sampling ports = 7.0 mm U-pipe *Acceleration air sampling port Figure 28: U-pipe system Air sampling ports Number of air...
Page 78 TOP·SENS TITANUS Design ® Number of air sampling ports (1) Aspiration-reducing film sheet type AF-x.x or AK-x.x a = Acceleration air sampling ports = 7.0 mm Air sampling ports Number of air sampling ports air sampling ports type Ax-x.x (1) Aspiration-reducing film sheet type AF-x.x or AK-x.x a = Acceleration air sampling ports = 7.0 mm 04/13...
Page 79 TOP·SENS TITANUS ® Design M-pipe *Acceleration air sampling port Figure 29: M-pipe system Air sampling ports Number of air sampling ports air sampling ports type Ax-x.x (1) Aspiration-reducing film sheet type AF-x.x or AK-x.x a = Acceleration air sampling ports = 7.0 mm Air sampling ports Number of air sampling ports...
Page 80 TOP·SENS TITANUS Design ® Number of air sampling ports (1) Aspiration-reducing film sheet type AF-x.x or AK-x.x a = Acceleration air sampling ports = 7.0 mm Double U-pipe *Acceleration air sampling port Figure 30: Double U-pipe system Air sampling ports Number of air sampling ports air sampling ports...
Page 81 TOP·SENS TITANUS ® Design Number of air sampling ports (1) Aspiration-reducing film sheet type AF-x.x or AK-x.x a = Acceleration air sampling ports = 7.0 mm Air sampling ports Number of air sampling ports air sampling ports type Ax-x.x (1) (1) Aspiration-reducing film sheet type AF-x.x or AK-x.x a = Acceleration air sampling ports = 7.0 mm 04/13...
Page 82: Nfpa - Maximum Smoke Transport Time
TOP·SENS TITANUS Design ® 5.2.6 NFPA - Maximum Smoke Transport Time NFPA Standards 72 and 76 specify the maximum smoke transport time from the most remote port to the detection unit as follows. ▪ NFPA 72 National fire alarm and signaling code. SFD: Standard Fire Detection Systems - transport time with- in 120 seconds.
Page 83: Special Project Planning
TOP·SENS TITANUS ® Design Special project planning 5.3.1 Project planning for air sampling port monitoring The following system parameters apply to the detection of an individual or a particular number of blocked aspiration air sam- pling ports, depending on pipe configuration. The specifications according to Chapter "Project planning"...
Page 84 TOP·SENS TITANUS Design ® Min. distance between 2 air sampling ports (d) 13 ft (4 m) Max. distance between 2 air sampling ports (d) 39 ft (12 m) Max. number of air sampling ports (n) per pipe system 10 no. Air sampling ports Number of air sampling ports...
Page 85: U-Shape Pipe System
TOP·SENS TITANUS ® Design 5.3.1.2 U-shape pipe system 1 pipe system and 2 pipe systems pipe systems Figure 32: U-shape pipe system for area protection Limit values ® Min. distance from TITANUS to T-piece 13 ft (4 m) ® Max. distance from TITANUS to T-piece 66 ft (20 m) Max.
Page 86 TOP·SENS TITANUS Design ® Air sampling ports Number of air sampling ports Air sampling port type Ax-x.x *) *) Aspiration-reducing film sheet type AF-x.x or AK-x.x U-pipe system triggering thresholds Triggering threshold Number of air sampling ports 1 blocked air sampling port —...
Page 87: M-Pipe System
TOP·SENS TITANUS ® Design 5.3.1.3 M-pipe system 1 pipe system and 2 pipe systems pipe systems Figure 33: M-shape pipe system for area protection Limit values ® Min. distance from TITANUS to T-piece 13 ft (4 m) ® Max. distance from TITANUS to T-piece 66 ft (20 m) Max.
Page 88 TOP·SENS TITANUS Design ® Number of air sampling ports Air sampling port type Ax-x.x *) *) Aspiration-reducing film sheet type AF-x.x or AK-x.x M-pipe system triggering thresholds Triggering threshold Number of apertures 1 blocked air sampling port — — 2 blocked air sampling ports —...
Page 89: Double U-Pipe System
TOP·SENS TITANUS ® Design 5.3.1.4 Double U-pipe system 1 pipe system and 2 pipe systems pipe systems Figure 34: Double U pipe system for area protection Limit values ® Min. distance from TITANUS to T-piece 13 ft (4 m) ® Max.
Page 90 TOP·SENS TITANUS Design ® Air sampling portsx Number of air sampling ports Air sampling port type Ax-x.x *) *) Aspiration-reducing film sheet type AF-x.x or AK-x.x Double U-pipe system triggering thresholds Triggering threshold Number of apertures 1 blocked air sampling port —...
Page 91: Simplified Pipe Project Planning
TOP·SENS TITANUS ® Design 5.3.2 Simplified pipe project planning Simplified project planning is used for equipment protection and in rooms with small dimensions. The advantage in this project planning is the uniform diameters of the air sampling ports. The specifications according to Chapter apply to project plan- ning.
