Sur-Gard MLR2000
Contents
1. mm Fan Tray y O Po O DOC la ee ii O O Oj or Im AAA A EA EA RARO RO RI 2 27 L 1110 LI WIL LI 1110 L L L C WL C Ji DC JL CI i mim HIH fa Di H G falla D D O DIO o E ODO O elelelelelelelelelelelele 5 E 3 3 3 o m NSS L JL LC 1110 L 1110 DI I Di D O DO aaa a O Di Di D Di E ad D o D O D D 0 DIO dj E O o o O elelelelelelelelelelelele e 5 5 5 3 Ethernet Repeater A u Z E gt Coq Ya sida BEIT e soste NS JBE dna LJ 11110 ll 11110 mua JH ES O Q Q PORTA D D O DIO Ip D o I O Di D Do o DDD D D D o o O E a o elelelelelelelelelele 1 3 3 T e e e e s ele 8 8 5 5 58 DI JL C JL mm mm JH um JH mm Di poe E op E E D E E Gy E 08 0010100 elelelelelelele l S 3 3 NOTE Battery wiring me should be run in conduit e e e e e 8 and batteries should be S lo o ooo alo H LC JH mm 1110 O 1110 CI sd Sela O A PIP da aa A A G isted enclosure BACCHI Recommended battdes elelelelelelelelelelelele 2x12V 140 190Ah o E 4 hours bakup battetes l used in conjunction with n power generator Model INTERSTATE SG8D FONERA BATTERE Non Power Limited Circuit WARNING To reduce the risk of electric shock this product is provided with a grounding type power supply cord Connect product to a grounded receptacle 120V 60Hz 10A NOTE A2. Defaults Option Value Code Defaults Option Value Words 40 41 A 6C C7 GROUP OPENING 41 41 A 6D E6 ZONE BYPASS 42 41 A 6E 50 SYSTEM TROUBLE 43 41 A 6F A6 CANCEL T i S Option 70 Automation Common Event Code 46 41 A Default 00 47 41 A Some central station software packages are unable to 48 4 A process an alarm using the event codes listed in the 49 52 R DRL2000 Decoding Library Where a central station 4A 41 A monitors thousands of accounts belonging to different 48 4F O companies the same reporting codes may have different AC 43 L meanings for different companies Because of this the E E a individual event codes in Options 30 through 5F can AE 54 T not accurately represent the alarm condition To over come this Option 70 may be programmed as indicated Options 50 5F 4 3 Digit 0 F below The DRL2000 will use the fifth digit of data received in 4 3 Program Operation formats to determine the message and event code The 00 Use individual event codes to computer event code will then be transmitted to the central station 20 30 39 amp 41 5A Use common event codes space computer Refer to the DRL2000 Decoding Library for the 0 9 A Z When using common event codes DSC rec complete set of messages and event codes used by the ommends that either hexadecimal code 5A ASCII Z DRL2000 In Sections 50 through 5F program ASCII or hexadecimal code
3. E a 23 2 o E 2 o oro Saul DOSSI Do Geo LSOE Si R q a 000 655 EO 5050 TRE ded cla c o DOT e 9 99 O Ofo OOE dY 99999 OEE da 99999 09 229 20 lo DOE dY O 99 OOA ae 22990 15 o go po o GOOD o o IT o o O TOOT o o POT o k GODI 2 a e OEA ODI OAA e U GOOD Y na o o DU lo o WU o o PU o o BU o a 3 o DOODO a o GODO 4 OOO ol DO 00 e aaa Gocco gt ooo DOGS gt RH S gt UIT o lo TT dp dp IOO dp e DOCS do eT l e DODO 9 e UU gt 00C o o DOEN o T a o DIOT al o DIOT 4 o JO a o O S gt MOD o o o o o o o d o o OO al o ODO a o OO dl o OO Dad e COESO q o ad a p PITT gt o QUO ol L LIL T Em E E a lt T 2 6 2 Supervised System Status Power Monitor JQUIGEO IXON OL Ethernet Repeater A 2 2 2 2 1 2 2 2 Bench Testing It is suggested that the receiver be tested before actual installation becoming familiar with the connections and setup of the unit on the work bench will make final instal lation more straightforward The following items are required e 28 VDC Power supply e One telephone line e One or more dialer or digital dialer control panels Power Up When the 28 VDC power is applied the CPM2000 unit will beep fo
4. Fan Tray 4 x fan per tray I a O O 5690 C gt O C 5 cio o OOO alo 29 0294 TODD di 29 0 90 HDD a oO 00 OZ died 22 paa a fo 99999 E AA LHE E o OOO e o DESA o o OO o OOO o TODO E jo AJO Ear L o AOC ol o IO ol e TIN o o UDO e Od Do o 0 lo a EE o a DL lo lL LI lo o e gado 4 e GOOD 9 e Oooo o Vag Ie eel o OO q o oa e gt DEE Hes o peazo aaa a 3 00EG a jo ile POCO e je Sie POSE o gt e seil IOO aje o OOO 9 e IDOSO 9 DO o DOO e e DOD 0 o O EO o o DOCES o OCO e IEO o O T o Par ee O T D T O eal T gt o T o DDD o e INEO o N DOT o jo DOD gt OO e DUG e e DEI e DIGO o DOHO O e Lae o SS a gt o OOO a lo o Elo e D0201 gt Elo Q lo ol 2 e A Q clo v allo o L l
5. No Flow diagram for Automation ALL Mode 2 m p Power Up Restart pe No No CPM2000 A Serial Port Active CPM2000 A Ethernet Port Active Poll Automation 10 3 TCP IP Ports Each CPM2000 has a user selectable IP address and Port base address which is applied on the next reboot Origi nally the unit will be shipped with IP address 10 0 7 00 on both the primary and the secondary CPM Table 2 Base Port Port Name Base 1024 Sur Gard Console Port Base 1025 SG Automation Port Base 1 1026 2nd Automation Port Base 2 1027 Reserved Base 3 1028 Reserved Base 4 1034 Reserved Base 9 The primary point to be made is that the base port is user configurable as is the IP address 10 4 Client Side Connects The Automation Client attaches a socket to the CPM server as per the following diagram after Stevens UNIX Network Programming Prentice Hall 1990 section 6 2 10 5 Stream Packet Structure The stream is an encapsulation of MLR2000 Automation Serial Output Server CPM Connection Oriented Protocol socket Client Automation connection establishment data request accept data reply 32 10 6 Status Addressing 10 7 Line card status will be reported via physical addressing The line cards will be assigned by shelf and slot number All device status information is in Sur
6. A From Other Cabinet B From Other Cabinet 2 1 3 Power Cable Connections e Take the power cable for the CPM2000 and connect the labelled wire to the designated terminal on the back plane Take the other end of the power cable and con nect it to the power connector on the CPM2000 Figure 3 60 Line Cards Configuration e Take the power cables 10 gage and connect one end to the power terminals of the backplane marked PWR GND black cable and 28 VDC A red cable Take the other end of the power cables and connect to a 28 VDC power supply make sure power is OFF Ethernet Repeater B e O PORTI PORTS PORT2 PORTA
7. ii 27 7 15 DRL2000 Predefined Library Decoding and Event Codes Table27 Section 8 CPM2000 Central Processing Module 29 8 1 General Information 29 B IGO HIG 29 8 3 CPM2000 Controls 29 Section 9 CPM2000 Wiring Diagram 9 1 Loss of Socket Automation eieren 9 2 CPM Redundancy 9 3 CPM Rest ral sea ana Section 10 MLR2000 Computer Interface 31 10 1 Virtual connectivity e ee 31 10 2 Automation Mode nono nonancninncnnn 31 103 TEPAPIPONS ria Aa 31 10 4 Client Side Connects vaciando te iate 31 10 5 Stream Packet Structure eee 31 10 6 Status Addressing raevan 31 10 7 Overview of Communication eee 31 10 8 Console spcifies which SG Automation to SUPORVISC 22 Luria 32 Section 11 PSU2000 Power supply Module 35 Section 12 Automation Protocols 36 12 1 Data Byte protocol 36 12 2 Acknowledgment of the Signal 36 Section 13 Detailed Description of Computers 37 131 QOM RESPONSES star aum ino de n er 37 13 2 Automation Absent 37 Appendix A DRL2000 Communication Formats 38 Appendix B Decimal HEX Binary Conversion Chart 39 Appendix C ASCII Character Chart SKS dying 0000040 Appendix D Printer Words Options 60 6F 41 Appendix E Panels Compatibility List rata nia 43 NOTE Section 1 Introduction
