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Siemens FDOOTC241 Technical Manual

Siemens FDOOTC241 Technical Manual

Neural fire detector
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FDOOTC241
Neural fire detector
Technical Manual
A6V10209291_h_en_--
2016-03-03
Building Technologies
Control Products and Systems

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Summary of Contents for Siemens FDOOTC241

  • Page 1 FDOOTC241 Neural fire detector Technical Manual Building Technologies A6V10209291_h_en_-- 2016-03-03 Control Products and Systems...
  • Page 2 Issued by: Siemens Switzerland Ltd. Building Technologies Division International Headquarters Gubelstrasse 22 CH-6301 Zug Tel. +41 41 724-2424 www.siemens.com/buildingtechnologies Edition: 2016-03-03 Document ID: A6V10209291_h_en_-- © Siemens Switzerland Ltd, 2008 2 | 94 Building Technologies A6V10209291_h_en_-- Fire Safety 2016-03-03...
  • Page 3: Table Of Contents

    Table of contents About this document ................7 Applicable documents ................. 9 Download center ..................9 Technical terms ..................10 History of changes ..................11 Safety ....................13 Safety instructions ..................13 Safety regulations for the method of operation ...........15 Standards and directives complied with............18 Release Notes ...................18 Structure and function .................
  • Page 4 Accessories ....................40 3.5.1 Addressable detector base FDB221/FDB221-AA ......40 3.5.2 Addressable detector base, flat FDB222 ........40 3.5.3 Sealing element FDBZ295 ............41 3.5.4 Addressed sounder base FDSB291 ..........41 3.5.5 Base attachment FDB291 ............41 3.5.6 Base attachment humid FDB293 ..........42 3.5.7 Base attachment wet FDB295 .............
  • Page 5 Technical Ambient Supervision Message ...........60 4.4.1 Ambient features .................60 4.4.1.1 Temperature monitoring ..........62 4.4.1.2 CO monitoring ..............62 4.4.2 Configuration ................63 4.4.3 Default settings ................63 Mounting / Installation ................. 64 Required space ..................64 Collective and addressable detector base FDB201/221......65 Flat detector base FDB202/222 ..............65 Sealing element FDBZ295 .................66 Base attachment FDB291 ................68 Base attachment humid FDB293..............69...
  • Page 6 Specifications ..................88 Technical data ................... 88 Dimensions ....................90 Environmental compatibility and disposal ........... 91 Index ......................92 6 | 94 Building Technologies A6V10209291_h_en_-- Fire Safety 2016-03-03...
  • Page 7: About This Document

    About this document Applicable documents 1 About this document Goal and purpose This document contains information on the neural fire detector FDOOTC241. Following the instructions consistently will ensure that the product can be used safely and without any problems. Target groups...
  • Page 8 About this document Applicable documents Source language and reference document The source/original language of this document is German (de). The reference version of this document is the international version in English. The international version is not localized. Document identification The document ID is structured as follows: ID code Examples ID_ModificationIndex_Language_COUN...
  • Page 9: Applicable Documents

    Installation Base attachment humid FDB293 A6V10208552 Installation Detector locking device FDBZ293 A6V10217810 Data sheet Multi-sensor fire detectors FDOOTC241 Please also observe the documentation for your fire detection system. 1.2 Download center You can download various types of documents, such as data sheets, installation instructions, and license texts via the following Internet address: http://siemens.com/bt/download...
  • Page 10: Technical Terms

    About this document Technical terms 1.3 Technical terms Term Explanation Alarm indicator Advanced Signal Analysis Carbon monoxide Detection algorithms External alarm indicator Product version FDnet Addressed detector line (field device net) Light-emitting diode MAK value Maximum concentration at the workplace, i.e. maximum permissible concentration of a toxic substance in the air at the workplace MC link...
  • Page 11: History Of Changes

    About this document History of changes 1.4 History of changes The reference document's version applies to all languages into which the reference document is translated. The first edition of a language version or a country variant may, for example, be version 'd' instead of 'a' if the reference document is already this version.
  • Page 12 About this document History of changes The table below shows the published language versions with the corresponding modification index: Modification index en_-- de_-- fr_-- it_-- es_-- – – – – – – – – – – – – X = published –...
  • Page 13: Safety

