aldor ecotecLtd.
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1. 10 Direction out double loop only White Black Red 11 Vin 15 30VDC White Brown 12 Vin COM White Red 13 In 4 double loop only White Orange 14 Amp 1 double loop only White Yellow 15 White Green 16 d com White Blue 17 Black White Green 18 Analog 1 White Gray 19 Analog 2 White Black Yellow 20 Analog 3 White Black 21 12Vcom S G White Pink 22 White Black Blue 23 Com Relays White Black Brown 24 White Black Orange Note to be determined by DIP SWITCH No 5 MG CMS amp HWS Technical Description MN 0017 45569 A Page 14 of 48 V 8 Z10 8Z6 G0 0N 29 0296 9 soozigizz NOISdQ 5002 8 22 9713134 S HLSVY3 JHL qu suan 5 09 jo 4equinN S V xn j jo 2 Jo 8 D4 y buonuodoug sean s peonpu 4 W 3 941 NOILVaadO NOISHSA Fig 1 M A D Principle of Operation MN 0017 45569 A MG CMS amp HWS Technical Description Page 15 of 48 suas Gunay para 000 Os8V9LL N ane v 96100 4000 aQ pubis uoisnaju MO JO dnydI4 doo uonoejag alqes uosues se qpo Josuas y A uosuag V2. 11 Test f nCtlofi eis e eet fte e C P eve op P ones 12 3 2 6 Power Requirement sss 12 3 2 7 Communication Unit ssssssseeeee 13 3 2 7 1C M S Configuration 13 3 2 7 2H W S Configuration 13 4 FU Alarm Output COM4000 System Inputs 22 4 1 C M S Configuration Single Loop Or Poles 22 4 2 C M S Configuration Double Loop 26 5 Default Processing Parameter for each channel A amp B 30 6 Detection Sensitivity 31 6 1 CMS system sess 31 6 1 1 Event seen 31 6 1 2 Threshold Level seen 32 6 1 3 Time Windows Remote Control only 33 6 2 HWS 34 6 2 1 Event Counting User definition amp adaptive 34 6 1 1 Threshold Level User definition amp Adaptive 35 6 1 3 Time Windows User definition only 36 7 CMS Address sess 37 7 1CMS 85485 37 7 2CMS Delta Modulation 38 i Test th t es ee 41 8 1Test Unit Type 1 750120 and Test Unit 1 750140 41 9 Test Command _ 43 9 1 5 S SUC ats s Adi memos mb
3. First Address on the Seconded Address Dip switch Address 1 2 3 4 5 0 0 O 0 0 0 31 1 1 0 0 0 0 32 2 0 1 0 0 0 33 3 1 1 0 0 0 34 4 0 0 1 0 0 35 5 1 0 1 0 0 36 6 0 1 1 0 0 37 7 1 1 1 0 0 38 8 0 0 0 1 0 39 9 1 0 0 1 0 40 10 0 1 0 1 0 41 11 1 1 0 1 0 42 12 010 1 1 0 43 13 0 1 1 0 44 14 0 1 1 1 0 45 15 1 1 1 1 0 46 16 010 0 0 1 47 17 1 0 0 0 1 48 18 0 1 0 1 0 49 19 1 1 0 0 1 50 20 010 1 0 1 51 21 1 0 1 0 1 52 22 0 1 1 0 1 53 23 1 1 1 0 1 54 MG CMS amp HWS Technical Description MN 0017 45569 A Page 37 of 48 24 0 0 0 1 1 23 25 110 0 I 56 26 0 1 0 1 57 27 1 1 0 1 58 28 0 0 1 1 1 59 29 110 1 1 60 30 0 1 1 1 61 Table 16 FU address setup CMS Delta Modulation communication Each FU has two 2 addresses First address and Second Address First address is selected by the user via Dip switch located on top of the Field Unit The address will be defined by 6 switches 1 6 in binary code to give total of 64 addresses 000 up to 064 The Second Address calculates automatically by the FU by adding 64 to the First address total sum of 64 addresses 063 up to 127 The following table shows for each one of the First address its Dip switch setup and the automatically value of Second Address First Address on th
4. PVC insulation with dielectric strength of 1000V between conductors and steel tape Protected by double galvanized steel tape thickness of 0 3 mm with 100 coverage Insulation between cores and armored 50 M ohms Insulation between armored and ground min 20M ohms when immersed in water MG CMS amp HWS Technical Description MN 0017 45569 A Page 44 of 48 The detection loops are constructed in sub loops The typical sub loops dimension is 5 m in length by 1 2 m width The entire loop which it is constructed in sub loops is Max 660 m For example for a loop of 660 m the number of sub loops will be 132 which it is an even number of sub loops The total length of cable for 660 m loops s length will be about 3600 The length of sub loops can be shorter or longer with respect to the electromagnetic environment Data amp Power Cable The data amp Power cable is multi core armored cable connecting all Field Units to the central control unit The data amp Power cable functions are Carrying signals between Field Units and control center Supplying DC power to Field Units Providing data in between Field Units Providing common ground network for data connection in between Field Units The data amp Power cable size is designed to meet system configuration requirements for HWS configuration or CMS configuration With HWS configuration the number of required wires is 2N 8 when N is the num
5. 30 Table 10 Minimum Event Counting Remote Control Outputs eese 3l Table 11 Minimum Threshold Level Remote Control Outputs for Com4000XP 32 Table 12 Time Windows Remote Control Outputs 33 Table 13 Minimum Event Counting Dip Switch setup HWS 34 Table 14 Minimum Threshold Level Dip Switch setup HWS 35 Table 15 Time Windows Dip Switch setup HWS sess 36 Table EU address Setup ess eot e E ass sang xeu va Desks etse Rey si aeo 38 Table FEU Address setups ee esser etra ert oo els tecta ho e P etr 40 List of drawings Fig 1 M A D Principle of Operatori cruce i e ee x antea ba 15 Fig 2 Crossing of Detection Loop by ferromagnetic 16 Fig 3 The principle of signal cancellation due to a global change of magnetic field 17 Fig 4 Double Loop Configuration suse deem cet cia Rake b alacant a ertt 18 Fig S5 System Configuration ci erem enc eere o e Eee HR FER e E nc 19 Fig 6 Multigard 2000 Field Unit HWS configuration een 20 Fig 7 Multigard 2000 Field Unit CMS configuration een 21 Fig 8 Typical Laboratory Test Unit and Field Unit Test 4 MG CMS amp HWS Technical Description MN 0017 45569 A Page 4 of 48 1 General The Multigard system is a
