Siemens FC72x, FT724 Quick Reference Manual

Download

Page 1

FC72x / FT724

Fire control panel / fire terminal

Quick Reference Guide

IP6

A6V10211094_f_en_--

Building Technologies

2015-12-15 Control Products and Systems

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Legal notice

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Legal notice

Technical specifications and availability subject to change without notice.

Transmittal, reproduction, dissemination and/or editing of this document as well as utilization of its contents and communication thereof to others without express authorization are prohibited. Offenders will be held liable for payment of damages. All rights created by patent grant or registration of a utility model or design patent are reserved.

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: A6V10211094_f_en_--

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Table of contents

1 About this document ............................................................................. 5

1.1 Applicable documents ................................................................................. 6

1.2 Download center ......................................................................................... 7

1.3 Technical terms and abbreviations .............................................................. 7

1.4 Revision history .......................................................................................... 7

2 Safety instructions ................................................................................ 8

2.1 Safety regulations for the method of operation ............................................ 9

2.2 Standards and directives complied with......................................................11

2.3 Responsibility of the operator .....................................................................11

3 System overview ................................................................................ 12

3.1 Station overview ........................................................................................14

4 Mounting ........................................................................................... 15

4.1 Mounting instructions .................................................................................16

5 Installation ......................................................................................... 17

5.1 Position of printed circuit boards / components...........................................18

5.2 Power supply - mains voltage connection ...................................................19

5.2.1 Emergency power supply ............................................................21

5.3 Hardware components ...............................................................................22

5.3.1 Periphery board ..........................................................................22

5.3.2 Relay for fault and alarm (RT activation) ......................................24

5.3.3 Monitored outputs for alarm and fault (FT activation) ...................25

5.3.4 Connection of monitored acoustic signal transmitters ..................27

5.3.5 Configurable inputs/outputs and supply voltage Vsys ..................28

5.4 C-NET detector line ...................................................................................31

5.5 Connectable C-NET devices ......................................................................32

5.6 C-NET topology and connection ................................................................36

5.7 Wiring principle behind C-NET devices ......................................................39

5.8 C-WEB network .........................................................................................40

6 Indication and operating elements ........................................................ 43

6.1 Extra indication and operating devices .......................................................45

7 Commissioning .................................................................................. 46

7.1 Activating access level ...............................................................................47

7.1.1 Log in / Change access level.......................................................47

7.2 Auto-configuration of control panels ...........................................................48

7.2.1 Auto-configure line ......................................................................49

7.3 Displaying C-NET devices .........................................................................52

7.4 Entering/Changing customer text ...............................................................54

7.5 Setting the system time ..............................................................................54

7.5.1 Setting time and date ..................................................................54

7.6 Changing access authorization PIN ...........................................................55

7.6.1 PIN administration .......................................................................55

7.7 Restart the station......................................................................................57

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8 Testing the installation .........................................................................59

8.1 Checking functions .................................................................................... 59

Glossary .....................................................................................................60

Index .........................................................................................................61

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About this document

Applicable documents

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1 About this document

Goal and purpose

These brief instructions aim to provide experienced and qualified installation and operating staff with a guide on how to mount, install, commission and repair the system.

Scope

These brief instructions are supplements to the documents provided for the Cerberus PRO FS720 fire detection system and apply for the following products:

● Fire control panel FC722, FC724

● FT724 fire terminal

These brief instructions only apply to use with C-NET detector line cable and when commissioning with auto-configuration. They do not include other applications and/or components of extended networking.

The information contained in this document is valid for introduction package IP6.

Target groups

The information in this document is intended for the following target groups:

Target group Activity Qualification

Installation personnel

● Assembles and installs the product components at the place of installation.

● Carries out a function check following installation.

● Has received specialist training in the area of building installation technology or electrical installations.

Operating personnel

● Carries out procedures to correctly operate the product.

● No particular basic training is needed.

● Has been instructed by the

commissioning personnel.

Source language and reference document

● The source/original language of this document is German (de).

● The reference version of this document is the international version in English.

The international version is not localized.

Document identification

The document ID is structured as follows:

ID code Examples

ID_ModificationIndex_Language_COUNTRY

-- = multilingual or international

A6V10215123_a_de_DE 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).

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About this document

Applicable documents

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Conventions for text marking

Markups Special markups are shown in this document as follows:

⊳ Requirement for a behavior instruction

Behavior instruction with at least two operation sequences

– Version, option, or detailed information for a behavior instruction

⇨ Intermediate result of a behavior instruction

⇨ End result of a behavior instruction

●

Numbered lists and behavior instructions with an operation sequence

[➙ X] Reference to a page number

'Text' Quotation, reproduced identically

<Key> Identification of keys

Relation sign and for identification between steps in a sequence, e.g., 'Menu bar' > 'Help' > 'Help topics'

↑ Text Identification of a glossary entry

Supplementary information and tips

The 'i' symbol identifies supplementary information and tips for an easier way

working.

1.1 Applicable documents

Document ID Title

A6V10210355 System description

A6V10210362 Planning

A6V10210390 Mounting / Installation

A6V10210416 Commissioning / Maintenance / Troubleshooting

A6V10210424 Configuration

A6V10229261 List of compatibility

A6V1021 0368 Product data

A6V10211118 Quantities Tool

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About this document

Download center

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1.2 Download center

You can download various types of documents, such as data sheets, installation instructions, and license texts via the following Internet address:

http://siemens.com/bt/download

κ Enter the document ID in the 'Find by keyword' input box.

You will also find information about search variants and links to mobile

applications (apps) for various systems on the home page.

1.3 Technical terms and abbreviations

You will find details of technical terms and abbreviations in the 'Glossary' chapter.

1.4 Revision history

The reference document's modification index 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, have

the modification index 'd' instead of 'a' if the reference document already has this modification index.

The table below shows this document's revision history:

Version Edition date Brief description

f 2015-12-15 Edition: Introduction Package IP6

● Referenced documents updated

● 'Station overview' chapter: Ethernet switch (modular) integrated

● 'C-WEB network' chapter: Data rate changed to 315 kbit/s

● C-NET detector line updated

e 2014-02-10

Information on voltage ranges revised in the chapter 'Configurable inputs/outputs and supply voltage Vsys'

d 2013-11-14 Edition: Introduction Package IP5

● Change to date format according to ISO 8601

● C-NET devices added: FDCI723, FDM223-Ex, OOH740-A9-Ex, FDCL221-Ex,

FDA221, FDA241, FDM273, FDM243H

● License key (Sx) replaces license key (Lx)

CPR replaces CPD: The Construction Products Regulation (CPR 305/2011) replaces the previous Construction Products Directive (CPD 89/106).

New:

● LED module FTO2008-A1 with 24 red/green and yellow LEDs each

c 2012-06 Edition: Introduction Package IP4

● C-NET devices updated

b 2010-07 ● Adaptation to MP3.0 XS

● Adaptation of naming

● Various minor corrections

a 2009-05 First edition MP1XS

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Safety instructions

Revision history

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2 Safety instructions

The safety notices must be observed in order to protect people and property. The safety notices in this document contain the following elements:

● Symbol for danger

● Signal word

● Nature and origin of the danger

● Consequences if the danger occurs

● Measures or prohibitions for danger avoidance

Symbol for danger

This is the symbol for danger. It warns of risks of injury. Follow all measures identified by this symbol to avoid injury or death.

Additional danger symbols These symbols indicate general dangers, the type of danger or possible

consequences, measures and prohibitions, examples of which are shown in the following table:

General danger Explosive atmosphere

Voltage/electric shock Laser light

Battery Heat

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.

WARNING

WARNING identifies a dangerous situation, which may result in death or serious injury if you do not avoid this situation.

CAUTION

CAUTION identifies a dangerous situation, which could result in slight to moderately serious injury if you do not avoid this situation.

NOTICE

identifies possible damage to property that may result from non-

observance.

