MUPDS-1000 UPDS-2000 MUPDS-3000
Contents
1. sosues Y 1 28 70 piala 21 5 44407 LO3DSO 44 30 SNISSONO A8 Fig 2 Crossing of Detection Loop by ferromagnetic object ea 8 2 oo gt lt e e g S S Alo o 2 29 EE El 4 24 Approved by Yehuda MN 0240 45838 B February 2007 UPDS amp MUPDS CMS amp HWS Field Controllers Page 37 of 41 V P6 10 6100 QQ ON SNIMVEG 10808 Gxwotssa 20808 Eoo NOISH3A 31va SISAS S NOIL2313G 0 82 gt 1vn03 NI 54001 ans N3HM A8 of magnetic field ea E amp oo un gt lt e S Alo ke o 2 20 E E Al Approved by Yehuda MN 0240 45838 B February 2007 UPDS amp MUPDS CMS amp HWS Field Controllers Page 38 of 41 SULTS 0296 1 NOILVTIVLSNI 3007 NOLLYTIWLSNI 4007 31860 SNOUD3NNOO V 86 10 6L00 CQId 9NIMV3Q viva vnOH34 530 wavaa2. Josues jo 006 2 JO 210 peau 000 5 Jo ujBue uiejs s y 104 g s ujBue 5 jenjoe eu q eq II 5 5 doo ejqeo Josues e10 94 S doo Lp s doojqns J NOILV1ND1V9 HL9N31 3 18V2 NHOSN3S 7 H19N31 8001815 44 0061 01 1 3007 EM 50665 00 9 3007 3007 2 3007 d001 NOISN3A 31 A8 45838 Date Remarks 01 08 2007 Rearranged Approved by Yehuda MN 0240 45838 B February 2007 UPDS amp MUPDS CMS amp HWS Field Controllers Page 39 of 41 15 amp 5 peqp4Seiup 391029 S 4op es NOILVYNSISANOD V S6 10 6100 QQ ON ONIMVEG 108083 a3NaIs3q 2008 __ 49007 SWO SMH SddN W LI sui 8 lOHLNOO QaziWolsno SMH V1VG ANY H3MOd NOLLVOINDIWIAOO GOOPWOD JO 109100 AYTAY NOLLVOINDQIWIAOO 3HVMOHVH M3ZATWNV TIVLIDIQ HOSS3OOHdOMWOIN ON O doo YAZATYNY SONY H3llidiNV T doo ____ NOISS3A
3. C ON A8 H3TIOHLNOO X 91913 x m L ON doo Version 45838 B Date Remarks 01 08 2007 Rearranged Approved by Yehuda MN 0240 45838 B February 2007 UPDS amp MUPDS CMS amp HWS Field Controllers Page 40 of 41 V 96 10 6L00 QQ ON suas Gunoas para ZE 33103936 1 NOILVYNSIANOD SMH 31VG 3WVN ONISS3OO d WISI AYTAY JINON bOLvIONLLS s e sn civis ONVININOO 1531 soivinnus NO123 08d Vell sus Lm N TOHLNOO SOWWNY AUAWISNSS GIOKSSYHL Devoe 98185 001 2001 2 gt NOISH3A Version 45838 B MN 0240 45838 B February 2007 01 08 2007 Date Remarks Rearranged UPDS amp MUPDS CMS amp HWS Field Controllers Approved by Yehuda Page 41 of 41 sues Gunses part 82141 n 29 0996 10 5 SIN V 16 10 6100 QQ ON VONHSA N9IS3Q IAE byavad M3T1OM1NOO 01314 3WVN sddn sadn w NOISH3A NOLLYOINDQWWOO 00077 SNO LO3MIO S3NOZ dOO1 wuvw NG ONISSIOOUd NS WLISI
4. Meets all requirements according to CE standard E M C directive 5 Signal processing and setup function description The field Controller designed to have smart sensitivity Auto correction The Signal processing mechanism will probe continually the sensor field condition and adjust it self to the optimum sensitivity 5 1 Gain control 5 1 1 9 2 CMS Configuration A combination of remote Gain control and the Adaptive Gain mechanism give the user the ability to control the gain of each channel separately to the maximum Gain sensitivity The Adaptive Gain mechanism will setup automatically the optimum Gain Sensitivity considering of the User selected manual Gain and the System environment conditions HWS Configuration A combination of pre defined Gain level factory set up and Adaptive Gain mechanism will setup automatically the optimum Gain Sensitivity Threshold Level Control 5 2 1 CMS Configuration A combination of remote and pre defined Threshold Level control with the Adaptive Threshold Level mechanism give the user the ability to control the minimum Threshold Level for each channel separately The Adaptive Threshold Level mechanism will setup automatically the optimum Threshold Level Sensitivity considering the User selected manual level and the System environment conditions Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS C
5. 3 0141 15 Test Command XXXT6 34 16 Dra wil gS 34 Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007 Page 4 of 41 1 General The UPDS system is a 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 10046 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 UPDS systems are 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 Controllers and communication hardware to meet the requirement of EMC Electro Magnetic Compatibility directive The ou