Page 92: U-Pipe System
TOP·SENS TITANUS Design ® Air sampling ports Number of air sampling ports Air sampling port type Ax-x.x *) Number of air sampling ports Air sampling port type Ax-x.x *) *) Aspiration-reducing film sheet type AF-x.x or AK-x.x 5.3.2.2 U-pipe system 1 pipe system and 2 pipe systems pipe systems Figure 36: U-pipe system, e.g.
Page 93: M-Pipe System
TOP·SENS TITANUS ® Design Air sampling ports Number of air sampling ports Air sampling port type Ax-x.x *) *) Aspiration-reducing film sheet type AF-x.x or AK-x.x 5.3.2.3 M-pipe system 1 pipe system and 2 pipe systems pipe systems Figure 37: M-pipe system, such as for equipment protection Limit values ®...
Page 94: Double U-Pipe System
TOP·SENS TITANUS Design ® Max. number of air sampling ports (n) per pipe system 18 no. Min. distance between 2 air sampling ports (d) 0.33 ft (0.1 m) Max. distance between 2 air sampling ports (d) 13 ft (4 m) Air sampling ports Number of air sampling ports...
Page 95 TOP·SENS TITANUS ® Design Max. number of air sampling ports (n) per pipe system 20 no. Minimum distance between air sampling ports (d) 0.33 ft (0.1 m)m Maximum gap between air sampling ports (d) 13 ft (4 m) Air sampling ports Number of air sampling ports Air sampling port...
Page 96: Project Planning For Forced Air Flow
TOP·SENS TITANUS Design ® 5.3.3 Project planning for forced air flow Air conditioning duct Air conditioners are distinguished between low-speed and high- monitoring speed systems (see table below). The specifications provided in this chapter apply only to low-speed systems. There are not enough empirical values available for high-speed systems.
Page 97 TOP·SENS TITANUS ® Design If it is absolutely necessary to attach the pipe system directly behind baffles, sound suppressers or angles, the main flow speed areas will have to be monitored. Figure 40: Change in direction of a duct without baffles Figure 41: Sound suppressors in a duct The following must be taken into consideration when installing a pipe system in air conditioning ducts:...
Page 98: Air Recirculation
TOP·SENS TITANUS Design ® Figure 42: Air recirculation Air recirculation The air recirculation must take place at a distance of at least 6.56 ft (2 m) from the sampling. The open end of the air recircu- lation should be beveled at a 45° angle. 04/13...
Page 99 TOP·SENS TITANUS ® Design Figure 43: Offset air recirculation reengagement If a distance of 6.56 ft (2 m) cannot be maintained, the pipes will have to be arranged in an offset manner. This make makes it possible to achieve a drop of pressure between the intake airs and exhaust air, since the pipes are located in different flow rate areas.
Page 100 TOP·SENS TITANUS Design ® Example The following illustration depicts two project planning examples of pipe systems in air conditioning ducts. Figure 44: Ducts with small and large duct cross-section 04/13...
Page 101: Mains Supply
TOP·SENS TITANUS ® Design Mains supply The alarm-ready status in the fire protection system and the ap- erture of an alarm are taken into account when rating the exter- nal mains supply. In the system's alarm-ready status, the mains supply must supply standby current to the air sampling smoke detection systems and ensure that the emergency power batter- ies are charging (80% load in 24 hours).
Page 102 TOP·SENS TITANUS Design ® WARNING The higher figure of the total current calculated (I )is used to total design the power supply! The power consumption of the TITANUS can be found in ® Chapter, "Technical Data". Line calculation The maximum line length results from the permitted line drop on the feed.
Page 103 TOP·SENS TITANUS ® Design The factor 1.25 of the equation is only relevant in case of a bridging time of 24 hours or less. WARNING FM Approved Applications! The product must be powered by FM approved power supplies only. 04/13...
Page 105: Installation
® 1. adjustments, changes, modifications and alterations may be undertaken only with the advance written consent of the manufacturer. Wagner bears no liability for injury or damage resulting from any adjustments, changes, modifications or al- terations 2. any changes in the supply network (120 V/400 V supply) and external supply systems must be carried out by the system owner.
Page 106: Opening The Titanus ® Air Sampling System
TOP·SENS TITANUS Installation ® Opening the TITANUS air sampling system ® Figure 45: Opening the TITANUS air sampling system ® WARNING The components on the base and circuit board must be pro- tected from damage with an anti-static set. To open TITANUS follow the steps below: ®...
Page 107: Settings
TOP·SENS TITANUS ® Installation Settings 6.3.1 Detector module Figure 46: Default settings on the TITANUS TOP•SENS detector module ® 6.3.1.1 Setting of response sensitivity The sensitivity of the detector module is set via switch S1 (1, 2) on the detector module (see fig. Detector module) of TITANUS TOP·SENS .