8. 29 Section 9 CPM2000 Wiring Diagram SG Serial SG Serial SG Serial SG Serial Backup Primary BACKUP Automation Automation Parallel PC Automation Automation Parallel PRIMARY CPM2000 Keyboard Output Output Printer 41 Keyboard Output Output Printer 41 CPM2000 MODULE Optional Supervised Supervised Supervised Optional Supervised Supervised Supervised MODULE KEYBOARD COMI COM2 LPT1 KEYBOARD COMI COM2 LPT1 O DO O aT T le 1 ETHERNET 1 ETHERNET A B A B PROGRAMMABLE MONITOR coms COM4 PROGRAMMABLE MONITOR coms coma INPUTS OUTPUTS INPUTS OUTPUTS gt Ly J LI 16 16 POWER TCP IP POWER TCP IP SUPERVISED 28 Voc SUPERVISED 28 Voc POWER POWER MONITOR MONITOR ee LPT2 LPT2 SUPERVISED SUPERVISED SYSTEM SYSTEM STATUS STATUS PC SG Console TCP IP Backup Backup Modem SG Console TCP IP Primary Primary Modem PC Monitor Automation Output Parallel Serial Optional Automation Output Parallel Serial Optional Monitor Optional Supervised Printer 2 Printer 3 Supervised Printer 2 Printer 3 Optional Supervised Optional Supervised
9. Option 7C Alarm Codes to Activate 2 Way Audio Default 00 Option 7C determines the range of alarm codes which will activate the 2 way audio function Program the first digits of the desired alarm codes in Option 7C For example The DRL2000 will initiate audio by the account range Options 7A and 7B or by Option 7C ALARM CODE or by both If all alarm codes beginning with 6 7 and 8 are to acti vate 2 way audio program Option 7C as 68 Option 7C may be used with 10 to 40 Baud formats DTMF 4 1 4 2 and 4 3 formats Program Option 7C as 00 to disable this function Example 4 2 format with account code 1234 alarm code 2 on zone 3 1234 23 Option 7A 7C Switch Reason or 7B to Audio Option Option Switch to Reason 7A 7B 7C Audio 00 1 2 Yes Alarm code 2 falls within the code range 1 2 Account code 1234 falls 1 1 00 Yes within the range 1 1 Account code 1234 is out side the range 2 3 2 3 00 No Alarm code 2 is outside the range 3 4 00 3 4 No If both are programmed both must be good and 1 2 3 4 No alarm code 2 is outside the range 3 4 Both must be good and account code 1234 is out side the range 3 5 3 5 1 3 1 3 Alarm code 2 falls within the code range 1 5 account code 1234 falls within the range 1 4 1 4 1 5 Yes Option 7D Audio Zone Code Default 00 Audio zone code is the range of zone codes that will activate audio The first digit is the lowest code
10. 01 Bad Sensor SX V Only 02 76 AlmSX V 01 18 AlarmCommander 2000 01 76 AlarmUltraGard 5000 77 AlarmTmprCaretaker Plus SX IVB SX V UltraGard 5000 Only TroubleCaretaker Plus UltraGard 5000 Only 79 No Activ AlmCaretaker Plus UltraGard 5000 Only 80 AlarmALL Supported ITI Panels 81 AlarmALL Supported ITI Panels 78 82 AlarmALL Supported ITI Panels 83 PhoneTstALL Supported ITI Panels 84 OpenUsr xxALL Supported ITI Panels 85 CloseUsr xxALL Supported ITI Panels 86 SilentDuressALL Supported ITI Panels 87 Force Arm ALL Supported ITI Panels Auto ForceArm 88 TroubleCaretaker Plus UltraGard 5000 Only 89 RF TouchpadCaretaker Plus UltraGard 5000 Only 90 AC FailALL Supported ITI Panels 91 Low BatteryALL Supported ITI Panels 92 AlmTamprLoopALL Supported ITI Panels 93 AutoPhoneTstALL Supported ITI Panels 94 Recevier FailureALL Supported ITI Panels 95 CPU Back InALL Supported ITI Panels 98 Event Dump ReportCommander 2000 Only NOTE The UltraGard 5000 and the Security Pro5000 are the same panel with different marketing names Therefore all references above to the UltraGard 5000 include the Security Pro5000 7 10 Modem Il Modem IIE Modem Illa and BFSK Formats BFSK Modem II Modem Illaz or Modem IIE formats refer to appendix D can be decoded by the DRL2000 7 10 1 Modem II Example e Modem II RS 232 Option ON Computer Output 601001 7112 T 9 14 Printer Output 23 Jun 1998 09 49 02 Jun 23 1998 09 53 00 01 0
11. OA Send 2 digit receiver number in decimal 3 digits line number in decimal OD Send 2 digit receiver number as programmed Send 3 digit line card number in decimal OE Send 2 digit receiver number in Hex Sned 1 digit line card number as follows Line Card Line Card Send 1 F 1 F 10 1E G U NOTE When using the DRL2000 the Line Card Number Length option should always correspond to the number of DNIS digits being received For example if 5 digits are being received then the Line Card Number Length Option should be programmed to 3 so that 1RRLLL will be overwritten by the 5 digits of DNIS and become 1dddd Option 03 Internal messages RS 232 Default 01 When this option is programmed as 00 the DRL2000 will output its internal messages in the following format SRRLLL HAAAA Nxxyy If it is programmed as 01 internal messages will be out put as ORRLLL HAAAA Nxxyy Where S 0 zero Protocol number RR Receiver number LLL Line number AAAA Account code always 0000 Nxxyy SIA event Option 04 2 Way Audio Activation Time Default 00 Option 04 determines how long in 10 second incre ments the 2 way audio function will be active once it is initiated At the end of this time the line card will hang up the line Program a value from 01 to FF for 10 sec onds to 2550 seconds Three 3 minutes is the recom mended length of time for the 2 way audio activation time To disable the
12. 10 3 6 3 7 3 8 3 9 3 10 3 11 Telephone Line Connections Each paddle module has the con O LJ nections shown here Connect each 8 Telephone line module output POTS to the h s Une telephone line analog with 6 pin El wan Line x Not Used modular cables N an NOTE Use minimum AWG 26 E Sere wires for telephone cables serial 8 Pin Cl Communicatior NOTE Connection of an Ademco radio Output receiver model 7810RT or 7830R can be E licita done on the serial port of the paddle module The device should be mounted in the same room as the MLR2000 receiver within 20 ft The connection shall be run in conduit or equivalent i e providing mechanical protection Grounding For maximum resistance to static and electrical noise the 19 rack frame must be connected to earth ground through the AC utility box Power Supply Ensure that all electrical connections are made correctly After verifying all connections connect the RED and BLACK leads to a 24 2 x 12V batteries in series VDC sealed rechargeable battery Be sure to observe polarity when connecting the battery When the battery is con nected test the system under battery power only CAUTION Connecting a positive terminal to a negative terminal may cause a fire and possibly serious personal harm Battery Charging Current The maximum battery charging cu
13. 322 Bell 2 404 Late to O C 602 Periodic test report 323 Alarm relay 405 Deferred O C 603 Periodic RF Xmission 324 Trouble relay 406 Cancel 604 Fire test 325 Reversing 407 Remote arm disarm 605 Status report to follow System Peripheral Troubles 330 and 340 408 Quick Arm 606 Listen in to follow 330 System Peripheral 409 Keyswitch O C 607 Walk Test Mode 331 Polling loop open Remote Access 410 608 OFF normal condition 332 Polling loop short 411 Callback request made 609 Video transmitter active 333 Exp module failure 412 Succes download access 611 Fire test point tested 334 Repeater failure 413 Unsuccessful access 612 Fire test point not tested 335 Local printer paper out 414 System shutdown 621 Event log rese 336 Local printer failure 415 Dialer shutdown 622 Event log 50 full 337 Exp Mod DC Loss Access Control 420 623 Event log 90 full 338 Exp ModLow Batt 421 Access denied 624 Event log overflow 339 Exp Mod Reset 422 Access report by user 625 Time Date Reset 341 Exp Mod Tamper Special O C 440 450 626 Time Date inaccurate Communication Troubles 350 and 360 441 Armed Stay 627 Program mode Entry 350 Communication 450 O C by Exception 628 Program mode Exit 351 Telco 1 fault 451 Early O C 629 1 amp 1 3 day no read log 352 Telco 2 fault 452 Late O C 630 Sched change 353 Long range radio 453 Fail to O C 631 Exception Schedule change 354 Fail to communicate 455 Auto Arm Fail 632 Access Sched change E
