Delta DA
Contents
1. Alarm Verification Analogue Value NORMAL Time 19 4 Appendix Automatic Environmental Compensation This detector function automatically compensates for environmental influences e g dust pollution Compensation Level All Discovery smoke detectors include compensation for sensor drift as part of the internal signal processing algorithm The algorithm will ean compensate for changes in sensor output caused Compensated Analogue Value for example by dust in the chamber and will therefor hold the sensitivity at a constant level even with severe chamber contamination Alarm Threshold Raw Analogue Valu Analogue value Time months Compensation values are stored in non volatile memory and will be retained even if detectors are disconnected Response Modes Each detector in the Discovery range can operate in one of five response modes any of which can be selected from the control panel Each mode corresponds to a unique response behaviour which can be broadly related to sensitivity to fire Whatever the type of detector Mode 1 will give a higher sensitivity to fire than Mode 5 The selection of the most suitable mode depends on the application Guidance on detector and mode selection is given in the selection grid below Discovery Response Mode Selection Grid lor i lon CT Optical i eC o Multi Heat Suitable MM Recomme2. Fire Brigade Output on page 18 eae ae cae cae cae cae cae ee es DELTA OP Ca eBus Line 9 p 1 e Mig Discovery Discovery with HDFA Detection mnogo a Line DELTA A DELTA DA HDFA Detection Line i i ir eBus Line Ea rai Discovery Disove m na l Discovery Discovery Technical Room 2 Brief Description of DELTA DA Communication Ports The DELTA DA module communicates with computers DELTA OP panels and other pointtoPont DELTA DA modules using the eComm protocol Short distance communication can be implemented via the standard serial bus RS232C DELTA DA Micro processor a eComm UART RS232 Protocol Processor Transceiver DELTA DA For longer distance communication the eBus f Multimaster FTT10 is used Plug in circuit card eBus Support for the eBus communication is TTL Multimaster level FTTIO implemented using the plug in Kit for OP DA i LON A Tans eBus Communication Board See also the kit s documentation Micro processor eComm Protocol Figure 10 Block diagram for the CN1 1 2 port based on plug in circuit card Communication Port COM1 b oo con The DELTA DA module is equipped with a Delta DA CHi Aa Ent D Sub 9 pin communication port COM1 see Figure 11 which is used to connect computers DELTA OP and DELTA
3. Figure 7 Multifunction Output HDFA Hardware Detection of Fire Alarm Figure 8 Example DELTA Net For further information see the chapter Technical Specification page 12 HDFA Input amp Output Fire Brigade Output The DELTA DA module s HDFA detection line input terminal block CN1 13 14 and the line output terminal block CN1 15 16 are used to connect the module to other system units in the DELTA Net The HDFA detection line connects all system units and the line is monitored using a 6k8 end of line resistor which is connected to the last module In order to make it possible for a DELTA Net fire alarm system to be able to report a fire alarm when a communication fault occurs or the micro processors stop the DELTA DA module has built in galvanically isolated electronics for hardware detection of fire alarms If such a fault occurs the hardware detection and alarm function in DELTA DA will automatically be activated to monitor the analogue Discovery detectors connected to the module If one of these detectors reports a fire alarm even though the standard loop communication is not functioning the module s HDFA function will send on the fire report through the HDFA detection line to the main DELTA OP panel HDFA alarms are shown as a fire alarm indication and will activate the fire brigade remote output in the main DELTA OP panel See also the description in the chapter HDFA Detection Line
4. DA modules via the Communication Por standard RS232 Point to Point serial bus COM1 Monitored Outputs used as Itif amp Multifunction Point to Point RS232 Serial bus 1 Voltage FreeSN2 Relay Outputs TB7 TB8 12V amp Temp Sensor Figure 11 Port COM1 D Sub 9 pin communication port 24V amp Battery Charger CN3_ 220VACMains 1 2 3 Communication Port CN1 1 2 RS232 COM1 i eBus Multimaster bus 1 The CN1 1 2 communication port is located on terminal blocks and is used for connecting eBus free topology Multimaster bus see Figure 12 which allows long distance Delta DA Detector n dua a Port communication with other DELTA DA pial hor ke used as modules DELTA OP panels ANX95 fire eBus Multimaster free topology 1 alarm panels eNode required and other CN2 Relay Dutputs T87 7B8 equipment and nodes connected to the bus 12V amp Temp Sensor a40 Ballery Charser Figure 12 CNI1 1 2 terminal block communication port CN3_ 220VAC Mains 1 2 3 2 Brief Description of DELTA DA Typical Configurations The DELTA DA module can be used in both compact and distributed solutions In the compact solution all in one cabinet the DELTA OP and DELTA DA modules form a complete centralised fire alarm system DELTA Compact In distributed solutions the DELTA DA module is connected to a network of fire alarm panels that can be of types DELTA DA DELTA Compact a
