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Siemens FDCIO223 Technical Manual

Input/output module (transponder).
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FDCIO223
Input / output module
(transponder)
Technical manual
Valid for product version ES ≤ 45
Building Technologies
Fire Safety

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   Summary of Contents for Siemens FDCIO223

  • Page 1 FDCIO223 Input / output module (transponder) Technical manual Valid for product version ES ≤ 45 Building Technologies Fire Safety...
  • Page 2 Technical specifications and availability subject to change without notice. © Siemens Switzerland Ltd, 2006 We reserve all rights in this document and in the subject thereof. By acceptance of the document the recipient acknowledges these rights and undertakes not to publish the document in full or in part, nor to make it available to any third party without our prior express written...
  • Page 3: Table Of Contents

    About this document ..................5 Safety ......................9 Safety instructions ................... 9 Safety regulations for the method of operation ..........11 Standards and directives complied with ............13 Release Notes ....................14 Structure and function ................15 Overview ....................... 15 3.1.1 Details for ordering .................
  • Page 4 Planning ....................... 47 Compatibility ....................47 Defining the mounting site and configuration of the lines ......48 Planning the detector line ................48 Planning the control line ................49 Planning contact input ................... 49 Environmental influences ................49 Filling out the configuration sheet ..............50 Mounting / Installation ................
  • Page 5: About This Document

    FDCIO223. Following the instructions consistently will ensure that the product can be used safely and without any problems. This document is only valid for input/output modules FDCIO223 with a product version (ES) ≤45. All input/output modules FDCIO223 with a product version (ES) ≥50 are described in document 09122 from modification index 'f'.
  • Page 6 About this document Document identification Position Information Title page Product type  Product designation  Document type  Last page, bottom left Document ID  ID_ModificationIndex_Language_COUNTRY Edition date  Last page, bottom right Manual  Register  Conventions for text marking Markups Special markups are shown in this document as follows: ⊳...
  • Page 7 Maintenance and Commissioning Link; interface to the detector exchanger and tester Polycarbonate (plastic) Reference documents Document ID Title 009124 Mounting of Input/output module FDCIO223, Mounting of housing FDCH221 001204 Fire alarm signal in areas at risk of explosion 008331 List of compatibility (for 'Sinteso' product line) A6V10229261...
  • Page 8 About this document Revision history Document ID Edition date Brief description 009122_e1_en_-- 2015-10-06 Revisions for ES ≤45 included. 009122_e_en_-- 2009-11 Housing FDCH29x replaced with FDCH221 Editorial adjustments made. 009122_d_en_-- 2009-07 Editorial changes made. New 'Index' chapter. 009122_c_en_-- 2007-09 Descriptions of 'Control with confirmation' removed.
  • Page 9: Safety

    Safety Safety 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 10 Safety Signal word The signal word classifies the danger as defined in the following table: Signal word Danger level DANGER DANGER identifies a dangerous situation, which will result directly in death or serious injury if you do not avoid this situation.
  • Page 11: Safety Regulations For The Method Of Operation

    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 12 Modules and spare parts Components and spare parts must comply with the technical specifications  defined by Siemens. Only use products specified or recommended by Siemens. Only use fuses with the specified fuse characteristics and which have been  adapted to the connected load.
  • Page 13: Standards And Directives Complied With

    We are grateful for any suggestions for improvement. Standards and directives complied with A list of the standards and directives complied with is available from your Siemens contact. Building Technologies 009122_e1_en_--...
  • Page 14: Release Notes

    Safety Release Notes Limitations to the configuration or use of devices in a fire detection installation with a particular firmware version are possible. WARNING Limited or non-existent fire detection Personal injury and damage to property in the event of a fire. Read the 'Release Notes' before you plan and/or configure a fire detection ...
  • Page 15: Structure And Function

    With the safety barrier, it is also possible to connect intrinsically safe detectors  (ex-zones 1 and 2) If the input/output module FDCIO223 is operated in conjunction with a fire detection system FS20/FS720, only collective detector lines and monitored equipment control are supported. It is not possible for contacts to be connected.
  • Page 16: Details For Ordering

    Structure and function 3.1.1 Details for ordering Type Order no. Designation FDCIO223 S24218-B102-A1 Input / output module (transponder) See also  Enclosed accessories [ 44] Setup The modules consist of the module carrier, the printed circuit board and the cover cap.
  • Page 17: Circuit Board View