6. 48 Power Line Branch A Power Line MDF Power Cable Branch B x End of Line Unit Up to Six ee Controllers R 2 R 2 d 1 2 5 6 This option contains up to 12 field controllers 6 controllers on each branch The following are the resistance values for a configuration of 5 4 3 2 field controllers on a branch No of controllers Max resistance on a branch between controllers 6 7 5 5 10 4 16 3 26 2 58 8 CMS Controller Alarm Output M4000 System Inputs alarms including intrusion alarm electronic fault sensor fault Low Voltage and Tamper will be transmitted by the M 4000 RS 485 or Delta Modulation communication to be presented on the color graphic display and or on the event table The UPDS uses 2 groups of addresses for each controller First address for the first group is selected by the user via the DIP switch 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 X X X Z Plug Interface Comm Controller Input in Number Channel Address Number Table 2 M4000 Input object for the UPDS outputs Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007 Page 24 of 41
7. The G is the M4000 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 The Z digit indicates the Input No 1 to 8 Controller Alarm output M 4000 Event Address Description First Address Non optional objects Intrusion Alarm Channel A GIAXXX 1 Momentary activated 2 Intrusion Alarm Channel B GIAXXX 2 Momentary activated 3 Not in use GIAXXX 3 4 Not in use 4 5 Low voltage GIAXXX 5 Constant alarm 6 Tamper Alarm GIAXXX6 Constant alarm as long tamper is open 7 Technical Fault Channel A GIAXXX 7 Sensor Cable Cut Constant or long General Technical Fault technical fault or cut 8 Technical Fault Channel B GIAXXX 8 Sensor Cable Cut Constant or long General Technical Fault technical fault or cut T Second 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 Gain status channel 1 bit 0 GIAXXX 5 6 Adaptive Gain status channel 1 bit 1 GIAXXX 6 7 Adaptive Gain status channel 2 bit 0 GIAXXX 7 8 Adaptive Gain status ch
8. 3 aldor Secotec Integrated Security systems MUPDS5 1000 UPDS 2000 MUPDS 3000 CMS amp HWS FIELD CONTROLLERS PRODUCTS SPECIFICATIONS 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 0240 45838 B Galdor Secotec Ltd Page 1 of 41 February 2007 Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B Galdor Secotec Ltd 100 Hadar st Kidron 70795 Israel Tel 972 8 8594664 Fax 972 8 8680172 Page 2 of 41 TABLE OF CONTENTS 15 General accio o o Kad be date oae UNE ius m Ev t a a enit tole 4 Ll UPDS Held Controllers RR Dv aie aemper ees 6 1 2 Detection Loops and or 1 8 Single Loop tet er red OEE 8 1 2 2 Do ble Loop Poles 5 order Ene nete eere dee nee ener cani 8 1 3 UPDS Sensor cable and Poles 1 9 2 Principle OF Operation eee pr tee tee er estos ene eene RE dnd 14 3 System Description erste ca as ae ree eee ne to ee dee e
9. ime WiIndOWS teo 21 5 4 1 CMS 21 5 3 Test PUNCH OM 21 6 Power Requirement e 22 Te Powercabl s 22 8 CMS Controller Alarm Output M4000 System 23 9 CMS Controller Inputs M4000 System Outputs een 26 10 Default Processing Parameter for each channel amp 27 11 Detection Sensitivity 0 eaten n nentes no 28 11 1 Event Counting Remote Control amp 28 11 2 Time Windows Remote Control only eene 28 11 3 Threshold Level Remote Control amp Adaptive 29 11 4 Detection Gain Control Remote Control amp 30 12 CMS Address e etre ste et deno 31 T3 TOS 32 13 1 Test Unit Main Fe atutes cre certo nee re eit 33 142 requirements o e rte ir eR andes 34 Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007
10. t m Subloop length x2 m subloop width x2 m Lt m L loop m up f a a R wire O km x N ubloop length m Detection Cross Section M 2m r 3m gt A 4 SENSOR LOOPS SENSOR LOOPS 0 5m MED LOOPS 4m zd 2m d 4m SINGLE LOOP SYSTEM SINGLE LOOP SYSTEM DOUBLE LOOP SYSTEM Subloop size 4m x1 2m Subloop size 4m x0 3m Subloop size 4m x1 2m Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007 0 5 gt Page 13 of 41 POLE Z SENSOR LOOPS 1m 200 2m SINGLE LOOP SYSTEM Subloop size 1m x0 1m 2m Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007 3 aldor ecotec Integrated Security systems 2 Principle of Operation The UPDS amp MUPDS detection systems 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 UPDS systems 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 UPDS amp MUPDS systems to sense the signa