Page 108: Delay Period Of Alarm Activation
TOP·SENS TITANUS Installation ® 6.3.1.2 Delay period of alarm activation The delay period for the alarm thresholds can be set via the switch S1 (3, 4). The default setting is 10 seconds. The delay period begins when the smoke level reaches the alarm thresh- old.
Page 109: Delay Period For Air Flow Fault
TOP·SENS TITANUS ® Installation 6.3.1.4 Delay period for air flow fault Set the delay period for the transmission of a fault signal via switch S1 (7, 8) on the detector module (see fig. Detector mo- dule) of TITANUS ® setting of delay period Switch S1 Switch S1 Contact 7...
Page 110: Setting Of Fan Voltage
TOP·SENS TITANUS Installation ® 6.3.1.7 Setting of fan voltage Figure 47: Changing fan voltage on the main board The standard setting of the ventilator voltage is 6.9 V. In critical areas the ventilator voltage can be switched from 6.9 V to 9 V by removing the jumper BR3 –...
Page 111: Connecting The Fan
TOP·SENS TITANUS ® Installation 6.3.1.8 Connecting the fan The electrical connection of the fan is made via terminal block X7 (FAN) on the main board (see fig. Main board) of TITANUS TOP·SENS ® ▪ Connect the red connecting lead of the fan with terminal block X7 / clip 1 (+).
Page 112 TOP·SENS TITANUS Installation ® The default setting for the fan voltage is 6.9 V. The fan voltage can be adjusted according to project planning by plugging or opening the BR 1 and/or BR 2 bridges. The symbols used mean: X = pin pair bridge O = pin pair open The default settings have a grey background.
Page 113: Connecting The Fan Titanus Top·sens ® -Sl
TOP·SENS TITANUS ® Installation TOP·SENS 6.3.1.10 Connecting the fan TITANUS ® The electrical connection of the fan control circuit board is made via terminal block X7 (FAN) on the main board (see fig. Main TOP·SENS board) TITANUS ® ▪ Connect terminal 1 of terminal board X7 on the main board to terminal 2 (+) of terminal board X2 on the fan control cir- cuit board.
Page 114: Mounting Instructions
TOP·SENS TITANUS Installation ® Mounting instructions TOP·SENS 6.4.1 Installation of TITANUS air sampling ® smoke detection system When choosing the mounting location, make sure that the dis- plays are clearly visible. Screw the air sampling smoke detec- tion system either directly to the wall with its bottom casing or mount it with a special support (see chapter Technical Descrip- tion "Device Support").
Page 115: Installation Material
TOP·SENS TITANUS ® Installation The air sampling smoke detection system TITANUS can be ® mounted with the air sampling pipe connectors pointing up- wards or downwards. If necessary, turn the lid by 180°. Aspiration downward If TITANUS is mounted with the air sampling pipe connectors ®...
Page 116 TOP·SENS TITANUS Installation ® Figure 51: Borehole spaces of the support type MT-1 04/13...
Page 117: Connection Of Air Sampling Pipe
TOP·SENS TITANUS ® Installation 6.4.2 Connection of air sampling pipe Figure 52: Connection of air sampling pipe to the air sampling smoke detection sys- Connection of air samp- 1. To connect the air sampling pipe to TITANUS attach the ® ling pipe pipe to the corresponding connection (see fig.
Page 118: Electrical Connection
TOP·SENS TITANUS Installation ® Electrical connection To prepare the electrical connections follow the steps below: 1. Break through the required cable entries, e.g. with a screw- driver. 2. Attach the plastic connection pieces M 20 or M 25 to the ca- ble entries.
Page 119: Connection To Fire Alarm Control Panel, With Reset Button
TOP·SENS TITANUS ® Installation Figure 53: General outlay of the terminal blocks of the circuit board 6.5.1 Connection to Fire Alarm Control Panel, with reset button The alarm and fault contacts on the circuit board can be used to e.g. connect to a CFDU activate signaling means or guidance systems etc.
Page 120 TOP·SENS TITANUS Installation ® WARNING Do not connect the reset input permanently to +24 V. Other- wise all signals – even an alarm – are automatically reset after the cause of the signal has been eliminated. In this case the alarm is non-latched.
Page 121 TOP·SENS TITANUS ® Installation Connection to FACP with reset button Figure 54: Example of TITANUS TOP·SENS connection to FACP and reset button ® 04/13...
Page 122: Networking Titanus
TOP·SENS TITANUS Installation ® Networking TITANUS ® WARNING Do not touch the components on the main board without an anti-static set (with the exception of the DIL switch and button)! WARNING Only carry out assembly and connection work when the device is disconnected from the power supply.
Page 123: Connecting The Network Module
TOP·SENS TITANUS ® Installation of the clips on the side of the housing. Then carefully lift up the housing cover. Disconnect the cable from the display board and remove the housing cover. 2. Open the required, pre-stamped cable feeds (max. 8 x M20 and 6 x M25) in the housing.
