Page 1 FS20 Fire detection system Planning Building Technologies 008843_v_en_-- 2015-12-15 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: 2015-12-15 Document ID: 008843_v_en_-- © Siemens Switzerland Ltd, 2006 2 | 242 Building Technologies 008843_v_en_-- Fire Safety 2015-12-15...
Page 3: Table Of Contents
Release Notes ...................21 Cyber security disclaimer ................21 Options with requirements ..............22 System overview ................23 FS20 Fire Detection System ..............23 Connecting SIGMASYS systems to FS20 [DE, AT] ........25 Extended networking .................26 4.3.1 Extended redundant networking ..........26 Stations .....................28 4.4.1 Fire control panels ..............28...
Page 4 Planning housings and mechanical components ........50 Housing for wall mounting ................50 6.1.1 Housing with plan compartment ..........51 Housing for desktop installation ..............52 19" housing ....................53 Mounting plate FHA2007-A1 ..............54 19" mounting kit FHA2016-A1 ..............55 FM blind 1HE FHA2017-A1................
Page 5 SAFEDLINK networking ................108 8.5.1 Fiber optic cable network module (SM/MM) FN2006/FN2007 ..110 8.5.2 Repeater (SAFEDLINK) FN2002-A1 .........111 8.5.3 Interface module DL485/13-xx-ST-SBT ........112 Special features of SAFEDLINK networking with FC2080......113 Networking via Ethernet ................115 Networking via SAFEDLINK and Ethernet ..........116 Extended networking ................117 8.9.1 Redundant networking ..............117 8.9.2...
Page 6 11.3 Determining the batteries and power supply ..........150 11.3.1 Guidelines on supplying power to line devices ......151 11.3.2 Calculate the operating current of all consumers ....... 151 11.3.3 Determining the battery ............. 154 11.3.4 Determining the power supply of the stations ......156 11.3.5 Parallel switching of the power supply ........
Page 7 Order numbers ................. 195 13.1 Indication and operating devices on detector lines ........195 13.2 Operating units ..................195 13.3 Wall housing ....................196 13.4 Desktop housing ..................197 13.5 Optional components ................197 13.5.1 Can be installed in stations ............197 13.5.2 License key for networking stations ...........199 13.5.3 Extended networking..............199 13.5.4...
Page 8 13.7.32 Fire terminal FT2040-EZ ............223 13.7.33 Fire terminal FT2040-FZ ............223 13.7.34 Fire control terminal FT2040-NZ ..........224 13.7.35 Fire terminal (Touch) FT2080-A1 ..........224 13.7.36 Fire terminal (Touch) FT2080-C2 ..........225 13.8 Order numbers FC2080 components ............225 13.8.1 Housing and options ..............
Page 9: About This Document
Document 008837 Product data is the reference for all components. You will find the order numbers of all FS20 components in chapters 'Compact stations [➙ 203]' and 'Order numbers FC2080 components [➙ 225]' as well as in document 009690 Components/spare parts.
Page 10 About this document Applicable documents Document identification The document ID is structured as follows: ID code Examples ID_ModificationIndex_Language_COUNTRY A6V10215123_a_de_DE -- = multilingual or international A6V10215123_a_en_-- A6V10315123_a_--_-- Date format The date format in the document corresponds to the recommendation of international standard ISO 8601 (format YYYY-MM-DD). Conventions for text marking Markups Special markups are shown in this document as follows:...
Page 11: Applicable Documents
About this document Applicable documents 1.1 Applicable documents Document ID Title 008836 FS20 Fire Detection System, System Description A6V10281424 Technical manual FG2020 008837 FS20 Fire Detection System, Product Data 008723 FD20 Detector system, Table of contents 009716 Outline quantities tool...
Page 12: Revision History
About this document Revision history 1.4 Revision history 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. The table below shows this document's revision history: Version Edition date...
Page 13 About this document Revision history Version Edition date Brief description Changes and additions: ● Specifications for firewall updated in 'Remote access' chapter. ● Order numbers for FC2080 – Installable components: Type designation of line cards corrected (FCI -> FCL), order changed. ●...
Page 14 About this document Revision history Version Edition date Brief description 2014-01-15 Line card (interactive): DOTE1152 is no longer supported. AnalogPLUS detector line: DC1135 is no longer supported. 2013-11-14 Edition for MP5 Change to date format according to ISO 8601 New: License keys (Sx) replace license keys (Lx) LED indicator (internal) FTO2008-A1 Fire terminal (Touch) FT2080-A1...
Page 15 About this document Revision history Version Edition date Brief description 03.2012 Edition for MP-EN 4.0 General changes ● New chapter 'System limits with PMI & mainboard FCM2004' ● PMI & mainboard FCM2004 is no longer supported in FC2040 together with management system ●...
Page 16 About this document Revision history Version Edition date Brief description 01.2009 Fourth edition MP2.1 ● Remote EVAC-NL corrected (Chap. 4.8.1) 11.2008 Third edition MP2.1 ● Various corrections ● Current consumption values added ● Collective and MS9i detector lines ● FDnet detector line revised ●...
Page 17: 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 ●...
Page 18: 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 19 Modifications to the system design and the products 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. 19 | 242 008843_v_en_--...
Page 20: Standards And Directives Complied With
Personal injury or damage to property caused by poor maintenance or lack of maintenance 2.3 Standards and directives complied with A list of the standards and directives complied with is available from your Siemens contact. 2.3.1 CPR conformity and firmware version In order to satisfy Ordinance No.
Page 21: Release Notes
Read the 'Release Notes' before you carry out a firmware update to a fire detection installation. 2.5 Cyber security disclaimer Products, solutions and services from Siemens include security functions to ensure the secure operation of building automation and control, fire safety, security management, and physical security systems. The security functions on these products, solutions and services are important components of a comprehensive security concept.
Page 22: Options With Requirements
Options with requirements 3 Options with requirements You can implement the following options with requirements using the FS20 fire detection system. The sections specified below are from EN54-2/A1. EN54-2/A1 Options with requirements section Output to fire alarm devices 7.9.1 Alarm confirmation input from fire alarm routing equipment 7.9.2...
Page 23: System Overview
In the fire detection system FS20, the ↑ stations – fire control panels and fire terminals – are networked via the ↑ system bus ↑ FCnet/SAFEDLINK.
Page 24 ↑ Detector lines The FS20 fire control panels all support the ↑ FDnet detector line. In addition to detectors and input and output modules, indicating and operating devices can be connected to the FDnet detector line. Power supply for these devices is ensured by the detector line.
Page 25: Connecting Sigmasys Systems To Fs20 [De, At]
You will find the detailed description of FG2020, the specific planning and the installation in the FG2020, A6V10281424 technical manual. The FG2020 acts as the connection between the FS20 system, the SIGMASYS system, or the D100 system and is also a modular fire control panel with components for detection, evaluation, and alarming in the event of fires.
Page 26: Extended Networking
CPU, depending on the size of the ↑ site. 4.3 Extended networking An Ethernet switch (modular) FN2012 can be used to consolidate several networked FS20 fire detection systems to make one composite network (FCnet/LAN). This FCnet/LAN is connected via an Ethernet switch (modular) to the individual FCnet/SAFEDLINK sub-nets in a loop by means of fiber optic cables.
Page 27 System overview Extended networking Figure 3: Overview of ↑ extended networking FCnet/LAN (optical Ethernet via Ethernet switch (modular) FN2012) FCnet/SAFEDLINK sub-net with ≤512 FDnet line devices, less than 12000 m of monitored surface, and without remote transmission FCnet/SAFEDLINK sub-net with >512 FDnet line devices or more than 12000 m of monitored surface FCnet/SAFEDLINK sub-net with external alarming...
Page 28: Stations
System overview Stations 4.4 Stations 4.4.1 Fire control panels You will find information about the country-specific availability of devices in document 'Delivery Release'. FC2020 FC2030 FC2040 FC2060 FC2080 Operation Operating unit Integrated Integrated Integrated Integrated Optional Operating add-on Max. 1 Max.
Page 29 System overview Stations FC2020 FC2030 FC2040 FC2060 FC2080 Supply Power supply 70/150 W 150 W 150 W 150 W Max. 2 kits of 3x 150 W Battery pair (depending on the Max. 26 Ah Max. 26 Ah Max. 26 Ah Max. 45 Ah Max.
Page 30: Fire Terminals
System overview Stations With the FC2080, only optional as a separate station Functionality via I/O card (programmable) FCI2008-A1 and/or FDCIO224 and key safe adapter Only via I/O card (RT) and I/O card (horn/monitored), mixed variants possible Fire control panels FC2060 with the PMI & mainboard FCM2004 are not supported by market package MP-EN 4.0 because of memory restrictions.
Page 31 System overview Stations FT2040 FT2080 ↑ License key Max. 1 Max. 1 Key switch (Kaba) Max. 1 ― Key switch (nordic) Max. 1 ― Door contact kit [DE] ― ― Table 3: Overview of fire terminals 31 | 242 008843_v_en_-- Building Technologies Fire Safety 2015-12-15...
Page 32: Fs20 Fire Detection System Setup
System overview FS20 Fire Detection System Setup 4.5 FS20 Fire Detection System Setup The following block diagram shows the exemplary system setup without extended networking. Figure 4: FS20 system setup 32 | 242 Building Technologies 008843_v_en_-- Fire Safety 2015-12-15...
Page 33 System overview FS20 Fire Detection System Setup Fire terminal FT2040 as standard operating terminal Fire control panel FC2020 with an integrated FDnet line card Fire control panel FC2040 with two integrated FDnet line cards Fire control panel FC2030 with an integrated FDnet line card and card cage for two additional FDnet line cards, ↑...