6. 43 9 2HWS SV SECM Rca tubas Fu dtp Pula fU 43 10 Housing and Connection Receptacle 44 11 Detection 00 5 7 j sse 44 11 Detection Loops 1 eee 44 12 Data amp Power 45 MG CMS amp HWS Technical Description MN 0017 45569 A Page 2 of 48 13 Command and Control Center 46 14 Inhibitor eee nev 48 15 Maintenance 48 MG CMS amp HWS Technical Description MN 0017 45569 A Page 3 of 48 List of Tables Table 1 COM4000XP Input object for the FU outputs Single Loop Or 22 Table 2 COM4000XP Inputs Description for the FU outputs Single Loop Or Poles 23 Table 3 COM4000XP Output object for the FU Inputs eeeeeeeeeem 24 Table 4 COM4000XP outputs Description for the FU Inputs 25 Table 5 COM4000XP Input object for the FU outputs Double Loop 26 Table 6 COM4000XP Inputs Description for the FU outputs Double 27 Table 7 COM4000XP Output object for the FU Inputs eee 28 Table 8 COM4000XP outputs Description for the FU Inputs 29 Table 9 Parametet msns seme ix ora dfe xU E
7. 3 OFF ON 4 ON ON Low Sensitivity Channel 3 XXXTI XXXT2 Event Level Second Address Second Address 1 OFF OFF High Sensitivity 2 ON OFF 3 OFF ON 4 ON ON Low Sensitivity Table 11 Minimum Threshold Level Remote Control Outputs for Com4000XP MG CMS amp HWS Technical Description MN 0017 45569 A Page 32 of 48 1 3 Time Windows Remote Control only The Time Windows is a parameter that define to the microcontroller the life cycle of an event for counting purpose The user can select the required time windows by setup one of the COMA000 output With this output the user will control from remote witch one of the two 2 time windows is active the selection is between 6 sec up to 9 sec and will set it on the two channels channels 1 2 amp 3 XXXT3 Time WINDOWS Second Address 6sec Low Sensitivity ON 9sec High Sensitivity OFF Table 12 Time Windows Remote Control Outputs MG CMS amp HWS Technical Description MN 0017 45569 A Page 33 of 48 6 2 HWS system set up Detection parameters and sensitivity control in HWS configuration is done by a DIP switch located on top of the Field Unit The functions are as follow 6 2 1 Event Counting User definition amp adaptive The event counting parameter defines how many legal events see table 13 will be required in the time windows to create an alarm The user can select the minimum Event counting by setup one of the DIP
8. Plad BZSUGop u3403 241 Lro OLLANSVIAWONHSHdd AO ONISSOHO Crossing of Detection Loop by ferromagnetic object Fig2 MN 0017 45569 A MG CMS amp HWS Technical Description Page 16 of 48 e 0002 QHV9LL IW rmm on anoo b 823 T ws NI SdOO1 8hsS Tv N3HM 2001 815 sdoo qng jo u9 3 Ag jeubis 0713134 DILANSVW 1V8019 30 39NVHOD V Fig 3 The principle of signal cancellation due to a global change of magnetic field MN 0017 45569 A MG CMS amp HWS Technical Description Page 17 of 48 Sio NOLLWTTLSNI 2007 manot SNCWLISNNOD on 2330996 15 4007 3 1gnod We LELOO 2000 00 ON SNIMYS 00080 VIH3A 002030 137339 ejqe Josues 006 2 Jo 219 peau i uugoo c Jo uiejs s y 104 Ag uejs s jenje eui uonoiidninur Aq eq i Wa shs doo ajqnop ujBua ejqeo Josuas eu we up doo wp si ujDuej doojgns jj NOILV1021V2 HLON31 3 18V2 HOSN3S 7T HION3 ud aoogns 0081 i HIKE doo 22900000 9 9007 9007 AG gaAcuHddw Fig 4 Double Loop Configuration MN 0017 45569 A MG CMS
9. amp HWS Technical Description Page 18 of 48 NOLLVHNDIANOS dOO 1 318NOd SMH unos paja Ssgug on 291098 Jopreg T3NVd AV ldSIQ lOHINOO daZzINOLSNS SMH 318VO VIVO H3MOd vOINDININOS ODOFINO 40 H3ZATINV HOSSSOONHdOMWO N Ss HO Yaz A INS SO TWN Hall THNNVHO doo 1 NO INA LNO AVCTSSENOLLVOINDININOO Sev MOSHVH Dt 47139 doo7 doo System Configuration Fig 5 MN 0017 45569 A MG CMS amp HWS Technical Description Page 19 of 48 V 9 2L0 LO06 Qd ON SNIMVHO suay GUNAY soozerrz vanhaa NSIS3Q NOILVUNSIANOD SM 9002 89 WN INMWHO LINA 31V 0002 Q3 vo5lLL1nIN NOJ a Q OQ JlOH LNOO 3ALLISN3IS Z H LIMS z L 3 z m C CU GNVINPION 1591 1OHINOQ ALIALLISNES sony do meee T 5 27 TI 4 K l e p Seay z Sid 0u1NOO SOTWNY sum IN2A3 AUAWUISNSS MAYMAY ALLO313S 24001 22001 NOISH3A alva SMHVIN3H Fig 6 Multigard 2000 Field Unit HWS configuration MG CMS amp HWS Technical Description 45569 A 0017 MN
10. yw seoie Aue pue sjnduj pue sjndino mz 2009 jueld uoisnau uang H EA Bel L Ol avoson VIOYOLOW PIEDINI Jo pue SVIW Ov Le1eq Aud Bunun jeuonue uo 8NeMOJOIAJZHINOOG ZHINO08 JHn AHA Suondo 44 S32VJ83 1NI 000t INOO QvOSON V IOHOLOI p juswaBbeueyy y Twidas OL asn eur euoudeje pieg eunjdez o8piA SH ul O9plA 9J8 oS dX S opulM 000t INOO LHANOZ uuBpy MG CMS amp HWS Technical Description MN 0017 45569 A Page 47 of 48 14 Inhibitor The inhibitor unit have a single detection channel which is identical to the FU detection channel enable the inhibitor with special loop to pick up electrical or magnetic disturbing signals coming from the global environment When interference is detected by the inhibitor it temporarily disables all alarm channels for two seconds thus preventing a false alarm The inhibitor can be linked to the system at any point along the data cable The inhibitor can be controlled from the central to define sensitivity and mod of operation as FU through the Com 4000 XP transponder The inhibitor is required only in a large system It s location depends on the geographical condition in general one inhibitor covers about 5
11. 5 aldor 5 ecotec a Integrated Security systems ultigary UNDERGROUND PASSIVE MAGNETIC DETECTION SYSTEM CMS amp HWS CONFIGURATION WITH ADAPTIVE SENSITIVITY TECHNICAL DESCRIPTION The material in this document is proprietary information of Galdor Secotec Ltd The information may not be copied or used in any manner The document is submitted to the recipient for his use only By receiving this document the recipient undertakes not to duplicate the document or to disclose in a part of or the whole of any of the information or ideas contained herein to any third party without receiving beforehand written permission from Galdor Secotec Ltd MN 0017 45569 A Galdor Secotec Ltd January 2006 Page 1 of 48 Contents List OF reete e eret e 4 List of 5 sees 4 T2 General c cote cate MM 5 2 Principle of sss 8 3 System 9 3 1Detection System ua aote Nest Phe o NUS te 9 3 2General Description of Detection System 9 3 2 1 Double loop essere nennen 9 3 2 2 Single Loop Pole sss 9 3 2 3 Analog amplifier and analog signal processing 10 3 2 4 EMI Protection Unit 11 3 2 5 Signal processing and setup function description 11 3 2 5 1Threshold Level Control 11 3 2 5 2Event Counting 11 3 2 5 3Time Windows