14. 41 ASCII A be used The codes according to the Decoding Library Do NOT use Space character Hex 20 can be used as the common values other than 20 5C ASCII event code with certain automation software packages NOTE The old value programmed in each Option to avoid account code database changes when switch will not be changed until a command with valid ing over from other brand receivers to the Sur Gard data is received TECEIVER Defaults Option Value Code NOTE Option 70 is ignored when using SIA ITI 50 zi E Contact ID ACRON MODEM Il MODEM IIE 51 41 A MODEM Illa2 FBI Super Fast BFSK ADEMCO Super 52 41 A Fast and SK FSK1 2 formats a i i Option 71 Library Select Default 04 55 41 A Determines how to use Printer Words Options 56 41 A 00 No printer words 57 41 A 01 Printer words options used for ida reporting code for 58 41 A mats only other will use pre defined library 59 52 R 02 Printer words options used for 2 digit reporting code DA 41 A formats only other will use pre defined library 38 aa L 03 Printer words options used for 3 digit reporting code 5C N O formats only other will use pre defined library E E a 04 Printer words options used for 1 digit and 2 digit report E Ex ing code formats only other will use pre defined library 05 Printer words options used for 1 digit 2 digit and 3 digit Options 60 6F Printer Words reporting code formats The English Printer Library is provided and can be NOTE
15. Option 71 is ignored when using SIA ITI selected by programming the event codes to the corre Contact ID ACRON MODEM Il MODEM IIE sponding word MODEM Illa2 FBI SuperFast BFSK ADEMCO Super For example if the words exit fault are required when Fast and SK FSK1 2 formats the a arm code 1 is received in 3 1 or 4 1 formats Option 72 SIA Option Default 00 Option 61 must be programmed as 87 E MORE A l Refer to Appendix D for a list of available words When this option is set to 01 the receiver will decode Defaults Opti val Word SIA Alarms sent without zone numbers and add 00 as S phon aus ae he zone number to the automation output 60 F2 PERIODIC TEST REPORT E Example 1 61 OA FIRE ALARM 1 234 Nri1 BA 62 Yi PANIC ALARM Output 1234 Nri1BA00 66 1E BURGLARY i 64 63 CLOSING Example 2 65 62 OPENING 1234 Nri1BA01 RP 66 ES SERVICE Output 1234 Nri1BA01 RP00 67 00 MEDICAL Example 3 68 E4 MESSAGE 1234 Nri1BA RP 69 61 RESTORE Output 1 234 Nri1 BAOO RPOO 6A F2 PERIODIC TEST REPORT When this option is set to 00 alarms sent without zone 6B C6 GROUP CLOSING numbers will not be modified by the receiver 17 Example 4 1234 Nri1BA Output 1234 Nri1BA When set to 02 any account digit received as A get converted to 0 Example Received A123 NriBA01 Output 0123 NriBA01 When set to 03 any account digit received as A get converted to 0 and alarms without z
16. Option A1 FBI RS 232 Default 01 To enable the computer for FBI Super Fast protocol pro gram Option A1 as 01 When enabled the computer output will be as indicated below JRRLLLssssssAAAATZZEss DC4 Where J FBI protocol identifier RR receiver number LLL line number S spaces AAAA account code T zone type ZZ zone number in hex E event code if E 0 and T 0 listen in Option A2 Digit Replace Default 00 Option 77 works in conjunction with Option A2 Option 77 is programmed with an ASCII value that will replace an account code digit or insert a value into an account code Option A2 is used to replace a digit or insert a digit To replace a digit use Ox where x is the digit to be replaced To shift a digit use Option A2 and set to 8x where x is the location in the account code Option A3 D6500 RS 232 Default 00 This option is used to strip hex digits on the automation output The DRL2000 will emulate the Radionics 6500 RS 232 protocol on pulse formats and Varitech only When Option A3 is set to 01 the hex digit will be stripped for 1 digit reporting codes including Varitech 4 1 Example 1 Code 1 Computer output 104091sssssss022sAsss1 Example 2 Code B Computer output 104091sssssss022s0ssss If Option A3 set to 02 the hex digit will be stripped for 2 digit reporting codes including Varitech 4 2 Example 1 Code 21 Computer output 104091sssssss022sAss2 1
17. Optional Supervised Supervised Programmable Inputs Outputs Relay contacts rating 3 A 250 VAC Outputs switched to negative Max input voltage 12 V 10 mA Notes Non supervised for connection to Max short circuit current 80 mA 12 VDC Input treshold 1 3 V 1 PC keyboard and monitor are used only for power limited circuits only Limited by 150 ohm 1 W resistors Supervised CPM2000 module configuration 1 Relay 2 Pin 1 Non supervised 13 PGMIN 4 2 SG console is used for software updates on 2 Relay 2 Pin 2 6 Trouble Output 14 PGMIN 3 line card 3 Relay 1 Pin 1 7 ACK Output 15 PGMIN 2 3 All external devices should be installed in 4 Relay 1 Pin 2 8 Buzzer Output 16 PGMIN 1 Used for fans supervision the same room as the receiver within 20 ft 5 GND 9 PGMOUT 4 4 All circuits are power limited 10 PGMOUT 3 CPU 1150 Panasonic KX P1150 11 PGMOUT 2 SCS PTR Okidata Microline 182 184 12 PGMOUT 1 Loss of Socket Automation It is estimated that sockets may appear and disappear reg ularly as processes are terminated and reconstituted After 5 seconds of loss the CPM2000 shifts to the next connec tion level The connection level cases are As an Example of Source Destination the Fall down case 9 1 Table 1 Slot 1 CPM A TCPIP Automation TCPIP Slot 2 CPM A serial 1 Automation serial Slot 3 END Each slot may be populated by a selection After 5 sec onds in a slot not running the CPM2000 will go to the next running reso
18. e 10 3 6 Telephone Line Connections 10 An 3 8 Power Supply 3 9 Battery Charging Current 3 10 Removing and Installing System Components 0 3 11 To Install a Line Card Module 10 Section 4 DRL2000 Digital Receiver Line Card 11 4 1 General Information 1 4 2 DRL2000 Features 1 4 3 Installation 11 4 4 DRL2000 ControlSs ceecceeeeceesseeeeeees 1 Section 5 DRL2000 Operating Mode 5 1 DRL2000 Standby Mode 5 2 DRL2000 Cold Start up 5 3 Communications in Progress Section 6 Profiles 1rrrrrrreeena nina 13 6 1 Introduction ica lana 13 6 2 A H S Automatic Handshake Selection 14 6 3 Static Options 00 2F eee 14 6 4 Dynamic Options 30 FF 16 Section 7 DRL2000 Communication Formats 23 1 Common Formats a sambas br ih 7 2 Sur Gard DTMF Formats 3 ACON Formation a Aol TA Ad meo Contacl IDE tria 23 LD FAGEMEOEKPIESS sii ati 25 7 6 Ademco Super Fast High Speed Format 25 7 7 FBI Super Fast Format ES ATEO Mirto 29 11 Sensor cocida 7 10 Modem II Modem IIE Modem Illa and BESK For Mats caia 26 A A ON 26 212 Silent KMONEFSKT FSKZ nai aa 26 7 13 Silent Knight FSK2 Protocol 26 7 14 Sescoa Super Speed
19. l TS OG Ooo Oo I TIGI OIE E GG o eo elo o co Oi E E po D D E DD E D D GHG go o ol O elelelelelelelelelelelele e e e e e gt moO BA e e e e Sodo violi Je ADD EI EI Cl JH O D D eg o go D O o O DI D D O E D D D D jo g0 0000000 e e e e e e e e e e e e e e e e e e d m O Ethernet Repeater A se E E c o culo Torie Sisto TiTe Soppodanad o n um Y Y an EE Cy L JH Q Q Q O um ses JUU D Di CEE O O Of g 0 O O O O O g Ethernet Repeater B e e e e e e e e e e e e e pra o S sesto ita idos Sdddq SUS 5 PORT A k G TORTA l e e a e lt e e e e e e e e e e S be sisi El O D D D og D O O jo O D D D O E D D D D O O O 0 Dj DI o o o DO e e e e e e e e e e e e e 5 3 5 la AD NOTE Battery wiring m should be run in conduit e e e e e and batteries should be E Reload de J DI DI UI LI J IL 1 gaiu UL i i a i i i i 7 E A i isted enclosure A QUI D o AF Recommended battdes elelelelelelelelelelelele 2x12V 140 190Ah Leg i i S 4 hours ba amp up batteies Il used in conjunction with m power generator 2 2 2 2 2 Model INTERSTATE SG8D POWER A BATTERY POWERS Ey Non Power a om Limited Circuit TI WARNING To reduce the EE L NOTE AC supply risk of electric shock this cords shall be run in conduit or be provided with equivalent mechanical protection Fan Supervision on PGM1 input CPM2000 module Ethernet Repeater B