5. Novar s systems for fire alarm voice alarm emergency lighting etc The easiest way to find products and other information on our Internet site is by using the site s search engine Just type a key word in the search field select the area you want to search within and click on the lt Search gt button Do following Visit us at www Novar fs no Type for instance the word terminology in the search field Click on the Search button Read the actual page or download the booklet follow the on screen instructions 2 Brief Description of DELTA DA 2 Brief Description of DELTA DA I DELTA DA is a micro processor based fire detection and alarm module designed for connection to the DELTA and ANX95 families of fire alarm systems Every DELTA DA module has programmable inputs and outputs which can be configured for connection of detector loops and or alarm outputs The detector loops can be addressable analogue and or conventional Some alarm outputs are monitored and others are potential free The DELTA DA module incorporates an advanced multi voltage power supply which powers the detector loops and alarm outputs and charges the accumulator batteries It can also supply other operating panels in the network The DELTA DA module has a port for direct eBus connection for communication with other units in the fire alarm network The module also incorporates a communication port for connecting computers
6. be fire protected All the fire detectors fas monitoring this area are assigned to the fire zone A fire zone maybe monitored by one or more detectors or by all the detectors on a loop Fire zone definition enables you following features On the display alarms or pre alarms from detectors will be referred to their fire zone During operation you can test isolate or de isolate fire zones in one operation Sub Zones While fire zones mainly define natural fire cells in the building they are divided into sub zones in order to be able to implement various control requirements within the same fire zone Sub zone definition enables you to specify which sub zones will activate which output groups Note that a specific detector may only be assigned to one sub zone 1 detector gt 1 sub zone There are two types of sub zones Continuous Sub Zones all the detector address numbers assigned to the sub zone are consecutive may activate all types of output groups Ea Discontinuous Sub Zones the assigned detector address numbers are not consecutive may only activate single knock output groups Output Groups All the DELTA DA alarm and control outputs are to be assigned to output groups Normally outputs that always have the same activation are assigned to the same output group There are three types of output groups J T Single knock output group Fire 5 all the outputs assigned to the group are activated when at leas
7. monitored for breaks and short circuits with the aid of 6k8 end of line resistors Inputs TB1 and TB2 used as conventional Inputs TB1 and TB2 detector loops 4 RS232 COMM used as analogue RS232 comt Delta DA com addressable detector Delta DA ae i loops 2 Lopa 1 Loop A Detector Loops O R Loops tp2 Monitored Outputs Monitored Outputs TB3 TB4 amp Multifunction amp Multifunction TBS TBS TB5 TB6 CN2 CN2 i Voltage Free Voltage Free Relay Outputs 7B7 TB8 Relay Outputs TB7 TB8 12V amp Temp Sensor 12V amp Temp Sensor 24V amp Battery Charger 24V amp Battery Charger CN3 CN3 220VAC Mains 1 2 3 220VACNett 1 2 3 Figure 2 Analogue addressable detector loops Figure 3 Conventional detector loops The loop components that are connected to these loops must be series S60 S90 XP95 or Discovery all Apollo series For detailed technical information on loop inputs TB1 and TB2 see chapter Technical Specification page 12 2 Brief Description of DELTA DA Alarm amp Control Circuits The DELTA DA module has three different types of outputs for connection of alarm and control circuits Three monitored voltage outputs TB3 TB4 and TB6 Two voltage free relay outputs TB7 and TB8 A monitored Multifunction output TBS Monitored Voltage Outputs TB3 TB4 TB6 The three monitored voltage outputs TB3 TB4 and TB6 are intended for co
8. of our Fireguard Logic system DELTA Logic is collective expression used to cover the environmental adaptation features on offer with the DELTA concept and incorporates the three main functions set out below A key feature of DELTA Logic is the option it gives you of adjusting areas of the protected premises to provide greater sensitivity so that you achieve the benefits of early warning greater security in sensitive areas Another great feature is the automatic environmental compensation built in the Discovery range of detectors DELTA Logic has the following main properties Individual Adjustment of Alarm Limits Pre alarm and fire alarm detection levels can be adjusted individually at the control panel within acceptable limits for each analogue detector This property makes it possible to use smoke detectors in areas where some smoke may be present Alarm Limits lt b oO Standard Limits Adjusted Limits 2r Qo Ss co lt gt lt gt ALARM example 65 55 45 NORMAL 30 NORMAL 8 8 FAULT Time Time Alarm Verification This function allows you to individually adjust at the control panel how long an analogue detector may report a pre alarm or fire alarm before the fire alarm panel raises the alarm This property makes it possible for some areas to have high temporary concentrations of smoke without notifying an alarm The fire alarm panel stores the highest and lowest smoke concentration levels for any detector
9. to the system unit s numbers loop component s numbers and fire zone numbers If you have to program one of these fire systems with numbers higher than 99 for example system unit 140 or detector address 120 or fire zone 200 you have to use hexadecimal digits from 01 to FE corresponding to 01 to 254 in the decimal system Conversion table decimal to hexadecimal figures RO FRO FRO FRO TRO FRO TROT DO DO DO HH BR BR OO oO do uo IN oloo NO o amp RO N KR NIN N N NIN gt opf KOL NO Ro h Ro K N NO NO RO RO N CO NIN 01 gt 0O Dec 00 06 08 _ 09 10 15 O1 CO RO N NIN O1 O1 RO NIN OJO RO NIN NIN CO Co NIN OJO O o NINNIN aa Tee OO RO NO RDoO ROT RO DO PO DO cn BR cr ojlo No KR No oe t No Do on on oi To enter the letters in hexadecimal figures using the numeric keypad on A Hexkey 0O the panel you must first press the hex B Hexky 1 key on the panel and then one of the C oo 7 o O oe e Keypad Uaes conversion table For example to enter fire zone number 200 which corresponds to C8 press the following keys Hexkey 6 gt Windows program FireWin Explorer uses decimal digits for example fire zone 215 is displayed as 215 This app