    Safety Safety instructions 2 Safety 2.1 Safety instructions The safety notices must be observed in order to protect people and property. The safety notices in this document contain the following elements: Symbol for danger Signal word Nature and origin of the danger Consequences if the danger occurs Measures or prohibitions for danger avoidance Symbol for danger...
  • Page 14 Safety Safety instructions How risk of injury is presented Information about the risk of injury is shown as follows: WARNING Nature and origin of the danger Consequences if the danger occurs Measures / prohibitions for danger avoidance How possible damage to property is presented Information about possible damage to property is shown as follows: NOTICE Nature and origin of the danger...
  • Page 15: Safety Regulations For The Method Of Operation

    2.2 Safety regulations for the method of operation National standards, regulations and legislation Siemens products are developed and produced in compliance with the relevant European and international safety standards. Should additional national or local safety standards or legislation concerning the planning, mounting, installation,...
  • Page 16 Modifications to the system and to individual products may lead to faults, malfunctioning and safety risks. Written confirmation must be obtained from Siemens and the corresponding safety bodies for modifications or additions. Modules and spare parts Components and spare parts must comply with the technical specifications defined by Siemens.
  • Page 17 Safety regulations for the method of operation Disregard of the safety regulations Before they are delivered, Siemens products are tested to ensure they function correctly when used properly. Siemens disclaims all liability for damage or injuries caused by the incorrect application of the instructions or the disregard of danger warnings contained in the documentation.
  • Page 18: Standards And Directives Complied With

    Safety Standards and directives complied with 2.3 Standards and directives complied with A list of the standards and directives complied with is available from your Siemens contact. 2.4 Release Notes Limitations to the configuration or use of devices in a fire detection installation with a particular firmware version are possible.
  • Page 19: Structure And Function

    Overview 3 Structure and function 3.1 Overview Figure 1: Neural fire detector FDOOTC241 The neural fire detector FDOOTC241 – hereinafter referred to simply as 'point detector' – has the following features: Communication via FDnet (addressed detector line) Built-in line separator...
  • Page 20: Features Of Fire Detection Functionality

    Structure and function Overview 3.1.1 Features of fire detection functionality As an S-LINE detector, the FDOOTC241 has the following features with regard to its fire detection functionality: Dynamic influence on the parameter sets Pattern recognition Real time interpretation of the situation Process- and time-controlled switchover of the parameter sets Signal processing is based on ASA technology (ASA = Advanced Signal Analysis).
  • Page 21 Structure and function Overview Sensory The signals captured by the sensory are transmitted to the algorithm. The algorithms are set by selecting the parameter set. Algorithms In comparison to the detection algorithms (DA), the individual parameters of the selected parameter set can be adapted with ASA technology . A real time interpretation of the situation leads to a dynamic influence on the algorithm.
  • Page 22: Features Of The 'Technical Co Alarm

    Structure and function Overview 3.1.2 Features of the 'Technical CO Alarm' Alongside its fire detection functionality, the FDOOTC241 also has a CO detection functionality with the following features: Static or dynamic alarm profiles Real time interpretation of the situation Process- and time-controlled switchover of the parameter sets for CO...
  • Page 23 Switching over of parameter set for the 'Technical CO Alarm' The FDOOTC241 allows for the time-or process-controlled independent changing over of the parameter set for CO (Manned / Unmanned changeover). This function allows the detector to be used in places where the situation changes significantly on a regular basis.
  • Page 24: Features Of The 'Technical Ambient Supervision Message

    Structure and function Overview 3.1.3 Features of the 'Technical Ambient Supervision Message' In 'Technical Ambient Supervision Message' mode, the point detector FDOOTC241 can detect an increase in temperature or CO concentration caused by hysteresis above a specified threshold value. The control panel is used to configure the parameters.
  • Page 25: Details For Ordering