Page 124 TOP·SENS TITANUS Installation ® WARNING The network may only be set up in consultation with the cus- tomer's system administrator(s). Figure 56: Connecting the TITANUS TOP SENS ® 04/13...
Page 125: Installation Of Second Detector Module
TOP·SENS TITANUS ® Installation Installation of second detector module Figure 57: Installation of second detector module 1. Carry out the following steps only if the device is switched off. 2. Using a crosshead screwdriver, carefully unlock the snap-in closures of the housing by simultaneously pressing in both clips located at one side of the housing lid.
Page 126 TOP·SENS TITANUS Installation ® the module and snap in audibly. Press both support clamps together. 6. Pull the jumper BR1 across to the base 1de1 board. (see figure below) 7. Connect the detector module to the main board via the rib- bon cable.
Page 127 TOP·SENS TITANUS ® Installation Figure 58: Connections for main board X2, X4, X5 and BR1 04/13...
Page 128: Data-Log
TOP·SENS TITANUS Installation ® Data-Log The device can be tested with the diagnostic software DIAG 3. Besides the current air flow sensor data, different status values can be read out, which help the service technician to easily rec- ognise modified operating conditions. Air flow and smoke level values can be read out on site with a lap-top.
Page 129: Installation - Pipe System
TOP·SENS TITANUS ® Installation - Pipe System Installation - Pipe System The pipes and fittings used for the pipe system must always meet requirements according to UL1887. Parameters and values specified in your local codes and stand- ards have precedence over anything suggested in this docu- mentation.
Page 130 TOP·SENS TITANUS Installation - Pipe System ® Pipe Adapter The pipe adaptor is used to connect NPS pipes to the detectors pipe Inlet manifold. All detectors shipped to U.S.A. have pipe adapters. 04/13...
Page 131: Installation Instructions
TOP·SENS TITANUS ® Installation - Pipe System Installation instructions The pipe system must be designed according to the require- ments of the project and the pipe design guidelines (see chap- ter "Design"). 1. Cut the pipes with a pipe cutter or a metal saw. Chips must be re-moved and rough edges trimmed.
Page 132 TOP·SENS TITANUS Installation - Pipe System ® WARNING Arcs should be used instead of elbows. If there are too many direction changes, an air flow fault can occur in TITANUS ® detection time can be affected. 1. The pipes must be installed in such a way that they do not sag or move.
Page 133: Linear Expansion Of The Pipe System
TOP·SENS TITANUS ® Installation - Pipe System Linear expansion of the pipe system Linear expansions (lengthening or shortening) of the pipe sys- tem are caused by variations in temperature. An increase in temperature results in lengthening of the pipe, a decrease in temperature shortens the pipe.
Page 134 TOP·SENS TITANUS Installation - Pipe System ® Figure 61: Pipe clips There are two fixing points for the plastic pipe clip CLIC-PA when installing the pipes: Position 1 (first locking into place) Fixes the pipe so that a linear expansion is possible (used in cold storage areas, if necessary).
Page 135: Patented Air Sampling Ports
TOP·SENS TITANUS ® Installation - Pipe System Patented air sampling ports Figure 62: Example of an air sampling port with aspiration-reducing film sheet Air sampling port Design air sampling ports (bore holes) and their positioning ac- cording to project requirements and pipe design guidelines. Air sampling bore holes 1.
Page 136 TOP·SENS TITANUS Installation - Pipe System ® WARNING The perforations in the aspiration-reducing film sheet and the marking tape are to be placed exactly on the hole in the pipe. The diameter of the perforation in the aspiration-reducing film sheet must not be changed. Avoid touching the adhesive in order to keep it free from dust and grease.
Page 137: Ceiling Lead Through
TOP·SENS TITANUS ® Installation - Pipe System Ceiling lead through Figure 64: Installation of ceiling feed-through To install the ceiling feed-through use the following steps: 1. Before gluing remove dirt and grease with the recommended cleaner. 2. Glue the hose connector to the corresponding T-piece with manufacturer recommended adhesive for each type of pipe material.
Page 138 TOP·SENS TITANUS Installation - Pipe System ® 5. Determine the required length and cut the air sampling hose. Attach the hose to the sleeve of the ceiling feed-through and the hose connector at the T-piece of the air sampling pipe. If necessary soften the hose ends with a hot air fan.
Page 139: Monitoring In Forced Air Areas (High Speed Ventilation / Air Conditioning)
TOP·SENS TITANUS ® Installation - Pipe System Monitoring in forced air areas (high speed ventilation / air conditioning) 7.5.1 Detection at air inlets/outlets WARNING If aspiration takes place in a forced air flow system (fan, cli- matic systems), the air sampling ports must be positioned in the air flow.