12. FU Inputs e The is the COM4000XP communication plug in prefix e The Y represents the number of the Interface card e The A is the Interface communication channel can be A or B e First 3 digits xxx indicate the address of controller first or second address e The T digit is a constant of Output object e The Z digit indicates the Output No 1 to 8 MG CMS amp HWS Technical Description MN 0017 45569 A Page 24 of 48 The following are the different COM4000 System Outputs for Single Loop Or Poles system Controller Inputs Description Com 4000 COM4000 Outputs Event Address First Address Non optional objects 1 Event Counting Channel 1 1 1 2 Event Counting Channel 2 GIAXXXT2 3 Event Counting Channel 3 GIAXXXT3 4 Threshold Level Channel 1 Bit 0 4 5 Threshold Level Channel 1 Bit 1 GIAXXXTS 6 Test Command GIAXXXT6 Momentary activated 7 Threshold Level Channel 2 Bit 0 GIAXXXT7 8 Threshold Level Channel 2 Bit 1 GIAXXXTS Second address optional objects 1 Threshold Level Channel 3 Bit 0 GIAXXXTI 2 Threshold Level Channel 3 Bit 1 GIAXXXT2 3 Time Windows GIAXXXT3 4 Local output 1 GIAXXXT4 5 Local output 2 5 6 Local output 3 GIAXXXTO 7 Notin use 7 8 Reset Adaptive mechanism GIAXXXTS8 Table 4 COM4000XP outputs Description for the FU Inputs MG CMS amp
13. Will be transmitted from COM4000XP software via the COM4000 CMS communication to the Multigard FU The Multigard FU uses 2 addresses for each controller First Address is selected by the user via the dipswitch and the Second address calculate automatically by the controller Second address first address 31 The address of each alarm event will be as following G Y A x X X T Z Plug in Interface Comm Controller Always Output Number Channel Address T Number 1 2 N A or B 000 001 002 for 1 8 output Table 7 COM4000XP Output object for the FU Inputs e The G is the COM4000XP communication plug in prefix e The Y represents the number of the Interface card e The A is the Interface communication channel can be A or B e First 3 digits xxx indicate the address of controller first or second address e The T digit is a constant of Output object e The Z digit indicates the Output No 1 to 8 MG CMS amp HWS Technical Description MN 0017 45569 A Page 28 of 48 The following are the different COM4000 System Outputs for Double Loop system Controller Inputs Description Com 4000 COM4000 Outputs Event Address First Address Non optional objects 1 Event Counting Channel 1 2 Event Counting Channel 2 GIAXXXT2 3 Event Counting Channel 3 GIAXXXT3 4 Threshold Level Channel 1 B
14. switch for each one of the channel individually The Adaptive Event Counting mechanism will setup automatically the optimum Event Counting Sensitivity considering the User choice and the System environment noise Channel 1 2 3 Switch no 1 Event Counting on the DIP switch 2 High Sensitivity OFF 3 Low Sensitivity ON Table 13 Minimum Event Counting Dip Switch setup HWS MG CMS amp HWS Technical Description MN 0017 45569 A Page 34 of 48 6 2 2 Threshold Level User definition amp Adaptive The user can select locally at each FU the minimum Threshold level by setup Combination of two 2 Dip switch No 4 amp No 5 this two 2 Dip Switches control all three 3 channels simultaneously The Adaptive Threshold Level mechanism will setup automatically for each channel individually the optimum Threshold Level Sensitivity considering the User initial set up and the System environment noise Channel 1 Switch no 2 Switch no 3 Event Level on the DIP switch on the DIP switch 1 OFF OFF High Sensitivity 2 ON OFF 3 OFF ON 4 ON ON Low Sensitivity Channel 2 Switch no 4 Switch no 5 Event Level on the DIP switch on the DIP switch 1 OFF OFF High Sensitivity 2 ON OFF 3 OFF ON 4 ON ON Low Sensitivity Channel 3 Switch no 6 Switch no 7 Event Level on the DIP switch on the DIP switch 1 High Sensitivity 2 ON OFF 3 OFF ON 4
15. unique technology that was developed for the Israel Defense Forces to counter terrorist infiltration since the 1970 s The original models and the updated state of the art today s version system have been installed at public and private sites in Israel and many countries all over the world The idea of the development was to have an underground sensor which will be based on the following requirements Concealed system Passive system Suitable to all ground and weather conditions With minimum false alarms due to environment conditions With 100 probability of detection for an armed intruder Since the 1970 s the system technology was continuously developed to have better sensitivity reliability and modern communication Multigard 2000 system is the latest model comprising all proven feature with a stated of the art of signal processing and communication The product includes all improvements to meet CE standard to improve the immunity of the Field Unit and communication hardware to meet the requirement of EMC Electro Magnetic Compatibility directive The outstanding system features are as following Full concealed and passive Rugged steel armored sensor cable and Rugged Field Unit that meets all severe conditions for under ground installation Effective operation under any type of ground concrete asphalt roads runways vegetation between trees and even under water snow and ice Effective ope