10. via the RS232C interface You can operate the DELTA DA system from one of the DELTA OP panels connected to the fire alarm network These panels are the main interface between you and the system while the DELTA DA modules operate in the background Adjustment of the advanced functions in Discovery detectors the new range of Apollo fire monitors can be performed directly from DELTA OP Applications The DELTA DA unit can be used as a detection and alarm module in a large fire alarm network or it can be an integrated part of a stand alone fire alarm panel for example the DELTA Compact see also the chapter Typical Configurations on page 11 Configuration The DELTA DA does not require any adjustment or configuration of DIP switches or jumpers on the circuit card However commissioning does consist of configuring the software in DELTA DA to communicate in a network with the DELTA OP panel and with other modules or control panels Configuration is performed using FireWin Explorer a Windows based program that runs on a connected PC Simple functions can also be configured via the keypad on connected DELTA OP panels by selecting commands from set up menus in a hierarchical menu system The DELTA DA module stores the configuration data serial and system number number of systems etc in the module s EEPROM For more detailed information on the configuration of the DELTA DA see the manual User Guide
11. 000Q Break resistance PROGRAMMED IN gt po stored in ROM 172 5mm O Lae S o ETTE 0 C to 55 C o Po eee 251245 DELTA DA Analogue Marine English 251246 DELTA DA Analogue English 15 4 Appendix 4 Appendix What s a Fire Alarm System Eltek s fire alarm system principally consists of an intelligent control panel or several panels in a network which provides visual warnings of alarm situations in various ways and activates the control panel s alarm and control outputs This is done on the basis of information about the development of smoke heat flames etc from components on the loops The system communicates with the following types of components on the detector loops Conventional detectors Analogue addressable detectors Ancillary addressable devices e g addressable digital and analogue inputs on I O units DIO Control Panel gt ee Pen ere Each of the system s alarm and control outputs Components outputs terminal blocks in the control panels or modules and in ancillary devices can be g programmed individually and can be of the gt following types Voltage Outputs Voltage free outputs The control panel may be configured to activate based on information from sub zones every output group in the system in many different ways Graphic presentation and remote control of ns she from a PC More information on chapter
12. 0mA 1W For internal electronics 36V 5 1A 36W _ For loop communication Only mains input connected Only mains input and terminating resistor on the terminal blocks examples 50 60mA normal mode per panel 300mA alarm mode 0 5mA and 3 5mA alarm LED and 2mA alarm LED when connecting to R and R when connecting to SL and R Over voltage protection current limiting Temperature sensor for battery VDE0871 class B In accordance with IEC801 1 5 In accordance with yes T Series RS232C 9 pin D Sub male Protocol eComm gt UART Series FTT10 eBus Terminal block Protocol eComm gt LON Physical layer RS232 transceiver 3 Technical Specification Communication with DELTA OP DELTA DA or PC with eComm protocol Communication with control panels and other nodes in eBus network Requires use of Kit for OP DA Physical layer FTT 10 transceiver eBus Communication Board Terminal blocks CN1 5 6 17 18 and CN1 7 8 19 20 Logic reference TB1 and TB2 Two wire ring loops 24VDC 10 66 5mA 24VDC 10 140mA 24VDC 10 280mA 24V 8V 415 30mA 0 5uF max Break proof Short circuit proof S90 XP95 Discovery 126 addressable Two wire lines S30 S60 electrical data Individually programmable Used as follows Loops with return to the DA module Max Normal mode Max Alarm mode 50Q loop resistance Max Alarm mode 25Q loop resistance l
13. A DA EE Delta DA 0 User s Guide FireWin Explorer Windows based PC application for main configuration and set up of DELTA modules FireWin Explorer 0 Configuration Guides for Software modules Instructions for configuring DELTA modules with special control functions protocols etc Programmable Functionality E Installation Guides for 0 Fire Brigade Termination Card Compact Printer PC Interface Connection Compact Fire Brigade Termination Card OP eBus Communication Board OP DA l O gt gt 17 4 Appendix HDFA Detection Line Fire Brigade Output In today s modern software based systems if the microprocessor stops and the internal watchdog electronics do not manage to start it again the system will not function satisfactorily HDFA Hardware Detection In order to avoid this and other communication faults on the network or of Fire Alarm detector loops the DELTA modules have built in galvanically insulated electronics for hardware detection of fire alarms Thus the DELTA modules conform to the European Standard EN54 Part 2 DELTA Net DELTA Net communication between DELTA OP and DELTA DA modules consists of two twin cables where one of them is used as HDFA detection line and the other twin cable as eBus communication line The HDFA function will be able to report a fire alarm from the DELTA DA modules even if The microprocessor in DELTA OP stops The micropro