11. 0 0 1 1 57 21 1 1 0 1 1 58 28 0 0 1 1 1 59 29 1 0 1 1 1 60 30 0 l 1 1 61 Table 11 Controller address setup The UPDS amp MUPDS Test Unit Type 15750110 enables the user to test monitor and update detection parameters of the Field Controller See Test unit user manual document MN 0522 45013 C Figure 1 Test Unit Test Setup Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007 Page 33 of 41 13 1 Test Unit Main Features Simple connection of Field controllers via operating box to the Test Unit PC serial port enable the user to do all the necessary sensitivity set up while controller is in full system operation See Figure 1 The Test Unit includes up to three channels Real Time Analog amp Digital Detection signal display which eliminate the need of voltage measuring device such as DVM or Scope The Test Unit enables the user to operate and or measure the following parameters Voltage Vin amp Internal power OK Fault Real time sample of analog detection signals channel 1 and 2 Minimum Maximum of Analog Detection signals channel 1 and 2 Event Pulse channel 1 and 2 Alarm channel 1 and 2 Faults channel 1 and 2 Communication status with the UPDS View of legal event information Adaptive sensitivity status Activate Test Comman
12. 00 CMS RS 485 Double loop 2ch Single zone Yes Yes Yes Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B Page 7 of 41 Catalog amp Group Name System Configuration Product description Power Net Test Inhibit Direc Item No amp Type no Weig Comm Comm In Out 3 ITUPDS3000 Test unit Double loop 3ch UPDS Inhibitor 1 5 100 CMS Delta Modulation 20 48 VDC 3W 7Kg Yes No No 20 72 VDC 3W 2 IUPDSIN200 HWS 20 48 VDC3W 1 8Kg No No No 3 IUPDSIN300 CMS RS485 20 48VDC 3W 1 8Kg yes No No UPDS MUPDS Accessories 1 Power Protection Kit Isolation Transformer and Burst amp Surge protection unit 2 Power Starter Card 3 Power Cable End of Line unit 4 Power supply 48 VDC 3 Amp 5 Sensor Cable Connection Kit 6 Data Cable Connection Kit 7 Grounding Stake 8 Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007 Page 8 of 41 1 2 Detection Loops and or poles The Detection Loops and or poles which are connected to the Field Controller detection channels can be in three configurations 1 2 1 Single Loop Each single Detection Loop connected to one Field Controller detection channel to create alarm zone 1 2 2 Double Loop Poles Each alarm zone covered by
13. 5 Rejected Event Pulse 5 sec 10 sec 6 Power up time 80 sec Table 6 Processing Parameter NOTE all the above parameters can be change to meet an actual detection condition by authorized user for using Galdor computerized test unit amp Setup software Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007 Page 28 of 41 11 Detection Sensitivity Set Up 11 1 Event Counting Remote Control amp adaptive The event counting parameter defines how many legal events see table 6 will be required in the time windows to create an alarm The user can select the minimum Event counting by setup one of the M 4000 output for each one of the channel individually see table No 7 The Adaptive Event Counting mechanism will setup automatically the optimum Event Counting Sensitivity considering the User choice and the System environment conditions XXXTI Channel A First Address Event Counting OFF 2 High Sensitivity ON 3 Low Sensitivity XXXT2 Channel B First Address Event Counting OFF 2 High Sensitivity ON 3 Low Sensitivity Table 7 Minimum Event Counting Remote Control Outputs for Com4000XP 11 2 Time Windows Remote Control only The user can select the required time windows by setup one of the M 4000 output With this outpu