16. 2 Momentary activated 3 Intrusion Alarm 3 3 Momentary activated 4 Fault Amp 1 GIAXXX 4 Constant alarm 5 Fault Amp 2 GIAXXX 5 Constant alarm MG CMS amp HWS Technical Description MN 0017 45569 A Page 26 of 48 6 Fault Amp 3 G1AXXX6 Constant alarm 7 Direction In GIAXXX 7 Momentary activated 8 Direction Out 8 Momentary activated Second address optional objects 1 Adaptive Level status channel 1 bit 0 GIAXXX 1 2 Adaptive Level status channel 1 bit 1 GIAXXX 2 3 Adaptive Level status channel 2 bit 0 GIAXXX 3 4 Adaptive Level status channel 2 bit 1 GIAXXX 4 5 Adaptive Level status channel 3 bit 0 GIAXXX 5 6 Adaptive Level status channel 3 bit 1 GIAXXX 6 7 Lighting indication of Inhibiting due to a 7 simultaneous Pulse in detection channels 8 Lighting 5 indication of Inhibiting 5 times 8 due to a simultaneous in the last 5 mints Table 6 COM4000XP Inputs Description for the FU outputs Double Loop NOTE All second address inputs are use for reporting status of adaptive sensitivity This address will be use only for the optional system logic MG CMS amp HWS Technical Description MN 0017 45569 A Page 27 of 48 Controller Inputs COM4000 System Outputs Double Loop All COM4000 Outputs including remote sensitivity control System Test and Aux outputs
17. HWS Field Unit The test generator will generates an electromagnetic signal which is induced to the sensor cable to check the integrity of the whole system starting with the sensor cable through the analog amplifier digital signal processing and the alarm relay MG CMS amp HWS Technical Description MN 0017 45569 A Page 43 of 48 11 Housing and Connection Receptacle The housing of Field Unit is made of reinforce polyurethane plastic Container cover and screws all made of plastic The housing is waterproof and 10046 corrosion resistance On top of the Field Unit there are three receptacles as following Seven pins receptacle to connect three detection loops Twenty four pins receptacle to connect HWSdata cable and or a dedicated Test Unit for operating and setting up the Field Unit Seven pins receptacle to connect COM 4000XP communication line CMS Delta Modulation only The two receptacles for sensor cable Test Unit functions and housing are identical for CMS and HWS Field Unit Detection Loops The loops enable pickup low level electrical intrusion signals to be detected by the Field Unit The loop cable generally is an armored cable for underground installation The cable is used in a high degree of mechanical protection and flexible to be installed directly into the ground The loop resistance should be less than 80 The typical cable technical requirements are as follow High conductive copper wire
18. HWS Technical Description MN 0017 45569 A Page 25 of 48 4 2C M S Configuration Double Loop All intrusion alarm including electronic fault sensor fault and Low Voltage will be transmitted by the COM 4000 CMS communication to be presented on the color graphic display and or on event table and will be integrated with other Systems like CCTV system amp Access control The Multigard FU uses 2 groups of addresses for each controller First address for the first group is set up by the user via the dipswitch and the Second address for the second group are calculate automatically by the controller Second address first address 31 The address of each alarm event will be as following G Y A x x X Z Plug in Interface Comm Controller Input Number Channel Address Number 1 2 N Aor B 000 001 002 1 8 Table 5 COM4000XP Input object for the FU outputs Double Loop The G is the COM4000XP communication plug in prefix The Y represents the number of the Interface card The A is the Interface communication channel can be A or B First 3 digits xxx indicate the address of controller first or second address e The Z digit indicates the Input No 1 to 8 Controller Alarm output Description Com 4000 Event Address First Address Non optional objects 1 Intrusion Alarm 1 GIAXXX 1 Momentary activated 2 Intrusion Alarm 2
19. ON ON Low Sensitivity Table 14 Minimum Threshold Level Dip Switch setup HWS MG CMS amp HWS Technical Description MN 0017 45569 A Page 35 of 48 6 2 3 Time Windows User definition only The Time Windows is a parameter that define to the microcontroller the life cycle of an event for counting purpose The user can select the required time windows by setup one of the Dip switch With this Dip switch the user will control witch one of the two 2 time windows is active the selection is between 6 sec up to 9 sec and will set it on the two channels channels 1 2 amp 3 Switch no 8 Time WINDOWS on the DIP switch 6sec Low Sensitivity ON Osec High Sensitivity OFF Table 15 Time Windows Dip Switch setup HWS MG CMS amp HWS Technical Description MN 0017 45569 A Page 36 of 48 7 CMS Address 7 1 CMS RS485 communication Each FU has two 2 addresses First address and Second Address First address is selected by the user via Dip switch located on top of the Field Unit The address will be defined by 5 switches 1 5 in binary code to give total of 31 addresses 000 up to 030 The Second Address calculates automatically by the FU by adding 32 to the First address total sum of 31 addresses 031 up to 061 The following table shows for each one of the First address its Dip switch setup and the automatically value of Second Address
20. Page 20 of 48 V 4 210 1006 Q0 ON swarshy 98JOIBE JOPIEE soozieive vonesA NOIS3d NOILV3n9IJ3NOO SW 5 0 8 ILYN LINN 91313 31Vd awn 0002 Q3 v9LL1nIN TOYLNOOD ss3sa0y HOLIMS dlg INN NOILYHNAONACS 0005702 T19SrUZl Sindlino S3NO2 Nj SNISS3OOHd NS WLISIG HOSS3O9OSdOHOIIN dN 135 YIMOd JINON uaMod 20 90 NOILLO3 LO3d 4007 z 3 1 NO123108d N as ns LHO i 2 3s 1 soins NO1931084 idi ZHHO ONVAWOS 1581 3 OYINOD ALIATLISNSS 4 z Sois NOLO210Nd 2 Sind TONINOO TOULNOD TWNSIS DOWNY 1NSAS ALALUSNES OTOHSSSHL JYJY ALORS doo1 24001 NOISH3A SxMHVIASH 10n d 2000 Field Unit CMS configurat igar Mult Fig 7 MN 0017 45569 A MG CMS amp HWS Technical Description Page 21 of 48 4 FU Alarm Output COM4000 System Inputs 4 1C M S Configuration Single Loop Or Poles All alarms including intrusion alarm electronic fault sensor fault and Low Voltage will be transmitted by the COM 4000 CMS communication to be presented on the color graphic display and or on event table and will be integrated with other Systems like CCTV system amp Access control sy
