Multifunctional Danger Control and Indicating Panels SIGMASYS C and M (M-Modules) BMT Project Planning Guidelines Edition March 2007
Copyright and trade names All product names are trademarks or registered trademarks of their respective companies. Copyright © Siemens AG, I BT DE FS SYS, 2003 - 2008 All rights reserved. Delivery subject to availability; right of technical modifications reserved. All hardware and software names used are trade names and/or trademarks of the respective manufacturers.
Overview Overview 1 Introduction ......................................................................................................... 1 2 Important notes ................................................................................................... 5 3 Guidelines for project planning ......................................................................... 7 4 Project planning for control and indicating panels ......................................... 9 5 Interfaces .....................
Inhalt Inhalt 1 1.1 1.2 1.2.1 1.2.2 1.2.3 1.3 Introduction ......................................................................................................... 1 About the manual .................................................................................................. 2 Further information ................................................................................................ 3 Documentation ............................................................................................
Inhalt 6.6 6.7 6.8 6.9 6.10 6.11 6.12 6.13 6.14 Alarm buffering .................................................................................................... 33 Event delay.......................................................................................................... 33 Virtual inputs and outputs.................................................................................... 33 Changing ÜE assignment by command (from V3.2) ...........................................
Inhalt 11 11.1 11.2 11.3 11.4 11.5 11.6 11.7 11.7.1 Power supply ..................................................................................................... 69 Mains supply ....................................................................................................... 70 Earthing ............................................................................................................... 70 Power supply....................................................................................
Inhalt Figures ............................................................................................................. 123 Tables ............................................................................................................... 125 Index ................................................................................................................. 127 BMT Project Planning Guidelines Best.Nr.
1 Introduction 1 Introduction 1.1 1.2 1.2.1 1.2.2 1.2.3 1.3 About the manual .................................................................................................. 2 Further information ................................................................................................ 3 Documentation ...................................................................................................... 3 Information on the Internet ..................................................................
1 Introduction SIGMASYS is the system name of the Siemens danger alarm system. The system comprises danger alarm control and indicating panels, various types of detector (SIGMASYS detectors), special features such as networking (SIGMANET) and also configuration and diagnosis tools (SIGMAPLAN, SIGMADIAG).
1 Introduction 1.2 Further information 1.2.1 Documentation These instructions are part of a set of documentation available for SIGMASYS. 1.2.2 Document and target group Order number SIGMASYS C and M (M modules) danger alarm control and indicating panels: fire alarm system and intrusion alarm system installation instructions Electrical specialists of the Region/regional office installing the system.
1 Introduction SBT FSP DE 1.2.3 http://sgs.siemens.de/asp/FSP-Intranet/index.asp Training courses The personnel responsible for installing and commissioning the systems will receive all the information they need in special training courses. These training courses are offered in the SBT DE Training Center. You will find information on training courses on the Siemens Intranet under the following address: https://intranet.sbt.siemens.de/page.asp?nid=622 1.
2 Important notes 2 Important notes 2.1 2.2 Notes on application of these project planning instructions. ................................. 6 Tools required ....................................................................................................... 6 Multifunctional Danger Control and Indicating Panels SIGMASYS C and M (M-Modules) Best.Nr.
2 Important notes The technical regulations introduced below apply in respect of the Federal Republic of Germany. Users in other countries must be sure to comply with all applicable local regulations. Danger alarm systems must be installed in accordance with Appendix 1 to DIN VDE 0833 ‘Directory of relevant standards for electrical safety’ (previously from the DIN VDE 0800 series of standards).
3 Guidelines for project planning 3 Guidelines for project planning 3.1 3.2 3.3 Limitations ............................................................................................................. 8 Guidelines for failure of the display unit and signal processor .............................. 8 Overvoltage protection measures ......................................................................... 8 Multifunctional Danger Control and Indicating Panels SIGMASYS C and M (M-Modules) Best.Nr.
3 Guidelines for project planning The following must be observed when constructing fire alarm systems in compliance with the guidelines EN45, VdS 2095 (Association of German Underwriters) and DIN VDE 0833, Part 2: Monitored alarm line as loop (ring cable) Up to 128 detectors and devices (automatic detectors, non-automatic detectors [manual call points], transponders, indicator panel control facilities) can be connected here and multiple fire sections with a total surveillance area of up to 6000 m can be mo
4 Project planning for control and indicating panels 4 Project planning for control and indicating panels 4.1 4.1.1 4.1.2 4.2 4.2.1 4.2.2 4.2.3 4.3 4.4 4.4.1 4.4.2 4.4.3 4.4.4 4.4.5 Control and indicating panel selection................................................................. 10 Alarm numbers .................................................................................................... 10 Programming limitations at control and indicating panels ...................................
4 Project planning for control and indicating panels 4.1 Control and indicating panel selection The control and indicating panel size is determined by the number and location of the detectors. To avoid exceeding maximum line lengths in a loop or spur, we recommend installing a number of smaller SIGMANET-capable control and indicating panels in large-scale systems (SIGMASYS C). Overview of control and indicating panel selection Max. number of spurs Max. number of GMG/PMG, MPL Max.
4 Project planning for control and indicating panels A 38-character text can be entered for every object, every area, every detector zone, every output of the type AT/ST/EV/AL and every detector. The detector group text is displayed if no detector text is entered. The detector group text should preferably be programmed in order to save data points. Additional requirements for number assignment must be observed in the case of D100 connection 4.1.2 see section “D100 Interfaces (Version 3.