    Overview 3.1.4 Details for ordering Type Order number Designation FDOOTC241 S54311-F1-A1 Multi-sensor fire detector 3.1.5 Product version ES The product version ES provides the technical status of a device in terms of software and hardware. The product version is provided as a two-digit number.
  • Page 26: Setup

    Structure and function Setup 3.2 Setup The point detector FDOOTC241 is a multi-criteria fire detector and has two optical sensors, two thermal sensors, and one CO sensor. Structure and function Figure 7: Sensors of the FDOOTC241 1 Heat sensors 4 Labyrinth...
  • Page 27 0! The parameter sets of the heat detector or optical detector can be selected in sensor mode 1 or 2. The neural fire detector FDOOTC241 then acts in a similar way to heat detector FDT241 or smoke detector FDO241.
  • Page 28 CO monitoring compares the current measured CO concentration with a preset threshold value. You can set the following parameters on the neural fire detector FDOOTC241: CO concentration or temperature threshold value Alarming when the temperature threshold value is exceeded or undershot...
  • Page 29: Function

    Provided that a fire detection system allows the parameter set for CO to be configured, we would recommend configuring it. The neural fire detector FDOOTC241 cannot be operated as a pure CO detector. You must always select a parameter set for fire detection as well as the parameter set for CO.
  • Page 30: Danger Levels And Warning Levels

    Progression of smoke density, temperature, and CO concentration over a long period of time The stated parameters are evaluated using algorithms (CO only with the parameter sets 'Suppression CO' and 'Balanced CO'). Neural fire detector FDOOTC241 can convey the following danger levels to the control panel: Danger level Meaning...
  • Page 31: Warning Levels For Co

    CO are not the only basis for reaching a warning level for CO. The CO progression is also observed over a longer period of time and evaluated using algorithms. Neural fire detector FDOOTC241 can convey the following warning levels to the control panel in the form of a technical message:...
  • Page 32: Diagnosis Levels

    Structure and function Function 3.3.3 Diagnosis levels The detector monitors its operation largely autonomously. The signals of all sensors are permanently monitored. In particular, the temperature sensors, light emitters, and light receivers are monitored to ensure that they are functioning correctly.
  • Page 33 Structure and function Function Information displayed on the Meaning Measures detector exchanger and tester 'No deviation' Normal, no fault is present None The detector is fully functional 'maybe excha.' Observe information Check cause during periodic maintenance The detector is fully functional Slightly soiled 'advice excha.' Replacement recommended...
  • Page 34: Line Separator

    Structure and function Function 3.3.4 Line separator All FDnet devices are equipped with a line separator. The FDnet device is equipped with electronic switches which isolate the defective part in case of a short-circuit on the detector line. The rest of the detector line remains serviceable.
  • Page 35: Extended Flashing Behavior Of Alarm Indicators In The Case Of Es 50

    Structure and function Function 3.3.7 Extended flashing behavior of alarm indicators in the case of ES 50 Internal alarm indicators The table below describes the flashing behavior of internal alarm indicators (IAI) in the case of an ES 50: Several flashing patterns are available for normal operation. The flashing pattern is selected using the 'SintesoWorks' software.
  • Page 36: Connection For External Alarm Indicators

    Structure and function Function External alarm indicators The table below describes the flashing behavior of external alarm indicators in combination with a point detector whose product version corresponds to the title of this chapter. Operating condition Flashing mode Graphic Alarm/Active EAI flashes red every second Display priority: 1...
  • Page 37: Renovation Mode

    Structure and function Function 3.3.9 Renovation mode When operating the point detectors on the FDnet, individual detectors can be set specifically to renovation mode on the fire control panel. Select renovation mode if major work is being carried out in the room and large volumes of dust or aerosols are being produced.
  • Page 38: Behavior In Degraded Mode

    (e.g. hold-open system), the output assumes the configured fail-safe position; configuration for a specific control panel is possible. In degraded mode operation, the FDOOTC241 only supports the 'Fire' alarm class. If the 'CO' alarm class is also to be supported in degraded mode operation, technical customer support must be informed.
  • Page 39: Line Tester