Page 34: Functions
System overview Functions 4.6 Functions This chapter describes the most important functions that can be supported by the fire detection system. Decision on alarm The danger signals of the detectors are evaluated by the ↑ zone. The decision on alarm is made at zone level. Decision on alarm can be configured as follows for each zone: ●...
Page 35: Project Planning Of Indication And Operation Devices
Various operation and indication devices are available in the fire detection system FS20. The functions of the devices differ. Access to and ↑ visibility of other operation and indication devices can be configured in different ways. In a first project planning step, it is necessary to define which types of indication and operation devices are required and how they can be integrated into the fire detection system.
Page 36 Project planning of indication and operation devices Operation and indication devices With the exception of the 19" pedestal housing on the FC2080, the fire terminal board FTI2001 must be installed for power distribution. When it is installed in the FC2080, the fire terminal (Touch) is supplied with power by the processor unit via the adapter supplied with the FC2080 and the associated flat cable.
Page 37 Project planning of indication and operation devices Operation and indication devices FCnet/SAFEDLINK RS485 RS232 RS485 RS232 Card cage Card cage (CPU) (5 slots) FCA2003 FCA2008 Operating unit DC 24 V Control unit (19", FC2080) FCC2002 Operating add-on Operating add-on FC2080 Figure 5: An example of the optional display and operating concept with the FC2080 Interfaces and ↑...
Page 38 Project planning of indication and operation devices Operation and indication devices Connection Supply via Visibility (configurable) Operation and indication devices Station-internal bus Station-internal supply 20 zones, system-wide 20 zones EVAC-NL operating add-on [NL] FBA terminal [CH] Station-internal bus Station-internal supply Same visibility as stations with FBA terminal FDnet detector line...
Page 39: Functions Of The Operation And Indication Devices
Project planning of indication and operation devices Functions of the operation and indication devices 5.2 Functions of the operation and indication devices The following table shows the functions of the operation and indication devices. Fire control panel Fire terminal ↑ Floor repeater ↑...
Page 40 Project planning of indication and operation devices Functions of the operation and indication devices LED indicator Event printer LED emergency Mimic display Mimic display (internal) FTO2001-A1 alarm indicator driver FT2001- driver (EVAC) (internal) or FTO2002-A1 FTO2003-D1 FT2003-N1 [NL] Fujitsu DL3750+ [AT] (external) Indication...
Page 41 Project planning of indication and operation devices Functions of the operation and indication devices EVAC-NL Operating add- FBA terminal Fire brigade Fire brigade ESPA-4.4.4 operating on (2xEVAC FTO2004-C1 operating operation and interface unit term.) [CH] panel (FBF) indication panel FTO2007- FCM2008-N1 [DE] (FAT) [DE]...
Page 42: Fire Terminal
Project planning of indication and operation devices Fire terminal 5.3 Fire terminal Example of a fire terminal FT2040 The fire terminal is an operating unit built into a housing (Eco) and does not normally contain a power supply. Supply is ensured by means of an external 24 V power supply unit.
Page 43: Led Module Fto2008-A1
Project planning of indication and operation devices LED module FTO2008-A1 5.6 LED module FTO2008-A1 The LED module FTO2008-A1 contains 24 indicator zones. Each ↑ zone contains one red / green bicolor LED and one yellow LED. Any events can be assigned to the LEDs. Each LED may be configured as a static or flashing indicator.
Page 44 Project planning of indication and operation devices Floor repeater terminal FT2010 and floor repeater display FT2011 Guideline ● External power supply is possible with DC or AC. ● ↑ Floor repeater terminals and ↑ floor repeater displays that are not fed by the ↑...
Page 45: Evac-Nl Indicators [Nl]
Project planning of indication and operation devices EVAC-NL indicators [NL] 5.9 EVAC-NL indicators [NL] 5.9.1 Structure and function 20-zone EVAC indicator FCM2008-N1 FC20xx PMI & mainboard Periphery board FCM20xx FTO2007 FTO2007 FCM2008-N1 Figure 6: EVAC-NL 20-zone indicator in the operating add-on The EVAC-NL operating unit FTO2007-N1 is connected to the peripheral data bus and is integrated in the operating unit as a 10-zone indicator.
Page 46 Project planning of indication and operation devices EVAC-NL indicators [NL] Remote EVAC Vext. FTI2002 FTI2002 FCM2008-N1 X402 X400 FTO2007 FTO2007 Vsys RS485 FC20xx FCM20xx RS485 FCA2002 Peripheryboard PMI & Mainboard Figure 7: EVAC-NL remote in separate housing External housing Operating add-on FCM2008-N1 with 20-zone EVAC indicator FTO2007 EVAC-NL operating unit FTI2002...
Page 47 Project planning of indication and operation devices EVAC-NL indicators [NL] Mimic display driver (EVAC) Vext. FT2003 X2/X3 FTI2002 FTO2007 Vsys RS485 FC20xx FCM20xx RS485 FCA2002 Periphery board PMI & mainboard Figure 8: EVAC-NL remote as mimic display External housing LED mimic display panel (34 LED connections, 16 outside buttons and 1 key switch) FTO2007 EVAC-NL operating unit...
Page 48: Evac-Nl Operating Unit Fto2007-N1 [Nl]
Project planning of indication and operation devices EVAC-NL indicators [NL] 5.9.2 EVAC-NL operating unit FTO2007-N1 [NL] The EVAC-NL operating unit is an evacuation control unit for the Dutch market. It enables the operation of a maximum of ten evacuation zones. Totaal Alarm Zoeme...
Page 49: Mimic Display Driver Ft2001-A1
Project planning of indication and operation devices Mimic display driver FT2001-A1 5.10 Mimic display driver FT2001-A1 The mimic display driver FT2001-A1 is a parallel LED indication for the system- wide signaling of events and is connected to the FDnet detector line. It has 48 LEDs that are installed on a ground plan panel.
Page 50: Planning Housings And Mechanical Components
Planning housings and mechanical components Housing for wall mounting 6 Planning housings and mechanical components 6.1 Housing for wall mounting The housing for wall mounting of the ↑ stations is comprised of the following components: ● Rear panel ● Operating unit ●...
Page 51: Housing With Plan Compartment
Planning housings and mechanical components Housing for wall mounting Empty housing All housings are also available as 'empty' housings. Empty housings are used to install other devices and options. Examples include: ● Operating add-on ● Separate decentralized supply ● Extra batteries ●...
Page 52: Housing For Desktop Installation
Planning housings and mechanical components Housing for desktop installation 6.2 Housing for desktop installation The housings for desktop installation are empty housings for the installation of a fire terminal (Touch) FT2080. Batteries cannot be installed due to space constraints. An EMC filter is built in for the external supply. The table below shows the available desktop housings: Rear cover (FT2080) FHA2039-A1 Desktop housing (FT2080) FHA2040- Overall dimensions (mm), on the desktop...
Page 53: 19" Housing
Planning housings and mechanical components 19" housing 6.3 19" housing The 19" industrial housing is suitable for the fire control panel FC2080. From a mechanical standpoint, the housing is built from the following components: ● Rear panel ● Closable door ●...
Page 54: Mounting Plate Fha2007-A1
Planning housings and mechanical components Mounting plate FHA2007-A1 6.4 Mounting plate FHA2007-A1 The mounting plate can be used in all Standard, Comfort and Large housings. Components that cannot be mounted elsewhere in the housing (e.g., fire brigade periphery module or RT interface in the Standard housing) are mounted on the mounting plate.
Page 55: 19" Mounting Kit Fha2016-A1
Planning housings and mechanical components 19" mounting kit FHA2016-A1 6.5 19" mounting kit FHA2016-A1 The 19" mounting kit serves as a mounting aid for fitting a ↑ station into a 19" housing or into a 19" frame. The kit includes two mounting units which are screwed down on a 19"...
Page 56: Fm Blind 2He Fha2015-A1
Planning housings and mechanical components FM blind 2HE FHA2015-A1 Required recess size in plasterwork ● Housing (Eco) 456 x 424 x 97.5 mm (W x H x D) ● Housing (Standard) 456 x 424 x 177.5 mm (W x H x D) ●...
Page 57: Fire Control Panel (Recess) [Ch]
Planning housings and mechanical components Fire control panel (recess) [CH] 6.8 Fire control panel (recess) [CH] Fire control panel (recess) FC2030-CR is modular and has been specifically designed for modernizing CI1145 control panels. The housing fits into the recess- mounted formwork box of a CI1145. The visible part has the same appearance and dimensions as fire control panel FC2030.
Page 58: Mounting Kit (Switch) Fha2029
Planning housings and mechanical components Mounting kit (switch) FHA2029 6.9 Mounting kit (switch) FHA2029 The mounting kit (switch) FN2029 is required to mount the Ethernet switch (modular) FN2012 in a way that is VdS-compliant. The mounting kit (switch) contains two different mounting brackets including all mounting accessories and necessary cable kits.
Page 59: Planning Detector Lines
Planning detector lines Planning an FDnet detector line 7 Planning detector lines 7.1 Planning an FDnet detector line Purpose During planning of the ↑ detector lines, the load of the ↑ line card is verified. This produces the following: ● Number and type of devices per detector line ●...
Page 60: Sequence
Planning detector lines Planning an FDnet detector line Limited planning with the aid of these instructions Limited planning of the detector lines using these instructions allows a detector line to be verified. The following restrictions must be taken into account: ●...
Page 61: Devices That Can Be Connected To The Fdnet Detector Line
Planning detector lines Planning an FDnet detector line 7.1.2 Devices that can be connected to the FDnet detector line Alongside the fire detectors themselves, other devices which communicate via the FDnet protocol can be connected to the ↑ FDnet detector line. The following figure shows which devices can be connected to the FDnet detector line.