4 Project planning for control and indicating panels Peripheral elements Fixed system event location Programmable event locations Total event locations Detectors Contact coupler *) Minitransponder *) Transponder 2 2 2 1 4 2 4 Number of programmed outputs Number of programmed outputs 1 6 4 4 2 + programmed outputs Indicator panel *) Multiple control facility *) Zone operating panel *) 2 2 2 + programmed outputs 2 Table 4: Allocation of event location numbers FDnet peripheral element Fixed system
4 Project planning for control and indicating panels 4.2.2 Control room requirements The control and indicating panel is to be installed in a controlled environment. Permitted ambient conditions: Temperature range: 0 °C to +40 °C Atmospheric humidity. <75 %, short-term 95 % without condensation Protect the control and indicating panel from harmful environmental influences, such as direct sunlight, operation-related vibrations, dust, etc.
4 Project planning for control and indicating panels Height in mm Width in mm Depth in mm 420 620 335 420 445 445 445 445 195 230 230 138 243 443 131 238 440 70 below the table surface SM88 operating panel console 243 443 85 – 92 above the table surface 73 below the table surface Cutout for console installation 210.
4 Project planning for control and indicating panels Figure 3: Console installation for empty housing remote operating panel Multifunctional Danger Control and Indicating Panels SIGMASYS C and M (M-Modules) Best.Nr.
4 Project planning for control and indicating panels 4.3 SIGMASYS C control and indicating panel assignment Figure 4: SIGMASYS C control and indicating panel assignment 16 / 128 BMT Project Planning Guidelines Best.Nr.
4 Project planning for control and indicating panels The SIGMASYS C control and indicating panel is available in 2 versions: SIGMASYS C control and indicating panel S24230-C500-A7 for SIGMASYS loop elements SIGMASYS C Sinteso control and indicating panel S24230-C600-A10 for FDnet Sinteso elements Since August 2005 both panels have been supplied with an integrated 150W power supply. Options also available: Operating panel or SIGMASYS C cover plate As from SIGMAPLAN V5.
4 Project planning for control and indicating panels 4.4 SIGMASYS M control and indicating panel assignment Figure 5: SIGMASYS M control and indicating panel assignment For exact details on where to install the APL20P, see the document A24230-B60-A1-*-31 18 / 128 BMT Project Planning Guidelines Best.Nr.
4 Project planning for control and indicating panels 4.4.1 Assigning option slots in the SIGMASYS M The control and indicating panel provides five option slots (OP1 to OP5). 4.4.2 • OP1 to OP3 are designed for equipment with 4 STE control modules (transponders) or PC board blocks. • A top hat rail is provided above the PSU as option slot 4 and can be equipped with a 24 V control relay, input/output modules / FDCIO222, FDCL221 line disconnector or SIGMALOOP splitter.
4 Project planning for control and indicating panels The following table should help you to determine the maximum current: Device / Module / Element Current draw Module Comment MPC FDC GMG PMG Load factor element 150 mA 70 mA 80 mA 35 mA 0.
4 Project planning for control and indicating panels Warning: SIGMANET P is not compatible with the standard SIGMANET. SIGMANET P control and indicating panels are networked using 2-pole copper wire which can be up to 1000 meters long. A SAFEDLINK repeater can be used to increase the range. 4.4.
5 Interfaces 5 Interfaces 5.1 5.2 5.2.1 5.2.2 5.2.3 5.2.4 5.3 5.3.1 5.3.2 Overview of interfaces......................................................................................... 24 Printers ................................................................................................................ 25 Protocol printer DL3750+ .................................................................................... 25 Protocol printer T2240/9 (DR 2030) ................................................
5 Interfaces 5.1 Overview of interfaces The devices listed in the following overview can be connected depending on the SIGMASYS terminal or interface. Interface / device 1 2 3 4 SIGMASYS C (standalone) V.24 PLAN, DIAG, FBF-A, printer, GMA Manager, (SCI) SIGMAPORT spur operating panel TTY printer, (SCI) TTY printer, (SCI) SIGMASYS C SIGMANET V.
5 Interfaces Interface / Device 1 RxT,TxD,CTS,RTS RS232 (V24) 2 RxT,TxD RS232 (V24) SIGMASYS M with SOC P PLAN, DIAG, FBF-A, printer, GMA-Manager, (SCI) SIGMAPORT Spur line operating panel Spur line control and indicating panel PLAN, DIAG, FBF-A, printer, GMA-Manager, (SCI) SIGMAPORT Spur line operating panel Spur line control and indicating panel 3 RS485 Half-duplex 2-wire 4 RS485 Half-duplex 2-wire 5 RS485 Half-duplex 2-wire SIGMANET P SIGMANET P MAP P D100 coupling Table 10: Summary of S
5 Interfaces 5.2.2 Protocol printer T2240/9 (DR 2030) Name Order number Protocol printer DRT2240/9 6GF6520-1LL RS232/TTY interface 6GF6520-2LA Colour ribbon for T2240/9 6GF6520-5LA TTY/ V.24 converter V24230-72-A1 RS 232 isolator WIS: 88001 Remark <30 m Replaces DR2030, no interface Interface for T2240/9 (DR2030) Colour ribbon for T2240/9 (DR 2030) For protocol printer DR 2030 for connection to SIGMASYS V.