    Structure and function 3.2.2 Circuit board view Circuit board view 1 Ground connection 2 Shielding connection for inputs/outputs 'I/O 1' and 'I/O 2' 3 Connection for input/output 'I/O 2' 4 Connection for input/output 'I/O 1' 5 Jumper for polarization of monitoring for input/output 'I/O 2' 6 Jumper for polarization of monitoring for input/output 'I/O 1' 7 Push button for calibrating control lines 8 Jumper for ground fault monitoring of inputs/outputs 'I/O 1' and 'I/O 2'...
  • Page 18: Indication Elements

    Structure and function 3.2.3 Indication elements 3.2.3.1 Input/output module status display Primary side LEDs Green Yellow Meaning 'PWR PRIM' 'FAULT PRIM' (Ref 12) (Ref 12) Flashes every 4 s Normal condition Flashes every 4 s Flashes every 4 s Test mode Flashes every 4 s Flashes once a Localization mode...
  • Page 19: Status Display For The Lines

    Structure and function 3.2.3.2 Status display for the lines There are both red and green LEDs for each input/output and these are used to indicate the status (LED 'I/O 1' and 'I/O 2'). Their meaning depends on how the input/output is configured. Input/output is configured as an input (detector line or contact input) Green...
  • Page 20: Adjustment Elements

    Structure and function 3.2.4 Adjustment elements Supervision I/O 1 I/O 2 Adjustment elements Legend Jumper Function Position Meaning Ground fault monitoring Activated (Ref 8) Deactivated Supervision Input/output 1: norm Setting for: I/O 1 Polarity during monitoring Control line featuring identical-polarity monitoring ...
  • Page 21: Function

    3.3.1 Overview A distinction is made in terms of the function between the primary and secondary sides of the FDCIO223 input/output module. The primary side represents the connection to the FDnet/C-NET. Both inputs/outputs are triggered on the secondary side. The inputs/outputs can be used as follows: GMT Siemens/Cerberus collective detector lines ...
  • Page 22: Input/output Module Primary Side

    Structure and function 3.3.2 Input/output module primary side Communication Communication with the control panel takes place via the FDnet/C-NET detector line. Configuration is performed on the control panel. Line separator All FDnet/C-NET devices are equipped with a line separator. The FDnet/C-NET device is equipped with electronic switches which isolate the defective part in case of a short-circuit on the detector line.
  • Page 23: Power Supply

     Use 'slow-blow' fuses.  Do not connect the 24 V supply until you have configured the input/output  module. FDCIO223 DC 24 V DC 24 V R = 30...3,3 k Fuses 1 DC 24 V supply fuse 2 Control line fuse...
  • Page 24 Structure and function Connecting the 24 V supply Connecting the 24 V supply 1 Wires 2 Pluggable terminal blocks 3 Connection for the 24 V secondary side supply WARNING Incorrectly connected 24 V supply Damage to the device due to current flowing in the wrong direction Observe the polarity of the power supply source when making the ...
  • Page 25: Operation Modes

    Instead, activation in test mode/inspection mode will merely be signaled by means of LEDs on the input/output module. If the input/output module FDCIO223 is operated with a control panel FS20/FS720, no control outputs will be triggered in the event of activation in test mode/inspection mode.
  • Page 26: Ground Fault Monitoring

    Structure and function 3.3.5 Ground fault monitoring The secondary side is monitored for ground faults regardless of mode. Ground fault monitoring can be deactivated with a jumper. The setting for ground fault monitoring always applies to both inputs/outputs. If intrinsically safe detectors are connected, ground fault monitoring must be deactivated.
  • Page 27: Input/output Configuration Options (secondary Side)

    1 and input/output 2. Configuration Input/output 1 Input/output 2 Siemens/Cerberus detector line SynoLINE300 detector line Contact input Control line (monitored/non-monitored) Comment The device is configured on the control panel with the aid of the configuration tool.
  • Page 28: Configuration As A Collective Detector Line (gmt)

    ‒ Third-party products in accordance with 'Industrial conventional' (Synova300C) It is not possible to operate Siemens/Cerberus detectors and SynoLINE300 detectors simultaneously on the same detector line. The compatible detector types are listed in the 'Collective compatibility' chapter and in the 'List of compatibility'.
  • Page 29: Detector Line Design