Page 140 TOP·SENS TITANUS Installation - Pipe System ® Figure 66: Positioning of air return, in an air duct For the pipe design of air sampling smoke detection in these areas see chapter Design “Pipe Design for Forced Air Flow“. 04/13...
Page 141: Filter
TOP·SENS TITANUS ® Installation - Pipe System Filter 7.6.1 Air filter installation, type LF-AD-x Figure 67: Spacing for bore holes on base of air filter housing Air filter LF-AD-x 1. To connect to the air sampling pipe with the air filter, insert the air sampling pipe in the provided pipe connectors of the filter.
Page 142: Installation Material
TOP·SENS TITANUS Installation - Pipe System ® WARNING When severe variations in temperature are expected: never use glue to connect the air sampling pipe and pipe connectors to the detector. Firmly secure the pipe in the area between detector and air filter to avoid elongation. (see chapter Installa- tion - pipe system „Linear expansion of the pipe system“) of the pipe and therefore possible loss of pipe connectivity (pipe contraction).
Page 143: Mounting Of The Special Filter Type Sf-400/650
TOP·SENS TITANUS ® Installation - Pipe System 7.6.2 Mounting of the special filter type SF-400/650 Figure 68: Mounting of the special filter into the pipe system Special filter SF-x 1. To install or un-install the special filter use the two PVC re- ducer screw joints at both filter ends.
Page 144 TOP·SENS TITANUS Installation - Pipe System ® When using a combination of special filter type SF-x and air fil- ter type LF-AD please install the air filter after the special filter, viewed from the aspiration system. Figure 69: TITANUS with special filter and LF-AD ®...
Page 145: Air Return
TOP·SENS TITANUS ® Installation - Pipe System Air return Figure 70: Mounting of the air return 1. Remove the pre-punched pipe lead-through in the protection grid of the air outlet (e.g. with a small side cutter). 2. Pass the air returns through the opened feed-through in the protection grid and fix it with the existing pipe collar in the air outlet of device.
Page 146: Noise Suppressor
TOP·SENS TITANUS Installation - Pipe System ® Noise suppressor Figure 71: Mounting of noise suppressor 1. Remove the pre-punched pipe lead-through in the protection grid of the air outlet (e.g. with a small side cutter). 2. Pass the pipe (Ø 0.98 in (25mm) through the opened feed- through in the protection grid and fix it with the existing pipe collar in the air outlet of TITANUS .
Page 147 TOP·SENS TITANUS ® Installation - Pipe System WARNING When severe variations in temperature are expected: never use glue to connect the air sampling pipe and pipe connectors to the detector. Firmly secure the pipe in the area between detector and air filter to avoid elongation. (see chapter installa- tion - pipe system „Linear expansion of the pipe system“) of the pipe and therefore possible loss of pipe connectivity (pipe contraction).
Page 148: 3-Way Ball Valve
TOP·SENS TITANUS Installation - Pipe System ® 3-Way ball valve Figure 72: Installation of 3-way ball valve The ball valve is used for purging with compressed air (prefera- bly) or pressed air. Switching occurs between detection (posi- tion 0º) and purging (position 180º). Connect the ball valve to the pipe system via reducing screw-joints.
Page 149 TOP·SENS TITANUS ® Installation - Pipe System WARNING Pressed air is compressed, non-purified surround air, contain- ing humidity. Compressed air is purified and de-humidified. If device and the pipe system are located in areas below freez- ing, compressed air must be used for purging. Connections During installation, ensure that the correct connections are made (see diagram):...
Page 150 TOP·SENS TITANUS Installation - Pipe System ® WARNING A single purging process must be completed in 50 seconds. If another purging process is necessary, the above process must be repeated at the earliest after 120 seconds 04/13...
Page 151: Steam Trap
TOP·SENS TITANUS ® Installation - Pipe System 7.10 Steam trap 7.10.1 Steam trap Type KA-DN-25 Figure 73: Installation of steam trap Type KA-DN-25 to pipe system Install the steam trap at the lowest port of the pipe system be- hind the air filter and TITANUS - device and fasten it with PG ®...
Page 152: Steam Trap Type
TOP·SENS TITANUS Installation - Pipe System ® 7.10.2 Steam trap Type KA-1 Figure 74: Installation of steam trap Type KA-1 to pipe system Install the steam trap at the lowest port of the pipe system be- hind the air filter and TITANUS – device. Glue the air-tight pipe system with steam trap.
Page 153: Test Adapter
TOP·SENS TITANUS ® Installation - Pipe System 7.11 Test adapter Figure 75: Installation of test adapter to pipe system The test adapter is stuck into the pipe system next to the air sampling smoke detection system. The test adapter must al- ways be closed during normal operation and is only opened for maintenance and service purposes, to introduce test gas or smoke.