20. 11 Jack Equipment Telephone IE Line N ES PA Telephone Network IE i Unused Pamarcation Telephone EY Fax Machine RJ 11 Jack Answering E System Telephone NOTICE The Ringer Equivalence Number REN for this terminal is 01 The REN assigned to each terminal equipment provides an indication of the maximum number of ter minals allowed to be connected to a telephone interface The termination on an interface may consist of any combination of devices subject only to the requirement that the sum of the Ringer Equivalence Numbers of all the devices does not exceed five Table of Contents Section 1 Introduction essen senesan 1 Tr 2CRM2000 tn sc aa 1 12 DRLZOOO 200 aida 1 1 3 Power and Supervision 1 4 CPM2000 Outputs Inputs 1 5 System Overview 1 6 Virtual Receiver Architecture 2 1 7 Number of Line Cards Supported 2 1 8 Tes els Narcea ida 2 19 Approval uta adn 2 1 10 Virtual Connectivity pe eapi 2 1 11 Internal 10B2 Ethernet 2 Section 2 Quick Start sss esse essen aaeeea eanne 3 2 1 Receiver Setup and Operation 3 2 2 BENCH e ll iatale ila 9 Section 3 Installation rrrciziiinenn 10 A pe hab fabio 10 3 2 eha DNS pioppo ato tdci bs 10 3 3 Mounting the Receiver 10 3 4 Printer CONCHAS cremita deca iaa autos 10 3 5 Computer Connections
21. 2 The calling control panel has finished sending its alarms and switched into 2 way audio mode 3 The DRL2000 will perform a Hook flash with the time value as programmed in Option 11 and then start to dial the digits programmed in Options A8 AF Options A8 AF must be programmed in the following manner Digits 1 9 are programmed as the numbers 1 9 The digit A must be programmed if a zero is needed any where in the dial string as the digit zero is used to indicate to the line card that there are no more digits to dial If a is needed e g 70 the transfer command in some PBX PABX switches program a B Similarly if a is needed program a C To get the line card to wait for 3 seconds in a dial string program a D For example to have the line card transfer a 2 way audio call to Ext 51386 with a 3 second pause between the transfer command and dialing Options A8 AF would be programmed as the following A8 B7 AC 60 AQ AE AD 00 AA 51 AE 00 AB 38 AF 00 Section 7 DRL2000 Communication Formats 7 1 Common Formats The following formats are commonly used o code e E 3 1 411 4 2 f ts 10 14 20 Baud Zone number or user number e E e ea Computer 101 1ssssss2255sAs266 14 6 e 3 1 4 2 formats with or without checksum 40 Baud a TEO 01 123 e 3 2 format 10 14 20 Baud option e 4 1 Extended format 10 14 20 Baud option 7 3 Acro
22. 210 357 Radio Xmtr VSWR 458 User on Premises 200 Fire supervisory Protection Loop Troubles 370 459 Recent Close 201 Low water pressure 370 Protection loop System Disables 500 and 510 202 Low CO2 371 Protection loop open Sounder Relay disables 520 203 Gate valve sensor 372 Protection loop short 520 Sounder Relay disabl 204 Low water level 373 Fire trouble 521 Bell 1 disable 205 Pump activated 374 Exit Alarm 522 Bell 2 disable 206 Pump failure Sensor Troubles 380 523 Alarm relay disable System Troubles 300 and 310 380 Sensor trouble 524 Trouble relay disable 300 System trouble 381 Loss of super RF 525 Reversing relay disable 301 AC loss 382 Loss of super RPM System peripheral Disables 530 and 540 302 Low system battery 383 Sensor tamper Communication Disables 550 and 560 303 RAM checksum bad 384 RF xmtr low battery 551 Dialer disabled 304 ROM checksum bad 385 Smoke Hi Sens 552 Radio xmitter disabled 305 System reset 386 Smoke Low Sens Bypasses 570 306 Panel program changed 387 Intrusion Hi Sens 570 Zone bypass 307 Self test failure 388 Intrusion Low Sens 571 Fire bypass 308 System shutdown 389 Detector Self Test Fail 572 24 Hour zone bypass 309 Battery test failure Open close 400 573 Burg bypass 310 Ground fault 400 Open Close 574 Group bypass Sounder Relay Troubles 320 401 O C by user 575 Swinger Bypass 320 Sounder relay 402 Group O C Test Misc 600 321 Bell 1 403 Automatic O C 601 Manual trigger test
23. Controls Ltd DSC warrants the original purchaser that for a period of twelve months from the date of purchase the product shall be free of defects in materials and workmanship under normal use During the warranty period Digital Security Controls Ltd shall at its option repair or replace any defective product upon return of the product to its factory at no charge for labour and materials Any replacement and or repaired parts are warranted for the remainder of the original warranty or ninety 90 days whichever is longer The original purchaser must promptly notify Digital Security Controls Ltd in writing that there is defect in material or workmanship such written notice to be received in all events prior to expiration of the warranty period There is absolutely no warranty on software and all soft ware products are sold as a user license under the terms of the software license agreement included with the product The Customer assumes all responsibility for the proper selection installation operation and maintenance of any products purchased from DSC Custom products are only warranted to the extent that they do not function upon delivery In such cases DSC can replace or credit at its option International Warranty The warranty for international customers is the same as for any customer within Canada and the United States with the exception that Digital Security Controls Ltd shall not be responsible for any customs fees taxes or VAT
24. DTMF DTMF 4 2 1 3 2 3 O 1400Hz FBI Super Fast 2300Hz DTMF DTMF 4 3 NO 2300Hz Franklin 2300Hz 1800Hz 20bps 3 1 4 1 or 3 2 4 2 NO 2300Hz Franklin 2300Hz 1800Hz 20bps 4 2 4 1 3 1 YES 2300Hz ITI ITI FSK 110 300 O ITI Modem II Modem Il FSK 110 FSK NO Modem Il Modem IIE Modem IIE FSK 300 FSK O Modem IIE Modem Illa Modem Il FSK 300 FSK NO Modem Illa Radionics 2300Hz 1800Hz 40bps 3 1 4 2 O 2300Hz Radionics 2300Hz 1800Hz 40bps 4 2 3 1 YES 2300Hz Radionics 2300Hz 1800Hz 40bps 3 1 parity O 2300Hz 4 2 parity Radionics 2300Hz 1800Hz 40bps 3 1 parity YES 2300Hz 4 2 parity RadionicsBFSK 1400Hz FSK 42 3 2 NO 1400Hz RadionicsBFSK 2300Hz FSK 42 3 2 NO 2300Hz Sescoa S Speed 2300Hz 1800Hz 40bps 4 3 Checksum NO 2300Hz S F Ademco Dual Tone DTMF DTMF 4 8 1 NO 1400Hz S F Ademco Dual Tone DTMF DTMF 4 8 1 Checksum NO 1400Hz SIA FS SIA FSK mark 110 bps Tonal data ACK Level 1 2 and 3 Space 300 bps Silent Knight Fast 1400Hz 1900Hz 14bps 3 1 4 1 or 3 2 4 2 NO 1400Hz Silent Knight Fast 1400Hz 1900Hz 14bps 4 2 4 1 3 1 YES 1400Hz Silent Knight FSKO 1400Hz FSK 110 4 1 NO 1400Hz Silent Knight FSK1 1400Hz FSK 110 4 1 NO 1400Hz Silent Knight FSK2 1400Hz FSK 110 4 2 NO 1400Hz Sur Gard 2300Hz DTMF DTMF 4 1 4 2 4 3 NO 2300Hz Sur Gard 2300Hz DTMF DTMF 4 3 Checksum NO 2300Hz Sur Gard Dual Tone DTMF DTMF 4 1 4 2 4 3 NO 1400Hz Sur Gard Dual Tone DTMF DTMF 4 3 Checksum NO 1400Hz WESTEC DTMF Contact ID Safety net Serial SF Ademco safety net Serial