5 Interfaces 5.2.4 Printer protocol converter SIGMPLAN V2.6 supports a new printer type: “Printer DPU”. This printer operates as an IBM Proprinter (not a laser printer) with 8 bits. The DR215 printer should be programmed in SIGMAPLAN if the ECMA font is required. The DPU is connected at the TTY or V.24 interface on the SIGMASYS C standalone control and indicating panel or at the V.24 interface on SIGMANET control and indicating panels.
5 Interfaces Spur operating panels can be connected to all V.24 interfaces in the SIGMASYS control and indicating panel and operating panels. Spur operating panels cannot be connected to spur alarm control and indicating panels. The SIGMANET operating panel or the GMA operating panel can be connected as spur operating panels. If possible, SIGMANET operating panels should always be connected to the SIGMASYS standalone control and indicating panels with SIGMANET, for redundancy reasons. N.B.
5 Interfaces There are organisational and projected numbers for programming. Organisational number: displayed on the operating panel and on the printer. Projected number: required for internal processing and displayed on the printer. The object number must have 3 digits and must be between 100 and 999. It is not possible to assign a number twice (in SM88 and SIGMASYS). The projected number and the organisational number must be the same.
6 Functions 6 Functions 6.1 6.2 6.3 6.4 6.5 6.6 6.7 6.8 6.9 6.10 6.11 6.12 6.13 6.14 Event implementation.......................................................................................... 32 Daytime/Nighttime ............................................................................................... 32 Alarm organization .............................................................................................. 32 Two-detector-zone dependency.................................................
6 Functions 6.1 Event implementation When an event is identified by a detector and its associated evaluation module, this normally leads to an alarm being generated in the control and indicating panel. Events are implemented by appropriate configuration with PLAN: • on a signal, which is displayed on the control units in the signal list. • on a fault, which is displayed on the control units in the fault list. Events configured on signals or faults do not normally need resetting.
6 Functions Figure 6: Alarm organization 6.4 Two-detector-zone dependency Alerting facilities, alarm transceivers and fire protection facilities are tripped when two defined detector zones switch to fire alarm mode. A pre-alarm is triggered when there is an alarm in the first detctor zone. 6.5 Two-detector dependency Alerting facilities, alarm transceivers and fire protection facilities are tripped when two detectors in a detector zone switch to fire alarm mode. .
6 Functions In this case, a freely programmable output controls a programmable input without the need for hardware Restrictions: Not for zone operating panel displays. The ANZ detector display or ANZ event display control patterns are not available. 6.9 Changing ÜE assignment by command (from V3.2) The operator can change the assignment of a control in a detector zone for starting a ÜE on operating level 3. The command can be given in one detector zone or all detector zones of a fire alarm system area.
6 Functions 6.11 Time synchronisation The time of the SIGMASYS control and indicating panels can be synchronised once a day with the Time synchronisation” feature. The synchronising pulse is derived from the main clock and transmitted via an operating input to a contact coupler, minitransponder or transponder / 4STE. Synchronisation only requires a single operating step in SIGMANET. The date must be set manually when putting the GMA into service.
6 Functions 36 / 128 BMT Project Planning Guidelines Best.Nr.
7 Control unit connections 7 Control unit connections 7.1 7.2 7.3 7.4 Local alarm (LA) .................................................................................................. 38 Alarm transceiver (AT) ........................................................................................ 38 Key depot (KD).................................................................................................... 38 Fire brigade operating panel (FBF) .....................................................
7 Control unit connections 7.1 Local alarm (LA) An alarm device can be operated for local alerting. The alarm device is installed on the system’s connection board. Loads with an internal resistance of 200 to 1000 Ohm can be connected. The maximum line resistance is 10% of the load resistance. 7.2 Alarm transceiver (AT) An alarm receiver is used for alerting the responsible service (e.g. fire brigade, police) via a dedicated line. The alarm transceiver is installed on the system's connection board.
7 Control unit connections Deactivated control in case of fire N.B.: • The function of the fire brigade operating panel is always permanently linked to the objects of the first AT. • The FBF must be connected to the same control and indicating panel as the alarm transceiver. • All detector groups which activate the AT must be powered by separate objects. • Signals which do not trigger the AT should be located on separate objects. If this system is not followed, the AT may not be actuated.
8 Transponders and loop elements 8 Transponders and loop elements 8.1 8.2 8.2.1 8.2.2 8.2.3 8.2.4 8.2.5 8.2.6 8.3 8.3.1 8.3.2 8.3.3 8.3.4 8.3.5 8.4 8.5 General................................................................................................................ 42 Loop elements..................................................................................................... 42 Maxitransponder SPF 3500, 4STE control module .............................................
8 Transponders and loop elements All elements described in this document may only be used in dry rooms. This means also cable ducts and false floors. 8.1 General Standard inputs and outputs are provided in the basic configuration of SIGMASYS C and M control and indicating panels for external displays (FBF, KD, external alarm). In addition, eight free outputs are available on each module when using GMG-S and PMG-S modules.
8 Transponders and loop elements The transponder (4STE control module) is used for connecting: 4 x threshold monitored lines at SIGMALOOP or 4 x control facilities from SIGMALOOP. The inputs and outputs are freely programmable. The transponder needs 4 addresses on the loop and a 24 V voltage supply from the fire alarm control and indicating panel or a fault-monitored external power supply unit. A distribution voltage failure does not lead to a loop crash (or interruption).
8 Transponders and loop elements „Contact, gen. (monitored)” - To connect contacts that are to be monitored - Multiple contacts can be combined in a detector zone - Mandatory-reset contacts may not be connected “Contact, gen. (non-monitored)” - To connect contacts that are not to be monitored - Otherwise, as for “Contact, gen.(monitored)” In the case of VdS systems, when connecting a threshold monitored line, the last detector with an "S24218-G44-A1 line termination" must be closed.