Page 155: Commissioning
TOP·SENS TITANUS ® Commissioning Commissioning WARNING During commissioning, the inspection protocol must be filled out (see appendix). This will be needed for later evaluation of data such as air flow value, type of adjustment (see chapter "Adjustment Air Flow Sensor"), commissioning temperature, air pressure and height above sea level.
Page 156: Adjustment Air Flow Sensor
TOP·SENS TITANUS Commissioning ® Adjustment Air Flow Sensor WARNING To correctly adjust TITANUS for the connected pipe system, ® the device must have been in operation for at least 30 minutes. Adjustment Types ▪ Adjustment can be made independent of the actual air pres- sure (see chapter ”Adjustment Independent of Air Pres- sure”).
Page 157: Adjustment Independent Of Air Pressure
TOP·SENS TITANUS ® Commissioning 8.1.1 Adjustment Independent of air pressure Figure 77: Adjustment independent of the air pressure of the airflow sensor in TITANUS ® 1. Ensure that the device has been operating for at least 30 minutes. 2. Check the voltage on the measuring points MP2 (+) and MP3 (-).
Page 158: Adjustment Dependent Of Air Pressure
TOP·SENS TITANUS Commissioning ® TOP·SENS The learning phase of TITANUS is about 5 se- ® conds. During this phase, the alarm detection is fully functional, the operating LED flashes and there must be no air flow inter- ference. After initialisation the operating LED stops flashing and the air flow sensor has determined the current value for the pipe system.
Page 159 TOP·SENS TITANUS ® Commissioning 3. Measure the air pressure with the pocket barometer and the surround air with a thermometer and enter both values in the inspection protocol. 4. Determine the adjustment value for the air flow sensor by consulting the air pressure adjustment charts (see appendix) and enter this also in the inspection protocol.
Page 160: Check Detector Module And Alarm Transmission
TOP·SENS TITANUS Commissioning ® Check detector module and alarm transmission Activate the detector module and check the transmission value to the FACP as follows: 1. Spray test aerosol either into the first air sampling port or the test adapter of the TITANUS pipe system.
Page 161: Check Air Flow Monitoring
TOP·SENS TITANUS ® Commissioning Check air flow monitoring Pipe Fracture Verify the detection of a pipe fracture: 1. Loosen the connection between pipe and TITANUS ® open the test adapter. 2. Check that the fault display of the air sampling smoke detec- tion system is lit.
Page 162: Check Fault Signal Transmission
TOP·SENS TITANUS Commissioning ® 1. all air sampling ports are free. 2. the pipe system has no fractures or cracks. 3. all pipe connections are air tight. 4. the fan is not blocked. 5. the correct aspiration-reducing film sheets have been used. If no faults are detected, operation of TITANUS ®...
Page 163: Top·sens
TOP·SENS TITANUS ® Commissioning TOP·SENS Operational check of TITANUS ® If it is not possible to adjust TITANUS check the operational ® capability with the test pipe and a digital manometer or use the diagnostic software. 8.5.1 Preparations for the operational check Figure 79: Operational check of TITANUS ®...
Page 164: Carrying Out Operational Check
TOP·SENS TITANUS Commissioning ® WARNING For an operational check of TITANUS steps 1 – 4 must be ® carried out for the sensor modules of both pipe systems. 8.5.2 Carrying out operational check The operational check can be carried out with or without a digi- tal manometer.
Page 165 TOP·SENS TITANUS ® Commissioning WARNING A pipe fracture or blockage is indicated by a flashing LED on detector module I and II: - fracture: 3 x flashing - blockage: 2 x flashing The relevant flash code is repeated every two seconds. WARNING For TITANUS 2 the operational check with steps 1 to 5 must...
Page 166 TOP·SENS TITANUS Commissioning ® To carry out the operational check, optional diagnostic software DIAG 3 can be used. Follow these steps: 1. Install the diagnostic software on a laptop or PC (PC with se- rial interface). Windows 95, 98, ME, 2000, NT and XP are suitable.
Page 167: Maintenance
TOP·SENS TITANUS ® Maintenance Maintenance Visual check Check that ▪ the pipe system is easily accessible, undamaged and firmly installed. ▪ the air sampling ports on the pipe system are not blocked. ▪ air sampling pipe and connection cable are tight. ▪...
Page 168 TOP·SENS TITANUS Maintenance ® Figure 80: Position of flash code LED on the detector module Flash Codes of LED1 and LED 2 on the Main Board Number Meaning 1 x flashing fault: internal voltage monitoring 1 2 x flashing fault: internal voltage monitoring 2 3 x flashing fault: monitoring of fan voltage 4 x flashing...
Page 169 If a fault cannot be eliminated after following the above steps, contact Wagner Group GmbH and give a description of the fault together with the flash code readings.
Page 170 If a fault cannot be eliminated after following the above steps, contact Wagner Group GmbH and give a description of the fault together with the flash code readings.
Page 171 If a fault cannot be eliminated after following the above steps, contact Wagner Group GmbH and give a description of the fault together with the flash code readings.