Page 62 Planning detector lines Planning an FDnet detector line Device type Type Description EAI FDSB291 Neural fire detector FDOOT221 Optical-thermal fire detector for standard applications with few deceptive phenomena FDOOTC241 Optical-thermal fire detector with CO measurement FDOOT241-8 Optical-thermal fire detector for demanding applications with many deceptive phenomena.
Page 63 Planning detector lines Planning an FDnet detector line Device type Type Description EAI FDSB291 Linear smoke detector FDL241-9 – Linear smoke detector for demanding applications with many deceptive phenomena Manual call point FDM221 Direct activation for indoor applications – – FDM223 Indirect activation (large housing) –...
Page 64 Planning detector lines Planning an FDnet detector line Device type Type Description EAI FDSB291 ↑ Line separator FDCL221 – – Line separator for the correct connection of several stub lines at one point on a ↑ loop Multi line separator FDCL221-M Multi line separator module for the –...
Page 65 Planning detector lines Planning an FDnet detector line Device type Type Description EAI FDSB291 Radio gateway (SWING) FDCW241 – Gateway for the wireless transmission of detector signals to the FDnet Neural radio fire detector FDOOT271 Optical-thermal fire detector with radio –...
Page 66: Line Distribution And Loop Extension
Planning detector lines Planning an FDnet detector line 7.1.3 Line distribution and loop extension The compact control panels FC2020 to FC2060 have periphery boards with integrated ↑ line cards. The FC2080 and FG2020 do not have integrated line cards. They are equipped exclusively with line cards (FDnet/C-NET) for installation. Integrated line cards Each integrated line card supports a maximum of 252 addresses and has ports for two ↑...
Page 67 Planning detector lines Planning an FDnet detector line ↑ Line card (FDnet/C-NET) for card cage Line card (FDnet/C-NET) FCL2001 Figure 20: Line distribution on line card (FDnet/C-NET) Integrated line card 1 Integrated line card 2 Lx / Lxa ↑ Loop or partial loop ↑...
Page 68: Line Topology
Planning detector lines Planning an FDnet detector line Guidelines ● A maximum of 252 addresses can be operated per line card on one ↑ loop. ● The following restrictions apply if more then 126 devices are connected to a loop (a maximum of 252 may be connected): –...
Page 69: Line Separation Function
Planning detector lines Planning an FDnet detector line Technical specifications ● All FDnet devices have an integrated ↑ line separator. ● Only one ↑ stub may branch off between two adjacent devices. ● When there are several stubs next to one another, a line separator FDCL221 must be connected between each one.
Page 70: Cabling Line Devices
Planning detector lines Planning an FDnet detector line Branching off from a ↑ stub ● Only one stub is permitted between two FDnet devices. ● If there is more than one stub between two FDnet devices, a ↑ line separator must be fitted between the stubs.
Page 71: Cable Length
Planning detector lines Planning an FDnet detector line Additional cabling ● FDnet alarm devices (e.g., alarm sounder FDS221) are also connected to the ↑ detector line and do not need a separate supply line. Power supply is ensured by the detector line. ●...
Page 72 Planning detector lines Planning an FDnet detector line Defining and calculating the cable resistance (R) The cable resistance R is the resistance value over the complete wire length. This corresponds to the resistance value for both cable conductor strings. R = l * R' Cable resistance [Ω] Cable length (both conductor strings) [km] Cable resistance per km [Ω/km]...
Page 73 Planning detector lines Planning an FDnet detector line 7.1.7.2 Number of sub-stubs depends on cable resistance The maximum number of sub-stubs on a FDnet loop depends on the ↑ loop's line resistance. The table below provides an overview of the possible number of sub- stubs.
Page 74 Planning detector lines Planning an FDnet detector line Determining the cable capacitance To determine the cable capacitance the following cable lengths must be added: ● Total loop length ● Length of all stub lines ● Length of all cables to all external alarm indicators ●...
Page 75 Planning detector lines Planning an FDnet detector line 7.1.7.4 Examples of different cable types The tables below show the cable resistance (R') and the cable capacitance (Cs') of different cable types. The values given are reference values and may vary from one manufacturer to the next.
Page 76: Connection Factors Of The Fdnet Devices
Planning detector lines Planning an FDnet detector line 7.1.8 Connection factors of the FDnet devices Determine the following values for each ↑ loop and each ↑ stub: ● Address connection factor AK ● ↑ Quiescent current connection factor RK ● ↑...
Page 77 Planning detector lines Planning an FDnet detector line Table for determination of the FDnet connection factors Device Type Number AK ΣAK ΣRK ΣMK Neural fire detector FDOOT221 FDOOT241-9 FDOOT241-8 FDOOTC241 FDOOT241-A FDOOT241-A3 FDOOT241-A4 FDOOT241-A9 Wide-spectrum smoke FDO221 detector FDO241 Aspirating smoke detector FDA221 FDA241 Heat detector...
Page 78 Planning detector lines Planning an FDnet detector line Device Type Number AK ΣAK ΣRK ΣMK FDOOT271 Neural radio detector (SWING) Radio smoke detector DOW1171 Manual call point with radio SMF6120 base SMF121 Radio manual call point FDM273 VESDA Laser Focus VLF-250/500 Support for ASD system FDCC221...
Page 79: Maximum Current Connection Factor Reserve
Planning detector lines Planning an FDnet detector line 7.1.9 Maximum current connection factor reserve This chapter describes how to verify the possible reserve of the ↑ maximum current connection factor (MK_res) for one line by means of an example. This is done with the aid of diagrams for the different line cards.
Page 80 Planning detector lines Planning an FDnet detector line Verification Verify the ↑ maximum current connection factor reserve by means of the diagram. To do so, proceed as follows: 1. In the diagram for four loops, draw a vertical line at the address connection factor AK = 18.
Page 81 Planning detector lines Planning an FDnet detector line 7.1.9.2 Diagram for line cards with one loop This diagram is used to verify the ↑ maximum current connection factor reserve (MK_res) for all line cards, without or without ↑ loop extension, on which only one loop is operated.
Page 82 Planning detector lines Planning an FDnet detector line 7.1.9.3 Diagram for line cards with two loops This diagram serves to verify the ↑ maximum current connection factor reserve (MK_res) for integrated line cards operated without ↑ loop extension (FDnet). Conditions ●...
Page 83 Planning detector lines Planning an FDnet detector line 7.1.9.4 Diagram for line cards with four loops or four stubs This diagram serves to verify the ↑ maximum current connection factor reserve (MK_res) for ↑ line cards with connections for four ↑ loops or four ↑ stubs. The following line cards are affected by this: ●...
Page 84 Planning detector lines Planning an FDnet detector line 7.1.9.5 Diagram for line cards with eight stubs This diagram serves to verify the ↑ maximum current connection factor reserve (MK_res) for ↑ line cards on which eight ↑ stubs are operated. The following line cards are affected by this: ●...
Page 85: Collective Detector Line
Planning detector lines Collective detector line 7.2 Collective detector line 7.2.1 Devices that can be connected to the line card (collective) ↑ Line card (collective) FCL2002-A1 allows collective fire detectors to be connected to fire control panels with a card cage. The line card (collective) is mainly used for the migration of existing collective detector lines.
Page 86 Planning detector lines Collective detector line Topology A total of eight ↑ stubs can be connected to the ↑ line card (collective). Max. 32 devices can be connected per stub. The KMK must be complied with: ● KMK = load factor for collective elements = 32 Unused (empty) stubs do not have to be connected.
Page 87 Planning detector lines Collective detector line The table below contains an overview of the detector systems and line types supported Detector system Line types Transzorb diode EOL22 (Ex) 3.3 kΩ 4.7 kΩ 20 V (grey zone) (grey zone) MS7, MS9, MS24 DS11 SynoLINE600 SYGMACON (SIGMASYS...
Page 88 Planning detector lines Collective detector line Additional documentation ● You will find detailed information on device compatibility in the 'List of compatibility'. ● You will find detailed information about the products in the respective Technical manuals for the devices. ● You will find information about key detector figures in document d825b.
Page 89: Ms9I Detector Line
The procedure that should be followed when planning the MS9i detector lines for the ↑ line cards (MS9i) for the fire control panel FC2080 is similar to the one for planning 008843 as described in the FS20 system documentation. The following features differ for the FC2080: ●...
Page 90 Planning detector lines MS9i detector line The line card (MS9i) is inserted in the card cage of the fire control panel and is automatically detected by the system. Topologies A total of two ↑ loops or one loop and one ↑ stub or two stubs can be connected to the ↑...
Page 91: Analogplus Detector Line
Planning detector lines AnalogPLUS detector line 7.4 AnalogPLUS detector line 7.4.1 Devices that can be connected to the line card (AnalogPLUS) The ↑ line card (AnalogPLUS) FCL2005 is a module bus card which can be used in fire control panels with a card cage. The purpose of the line card (AnalogPLUS) is to migrate AnalogPLUS and Synova line devices in the event of modernizations.
Page 92 Planning detector lines AnalogPLUS detector line External supply for line devices The ↑ line card (AnalogPLUS) has no supply output for line devices. A separate power supply may need to be provided. Supported detectors The ↑ line card (AnalogPLUS) supports the same recording peripheral equipment as the corresponding AlgoRex line plug-in modules E3M110, E3M111, K3M111: ●...
Page 93: Interactive Detector Line
Planning detector lines Interactive detector line 7.5 Interactive detector line 7.5.1 Devices that can be connected to the line card (interactive) The ↑ line card (interactive) FCL2006 is a module bus card which can be used in fire control panels with a card cage. The purpose of the line card (interactive) is to migrate interactive line devices in the event of modernizations.