8 Transponders and loop elements IMPORTANT! The contact (switch or button) must be depressed for at least 5 seconds, while the alarm (operating input) is sent to the control and indicating panel. The 3k01 line termination always lies parallel to the contact on all connections 1-4. On connections 3 and 4 a resistance of 1k15 is also applied in series to a connector cable. The 4 outputs on the FDCIO222 are potential-free contacts, which can be configured as NCC or NOC.
8 Transponders and loop elements • Control of local plant facilities with feedback • General earth fault monitoring (can be disabled) • In-/outputs are electrically isolated from the FDnet Collective monitored line: Compatible with following Siemens Cerberus series: MS 6 (with LED), MS 7, MS 9, SIGMACON, DS1100, DF 119x, S 2406,A 2400, DLO 1191, FDOOT 241-9, FDF 221-9, FDF 241-9, FDL 241-9 and similar, as well as manual call points with 680 ohm alarm resistance.
8 Transponders and loop elements Control facilities: • Control element Relay • Switched current: <2A • Output voltage: Input voltage • Protection after transponder: 2A M • Monitored control: - homopolar 30 Ω to 3k3 - reverse polar 3k3 - with feedback • Resistivity: see below With homopolar monitoring the internal resistance of the connected equipment is monitored within a range of between 30 and 3300 ohms.
8 Transponders and loop elements The following data applies: Fault, short circuit, wire breakage: <300 Ohm; >4.3 kΩ Alarm: Alarm resistance 560 Ω – 680 Ω Idle: Termination with 3.3 kΩ (normal open NO) The signal must last for at least 1.4 to 4.2 seconds for it to be displayed. See “Cycle times for signals”.
8 Transponders and loop elements A freely programmable 16-character text is displayed in the second line. A key-operated switch is available to enable operation by authorised persons. Four free keys can be used and individually programmed as operating inputs. Eight zone operating panels can be installed per MPC module. 32 zone operating panels can be installed per SIGMASYS M control and indicating panel. 8.3 Outputs 8.3.
8 Transponders and loop elements Use for close-and-retain systems (FSA) and all non-monitored control facilities. The control module is installed in conventional distribution cabinets. Programmable control pattern: static, flashing 10 s, dynamic 10/60 s The control module SPF 5100 requires a power supply unit 24 V. 8.3.
8 Transponders and loop elements SIGMALOOP Splitter is installed in the SIGMASYS control and operating panel or in a similar system housing adjacent to the control and operating panel. There is room for five SIGMALOOP Splitters on a 110mm top-hat rail. This configuration can be installed in option slot 2 in the SIGMASYS C control and operating panel. For all other control and operating panels, it can be installed in a free option slot.
8 Transponders and loop elements Number of technically addressable components max. 64 Max. permitted line parameters Max. permitted line capacity (primary and secondary spurs) 200nF, corresponds to approx. 2 km of the standard cable quality IY (ST) Y 0.8 mm. Max. permitted line resistance 150 ohm (all spurs together). 8.4 Technical data, voltage, current, dimensions U min U max I Ruhe I max Output Input idle / alarm Dimensions (in mm)/ Installation Loop add.
8 Transponders and loop elements 8.5 Cycle time for signals from transponders and contact couplers Different operating conditions (polling cycles) can be selected for contacts connected via contact couplers or minitransponders. Loop cycle time Op.
9 Special control facilities 9 Special control facilities 9.1 9.1.1 9.1.2 9.1.3 9.1.4 9.2 9.2.1 Extinguishing control module .............................................................................. 56 Gas extinguishing systems.................................................................................. 57 Preaction sprinkler extinguishing control module ................................................ 57 SIGMALOOP extinguishing interface .........................................................
9 Special control facilities 9.1 Extinguishing control module General: One extinguishing zone can be activated per line module in SIGMASYS M. Only one extinguishing zone can be activated per control and indicating panel in SIGMASYS C. N.B.: a second SOC module must be installed if SIGMASYS M features multiple extinguishing zones. Please observe the VdS 2496 guideline with regard to extinguishing system activation. As of Version 2.6 VdS permits up to eight extinguishing zones per loop.
9 Special control facilities The alarm lines are switched to the slave MPC with the U-APL module (16 changeover contacts) of the master MPC. MPC2 cannot be installed at slot 6 of the SIGMASYS M control and indicating panel. The standard cables supplied are too short. Slot 6 can be used in the M module in SIGMASYS M. The following should be noted with Dual FDC FDnet connection (Version 3.3 or above): Only pure loops without T-tapping may be connected with a maximum of 63 elements.
9 Special control facilities • The reversing electromagnetic valve is also activated in the event of an alarm • The control facilities described above must not be driven by the door contact • Control via fault in the power supply unit of the fire alarm control and indicating panel. Controlling the reversing electromagnetic valve: Control via SIGMALOOP extinguishing interface.
9 Special control facilities 9.1.4 FDnet extinguishing interface The FDnet extinguishing interface comprises the following modules: one FDCIO224 A5Q00018689 one All-or-nothing relay A5Q00001243 one SMxx extinguishing interface S24230-A353-A1 one PC board block 32-pin V24068-Z7102-A1 The all-or-nothing relay and the FDCIO224 are mounted on one top hat rail. The SMxx extinguishing interface can be plugged in directly to the X100 basic module.