    Structure and function Mechanical setup 3.3.13 Line tester The line tester FDUL221 is able to recognize and localize the following errors on the FDnet: Wiring error Open line Short-circuit Ground fault In addition, the line tester recognizes the devices connected to the FDnet detector line.
  • Page 40: Accessories

    Structure and function Accessories 3.5 Accessories 3.5.1 Addressable detector base FDB221/FDB221-AA For the mounting of point detectors and alarm sounders For the recess-mounted cable entry For surface-mounted cable entry, up to 6 mm cable diameter Orange terminal block Detector base FDB221-AA additionally with a micro terminal Compatible with: –...
  • Page 41: Sealing Element Fdbz295

    Structure and function Accessories 3.5.3 Sealing element FDBZ295 To protect an alarm sounder or point detector against dirt and splash water Cannot be used in conjunction with designation plate FDBZ291 A detector base FDB2x1 or FDB2x1-AA must be used in addition to the alarm sounder or point detector Compatible with: –...
  • Page 42: Base Attachment Humid Fdb293

    Structure and function Accessories 3.5.6 Base attachment humid FDB293 For mounting in humid, wet environments and if the detector heating unit is used Protection category achievable: IP44 Six break-out points for M20 x 1.5 metal cable glands Compatible with: – Detector base FDB2x1/FDB2x1-AA –...
  • Page 43: Designation Plate Fdbz291

    Structure and function Accessories 3.5.9 Designation plate FDBZ291 To identify the location Compatible with: – Detector base FDB2xx/-AA – Detector base FDB271 – Sounder base FDSB29x – Base attachment FDB291 – Interbase FDSB22x Order number: A5Q00002621 3.5.10 Designation plate DBZ1193A To identify the location Compatible with: –...
  • Page 44: Dummy Detector Fdx291

    Structure and function Accessories 3.5.12 Dummy detector FDX291 To protect the detector base from dirt External labelling for identification Does not open the contact in the detector base Compatible with: – Detector base FDB2xx – Sounder base FDSB29x Order number: S54319-F2-A1 3.5.13 Detector dust cap FDZ291 To protect the point detector from dust Compatible with:...
  • Page 45: Emc-Protective Cage Fdbz294

    Structure and function Accessories 3.5.15 EMC-protective cage FDBZ294 To protect the devices against mechanical damage and electromagnetic fields Must be connected with earth connection Can only be used in conjunction with the following accessories: – Base attachment humid FDB293 – Base attachment wet FDB295 –...
  • Page 46: M20 X 1.5 Metal Cable Gland

    Air sampling smoke detection kit FDBZ290 Order number: A5Q00004478 3.5.19 Test gas REF8-C For testing the CO sensor in fire detectors Compatible with: – FDOOTC241 neural fire detector – Neural fire detector OOHC740 Order number: S54370-N2-A1 46 | 94 Building Technologies...
  • Page 47: Planning

    Planning Compatibility 4 Planning 4.1 Compatibility You will find detailed information in the 'List of compatibility'. Limitations to compatibility The 'Technical Ambient Supervision Message' mode is available from an ES 43 and is only supported by control panels FC20xx. You will find more information about limitations in the 'List of compatibility'. See the chapter 'Applicable documents [ 9]'.
  • Page 48: Parameter Sets: Sensor Mode 0 'Neural Fire Detector

    Planning Fire detection Deceptive phenomena Deceptive phenomena can deceive a fire detector and bring about a false alarm. The deceptive phenomena differ depending on the fire detector. Deceptive phenomena include Steam Cigarette smoke Dust Dry ice in discotheques Exhaust fumes Aerosols produced when welding Sources of heat such as radiant heaters or hot engines In a small hotel room with a rather low ceiling where vapor from the bathroom may...
  • Page 49 Planning Fire detection Suppression CO (12) Thanks to its very robust behavior, this parameter set is particularly suited for rooms where deceptive phenomena such as vapor, cigarette smoke or exhaust fumes can be expected. It reacts in a very robust way to the deceptive phenomenon vapor.
  • Page 50 Planning Fire detection 4.2.2.2 Use Name Risk of damage Concentration Room geometry Deceptive Risk of fire Critical fire size of valuable to persons phenomena items small… low… simple… few… small… small… large high complex many large medium 'High Suppression' 'Suppression' 'Suppression CO' 'High Compensation' 'Robust'...
  • Page 51: Specification