Page 172 If a fault cannot be eliminated after following the above steps, contact Wagner Group GmbH and give a description of the fault together with the flash code readings. 9.2.5 5x Flashing (Fault: Programme Error) When operating two detector modules both LED’s flash.
Page 173 If a fault cannot be eliminated after following the above steps, contact Wagner Group GmbH and give a description of the fault together with the flash code readings. 04/13...
Page 174 TOP·SENS TITANUS Maintenance ® 9.2.7 8x Flashing (Device-Initialising) This is not a fault. After connecting the operating power, the de- vice is initialised. During that process the diagnosis LED flashes eight times. When using two detector modules both LED’s flash. Smoke detection is not possible during this time.
Page 175 TOP·SENS TITANUS ® Maintenance Check detector module and alarm transmission Proceed according to chapter Commissioning "Detector Module Alarm Relay". Also check the detector module in a visual check for external soiling or dam-age and exchange it if required. WARNING A hardware defect of the sensor module is indicated by a per- manently lit detector module LED.
Page 176 TOP·SENS TITANUS Maintenance ® Detector module exchange Figure 82: Detector module exchange 1. Carry out the following steps only when the device is switched off. Using a screwdriver, carefully unlock the snap-in closures of the housing by simultaneously pressing in both clips located at one side of the housing lid.
Page 177 TOP·SENS TITANUS ® Maintenance 6. Re-connect the sensor module via the ribbon cable to the main board. Connection: HEAD 1 or HEAD2 7. Connect the display board to the main board X5 DISPLAY 8. Before initialising, the operating voltage must be re- connected.
Page 178 TOP·SENS TITANUS Maintenance ® Air filter insert LF-AD-x change Figure 83: Air filter insert change To clean or change the filter inserts, carry out the following steps: 1. Loosen the four screws and remove the housing lid. 2. Remove the filter inserts and check how soiled they are. The inserts can be cleaned if there is a small amount of soiling and must be replaced if soiling is heavy.
Page 179 TOP·SENS TITANUS ® Maintenance Three optional fine dust filters are available for environments with a high level of fine-grade dust. WARNING Opening the housing lid of the air filter LF-AD-x causes an air flow fault in TITANUS ® 04/13...
Page 180 TOP·SENS TITANUS Maintenance ® Changing special air filter SF- 400/650 Figure 84: Exchange of filter element To change the filter insert follow these steps: 1. Loosen the two PVC reducing couplings on the special filter 1a and remove it 1b. 2.
Page 181 TOP·SENS TITANUS ® Maintenance WARNING Opening the housing lid of the special air filter causes an air flow fault in TITANUS ® 04/13...
Page 182 TOP·SENS TITANUS Maintenance ® Check the air flow sensor adjustment Check the air flow adjustment using the diagnostic software. Functioning Principle The integrated air flow sensor technology stores the measured current value of the air flow as a rated value during initialisation of the connected pipe system.
Page 183 TOP·SENS TITANUS ® Maintenance for small air pressure variations to be within the monitoring win- dow and thus within the permissible tolerance range. WARNING At a low or medium air flow threshold an air flow-dependent adjustment must be made Independent of air If the sensor adjustment was made independent of the air pres- pressure sure, variations can lead to unwanted air flow faults.
Page 184 TOP·SENS TITANUS Maintenance ® WARNING If the pipe network was altered during trouble shooting, the original configuration of the network must be restored after- wards and the air flow must be re-adjusted. If this check is positive, check air flow monitoring by connecting the test pipe and carrying out the operational check described in chapter Commissioning "Carrying out operational check".
Page 185: Maintenance Intervals
TOP·SENS TITANUS ® Maintenance Check air flow monitoring A pipe fracture or blockage is indicated for each detector mod- ule via flash code LED. Proceed according to chapter Commissioning “Air Flow Monitor- ing”. 9.10 Check fault signal transmission A fault will be indicated on TITANUS and the fire alarm control ®...
Page 187 Appendix Air Pressure Adjustment Tables Projection Tables System Product List Inspection Protocol Conformity certification pursuant to EU...
Page 189 Air Pressure Correction Table for Adjustment of TITANUS TOP · SENS® and TITANUS TOP · SENS® 2 Equipment Protection Height [ft above sea level] Air Pressure [hPa] at a Height of 973 978 983 988 993 998 1003 1008 1013 1018 1023 1028 1033 1038 1043 953 958 963 968 973 978 983 998 1003 1008 1013 1018 1023 933 938 943 948 953 958 963...
Page 190 Air Pressure Correction Table for Adjustment of TITANUS TOP · SENS® and TITANUS TOP · SENS® 2 Room Protection (I-shaped pipe system) Height [ft above sea level] Air Pressure [hPa] at a height of 973 978 983 988 993 998 1003 1013 1018 1023 1028 1033 1038 1043 953 958 963 968 973 978 983 998 1003 1008 1013 1018 1023...