9 Special control facilities Figure 9: Close-and-retain systems 9.2.
10 Programming of control facilities 10 Programming of control facilities 10.1 10.1.1 10.1.2 10.1.3 10.1.4 10.1.5 10.1.6 10.1.7 10.2 10.3 10.3.1 10.3.2 Description of control pattern .............................................................................. 62 AL/LA – Alerting facilities..................................................................................... 62 EV – Evacuation alarm (internal alarm)............................................................... 63 Control facility (ST)...
10 Programming of control facilities 10.1 Description of control pattern General: All control facilities in the system can be configured, apart from the FSA control pattern, fire sector control facility, detector diagram and event diagram. This means that in control and indicating panels networked using SIGMANET signals from different control and indicating panels, an output can be set in any control and indicating panel.
10 Programming of control facilities It is possible to parameterise whether the alerting facility is to be tripped when the door is open in the control and indicating panel that detected the alarm (detector zone type). The activation list of an alarm should only contain objects that enable the "local alarm on/off" operation to be performed from the operating panel or fire brigade operating panel. 10.1.
10 Programming of control facilities Resistance in ohms Monitoring current in mA Load Monitoring input 40 – 95 90 – 250 250 – 550 500-1000 950-2400 2000-4000 300 – 700 500 – 1000 900 – 2000 2000 – 5000 Remark Transponderoutput ST 50 20 8 4 2 1 0 6 4 2 1 0 Voltage and current in case of control * with UB= 24V Output voltage=UB Current 0,26-0,6A* Output voltage =UB Current 0,096-0,266A* Output voltage =UB Current 43mA-96mA* Output voltage =UB Current 24mA-48mA* Output voltage =UB Current 10mA-25mA*
10 Programming of control facilities • Detector display Indicates the status of the detector • Event display Indicates the event status of the detector. Only goes out when reset. 512 control facilities can be programmed with detector display or event display control patterns for every MPC module or SIGMASYS C. The control facility can only be tripped within an MPC module or SIGMASYS C. These control facilities are not displayed on the SIGMASYS operating panel or printer.
10 Programming of control facilities 10.3 66 / 128 Overviev of control criteria BMT Project Planning Guidelines Best.Nr.
10 Programming of control facilities 10.3.1 Control Pattern AL (alerting facility), EV (evacuation alarm, ANZ (display) Multifunctional Danger Control and Indicating Panels SIGMASYS C and M (M-Modules) Best.Nr.
10 Programming of control facilities 10.3.2 68 / 128 Control Pattern ST (control facility) BMT Project Planning Guidelines Best.Nr.
11 Power supply 11 Power supply 11.1 11.2 11.3 11.4 11.5 11.6 11.7 11.7.1 Mains supply ....................................................................................................... 70 Earthing ............................................................................................................... 70 Power supply....................................................................................................... 70 Battery .................................................................
11 Power supply 11.1 Mains supply A separate electric circuit with individual, specially identified fuses must be used for the power supply from the electrical mains. The control and indicating panel is to be connected to a mains distribution cabinet via a conductor cross section of at least 3 x 1.5 mm (NYM-J). A fuse (max. 16 A) is to be connected in series in the distribution cabinet. 2 The fire alarm system can be operated at the following supply voltages: Supply voltage I max.
11 Power supply I max = maximum current in A Δu = maximum permitted voltage drop of 0,5 V χ = special electric conductance for copper 58 m / mm2 Ω L = line length (forward and reverse line) in m q = conductor cross section in mm2 2 Cross sections over 2.5 mm must be reduced with the help of series terminals in the SIGMASYS control and indicating panel. 11.
11 Power supply To increase capacity levels, a maximum of two battery sets can be connected in parallel. The parallel-connected battery sets must be from the same series and have the same date of manufacture. The batteries must not be installed in different cabinets with different interior temperatures (e.g. 1 set in the SIGMASYS C control and indicating panel and 1 set in the battery cabinet).
11 Power supply Figure 10: Line lenghts from periphery to power supply unit 11.7.1 SIGMASYS empty housing The SIGMASYS empty housing of the SIGMASYS control and indicating panel can be used for connecting multiple threshold monitored alarm lines via a transponder or for connecting other loads with battery support. The SIGMASYS empty housing can be fitted with a 150 Watt power supply unit. Two 24 Ah batteries can be installed in the SIGMASYS empty housing.
11 Power supply Figure 11: Assembly example 1 Figure 12: Assembly example 2 74 / 128 BMT Project Planning Guidelines Best.Nr.
11 Power supply Figure 13: Assembly example 3 Multifunctional Danger Control and Indicating Panels SIGMASYS C and M (M-Modules) Best.Nr.
12 Monitored lines 12 Monitored lines 12.1 12.1.1 12.2 12.2.1 12.3 12.3.1 12.3.2 12.3.3 12.4 12.5 12.6 12.6.1 12.6.2 12.6.3 12.6.4 12.6.5 12.6.6 12.6.7 GMG-S module ................................................................................................... 78 Differences vis-à-vis AMI (SM88) or GMG (BMS)............................................... 79 Pulse-polling technology in SIGMASYS PMG-S .................................................
12 Monitored lines Threshold detector technology Threshold detectors can be connected via transponders to SIGMASYS monitored alarm lines. If automatic threshold detectors which receive their power from the monitored alarm line are connected to the transponder, a “line termination for transponder and 4 STE control module” S24218-C44-A10 is to be connected at the last detector instead of the moving load. As of Version 2.