21. U120 loop poles CMS or HWS configuration Software for Computerized Test Unit for Double loop IMTSU140 CMS or HWS configuration MG CMS amp HWS Technical Description MN 0017 45569 A Page 6 of 48 The Detection Loops and or poles which are connected to the Field Unit detection channels can be in three configurations e Single Loop each single Detection Loop connected to one Field Unit detection channel to create alarm zone e Single Poles each single Line Detection Pole connected to one Field Unit detection channel to create alarm zone Double Loop each Two Detection Loops connected to two Field Unit detection channels to create alarm zone MG CMS amp HWS Technical Description MN 0017 45569 A Page 7 of 48 2 Principle of Operation The Multigard 2000 detection system based on Magnetic Anomaly Detection M A D principle Fig 1 Fig 2 The earth s magnetic field as an outstanding natural phenomenon allows the unique electronics of Multigard system to sense the change of Earth s magnetic field due to a movement of ferro magnetic objects crossing sensor cable loops installed underground M A D permits Multigard system to sense the signal from sensor cable loops without any additional power except the signal that are generated in the loops due to M A D principle Therefore the sensor cable loops are completely passive except when M A D principle is activated by crossing the loops with Ferro magnetic o
22. ber of zones With CMS configuration the number of wires required is 8 for any number of zones Size of data cable is optimized according to the amount of Field Units length of Zones distance from control center and power supply voltage MG CMS amp HWS Technical Description MN 0017 45569 A Page 45 of 48 Command and Control Center The type of command and control center is effected by several basic factors that must be taken into consideration among those are The total length of the actual project The number of alarm zones The distance of control room from the protected line The necessary of integration of other detection and warning alarm devices The necessary to have a second alarm control center and automatic response to alarms The two main system configuration concepts are HWS configuration CMS RS485 configuration and CMS Delta Modulation configuration HWS Control Center Configuration In HWS configuration the relay output coming from the HWS Field Unit can be interfaced with any standard alarm panel that can accept dry contact alarm relays and suitable to accept outdoor detectors In case of a system where the distance of control room is above 200 m a special interface HWS communication unit have to be added to prevent false alarms from any EMI disturbance coming from data cable eCMS Control Center Configuration The Multigard 2000 CMS configuration is based on Com 4000 XP system the comp
23. bject M A D permits Multigard 2000 system to distinguish between actual intruders and stray animals birds winds heavy rain fog snow ice sand storm and other bad weather conditions which generally trigger other intrusion systems The unique electronics allows Multigard system to sense small signal in the level of nano volts coming from sensor loop due to M A D principle The Multigard system essentially consists three major units Detection System Field Unit and Detection Loops Data and power Cable Command amp control center MG CMS amp HWS Technical Description MN 0017 45569 A Page 8 of 48 3 System Description 3 3 1 Detection System The detection system consist of 2 main units Field Unit FU Detection Loops 3 2 General Description of Detection System The FU is the heart of Multigard 2000 system Each FU controls three detection channels as follows 3 2 1 Double loop configuration The detection loop is arranged in a structure consist an even number of sub loops and staggered Fig 4 to have overlap in between each two detection loops A system consist single FU with three detection loops will create a detection system of two zones and multiple FU s will create a three zone out of each FU 3 2 2 Single Loop Pole configuration A single FU with three detection loops will create a detection system of three zones A series of FU s and detection loops in modular construction can create a lo
24. d Unit and the computerized center The COM4000XP system is the alarm control and the command center for Multigard system The C M S configuration classified according to the type of the communication as follows RS485 Communication All data transmit or receive is via twisted and shielded pair of wires data line Each RS485 communication channel can hold up to 30 FU With the distance of up to 2 4 Km with the dependency on the number of FU on the Communication line with additional COM4000 RS 485 Repeaters units the distance can be much longer Delta Modulation All data transmit or receive is via two pairs of twisted shielded wires the data line Each Delta Modulation communication channel can hold up to 64 FU With the distance of up to 10 Km with Repeater the distance can be much longer H W S Configuration The HWS configuration is based on a direct connection between each one of the alarm outputs to a customized control center The connection is done via relay contact and multi core communication cable MG CMS amp HWS Technical Description MN 0017 45569 A Page 13 of 48 Multigard 2000 HWS Data Line Connector Functions Pin No Function Wire color 1 Zone 1 or loop 1 Brown 2 Zone 2 or loop 2 Red 3 Zone 3 or loop 3 Orange 4 System fail Yellow 5 TXD to Test Unit Green 6 RXD from Test Unit Blue 7 5 Violet 8 Test command Gray 9 Direction in double loop only White