    Structure and function 3.4.1.2 Detector line design Permissible cable types The detector line is compatible with the following cables: Shielded cables  Unshielded cables  The table below shows the permissible cable values: Cable values Detector line without safety Detector line with safety barrier barrier Inductance...
  • Page 30 Structure and function Monitoring of detector lines The input/output module monitors the line resistance of the detector line during operation. The line resistance is adjusted precisely in each of the following cases: On initial start-up  When an alarm has been reset ...
  • Page 31: Connection Of Intrinsically Safe Detectors In Ex-zone 1

    3.4.1.3 Connection of intrinsically safe detectors in ex-zone 1 Safety barrier SB3 can also be connected to the FDCIO223 input/output module. This allows intrinsically safe detectors to be operated in ex-zone 1+2. If you operate the module in conjunction with an SB3 safety barrier, the following points must be observed in particular: The line resistance must not exceed 50 Ω...
  • Page 32: Alarm Verification

    Structure and function 3.4.1.4 Alarm verification To help prevent false alarms, the FDCIO223 input/output module features a form of alarm verification that can be activated as required. When alarm verification is activated, any alarm (1) that occurs will first be stored by the input/output module.
  • Page 33: Monitoring

    Structure and function 3.4.1.5 Monitoring The input/output module monitors the detector line for the following criteria: Alarm  Open line (creeping)  Short circuit (creeping)  Ground fault (joint)  3.4.2 Configuration as a contact input The inputs/outputs of the input/output module can be configured as contact inputs. The following configurations are possible: Status inputs Status inputs trigger a status change as soon as they are activated.
  • Page 34 Structure and function Circuit The figure below shows the various circuit options available for contact inputs. Circuit for contact inputs 1 DC 24 V supply fuse 2…3 Monitoring for open line and short circuit 5 Monitoring for open line only The contact inputs must be potential-free.
  • Page 35: Configuration As A Control Line

    If a short circuit occurs on the control line, the 24 V supply voltage must be  disconnected. The FDCIO223 input/output module does not contain any fuses. Therefore,  contact protection measures must be implemented by the customer. Within the context of control, the secondary side supply voltage (24 V DC) is applied to the relevant output via a relay.
  • Page 36 Structure and function Monitoring You have the option of monitoring the control line. Monitored control lines are monitored for the following criteria: Open line (creeping)  Short circuit (creeping)  Ground fault (only both inputs/outputs jointly, no line-specific fault message) ...
  • Page 37 Structure and function Circuit featuring identical-polarity monitoring FDCIO223 24 V R = 30...3,3 k Circuit for control lines with identical-polarity monitoring 1 External fuse (to be provided by customer) Circuit featuring reverse-polarity monitoring FDCIO223 24 V 3.3 k 10 V...
  • Page 38 Structure and function Calibration of load resistances To ensure that any load resistances (particularly those associated with coils) can be monitored without any problems, the connected line must be calibrated during commissioning. During calibration, the load resistance and the line resistance are measured and stored as reference values.
  • Page 39: Control Without Confirmation

    Structure and function 3.4.3.2 Control without confirmation Configuration The following configurations are supported in the case of control without confirmation: Once activated, the control remains permanently active  Once activated, the control only remains active for a certain time. How long the ...
  • Page 40: Control With Confirmation

    Structure and function Behavior in the event of an error (control panel-specific) Error Configuration option Failure of 24 V power supply Open (configuration not possible) Error involving control panel (e.g., Relay remains unchanged  communication with control panel Relay deactivated ...
  • Page 41: Diagnosis Levels

    Structure and function Diagnosis levels The FDCIO223 input/output module monitors its operation largely autonomously. The following diagnosis levels are derived from the different control measurements: Normal  Observe information  Replacement recommended  Replacement necessary  Fault  For details, see table below.
  • Page 42 Structure and function Status queries with detector exchanger and tester FDUD292 or intelligent detector tester FDUD293 are only possible with devices of the 'Sinteso' product line on the FDnet. Building Technologies 009122_e1_en_-- Fire Safety 2015-10-06...
  • Page 43: Behavior In Degraded Mode