    Planning Fire detection 4.2.2.3 Specification The following table shows the characteristics and fields of application of the parameter sets of neural fire detectors FDOOTC241. Name Optical Thermal Typ. Response Sensitivity, Sensitivity, Static Differential activation Differential time open fire smoldering fire...
  • Page 52: Parameter Sets: Sensor Mode 1 'Heat Detector

    Planning Fire detection 4.2.3 Parameter sets: Sensor mode 1 'Heat detector' Select 'Sensor mode 1' 'Heat detector' if the detector should only react thermally. Name 'A1R' 'A1R' 'BR' 'A1S' 'BS' All parameter sets meet the criteria of standard EN 54-5. 4.2.4 Parameter sets: Sensor mode 2 'Smoke detector' 4.2.4.1 Description Select sensor mode 2 when fast temperature changes may occur which are not...
  • Page 53: Applications

    Planning Fire detection 4.2.4.2 Applications Name Risk of damage to Concentration of Room geometry Deceptive Risk of fire Critical fire size persons valuable items phenomena small … low … simple … few … small … small … large high complex many large medium...
  • Page 54: Default Settings

    Device location cannot be localized (e.g., due to a fault) When delivered, the default parameter set for the device (sensor mode 0, parameter set 0) is set in fire detector FDOOTC241. The following table shows the default device parameter set in the various sensor modes.
  • Page 55: Application Examples

    You will find application recommendations such as the selection of the detector settings for the various applications in document 010030. The following table includes examples regarding the selection of the parameter set for the FDOOTC241. The examples cannot be used universally, but illustrate typical applications. Environment...
  • Page 56: Technical Co Alarm

    Planning Technical CO alarm 4.3 Technical CO alarm NOTICE The system is not controlled as laid down in EN 54-2 Infringement of the EN 54-2 standard. The signals for CO detection alone must not be used to control fire detection equipment in accordance with EN 54-2.
  • Page 57: Parameter Sets For The 'Technical Co Alarm

    Planning Technical CO alarm 4.3.2 Parameter sets for the 'Technical CO Alarm' 4.3.2.1 Description (Parameter set numbers in brackets) Robust EU1 (0): Default device parameter set with a static alarm threshold of 60 ppm CO. This parameter set has a large compensation range and rapid compensation. Warning level 3 is not output in the default device parameter set.
  • Page 58: Specification

    Planning Technical CO alarm 4.3.2.3 Specification The table below shows the characteristics and fields of application of the parameter sets for CO of the point detector. Name Response thresholds of warning levels 1 to 3 'Technical CO Alarm' Alarming according to [ppm CO] standard Static...
  • Page 59: Application Examples

    Planning Technical CO alarm 4.3.4 Application examples You will find application recommendations such as the selection of the detector settings for the various applications in document 010030. The table below includes examples regarding the selection of the parameter set for CO for the point detector.
  • Page 60: Technical Ambient Supervision Message

    EN 54-2. The 'Technical Ambient Supervision Message' function is only supported by FDOOTC241 neural fire detectors with ES 43. 4.4.1 Ambient features In markets where the use of the 'Technical Ambient Supervision Message' is...
  • Page 61 Planning Technical Ambient Supervision Message Example of temperature monitoring caused by hysteresis: Figure 9: Ambient supervision output signal when the operating temperature threshold value of 35 °C is exceeded and a hysteresis range of 5 °C is selected. The diagram below shows the progression of the output signal.
  • Page 62: Temperature Monitoring

    The threshold value can be selected within a range that exceeds the permissible ambient temperature. The adjustable threshold value for the FDOOTC241 is -20…+50 °C. Hysteresis ranges You can set two hysteresis ranges: Normal hysteresis range with a range of 1 °C.
  • Page 63: Configuration