Page 94 Planning detector lines Interactive detector line Supported detectors The ↑ line card (interactive) supports the same recording peripheral equipment as the corresponding AlgoRex line plug-in modules E3M070, E3M071, K3M071: ● Optical smoke detectors: DO115x ● Radio smoke detectors: DCW1151 ● Multi-sensor smoke detectors: DOT115x ●...
Page 95: Interactive Ex Detector Line
Planning detector lines Interactive Ex detector line 7.6 Interactive Ex detector line 7.6.1 Devices that can be connected to the line card (interactive, Ex) The ↑ line card (interactive, Ex) FCL2007 is a module bus card which can be used in fire control panels with a card cage.
Page 96 Planning detector lines Interactive Ex detector line Supported Ex detectors The ↑ line card (interactive, Ex) supports the same recording peripheral equipment as the corresponding AlgoRex line plug-in module E3M171. ● DOT multi-sensor smoke detectors: DOT1151A-Ex above SB3 ● DT heat detectors: DT1151A-Ex above SB3 ●...
Page 97: Planning The Networking Of The Stations
Planning the networking of the stations Networking types –overview 8 Planning the networking of the stations 8.1 Networking types –overview The ↑ stations in the fire detection system can be networked in the following way: ● ↑ SAFEDLINK (↑ system bus) and / or FCnet/SAFEDLINK ●...
Page 98: Extended Safedlink Networking
Planning the networking of the stations Networking types –overview 8.1.2 Extended SAFEDLINK networking Extended ↑ SAFEDLINK networking is the coupling of several SAFEDLINK sub- nets via FCnet/LAN (optical Ethernet). Figure 36: Example: Extended ↑ SAFEDLINK network FCnet/LAN FCnet/SAFEDLINK sub-nets Terminal or ↑ Ethernet station ↑...
Page 99: Ethernet Networking
Planning the networking of the stations Networking types –overview 8.1.3 Ethernet networking Networking via Ethernet is not in compliance with EN 54. Figure 37: Networking via Ethernet Ethernet stations Ethernet network Ethernet hub or switch 8.1.4 SAFEDLINK and Ethernet networking Networking via Ethernet is not in compliance with EN 54.
Page 100: License Keys
'Sinteso Touch PC' function does not apply to license key (L2) Each next-higher license key is backward compatible. Each individual FS20 station which communicates via ↑ BACnet third-party products must be enabled with a ↑ license key. SintesoView has the same ↑ visibility as the connected 'Station'. You can therefore gain global visibility with SintesoView in a networked ↑...
Page 101: Access Components/Function And Access Type
Planning the networking of the stations Access components/function and access type 8.3 Access components/function and access type In addition to operation at the ↑ stations, the fire detection system can be accessed using the following components: ● SintesoWorks, e.g., to initialize the station, update firmware, upload / download configuration ●...
Page 102: Access To The Standalone Station
Planning the networking of the stations Access components/function and access type 8.3.1 Access to the standalone station Figure 39: Example of ↑ standalone station Local access Item no. Designation/function Address Notes Ethernet connection ↑ Standalone station 192.168.200.1 – Ethernet connection –...
Page 103: Access To The Safedlink Station
Planning the networking of the stations Access components/function and access type 8.3.2 Access to the SAFEDLINK station Figure 40: Example of ↑ SAFEDLINK stations If a ↑ SAFEDLINK Station is configured as ↑ 'GAP' or 'Secondary GAP', it must also be configured as a router or a standby router; otherwise, local or general access via the Ethernet port will not be possible.
Page 104 Planning the networking of the stations Access components/function and access type Access via ↑ GAP station Item no. Designation/function Ethernet address ↑ SAFEDLINK Notes address ↑ GAP station 192.168.201.1 – Configured as GAP with DHCP server function. ↑ Router station 192.168.100.3 –...
Page 105: Local Access To Extended Network
Planning the networking of the stations Access components/function and access type 8.3.3 Local access to extended network Figure 41: Example: Extended network, local access Item no. Designation/function Ethernet address ↑ SAFEDLINK Notes address 192.168.200.1 – Ethernet interface to IP address of Ethernet interface. A ↑...
Page 106: Internal Access To Extended Network Via Gap
Planning the networking of the stations Access components/function and access type Item no. Designation/function Ethernet address Notes ↑ SAFEDLINK address SAFEDLINK sub-net 2 – 192.168.2.x IP address range for sub-net 2 (pre- setting, can be changed) Ethernet switch – – –...
Page 107: Planning Procedure
Planning the networking of the stations Planning procedure Item no. Designation/function Address Address Notes Ethernet ↑ SAFEDLINK ↑ GAP station 192.168.201.1 – Configured as GAP with DHCP server function ↑ SAFEDLINK stations – – – ↑ Router stations – – –...
Page 108: Safedlink Networking
Planning the networking of the stations SAFEDLINK networking 8.5 SAFEDLINK networking The ↑ stations are networked in compliance with EN 54 via the ↑ system bus FCnet/SAFEDLINK. Data exchange is possible between all stations connected to the ↑ SAFEDLINK system bus. This makes system-wide operation, control and alarming possible.
Page 109 Planning the networking of the stations SAFEDLINK networking Characteristics ↑ Stations that can be networked via Max. 32 FCnet/SAFEDLINK, without ↑ BACnet configuration (e.g., management station) Stations that can be networked via Max. 16 FCnet/SAFEDLINK, with BACnet configuration (e.g. management station) Distance between the stations Max.
Page 110: Fiber Optic Cable Network Module (Sm/Mm) Fn2006/Fn2007
Planning the networking of the stations SAFEDLINK networking 8.5.1 Fiber optic cable network module (SM/MM) FN2006/FN2007 The two fiber optic cable network modules enable an optical FCnet/SAFEDLINK network over several kilometers that is in conformance with EN 54. The fiber optic cable network modules have two separate channels and thus also enable the redundant linkage of one ↑...
Page 111: Repeater (Safedlink) Fn2002-A1
Planning the networking of the stations SAFEDLINK networking Characteristics Length of the fiber optic cable (module/module): ● With fiber optic cable network module (SM) Max. 40,000 m FN2006-A1 Max. 4000 m ● With fiber optic cable network module (MM) FN2007-A1 Total length of the electrical FCnet line Max.
Page 112: Interface Module Dl485/13-Xx-St-Sbt
Planning the networking of the stations SAFEDLINK networking Characteristics Distance between repeater and ↑ stations Max. 1000 m Number of repeaters between two stations Max. 1 Number of repeaters per ↑ SAFEDLINK network Max. 32 Data rate 'Standard' Max. 315 kbit/s 'Low' data rate Max.
Page 113: Special Features Of Safedlink Networking With Fc2080
Planning the networking of the stations Special features of SAFEDLINK networking with FC2080 Characteristics Length of the fibre optic cable: ● Multi-mode Max. 2000 m ● Single mode Max. 15000 m Connection length to station Max. 100 m Required converter between two stations Optical connection Number of fibers between two interface modules Data rate 'Standard'...
Page 114 Planning the networking of the stations Special features of SAFEDLINK networking with FC2080 Fire control panel FC2080 in the ↑ FCnet/SAFEDLINK network The network modules of the FC2080 are integrated on the ↑ CPU card (FC2080) and the communication card (FC2080) and are connected as shown. Only two network modules (SAFEDLINK, CC) may be loaded in the FC2080.
Page 115: Networking Via Ethernet
Planning the networking of the stations Networking via Ethernet 8.7 Networking via Ethernet ↑ Stations can be networked via Ethernet. In this case, the connection is established with a commercially available Fast Ethernet cable (CAT5 or CAT6). Restrictions on the Ethernet: ●...
Page 116: Networking Via Safedlink And Ethernet
Planning the networking of the stations Networking via SAFEDLINK and Ethernet Characteristics Stations that can be networked with Ethernet network Max. 32 alone Cable type Fast Ethernet CAT5/CAT6 Data rate 100/10 Mbit/s Max. length of individual Ethernet connections 100 m 8.8 Networking via SAFEDLINK and Ethernet You will find details on the technical terms ↑...
Page 117: Extended Networking
Planning the networking of the stations Extended networking The connection station from the FCnet/SAFEDLINK sub-net to the FCnet/Ethernet sub-net is a router station. This station has the function of a router and addresses the ↑ stations on the FCnet/Ethernet sub-net. Characteristics FCnet/Ethernet sub-nets on the FCnet/SAFEDLINK Max.
Page 118 Planning the networking of the stations Extended networking Degraded mode is guaranteed because the router stations monitor one another. If the router station fails, the ↑ standby router station automatically takes over the function of the router station. Figure 51: Extended, redundant networking of ↑ SAFEDLINK sub-nets 1 FCnet/LAN 2 FCnet/SAFEDLINK sub-net with ≤512 FDnet line devices (not networked redundantly)
Page 119: Restrictions On Extended Networking
Planning the networking of the stations Extended networking Characteristics To ensure EN-54-compliant networking, you may only use the permitted Ethernet switches, i.e., Ethernet switch (MM) FN2008 or Ethernet switch (modular) FN2012. ↑ Stations that can be networked via all sub-nets Max.
Page 120: Management Station Or Tool Via Gap
Planning the networking of the stations Management station or tool via GAP 8.10 Management station or tool via GAP ● A ↑ management station must be connected via the ↑ GAP's Ethernet interface. ● In the case of SintesoView or SintesoWorks, the GAP is configured as a DHCP server.
Page 121: Management Station Or Tool In Extended Network
Planning the networking of the stations Management station or tool in extended network 8.11 Management station or tool in extended network The ↑ management station must be connected via the Ethernet switch (modular) FN2012 in the extended network. Any ↑ 'Station' in the FCnet/LAN can be configured as ↑...
Page 122: Redundant Management Stations
Planning the networking of the stations Redundant management stations 8.12 Redundant management stations Figure 54: Redundant ↑ management stations FCnet/LAN Ethernet switch (modular) FN2012 Ethernet/BACnet Management stations ↑ Router station and ↑ GAP FCnet/SAFEDLINK sub-net 'Secondary GAP' 122 | 242 Building Technologies 008843_v_en_-- Fire Safety...