14. Fire Zones amp Output G Definition pps Example of the principles of a fire alarm system ai a aa eMniion page DELTA Technology definition DELTA Technology is the collective term for the Novar fire alarm system which uses new user friendly logic for network engineering control panel operation and fire alarm evaluation The DELTA Technology concept has the following principal features Complies with EN 54 Parts 2 and 4 Modular construction Decentralised or centralised Flexible and user friendly Fully scaleable Extensive signal processing Compatible with ANX95 High noise immunity The ANX95 and ANX95E fire alarm panels uses neither sub zones or output groups Their outputs must be configured based on information from the loop components 4 Appendix Documentation Chart for DELTA Technology The documentation chart below is a summary of the types of manuals guides instructions etc that are available for products in the DELTA family 0 Engineering Design Guide DELTA Technology Standard functionality reverse compatibility special functions etc DELTA A Assembly Guide DELTA Compact Kit for Compact Assembly Cables Installation Guide DELTA OP User s Guide DELTA OP Installation Guide DELTA DA User s Guide DELTA DA Delta Compact roo coco coe lf Installation Guide DELTA OP User s Guide DELTA OP EAT Delta OP Installation Guide DELTA DA User s Guide DELT
15. FireWin Explorer or other relevant literature The use of plug in Kit for OP DA eBus Communication Board is required 2 Brief Description of DELTA DA Main Features X Small cost effective fire detection and alarm module adapted for decentralisation of the fire alarm system across the protected area Xx Compatible with the ANX95 family of control panels this allows direct connection to existing master slave and multi master fire alarm networks 3x Compliance with European Standard EN 54 Part 2 regarding monitoring and alarm equipment v Advanced cutting edge technology which uses micro processor based electronics with many programming possibilities 3x Support for the new intelligent Discovery detectors with environment adjusted sensitivity in 5 levels automatic change of day and night setting automatic warning when cleaning is required etc 3x Reliable and flexible control and monitoring system with low power consumption and sophisticated monitoring of all critical components ve Advanced multi voltage power supply for automatic charging of the batteries and to drive the detector loops alarm outputs and other panels ve Advanced downloading of the configuration s parameters direct from a PC running the FireWin Explorer application v Also available as an integral part of the DELTA Compact fire alarm panel with built in DELTA OP operating panel and standard accumulator batteries Block Diagram This block
16. OP panels connected to the eBus network or from the FireWin Explorer application running on a PC Note that the configuration of the system unit number on an ANX95 and ANX95E control panel is only to be done from its own keypad Eltek s fire alarm system has the following address range for system units in networks DELTA OP DELTA DA DELTA Repeater Fireguard DELTA ANX95 ANX95E 01 256 01 99 01 256 01 256 01 99 01 99 01 99 01 99 01 99 01 99 01 99 Note that eBus networks require consecutive system unit numbers starting with number 01 Also to conform to the European Standard EN 54 Part 2 the main operating DELTA OP panel is to be configured with system unit number 01 RS485 Master Slave networks do not require consecutive system unit numbers but do not conform to the EN54 standard The address ranges above are also limited by the wiring topology of the eBus FTT10 network The maximum number of nodes allowed is 128 nodes in STAR LOOP and FREE topologies and 64 nodes in BUS topology 21 4 Appendix Fire Zones amp Output Groups Definition In order to make fire alarm system engineering more functional and the DELTA DA modules easier to configure you have to distribute the modules input units detectors by zones and their outputs by groups Fire Zone A fire zone or operation zone is the defined area of a building or property to
17. cessor in DELTA DA stops Discovery detectors only Communication on the DELTA DA detector loops does not work Discovery detectors only There is a break or short circuit in network communications all types of detectors In such situations the HDFA function in the relevant DELTA DA module will be activated Any fire alarm signals will be detected by the DA module s HDFA function which will send the message on to the main DELTA OP panel via the HDFA detection line 7 HDFA alarms will be shown as a fire alarm indication and will activate the fire brigade remote output in the main DELTA OP panel Example DELTA Net with HDFA Detection Line Reception Area Main panel DELTA OP rh ae RE a ey oe ey Gee ey ee OE ome wees el lt n l Tele Discovery Discovery D gt D a ae eee ee gy nt a i r B ee eae ey ee ee l Laboratory Buildin l PEER i HDFA Detection Line DELTA DA Discovery Discovery eBus Line jf y DELTA DA i 1 rar 4 R 4 Discovery Discovery s s r z y z g DELTA A J 3 e ee i Technical Room A HDFA alarm is indicated by LED and buzzer it is not displayed on the graphic display 4 Appendix Intelligent DELTA Logict In order to make secure and stable operation of fire alarm installation easier and to prevent undesired alarms even in difficult environments Novar has developed DELTA Logict a further development