25. d address optional objects 1 Adaptive Level status channel 1 bit 0 GIAXXX 1 2 Adaptive Level status channel 1 bit 1 2 3 Adaptive Level status channel 2 bit 0 GIAXXX 3 4 Adaptive Level status channel 2 bit 1 GIAXXX 4 5 Adaptive Level status channel 3 bit 0 GIAXXX 5 6 Adaptive Level status channel 3 bit 1 GIAXXX 6 7 Lighting indication of Inhibiting due to a 7 simultaneous Pulse in detection channels 8 Lighting 5 indication of Inhibiting 5 times 8 due to a simultaneous in the last 5 mints Table 2 COM4000XP Inputs Description for the FU outputs Single Loop Or Poles NOTE All second address inputs are use for reporting status of adaptive sensitivity This address will be use only for the optional system logic MG CMS amp HWS Technical Description MN 0017 45569 A Page 23 of 48 COM4000 System Outputs Single Loop Or Poles all COM4000 outputs are used for remote sensitivity system including Test command and Aux outputs The outputs are transmitted from the COM4000XP software at the control center PC to each one of the system Field Units The address of each alarm event will be as following G Y A X X X T Z Plug in Interface Comm Controller Always Input Number Channel Address T Number 1 2 N A or B 000 001 002 for 1 8 output Table 3 COM4000XP Output object for the
26. e Dip switch Seconded Address Address 12 3 4 5 6 0 0 0 O 0 0 0 64 1 110 O 0 0 0 65 2 0110 0 0 0 66 3 1 1 O 0 0 0 67 4 0101 0 0 0 68 5 1101 0 0 10 69 6 0 1 1 0 0 0 70 7 1 1 1 0 0 0 71 8 0 0 0 1 0 0 72 9 110 O 1 0 0 73 MG CMS amp HWS Technical Description MN 0017 45569 A Page 38 of 48 Page 39 of 48 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 MN 0017 45569 A MG CMS amp HWS Technical Description 50 0 1 O 0 l 114 51 1 1 O 0 1 115 22 010 1 0 1 1 116 53 1 0 1 0 1 117 54 Oj 1 1 0 1 118 55 1 1 1 0 1 119 56 0 0 O 1 1 120 57 1 0 O 1 1 1 121 58 0110 1 1 1 122 59 1 10 1 1 1 123 60 0 1 20s 01 1 1 124 61 1 0 1 1 1 125 62 Oj 1 1 1 1 126 63 1 1 1 1 1 1 127 Table 17 FU address setup MG CMS amp HWS Technical Description MN 0017 45569 A Page 40 of 48 20 Test Un
27. et the adaptive sensitivity mechanism to Max sensitivity e Test unit screen snapshot manually or by setup automatic trigger e Template download to Field Unit Microprocessor of predefine detection parameters e Select operation mode and setup the automatic sensitivity Field Unit behavior For more information see MN 0522 45570 A IMTSU120 Multigard software test unit manual MG CMS amp HWS Technical Description MN 0017 45569 A Page 42 of 48 9 Test Command 9 1 9 2 CMS system The Multigard system have manual test function The operator can activate the test command from the COM4000XP by turning on and than turning off output XXXT6 of the First address As result to the Turning OFF the output XXXT6 the FU will receive command to activate Test Routine through the data communication and a test will generate by a test mechanism which is located in each one of the Field Units or to individual Field Unit This test mechanism generates an electromagnetic signal which is induced to the sensor cable to check the integrity of the whole system starting with the sensor cable through the analog amplifier digital signal processing communication interface communication line up to the display HWS system The activation of test command in HWS system is done by the operator using momentary switch to shorten two wires of the data cable The data common wire and the test command wire coming separately from each one of the
28. face communication line up to the display 3 2 6 Power Requirement In order to give a design flexibility for optimize power cable size The Field Unit operate from 18VDC up to 30VDC Vin an optional 18 72VDC Which include Surge and Burst Protection The power supply should be CE Standard quality with batteries power backup The total power required is less than 1 5 watt for three channels field unit power required can become different depending on the type of the FU HWS CMS 485 or CMS Delta Modulation The Field Unit power supply is converted by the internal DC to DC power unit into 12VDC and 5VDC o The 12VDC is used for the analog amplifier and analog signal processing units Between the Vin and the internal 12VDC there is a ground separation This feature is achieved by the DC to DC power unit o The 5VDC is used for the microprocessor digital analyzer unit MG CMS amp HWS Technical Description MN 0017 45569 A Page 12 of 48 3 2 7 Communication Unit The Field Units are classified according to the type of the communication units Field Units with computerized multiplex communication unit is defined as CMS configuration Field Units with relay outputs hardwire communication unit is defined as HWS configuration 3 2 7 1 C M S Configuration The CMS configuration is based on integration between Multigard Field Unit and COM4000 communication module The module conducts the multiplex communication between the Fiel
29. fier This function is a unique electronic circuit with ultra low noise features enable to pick up from the detection loop a signal of a few Nanovolt Adaptive threshold Control This function selects remotely and automatically the threshold signal level which above it will create an event pulse to be processed by the microprocessor MG CMS amp HWS Technical Description MN 0017 45569 A Page 10 of 48 Ge Ge 2 4 EMI Protection Unit This unit is a combination of a shielded housing and filtering elements which are encapsulated together to protect the three analog amplifiers and analog signal processing units This unit protects the three analog channels from any direct EMI signal received directly into the analog channels to prevent false alarm 2 5 Signal processing and setup function description The function of the Digital Signal Processing unit is to process all signals coming from the analog channel and to distinguish between true and false alarms created in the Field Unit The digital Signal Processing unit designed to have smart sensitivity auto calibration The Signal processing mechanism will probe continually the sensor field condition and adjust it self to the optimum sensitivity 3 2 5 1 Threshold Level Control A combination of remote Threshold Level control and the Adaptive Threshold Level mechanism give the user the ability to control the minimum Threshold Level for each channel separately The Adaptive Thresho