14. Eo ee aaa 15 Sule Detection System i ne aii Ree Reden 15 3 2 General Description of Detection System esee 15 3 2 1 Single Loop Pole 15 3 2 24 Field Controller e pe cata tr tati ue EAE Yen ERR 16 3 2 3 Signal processing and setup function 17 3 2 4 Automatic BIT Function eeseeseeeeeeeeeeeeee nennen 17 3 2 5 Manual Test FUNCtION ente teen 18 3 2 6 Power ee e Leg edet ea E aa 18 3 2 7 Communication 16 18 4 Electromagnetic Compatibility eese ener ennt 20 5 Signal processing and setup function description eene 20 21 Gain control eor tet repe eese rer eem te RYE PHA dena 20 CMS Configuration eerie eite ripe tiet e reote edes ehe te inire diea 20 5 1 2 HWS Configuration 22 2 e eter tt ee Ne Eee e IRR ERAN 20 5 2 Threshold Level C nttol 20 3 2 1 CMS Configuration rec dede eo ee ende a 20 5 2 2 HWS Contigutatioti ertt eie coe e idees 21 2 9 Event Counting o a etaed triti nte iuter fee eS 21 3 3 1 CMS Configuration teh EE ic betes 21 2 3 2 AWS Configuratiori i carece toten i eme teer ten ee eee cover 21 25 44
15. G HOSSADONdONOIN t NOILOSLOYd DI CX QONYWWOO 1531 SO WNY NOlvinmus NO12310Nd Hees EIER TOYXLNOD ssaydqoy HOLIMS did A 000r WOD ZY YOLVININILS NO12310Wud E wu M 2 1N3A3 ALALUSNSS OIOHSIYHL mevonav ALOIS Metia Hi 3 Soivinus NO12310Hd wh E Lx Riu arae i Sind ONINOO TWNOIS WII 4001 t 240071 Be amp oo gt lt 35 Alo o 2 20 E E o Al gt E gt 5 5 4 o m MN 0240 45838 B February 2007 UPDS amp MUPDS CMS amp HWS Field Controllers
16. MS amp HWS Field Controllers MN 0240 45838 B February 2007 Page 21 of 41 5 2 2 HWS Configuration A combination of pre defined Threshold level Test Unit set up and Adaptive Threshold level mechanism will setup automatically the optimum Threshold level Sensitivity 5 3 Event Counting 5 3 1 CMS Configuration A combination of remote Event Counting control and the Adaptive Event Counting mechanism give the user the ability to control the sensitivity Event Counting by changing for each channel separately The Adaptive Event Counting mechanism will setup automatically the optimum Event Counting Sensitivity considering the User selected manual event counting and the System environment conditions 5 3 2 HWS Configuration A combination of pre defined Event Counting Test Unit set up and Adaptive Event Counting mechanism will setup automatically the optimum Event Counting Sensitivity 5 4 Time Windows 5 4 1 CMS Configuration Remote control and pre defined Test Unit set up united for the two channels 5 5 Test function CMS Remote only Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007 22 0141 6 Power Requirement External good quality power source of 48VDC which include Surge and Burst Protection connected to Power amp Data cable coming out of the controller Power be
17. N Low Sensitivity Table 9 Minimum Threshold Level Remote Control Outputs for M4000 Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007 Page 30 of 41 Detection Gain Control Remote Control amp Adaptive A combination of remote Gain control and the Adaptive Gain mechanism give the user the ability to control for each of the Separate channel the maximum Gain sensitivity The Adaptive Gain mechanism will setup automatically the optimum Gain Sensitivity with consideration of the User choice and the System conditions The user can select the maximum Gain level by setup Combination of two 2 M 4000 outputs for each channel individually these two 2 outputs will give the user four 4 Levels of gain option Outputs Address controller Second Address Channel A Gain Control XXXT4 XXXT5 100 Max OFF OFF 1 75 Mid ON OFF 2 60 Mid OFF ON 50 Min ON ON Outputs Address controller Second Address Channel B Fine Gain Control XXXT6 XXXT7 100 Max OFF OFF 1 75 Mid ON OFF 2 60 Mid OFF ON 50 Min ON ON Table 10 Detection Gain Control Remote Control Outputs for M4000 Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS
18. amp HWS Field Controllers MN 0240 45838 B February 2007 Page 31 of 41 12 CMS Address Each controller has two 2 addresses First address and Second Address First address is selected by the user via DIP switch 51 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 controller 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 58 setup and the automatically value of Second Address First Address on 51 Seconded Address Address 1 2 3 4 5 0 0 0 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 4 010 1 0 0 35 5 1 0 1 O 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 1 0 1 1 0 44 14 0 1 1 1 0 45 15 1 1 1 1 0 46 16 010 0 0 I 47 17 1 0 0 0 1 48 18 0 1 0 1 0 49 19 1 1 0 0 1 50 Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007 13 Test unit Page 32 of 41 20 0 0 1 O 1 51 21 110 1 0 1 52 22 O l 1 0 1 53 23 1 1 1 0 1 54 24 0 0 0 1 1 55 25 110 0 1 1 56 26