Page 123: Remote Access
Connection to or access from external networks must be configured via a firewall for security reasons. Individual ↑ stations or the entire network can be protected against the following events with a firewall: ● Access and attacks which impair the functionality of the FS20 system ● Unauthorized access ●...
Page 124: Remote Access To The Extended Network With Gap
Planning the networking of the stations Remote access to the extended network with GAP Internal FCnet/SAFEDLINK sub-net ↑ Router station in the FCnet/SAFEDLINK sub-net Firewall External network External ↑ management station 8.14 Remote access to the extended network with GAP The following prerequisites must be met: ●...
Page 125 Planning the networking of the stations Remote access to the extended network with GAP Item no. Designation/function Ethernet ↑ SAFEDLINK Notes address(es) address ↑ 'GAP' station and 192.168.201.1 Configured as GAP with DHCP server function and router function ↑ Router station 192.168.100.1 ↑...
Page 126: Remote Access Via Crsp
To establish a connection with 'SintesoWorks', you must select the 'Connect' option in the 'Connection to IP address' window and enter 'localhost' and '127.0.0.1'. You will find more information about cRSP on the Siemens Intranet, by following this link. You will find information about configuring remote access in document 009078.
Page 127 Planning the networking of the stations Guidelines 8.16.1.1 Guidelines for a station's redundant SAFEDLINK connection A ↑ station is incorporated redundantly into the ↑ SAFEDLINK network if two network modules (SAFEDLINK) are used. The stations' redundant SAFEDLINK connection complies with EN 54 and is specified for the following applications: ●...
Page 128 Planning the networking of the stations Guidelines ≤ 512 ≤ 512 > 512 Figure 57: Example: Redundant networking and degraded mode ↑ System bus FCnet/SAFEDLINK Station with one ↑ network module (SAFEDLINK) Redundantly connected station with two network modules (SAFEDLINK) Fire terminal FT2040 Fire control panel with central remote transmission device Fire control panel with >512 detectors...
Page 129: Guidelines For Safedlink Networking
Planning the networking of the stations Guidelines 8.16.1.2 Degraded mode with extended networking In addition to the guidelines for ↑ SAFEDLINK networking, the following must be noted for the degraded mode characteristics of extended networking: If a ↑ 'Station' is in 'Degraded mode' and has a 'Degraded FIRE ALARM', all 'Stations' on the same sub-net generate a 'Degraded FIRE ALARM'.
Page 130: Guidelines For Extended Networking
Planning the networking of the stations Guidelines Parameters FCnet/SAFEDLINK FCnet/Ethernet (sub-net) – Maximum number of repeaters between two stations Max. number of repeaters – Max. length of line between interface module and 100 m – stations Maximum number of interface modules between 1 pair –...
Page 131: Cable Specification For Safedlink
Planning the networking of the stations Guidelines 8.16.4 Cable specification for SAFEDLINK Please observe the following points: ● Use only twisted pair cables with a minimum of 10 twists per meter. Trouble- free operation cannot be guaranteed with any other cables. ●...
Page 132: Specifications For Electric Ethernet
Maximum number of management stations (↑ BACnet clients with access to each ↑ station) Maximum number of BACnet clients total * Maximum number of FS20 stations per ↑ SAFEDLINK network (sub-net) with management stations Maximum number of FS20 stations per FCnet/LAN...
Page 133: Defining Controls
Defining controls Guidelines 9 Defining controls Connections for controls are available on the following components / control panels: ● Fire control panels FC2020, FC2030, FC2040 and FC2060 ● Input module – FDCI221 – FDCI222 ● Input/output module – FDCIO221 – FDCIO222 –...
Page 134 Defining controls Guidelines FCI2008 FCI2009 FCI2007 ↑ RT alarm (relay) Alarm output (monitored) RT fault (relay) Fault output (monitored) Monitored horn lines Monitored contact inputs 12 freely configurable I/Os 2 freely configurable I/Os Non-monitored control outputs/contact inputs Table 36: Control outputs of the I/O cards Can be configured as horn or alarm output Notes ●...
Page 135: Monitored Outputs (I/O Card (Remote Transmission) Fci2007-A1 And I/O Card (Horn/Monitored) Fci2009-A1)
Defining controls Monitored outputs (I/O card (remote transmission) FCI2007-A1 and I/O card (horn/monitored) FCI2009-A1) 9.1 Monitored outputs (I/O card (remote transmission) FCI2007-A1 and I/O card (horn/monitored) FCI2009-A1) The monitored outputs of I/O cards FCI2007-A1 and FCI2009-A1 may meet additional normative requirements of EN 54-13. The terminating resistor needs to be planned in accordance with precise guidelines in order to meet these requirements.
Page 136 Defining controls Monitored outputs (I/O card (remote transmission) FCI2007-A1 and I/O card (horn/monitored) FCI2009-A1) Dimensioning of load decoupled with diode (EN 54) Use the dimensioning table to determine the following: ● RcableMax ● The range for the Reol along with its power Example from dimensioning table 1 ●...
Page 137: Load Resistance Monitoring (Vds)
Defining controls Monitored outputs (I/O card (remote transmission) FCI2007-A1 and I/O card (horn/monitored) FCI2009-A1) RIoad Load resistance [Ω] UIoad Load voltage (Minimum) [V] RcableMax. Maximum permitted cable resistance [Ω] Reol Termination resistor [Ω] Peol Power EOL [W] 9.1.2 Load resistance monitoring (VdS) The connection type with load resistance monitoring in accordance with ↑...
Page 138: Monitored Fault Output
Defining controls Monitored outputs (I/O card (remote transmission) FCI2007-A1 and I/O card (horn/monitored) FCI2009-A1) Dimensioning table for monitored alarm and horn outputs with load resistance monitoring (VdS) Load Monitoring RIoad [Ω] UIoad [V] RcableMax. [Ω] >40 <21 <15 >100 <21 <15 >1000 <21...
Page 139 Defining controls Monitored outputs (I/O card (remote transmission) FCI2007-A1 and I/O card (horn/monitored) FCI2009-A1) Planning steps 1. Determine the load resistance that will be connected at the output (Rload), e.g. sounder DS10: Rload = 24 V/0.42 A = 57.2 ohm 2.
Page 140: System Limits
System limits Determining the outline quantities of the software 10 System limits 10.1 Determining the outline quantities of the software The number of logic units and controls is limited for each fire control panel. The following limit values apply for the different fire control panels: General restriction A maximum of 1000 'Zones' are permitted for each 'Area'.
Page 141: Outline Quantities For Hardware
System limits Outline quantities for hardware 10.2 Outline quantities for hardware The following ↑ outline quantities apply in an FS20 system, dependent on the network configuration and the use of ↑ BACnet devices: FCnet/LAN ↑ BACnet Max. number of Max. number of ↑...
Page 142: System Limits With Pmi & Mainboard Fcm2004
System limits System limits with PMI & mainboard FCM2004 10.3 System limits with PMI & mainboard FCM2004 Observe the following table when planning to upgrade existing ↑ stations with PMI & mainboard FCM2004 to MP-EN 4.0. Topic Comment Future SW upgrade path The PMI &...
Page 143: Determining The Compact Stations
Determining the compact stations Determining additional compact station components 11 Determining the compact stations The planning steps in this chapter apply to the compact ↑ stations and must be performed separately for each station used of type FC2020, FC2030, FC2040, FC2060, and FT2040.
Page 144 Determining the compact stations Determining additional compact station components Required components Notes ● I/O card (horn/monitored) FCI2009A1 Additionally monitored This I/O card has 8 monitored horn horn lines or inputs/outputs outputs and is used in the card cage of the fire control panels FC2030 and FC2060.
Page 145 ● Fiber optic cable network module (MM) mouting space must be taken into FN2007-A1 consideration. In all FS20 stations, the fiber optic cable network module can only be mounted horizontally. (See document Mounting/Installation 008851) Release operation with key ●...
Page 146: Supply Concept
Out2 Out3 Out4 If the sounder module FCA2005 is supplied via the FS20 peripheral module (output VSYS), the availability of a maximum current of 1 A (1 A fuse) on this output must be observed. The maximum operating current I is only 1 A in this case.
Page 147: Operation With Battery Backup
Determining the compact stations Supply concept 11.2.1 Operation with battery backup The ↑ stations are normally operated with a power supply unit and batteries. The power supply unit feeds the hardware with galvanically isolated system voltage, simultaneously charging the batteries. Together with the batteries, the power supply unit assumes the function of an uninterruptible power supply unit.
Page 148: Operation Without Battery Backup
Determining the compact stations Supply concept 11.2.2 Operation without battery backup The stations can be operated without batteries. This operation mode is used when the stations are operated via a network with external buffering, or when battery backup is omitted. The battery monitoring function can be deactivated by means of the hardware or SintesoWorks.
Page 149: Operation With Third Power Supply Source [Fr]
Determining the compact stations Supply concept 11.2.5 Operation with third power supply source [FR] The third supply input is used to ensure a reduced degraded mode operation should the power supply fail (in accordance with EN 54-2, chap. 8.4). The third supply input can be used in all fire control panels, including the FC2080.
Page 150: Determining The Batteries And Power Supply
Determining the compact stations Determining the batteries and power supply 11.3 Determining the batteries and power supply In this chapter the battery capacity and the power supply required for the station are determined. The battery capacity and the power supply can be determined as follows: ●...
Page 151: Guidelines On Supplying Power To Line Devices
Determining the compact stations Determining the batteries and power supply 11.3.1 Guidelines on supplying power to line devices The DC 24 V power supply for line devices may only be provided via a power supply approved to EN 54-4. 11.3.2 Calculate the operating current of all consumers To calculate the operating current, all internal and external consumers must be taken into account.