25. Gard format The reporting of status on this port automation output CPM display and printer will relate to physical addressing Physi cal addressing was chosen to facilitate maintenance error outputs will include the physical address to assist in main tenance Overview of Communication When the CPM2000 receives data from a Line Card it for wards the data to the automation and awaits an acknowl edgment signal from the computer The CPM2000 also monitors the connection to the computer by sending a supervisory heartbeat signal to every port every 10 sec onds If the heartbeat transmission determines that the computer is off line or disconnected a message similar to this will be sent to the printer Com Absent or SG TCP IP Absent NOTE The message indicates the time and date that communications through COMI were deter mined to be interrupted When COM1 communications are re established a mes sage similar to this one will be printed Com Restored or SG TCP IP Restored NOTE The message indicates the time and date that communications through COM were deter mined to be re established CPM2000 Internal Status Messages Description 24V Battery Low 24V Battery Restored 5V Failure 5V Restored Fan Circuit Failure Fan Circuit Restored Operator activity mode Primary CPM2000 Failure Printer 1 Error Printer 1 Restored Printer 2 Error Printer 2 Restored Printer x Error Printer x Restored PSU2000 A
26. PC5015 V2 20 10 BPS Passed 40 BPS Passed 20 BPS Passed DSC PC2550 0 BPS Passed Ademco Contact ID passed 20 BPS Passed SIA Passed 40 BPS Passed DSC PC5016 V1 0 20 BPS Passed DSC PC3000 0 BPS Passed Ademco Contact ID Passed 20 BPS Passed SIA Passed 40 BPS Passed DSC PC5020 V3 20 10 BPS Passed DSC PC4000 0 BPS Passed 20 BPS Passed 20 BPS Passed Ademco Contact ID Passed 40 BPS Passed SIA Passed Any DTMF Format Passed DSC PC6010 V2 10 Ademco Contact ID Passed SIA Passed SIA Passed DSC PC4010 V1X 10 BPS Passed DSC PC8400 10 BPS Passed 20 BPS Passed 20 BPS Passed 40 BPS Passed 40 BPS Passed Any DTMF Format Passed Sur Gard 4 3 Passed SIA Passed DSC SN4030 V2 0Y SIA Passed DSC PC4010 V2 X 10 BPS Passed DSC SN4030 V3 0Y SIA Passed 20 BPS Passed DSC WLS 900 10 BPS Passed 40 BPS Passed 20 BPS Passed Any DTMF Format Passed 40 BPS Passed SIA Passed DTI DSS 665 20 BPS Not Verified DSC PC4010 V3 X 20 BPS Passed 40 BPS Not Verified Ademco Contact ID passed SIA Not Supported SIA Passed Electronics Line Summit 3208 10 BPS Not Supported DSC PC4020 V1 X 10 BPS Passed 20 BPS Not Supported 20 BPS Passed Ademco Contact ID Fair 40 BPS Passed Scantronics Not Recom Any DTMF Format Passed mended SIA Passed SIA Fair DSC PC4020 V2 X 10 BPS Passed FBI XL4600 10 BPS Passed 20 BPS Passed 40 BPS Passed 40 BPS Passed FBI XL4612 10 BPS Passed Any DTMF Format Passed 20 BPS Passed SIA Passed 40 BPS Passed DSC PC4020 V3 X 10 BPS Passed FBI Superfast Passed 20 BP
27. The MLR2000 is a Multi Line Multi Format Digital Receiver for commercial fire and burglary The basic unit consists of 60 indi vidual line cards DRL2000 connected to a dual redundant cen tral resource router and protocol converter CPM2000 The MLR2000 includes many features especially high bandwidth internal buses and high bandwidth external connections to allow traditional network philosophies to be observed for the first time on a central station receiver The MLR2000 can decode a variety of popular and widely used communication formats Refer to Appendix A DRL2000 Communication For mats for a list of the available communication protocols The MLR2000 s real time clock and calendar stamps all infor mation received with the time and date and all information may be printed or forwarded to a computer To ensure security adjustment of the clock calendar and other programming is protected by password codes 1 1 CPM2000 The CPM2000 Central Processing Module oversees opera tion of the receivers Along with its built in keypad and LCD message screen the CPM2000 features TCP IP two parallel printers one serial printer and two serial computer interface capability 1 2 DRL2000 Each DRL2000 module can monitor two telephone lines The line card module is equipped with a 256 event non volatile memory buffer to record events and correspond ing telephone numbers Caller Source capability is built in and telephone numbers can be print
28. The sec ond digit indicates the highest zone that will activate audio Option 7D may be used with 10 to 40 Baud for mats DTMF 4 1 4 2 and 4 3 formats 19 Opt Opt ion 7E Audio RS 232 Default 00 This is the code sent to the automation software that indicates that two way audio has been initiated If this option is set to 00 there will be no audio initiated mes sage sent to the automation output If set to 01 the automation message for audio will be generated with protocol ID S If set to 02 the automation message will be generated with protocol ID 0 00 No Automation Output 01 Send SRRLLL HAAAA NLFssoo DC4 02 Send ORRLLL HAAAA NLFssoo DC4 ion 7F Audio Format Enable Default 00 This option gives you the ability to enable and disable audio for selected formats A 1 in the formats bit posi tion will enable the format for audio A 0 in the for mats bit position will disable audio for the format BitO 3 Digit pulse format Bit 1 4 Digit pulse format Bit 2 DTMF format Bit3 Contact ID Bit 4 SIA format Bit 5 Modem Il format Bit6 ITI Format Bit 7 Westec format For example if the user wants audio to work only for 3 digit pulse and SIA formats Option 7F would have to be programmed as 11 hex which enables bit 0 and bit 4 Option 80 Kiss Off to Hang up Time Default 1F This option determines the delay between Kiss off and the release of the line The hex value programmed at th
29. a minimum of two ports The primary port is Sur Gard standard output and provides Sur Gard standard automa tion output Optional secondary automation communication will be provided to map to proprietary types It is expected that named virtual receiver types will be mapped to this out put In addition two way automation commands may be supported on this port Internal 10B2 Ethernet Internal Ethernet is not standard TCP IP instead it has allo cated proprietary type per Internet standards Full physical 10B2 requirements are met allowing approved segment interconnects to be used including hubs optical transceiv ers and wan interconnects wan interconnects preclude trap and capture commands Section 2 Quick Start 2 1 2 1 1 2 1 2 Receiver Setup and Operation Unpacking Carefully unpack the receiver and inspect for shipping damage If there is any apparent damage notify the car rier immediately Ethernet Connections NOTES Be sure to be properly grounded e Take a 50 ohm coaxial cable and connect one end to the BNC connector ETHERNET A of the CPM2000 The other end of the coaxial cable should be connected to the BNC connector ENET A IN of the backplane Figure 1 60 Line Cards Configuration e Take a 50 ohm coaxial cable and connect one end to the BNC connector ETHERNET B of the CPM2000 The other end of the coaxial cable should be connected to the BNC connector ENET B IN of the backplane e Make sure that
30. and not affect system performance and with redundant CPM s the B unit will take up where the A unit failed with a loss of no more than 30 seconds External networking components would necessarily be duplicated to take full advantage of this configuration Approvals Industry Approvals The MLR2000 in redundant configuration is listed under the following UL standards e UL 864 Control Units for Fire Protective Signaling Sys tems e UL 1610 Central Station Burglar Alarm Units This equipment should be installed in accordance with the requirements of NFPA72 NFPA70 and UL827 System Connectivity The system may have two identical CPMs both connected to internal resources Internal connections are A and B side 28 V power and A and B side 10B2 Ethernet Addi tional internal connections are power monitoring services on the primary rack External connections are two parallel 1 9 3 1 9 4 1 10 printer and three serial ports The serial ports are intended primarily for debug applications but may be used for fall back automation outputs optional The primary automa tion connection is via 10BT Ethernet connection Again if redundant CPM s are used the external network compo nents must be duplicated to allow for full redundancy Automation Mode In automation mode it is expected that the primary con nection is via TCP IP networking on the 10BT Ethernet connection A menu on the CPM2000 will prompt the user for the IP addr