18. diagram shows the main functions of the DELTA DA module For further information se Technical Specification on page 12 All customer specified functions are DELTA DA stored in EEPROM chips The microprocessor is the heart of the system and represents the intelligence in DELTA DA Micro ACI __ processor Delta Net communication port Th UART for eBus network for connecting din ROM chi j to other control panels stored in chips RAN plug in PCB static 1Mb Dynamic data is stored in RAM chips Serial communication port p for connecting to other control ower supply panels and to a PC 220VAC Mains supply Flyback rectifier RS232C 75W T a Detector loops 24V Auxiliary voltage Boost i Analogue or 4 5 for Delta OP panels e conventional aA Detector loops Forward analogue addressable 2 or Power 1W Monitored 24V Battery charger output Serial Power outputs conventional 4 for accumulator batteries 12V 1 2W a clin E and battery temperature sensor etector circuits Relay outputs Monitored outputs sounder circuits 3 or conventional E detector circuits 3 12VDC Auxiliary voltage for external equipment Mulivuncli Voltage free relay outputs eur control circuits 2 Hardware output E n orre Sounders Conv HDFA output sal detector loop Relay Monitored Multifunction output __for hardware fire alarm sounder circuit 1 or conventional monitoring eo of detector circui
19. e detectors to sub zones e Assigning the alarm amp control outputs to output groups Cuisurerouns Sounder Output 01 f P P Control Output 01 Functional Configuration O 2 Sounder Output 02 hefunect l fi f the fj l lated utput Group 2 Control Output 02 The functional configuration of the fire alarm system is not related to Sounder Output 03 any specific fire detector or control output on the contrary is based Output Group 3 Control Outout 03 SEIRET Sita ad on the functionality operation amp control requirements of the Output Group 4 Control Output 04 premises to fire protect as the following example will show Outout G 5 Sounder Output 05 F utput SroUP gt Control Output 05 As we need to test and isolate the fire detectors in the protected Output Group 6 Sounder Output 06 premises se diagram below as required by the building activities we define 3 specific fire zones ia ae ca door retainers Fire Zone 01 has no specific control requirements other than all the detectors in the zone will activate the local sounders and ventilation Then we only define sub zone 0101 and output group I Fire Zone 02 protects two different areas and requires that the fire detectors in one area only activate the sounders and ventilation of the respective area Then we must define sub zones 0201 and 0202 as well as output groups 2 and 3 Fire Zone 03 protects three different areas and also requires that the fire detectors in one a
20. etector loop and the address numbers not used in the sequence not present For example say that you have coded 5 detectors with addresses 06 01 02 04 and 03 and connected them to loop 20 Then you will have to configure the control panel so that loop 20 has a total of 5 detectors and then configure address 05 on loop 20 as not present Eltek s fire alarm system has the following address ranges for the loop components on the detector loop 01 126 01599 01 gt 99 01 126 100 gt 107 100 gt 123 Loop components Control Panel Compact Addressable detector loop 85 ANX95 Loop components Control Panel ddressable detector loop 85 Addressing examples of loop components connected a detector loop ANX95E The unique address of a loop component consists of an address number in which the first two digits indicate the loop number the component is connected to and the remaining digits are the component s address number on the loop For example address number 0526 is the complete address of a loop component coded with address 26 and connected to detector loop 05 Another example the complete address of output no 3 on a DIO unit can be 210 125 3 if the unit is coded with the address 125 and is linked to detector loop 210 4 Appendix Key Entry for Numbers Above 99 Some of Eltek s fire alarm systems use hexadecimal figures just two digits to show and refer
21. lies when the control panel is configured set up via the panel s keypad not by FireWin Explorer The location of the Hex key is not the same for all control panels On DELTA OP it is located above the SCROLL DISPLAY key ANX95 used its hidden key while ANX95E used its EVACUATE key 25 5 Feedback to Novar 5 Feedback to Novar It is the policy of Novar AS to work actively to ensure that our products are in accordance with our customer s expectations and requirements In order to achieve this goal at any time we wish to follow up our products throughout their lifetime We therefore request your kind assistance Your Comments about Delta DA You can contact us via our Internet pages www Novar no if you have any comments about this product regarding technical specifications design maintenance or service Also whether this manual and other documents live up to your wishes and expectations We will acknowledge your comments and inform you about eventual changes that we perform based on your feedback We thank you for your cooperation Make a Note 5 Feedback to Novar 2 Art no 35 1209 013 Issue 2 May 2000 Novar AS Lierstranda Industrial Estate P O Box 3514 3007 Drammen Norway Phone 47 32 24 48 00 E mail nordic support novar com Fax 47 32 24 48 01 Internet Www novar com Registered No NO 981 336 305 MVA ACKERMANN Brand Rex GEEN Eltek ESSER GENT