19. annel 2 bit 1 GIAXXX 8 Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007 Page 25 of 41 Table 3 M4000 Inputs Description for the UPDS outputs NOTE second address inputs are use for reporting status of adaptive sensitivity This address will be use only for the optional system logic Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007 Page 26 of 41 9 CMS Controller Inputs M4000 System Outputs All M4000 Outputs including remote sensitivity control System Test and Aux outputs Will be transmitted from M4000 software via the M4000 RS485 or Delta Modulation communication to the Field Controller The UPDS uses 2 addresses for each controller First Address is selected by the user via the DIP switch or by the test unit 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 Interface Comm Controller Always Input in Number Channel Address T Number for Output Table 4 M4000 Output object for the UPDS Inputs e First 3 digits indicate the address of controller e The next fourth digit indicates t
20. d Reset the adaptive sensitivity mechanism to Max sensitivity Test unit screen snapshot manually or by setup of automatic trigger Template download to controller Microprocessor predefine detection parameters Select operation mode and setup the automatic sensitivity functions of the controller Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007 Page 34 of 41 14 Test unit PC requirements The following are minimum PC requirements to install the UPDS Test Unit software MS Windows 2000 operating system or higher Pentium 4 type processor 1500 MHz 256 MB RAM 20 MB of available hard disk space e Microsoft Framework 1 1 DirectX 9 15 Test Command XXXT6 output Activation of output XXXT6 of the First address for duration of 3 up to 6 seconds will activate Test Routine at the controller microprocessor 16 Drawings The following drawings are attached Fig 1 M A D Principle of eer lora 35 Fig 2 Crossing of Detection Loop by ferromagnetic object 36 Fig 3 The principle of signal cancellation due to a global change of magnetic jM T D C Sunes 37 Fig 4 Double Loop te HE re oett dee HR eee 38 Fig 5 Double loop System Configuration sse 39 Fig 6 M UPDS a
21. eated in the Field Controller 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 Automatic BIT Function The system has an automatic BIT function which covers the following BIT for the detection unit BIT for the system and Field Controller power supply e BIT for the communication line and transponder CMS System e BIT for the alarm center CMS System Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007 3 2 5 3 2 6 Sle Page 18 of 41 Manual Test Function The system has 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 Controller 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 interface communication line up to the display Power Requirement In order to give a design flexibility for optimize power cable size the different Field Controller operate from 20VDC up to 48VDC Vin Which include Surge and Burst P
22. he Event No 1 to 8 The following are the different input functions Events Controller Inputs Description M4000 M4000 Outputs Event Address First Address Non optional objects 1 Event Counting Channel GIAXXXTI 2 Event Counting Channel B GIAXXXT2 3 Time Windows Channel A amp B 4 Threshold Level Channel A 4 5 Threshold Level Channel GIAXXXT5 6 Test Command Channel A amp B GIAXXXT6 Momentary activated 7 Threshold Level Channel B GIAXXX T7 8 Threshold Level Channel GIAXXXTS Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007 Page 27 of 41 Second address optional objects 1 Local output 1 GIAXXXTI 2 Local output 2 GIAXXXT2 3 Not in use GIAXXXT3 4 Gain Control Channel A 4 5 Gain Control Channel GIAXXXT5 6 Gain Control Channel B GIAXXXT6 7 Gain Control Channel GIAXXXT7 8 Reset Adaptive mechanism GIAXXXTS8 Table 5 M4000 outputs Description for the UPDS Inputs 10 Default Processing Parameter for each channel A amp B Description Value Inhibiting time after alarm 15 sec 2 Acceptable Max Event Pulse width 5 sec 3 Acceptable Min Event Pulse width 0 24 sec 4 Event pulse width for Constant Alarm 10 sec output and longer