How risk of injury is presented

Information about the risk of injury is shown as follows:

WARNING

Nature and origin of the danger

Consequences if the danger occurs

●

Measures / prohibitions for danger avoidance

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Safety instructions

Safety regulations for the method of operation

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How possible damage to property is presented

Information about possible damage to property is shown as follows:

NOTICE

Nature and origin of the danger

Consequences if the danger occurs

●

Measures /

prohibitions for danger avoidance

2.1 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, operation or disposal of the product apply at the place of operation, then these must also be taken into account together with the safety regulations in the product documentation.

Electrical installations

WARNING

Electrical voltage

Electric shock

● Work on electrical installations may only be carried out by qualified electricians or by instructed persons working under the guidance and supervision of a qualified electrician, in accordance with the electrotechnical

regulations.

● Wherever possible disconnect products from the power supply when carrying out commissioning, maintenance or repair work on them.

● Lock volt-free areas to prevent them being switched back on again by mistake.

● Label the connection terminals with external external voltage using a

'DANGER External voltage' sign.

● Route mains connections to products separately and fuse them with their own, clearly marked fuse.

● Fit an easily accessible disconnecting device in accordance with IEC 60950-1 outside the installation.

● Produce earthing as stated in local safety regulations.

CAUTION

Noncompliance with the following safety regulations

Risk of injury to persons and damage to property

●

Compliance with the following regulations is required.

● Specialist electrical engineering knowledge is required for installation.

● Only an expert is permitted to carry out installation work.

Incorrect installation can take safety devices out of operation unbeknown to a layperson.

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Safety instructions

Safety regulations for the method of operation

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Mounting, installation, commissioning and maintenance

● If you require tools such as a ladder, these must be safe and must be intended for the work in hand.

● When starting the fire control panel ensure that unstable conditions cannot arise.

● Ensure that all points listed in the 'Testing the product operability' section below are observed.

● You may only set controls to normal function when the product operability has been completely tested and the system has been handed over to the customer.

Testing the product operability

● Prevent the remote transmission from triggering erroneously.

● If testing building installations or activating devices from third-party companies,

you must collaborate with the people appointed.

● The activation of fire control installations for test purposes must not cause injury to anyone or damage to the building installations. The following instructions must be observed:

– Use the correct potential for activation; this is generally the potential of the

building installation. – Only check controls up to the interface (relay with blocking option). – Make sure that only the controls to be tested are activated.

● Inform people before testing the alarm devices and allow for possible panic responses.

● Inform people about any noise or mist which may be produced.

● Before testing the remote transmission, inform the corresponding alarm and

fault signal receiving stations.

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.

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.

● Wrong battery types and improper battery changing lead to a risk of explosion.

Only use the same battery type or an equivalent battery type recommended by Siemens.

● Batteries must be disposed of in an environmentally friendly manner. Observe national guidelines and regulations.

Disregard of the safety regulations

Before they are delivered, Siemens products are tested to ensure they function correctly when used properly. Siemens disclaims all liability for damage or injuries caused by the incorrect application of the instructions or the disregard of danger warnings contained in the documentation. This applies in particular to the following damage:

● Personal injuries or damage to property caused by improper use and incorrect application

● Personal injuries or damage to property caused by disregarding safety instructions in the documentation or on the product

● Personal injury or damage to property caused by poor maintenance or lack of maintenance

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Safety instructions

Standards and directives complied with

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2.2 Standards and directives complied with

A list of the standards and directives complied with is available from your Siemens contact.

2.3 Responsibility of the operator

A fire detection installation is a piece of safety engineering equipment designed to protect people, buildings and equipment through early detection of fires and alarming.

The fire detection installation has to be maintained in order to satisfy this requirement. Within the European Union, the maintenance intervals are defined in the EN 54 standard and/or are also governed by national and local requirements.

Maintenance is required in order for the fire detection installation to function correctly. The fire detection installation consists of components the function of which may be impaired by ambient conditions and aging.

Maintenance of a fire detection installation is governed by the EN54 standard. Manufacturer's recommendations The following work should be carried out at regular intervals to maintain the fire

detection system:

● Visual check for damage on the devices or possible sources of error

● Quarterly inspection of system parts including test triggering of fire alarm

● Annual maintenance including inspection work, checking the power supply and

emergency power supply

● Replacement of batteries by the date stated by the battery manufacturer at the latest (printed on battery)

● Keep a logbook to document system messages, isolations and maintenance work.

The frequency of

inspections and service work is dependent on the ambient

conditions. If using fire detection systems in critical ambient conditions, e.g. in rooms with a

high concentration of dust, high air humidity or large temperature fluctuations, shorter inspection intervals may be needed.

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System overview

Responsibility of the operator

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3 System overview

The FC720 Cerberus PRO fire control panels can be operated as standalone panels or networked into a fire detection system. Up to 32 stations (fire control panels, fire terminals) are networked via the C-WEB/SAFEDLINK system bus. The Cerberus PRO fire control panels support operation of the C-NET detector line.

1 FC722 or FC724 fire control panel in Comfort housing

2 FC722 fire control panel in the Standard housing

3 FT724 fire terminal

4 Laptop or PC with Cerberus-Engineering-Tool software

5 C-NET detector line

Periphery e.g. RT alarm transmission installation or acoustic signal transmitter etc.

123

456

789

Cerber us

1 2 3

4 5 6

7 8 9

0 #

Cerberus

123

456

789

Cerberus

123

456

789

0#C

Cerberus

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System overview

Responsibility of the operator

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C-NET detector line

The C-NET is a monitored bus line using 2-wire technology, to which up to 252 devices per loop or 32 devices per stub can be connected. C-NET line devices are automatic fire detectors, manual call points, I/O components, transponders, and indication and operating devices such as floor repeater terminals. With the exception of the FDCIO223 transponder, which requires its own power supply, all C-NET line devices are also supplied with operating voltage via the C-NET. There is a line separator integrated in each line device. In the event of a C-NET fault (short-circuit/wire break), the defective line segment is isolated by two neighboring line separators. When using a loop, the connected devices remain ready to detect. With a stub, the faulty line segment is isolated after the line separator. The fault is displayed on the station.

C-WEB/SAFEDLINK

Up to 32 Cerberus PRO stations can be networked via the C-WEB to form a system. Redundant operations are guaranteed by the network's ring topology. Thanks to the C-WEB, system-wide alarming and access to individual fire detection system devices is possible. There may be a distance of up to 1000 m in the CWEB between two stations. At greater distances, special repeaters or even optical waveguide connections can be used. A second network card can also be fitted for stricter fail-safe requirements (EN54).

The network connection can also be realized by the Ethernet with limitations. However this does not satisfy the requirements of EN54.

More details of networking can be found in the system documentation.

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System overview

Station

overview

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3.1 Station overview

FC722

fire control panel

(2-loop)

FC724

fire control panel

(4-loop)

FT724

fire terminal

Max. C-NET addresses 252 * 504 * ―

Without loop extension 2 loops * 4 loops * ―

With loop extension 4 loops * 8 loops * ―

Supply

Power supply 70/150 W 150 W optional (70 W)

Batteries (capacity) max. 2x 26 Ah max. 2 x 26 Ah optional (7 Ah)

External DC supply 24 V ― ― redundant

Operating unit integrated integrated integrated

Inputs and outputs

RT alarm, relay 1 1 ―

RT fault, relay 1 1 ―

RT alarm monitored 1 1 ―

RT fault monitored 1 1 ―

Outputs for monitored, acoustic signal transmitter

1 2 ―

Freely configurable inputs/outputs

8 12 ―

Options

Loop extension (C-NET) max. 1 max. 2 ―

Network module (SAFEDLINK) max. 2 max. 2 max. 2

Ethernet switch (modular) max. 1 max. 1 external

Repeater (SAFEDLINK) max. 1* max. 1* max. 1*

RS232 / RS485 module max. 2 max. 2 max. 2

Fire brigade periphery module [DE]

1 1 ―

Event printer 1 1 1

LED module; 24 red/green and yellow LEDs each

max. 5 max. 5 max. 5

EVAC-NL operating unit [NL] max. 1 max. 1 max. 1

Sounder module max. 2 max. 2 ―

RT interface [NL] max. 1 max. 1 ―

License keys max. 1 max. 1 max. 1

Key switch (Kaba type)

max. 1 max. 1 max. 1

* Note system limits! The description of system components and options does not form part of these brief instructions (For detailed information, refer to the system documentation). [DE] option for Germany [NL] option for the Netherlands

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Mounting

Station overview

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4 Mounting

Before mounting and installation, check all the fire detection installation components visually for damage caused by improper transport and handling.