22. loads must be protected by reverse current diodes Circuits without return Terminated with a 6k8 terminating resistor 24VDC in normal mode 0V reset Max Alarm mode 50Q line resistance Max Alarm mode 25Q line resistance loop voltage must always be gt 17V Loop capacitance Monitored by terminating resistor Protected by internal electronic fuses Per loop according to FG regulations Apollo type detectors connected to the loops Individually programmable Used as follows No return Terminated with a 6k8 terminating resistor Same specification as for sounder circuits above No return Terminated with a 6k8 terminating resistor Same specification as for conventional detector circuits above Double pole voltage free relay contact Common Normally Open Permitted to be connected to the relay contacts Connecting 230VAC load is not permitted Used as control circuits Three pole voltage free relay contacts Normally Close Common Normally Open Connecting 230VAC load is not permitted 3 Technical Specification Used for processors independent fire detection Terminal blocks from Discovery detectors CN1 13 14 HDFA detection line in CN1 15 16 HDFA detection line out Two wire circuits No return Terminated with a 6k8 terminating resistor 24VDC 20 10mA Voltage and current lt 150Q Short circuit resistance 150Q gt lt 3000Q Alarm resistance 3000Q gt lt 8000Q Normal resistance gt 8
23. nd ANX95 The module can then be used to split up the large fire cabinets with loop cards batteries terminal blocks etc into several small easily concealed decentralised modules The figures in this chapter show two examples of typical DELTA DA configurations DELTA OP DELTA XP95 Discovery nh ay DELTA DA 220 VAC Reception eae aa caeecaeecaeecaee cae caee ee s l DELTA OP XP95 Discovery ANX95 fire alarm panel CIID DELTADA if ia l l E s LH l m oo T 220 VAC 220 VAC Main Building Technical Room Figure 14 Distributed solution with DELTA DA and DELTA OP modules and ANX95 fire alarm panel 11 3 Technical Specification 3 Technical Specification In this chapter you will find the most important technical data for the DELTA DA module Electrical Data TYPE 185 265VAC VDC 1 phase Four rectifiers 3 switched SMPS and 1 serial regulator 1 0A At full power 50Hz 230VAC 1A monitored Glass fuse 5 20mm Quick Blow 17 30VDC 3A 75W _ Main rectifiers Flyback type used to supply all outputs 24VDC 3A max While mains off 24V 4A monitored Slow Blow glass fuse 5 20mm and 22V electronic fuse 24V 300mA electronic fuse For Delta OP 24V 1A electronic fuse For external 24V equipment 12V 20 100mA_ 1 2W For external 12V equipment electronic fuse 5V 10 20
24. nded For ionisation and optical smoke detectors the modes relate to different combinations of smoke response threshold and response time For the heat detector the mode relates to the fixed temperature setting and the sensitivity to rate of rise of temperature For the multisensor the mode relates to the levels of smoke and heat sensitivity and to the way in which the responses of the two sensors are combined The response characteristics of the detectors have been carefully set so that detectors will comply with the requirements of the relevant part of EN54 in all response modes To program the system please contact Novar s Service Department For security reasons the configuration of the system should be regarded as access level 3 in terms of EN 54 Only authorised and qualified personnel should have access to the set up 4 Appendix Addressing Rules for Networked Systems Network Address Ranges Example of system units numbers eNode ANX95E Eltek s distributed fire alarm system usually consists of a network of intelligent fire alarm panels operating panels and other modules DELTA DA OP ANX95 ANX9YS5E etc which communicate with each other via the fire alarm network Every panel and module is a system unit in the network In order to identify each of them they must configured with a unique system unit number You can configure the DELTA module s system unit number from the keypad of any DELTA
25. nnection to standard sounder circuits see Figure 4 The circuits are monitored for breaks and short circuits by using a 6k8 end of line resistor and by internal electronic fuses In the module s normal mode the circuit is monitored and has an output voltage of 24VDC When the DELTA DA is in alarm mode this output voltage switches to 24VDC You can also configure these three voltage outputs for connection of conventional detector loops Figure 5 Outputs TB3 4 and 6 Outputs TB3 4 and 6 RS232 COM1 used as RS232 com COM1 Delta DA COM1 used as conventional 1 sounder circuits 3 Delta DA detector circuits 3 Sounder Circuit A 9 Sounder Circuit B Detector Loops Loops Monitored Outputs amp Multifunction Monitored Outputs amp Multifunction Sounder 9 CN2 ined Voltage Free Circuit C O R Voltage Free ircui 1 Relay Outputs TB7 TB8 Relay Bupu TB7 TB8 Circuit G 12V amp Temp Sensor 24V amp Battery Charger 12V amp Temp Sensor 24V amp Battery Charger 43a H 220VAC Mains Ss 220VAC Mains 1 2 3 Figure 4 Monitored voltage outputs drive sounder Figure 5 Monitored voltage outputs configured to circuits drive conventional detector loops For detailed technical information on voltage outputs TB3 TB4 and TB6 see the chapter Technical Specification page 12 Voltage Free Relay Outputs TB 7 TB8 RS232 Delta DA Outpu
26. novar Delta DA Eltek User s Guide Detection and Alarm Module 1 Welcome Information in this document is subject to change without notice and does not represent a commitment on the part of Novar AS No part of this document may be reproduced or transmitted in any form or by any means electronic or mechanical including photocopying and recording for any purpose without the explicit written permission of Novar AS Copyright Novar AS Norway 2002 QA fs gs NS ISO 9001 Certificate No 244 and 319 ded Certification The Certificate does not cover manufactured products This product is CE labelled and satisfies all requirements applicable to relevant standards and directives EMC LVD Immunity Standard a LVD73 23 EEC Low Voltage Directive a EN50130 4 Product Family Std Immunity Alarm Systems Generic Emission Standard a EN50081 1 Residential Commercial and Light Industry 4 o EN50081 2 Industrial Environment Please contact our Head Office at the following addresses Novar AS P O Box 3514 N 3007 DRAMMEN Norway R my ee novar Fax 47 32 24 48 01 E mail nordic support novar com Visit our Web site on the Internet at E ite K Home page www novar no Technical Personnel Area Click on the Product TechZone menu Art No 35 1209 013 Issue 2 May 2000 Published 2002 06 10 mfm 2002 06 10 1209013 doc B4 Article numbers 251246 DELTA DA analogue English 291245 DELTA DA analogue marine Engli