12 Monitored lines • – 2-MG dependency – ALORG (alarm organization) – ALZ, parameterisable Alarm zone formation – cross-module formation possible – mixing with MPC and PMG detector zones possibl • Operating inputs, parameterisable • MPL terminals, 3.3 K or 4.7 K, parameterisable in the SIGMAPLAN • Maximal line resistance 200Ω. A termination resistor 3k3 is needed when connecting the Sinteso detector FDOOT241-9 12.1.
12 Monitored lines – not monitored for faults or tripping • MS8SE (control element) can be operated in operating mode 1 (permanent 1:1 assignment) and inoperating mode 2 (system-wide control) • Only 3 parallel displays can be simultaneously activated on an MPL(reason: max. current load of an MPL = 24 mA, 1 activated control unit requires approx.
12 Monitored lines - MASTER20 Standard (8) MASTER20, connection of threshold detector lines - MS8MA Standard (2) ext. detector display - MS8EA Standard (2) panel-mounted indicator *) - MS8SB Standard (6) control unit *) - MS8SE Standard (3) control unit *) Table 27: Pulse-polling detector elements and evaluation procedures *) Maximum 3 per monitored line 12.3 SIGMASYS monitored line 12.3.
12 Monitored lines Figure 14: SIGMAPLUS SDF2200 Optical smoke detector P1 P2 Operating conditions Sample applications Difficult detectionconditions High risk for persons, buildings and merchandise. Hazardous storage goods High level of smoke thinning, for example,as a result of ventilation, room height, etc.False alarm contributing factors only permittedin rooms with very high ceilings.
12 Monitored lines 12.4 Line lengths in the loop/spur Shielded installation cables, e. g. IY(ST)Y are to be used as lines for the loop. The maximum wire diameter that can be clamped in the standard detector base is 0.8 mm. The maximum line length depends on: • the number of detectors and the cable type • the maximum line resistance including the resistance of the connected elements (R max. = 200 Ω) • the maximum line capacity including all connected capacities (C max. = 200 nF). Ohm/km, or .
12 Monitored lines Figure 16: Address element number and line lengths for a 0.6 diameter line The sheath wire of the cable shield is to be laid at the clamps provided in the detectors and devices. The cable is earthed at the corresponding clamps in the SIGMASYS control and indicating panels. The unshielded wires and the sheath wire should be as short as possible to avoid interference.
12 Monitored lines Loop elements Load factors LOOPELEMENT Number Loop elements Total inputs/outputs SIGMABASE 62 62 Contact coupler Gateway/detector Total 30 1 / 20 93 30 8 + 10 10 z.B. FSA 30 Alarm display (simultaneous alarm) 10 Total 82 30 18 130 Table 30: Example of how to calculate the load factor 12.6 12.6.1 FDnet – connecting SintesoTM elements • Fault-protected FDnet - thus allowing the use of unshielded cables.
12 Monitored lines Figure 17: FDnet overview Loop planning Note the following if there are several FDC modules: For improved safety, FDnet loops that are as independent of one another as possible should be applied to different modules. The loops should also be distributed over different modules when using alarm sounders and signal bases as evacuation alarms on the loops, in order to improve the safety of the acoustic alarm. Examples: 12.6.
12 Monitored lines FDOOT221 Combination detector FDOOT241 FDF241-9 Flame detector FDF221-9 Linear smoke detector FDL241-9 Manual detector FDM223 Alarm sounder Signal base FDS221 FDSB291 Input module FDCI222 Input/output module FDCIO222 Used as combination detector 2 selectable parameter sets Used as combination, smoke or heat detector 5 selectable parameter sets For indoors and outdoors with 3 infrared sensors and sun resistance 1 infrared sensor for use without interference sources 6 parameter s
12 Monitored lines DOOT: suppression DO: universal DO: robust DO: sensitive DT: 60°C ROR (A1R) DT: 80°C ROR (BR) DT: 60°C stat. (A1S) DT: 80°C stat.
12 Monitored lines 12.6.
12 Monitored lines These limits apply to an FDnet with an expansion capacity of up to 126 elements each with one load factor. For example, if you are using IY(ST) Y 2x0,8 mm Ø cable (73 ohms and 100 nF per km), the following maximum line lengths can be achieved: • a loop with a 2.5 km line length • a spur with a 2.5 km line length With IYY 2x0.8 mm Ø cable the loop and T-taps may measure no more than 3.
12 Monitored lines Figure 18: Additional signal bases and alarm sounders allowed for a given load factor Warning: The table applies only to short line lengths: For cables with 0.6mm ∅ < 625m For cables with 0.8mm ∅ < 1125m Example: With 100 existing load factors and a maximum permitted load factor of 280, another 11 alarm sounders can be installed, or 3 alarm sounders and 21 signal bases (including detectors). T-taps : A T-tap can be up to 2.5 km long.
12 Monitored lines Figure 19: Load factors in relation to line diameter and line length Example: For a 2000m cable with 0.8 mm ∅, a maximum of 150 load factors may be connected. The curves allow for the leakage currents occurring with a creeping short circuit and a load factor increase of 5 detectors with load factor 1 in alarm state. The line capacity can limit the line length if lines are very long.
13 SIGMANET 13 SIGMANET 13.1 13.1.1 13.2 13.2.1 13.2.2 13.2.3 13.2.4 13.2.5 13.3 13.3.1 13.3.2 Features .............................................................................................................. 95 Modem links in SIGMANET................................................................................. 96 Operation............................................................................................................. 97 Operating panels .............................................