23. ion 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 RS 485 communication channel can hold up to 30 Field Controller With the distance of up to 2 4 Km with the dependency on the number of Field Controller on the Communication line with additional M4000 RS 485 Repeaters units or F O link to field Interface Card the distance can be much longer Delta Modulation Communication All data transmitted and received via two twisted shielded pairs The Delta Modulation electronic and software protocol designed to hold up to 128 field controllers on each communication channel with distance of 10km Longer distances are available with additional M4000 Delta modulation repeater 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 The HWS UPDS Controller contains one relay output for each detection channel the same relay will be activated for any other fault alarm The rating of the relay contact is 30VDC 100mA Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007 Page 20 of 41 4 Electromagnetic Compatibility
24. l 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 object M A D permits UPDS 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 Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B Galdor Secotec Ltd 100 Hadar st Kidron 70795 Israel Tel 972 8 8594664 Fax 972 8 8680172 Page 15 of 41 The unique electronics of the field controller to sense small signal in the level of nano volts coming from sensor loop due to M A D principle The UPDS amp MUPDS systems essentially consists three major units e Detection System Field Controller and Detection Loops or Poles e Data and power Cable Command amp control center 3 System Description 3 Detection System The detection system consists of 2 main units e Field Controller Detection Loops 32 General Description of Detection System The Field Controller is the heart of UPDS system Each Field Controller controls up to their detection channels as follows 3 2 1 Single Loop Pole configuration A single UPDS 2000 Field Controller with two detection loops
25. lectromagnetic signal directly on the detection loop input simulating a real intruder signal which test the entire UPDS 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 e Selective Amplifier 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 Nano volt Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007 3 2 3 3 2 4 17 0141 e 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 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 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 cr
26. low 17 VDC will create a low voltage alarm Power supply at the MDF IDF should be CE Standard quality with batteries power backup 7 Power cable The size of power cable depends on the type of the field controller the distance of field controller from the MDF along the power line and the number of controllers on each branch The following are typical system configuration which including 48VDC MDF Power starter card power line branch A amp B and power cable End of Line Unit For each option there will be a table with the max resistance of power wires cable which connects each two field controllers according to the actual distance between controller and the max allow resistance the cable size will be calculated Option 1 MUPDS 3000 48 VDC Power Line Branch A Power Line Branch Power Cable End of Line Unit R 1 0 1 2 5 6 This option contains 13 controllers 6 controllers on each branch and one controller connected directly to the MDF The following are the resistance values for a configuration of 5 4 3 2 field controllers on a branch No of controllers Max resistance on a branch between controllers 6 5 9 5 7 7 4 11 3 3 17 7 2 30 Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007 23 0141 Option 2 MUPDS 3000