Page 152 Determining the compact stations Determining the batteries and power supply Consumer Type [mA] [mA] Qty. Notes R total A total Line card (interactive) FCL2006-A1 63 For FC2030, FC2060 Line card (interactive Ex) FCL2007-A1 63 For FC2030, FC2060 I/O card (programmable) FCI2008-A1 For FC2030, FC2060 I/O card (horn/monitored) FCI2009-A1 For FC2030, FC2060...
Page 153 Determining the compact stations Determining the batteries and power supply Consumer Type [mA] [mA] Qty. Notes R total A total Detector lines (MS9i) FCL2003-A1 28/loop 43/loop ↑ Loop on line card (MS9i) alarm Detector lines FCL2005-A1 40/loop 40/loop For 128 APMK (AnalogPLUS) Detector lines FCL2006-A1 125/loop...
Page 154: Determining The Battery
Determining the compact stations Determining the batteries and power supply 11.3.3 Determining the battery Calculating the battery capacity Determine the battery capacity with the following formula: = (I ) * k Batt R total A total Battery capacity in [Ah] Batt Sum of operating current of all consumers in quiescent condition [A] R total...
Page 155 Determining the compact stations Determining the batteries and power supply Determining the battery type Determine the battery type on the basis of the calculated battery capacity (see table). Designation Type Ah @20h ↑ VdS no. Load max Battery (12 V, 7 Ah, VdS) FA2003-A1 7 G103032 2.1 A Battery (12 V, 12 Ah,...
Page 156: Determining The Power Supply Of The Stations
Determining the compact stations Determining the batteries and power supply 11.3.4 Determining the power supply of the stations 11.3.4.1 Calculating the total current values The power supply is determined by the total current consumption (I total The total current consumption depends on the following factors: ●...
Page 157 Determining the compact stations Determining the batteries and power supply Determining the relevant total current consumption For the selection of the power supply, only the higher of the two total current values must be taken into account: = higher value of I or I total total_A...
Page 158 Determining the compact stations Determining the batteries and power supply NOTICE Damage to the power supply Different versions (A4/A5) of the power supply (150 W) may not be switched in parallel. The detailed maximum current loads for the power supply (150 W) are listed in the tables below.
Page 159 Determining the compact stations Determining the batteries and power supply Simplified diagrams for current distribution max. max. a max. max. a Figure 66: ↑ Normal operation with battery charge max. max. b max. max. b Figure 67: Operation with heavy load and reduced battery charge max.
Page 160: Parallel Switching Of The Power Supply
Determining the compact stations Defining the hardware for the stations 11.3.5 Parallel switching of the power supply Power supply (70 W) ● Power supplies (70 W) may not be connected in parallel. ● The power supply (70 W) must be mounted in the same housing in which the batteries are installed (temperature sensor installed).
Page 161 Determining the compact stations Defining the hardware for the stations 11.4.1.1 Defining the operating units From MP5, only operating units which are equipped with the PMI & mainboard FCM2027 are used. All ↑ stations with index ES 20 or higher come with the PMI & mainboard FCM2027 included.
Page 162: Determining The Type Of Station
Determining the compact stations Defining the hardware for the stations 11.4.1.2 Defining operating add-ons The following table is used to select the operating add-on which is installed in the lower half of the Comfort or Large housing. If using an Eco or Standard housing, the operating add-on must be fitted in an extra empty housing.
Page 163 Determining the compact stations Defining the hardware for the stations Fire control panel with max. 252 FDnet addresses Station Operating unit Operating add-on Housing Power Batteries supply pieces) FC2020-AZ FCM2028-A2 70 W 12 Ah Standard ● Standard FC2020-CZ FCM2030-C2 [CH] 70 W 12 Ah Standard...
Page 164 Determining the compact stations Defining the hardware for the stations Fire control panel with max. 756 FDnet addresses and card cage for two modernization cards Station Operating unit Operating add-on Housing Power Batteries supply pieces) FC2030-AA FCM2028-A2 FCM2005-A2 150 W 26 Ah Comfort ●...
Page 165 Determining the compact stations Defining the hardware for the stations Station Operating unit Operating add-on Housing Power Batteries supply pieces) FC2040-BB FCM2028-B2 FHA2008-B1 150 W 45 Ah Large ● Standard ● Plan compartment A3 ● Key switch (nordic) FC2040-CC FCM2030-C2 [CH] FHA2009-A1 150 W 17 Ah...
Page 166 Determining the compact stations Defining the hardware for the stations Fire terminal Station Operating unit Operating add-on Housing Power Batteries supply pieces) FT2040-AZ FCM2028-A2 Optional, Optional, 70 W 7 Ah ● Standard FT2040-CZ FCM2030-C2 [CH] Optional, Optional, 70 W 7 Ah ●...
Page 167: Determining The Station Options
Determining the compact stations Defining the hardware for the stations 11.4.3 Determining the station options Define the ↑ station options with the aid of the table below. Required option Notes Mounting plate FHA2007-A1 Additional mounting level for fitting ● Only one mounting plate options or products from a third party can be built into each (e.g.
Page 168: Additional Housing
Determining the compact stations Defining the hardware for the stations 11.4.5 Additional housing Empty housing Components which do not fit into the ↑ stations, or decentralized supply units, can be installed in the empty housing. The empty housing is supplied with: ●...
Page 169: Permitted Batteries
Determining the compact stations Defining the hardware for the stations 11.4.6 Permitted batteries The table below lists the permissible battery types for the different station housings. If the ↑ station housing is too small for the batteries needed (e.g., as a result of having installed options), the batteries can be installed in a separate empty housing.
Page 170: Assembling The Fc2080
Assembling the FC2080 Planning overview 12 Assembling the FC2080 12.1 Planning overview Figure 69: FC2080 component overview (examples of assembly options) Processor unit (19", FC2080) Battery kit Card cage (5 slots) Housing (19" pedestal cabinet) Power supply kit Door with blanking plates screwed on Carrier (19", card cage) Optional operating unit Carrier (19", option)
Page 171 Assembling the FC2080 Planning overview Basic components Processor unit (19", FC2080) ● Card cage (CPU) with – ↑ CPU card (FC2080) – Communication card (FC2080) – 1 free slot for an optional second CPU card (FC2080) – 2 free slots for module bus cards ●...
Page 172 Assembling the FC2080 Planning overview Extension Card cage (5 slots) ● Max. 2 can be mounted on carrier (19", card cage) ● Max. 6 can be installed between processor unit and battery tray Module bus cards ● Space for max. 37 module bus cards per FC2080 ●...
Page 173: Basic Components Of The Fire Control Panel (19", Modular) Fc2080
Assembling the FC2080 Basic components of the fire control panel (19", modular) FC2080 12.2 Basic components of the fire control panel (19", modular) FC2080 The fire control panel FC2080 is assembled individually and is not available as a complete station. The components required for operating and extending the FC2080 are collated in this chapter.
Page 174: Network Module (Safedlink, Cc) Fn2010-A1
Assembling the FC2080 Basic components of the fire control panel (19", modular) FC2080 12.2.4 Network module (SAFEDLINK, CC) FN2010-A1 The fire control panel FC2080 is networked via FCnet/SAFEDLINK with the network module (SAFEDLINK, CC) FN2010-A1. The network module (SAFEDLINK, CC) has a low installation height, so that it can be utilized on the plug-in cards of the processor unit (19", FC2080) FCC2002-A1.
Page 175: Carrier (19", Card Cage) Fha2023-A1
Assembling the FC2080 Basic components of the fire control panel (19", modular) FC2080 12.2.7 Carrier (19", card cage) FHA2023-A1 The carrier (19", card cage) is a mechanical component that is required in order to equip the FC2080 with up to two card cages (5 slots) FCA2008-A1 or other devices.
Page 176: Guidelines For The Fc2080
Assembling the FC2080 Guidelines for the FC2080 12.3 Guidelines for the FC2080 The following points are to be observed when assembling components, particularly the module bus cards in the card cages (5 slots): Overall system ● A maximum of 7 card cages (5 slots) can be installed, i.e. 6 card cages (5 slots) can be installed in addition to the card cage (5 slots) on the processor unit (19", FC2080).
Page 177: Determining The Components Of The Fc2080
Assembling the FC2080 Determining the components of the FC2080 12.4 Determining the components of the FC2080 Use the information in this chapter to determine the specific components for the fire control panel FC2080. These details are required to determine the power supplies and batteries.
Page 178 Assembling the FC2080 Determining the components of the FC2080 Required components Notes ● I/O card (horn/monitored) FCI2009A1 Connecting additional This I/O card provides 8 horn horns outputs. ● Only 1 I/O card (horn/monitored) per card cage (5 slots) ● Input/output module FDCIO223 Connection of two monitored sounders.
Page 179: Defining Operating Units And Add-Ons
Assembling the FC2080 Defining operating units and add-ons Required components Notes Larger battery capacity for ● Second carrier (19", power supply) Space for card cage (5 slots) or longer bypass time FHA2022-A1 with 2 power supplies carrier (19", options) is reduced (150 W) ●...
Page 180: Planning The Fire Brigade Periphery [De]
Assembling the FC2080 Planning the fire brigade periphery [DE] 12.6 Planning the fire brigade periphery [DE] In the fire control panel FC2080, the fire brigade periphery [DE] cannot be connected via the fire brigade periphery module. These connections must be established using I/O cards or I/O modules.
Page 181: Determining The Batteries And Power Supply
Assembling the FC2080 Determining the batteries and power supply Connection via I/O card (programmable) FCI2008 FC2080 RS485 FCC2002-A1 ÜE/ FCI2007-A1 Sabotage Sabotage RT fire active/confirmed Door contact RT fire active Unlocking Vsys_01 Vsys_02 FCI2008-A1 Heating active Figure 71: Simplified connection diagram for FBF and FSD via I/O card (programmable) in FC2080 FCC2002-A1 Processor unit (19", FC2080) FCI2007-A1 I/O card (RT) FCI2008-A1 I/O card (programmable)