31. between the Line Card 8 3 2 and the CPM2000 The CPM2000 is capable of polling more than 200 Line Cards in less than 2 seconds 8 3 3 e LCD contrast easily adjusted e Hot switching to secondary CPM2000 8 3 4 e 1 2 floppy drive for data input output and software upgrades Figure 8 CPM2000 Front View e Ethernet A and B to DRL2000 line cards e TCP IP output to automation software and MLR2000 console software e Two RS232 ports for automation software e 11 input outputs for BUZZER ACT etc e 2 relay outputs e Available COM1 and COM2 baud rates 110 150 300 600 1200 2400 4800 9600 19200 or 38400 e COM1 or COM2 Data bits 7 8 or 9 e COM1 or COM2 Parity Even odd or none e COM 1 or COM Stop Bits fixed at 1 e System menu for easy initial programming e Software Version 1 0 supports line cards and CPM2000 programming through TCP IP from a computer CPM2000 Controls e ACK Button Used to manually acknowledge an alarm event when a computer is not connected to the receiver Press the ACK button to turn the ACK light OFF and silence the buzzer ACK light Flashes when a message is received from the line card and the computer is disconnected Enter button Not used Backspace button Not used Escape button Not used ACK ENTER BACKSPACE ESCAPE TROUBLE O CPM2000 gt SG SECURITY COMMUNICATIONS 775
32. out and other trouble conditions The communication link to the com puter through the RS232 ports is monitored by the super visory heartbeat test transmissions 1 3 3 Compatibility Central station automation software packages such as e MAS eDICE eSIMSII e GENESYS SIS IBS e MicroKey support the MLR2000 Sur Gard interface Refer to automation software specifications for compati bility NOTES Automation connections are considered supplementary per UL864 Listing Compatibility with the automation software in a system used at a central station is intended to be handled under a separate UL1981 software and or site certification evaluation 1 4 CPM2000 Outputs Inputs e The CPM2000 features four switched negative PGMOUT1 is activated when automation fails outputs two relay outputs and four inputs 1 5 System Overview e Patented Caller Identification Call Display capability e Patent Pending DNIS Identification e nonvolatile RAM on each DRL2000 line card module for programming and event buffer e Fast Ethernet communication between line cards and CPM e Flash download for software upgrades e Up to 64 different options set profiles per line e Patented virtual configurations e 3 1 4 2 formats with or without parity 4 1 without par ity at 10 14 20 or 40 baud e 4 1 4 2 4 3 and 4 3 DTMF formats e Optional formats 3 2 4 1 4 2 extended e ACRON DTMF format e Contact ID DTMF format e Adcor 20 baud e Su
33. presented is the selection of ports that may be supervised for the pur poses of restorals or fall down Section 11 PSU2000 Power supply Module AC O BATTERY OK O TROUBLE 35 AC LED It indicates the presence of AC BATTERY OK LED It indicates the battery status ON when battery is charged Trouble LED It indicates a trouble in the power supply Section 12 Automation Protocols The Sur Gard MLR2000 receiver sends the various protocols to report signals to the central station computer via an RS232 port The complete description of protocols is available upon request 12 1 12 2 Data Byte protocol The Sur Gard MLR2000 receiver uses a default configura tion of 9600 Baud one start bit 8 data bits no parity bit and one stop bit structure to transmit and receive signals on the RS 232 port This protocol can be programmed on the receiver to enable different configurations Acknowledgment of the Signal The Sur Gard receiver requires an acknowledgment signal ACK Hex 06 from the computer software within 4 sec onds for each message sent Failure to receive the ACK will result in the retransmission of the same signal three times before giving up The same thing happens if the receiver receives a NAK hex 15 In case of communica tion failure with the computer the Sur Gard receiver can store up to 127 times the number of lines installed in its internal memory The communi
34. supported by the MLR2000 3 3 Mounting the Receiver Install the MLR2000 in a closed 19 rack or cabinet with a locking rear access door Cover all unused spaces with blank metal plates The LCD screen on the receiver is designed to be viewed below eye level A Stand up Unit 61 25 tall up to 60 telephone lines part 490000016 can be supplied for a complete installation NOTE If 60 telephone lines are not used cover each unused location with a blank plate 3 4 Printer Connections The following UL Listed printers can be used with the MLR2000 Sur Gard CPU 1150 Panasonic KX P1150 DMP SCS PTR Okidata Microline 182 184 Connect the parallel printers to the MLR2000 printer out put ports using parallel printer cables NOTE A minimum of two printers are required for UL Listed applications Do not use a printer cable which has only 1 common ground wire Computer Connections Connect the computer to the MLR2000 RS232 port using a serial cable to COM 3 5 CPM2000 DB 9 Female CPM2000 DB 9 Female Computer DB 9 Female Computer DB 25 Female FRAME 1 FRAME e 2 RX RX 3 TX TX FRAME FRAME 1 2 3 4 5 GND 6 8 o 2 fo VOL AA MA vos AM da UO NO 3 4 5 6 DSR 8 9 20 N C NOTE Pins 1 4 and 6 on the receiver side are con nected together Pin 7 and 8 are also shorted together Pin 9 is not connected
35. to the printer 01 Send to the printer each alarm will print an extra line showing the Caller ID 04 Send to the printer each alarm will print an extra line showing the ANI number NOTE To use Option 14 Option 12 must be pro grammed as 01 for Caller ID or 4x to use ANI Where x represents the number of DNIS digits including the terminator digit Option 17 DMP User Length Default 00 Option 17 is for the variable length zone and user num bers The first digit in the option represents the user num ber and the second digit represents the zone number For example if Option 17 is set for 24 then the receiver will output a 2 digit user number and a 4 digit zone number The default value is 00 for 2 digit zone and 2 digit user number NOTE This option will only apply to Serial 1 mes sages Option 18 SG 4 3 DTMF Default 00 Upper nibble do regular decoding default perform group open close decoding loser nibble Lower nibble no user conversions default do SG4 3 user conversions add 3 digit user code to automation add 3 digit user code to automation do SG4 3 user conversions 0 1 UNO Option 19 Fault Call Counter Default 00 Option 19 is used for limiting the number of Fault Call messages that are sent to the printer and computer The default setting will send a Fault Call alarm for every 10 Fault Calls To have every Fault Call sent to the com puter and printer set Opti