30. it In order to set up the controller to the desired sensitivity a dedicated computerized test unit Type IMTSU120 software will be use for single loop poles system configuration and Type IMTSU140 software for double loop system configuration 8 1 Test Unit Type IMTSU120 and Test Unit Type IMTSU140 by connecting the Test Unit PC serial port to the Field Unit data connector on the connection box enable the user to measure analyze and set up the sensitivity and operation function of all types HWS and CMS Multigard Field Units Fig 8 Typical Laboratory Test Unit and Field Unit Test Setup MG CMS amp HWS Technical Description MN 0017 45569 A Page 41 of 48 The Test Unit Software includes three channel Real Time Analog amp Digital Detection signal display which eliminate the need of voltage measuring device such as DVM or scope The Test Unit Software enables the user to operate and or measure the following parameters e Input Voltage Vin e Internal Power Regulator 11 5VDC amp 5 VDC e F U internal Power status indication OK Fault e Analog Detection signals channel 1 2 and 3 e Digital Detection Minimum Maximum channel 1 2 and 3 e Event Pulse channel 1 2 and 3 e Alarm channel 1 2 and 3 e Fault channel 1 2 and 3 e Constant Alarm channel 1 2 and 3 Communication status with the COM4000XP CMS Only e View of legal event information e Adaptive sensitivity status e Activate Test Command e Res
31. it 0 4 5 Threshold Level Channel 1 Bit 1 GIAXXXTS 6 Test Command GIAXXXT6 Momentary activated 7 Threshold Level Channel 2 Bit 0 GIAXXX T7 8 Threshold Level Channel 2 Bit 1 GIAXXXTS Second address optional objects 1 Threshold Level Channel 3 Bit 0 GIAXXXTI 2 Threshold Level Channel 3 Bit 1 GIAXXXT2 3 Time Windows GIAXXXT3 4 Local output 1 4 5 Local output 2 5 6 Local output 3 GIAXXXT6 7 Not in use GIAXXXT7 8 Reset Adaptive mechanism GIAXXXTS Table 8 COMAO000XP outputs Description for the FU Inputs MG CMS amp HWS Technical Description MN 0017 45569 A Page 29 of 48 5 Default Processing Parameter for each channel A amp B Description Value 1 Inhibiting time after alarm 15 sec 2 Acceptable Max Event Pulse width 0 360 sec 3 Acceptable Min Event Pulse width 0 100 sec 4 Event pulse width for Constant Alarm 10 sec and longer output 5 Power up time 80 sec 6 Alarm time 5 sec Table 9 Processing Parameter NOTE all the above parameters can be change by authorized user to meet an actual detection condition by using Galdor computerized test unit amp Setup software MG CMS amp HWS Technical Description MN 0017 45569 A Page 30 of 48 6 Detection Sensitivity Set Up 6 1 CMS system set up 6 1 1 Event Counting Remote Control amp adaptive The event counting parameter defines how many legal events see table 10
32. k m Maintenance Equipment The maintenance of the system is done by a dedicate computerized test unit Type 1MTSU120 or Type IMTSU140 This test unit is PC based All functions and test procedures describe in document MN 0522 45013 C MULTIGARD TEST UNIT USER GUIDE The field maintenance is very simple with minor activity The sensor cable and data cable are grantee for long life Both are armored cables and are immune from rodents and pests The cable can be purchase from local producer according to the local quality standards Inadvertent cutting of the underground cables can be repaired by simple rejoining of cable wire and armored covering it with a potting material All FU s and other electronic units are 100 interchangeable so a faulty unit can be replaced by spare parts Test will be done by the test unit and detection parameter setup is done automatically by the software according to the previous last storage in computer database MG CMS amp HWS Technical Description MN 0017 45569 A Page 48 of 48
33. ld Level mechanism will setup automatically the optimum Threshold Level considering the User selected manual level set up and the System environment noise 3 2 5 2 Event Counting A combination of remote Event Counting control and the Adaptive Event Counting mechanism give the user the ability to control the minimum Event Counting sensitivity for each channel separately The Adaptive Event Counting mechanism will setup automatically the optimum Event Counting Sensitivity considering the User manual event counting set up and the System environment noise 3 2 5 3 Time Windows Selector Remote control only united for the two channels MG CMS amp HWS Technical Description MN 0017 45569 A Page 11 of 48 Test function o Automatic BIT Function The system have an automatic BIT function which covers the following e BIT for the detection unit e BIT for the system and Field Unit power supply e BIT for the communication line and transponder CMS System e BIT for the alarm center CMS System o Manual Test Function The system have manual test actuator located at the control room The operator can activate through the data communication a test generator which is located in each one of the Field Units This test generator generates an electromagnetic signal which is induced to the sensor cable to check the integrity of the whole system starting with the sensor cable through the analog amplifier digital signal processing communication inter