13 SIGMANET SIGMANET networks SIGMASYS C and M control and indicating panels and operating panels. Mixed operation of IMT and BMT control and indicating panels is possible in SIGMANET. SIGMANET is a network for danger alarm systems. It is based on serial connections and takes the form of a bidirectional ring. Data is transmitted around the ring as standard in a preferred direction.
13 SIGMANET diately next to the connected SIGMANET control and indicating panel, since there is no cable redundancy in a spur connection. 13.1 Features • Up to 32 units can be networked with SIGMANET. SIGMANET operating panels can be networked as SIGMANET units if installed a distance away from the control and indicating panel or as spur operating panels in the control and indicating panel or in the immediate vicinity of the control and indicating panel.
13 SIGMANET Up to version 3.0 a maximum of 32 operating panels can be connected in the SIGMANET Up to version 3.1 a maximum of 40 operating panels can be connected in the SIGMANET From version 3.2 a maximum of 60 operating panels can be connected in the SIGMANET The operating panels include all devices operated on the SCI interface including SIGMAPORT, FAT, FBF-A, etc., plus all operating panels connected in the SIGMANET and in the spur to SIGMASYS control and indicating panels. 13.1.
13 SIGMANET 13.2 Operation 13.2.1 Operating panels The following operating panels can be connected in SIGMASYS systems: SIGMANET operating panel GMA operating panel SIGMASYS C operating panel S24230-F130-A4 S24236-F4-A1 S24230-F515-A2 Connection to: SIGMANET V24 Spur OP SIGMASYS C Installation in SIGMASYS M SIGMASYS C SIGMASYS L OP sloting panel cabinet OP housing Table 38: Operating panels Possible operation is gray marked in the fields.
13 SIGMANET • 2 freely programmable V.24 interfaces • Replaceable labelling strips which can be completed by the operator • SIGMANET interfaces also available in V.24 for modem operation • Emergency alarm display in the event of SIGMASYS M control and indicating panel failure. The first four points also apply to the SIGMASYS C (operating panel S24230-F515-A2 13.2.3 Operating panel variants The following operating panel variants can be parameterised for all operating panels (incl.
13 SIGMANET 13.2.4 Operating panel displays Control centre and local operating panels can be parameterised as: operating panel with EN 54-2 operating panels in accordance with the VdS guidelines ALARM FIRE 11 : 23 : 33 09.09.99 01 ALARM FIRE 11 : 23 : 33 09.09.99 MG 4711 PARFUMERIE 5 FRAGRANCE LANE MG 4711 PARFUMERIE 5 FRAGRANCE LANE The first and last alarm are always displayed here. Operating panel with GMA user interface with list counter for alarm, signal, fault (not EN 54-2).
13 SIGMANET 13.3 AT release 13.3.1 Central AT release Central AT release means that the appropriate central alarm transceiver (AT) is tripped by all BMT or IMT control and indicating panels in SIGMANET in the event of failure. The control and indicating panel in which this AT resides is known as the “AT Master BMT Control and Indicating Panel” or the “AT Master IMT Control and Indicating Panel”. The other SIGMANET control and indicating panels are known as “sub-control and indicating panels”.
13 SIGMANET 13.3.2 Remote AT release • ATs can be programmed at any control and indicating panels. • Two ATs can be programmed and connected per control and indicating panel. • The assignment of the AT release is performed system-wide by means of object assignment. • An object can only be assigned via an AT Multifunctional Danger Control and Indicating Panels SIGMASYS C and M (M-Modules) Best.Nr.
14 Order Overview 14 Order Overview Fehler! Es wurden keine Einträge für das Inhaltsverzeichnis gefunden. Multifunctional Danger Control and Indicating Panels SIGMASYS C and M (M-Modules) Best.Nr.
14 Order Overview Name Order number Remark SIGMASYS C Bestellübersicht SIGMASYS C control and indicating panel S24230-C500-A7 Control and indicating panel without operating panel with power supply unit (PSU) 150 W and without battery Control and indicating panel without operating panel Operating panel for SIGMASYS C control and indicating panel For SIGMASYS C without operating panel For installation in SIGMASYS C For installation in SIGMASYS battery cabinet Battery cabinet for 2 x 12 V / 65 Ah batteri
14 Order Overview Name Order number Remark Printer Protocol printer DL 3750+ A5Q00023962 for all SIGMASYS control and indicating panel Tape printer 24 V power supply unit For thermal printer FD60 Thermal printer FD60 24/24 DC/DC transformer Protocol printer T2240/9 V24213-Z407-A1 ETN:SVB24SC24 6GF6520-1LL Interface for T2240/9 Colour ribbon black DR 2030 Printer protocol converter (DPU) 6GF6520-2LA 6GF6520-5LA S24230-B146-A1 Interface for T2240/9 / DR 2030 für T2240/9 / DR 2030 RS232 isolator 1
14 Order Overview Name Order number SIGMACON Heat detector DT1102A S24218-F403-A1 SIGMACON Detector base SPF600 SIGMACON Manual call point RT-FW S24218-F400-A1 SIGMABASE Smoke detector SDF1200 V24217-C1214-C201 S24218-F10-A2 SIGMAPLUS Smoke detector SDF2200 S24218-F11-A2 SIGMAEXPERT Smoke detector SDF3100 S24218-F1-A1 SIGMASYS Heat detector SDT2100 S24218-F13-A2 SIGMASYS Combo detector SDF3500 S24218-F9-A1 SIGMASYS Detector base SPF3600 S24218-F300-A1 Ext.