27. oop voltage must always be gt 17V Pulse voltage current Loop capacitance Also loop communication from return side Protected by internal electronic fuses Recommended use of isolators for every 32 loop components Communication Protocol Apollo Max no of loop components Two wire circuits without return Terminated with a 6k8 terminating resistor Apollo type detectors connected to the loops Same specification as for conventional loops in the table Outputs for alarm and control circuits 13 3 Technical Specification Terminal blocks CN1 9 10 CN1 Logic reference TB3 TB4 and TB6 Two wire circuits 17 30VDC max 1A Break proof Short circuit proof Max 20 bells Two wire circuits Terminal block CN1 11 12 Logic reference TBS Two wire circuits electrical data Two wire circuits electrical data Type C NO Max 30V 2A Terminal blocks CN2 1 2 3 CN2 8 9 10 Type NC C NO Max 30V 2A Logic reference TB7 TB8 3 17 30VDC 140mA 17 30VDC 280mA 150nF Break proof Short circuit proof Max 32 detectors S30 S60 l 21 22 and CN1 23 24 17 30VDC max 5mA 17 30VDC max 5 2mA Individually programmable Used as follows No return Terminated with a 6k8 terminating resistor In normal mode 24V In alarm mode 24V reversed polarity Monitored by terminating resistor Protected by internal electronic fuses Per circuit Inductive
28. rea only activate the sounders and ventilation of the respective area Then we must define sub zones 0301 0302 and 0303 as well as output groups 4 5 and 6 But this zone has an additional control requirement all the fire detectors in fire zone must activate the door retainers in the zone Then we also have to define output group 7 Now we can assign the output groups to the respective sub zones as indicated in the table Input amp Output Configuration The input amp output configuration is in fact a detailed assignment of all the fire detectors to the predefined sub zones and the assignment of all the alarm amp control outputs to predefined output groups Following our example we have to assign the fire detectors on loop 01 and 02 and the required sounder amp control outputs 01 through 07 as indicated in the diagram and Output gay Group 4 i A tables in this chapter Fire Zone 03 Te T ge a a ee ee m ee Detector loop 01 Output Output Output Detector loop 02 Group 5 Group 6 Group 7 23 4 Appendix Loop Components Address Ranges In Eltek s fire alarm system all loop components detectors manual call points Zone Monitors DIO units etc are connected to the control panel s detector loops Every addressable loop component in a fire alarm network must be coded with a unique address in a random sequence The control panel must be configured with the total number of loop components connected each d
29. sannnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn nnmnnn 16 DELTA Technology definition ccccceeceeeeeeeeeeeeeneeeneeeeeeeeseneseneseneeeaes 16 Documentation Chart for DELTA Technology cccccccccecccceccceeecaeeeceesaeeseeeeaneeans 17 HDFA Detection Line Fire Brigade Output 00nnannnannennnnnnnnnnnnnnnnnnnnnnnnnnnnrnnnnnee 18 DELTAN sda ccaassiatoncsatt T E EE E N 18 INtEIIGENUDELT A LOGIE rosne a E a A 19 Individual Adjustment of Alarm Limits 0ccccccccccccccccceceeceeceeeeeeeeeeeeeeeeeeeeees 19 Alae Vere a Oe E EA E E E EE 19 Automatic Environmental Compensation cccccccsscsscccccccceeeeeeeeeeeeeeeeeeeeeeees 20 Addressing Rules for Networked Systems cccccssesseeeeeeeeeeeeesenesenesenes 21 Network Address RANGES onain i lel diedecewelessuedbeeaeceswedieed 21 Fire Zones amp Output Groups Definition ce ccecceeeeeeee cece eeeeeeseeeseeeaseeseeeaess 22 JEA E a cake rene ae OS er oR EO Ere ee 22 DUD ZONES sarowadlscsut ssiisewsatsuscas E euideestes 22 OOMPIE OUD Seena a tinny he cabana thats ead neds Canna aaa eta laa E ON 22 Fire Alarm System Configuration Example eeeeesssseseeeesssereerrrsrrrrrrrrrren 23 Loop Components Address Ranges ccscccseccseeceeeceececeeeceeeeaeeeaeeeseeeeeeseeenaes 24 Key Entry tor NUMDErs ADOVE QO iid oicnscanixevoiseraueiscaciedustuiediel eikeroloneisisedstnciedee 25 5 Feedback to No
30. sh 1 Welcome Table of contents 1 Welcome 4 ADONIS Y 10 Rene ania ee Seat ea ee ee eee et oe ee 4 Glossary and AbbreviatiOnS xia aces waited aetna E E AE ERE EES 4 2 Brief Description of DELTA DA 5 APOICIUODS ura a E IA 5 Gyo aie Tes 16 9 ieee sere teal ren a sie re ese inst nc ra te Toes Werth RS eC ORR 5 Mam FC CUE OS roars a E a seed eeaeen MeeaRNRRN ENE 6 BIOCK DIagra iMn 6 Inputs Outputs amp Communication Ports ccccccceecseeeeeeeeeeeeeeeeeeeeeeeeeeeeees 7 DETECIOF OOPS TB T B2 onse ea i a savevieetedontatbosttten T Alame ConNTOlGICUNS er a a 8 Monitored Voltage Outputs TB3 TB4 TBO ecccceeceeceeeseeeesseeeesseeeesaeeeesaeees 8 Voltage Free Relay Outputs TB7 TB8 0 0 0 cccccecccseeeeeeeeeeeeseeseeesaaeeesaeeseeeaeeseeseaes 8 Monitored Multifunction Output TBD cece ccccccceeececeeeeeseeeeeseeesseecesseeeeseeeesaneessaees 9 HDFA Input amp Output Fire Brigade Output cc eecccceeceeseeeeeaeeceseeeeeseeeeseeeeeseeeeeeaes 9 GOMMUBIGAUON POMS snini E me bineaeedidebaeniansen 10 CommuniGalon FOr COM saisaseacictasiiacetecaie a A davaccaniatwacesesedateandgudis EN tes 10 Communication Port GNW21 52 scise ange cisesesite rapa ius wGe a N adeno a ad 10 Typical CONTIGUFALL ONS issiwiscesctesccenicteawtinnthawianseesveanwtadwchuwtntwennsceiwonweaeesauntneutens 11 3 Technical Specification 12 Electrical Dataene a A e 12 4 Appendix 16 What s a Fire Alarm System as