34. ng line of protection divided into alarm zones The out come signals from the FU s will transmit via data cable to be displayed in the control center Field Unit FU Each FU consist the following main sub units Fig 6 Fig 7 Analog amplifier and analog signal processing three units EMI protection unit Microprocessor digital analyzer unit DC DC power unit Communication unit Housing and connection receptacle MG CMS amp HWS Technical Description MN 0017 45569 A Page 9 of 48 Follow the sub unit description 3 2 3 Analog amplifier and analog signal processing The analog amplifiers and analog signal processing unit consist the following functions EMI Protection This protection is an attenuation circuitry which will attenuate any disturbance constant or transient in between frequencies of 20Hz and 1 GHz This attenuation will prevent false alarms signal coming from detection loops Test Stimulator This function is activated by a Test command coming from the microprocessor via the communication line from the control center This function creates electromagnetic signal directly on the detection loop input simulating a real intruder signal which test the entire Multigard 2000 system starting with the integrity of sensor cable through the analog amplifier digital signal processing unit communication interface and communication line up to the alarm display at the control center Selective Ampli
35. ration in mountain Terrain amp underwater installation MG CMS amp HWS Technical Description MN 0017 45569 A Page 5 of 48 Coverage of up to 1000m protection by one Field Unit Microprocessor based signal processing including adaptive sensitivity auto calibrations smart diagnostics tools remote test and customize configuration base on flash memory Multiplex computerized communication by using CMS configuration Modular standard system with coverage of up to 50 km with a single computerized control center In CMS configuration there are two types of communication CMS withRS 485 COM4000 communication Or CMS with Delta Modulation COM4000 communication The following are the standard Field Unit Test Unit software and their types No product type Multigard CMS Field Unit with RS 485 communication and adaptive sensitivity 1 1 three Detection Channels IMFUC303 1 2 two Detection Channels IMFUC302 1 3 Three Detection Channels IMFUC301 Multigard CMS Field Unit with Delta Modulation communication and adaptive sensitivity 1 1 three Detection Channels 203 1 2 Detection Channels IMFUC202 1 3 Three Detection Channels IMFUC201 Multigard HWS Field Unit with Dry contact alarm outputs and adaptive sensitivity 1 4three Detection Channels 1MFUH103 1 5two Detection Channels IMFUHI102 1 6 Three Detection Channels 101 Software for Computerized Test Unit for Single IMTS
36. rehensive computerized security control system The Com 4000 XP is operated on an PC with dedicated software and graphic display The control center receives alarm signals from the communication located in the FU s via the underground communication cable All data transmitted from the FU s and into the FU s are multiplexed into two twisted pairs of wires Delta modulation or one twisted pair of wires for RS 485 COM4000 communication The COM4000XP System have the capabilities to integrate the Multigard System with many other security systems as described in the following diagram MG CMS amp HWS Technical Description MN 0017 45569 A Page 46 of 48 wool ulgjs s 4 ae sat eh SS 59007 eiqnog 26054 Qqo9e said 3ur 000P WOO uiejs s punoJBuepur pue 4 uo 1osuesnin A uonosjeg aur uiojs s uonoosjoq puebainyy aj6ulg 8ur 0007 WOO 10 pue orum Aejdsiq uue v 00400 190 joquog juswebeuey joguo9 51467 Joog E sndnog L C Scl 5 JepuodsueJ uonounr LigpuodsuedL UOREDIUNLUWOD uonejnpoj eed OOOY WOD Ty OF euo 8 oi 5 X apuodsues wy sg OL dn SW
37. stem The Multigard FU uses 2 groups of addresses for each controller First address for the first group is selected by the user via the dipswitch and the Second address for the second group are calculate automatically by the controller Second address first address 31 The address of each alarm event will be as following G Y A X X X Z Plug in Interface Comm Controller Input Number Channel Address Number 1 2 N A or B 000 001 002 1 8 Table 1 COM4000XP Input object for the FU outputs Single Loop Or Poles e The is the COM4000XP communication plug in prefix e The Y represents the number of the Interface card e The A 15 the Interface communication channel can be or B e First 3 digits xxx indicate the address of controller first or second address e The Z digit indicates the Input No 1 to 8 MG CMS amp HWS Technical Description MN 0017 45569 A Page 22 of 48 Controller Alarm output Description Com 4000 Event Address First Address Non optional objects 1 Intrusion Alarm 1 GIAXXX 1 Momentary activated 2 Intrusion Alarm 2 GIAXXX 2 Momentary activated 3 Intrusion Alarm 3 GIAXXX 3 Momentary activated 4 Fault Amp 1 GIAXXX 4 Constant alarm 5 Fault Amp 2 5 Constant alarm 6 Fault Amp 3 GIAXXX6 Constant alarm 7 Technical Fault GIAXXX 7 Constant alarm 8 Not In Use GIAXXX 8 Secon
38. will be required in the time windows to create an alarm The user can select the minimum Event counting by setup one of the COM 4000 output for each one of the channel individually The Adaptive Event Counting mechanism will setup automatically the optimum Event Counting considering the User choice and the System environment noise Channel 1 XXXT1 Event Counting First Address 2 High Sensitivity OFF 3 Low Sensitivity ON Channel 2 XXXT2 Event Counting First Address 2 High Sensitivity OFF 3 Low Sensitivity ON Channel 3 XXXT3 Event Counting First Address 2 High Sensitivity OFF 3 Low Sensitivity ON Table 10 Minimum Event Counting Remote Control Outputs MG CMS amp HWS Technical Description MN 0017 45569 A Page 31 of 48 6 1 2 Threshold Level Remote Control amp Adaptive The user can select remotely the minimum Threshold level by setup Combination of two 2 COM 4000 outputs for each channel individually The Adaptive Threshold Level mechanism will setup automatically the optimum Threshold Level considering the User initial set up and the System environment noise Channel 1 XXXT4 XXXT5 Event Level First Address First Address 1 OFF OFF High Sensitivity 2 ON OFF 3 OFF ON 4 ON ON Low Sensitivity Channel 2 XXXT7 XXXTS Event Level First Address First Address 1 OFF OFF High Sensitivity 2 ON OFF
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