    Planning Technical Ambient Supervision Message 4.4.2 Configuration You can configure the point detector using the 'SintesoWorks' software as follows: Settings for temperature monitoring: Adjustable values Notes Normal hysteresis range Hysteresis range of 1 °C Large hysteresis range Hysteresis range of 5 °C Temperature [°C] Permissible threshold value range: -20...+50 °C Temperature undershot/...
  • Page 64: Mounting / Installation

    Mounting / Installation Required space 5 Mounting / Installation Specialist electrical engineering knowledge is required for installation. Only an expert is permitted to carry out installation work. Incorrect installation can take safety devices out of operation unbeknown to a layperson. 5.1 Required space Upon insertion of the detector, the detector base is stressed by compression, tension and torsion.
  • Page 65: Collective And Addressable Detector Base Fdb201/221

    Mounting / Installation Collective and addressable detector base FDB201/221 5.2 Collective and addressable detector base FDB201/221 Route the recess-mounted cable or surface-mounted cable with an outer diameter of max. 6 mm directly into the detector base. Ensure that the cables are flat on the bottom of the detector base. This way, they do not pose an obstruction when inserting the detector.
  • Page 66: Sealing Element Fdbz295

    Mounting / Installation Sealing element FDBZ295 5.4 Sealing element FDBZ295 Sealing element FDBZ295 is used in conjunction with detector bases FDB2x1/FDB2x1-AA. The sealing element provides the device with protection against dirt and spray water. Figure 13: Mounting of sealing element FDBZ295 66 | 94 Building Technologies A6V10209291_h_en_--...
  • Page 67 Mounting / Installation Sealing element FDBZ295 Mounting The kit is installed by hand 1. Fold the sealing lip back. 2. Insert the detector base into the sealing element. Make sure that the opening in the detector base lines up with the marking and opening on the rubber base. NOTICE Risk when piercing the rubber base with a tool! Consequences: Leaks in rubber base...
  • Page 68: Base Attachment Fdb291

    Mounting / Installation Base attachment FDB291 5.5 Base attachment FDB291 For cable diameters larger than 6 mm, the base attachment FDB291 is required. The required cable entries must be broken out on the base attachment FDB291. max. Ø 21mm max. 90 min.
  • Page 69: Base Attachment Humid Fdb293

    Mounting / Installation Base attachment humid FDB293 5.6 Base attachment humid FDB293 For mounting in wet rooms, the base attachment humid FDB293 is used. To seal the cables, especially tight cable glands are used. FDB293 max. Ø FDB2x1 FDB2x1-AA FDB2x2 max.
  • Page 70 Mounting / Installation Base attachment wet FDB295 Click Click Fig. 2 FDB221 FDB222 Fig. 1 DBZ1193A FDBZ294 Fig. 3 Fig. 4 DBZ1194 Figure 16: Mounting and removal of base adapter FDB241 on detector base Fig. 1 Mounting of base attachment wet FDB295 Mounting on substructure (2 screws) Mounting of cover (4 screws) Mounting of detector base (2 screws)
  • Page 71 Mounting / Installation Base attachment wet FDB295 WARNING Danger of falling Bodily injury When installing, use a secured ladder or work platform. Only use the appropriate detector exchanger and tester or detector tester as mounting tools. Mounting (Fig. 1 and 2) 1.
  • Page 72: Detector Locking Device Fdbz293

    Mounting / Installation Detector locking device FDBZ293 5.8 Detector locking device FDBZ293 The detector can be protected against theft with the detector locking device FDBZ293. Figure 17: Mounting of detector locking device FDBZ293 1 Detector base 4 Detector 2 Set screw with a hexagon socket 5 Allen key 3 Hole 1.
  • Page 73: Designation Plate Fdbz291

    Mounting / Installation Designation plate FDBZ291 5.9 Designation plate FDBZ291 To provide the detector with a location address, the address is inscribed on the designation plate FDBZ291 and placed on the detector base or base attachment. Figure 18: Mounting of designation plate FDBZ291 1 Designation plate FDBZ291 3 Identification 2 Base attachment FDB291...
  • Page 74: Detector Heating Unit Fdbh291