    Structure and function Behavior in degraded mode The following applies for FDnet/C-NET: When the main processor of the fire control panel fails, the control panel is in degraded mode operation. Depending on the control panel type, the fire control panel can continue to perform the most important alarming and signaling functions in degraded mode operation.
  • Page 44: Accessories

    Structure and function Accessories 3.7.1 Enclosed accessories The FDCIO223 input/output module is supplied with the following accessories: 2x resistors 560 Ω, 0.25 W  2x resistors 680 Ω, 0.25 W  2x resistors 2.7 kΩ, 0.25 W  2x resistors 3.3 kΩ, 0.25 W ...
  • Page 45: Housing Fdch221

    Structure and function 3.7.2.3 Housing FDCH221 To protect against dust and wetness  Compatible with:  Multi line separator module FDCL221-M – Input module FDCI22x(-CN) – Input/output module FDCIO22x(-CN) – Order no.: S54312-F3-A1  3.7.2.4 Connection terminal DBZ1190AB For connecting cables ...
  • Page 46: Cable Ties 2.4 X 137

    Structure and function 3.7.2.7 Cable ties 2.4 x 137 For strain relief on the connection wires or generally  for attachment Made from polyamide  Compatible with:  Input module FDCI22x(-CN) – Input/output module FDCIO22x(-CN) – FDCL221 line separator – Multi line separator module FDCL221M –...
  • Page 47: Planning

    3. Define the values and characteristics of the fuses as well as their mounting site ‒ 24 V supply (primary side) ‒ Outputs (secondary side) Compatibility The input/output module FDCIO223 is compatible with the AlgoRex, SIGMASYS, and FS2-/FS720 fire detection systems. For details, see 'List of compatibility'. Building Technologies 0009122_e1_en_--...
  • Page 48: Defining The Mounting Site And Configuration Of The Lines

    Mounting site ________________ Mode of mounting □ Without housing □ With housing FDCH221 Configuration of input/output □ Siemens/Cerberus detector line, SynoLINE600 'I/O 1' □ SynoLINE300 detector line □ Contact input □ Control line without confirmation □ Inverted control □ Reverse-polarity monitoring of control Configuration of input/output □...
  • Page 49: Planning The Control Line

    Planning Planning the control line Define the values of the individual parameters for the relevant inputs/outputs (see table). Parameters Input/output 'I/O 1' Input/output 'I/O 2' Polarity of control and □ Same polarity □ Same polarity monitoring systems in □ Reverse polarity □...
  • Page 50: Filling Out The Configuration Sheet

    Planning Filling out the configuration sheet 1. Copy out the configuration sheet. You will find it in the appendix. 2. Fill out the configuration sheet. 3. Hand over copies of the completed configuration sheet to the installer and the service technician. See also ...
  • Page 51: Mounting / Installation

    Mounting / Installation Mounting / Installation The procedure followed during mounting depends on whether the input/output module FDCIO223 is installed with or without a housing. WARNING Electrical voltage on output cables! Mortal danger due to electric shock! Ensure that the cables are not supplied with voltage during installation.
  • Page 52 Mounting / Installation Cable with diameter > 1.5 mm² If the cable diameters on the inputs/outputs are greater than 1.5 mm , auxiliary terminals must be used: In the case of cables with a diameter of 1.5…2.5 mm , connection terminal ...
  • Page 53: Installation Without Housing

    Mounting / Installation Installation without housing 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. If you are installing the module without the housing, proceed as follows: 1.
  • Page 54: Connecting Input/output Module

    Mounting / Installation Connecting input/output module Circuit board view Connect the module in accordance with the corresponding connection diagrams. 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 55 Mounting / Installation The shielding of the FDnet/C-NET detector line must never be used as a secondary-side ground potential or connected to other shields. If shields are connected, this can result in faults on the FDnet/C-NET detector line. Terminals 15 and 16 are used exclusively for looping through the shields. See also ...
  • Page 56: Commissioning

    Commissioning Commissioning The device is commissioned via the control panel. The exact procedure is described in the control panel documentation. Conduct a performance check once commissioning is complete. If the input/output module is to be used for control purposes, the control lines will need to be calibrated during commissioning.
  • Page 57: Maintenance / Repair