Figure 1: Unpacking and checking

Components with clear signs of damage must not be used in the station or operated as fire detection installation components. When assembling the station and its modules, observe national and local standards and requirements. The following mounting instructions refer to the specifications of the EN 54 standard and the manufacturer's recommendations. The site chosen to assemble the station and associated components must match the planning documents for the fire detection installation.

Cerberus

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Mounting

Mounting instructions

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4.1 Mounting instructions

The station's equipment pack contains an mounting model with the dimensions needed and details of the mounting points to assist with mounting.

The station must be assembled in a dry, clean and well vented room. The station must be assembled at a distance of least one door leaf width from the

room's entrance. Select the height of mounting such that the display and optical indications are approx. 1.6 -1.7m above where the observer stands.

The station and its components should be protected from dampness and interfering external influences such as dust, great temperature fluctuations and mechanical stress.

The station must be assembled in a place freely accessible to authorized staff and the emergency services.

A level, non-vibrating wall surface with load bearing capacity and suitable mounting materials (e.g. screws and plugs) are needed to secure the station to the wall.

The mounting surface and selected mounting must be suitable for the weight of the equipped station incl. the batteries used.

The station may only be fitted using the 19" method if using the associated components.

Mounting is not permitted in rooms with high levels of electromagnetic interference, e.g. in control rooms or right next to power cables and inductive loads.

WARNING

Electric shock

Mounting and installation work may only be undertaken by qualified staff and when the system is de-energized.

NOTICE

Damage resulting from electrostatics

Take appropriate EMC protective measures when handling electronics modules.

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Installation

Mounting instructions

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5 Installation

The following installation instructions refer to the specifications of the EN 54 standard and the manufacturer's recommendations. The installation may only be undertaken by an electrician. Detailed instructions can be found in the system documentation.

● Use a suitable cable, e.g., NYM 3 x 1.5 mm2 (max. 2.5 mm²) or a cable type with similar performance features to connect the AC voltage from the line supply.

● The line voltage fuse must be designed for a current level of 10 A.

● The mains connection cable must be routed into the control panel housing from

above or from the rear.

● Provide a suitable mains separator or an appropriately labeled automatic cutout for the mains voltage connection.

● The nominal voltage required (AC 230 V or AC 115 V) is stated on the control panel type plate.

● Use a separate residual current unit for residual current circuit breakers. Depending on the installation conditions, voltage surge protection (primary protection) is required for the mains connection.

Planning and system limits

Before the installation, check whether the system's planning is suitable for the system limits. This applies e.g. to all technical data and details of cable lengths, number of line devices, number of networked stations, battery capacity and compliance with requirements from standards and national guidelines and local requirements.

Details of planning can be found in the system documentation.

Information about lightning protection

Further information and detailed specifications relating to producing a lightning protection concept can be found in the relevant literature and associated standards.

WARNING

High voltage! Danger to life!

Risk of electric shock

● Mounting and installation work may only be undertaken by qualified staff and when the system is de-energized.

● Only use cable openings or the edge protection strips provided to protect

cables.

NOTICE

Overvoltage

Damage possible

● Observe the nominal voltage required (AC 230 V) as per the control panel type plate!

● The fuses used and stated in the factory must not be bypassed or replaced with any type other than that stated.

● Take appropriate EMC protective measures when handling electronics

modu

les.

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Installation

Position of printed circuit boards / components

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5.1 Position of printed circuit boards / components

Figure 2: Position of components in housing (Standard) for FC722

Figure 3: Position of components in housing (Comfort) for FC722 or FC724

1 Batteries 6 Mains connection terminals (L1,N,PE)

2 Power supply (70 W) 7 Loop extension option (C-NET) 1 x for FC722, 2 x for FC724

3 Power supply (150 W) 8

Shield connection terminal blocks or cable kit option (communication)

4 Periphery board (2 loops) 9 Space for more options, e.g. fire brigade periphery module

Periphery board (2 loops or 4 loops)

10 Type plate

You will find further information on removing the FC722 and FC724 stations and the housings and options available in the system documentation.

After mounting the type plate must be stuck to the outside of the housing in a

clearly visible location and the mounting date added.

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Installation

Power supply

mains voltage connection

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5.2 Power supply - mains voltage connection

When supplied from the factory, the power supply's internal cabling is already connected.

Power units available

24 V DC/2.5 A, power 70 W, max. battery capacity which can be connected 17 Ah 24 V DC/5 A, power 150 W, max. battery capacity which can be connected 45 Ah

Figure 4: Mains connection in Standard and Comfort housings

1 EMC-critical zone (no high-voltage power permitted) 4 Cable strain relief for mains supply line

Mains connection from below (not permitted when batteries are fitted)

Mains connection from above (recommended)

3 Power supply terminals 6 EMC boundary

● The network cables must be inserted from above.

● The mains lead must be placed along the left side of the housing (observe

EMC zone boundary).

● Signal and control lines must only be fed into the housing on the right from above or from the rear.

● Batteries must be installed in the correct positions.

● No cable openings should be made in the base of the housing, unless an

additional empty housing is mounted below the station to accommodate the batteries.

● The mains connection voltage needed (230 V AC/115 V AC) can be found on the station's type plate.

5 6

516

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Installation

Power supp

ly-mains voltage connection

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Connecting mains voltage

WARNING

Voltage

Electric shock

● Before connecting the mains voltage ensure that it is not energized and is

locked to prevent it being

activated.

Figure 5: Mains connection for Standard and Comfort housings

Mains cable (supplied from above), 3 x 1.5 mm

e.g. NYM cable type

6 Cable tie

2 Strain relief clamp PE Protective conductor (terminal on the left)

3 Ground on the rear panel N Neutral conductor (terminal in the middle)

4 Disconnect terminal L1

External conductor (terminal on the right, with mains disconnector)

5 Primary cabling for power supply

1. Lay the mains cable (1) along the left side of the housing.

2. Insulate the mains cable as needed and connect it to the power supply terminals (PE, L1, N). Use cable end sleeves for wires.

3. Fixate the cable with the strain relief clamp (2).

4. Secure the cable with cable ties (6).

35524

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Installation

Power supply

mains voltage connection

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5.2.1 Emergency power supply

Should the AC mains voltage fail, the emergency power supply will be provided by the connected batteries with no interruptions. The emergency power bridging time depends on the control panel's quiescent and alarm current and the battery capacity used. Once the emergency power bridging time has lapsed, it must be possible for the external signal transmitters to be activated in the event of an alarm. This activation must also be ensured at a battery final voltage of DC 21.2 V.

NOTICE

Error during configuration

detection

Additional effort for troubleshooting

● Only connect the battery connection cables (*) once all installation work is

complete because the station will start as soon as the batteries are

connected.

Figure 6: Diagram with battery wiring on 70 W power unit

Emergency power bridging time

Depending on national and local requirements, a bridging time of 72 hours or more may be needed for the emergency power supply. The battery capacity needed must be calculated and the calculation checked by measuring the power consumed during an alarm (with mains voltage deactivated). The Quantities Tool software is available for calculating the battery capacity.

New batteries / initial commissioning

When using new batteries, they must be charged for at least 24 hours before commissioning. If the date of manufacture (printed on batteries) is more than nine months ago, they will need charging for at least 48 hours.

Total discharge

There is no guarantee that totally discharged batteries can be correctly charged again. Replace batteries that have been totally discharged with new ones. You may only use the approved battery types for the emergency power supply in fire detection systems. Also note the details provided by the battery manufacturer.