27. ly Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007 5 aldor ecotec I ntegrated Securi UPDS Stems leld Controllers The following are the standard UPDS Field Controller Test Unit software and their types No GD 9001 45967 B_ UPDS amp M UPDS Characteristics Galdor Secotec Ltd 100 Hadar st Kidron 70795 Israel Tel 972 8 8594664 Fax 972 8 8680172 Catalog amp Group Name System Configuration Power Net Test Inhibit Direc Item No amp Type no Weig Comm Comm In Out 45760 B M UPDS 1000 20 48VDC 5W 9Kg 20 72VDC 5W 1 IMUPDS650 CMS Delta Modulation Double loop 3ch 3 Yes Yes Yes Zones 2 IMUPDS630 HWS Double loop 3ch 3 Zones Yes Yes Yes 3 IMUPDS660 CMS Delta Modulation Double loop 2ch Yes Yes Yes single zone 4 ITUPDS1000 Test unit Double loop 3ch 45693 B UPDS 2000 20 48VDC 3W 2Kg 1 1UPDS1100 HWS Single Loop Ich Single zone No Yes No 2 1UPDS1200 CMS RS 485 Single Loop Ich Single zone yes Yes No 3 1UPDS2000 HWS Single Loop 2ch Two zones No Yes No 4 1UPDS4000 CMS RS 485 Single Loop 2ch Two zones yes Yes No ITUPDS2000 Test unit Single Loop 2ch 45954 B M UPDS 3000 20 48VDC 5W 2 5Kg 1 IMUPDS800 CMS RS 485 Double loop 3ch Two zones Yes Yes Yes 2 IMUPDS9
28. mp UPDS Field Unit HWS configuration 40 Fig 7 M UPDS amp UPDS Field Unit CMS configuration 41 Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007 Page 35 of 41 V Z6 10 6100 QQ ON 8 1545 anoa 4 1 S Jopjet 31VG 3WVN qald SILANOVW S HLSV3 JHL quiu sun 5 05 jo JequinN pub S V xn j jo 4 JO 9 Dy y 0 5 y Ul peonpu 4 WA Q V W NOIL2313Q A IVNAONV D2IL3N9VIN NOILVH3dO 30 NOISH3A Fig 1 M A D Principle of Operation ea 8 2 oo gt lt g S S Alo o 2 29 EE Ela o Al gt E gt 5 5 4 o lt gt MN 0240 45838 B February 2007 UPDS amp MUPDS CMS amp HWS Field Controllers Page 36 of 41 Sags ds pT 29020 5 QVIN V 6 10 6L00 QQ ON ONIMVEG 1008 vonkaa pubis 2 MO JO doo uonoejeg 1osues
29. rotection The power supply should be CE Standard quality with batteries power backup The total power required is less than 5 watt for three channels Field Controller power required can become different depending on the type of the Field Controller UPDS amp MUPDS The Field Controller power supply is converted by the internal DC to DC power unit into 12VDC and 6VDC The 6VDC 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 Communication Unit The Field Controller is classified according to the type of the communication units Field Controller with computerized multiplex communication unit is defined as CMS configuration Field Controller with relay outputs hardwire communication unit is defined as HWS configuration Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007 3 2 7 1 3 2 7 2 3243 3 2 7 4 Page 19 of 41 C M S Configuration The CMS configuration is based on integration between Field Controller and M4000 communication module The module conducts the multiplex communication between the Field Controller and the computerized center The M4000 system is the alarm command control for Field Controller system The CMS configurat
30. t 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 XXXT3 Channels A amp B First Address Time WINDOWS ON 6sec Low Sensitivity OFF 9 sec High Sensitivity Table 8 Time Windows Remote Control Outputs for M4000 Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007 Page 29 of 41 11 3 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 selected Threshold level will be the minimum Threshold Level only for the maximum gain selected by the user The Adaptive Threshold Level mechanism will setup automatically the optimum Threshold Level Sensitivity considering the User choice and the System environment conditions If the Gain will move down by the adaptive mechanism the Minimum Threshold level will be change automatically accordingly XXXTA XXXT5 Channel A First Address First Address Event Level OFF OFF 1 High Sensitivity ON OFF 2 OFF ON 5 ON ON Low Sensitivity XXXT7 XXXTS Channel B First Address First Address Event Level OFF OFF 1 High Sensitivity ON OFF 2 OFF ON 5 ON O