    Maintenance / Repair Maintenance / Repair Status query The FDCIO223 input/output module is equipped with the MC link (Maintenance and Commissioning Link). Using this interface, it is possible to read out data from the device the detector exchanger and tester FDUD292 or the intelligent detector tester FDUD293.
  • Page 58: Specifications

    Can be configured as: Siemens/Cerberus type  SynoLINE300 type  Number of detectors per detector Max. 32 line Collective detector connection factor with Siemens/Cerberus type Current consumption of all detectors Max. 3.2 mA on a SynoLINE300 line Building Technologies 009122_e1_en_-- Fire Safety 2015-10-06...
  • Page 59 Specifications Operating voltage / quiescent current: Siemens/Cerberus type 20 V / max. 4.5 mA  SynoLINE300 type 20 V / max. 17 mA  Line resistance / line capacitance: Without safety barrier SB3 ≤150 Ω / ≤1 μF  With safety barrier SB3 ≤...
  • Page 60 Specifications Contact input Measurement voltage Approx. 2 V Measurement current Max. 32 mA Effective terminating resistances 3.3 kΩ; +/-1 %; 0.25 W  560 Ω; +/-1 %; 0.25 W  Line resistance Max. 150 Ω Line capacitance Max. 1 µF Monitored for: Short circuit (if configured) ...
  • Page 61 Specifications Connections FDnet/C-NET detector line, inputs and outputs, shielding, external DC 24 V: Design Screw terminals on plug  Cable cross section 0.2…1.5 mm  MC link Plug connection Ambient conditions Operating temperature/permissible -25…+60 °C ambient temperature Storage temperature -30…+65 °C Air humidity ≤95 % rel.
  • Page 62: Dimensions

    Specifications Dimensions Dimensions Environmental compatibility Reusable materials  Electronic parts and synthetic materials can be easily separated  Halogen-free synthetic materials, marked by embossed code  The synthetic materials used do not generate any toxic substances during  combustion Larger synthetic parts are marked in accordance with ISO 11469. The material codes for basic polymers conform to ISO 1043.
  • Page 63: Annex

    Collective compatibility The tables below show which devices can be connected to the collective detector line of input/output module FDCIO223. Any devices that are neither listed below nor detailed in the 'List of compatibility' are to be regarded as incompatible.
  • Page 64 Annex Type Designation HI622C Differential heat detector OP620C Optical smoke detector R610 Scattered light smoke detector S2406 Infrared flame detector S620 Flame detector SDF200 Optical smoke detector SDT210 Heat detector SMF120 Manual call point FDOOT241-9 Neural fire detector FDL241-9 Linear smoke detector FDF221-9 Infrared flame detector FDF241-9...
  • Page 65: Configuration Sheet

    ________________ Mode of mounting □ Without housing □ With housing FDCH221 Configuration of input/output 'I/O 1' □ Siemens/Cerberus detector line, SynoLINE600 □ SynoLINE300 detector line □ Contact input □ Control line without confirmation □ Inverted control □ Reverse-polarity monitoring of control Configuration of input/output 'I/O 2' □...
  • Page 66 Annex Planning the control line Parameters Input/output 'I/O 1' Input/output 'I/O 2' Polarity of control and monitoring □ Same polarity □ Same polarity systems in relation to one another □ Reverse polarity □ Reverse polarity Activation period/behavior □ Permanent □ Permanent □...
  • Page 67: Index

    Impact Communication, 22 Chemicals, 49 Moisture, 49 DC 24 V voltage Temperature, 49 External fuse, 35 Input/output module FDCIO223 Degraded mode operation Transponder, 5 Collective behavior, 43 Inputs/outputs FDCIO223 Fire control panel failure, 43 Secondary side, 21 Detector exchanger and tester...
  • Page 68 Adjustment element, 21 Primary side Communication with the control panel via the detector line, 21 Line status display, 19 Status display FDCIO223, 18 Reverse-polarity Line status display Monitoring, 36 LED, 19 List of compatibility, 7, 28, 43, 47, 63, 64...
  • Page 69 Index Building Technologies 009122_e1_en_-- Fire Safety 2015-10-06...
  • Page 70 Index 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 Tel. +41 41-724 24 24 www.siemens.com/buildingtechnologies Dokument-ID 009122_e1_en_-- Manual FD20/FD720 Ausgabe...

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