Akku -

Akku 1

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Installation

Hardware components

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5.3 Hardware components

5.3.1 Periphery board

Position of connection terminals on periphery board (2-loop) of FC722 fire control panel

Figure 7: Periphery board (2-loop) for FC722

X1 Connection of power unit

X3 Ribbon cable to PMI & mainboard (operating unit on pivot frame)

X6 Monitored outputs for acoustic signal transmitter, alarm and fault messages

X7 Changeover contacts for RT Alarm and RT Fault (remote transmission)

X8 Configurable inputs/outputs (1-4), supply voltage Vsys 1

X9 Configurable inputs/outputs (5-8), supply voltage Vsys 2

X11 C-NET loop 1 or stub 1+2

X12 C-NET loop 2 or stub 3+4

X400 Ribbon cable peripheral data bus

Fxxx SMD fuses 1A/T

X15

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Position of connection terminals on periphery board (4-loop) of FC724 fire control panel

Figure 8: Periphery board (4-loop) for FC724

X1 Connection of power unit X11 C-NET loop 1 or stub 1+2

Ribbon cable to PMI & mainboard (operating unit on pivot frame)

X12 C-NET loop 2 or stub 3+4

X5 Monitored outputs for acoustic signal transmitter X15 2 x C-NET loop extension

X6 Monitored outputs for alarm and fault messages X21 C-NET loop 3 or stub 5+6

Changeover contacts for RT Alarm and RT Fault (remote transmission)

X22 C-NET loop 4 or stub 7+8

X8/1 Configurable inputs/outputs (1-8), supply voltage Vsys 1 X400

Ribbon cable peripheral data bus

X8/2 Configurable inputs/outputs (9-16), supply voltage Vsys 2 Fxxx SMD fuses 1A/T

More details of the periphery board can be found in the 'System documentation'.

X8/2

X8/1

X15

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5.3.2 Relay for fault and alarm (RT activation)

Assignment of connection terminals on periphery board (identical for FC722 and FC724). Permitted cable cross-section: 0.2…1.5 mm2.

FC722 and FC724

X7 Designation Description

6 FAU_NC Break contact fault (normally closed)

Potential-free

directional contact Max. 24 V DC/1 A

5 FAU_COM Center tap fault (common)

4 FAU_NO Make contact fault (normally open)

3 AL_NC Break contact alarm (normally closed)

Potential-free

directional contact

Max. DC 24 V / 1 A

2 AL_COM Center tap alarm (common)

1 AL_NO Make contact alarm (normally open)

The relays can be used e.g. for non-monitored activation of remote transmission equipment 'RT' (e.g. phone dialing equipment).

Fault relay (inverse operation)

The fault relay is activated when at least one station fault has been detected. This relay is activated when the control panel is in idle mode (, NC, inverse operation). In the event of a fault message, the relay changes the switching condition (to C, NO). Thanks to inverse operation, a fault message will still be sent in the event of the station losing all power.

Connection to an external monitoring input (example)

Connection of external control voltage e.g. for an acoustic or optical fault message (example)

Alarm relay

The alarm relay is activated when at least one station alarm message has been detected.

Example of connection with external signal transmitter, e.g. an optical normal operation/alarm message display.

Normal operation

Alarm

+ Ub (DC)

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5.3.3 Monitored outputs for alarm and fault (FT activation)

Connection terminals on periphery board (2-loop) of FC722 and/or periphery board (4-loop) of FC724.

Permitted cable cross-section: 0.2…1.5 mm2.

FC722

X6 Designation Description

6 FAU_OUT Output fault

5 VSYS_O Supply output for consumer fault

4 AL_OUT- Alarm output (-)

3 AL_OUT+ Alarm output (+)

SOUND1- Output for acoustic signal transmitter (-)

SOUND1+ Output for acoustic signal transmitter (+)

FC724

X6 Designation Description

4 FAU_OUT Output fault

3 VSYS_O Supply output for consumer fault

2 AL_OUT- Alarm output (-)

1 AL_OUT+ Alarm output (+)

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The outputs can be used e.g. for monitored activation of remote transmission equipment 'RT' (e.g. phone dialing equipment).

The connection lines are switched with a monitoring resistor (termination resistor). The resistance value stated corresponds to monitored normal operation. All resistance values outside this range result in a fault message.

Enabling example for transmitting a fault message

Termination resistor R = 1.6 kOhm – 2.3 kOhm

Enabling example for transmitting an alarm message

Monitoring resistor (R + Ri) Rges = 2.3 kOhm – 5.5 kOhm

AL_ OUTAL_OUT+

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5.3.4 Connection of monitored acoustic signal transmitters

Assignment of connection terminals on periphery board (2-loop) of FC722 and/or periphery board (4-loop) of FC724.

Permitted cable cross-section: 0.2…1.5 mm2.

FC722

X6 Designation Description

6 FAU_OUT Output fault

5 VSYS_O Supply output for consumer fault

4 AL_OUT- Alarm output (-)

3 AL_OUT+ Alarm output (+)

2 SOUND1- Output for acoustic signal transmitter (-)

Potential-free

directional contact

Max. DC 24 V / 1 A

1 SOUND1+ Output for acoustic signal transmitter (+)

FC724

X5 Designation Description

4 SOUND2- Output for acoustic signal transmitter 2 (-)

Monitored/switchin

g positively

Max. DC 24 V / 1 A

3 SOUND2+ Output for acoustic signal transmitter 2 (+)

2 SOUND1- Output for acoustic signal transmitter 1 (-)

Monitored/switchin

g positively

Max. DC 24 V / 1 A

1 SOUND1+ Output for acoustic signal transmitter 1 (+)

Diagram showing principle In normal operation, the connection is monitored for wire breaks and short-circuits

on the connection line. A monitoring current flows through the termination resistor R (2.3 kOhm to 5.5 kOhm). All resistance values outside this range are recognized as faults. The termination resistor should be connected directly to the connection terminals of the monitored signal transmitter.

In the event of an alarm (with output activated), the polarity on the connection terminal is reversed and the blocking diode is switched in the conducting direction. The external signal transmitter is activated with the output voltage (DC +24 V).

Fx ⇒ SMD fuse 1 A/T (on the periphery board) R ⇒ termination resistor (coverage area 2.3 kOhm – 5.5 kOhm) V ⇒ blocking diode type 1N 4xxxx M ⇒ flow of current in normal operation (monitoring) A ⇒ flow of current during an alarm

Note the station's total current (e.g.

for the 70 W power unit, max. 2.5

A).

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5.3.5 Configurable inputs/outputs and supply voltage Vsys

The assignment of connection terminals on periphery board (2-loop) of FC722 and periphery board (4-loop) of FC724 is not identical.

Assignment on FC722 periphery board (2-loop)

Permitted cable cross-section: 0.2 to 1.5 mm2.

FC722

X8 Designation Description

6 GND_01 (–) supply output 1

DC 20 V – DC 30 V/1 A

5 VSYS_01 (+) supply output 1

4 I/O4 Configurable input/output 4

Individual current max.

300 mA

total current max. 1 A

3 I/O3 Configurable input/output 3

2 I/O2 Configurable input/output 2

1 I/O1 Configurable input/output 1

FC722

X9 Designation Description

6 GND_02 (–) supply output 2 DC 20 V – DC 30 V/ 1 A

5 VSYS_02 (+) supply output 2

4 I/O8 Configurable input/output 8

Individual current max.

300 mA

total current max. 1 A

3 I/O7 Configurable input/output 7

2 I/O6 Configurable input/output 6

1 I/O5 Configurable input/output 5

Each of these freely configurable inputs/outputs can either be configured as an input or output. The function and external circuit needed depend on the mode of operation selected.

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Example: Principle circuit on I/O 1 (connection 1).

I/O 1 as 'input' The input can be triggered with a potential-free,

external switching contact. In such cases, the corresponding input is switched to GND.

Depending on the programming, a permanent or sensing contact can be connected. The activated input can be used to program one of the station's control functions.