31. t 1 or NO C control atiii Figure 1 Block diagram for DELTA DA circuit 1 Connection to mater salve networks via connected DELTA OP panels 2 Brief Description of DELTA DA Inputs Outputs amp Communication Ports The DELTA DA module can be connected as a node in a fire alarm network which allows you to decentralise the terminal blocks for detector loops sounder circuits and control circuits The module has built in following individually programmable inputs and outputs no jumpers required 2 analogue addressable detector loops 3 monitored voltage outputs 2 voltage free NC C NO relay outputs 1 Multifunction output 1 eBus communication port 1 serial communication port c c CoCo SD Detector Loops TB1 TB2 The DELTA DA module has two inputs TBI and TB2 for connecting two analogue addressable two wire ring detector loops as shown in Figure 2 The loops are continually monitored for breaks and short circuits The DELTA DA module also monitors all the detectors and units connected to the loops and sends the communication pulses through the other side of the loop if it detects a break in the loop By connecting isolators at strategic points on the loop you can reduce the number of detectors that will stop functioning if a short circuit occurs The terminal block inputs TB1 and TB2 can also be configured for connecting four conventional two wire detector loops see Figure 3 In this case the loops are
32. t X1 one detectors single knock in the assigned sub zone reports a fire alarm E T Double knock output group 2 Detector Dependency x2 all the outputs assigned to the group are activated when at least two detectors double knock in the assigned sub zone reports a fire alarm E T Isolation output group all the outputs assigned to the group are activated when at least one detector in the assigned sub zone is isolated Note that a specific output may only be assigned to one output group of the same type but may also be assigned to other types uul oN e g output TB03 may be assigned both to a single knock and to Group 7 MN Output a double knock output group at the same time 4 Appendix Fire Alarm System Configuration Example 1 sr The fire alarm system main configuration is performed graphically 0202 3 via FireWin Explorer a Windows based application and 0301 4 and 7 consists of following steps 0302 5S and 7 0303 6 and 7 Functional Configuration e Fire Zone definition areas to be tested or isolated separately e Sub Zone definition 7 a e a partial areas with specific control requirements 02 0202 0271 0295 e Output Group definition ae o 03 0301 0201 0212 alarm amp control outputs with similar activation 03 0302 0213 0220 e Output Groups to Sub Zones assignment 03 0303 0221 0260 Control Output 06 Control Output 07 Input amp Output Configuration e Assigning the fir
33. ts TB7 TB8 The DELTA DA module is equipped with two giclee bia ge voltage free relay outputs TB7 and TB8 of the NC C NO NC C NO type for connecting circuits used for TET eu gi controlling external equipment such as door amp Multifunction Circuit A hold magnets ventilation fans motors etc see Figure 6 Voltage Free Relay Outputs PET P TEET J F For control of 220V equipment you must ontro hte aon 24V amp Battery Charger CircuitB always use an external auxiliary relay CN3 220VAC Mains 1 2 3 Figure 6 Voltage free relay outputs 2 Brief Description of DELTA DA Monitored Multifunction Output TB5 RS232 RAEE Output The DELTA DA module is also equipped with SENATA N used as a monitored Multifunction output TB5 which e bus FZV Sand r you can configure for connecting amp HDFA Circuit X 9 a Detector r 2 Fi A monitored alarm circuit usually used Loops Konior Ouipati1 for sounder circuits or Monitored Out ts l Sites E Detector E A conventional detector loop or Voltage FreeGN Relay Outputs 12V amp Temp Sensor 24V amp Battery Charger 220VAC Mains 123 4 A C NO voltage free control circuit Conventional Detector Circuit 1 The sounder and the detector circuits are Control aie monitored for breaks and short circuits using a lo A it X sic Ls as 6k8 end of line resistor and internal electronic Voltage Free fuses Control Circuit 1 C NO
34. var 26 Your Comments about Delta DA ccccccc cece seccnsece aa a aaa 26 Makea NOG a ete a ee ee en 26 1 Welcome 1 Welcome Congratulations on your purchase of the DELTA DA module a new and cost effective detection and alarm module developed to facilitate the decentralisation of the fire alarm installation across the protected area The DELTA DA module now gives you the possibility of splitting up the conventional large fire cabinets with loop cards batteries terminal blocks etc into several small easily concealed decentralised modules At the same time you can operate the whole fire alarm system from the attractive DELTA OP panel About this Manual This manual has been written with the intention of giving users of DELTA DA B the technical information required for using the new module User manual this manual i es aT i halet E a l 2i Installation Guide S Take a look at the table of contents to familiarise yourself with the booklet We have also emphasised the use of images and graphics to make the book easy and interesting to read Glossary and Abbreviations If you wonder what certain words expressions or abbreviations in our publications mean technical terms please visit our site on the Internet to download the freshest version of booklets such as Glossary Base Terminology Fire Alarm Systems and similar publications The booklets explain technical terms used in
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