Page 182: Supply Concept
Assembling the FC2080 Determining the batteries and power supply 12.7.1 Supply concept The fire control panel FC2080 has a modular energy supply concept. Depending on the power required or bridging time, a second power supply can be installed, together with a second battery block. Vsys1 Card cage (CPU) FCC2003 Card cage...
Page 183: Planning Aid For Distributing The Module Bus Cards
Assembling the FC2080 Determining the batteries and power supply If this is the case, two carriers (19", power supply) FHA2022-A1 and two battery blocks are to be mounted. Both power supply carriers can be expanded to include one additional 150 W power supply each. To guarantee ground fault monitoring in all card cages, the negative 24 V connection must be inserted between the two carriers (19", power supply).
Page 184 Assembling the FC2080 Determining the batteries and power supply Card cage (CPU) FCC2003 Card cage (5 slots) FCA2008 Ethernet Card cage Card cage (5 slots) (5 slots) FCA2008 FCA2008 Card cage Card cage (5 slots) (5 slots) FCA2008 FCA2008 Card cage Card cage (5 slots) (5 slots)
Page 185 Assembling the FC2080 Determining the batteries and power supply Card cage Address Module bus card ↑ CPU CPU card (FC2080) CPU card (FC2080), optional Communication card (FC2080) 185 | 242 008843_v_en_-- Building Technologies Fire Safety 2015-12-15...
Page 186: Calculate The Operating Current Of All Consumers
Assembling the FC2080 Determining the batteries and power supply Card cage Address Module bus card Table 57: Assignment plan for module bus cards in card cages 12.7.3 Calculate the operating current of all consumers To calculate and distribute the loads, all internal and external consumers must be taken into account.
Page 187 Assembling the FC2080 Determining the batteries and power supply Operating currents, processor unit (FC2080) Consumer Type [mA] [mA] Qty. Notes R total A total Processor unit (FC2080) FCC2002-A1 Basic components ● ↑ CPU card (FC2080) ● Slot 1: CPU card incl.
Page 188 Assembling the FC2080 Determining the batteries and power supply Operating currents, optional operating unit Consumer Type [mA] [mA] Qty. Notes R total A total Operating unit FCM20xx No options Fire terminal (Touch) FT2080 No options ↑ Network module FN2001-A1 Always include in (SAFEDLINK) calculations LED indicator (internal)
Page 189 Assembling the FC2080 Determining the batteries and power supply Operating currents, external consumers Consumer Type [mA] [mA] Qty. Notes R total A total Mimic display driver FT2003-N1 Consisting of EVAC-NL (EVAC) [NL] connector board FTI2002- N1 and PCB of EVAC-NL operating unit FTO2007-N1 Event printer (external) Fujitsu...
Page 190 Assembling the FC2080 Determining the batteries and power supply Operating currents of module bus cards Consumer Type [mA] [mA] Qty. I Notes R total A total ↑ Line card (FDnet/C- FCL2001-A1 65 NET) ● ↑ Detector lines 0.6 x ƩRK 0.6 x ↑...
Page 191 Assembling the FC2080 Determining the batteries and power supply Total for operating currents per card cage This table must be completed for each equipped card cage. Consumer Type [mA] [mA] Qty. Notes R total A total Module bus card 1 Module bus card 2 Module bus card 3 Module bus card 4...
Page 192: Determining The Battery
Assembling the FC2080 Determining the batteries and power supply Subtotal consumers Notes R total A total Processor unit (FC2080) Supplied via PSU1 Module bus cards card cage 1 Module bus cards card cage 2 Module bus cards card cage 3 Module bus cards card cage 4 Module bus cards card cage 5 Module bus cards card cage 6...
Page 193: Determining The Power Supply Of The Stations
Assembling the FC2080 Determining the batteries and power supply 12.7.5 Determining the power supply of the stations Please refer to the table below to find the maximum currents for double and triple power supplies connected in parallel, in relation to the battery size. SV24V-150W-A5 power supplies are installed in the FC2080.
Page 194 Assembling the FC2080 Determining the batteries and power supply Simplified diagrams for current distribution max. max. a max. max. a Figure 74: ↑ Normal operation with battery charge max. max. b max. max. b Figure 75: Operation with heavy load and reduced battery charge max.
Page 195: Order Numbers
Order numbers Indication and operating devices on detector lines 13 Order numbers 13.1 Indication and operating devices on detector lines The table below contains a list of the details for ordering indication and operating devices on the FDnet. Ordering information of the FDnet devices Designation Type Order number...
Page 196: Wall Housing
Order numbers Wall housing Operating units The table below lists the details for ordering operating units FCM20xx with the PMI & mainboard FCM2027. Designation Type Order number Operating unit FCM2028-A2 S54400-F83-A1 Operating unit (+nord. key FCM2028-B2 S54400-F83-A2 switch) Operating unit FCM2028-F2 S54400-F83-A3 Operating unit (+LED indicator)
Page 197: Desktop Housing
Order numbers Desktop housing 13.4 Desktop housing Empty housing for desktop installation The table below contains the details for ordering empty housings for the desktop installation of the fire terminal (Touch) FT2080. Both housings have a built-in EMC filter. Designation Type Order number Rear cover (FT2080)
Page 198 Order numbers Optional components Designation Type Order number Notes FN2007-A1 S54400-A110-A1 Incl. plug set (Phoenix PSC) Fiber optic cable network module (MM) Repeater (SAFEDLINK) FN2002-A1 S24236-B2502-A1 Max. 1 between 2 stations Requires external supply RS232 module (isolated) FCA2001-A1 A5Q00005327 Essential for the event printer FTO2001 RS485 module (isolated) FCA2002-A1...
Page 199: License Key For Networking Stations
(supervision only) License key (S2) FCA2034-A1 S54400-P155-A1 Supports the same functions as S1 and also BACnet for Siemens management station and third-party products (monitoring and basic control only), also in conjunction with FT2080 Sinteso Touch PC License key (S3)
Page 200: Fire Brigade Periphery [De]
Product from third party Regraph text display FAT-T-FS20 RGQ:FAT-T-FS20 Product from third party Redundancy module Redux FS20 RGQ:FAT-Redux-FS20 Product from third party Table 72: Details for ordering options for the fire brigade periphery [DE] 13.5.5 For installation in the operating unit Designation...
Page 201: More Options
Order numbers Optional components 13.5.7 More options Designation Type Order number Notes Mimic display driver (EVAC) [NL] FT2003-N1 S54400-A14-A1 ● Installation kit without housing comprising EVAC connector board FTI2002- N1 and EVAC-NL operating unit FTO2007-N1 ● An RS485 module is also needed in the associated station Power supply kit A (70 W)
Page 202: Batteries
Order numbers Batteries 13.6 Batteries Batteries are not included in the scope of delivery of the stations. They must be ordered separately or procured locally. The table below contains the details for ordering admissible batteries. Designation Type Order number Capacitanc Battery (12 V, 7 Ah, VDS) FA2003-A1 7 Ah...
Page 203: Compact Stations
Order numbers Compact stations 13.7 Compact stations 13.7.1 Fire control panel FC2020-AZ Detector line (FDnet) ● 252 addresses ● 2 loops / 4 stubs Properties ● Operating unit ● Housing (Standard) ● 70 W power supply ● Max. battery capacity 12 Ah Order number: A5Q00015550 Options of the operating unit ●...
Page 204: Fire Control Panel Fc2020-Ez
Order numbers Compact stations 13.7.3 Fire control panel FC2020-EZ Detector line (FDnet) ● 252 addresses ● 2 loops / 4 stubs Properties ● Operating unit with LED module ● Housing (Standard) ● 70 W power supply ● Max. battery capacity 12 Ah Order number: A5Q00016827 Options of the operating unit ●...
Page 205: Fire Control Panel Fc2020-Aa
Order numbers Compact stations 13.7.5 Fire control panel FC2020-AA Detector line (FDnet) ● 252 addresses ● 2 loops / 4 stubs Properties ● Operating unit ● Operating add-on (empty) ● Housing (Comfort) ● 150 W power supply ● Max. battery capacity 26 Ah Order number: A5Q00016829 Options of the operating unit ●...
Page 206: Fire Control Panel Fc2020-Bb
Order numbers Compact stations 13.7.7 Fire control panel FC2020-BB Detector line (FDnet) ● 252 addresses ● 2 loops / 4 stubs Properties ● Operating unit with key switch (Nordic) ● Operating add-on with plan compartment A3 ● Housing (Large) ● 70 W power supply ●...
Page 207: Fire Control Panel Fc2020-Na
Order numbers Compact stations 13.7.9 Fire control panel FC2020-NA Detector line (FDnet) ● 252 addresses ● 2 loops / 4 stubs Properties ● Operating unit EVAC NL control module (10 zones) ● Operating add-on (empty) ● Housing (Comfort) ● 150 W power supply ●...
Page 208: Fire Control Panel Fc2030-Aa
Order numbers Compact stations 13.7.11 Fire control panel FC2030-AA Detector line (FDnet) ● 756 addresses ● 2 loops / 4 stubs ● Can be extended with 2 module bus cards Compatible module bus cards (option) ● Line cards (FDnet/C-NET) FCL2001-A1 ●...
Page 209: Fire Control Panel Fc2030-Cc
Order numbers Compact stations 13.7.12 Fire control panel FC2030-CC Detector line (FDnet) ● 756 addresses ● 2 loops / 4 stubs ● Can be extended with 2 module bus cards Usable module bus cards (option) ● Line card (FDnet/C-NET) FCL2001-A1 ●...
Page 210: Fire Control Panel (Recess) Fc2030-Cr
Order numbers Compact stations 13.7.13 Fire control panel (recess) FC2030-CR Detector line (FDnet) ● 756 addresses ● 2 loops / 4 stubs ● Can be extended with 2 module bus cards Usable module bus cards (option) ● Line card (FDnet/C-NET) FCL2001-A1 ●...
Page 211: Fire Control Panel Fc2030-Fa
Order numbers Compact stations 13.7.14 Fire control panel FC2030-FA Detector line (FDnet) ● 252 addresses ● 2 loops / 4 stubs ● Can be extended with 2 module bus cards Compatible module bus cards (option) ● Line card (FDnet/C-NET) FCL2001-A1 ●...
Page 212: Fire Control Panel Fc2030-Fx
Order numbers Compact stations 13.7.15 Fire control panel FC2030-FX Without housing Detector line (FDnet) ● 252 addresses ● 2 loops / 4 stubs Extra module bus cards (option) ● Line card (collective) FCL2002-A1 ● Line card (MS9i) FCL2003-A1 ● Line card (AnalogPLUS) FCL2005-A1 ●...
Page 213: Fire Control Panel Fc2040-Aa