I/O 1 as 'output' Configuration as 'output' allows for the activation of

external devices (e.g. relays) with 'Vsys' voltage should certain events arise. In such cases, the corresponding output is switched to GND.

The output's activation condition (e.g. alarm, fault, isolation etc.) is defined in the customer data programming.

I/O1

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Assignment on FC724 periphery board (4-loop)

Permitted cable cross-section: 0.2 to 1.5 mm2.

FC724

X8/1 Designation Description

8 GND_01 (-) supply output 1 DC 20 V – DC 30 V/ 1 A

7 VSYS_01 (+) supply output 1

6 I/O6 Configurable input/output 6

Individual current max.

300 mA

Total current max. 1 A

5 I/O5 Configurable input/output 5

4 I/O4 Configurable input/output 4

3 I/O3 Configurable input/output 3

2 I/O2 Configurable input/output 2

1 I/O1 Configurable input/output 1

X8/2 Designation Description

16 GND_02 (-) supply output 2 DC 20 V – DC 30 V/ 1 A

15 VSYS_02 (+) supply output 2

14 I/O12 Configurable input/output 12

Individual current max.

300 mA

Total current max. 1 A

13 I/O11 Configurable input/output 11

12 I/O10 Configurable input/output 10

11 I/O9 Configurable input/output 9

10 I/O8 Configurable input/output 8

9 I/O7 Configurable input/output 7

Example: Principle circuit with I/O 1 (connection 1) and/or I/O 2 (connection 9)

I/O 1 as 'input' The input can be triggered with a potential-free,

external switching contact. In such cases, the corresponding input is switched to GND.

Depending on the programming, a permanent or sensing contact can be connected. The activated input can be used to program one of the station's control functions.

I/O 2 as 'output' Configuration as 'output' allows for the activation of

external devices (e.g. relays) with 'Vsys' voltage should certain events arise. In such cases, the corresponding output is switched to GND.

The output's activation condition (e.g. alarm, fault, isolation etc.) is defined in the customer data programming.

X8/1

X8/2

X8/1

I/O1

I/O2

X8/2

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Installation

C-NET detector line

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5.4 C-NET detector line

Up to 252 line devices, such as automatic fire detectors, manual call points, transponders, and other C-NET devices can be connected to one C-NET detector line.

The C-NET connection is on the periphery board. Depending on the control panel type (2 or 4 loops), 252 or 504 line devices can be

operated on a station. Most C-NET line devices, such as fire detectors, are supplied with the operating

voltage required directly by the C-NET. An external power supply is always needed for the FDCIO223 transponder.

Figure 9: C-NET loop with various line devices

1 Automatic fire detectors

Loop extension (C-NET)

The number of C-NET detector lines can be doubled. The loop extension (C-NET) which is fitted on the periphery board is needed for this purpose.

The maximum number of addressable line devices per station remains limited to 252 or 504.

The loop extension (C-NET) has no electrical isolation between the two loops.

Line separator

All C-NET devices have an integrated line separator. In the event of a fault, e.g. a short-circuit or wire break in the C-NET detector line, the line separator is opened and the C-NET detector line segment in which the fault was found is shut down. The C-NET devices remain functional and ready to detect. The fault is displayed on the station.

C-NET

Cerberus

FDCIO222

FDS229 FDS221

FDCIO222

FDCIO221

FDCIO223

24 V DC

FC722/FC724

FDCL221

DBS720DBS720

FDMxxx

FDF241-9

FDL241-9

FT2010

FT2011

Synoptics

PCB

FT2001

FDCIO223

24 V DC

SynoLine 300

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Connectable C

NET devices

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Connection factor (AK, RK, MK)

The number of connectable C-NET devices and the max. line length depend on the connection factor of the terminated line devices. The maximum number of 126 CNET devices per loop and the max. length of line of 3300 m can be greatly reduced depending on the type and volume of line devices used.

See also

1 C-NET detector line [➙ 31]

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5.6 C-NET topology and connection

Permissible topology for the C-NET

The C-NET can only be wired in the topologies shown below. Regardless of the topology (loop, stub or loop with sub-stub), the C-NET system limits, such as length, cable resistor, number of line devices etc., must be observed.

Either one loop or two stubs can be connected to a C-NET line connection (2-wire line on block of 4 terminals).

Loop (max. 1 loop per line connection)

Stub line (max. two stubs per line connection)

Sub-stubs on loop A sub-stub may only be connected between two line devices and/or line separators, and directly on the terminal connection.

Wiring NOT admissible

NOT admissible! Sub-stub on sub-stub

NOT admissible! Sub-stub on a stub

The connection terminals for the C-NET are located on the periphery board or on the loop extension (C-NET).

1 2 3

4 5 6

7 8 9

0 #

Cerberus

1 2 3

4 5 6

7 8 9

0 #

Cerberus

1 2 3

4 5 6

7 8 9

0 #

Cerb eru s

1 2 3

4 5 6

7 8 9

0 #

Cerberus

1 2 3

4 5 6

7 8 9

0 #

Cerberus

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C-NET connection terminals

Figure 10: Position of C-NET connection terminals (FC722 and FC724) incl. loop extension

1 Fire control panel FC722

A loop extension (C-NET) can be fitted as an option.

* maximum of 252 C-NET devices (including loop extension)

2 Fire control panel FC724

Two loop extensions (C-NET) can be fitted as an option.

* maximum of 504 C-NET devices (including loop extensions)

X11 Line connection 1 X21 Line connection 3

X12 Line connection 2 X22 Line connection 4

X13 Optional line 1 and/or 3 X14 Optional line 2 and/or 4

One single C-NET line connection (4 terminals) allows max. 252 C-NET line devices to be connected. These can be located on one single loop or spread over max. two stubs (max. 32 line devices per stub).

Loop connection example

● Max. 252 line devices per loop

Figure 11: C-NET loop circuit

Alternatively two stubs can be connected instead of one loop.

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Stub connection example

● Max. 32 line devices per stub

● Total of max. 64 line devices per line connection (4 terminals)

Figure 12: C- NET stub circuit

Loop extension

The loop extension (C-NET) can be used to double the number of lines, but the total number of C-NET devices which can be connected is not increased (max. 252 or 504). The line devices can be spread over several loops or stubs.

The loop extension (C-NET) is mounted onto the periphery board. Installation of the two loop extensions is identical on both periphery boards. The two connections (X13/X14) on the loop extensions are not electrically isolated.

Depending on the control panel type (2 or 4 loops), up to 4 C-NET loops or 8 stubs can be connected.

Cable types

As a result of national standards and requirements, installation may require a particular cable type. The relevant requirements and planning documents should be taken into account here. The following cable types can always be used for cabling the detector line:

● twisted, with and without shielding (recommended)

● untwisted, with and without shielding

Cable shielding

When using shielded lines (e.g. fire detection cable J-Y(St)Y, n x 2 x 0.8 mm), ensure that the cable shielding is only connected on one side. The fire control panel's function may be impaired by a missing or incorrect cable shielding connection. The 'shield connection terminal blocks' option is available for the shielding connection. Depending on the installation environment and requirements of relevant standards, cable shielding may have to be connected and merged at one central connection point.

Limitations

● The following restrictions apply if more then 126 devices are connected to a loop (a maximum of 252 may be connected):

– No support for ’turbo isolation’ – Restricted loop length (see outline quantities tool FX7210 ) – A total of 252 addresses are possible per line card – Line tester only supports a maximum of 126 addresses

In accordance with EN 54, a maximum of 32 detectors may fail in one fire sector in the event a simple fault (e.g. wire breakage, short-circuit).

Details of the cable specification for the C-NET can be found in the system documentation.

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Inst

allation

Wiring principle behind C

NET devices

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5.7 Wiring principle behind C-NET devices

The screw terminals for directly connecting the fire detection cable are integrated in every C-NET line device. The connection terminals with input (+/-) and output (+/-) are the same for all line devices, with the exception of the detector base.