    Mounting / Installation Detector heating unit FDBH291 5.11 Detector heating unit FDBH291 5.11.1 Mounting of the detector heating unit When the detector is exposed to icing or moisture condensation (e.g. in cooling rooms, attics, loading ramps) the detector heating unit FDBH291 is installed in the base.
  • Page 75: Connection Of The Detector Heating Unit

    Mounting / Installation Detector heating unit FDBH291 5.11.2 Connection of the detector heating unit Connect the cables for the monitored supply from the control panel and the detector heating unit to the supplied micro terminals DBZ1190-AA. The cables can be placed in the same cable harness as the detector line or separately.
  • Page 76: Protective Cages

    Mounting / Installation Protective cages 5.12 Protective cages Protective cage DBZ1194 protects the detector against mechanical damage. EMC-protective cage FDBZ294 protects the detector against mechanical damage and electromagnetic fields. 5.12.1 Mounting of the protective cages The protective cages can only be installed on the base attachment wet FDB295. Figure 22: Mounting of the protective cages 1 Base attachment 4 Flat plug 6.3 x 0.8 mm...
  • Page 77: Cable Entry

    Mounting / Installation Cable entry 5.13 Cable entry The detector bases contain a terminal block. Permissible conductor cross-section 0.28…1.5 mm². Note the positive and negative poles. Only connect one wire per terminal. This is the only way to ensure the connection is failure-free for the entire service life of the device.
  • Page 78: Auxiliary Terminals Dbz1190-Aa/-Ab

    Mounting / Installation Cable entry 5.13.1 Auxiliary terminals DBZ1190-AA/-AB Use the auxiliary terminals for multiple connections: DBZ1190-AB connection terminal 1…2.5 mm² DBZ1190-AA micro terminal 0.28…0.5 mm² DBZ1190-AB FDB2x1 FDB2x1-AA FDB2x2 DBZ1190-AA Figure 24: Mounting of auxiliary terminals in detector base 1 Connection terminals 3 Micro terminals 2 Detector base...
  • Page 79: Detector Lines

    Mounting / Installation Detector lines 5.14 Detector lines General cabling information Preferably, twisted and non-shielded cables should be used. This also applies to connecting the external alarm indicators. Shielded cables are only required in special cases, such as strong high- frequency fields.
  • Page 80: Use Of Shielded Cables

    Mounting / Installation Detector lines 5.14.1.2 Use of shielded cables The shielding of the FDnet detector line must be connected in the detector base to auxiliary terminals DBZ1190-xx. There are two ways of connecting external alarm indicators: LINE Figure 26: Connection diagram for addressed detector line with and without external alarm indicators (with shielded cables) 1 Control panel 3 Auxiliary terminals DBZ1190-xx...
  • Page 81 Mounting / Installation Detector lines Variant A 1. Connect the positive pole of the external alarm indicator to the positive pole for the external alarm indicator on the detector. 2. Connect the negative pole of the external alarm indicator to the negative pole for the external alarm indicator on the detector.
  • Page 82: Detector Dust Cap Fdz291

    Mounting / Installation Detector dust cap FDZ291 5.15 Detector dust cap FDZ291 During the construction phase the detector may be covered with a detector dust cap FDZ291 to protect it from dust and dirt. FDZ291 Figure 27: Mounting / removal of detector dust cap FDZ291 1 Detector 2 Detector dust cap 3 Remove the detector dust cap either manually by turning it to the right, or by...
  • Page 83: Commissioning

    Commissioning 'Technical Ambient Supervision Message' performance check 6 Commissioning The detectors on the FDnet are commissioned on the control panel. The exact procedure is described in the control panel documentation. 6.1 'Technical Ambient Supervision Message' performance check You cannot test whether the 'Technical Ambient Supervision Message' is functioning correctly with test devices.
  • Page 84: Maintenance / Repair