36. tonal by default The transmitter may however request data acknowledg ment by transmission of the optional configuration block When the DRL2000 receives the configuration block from a transmitter requiring data acknowledgment it will send the tonal acknowledgment to this block It will then send the data acknowledgment to the following data blocks if the data received is valid Example e Printer Jul 20 1998 17 30 16 01 02 SG 01 123 1234 NMO08 e Computer S011 1234 NBA08 26 7 12 Silent Knight FSK1 FSK2 7 12 1 Silent Knight FSK1 Protocol 7 13 ERRLLLSSsSAAAAAAXXssss DC4 Where E FSK protocol identifier RR Receiver number LLL Line number S Spaces AAAAAA Account number if the account is 4 or 5 dig its the leading A s will be replaced by Spaces XX Alarm code Possible alarm codes are as follows 00 Alarm Panic 01 08 Alarm 01 08 09 Holdup 10 19 Alarm 10 19 30 Test code 31 Trouble line 1 32 Trouble line 2 33 Expand trouble 34 Forced access 35 Restore line 1 36 Restore line 2 37 Expand restore 38 Cancel code 39 Data lost 40 Closing 41 49 Closing 1 9 50 59 Bypass 10 19 60 Trouble AC 61 68 Trouble 1 8 69 Trouble bat 70 Restore AC 71 78 Restore 1 8 79 Restore bat 80 Access 81 89 Access 1 9 90 Opening 91 99 Opening 1 9 DC4 Represents the terminator Example e Printer L1 1234 03 LIBRARY WORD HH MM SS DD MM e Computer E01001 123403 14 Silent Knight FS
37. 0 017 11 0001 000 081 51 0101 000 45 91 0101 000 209 DI 0101 000 018 12 0001 0010 082 52 0101 0010 46 92 0101 0010 210 D2 0101 0010 019 13 0001 001 083 53 0101 001 47 93 0101 001 211 D3 0101 001 020 14 0001 0100 084 54 0101 0100 48 94 0101 0100 212 D4 0101 0100 021 15 0001 010 085 55 0101 010 49 95 0101 010 213 D5 0101 010 022 16 0001 0110 0860 56 0101 0110 50 96 0101 0110 214 D6 0101 0110 023 17 0001 011 87 57 0101 011 51 97 0101 011 215 D7 0101 011 024 18 0001 1000 088 58 0101 1000 52 98 0101 1000 216 D8 0101 1000 025 19 0001 100 089 59 0101 100 53 99 0101 100 217 D9 0101 100 026 1A 0001 1010 090 5A 0101 1010 54 9A 0101 1010 218 DA 0101 1010 027 1B 0001 101 091 5B 0101 101 55 9B 0101 101 219 DB 0101 101 028 1C 0001 1100 092 5C 0101 1100 56 9C 0101 1100 220 DC 0101 1100 029 1D 0001 110 093 5D 0101 110 57 9D 0101 110 221 DD 0101 110 030 1E 0001 1110 094 5E 0101 1110 58 9E 0101 1110 222 DE 0101 1110 031 1F 0001 111 095 5F 0101 111 59 OF 0101 111 223 DF 0101 111 032 20 0010 0000 096 60 0110 0000 60 AO 0110 0000 224 EO 0110 0000 033 21 0010 000 097 61 0110 000 61 Al 0110 000 225 E1 0110 000 034 22 0010 0010 098 62 0110 0010 62 A2 0110 0010 226 E2 0110 0010 035 23 0010 001 099 63 0110 001 63 A3 0110 001 227 E3 0110 001 036 24 0010 0100 00 64 0110 0100 64 A4 0110 0100 228 E4 0110 0100 037 25 0010 010 01 65 0110 010 65 A5 0110 010 229 E5 0110 010 038 26 0010 0110 02 66 0110 0110 66 A6 0110 0110 230 E6 0110 0110 039 27 0010 011 03 67 0110 011 67 A7 0110 011 23
38. 1 1RROOOsssssssssss ssss DC4 RR Receiver number Real programmed number Never virtual s Space Character Supervisory Signal DC4 Terminator 14 Hex This signal is used to supervise the communication between the receiver and the computer It is sent to the computer about every 30 seconds and is programmable from the receiver The computer should acknowledge this signal with an ACK The CPM can be programmed to send a test signal to the computer once every 01 99 seconds to test the connec tion between the CPM and the computer 30 seconds is recommended If a heartbeat fails to get a response from the computer the CPM will immediately transmit the heartbeat again up to 4 attempts If all automation outputs failed the CPM will start the manual mode operation See manual mode If the line cards buffers are full the line cards will stop answering the calls Appendix A DRL2000 Communication Formats NAME HANDSHAKE DATA BAUD FORMAT EXTENDED KISS OFF Ademco Express Dual Tone DTMF DTMF 4 1 oprion 4 2 NO 1400Hz Ademco Slow 1400Hz 1900Hz 10bps 3 1 4 1 or 3 2 4 2 NO 1400Hz Ademco Slow 1400Hz 1900Hz 10bps 4 2 4 1 3 1 YES 1400Hz ADT Focus ADT Multi point Il ADT SIA Contact ID Dual Tone DTMF DTMF 10 2 1 3 2 O 1400Hz Contact ID Dual Tone
39. 1 EZ 0110011 040 28 0010 1000 04 68 0110 1000 68 A8 0110 1000 232 E8 0110 1000 041 29 0010 100 05 69 0110 100 69 A9 0110 100 233 E9 0110 100 042 2A 0010 1010 06 6A 0110 1010 70 AA 0110 1010 234 EA 0110 1010 043 2B 0010 101 07 6B 0110 101 71 AB 0110 101 235 EB 0110 101 044 2C 0010 1100 08 6C 0110 1100 72 AC 0110 1100 236 EC 0110 1100 045 2D 0010 110 09 6D 0110 110 73 AD 0110 110 237 ED 0110 110 046 2E 0010 1110 10 6E 0110 1110 74 AE 0110 1110 238 EE 0110 1110 047 2F 0010 111 11 6F 0110 111 75 AF 0110 111 239 EF 0110 111 048 30 0011 0000 12 70 0111 0000 76 BO 0111 0000 240 FO 0111 0000 049 31 0011 000 13 71 0111 000 77 B1 0111 000 241 F1 0111 000 050 32 0011 0010 14 72 0111 0010 78 B2 0111 0010 242 F2 0111 0010 051 33 0011 001 15 73 0111 001 79 B3 0111 001 243 F3 0111 001 052 34 0011 0100 16 74 0111 0100 80 B4 0111 0100 244 F4 0111 0100 053 35 0011 010 17 75 0111 010 81 B5 0111 010 245 F5 0111 010 054 36 0011 0110 18 76 0111 0110 82 B6 01110110 246 F6 01110110 055 37 0011 011 19 17 0111 011 83 B7 0111 011 247 F7 0111 011 056 38 0011 1000 20 78 0111 1000 84 B8 0111 1000 248 F8 0111 1000 057 39 0011 100 21 79 0111 100 85 B9 0111 100 249 F9 0111 100 058 3A 0011 1010 22 7A 0111 1010 86 BA 0111 1010 250 FA 0111 1010 059 3B 0011 101 23 7B 0111 101 87 BB 0111 101 251 FB 0111 101 060 3C 0011 1100 24 7C 0111 1100 88 BC 0111 1100 252 FC 0111 1100 061 3D 0011 110 25 7D 0111 110 89 BD 0111 110 253 FD 0111 110 062 3E 0011 1110 26 7E 0111 1110 90 BE 0111 1110 254 FE 0
40. 111 1110 063 3F 0011 111 27 7F 0111111 91 BF 0111111 255 FF 0111111 39 Appendix C ASCII Character Chart Corresponding ASCII HEX Character with library on printer Option 70 20 Space 30 31 32 33 34 35 36 37 38 39 41 42 43 44 45 46 47 48 49 4A 4B 4C 4D 4E 4F 50 51 52 53 54 55 56 57 58 59 5A ZIN lt x s lt c gt O 3 o z z TI A TK TP FT T ml Gl l gt 9 0 au Bj win O 5C 40 Appendix D Printer Words Options 60 6F The English Printer Library is provided and can be selected by programming the event codes to the corresponding word Words available Hex amp Printer Words 00 MEDICAL 01 PENDANT TRANSMITTER 02 FAIL TO REPORT IN 03 RESERVED 04 RESERVED 05 RESERVED 06 RESERVED 07 RESERVED 08 RESERVED 09 RESERVED OA FIRE ALARM OB SMOKE UC COMBUSTION 0D WATER FLOW OE HEAT OF PULL STATION 10 DUCT 11 FLAME 12 NEAR ALARM 13 RESERVED 14 PANIC ALARM 15 DURESS 16 SILENT 17 AUDIBLE 18 POLICE 19 DURESS 1A RESERVED 1B RESERVED 1G RESERVED 1D RESERVED 1E BURGLARY 1F PERIMETER 20 INTERIOR 21 24 HOUR 22 ENTRY EXIT 23 DAY NIGHT 24 OUTDOOR 25 TAMPER 26 NEAR BURGLARY ALARM 27 SILENT BURG ALARM 28 GENERAL ALARM 29 POLLING LOOP OPE
41. 1234sAss02 14 6 Printer Jun 25 1998 14 17 50 F3 00 SG 01 123 1234 02 ALARM ZONEO2 e With option 9F enabled Computer 801001 123455155s5555s7 14 6 Printer Jun 25 1998 14 21 50 01 02 SG 01 123 1234 515555557 FBI Super Fast Format This DTMF format consists of 4 digit account codes 2 digit zone codes 1 digit zone type codes and 1 digit event codes The zone codes will be converted into 3 digit decimal codes by the DRL2000 The following are the zone type codes used by this for mat FBI Event Fire Panic Burglary MedicaL Auxiliary Bypass Inactive Eight Code Converted Event Code AON AUN E UKM A Km KK KK T 25 7 8 7 9 FBI Event Code Converted Event Code Nine 9 A Zero 0 A Opening B O Closing C C Abort D T Restore E R Trouble F T NOTE Note that option A1 can give a unique FBI R 232 output when enable Example e FBI RS232 Option On Computer JO112323452032 14 Printer 20 Jul 1998 13 12 29 Jul 20 1998 13 14 51 01 2 SG 01 123 2345 003 PANIC s FBI RS232 Option Off Computer 101123 2345 O 001 14 Printer 20 Jul 1998 13 52 35 Jul 20 1998 13 54 57 01 02 SG 01 123 2345 001 OPENING ITI Format The ITI format covers ITI panels listed in Appendix E In order to receive the ITI format the handshake 10 must be programmed ITI Sensor Library Sensor Printed Out AsSpecifics 00 Buddy AlarmSX V Only 01 32 ALARMCaretaker Plus 00 16 AlarmRF Commander Commander III 02 07 AlarmSX IVB