Figure 13: Wiring example of C- NET detector devices on loop

Connection terminal for detector base and sounder base

1b Corresponds to +, input/output

5 Corresponds to –, input

6 Corresponds to –, output

S Shielded connection cable, optional

1 Manual call point 3 Transponder

2 Input/output modules 4 Alarm sounder with beacon

1 2 3

4 5 6

7 8 9

0 #

Cerberus

FC722 / FC724

C-NET

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C-WEB network

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Figure 14: Wiring example of C- NET detector devices on stub

(1) If shielded connection cables are used, the cable shielding must be connected on one side.

* The number of connectable C-NET devices and the max. line length depend on the device connection factor. The maximum number of 126 C-NET devices per loop and the max. length of line of 3300 m can be greatly reduced depending on the type and volume of line devices used. The necessary calculation is performed using Quantity Tool A6V10211118. See chapter 'Applicable documents'

5.8 C-WEB network

The C-WEB is a monitored 2-wire bus line (SAFEDLINK) and allows 32 Cerberus PRO stations such as FC722/FC724 type fire control panels and FT724 fire terminals to be networked. The maximum distance between 2 stations is 1000 m. A repeater (SAFEDLINK) can be used to double the distance to 2 x 1000 m (requires external supply).

A network card (option) is needed per station for networking via the C-WEB. All stations networked via the C-WEB can communicate with one another,

depending on configuration. This makes system-wide operation, control and alarming possible.

Figure 15: Networking by means of C-WEB/SAFEDLIN K

1 PC with 'Cerberus Engineering Tool' software or management station

2 Station with remote transmission

3 SAFEDLINK station, networked with another 3 stations via Ethernet (max. 4 stations)

FN2002 Repeater (SAFEDLINK) for extending the C-WEB

1 2 3

4 5 6

7 8 9

0 #

Cerberus

C-WEB/SAFEDLINK

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Cerberus

1 2 3

4 5 6

7 8 9

0 #

Cerberus

FC724

FC722

FT724

1 2 3

4 5 6

7 8 9

0 #

Cerberus

1 2 3

4 5 6

7 8 9

0 #

Cerberus

FC724

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Cerberus

Ethernet

FN2002

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C-WEB network

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Guidelines

● Fire control panels with 512 and more fire detectors (irrespective of the remote transmission connection) must be equipped with 2 network cards (SAFEDLINK) (according to EN 54).

● Fire control panels with a central remote transmission connection (irrespective of the number of detectors in the system) must be equipped with 2 network cards (SAFEDLINK) (according to EN 54).

● Fire control panels monitoring surfaces larger than 12,000 m2 must be equipped with 2 network cards (SAFEDLINK) (according to EN 54).

● A network of up to 32 stations (incl. SAFEDLINK stations) via Ethernet is supported, but does not meet the requirements of EN 54.

● Furthermore, the fire detection system can be connected to a management station via BACnet/Ethernet.

C-WEB (2-wire bus)

Ethernet (does not comply with

EN 54)

Max. line length between two stations 1000 m 100 m (without switch or router)

Max. number of stations in network 32 14

Max. line length between the repeater and the station

1000 m in each case ---

Maximum nunber of Repeaters between 2 stations

1 ---

Maximum number of repeaters in the C-WEB network

32 ---

C-WEB connection to network card

The C-WEB is connected to the connection terminals on the first network card. A second network card (SAFEDLINK) can also be used for redundant network

operation (according to EN 54 guidelines). The first network card must always be fitted on the left space (connection strip

X13) on the PMI & mainboard of the operating unit.

Figure 16: Installation of network cards on PMI & mainboard of operating unit (view of rear)

1 Space for first network card 2

Space for a second network card (degraded mode module)

X13

X12

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Figure 17: Wiring the network cards (SAFEDLINK)

Cable type and transmission speed Use only twisted pair cables with a minimum of 10 twists per meter. Trouble-free

operation cannot be guaranteed with any other cable types. Two wires are required.

Both shielded or unshielded cables can be used. Data rate in the C-WEB The speed of transmission in the C-WEB can be adjusted depending on the actual

installation conditions. An example application would be dealing with a communication fault that has occurred with the standard data rate setting of 315 kbit/s because the installation cable is of low quality. In this case the system's speed of transmission can be changed from 'Standard' to 'Low'.

Details of the C

WEB and cable specification for the C

WEB can be found in the

system documentation.

B2A2B1A1X3

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Indication and operating elements

C-WEB network

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6 Indication and operating elements

Fire control

panel FC72x

Fire terminal

FT724

LED module

FTO2008

Floor repeater

terminal FT2010

Floor repeater

display FT2011

Cerberus

Remote

Indication

Alarm X X X X X X

Pre-alarm X X X X X X

Fault X X X X X X

Isolation X X X X X X

Test mode X X X -- -- X

Technology X X X -- -- X

Activation X X X -- -- X

Information (Note)

X X X -- -- X

Activated remote transmission (RT)

X X X X -- X

Operation

Acknowledge X X -- X -- X

Reset X X -- X -- X

Scroll in event lists

X X -- X X X

Deactivate internal buzzer

X X -- X X X

Deactivate sounder

X X -- -- -- X

Table 2: Functions of the individual operation and indication devices

X = possible/available

-- = not possible / not available

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Figure 18: O peration and display front of Cerberus PRO fire control panel

1 Display, illuminated with plain text display

2 Cursor keypad for navigation/selection of menu items

3 Menu button

Keypad (for direct selections by entering numbers and/or entering and changing objects-specific display texts)

5 C button (Cancel) and OK button (confirmation of selection)

6 Menu-dependent function keys (softkeys)

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Indication and

operating elements

Extra indication and operating devices

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6.1 Extra indication and operating devices

The fire terminal is also provided for indication and operation as is the floor repeater terminal and floor repeater display although these two offer only restricted functions.

Fire terminal

The fire terminal is an indication and operating unit without the functionality of a station. It makes possible all display and operating functions of a Cerberus PRO fire control panel within a C-WEB network, but does not normally have its own power unit or emergency power supply. A power unit (70 W) or batteries can also be used.

FT724 fire terminal The display and operation are the same as that for a fire control panel Functions

● Supplied via fire control panel or optional supply

● Separate 24 V supply input, monitored

● Can be networked via C-WEB or Ethernet

● System-wide visibility configurable

Floor repeater terminal / floor repeater display

The FT2010 floor repeater terminal and FT2011 floor repeater display allow for the decentralized indication of the most important events in the fire detection system and limited operation. Both devices can be connected to the C-NET directly as line devices. The power is supplied via the C-NET or through an external power unit (if supplied externally, the voltage source does not need to be electrically isolated)

Floor repeater terminal FT2010 The following indications and operations are possible on the floor repeater

terminal: Display

● Alarm and fault messages of connected station(s)

● Activated remote transmission (RT)

Operation

● Acknowledge (start investigation time)

● Reset

● Scroll in event lists

● Deactivate buzzer

● Four freely programmable keys

Floor repeater display FT2011 The following indications and operations are possible on the floor repeater

display: Display

● Alarm and fault messages of connected station(s) Operation

● Scroll in event lists

● Deactivate buzzer

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Commissioning

Extra indication and operating devices

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7 Commissioning

This chapter describes initial commissioning of the Cerberus PRO fire control panel (individual control panel, not networked).

● Activating access level

● Start auto-configuration

● Display C-NET line devices

● Enter customer texts for the control panel, C-NET and individual line devices

via the control panel keypad

Figure 19: Line tester FDUL221

NOTICE

Connecting C

NET and line tester to the station at the same time

The line tester or station may be damaged.

●

Do not connect C

NET and line tester to the station at the same time.

ϖ C-NET is not yet connected to the station.

ϖ Before commissioning and auto-configuration of the stations, the connected C-

NET loops or stubs must be checked for correct function using the FDUL221 line tester.