31. tance of cable Loop Resistance for length of max loop Option amp i 8 each wire length for 97 configuration each loop each loop length description R wire O km each loop L1oop m m Ltm 4 Shielded 6 Windings N 6 NYY cable Sub loop size 6x22AWG 4m x0 3m 53O0 km Max 1000 146 m 314 m 140 m type f 2 15 4CBL1003 5 Shielded 8 Windings N 8 NYY cable Sub loop size 8x22AWG 4m x0 3m 53O km Max 1000 109 m 235 m 100 m type f 2 15 4CBL1021 6 Shielded 8 Windings N 8 NYY cable Sub loop size 8x22AWG Im x0 1m f 2 2 53Q km Max 100Q 109 m 235 m 100 m type 4CBL1021 Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007 Page 11 of 41 Max Cable type Lae Resistance of ces for us cable Option amp fi p each wire 5 length for EE description configuration R wire O km each loop each loop each loop length max L1oop m 5 m Ltm 7 Pole Detection type l mem some 130 m IMPL1003 1909 Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007 Page 12 of 41 Formulas for calculations of Sensor parameters i R max 0 x 1 000 L
32. tstanding system features are as following e Full concealed and passive e A wide rang of Sensor Cable Types Rugged steel armored sensor cable or regular NYY PVC direct buried cable Rugged Field Controller that meets all severe conditions for under ground installation Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007 Page 5 of 41 Effective operation under any type of ground concrete asphalt roads runways vegetation between trees and even under water snow and ice e Sensor Cable with Multi Winding Configuration with different detection profile including narrow loop for on top of wall installation Effective operation in mountain Terrain amp underwater installation Coverage of up to 1 200 m protection by one Field Controller Microprocessor based signal processing including adaptive sensitivity auto calibrations smart diagnostics tools remote test and customize configuration base on flash memory Computerized Field Test Unit e 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 with RS 485 M4000 communication UPDS Field Controller Or CMS with Delta Modulation M4000 communication UPDS on
33. two detection loops which are close and parallel to each other 1 2 3 Single Poles Each single Line Detection Pole connected to one Field Controller detection channel to create alarm zone Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007 Page 9 of 41 1 3 UPDS Sensor cable and Poles Optional Recommended Cable type Resistance of cable i Loop Resistance for length of max loop Option amp each wire length for configuration each loop each loop length description R wire Q km each loop max L1oop m m L t m 1 Armored 4 Windings N24 LEM 13Q k Max 1000 738 m 1 920 m 600 m 4m x1 2m f 2 6 n ve i 4CBL1040 2 Armored 4 Windings N24 4x0 5 mn Sub loop size typ 4mx1 2m f 2 6 33 140 1000 290 754 250 4CBL1044 3 Shielded 4 Windings N24 NYY cable Sub loop size 4x22AWG 4m x1 2m f 2 6 53Q km Max 100Q 181 m 470 m 150 m type 4CBL1049 Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007 Page 10 of 41 Max Max Recommended Cable type Resis
34. will create a detection system of two zones A series of Field Controllers and detection loops in modular construction can create a long line of protection divided into alarm zones up to 600m long see the alternative types of sensor cable The out come signals from the Field Controller will transmit via data cable to be displayed in the control center Approved by Remarks Date Version Yehuda Rearranged 01 08 2007 45838 B UPDS amp MUPDS CMS amp HWS Field Controllers MN 0240 45838 B February 2007 16 0141 3 2 2 Field Controller Each Field Controller consist the following main sub units Fig 6 Fig 7 e Analog amplifiers and analog signal processing e EMI protection unit e Microprocessor digital analyzer unit DC to DC power unit e Communication unit e Housing and connection receptacle The follow are the sub unit description 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 e 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 e
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