Order numbers Compact stations 13.7.16 Fire control panel FC2040-AA Detector line (FDnet) ● 504 addresses ● 4 loops/8 stubs Properties ● Operating unit ● Operating add-on (empty) ● Housing (Comfort) ● 150 W power supply ● Max. battery capacity 26 Ah Order number: A5Q00016100 Options of the operating unit ●...
Page 214: Fire Control Panel Fc2040-Ag
Order numbers Compact stations 13.7.18 Fire control panel FC2040-AG Detector line (FDnet) ● 504 addresses ● 4 loops/8 stubs Properties ● Operating unit ● Operating add-on (4xLED indicator) ● Housing (Comfort) ● 150 W power supply ● Max. battery capacity 26 Ah Order number: A5Q00016854 Options of the operating unit ●...
Page 215: Fire Control Panel Fc2040-Fx
Order numbers Compact stations 13.7.20 Fire control panel FC2040-FX Without housing Detector line (FDnet) ● 504 addresses ● 4 loops/8 stubs Properties ● Operating unit [FR] ● Construction kit without housing ● 150 W power supply ● Without batteries Order number: A5Q00023046 Options of the operating unit ●...
Page 216: Fire Control Panel Fc2040-Bb
Order numbers Compact stations 13.7.22 Fire control panel FC2040-BB Detector line (FDnet) ● 504 addresses ● 4 loops/8 stubs Properties ● Operating unit with key switch (Nordic) ● Operating add-on with plan compartment A3 ● Housing (Large) ● 150 W power supply ●...
Page 217: Fire Control Panel Fc2040-Ga
Order numbers Compact stations 13.7.24 Fire control panel FC2040-GA Detector line (FDnet) ● 504 addresses ● 4 loops/8 stubs Properties ● Operating unit ● Housing (Large) ● 150 W power supply ● Max. battery capacity 45 Ah Order number: S54400-C3-A3 Options of the operating unit ●...
Page 218: Fire Control Panel Fc2060-Aa
Order numbers Compact stations 13.7.25 Fire control panel FC2060-AA Detector line (FDnet) ● Max. 1512 addresses ● 4 loops/8 stubs ● Can be extended up to 28 loops/56 stubs Extra module bus cards (option) ● Line card (FDnet) FCL2001-A1 ● Line card (collective) FCL2002-A1 ●...
Page 219: Fire Control Panel Fc2060-Fa
Order numbers Compact stations 13.7.26 Fire control panel FC2060-FA Detector line (FDnet) ● Max. 1512 addresses ● 4 loops/8 stubs ● Can be extended to 28 loops/56 stubs Extra module bus cards (option) ● Line card (FDnet) FCL2001-A1 ● Line card (collective) FCL2002-A1 ●...
Page 220: Fire Control Panel Fc2060-Fx
Order numbers Compact stations 13.7.27 Fire control panel FC2060-FX Without housing Detector line (FDnet) ● Max. 1512 addresses ● 4 loops/8 stubs ● Can be extended to 28 loops/56 stubs Extra module bus cards (option) ● Line card (FDnet) FCL2001-A1 ●...
Page 221: Fire Control Panel Fc2060-Bb
Order numbers Compact stations 13.7.28 Fire control panel FC2060-BB Detector line (FDnet) ● Max. 1512 addresses ● 4 loops/8 stubs ● Can be extended to 28 loops/56 stubs Extra module bus cards (option) ● Line card (FDnet) FCL2001-A1 ● Line card (collective) FCL2002-A1 ●...
Page 222: Fire Control Panel Fc2060-Cc
Order numbers Compact stations 13.7.29 Fire control panel FC2060-CC Detector line (FDnet) ● Max. 1512 addresses ● 4 loops/8 stubs ● Can be extended to 28 loops/56 stubs Extra module bus cards (option) ● Line card (FDnet) FCL2001-A1 ● Line card (collective) FCL2002-A1 ●...
Page 223: Fire Terminal Ft2040-Cz
Order numbers Compact stations 13.7.31 Fire terminal FT2040-CZ Detector line (FDnet) ● None Properties ● Operating unit with FBA terminal [CH] ● Housing (Eco) Order number: A5Q00023055 Options of the station ● 70 W power supply ● 2 batteries, each 7 Ah 13.7.32 Fire terminal FT2040-EZ Detector line (FDnet) ●...
Page 224: Fire Control Terminal Ft2040-Nz
Order numbers Compact stations 13.7.34 Fire control terminal FT2040-NZ Detector line (FDnet) ● None Properties ● Operating unit EVAC NL operation (10 zones) ● Key switch (Nordic) FTO2006 ● Housing (Eco) Order number: A5Q00023057 Options of the station ● 70 W power supply ●...
Page 225: Fire Terminal (Touch) Ft2080-C2
Order numbers Order numbers FC2080 components 13.7.36 Fire terminal (Touch) FT2080-C2 Detector line (FDnet) ● None Properties ● Touch screen operation ● Front panel (Touch) with FBA terminal [CH] Order number: S54400-C120-A2 Extra components ● Fire terminal board FTI2001 Can be installed in: ●...
Page 226: Components For Installation
Order numbers Order numbers FC2080 components 13.8.2 Components for installation The following tables contain the order numbers of the components for installation in the FC2080. The required mounting material and installation instructions are each contained in the scope of delivery. Power supplies Designation Type...
Page 227 Regraph text display FAT-T-FS20 RGQ:FAT-T-FS20 Product from third party Redundancy module Redux FS20 RGQ:FAT-Redux-FS20 Product from third party Key safe adapter SDA3000 9102.0648 Product from third party, IFAM GmbH Table 82: Ordering details for the options for the fire brigade periphery [DE]...
Page 228: Operating Terminal
Order numbers Order numbers FC2080 components 13.8.3 Operating terminal Operating terminal (optional) The following table contains the details for ordering the optional operating terminals for the FC2080. These operating terminals are standalone operating units which are equipped with the PMI & mainboard FCM2027, which is necessary for operation with the FC2080.
Page 229: Batteries
Order numbers Order numbers FC2080 components 13.8.4 Batteries Batteries are not included in the scope of delivery of the stations. They must be ordered separately or procured locally. The following table contains the details for ordering the permitted batteries for the FC2080.
Page 230: Other Project Planning Steps
Other project planning steps Mounting instructions for compact stations 14 Other project planning steps 14.1 Mounting instructions for compact stations Where the installation location of the compact stations is concerned, please observe the instructions in this chapter. Figure 77: Installing the station Display height approx.
Page 231: Preparing For Recessed Mounting Of Compact Stations
Other project planning steps Preparing for recessed mounting of compact stations 14.2 Preparing for recessed mounting of compact stations It is often a good idea to fit a formwork box in the recess for recessed mounting of compact stations. For fire control panels, a panel thickness of 13 mm is recommended for the formwork boards (incl.
Page 232 Other project planning steps Preparing for recessed mounting of compact stations Figure 79: Example, formwork box 2 HE Formwork box Formwork cross Mounting points (stud bolts) Overall height dimensions (recess height) Overall width dimensions (recess width) Overall depth dimensions (recess depth) ●...
Page 233: Wiring Instructions
Other project planning steps Wiring instructions 14.3 Wiring instructions This chapter contains instructions regarding the wiring of the ↑ stations. These instructions may possibly already have to have been taken into account during the planning phase. Figure 80: Wiring the ↑ stations EMC-critical zone (no lines under mains voltage) EMC zone limit Mains separator terminals on DIN rail...
Page 234 Other project planning steps Wiring instructions Guidelines ● A separate circuit with a separate fuse must be available for the mains supply line. ● The mains fuse rating must be 10 A. ● The mains fuse for the fire control panel must be marked explicitly. ●...
Page 235: Protection Elements
Other project planning steps Protection elements 14.4 Protection elements Electro-magnetic influence and over-voltages may lead to faults in the fire detection installation. Protection elements minimize these faults. All ↑ stations are equipped with fine protection and EMC filters in the factory. This applies to: ●...
Page 236: Installation Instructions
Other project planning steps Installation instructions 14.5 Installation instructions This chapter contains instructions for preparing for installation. Installation of the FDnet devices The local distribution of FDnet devices must be known for commissioning and maintenance. ● Before using or connecting a FDnet device, the serial number must always be glued to the layout plan.
Page 237: Glossary
FCnet impossible to identify individual detectors. Protocol used in SAFEDLINK. Control group FCnet/Ethernet Combination of several similar controls. FS20-specific term for networking with electric Control tree Ethernet. Structure tree with control group and control. FCnet/SAFEDLINK FS20 system bus. Abbreviation for 'Central Processing Unit'. The FDnet computing unit of the fire control panel.
Page 238 Calculation unit for planning the detector lines. Maximum current value that a device obtains SAFEDLINK from the detector line. Physical network of an FS20 / FS720 fire detection system with the network module (SAFEDLINK) and the network cable. 238 | 242...
Page 239 Glossary SAFEDLINK station Zone Participants in the SAFEDLINK sub-net with Level in the detection tree. The zone has at least local connection for the PC. one fire detector. The decision on alarm is made at zone level. The zone is assigned to a section Single-detector dependency or an area.
Page 240: Index
Index Index Gray zone Numerics Definition ............87 19 mounting kit ..........55 Housing ............ 50, 52 Battery backup..........147 Housing 19 ............53 Housing FC2080 ..........53 Common Remote Service Platform (cRSP) ..126 cRSP (common Remote Service Platform) ..126 Indication devices ..........
Page 241 Housing ..........50, 52, 53 Repeater (SAFEDLINK) ......... 111 MS9i detector line devices ......89 Router station ........26, 116, 117 Networking............97 Stations FS20 ..........28 SAFEDLINK ........97, 108, 116 System ............23 SAFEDLINK FC2080 ........113 Source language ..........9 Power supply Sub-net ............
Page 242 Issued by © Siemens Switzerland Ltd, 2006 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: 008843_v_en_-- Manual FS20 Edition: 2015-12-15...

Siemens FS20 Planning Manual

1 About this Document

2 Safety

3 Options with Requirements

4 System Overview

5 Project Planning of Indication and Operation Devices

6 Planning Housings and Mechanical Components

7 Planning Detector Lines

8 Planning the Networking of the Stations

9 Defining Controls

10 System Limits

11 Determining the Compact Stations

12 Assembling the FC2080

13 Order Numbers

14 Other Project Planning Steps

Quick Links

Need help?

Questions and answers

Subscribe to Our Youtube Channel

Related Manuals for Siemens FS20

Summary of Contents for Siemens FS20