1. Connect the line tester FDUL221 to the C-NET detector line.

2. Test the C-NET detector line for short-circuits, open lines, and ground faults.

3. Check the number of devices on the C-NET detector line based on the display on the line tester.

4. Check the branch-off position of the stubs and the number of devices at the stubs.

5. Check the type of the respective C-NET device.

6. Remedy any errors/faults which may be active before commissioning or autoconfiguration

You will find information about line tester FDUL221 in document 008250.

Page 47

Commissioning

Activating access level

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7.1 Activating access level

The 'Station' is protected against unauthorized operation by access levels. Authorization for access level 3 is needed for the functions described below.

If the authorization code is not entered, operation is only possible in access level

1 (guest), e.g., for acknowledging the control panel buzzer or scrolling through the display messages.

The authorization code set in the factory is '0000'. This authorization code must be changed once the station has been configured.

Logout timeout

The 'Station' is provided with a time control function for the operation. The operation enable for an access level expires after a configurable period of time

has passed since the last entry.

7.1.1 Log in / Change access level

You can enable an 'Access level' by entering your PIN in the PIN entry dialog, or by pressing <ok>. Alternatively you can use the key switch (optional) to release an Access level.

If you press a key on the ↑ Person Machine Interface whose function requires a higher 'Access level', the PIN input dialog is displayed automatically.

Enter PIN: ****

Logout or guest-login: no PIN + <ok>

Confirm with <ok>/Exit with <C>

Delete with <Cursor up>

Table 3: PIN entry dialog box

Enabling an 'Access level' without a PIN

1. Press <Menu> on the keypad.

 The PIN input dialog is indicated.

2. Do not enter a PIN and confirm with <ok>.

 The lowest 'Access level' is enabled.

 The main menu is open.

Enabling an 'Access level' with a PIN

1. Press <Menu> on the keypad or select the 'Main menu' > 'Login/logout'' main menu item.

 The PIN input dialog is indicated.

2. Enter your PIN and confirm with <ok>.

 The corresponding 'Access level' is enabled.

 The main menu is open.

The present '

Access level

' is indicated in the main menu in the header of the

display.

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Auto-configuration of control panels

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7.2 Auto-configuration of control panels

This function requires the control panel, components, and C-NET to have been correctly installed. Once auto-configuration is complete, the control panel is ready for detection with limitations. A fire is recognized by the connected fire detectors and displayed on the control panel. Configuration with the FXS7212 Cerberus Engineering Tool is required in order to assign controls, define individual alarm responses, and make adjustments in line with object-specific requirements.

NOTICE

Overwriting an

existing configuration

Parts of an existing customer-specific configuration are lost.

● First save an existing customer-specific configuration.

ϖ Every loop or stub line is tested with the line tester FDUL221 to ensure it is

functioning and installed correctly.

κ Run auto-configuration as described in the 'Auto-configuring a line' chapter.

 The station is ready to detect - with limitations. The C-NET devices have been

addressed. Should an event occur, e.g. a triggered fire detector and its C-NET address are displayed.

WARNING

Control panel is ready for detection

with limitations.

Alarm transmission to the fire brigade is not configured. Activation of acoustic signal transmitters is not configured.

● Configure the controls needed.

Customer

text (e.g. detector number, installation location etc.) can be entered for

each C-NET device for improved clarity.

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Commissioning

Auto-configuration of control

panels

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7.2.1 Auto-configure line

The 'Line' element category in the 'Maintenance' menu facilitates the reading-in of the current topology, for example. This creates part of the elements in the 'Detection tree'.

NOTICE

Overwriting an existing configuration

Parts of an existing customer-specific configuration are lost.

●

First save an existing customer

specific

configuration.

Auto-configuring a line:

1. In the main menu, select the 'Topology' menu item.

 The 'Topology' window is open.

2. Select 'Hardware tree'.

 The 'Element' window is open.

3. Select 'Station' and press the 'Lower level' <softkey>.

 The elements of 'Station' are displayed.

4. Select the corresponding 'C-NET line card (onboard/FCL2001)' module and press the 'Lower level <softkey>.

 All lines of 'C-NET line card (onboard/FCL2001)' are indicated.

5. Select a line and press 'More Options' <softkey>.

 The 'Select option' window is open.

6. Select 'Execute commands' and confirm with <ok>.

 The window including the possible commands is displayed.

7. Select the 'Auto-configure line' command and confirm with <ok>.

 The line is auto-configured.

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Display for auto-configuration

Main menu Exit with <C>

Access level 3

Message summary Functions Favorites Topology

(1) (2) (3) (4)

Element search Event memory Login/logout Settings/administration

(5) (6) (7) (8)

Function

On/Off

Function

All

LED

test

κ Select 'Topology', continue with <ok>

Topology Exit with <C>

Access level 3

Detection tree Hardware tree Control tree

(1) (2) (3)

Function

On/Off

Function

All

LED

test

κ Select 'Hardware tree', continue with <ok>

001 Element Hardware tree

Station 1

Lower

level

Options

κ Select 'Station 1', continue with 'Lower level' <softkey 2>

005 FC721

Elements Main building

Station 1

Module Module Module Module

1 2 3 4

Onboard I/Os Onboard I/Os 'C-NET line card (onboard/FCL2001)' Communication interfaces

Upper

level

Lower

level

Options

κ Select 'Module 2', continue with 'Lower level' <softkey 2>

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007 Elements 'C-NET line card (onboard/FCL2001)'

Module 2

Line Line Line Line

11 12 21 22

Line Line Line Line

Upper

level

Lower

level

Options

κ Select 'Line 1', continue with 'More Options' <softkey 3>

Selecting option

Execute commands Show details

(3) (5)

κ Select 'Execute commands', continue with <ok>

Select command

Read in installed devices Detector line OFF Auto-configure line Set customer text Accept replaced devices

(1) (2) (3) (4) (6)

κ Select 'Auto-configure line', continue with <ok>

 The line is auto-configured.

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Commissioning

Displaying C

NET devices

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7.3 Displaying C-NET devices

After auto-configuration, the individual C-NET detector lines and the associated CNET devices of each line can be displayed and configured.

Depending on the control panel type (2 or 4 loops) and the control panel design,

the depiction may vary and several lines may be displayed.

You can display the lines and devices as follows. The displays are depicted in the same way as those in the 'Auto-configuring a line' chapter with the exception of the 'Show details' command.

ϖ At least one line is configured.

1. In the main menu, select the 'Topology' menu item.

 The 'Topology' window is open.

2. Select 'Hardware tree'.

 The 'Element' window is open.

3. Select 'Station' and press the 'Lower level' <softkey>.

 The elements of 'Station' are displayed.

4. Select the corresponding 'C-NET line card (onboard/FCL2001)' Module and press the 'Lower level' <softkey>.

 All lines of 'C-NET line card (onboard/FCL2001)' are indicated.

5. Select a line and press 'More Options'' <softkey>.

 The 'Select option' window is open.

6. Select 'Execute commands' and confirm with <ok>.

 The window including the possible commands is displayed.

7. Select the 'Show details' command and confirm with <ok>.

 The details are displayed.

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Commissioning

Displaying C

NET devices

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Example of selecting a line

004 Elements C-NET line card

(onboard/FCL2001)

Module 2

Line Line Line Line

11 12 21 22

Line Line Line Line

Upper

level

Lower

level

Options

004 Elements Line 12

Device Device Device Device

11 12 21 22

OH720 HI720 OP720 OP720

Upper

level

Lower

level

Options

κ Check whether all devices of this C-NET detector line are displayed correctly.

You can use the type designation to detect the type of device displayed (smoke detector, heat detector, manual call point etc.)

You will find a list of type designations in the 'C

NET devices' chapter

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Entering/Changing customer text

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7.4 Entering/Changing customer text

You can enter customer text for any element on the control panel, independently of Cerberus-Engineering-Tool.

Once customer text has been entered or changed, the updated display is only

shown the next time the element is accessed. Entering or changing customer text does not lead to a reboot.

'Set customer text'

1. Select an element

2. Press the 'Execute Commands' softkey

3. Select the 'Set customer text' command.

4. Enter the desired customer text and confirm the entry with <ok>.

 The customer text has been entered.