Page 191 Air Pressure Correction Table for Adjustment of TITANUS TOP · SENS® a nd TITANUS TOP · SENS® 2 Room Protection (U-shaped, double U-shaped and H-shaped pipe system) Height [ft above sea level] Air Pressur [hPa] at a Heigt of 973 978 983 988 993 998 1003 1008 1013 1018 1023 1028 1033 1038 1043 953 958 963 968 973 978 983 998 1003 1008 1013 1018 1023 933 938 943 948 953 958 963...
Page 193 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 76 VERY EARLY WARNING (60 s) (without filter) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔...
Page 194 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 76 VERY EARLY WARNING (60 s) (without filter) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔...
Page 195 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 76 VERY EARLY WARNING (60 s) (with filter LF-AD) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔...
Page 196 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 76 VERY EARLY WARNING (60 s) (with filter LF-AD) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔...
Page 197 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 76 VERY EARLY WARNING (60 s) (with filter LF-AD-1) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔...
Page 198 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 76 VERY EARLY WARNING (60 s) (with filter LF-AD-1) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔...
Page 199 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 76 VERY EARLY WARNING (60 s) (with filter LF-AD-2) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔...
Page 200 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 76 VERY EARLY WARNING (60 s) (with filter LF-AD-2) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔...
Page 201 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 76 VERY EARLY WARNING (60 s) (with filter SF-xxx) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔...
Page 203 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 76 EARLY WARNING (90 s) (without filter) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔...
Page 204 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 76 EARLY WARNING (90 s) (without filter) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔...
Page 205 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 76 EARLY WARNING (90 s) (without filter) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔...
Page 206 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 76 EARLY WARNING (90 s) (with filter LF-AD) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔...
Page 207 TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 76 EARLY WARNING (90 s) (with filter LF-AD) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔ ✔ ✔...
Page 208 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 76 EARLY WARNING (90 s) (with filter LF-AD) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus accelerati on air sampling ports) 0.005...
Page 209 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 76 EARLY WARNING (90 s) (with filter LF-AD-1) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔...
Page 210 TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 76 EARLY WARNING (90 s) (with filter LF-AD-1) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔ ✔ ✔...
Page 211 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 76 EARLY WARNING (90 s) (with filter LF-AD-1) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔...
Page 212 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 76 EARLY WARNING (90 s) (with filter LF-AD-2) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔...
Page 213 TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 76 EARLY WARNING (90 s) (with filter LF-AD-2) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔ ✔ ✔...
Page 214 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 76 EARLY WARNING (90 s) (with filter LF-AD-2) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔...
Page 215 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 76 EARLY WARNING (90 s) (with filter SF-xxx) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔...
Page 217 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 72 NORMAL APPLICATIONS (120 s) (without filter) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) ✔...
Page 218 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 72 NORMAL APPLICATIONS (120 s) (without filter) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔...
Page 219 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 72 NORMAL APPLICATIONS (120 s) (without filter) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔...
Page 220 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 72 NORMAL APPLICATIONS (120 s) (with filter LF-AD) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔...
Page 221 TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 72 NORMAL APPLICATIONS (120 s) (with filter LF-AD) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔ ✔ ✔...
Page 222 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 72 NORMAL APPLICATIONS (120 s) (with filter LF-AD) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus accelerati on air sampling ports) ✔...
Page 223 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 72 NORMAL APPLICATIONS (120 s) (with filter LF-AD-1) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔...
Page 224 TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 72 NORMAL APPLICATIONS (120 s) (with filter LF-AD-1) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔ ✔ ✔...
Page 225 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 72 NORMAL APPLICATIONS (120 s) (with filter LF-AD-1) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus accelerati on air sampling ports) ✔...
Page 226 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 72 NORMAL APPLICATIONS (120 s) (with filter LF-AD-2) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔...
Page 227 TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 72 NORMAL APPLICATIONS (120 s) (with filter LF-AD-2) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔ ✔ ✔...
Page 228 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 72 NORMAL APPLICATIONS (120 s) (with filter LF-AD-2) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) ✔...
Page 229 UL / NFPA Design TITANUS TOP SENS & PRO SENS/NET WITH ACCELERATION AIR SAMPLING PORT/S NFPA 72 NORMAL APPLICATIONS (120 s) (with filter SF-xxx) M = Module S = Sensitivity (% obs/ft) Number of points (max. plus acceleration air sampling ports) 0.005 ✔...
Page 231 Inspection Protocol for Air Sampling Smoke Detection System, type TITANUS TOP · SENS® /Rev.a device number serial number basic device serial number detector module Commissioning ( / –) visual check under-pressure [Pa] sensitivity [%/ft] alarm delay fault transmission delay [min] activating threshold (lo/med/hi/v.hi) fault latched...
Page 233 The EC certificate of conformity has been issued by notified product certification body (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 – CPD – 0786 20685...
Page 235 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...

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