14 Order Overview Name Order number Remark All-or-nothing relay LA Interface P LA Interface S A5Q00001243 S24211-A418-A2 S24211-A418-A4 S24230-A352-A1 Two 8 A / 24 V changeover contacts Extinguishing interface for PMG-S Extinguishing interface for Loop For extinguishing interface 2 Outputs, 7 Inputs or 7x FSA control facility For extinguishing interface S24230-A352-A1 and S24230-A353-A1 For extinguishing interface S24211-A418A2, S24211-A418-A4 Creates four spur lines from a single SIGMA spur line SIG
14 Order Overview Name Order number Remark FDS221 alarm sounder A5Q00004117 FDCL221 line disconnector A5Q00004011 FDCI222 (4x) input module FDCIO222 input/output module FDCIO223 FDnet transponder FDCIO224 VdS exting.
15 Project planning examples 15 Project planning examples 15.1 Layout of a SIGMALOOP at an existing star-configuration line network........... 111 Multifunctional Danger Control and Indicating Panels SIGMASYS C and M (M-Modules) Best.Nr.
15 Project planning examples Figure 24: Project planning form for processing Figure 25: Project planning examplesw SIGMALOOP 110 / 128 BMT Project Planning Guidelines Best.Nr.
15 Project planning examples 15.1 Layout of a SIGMALOOP at an existing star-configuration line network Figure 26: SIGMALOOP at an existing star-configuration line network If the above limits are observed, multiple incoming and outgoing loop lines can be fed via a single cable, e.g. 1 loop for automatic detectors and 1 loop for non automatic detectors.
15 Project planning examples 112 / 128 BMT Project Planning Guidelines Best.Nr.
16 Appendix 16 Appendix 16.1 16.2 16.3 Software dependant features ............................................................................ 114 Technical Features............................................................................................ 119 Terminology....................................................................................................... 121 Multifunctional Danger Control and Indicating Panels SIGMASYS C and M (M-Modules) Best.Nr.
16 Appendix 16.1 Software dependant features Feature/Version V2.0 V2.1 V2.2 V2.3 V2.4 V2.5 V2.6 V3.0 V3.1 V3.2 V3.3 V3.5 V3.6 V3.7 06.96 08.96 01.97 5. 97 10.97 04.98 10.99 10.01 4.02 02.03 04.04 08.05 04.06 03.
16 Appendix Feature/Version V2.0 V2.1 V2.2 V2.3 V2.4 V2.5 V2.6 V3.0 V3.1 V3.2 V3.3 V3.5 V3.6 V3.7 06.96 08.96 01.97 5. 97 10.97 04.98 10.99 10.01 4.02 02.03 04.04 08.05 04.06 03.
16 Appendix 06.96 08.96 01.97 5. 97 10.97 04.98 10.99 10.01 4.02 02.03 04.04 08.05 04.06 03.
16 Appendix Feature/Version V2.0 V2.1 V2.2 V2.3 V2.4 V2.5 V2.6 V3.0 V3.1 V3.2 V3.3 V3.5 V3.6 V3.7 06.96 08.96 01.97 5. 97 10.97 04.98 10.99 10.01 4.02 02.03 04.04 08.05 04.06 03.
16 Appendix All SIGMANET units must operate with version V3.1 if TD-32B-DC and BMXtra modems are used. 118 / 128 BMT Project Planning Guidelines Best.Nr.
16 Appendix 16.2 Technical Features Multifunctional Danger Control and Indicating Panels SIGMASYS C and M (M-Modules) Best.Nr.
16 Appendix 120 / 128 BMT Project Planning Guidelines Best.Nr.
16 Appendix 16.
Figures Figures Sorted in order of appearence Figure 1: Dimensions for the SIGMASYS control and indicating panel ................................. 13 Figure 2: Console installation DT1000 operating panel console, tiltable ............................... 14 Figure 3: Console installation for empty housing remote operating panel ............................. 15 Figure 4: SIGMASYS C control and indicating panel assignment .........................................
Tables Tables Sorted in order of appearence Table 1: Guidelines for failure of the display unit and signal processor................................... 8 Table 2: Overview of control and indicating panel selection .................................................. 10 Table 3: Control and indicating panel limitations ................................................................... 11 Table 4: Allocation of event location numbers .......................................................................
Index Index 4 4STE control module 42 A About the manual 2 Alarm buffering 33 Alarm counter 35 alarm horn 89 Alarm number 10 alarm organization 32 Alarm transceiver 38 Alerting facilities 62 ANZ 64 Appendix 113 AT release 100 B Battery 70 BMT/IMT mixed mode 35 C Central AT release 100 changing ÜE assignment 34 Close-and-retain system 64 Close-and-retain systems 59 Contact coupler SPF 5300 47 Control facility 63 Control module SPF 5100 49 Control Pattern AL 67 Control Pattern ANZ 67 Control Pattern EV 67
Index mixed mode 35 Mobile operating panel 99 Modem links 96 Monitored alarm line as a spur 8 Monitored alarm line as loop 8 Monitored control lines 63 Monitored lines 77 Multiple control facility SPF 5200 50 N Notes on application 6 O Operating panel dis 99 Operating panel variants 98 Operating panels 97 Operation 97 Order Overview 103 Outputs 49 Overview of interfaces 24 Overvoltage protection 8 P parameter sets 87 PDF file 2 Permanent collection 3 Power supply 69, 70 Power supply unit for the peripher
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