    Subject all detectors to an annual visual check. Detectors that are heavily soiled or mechanically damaged must be replaced. The CO sensor used in the FDOOTC241 has a maximum service life of 5 years. When CO-supported parameter sets are activated, a critical warning is triggered once this period has lapsed.
  • Page 85: Testing The Point Detector

    CO test gas – REF 8-C (for CO sensor) Hot air fan 7.3.1 Testing the fire detection functionality The following table shows the accessories with which the FDOOTC241 can be tested in the various sensor modes. Fire detector FDOOTC241 Test gas Detector...
  • Page 86: Testing The Functionality Of The 'Technical Co Alarm

    Maintenance / Repair Testing the point detector 7.3.2 Testing the functionality of the 'Technical CO Alarm' The following table shows the accessories with which the 'Technical CO Alarm' can be tested on the FDOOTC241. Fire detector FDOOTC241 Detector Test gas...
  • Page 87: Testing Detectors With Detector Exchanger And Tester

    Maintenance / Repair Testing the point detector 7.3.4 Testing detectors with detector exchanger and tester The easiest way to test the detectors is using detector exchanger and tester FDUD292 and intelligent detector tester FDUD293. With these devices, the detectors can also be tested in operating mode without any problems. A detector can be switched to test mode with the detector exchanger and tester FDUD292 for the fire detection functionality.
  • Page 88: Specifications

    Specifications Technical data 8 Specifications Unless otherwise mentioned, the following data applies: Temperature = 25 °C Air pressure = 1000 hPa (750 Torr) 8.1 Technical data You will find information on approvals, CE marking, and the relevant EU directives for this device (these devices) in the following document(s); see 'Applicable documents' chapter: Document A6V10217810 Detector line...
  • Page 89 Base FDB221/FDB222 IP43 Base attachment FDB291 with IP43 base FDB221/FDB222 IP44 Base attachment wet FDB295 with base FDB221/FDB222 and FDOOTC241 Sounder base FDSB29x IP43 Electromagnetic compatibility: 1 MHz…2 GHz 30 V/m Mechanical data Dimensions (Ø x H): 100 x 45.6 mm...
  • Page 90: Dimensions

    Specifications Dimensions 8.2 Dimensions FDB221/FDB221-AA FDB222 Dimensions of FDOOTC241 with detector bases FDB221/FDB221-AA and FDB222 1 Point detector with base FDB221, 2 Point detector with base FDB222 FDB221-AA for surface-mounted for flush mounting. Only for and recess-mounted cable entry recess-mounted cable entry...
  • Page 91: Environmental Compatibility And Disposal

    Specifications Environmental compatibility and disposal 8.3 Environmental compatibility and disposal This equipment is manufactured using materials and procedures which comply with current environmental protection standards as best as possible. More specifically, the following measures have been undertaken: Use of reusable materials Use of halogen-free plastics Electronic parts and synthetic materials can be separated Larger plastic parts are labeled according to ISO 11469 and ISO 1043.
  • Page 92: Index

    Index Index Detector base FDB201/FDB221 Surface-mounted or Alarm indicator recess-mounted supply lead ......65 Indication of the operating condition ....34 Detector base FDB202/222 Ambient supervision ......... 19 Recess-mounted supply lead ......65 Application as heat detector Detector exchanger and tester Sensor mode 1 ..........
  • Page 93 Index Indication of the operating condition Recess-mounted supply lead Alarm indicator ..........34 Detector base FDB202/222 ......65 Information displayed on the detector exchanger and Recycling ............91 tester Renovation mode Diagnosis levels ..........32 Major renovation work ........37 Intelligent detector tester FDUD293 MC link .............
  • Page 94 Issued by © Siemens Switzerland Ltd, 2008 Siemens Switzerland Ltd Technical specifications and availability subject to change without notice. Building Technologies Division International Headquarters Gubelstrasse 22 CH-6301 Zug +41 41-724 24 24 www.siemens.com/buildingtechnologies Document ID: A6V10209291_h_en_-- Manual FD20 Edition: 2016-03-03...

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