Changing customer text

Proceed in the same way as when entering customer text but change the existing customer text.

7.5 Setting the system time

The set system time is used to log all the control panel's messages, save them in the event memory and output them on a connected printer.

7.5.1 Setting time and date

You will have to reset the clock if the fire control panel has been de-energized. In countries with central European summer time (CEST), the system clock automatically switches between daylight savings time and regular time.

'Enter date / time'

1. Select 'Main menu' > 'Settings/administration' > 'System commands'.

 The 'System commands' window is open.

2. Select 'Set system time'.

 The 'Enter date / time' window is open.

3. Enter the date and time and/or confirm with <ok>.

 The cursor jumps to the next field and terminates the input after the last

field.

 Adjusted or confirmed date and time are set.

Enter date / time

25-04-09 12:42:58

(dd-mm-yy) (hh:mm:ss)

Confirm with <ok>/Exit with <C>

Delete with <Cursor up>

Table 4: Input window for time and date

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Comm

issioning

Changing access authorization PIN

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7.6 Changing access authorization PIN

After successful commissioning, the 4-digit access authorization (PIN) for the corresponding access level must be changed. Keep the new PIN in a safe place.

If the PIN is lost, a system reset must be undertaken to the station's factory setting. The control panel configuration, including all customer data, is cleared in the process.

The '0000' PIN set in the factory then applies again after a system reset.

7.6.1 PIN administration

You can change an existing PIN and create a new PIN or delete a PIN with the corresponding authorization.

PIN administration

not available

If PIN administration is not available at the station, you must configure the PINs in Engineering Tool. You will find more information in document A6V10210424.

'Change PIN'

1. Select 'Main menu' > 'Settings/administration' > 'Manage PINs'.

2. Select the 'Change PIN' menu item.

3. Enter the PINs in accordance with the input fields and confirm with <ok>.

 The PIN has been changed.

Change PIN

Old PIN: **** New PIN: **** Verify new PIN: ****

Confirm with <ok>/Exit with <C>

Delete with <Cursor up>

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Changing access authorization PIN

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'Create PIN'

ϖ You have the required authorization level.

1. Select 'Main menu' > 'Settings/administration' > 'Manage PINs'.

2. Select the 'Create PIN' menu item.

3. Enter an admissible access level.

4. Enter the PIN in accordance with the input fields and confirm with <ok>.

 A new PIN has been created.

Create PIN

Access level: __ Enter PIN: **** Verify PIN: ****

Confirm with <ok>/Exit with <C>

Delete with <Cursor up>

'Delete PIN'

ϖ PIN is present.

ϖ You have the required authorization level.

1. Select 'Main menu' > 'Settings/administration' > 'Manage PINs'.

2. Select 'Delete PIN'.

3. Enter the PIN in accordance with the input fields and confirm with <ok>.

 PIN has been deleted.

Delete PIN

Enter PIN: **** Verify PIN: ****

Confirm with <ok>/Exit with <C>

Delete with <Cursor up>

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Restart the station

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7.7 Restart the station

The configuration of the

↑'Station

' remains the same.

There are the following ways in which to restart the ↑ 'Station':

● Via the menu on the display

● PMI & mainboard FCM2004 and FCM2027: With the 'S32' button

● ↑ CPU card: With the 'S8' button

Via the menu on the display

If you are using two ↑ CPU cards, you must perform the following procedure once for each CPU card.

1. Press <MENU>.

 The PIN input dialog is displayed.

2. Enter a valid PIN and confirm with <ok>.

 The 'User successfully logged in' message is displayed.  The main menu is displayed.

3. Select the 'Topology' > 'Hardware tree' > 'Station' menu items.

 The elements of the 'Station' are listed.

4. Select module 101 or module 102 'CPU (FCC2001/06)'.

5. Press the 'MoreOptions' softkey and select 'Execute commands'.

6. Select the 'Reset module' command.

 The 'Station' shuts down.

 The 'Station' is switched off for several seconds.

 The 'Station' restarts.

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PMI & mainboard FCM2004 and FCM2027

ϖ Switches S38-1 and S38-2 are set to the 'OFF' position on the PMI &

mainboard FCM2004.

κ On the PCB of the operating unit, press and hold down the 'S32' button for

<2 s.

 The 'Station' shuts down.

 The 'Station' is switched off for several seconds.

 The 'Station' restarts.

↑ CPU card

1. Briefly press the 'S8' button on the CPU card until a 'R' is displayed on the LED matrix display.

2. As soon as the 'R' is displayed, press and hold the 'S8' button for approx. 2 s to confirm the selection.

 A checkmark on the LED matrix display confirms the selection.

 The CPU card is restarted.

You will find information on the

↑

CPU card FCC2004, the LED matrix display,

and operating the 'S8' button in document A6V10210368. See chapter 'Applicable documents'.

Page 59

Testing the installation

Checking functions

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8 Testing the installation

The fire detection installation can be switched to 'Test' operation mode to check it is functioning properly.

8.1 Checking functions

The table below shows the recommended intervals for checking functions. National specifications always take priority.

For details of the function test, refer to the 'Applicable documents' chapter.

Function Activity

Interval

(years)

1 2 5

Software Check date and time. X

Detector lines:

● C-NET

Trigger an automatic detector and a manual call point per line. X

Trigger all manual call points X

Trigger all automatic fire detectors. X

Check all detectors for soiling and application. X

Check the function of the input/output modules. X

On each line check whether short-circuit / open line triggers a 'Fault'. Check the loop line function. During short-circuit also check the separator function.

Fire controls Check activation of the controls up to and with the interface. X

Check isolations carried out by the customer. Arrange a time with the customer.

Degraded function X

Mains failure Check 'Delayed for in case of a mains failure' function.

Alarm organization Check the function of the delay times t1 and t2. X

Alarm activation by automatic detector on 'unmanned'

⇒ Global alarm.

Alarm activation by manual call point on 'manned' and 'unmanned'

⇒ Local alarm/global alarm.

Check automatic switchover 'Manned' / 'Unmanned' on the basis of the event memory entry.

Check activation of the remote transmission equipment with 'Alarm'. X

Actuate the corresponding danger level by activating a detector with the detector exchanger and tester

Alarm devices

In emergency power operation check all alarm devices taking the event category into account:

'Pre-alarm' 'Alarm' 'Fault'

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Glossary

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Glossary

Abbreviation for 'alarm indicator'.

C-NET device

A device connected to the C-NET detector line.

CPU

Abbreviation for 'Central Processing Unit'. The computing unit of the fire control panel.

PMI

The arrangement of operating and display elements on a fire control panel or on a fire terminal. Includes the LEDs, buttons, the display, and the operation options such as the key switch, fire brigade control and display (FBA), and the EVAC NL Person Machine Interface.

Station

Unit for system control. Fire control panel or fire terminal.

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Index

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Index

Customer text

Entering / changing ......................................... 54

Date

Set .................................................................. 54

Download center

URL ................................................................. 7

Hardware reset

Station ............................................................ 57

Line

Auto-configuration ........................................... 49

Original language

Source language .............................................. 5

PIN ................................................................ 47

Input dialog ..................................................... 47

Manage, create, delete, change ...................... 55

Releasing an access level ............................... 47

Releasing an access level ................................ 47

Restart

Station ............................................................ 57

Set

Date and time ................................................. 54

Source language ............................................... 5

Station

Hardware reset ............................................... 57

Restart ............................................................ 57

Time

Set.................................................................. 54

Page 62

Issued by

Siemens Sw itzerland Ltd Building Technologies Division International Headquarters Gubelstrasse 22 CH-6301 Zug +41 41-724 24 24 www.siemens.com/buildingtechnologies

Technical specific ations and availability subject to change without notice.

Document ID: A6V10211094_f_en_-- Manual FS720

Edition: 2015-12-15

Siemens FC72x, FT724 Quick Reference Manual

Specifications and Main Features

Frequently Asked Questions

User Manual