42. 2 SG 01 123 7112 BATTERY MISSING s Modem II RS 232 option OFF Computer Output 101001 7112 R FO1 14 Printer Output 23 Jun 1998 11 07 47 Jun 23 1998 11 11 45 01 02 SG 01 123 7112 PROG ACCESS OK 7 10 2 BFSK Example e BFSK option ON Computer Output 601001 112F 1 14 Printer Output 22 Jun 1998 11 17 26 Jun 22 1998 1 1 21 32 01 02 SG 01 123 112 FIRE ALARM e BFSK option OFF Computer Output 101001 112F 1 14 Printer Output 22 Jun 1998 13 05 17 Jun 22 1998 13 09 23 01 02 SG 01 123 112 FIRE ALARM 7 11 SIA FSK The SIA digital format is a modem format communicating at 110 or 300 Baud and using the SIA protocol to transfer information to the computer The standard DRL2000 can receive Bell 103 modem fre quencies NOTE The DRL2000 can accept SIA formats with and without separators The DRL2000 version 1 4 software implements Levels 1 2 and 3 of the SIA 1993IIb Digital Communication Standard but it does not support Receiver Call out and Access Pass code Block Reverse Channel Block and V Channel Communications The DRL2000 supports an account code with a maximum of 16 digits including any displayable ASCII characters except the pipe symbol It also supports an alarm code with a maximum of 4 digits Usually the central sta tion automation refers to the SIA Event Block Data Code Definitions for information on interpreting the alarm codes Acknowledgments for the SIA format are
43. 2 way audio feature program Option 04 as 00 NOTE Enabling 2 way audio will affect NFPA 72 sys tem loading requirements Refer to Par 4 5 3 2 2 2 of NFPA 72 for details Option 05 Pre H S Duration Default 0A When the line card seizes the line it will wait the time pro grammed at Option 05 then send the first handshake The value programmed hex at this location will be multi plied by 100 ms e g 100 ms 200 ms The default is 0A for 1000ms 100ms x default value The minimum time is 1 second If the option is pro grammed with any value lower than OA the line card will use a 1 second delay Options 06 to 10 Reserved Option 11 Hook flash Enable Disable Default 00 Enables or disables ability to hookflash the phone line and determines its duration in increments of 10 ms If programmed as 00 the option is disabled If set to any thing else you multiply the decimal equivalent of the hex value by 10 ms and that is the duration For example if hookflash time of 500 ms is wanted program Option 2A to 32 Hex 500 ms 10 50 50 Dec 32 Hex Option 12 Caller Source ID Option Default 00 Option 12 allows the line card to receive Caller Identifica tion data or DNIS that is transmitted after the first ring on the telephone line The appropriate service must be avail able and requested from the Telephone Company for this feature to be operational 00 Disabled 01 Standard Bellcor
44. C Source A Failure PSU2000 AC Source A Restored PSU2000 AC Source B Failure PSU2000 AC Source B Restored PSU2000 DC Source A Failure PSU2000 DC Source A Restore PSU2000 DC Source B Failure PSU2000 DC Source B Restore Secondary CPM2000 Failure Serial Port 1 not responding Serial Port 1 responded ACK Serial Port 2 not responding Serial Port 2 started polling TCP IP Printer error TCP IP Printer Restored TCP IP Socket 1025 Failed TCP IP Socket 1025 Restored UPS AC Fail PGM UPS AC Restored UPS Low Battery Restore UPS Low Battery Secondary CPM2000 Failure Line Fault L F ine Restore ault Call Fault Data Line Card Reset Line Card Restored Line Card Absent Primary CPM2000 Reset Secondary CPM2000 Reset Line Card Busy Buffer Full Internal communication error with Line card Checksum fail on DRL2000 Boot up Internal Communication Error with Computer where SS XXXX Printer Message 24V Battery Low 24V Battery Restored 5V Failure 5V Restored Fan Circuit Failure Fan Circuit Restored Programming Entered Primary CPM2000 Failure Printer 1 Error Printer 1 Restored Printer 2 Error Printer 2 Restored Printer x Error Printer x Restored PSU AC A Fail PSU AC A Restored PSU AC B Fail PSU AC B Restored PSU DC A Fail PSU DC A Restore PSU DC B Fail PSU DC B Restore Secondary CPM2000 Failure COM 1 Absent COM 1 Restored COM 2 Absent COM 2 Restored TCP IP Printer Error TCP IP Pr
45. C supply cords shall be run in conduit or be provided with equivalent mechanical protection Figure 4 72 Line Cards Configuration Expansion Cabinet product is provided with a grounding type power supply cord Connect product to a grounded receptacle 120V 60Hz 10A mm Fan Tray BRREERRE TS olc 1 CO O O a OIL JD oo O O O 8 O C OD D E Di D Di D D Di DID db a D D P O D O DIO elelelelelelelelelelelelele
46. CCCC DCA Where 9 protocol number RR receiver number LLL line number ssss spaces AAAA account code CCCC channel 1 4 CCCC channel 5 8 DC4 terminator Option 9D MODEM II RS 232 Default 01 The DRL2000 is able to decode the Modem Il formats The handshake OB needs to be programmed as one of the handshakes of the DRL2000 for the Modem Il and handshake OE for Modem IIE or Modem IIIa Option 9D determines the protocol sent to the computer Note that this option will also affect the BFSK format only if programmed as 00 or 01 00 6500 protocol 1RRLLLssssssAAAAXXYYYY DC4 01 SG protocol 6RRLLLssssssAAAAXXYYYY DC4 02 Modemll to SIA protocol 03 Modemll to SIA protocol and text is decoded and sent to printer and computer 21 NOTE Ensure that the automation software sup ports settings 02 and 03 if the SIA protocol is desired Option 9E Reserved Option 9F Ademco High Speed RS 232 Default 01 When this option is programmed as 00 the DRL2000 will convert the High Speed format signal into 4 2 format E g 1RRLLLssssssAAAASXssYY DC4 If it is programmed as 01 the Ademco High Speed will be sent to the computer as indicated below 8RRLLLAAAAsCCCCsCCCCsC DC4 Where 8 protocol number RR receiver number LLL line number AAAA account code CCCC channel 1 4 S space CCCC channel 5 8 S Space C Channel 9 DC4 terminator Option A0 Reserved
47. CK Button Not used CANCEL Button Not used DEBUG HANDSET Not used DEBUG Connection to a PC for trou bleshooting F1 F2 Buttons Press and hold both buttons simultaneously on power up for 10 seconds will reset the line card to factory default Section 5 DRL2000 Operating Mode 5 1 5 1 1 5 1 2 DRL2000 Standby Mode After start up the Line Card enters the Stand by Mode and monitors the telephone line and the CPM2000 Depending on the system s status the following condi tions will be indicated e Line Fault light e Trouble light of Line Card communication problem with CPM2000 Line Fault The DRL2000 verifies the telephone line voltage The Line Fault light will come ON when the voltage drops below 12V If the Line Check option is enabled the following informa tion will be transmitted to the printer and computer e Printer Jul 17 1998 08 08 28 SS OO SG RR LLL 0000 PHONE LINE TROUBLE e Computer ORRLLL H0000 NLTSSOO DC4 A hexadecimal number from 00 to OB representing the slot number of the Line Card will be sent for each O shown above A hexadecimal number from 01 to FE representing the shelf number of the Line Card will be sent for each S shown above If the Line Check option is disabled the DRL2000 will not send the report to the printer or computer Refer to DRL2000 Programmable Features for information on enabling the Line Check option When the line condition returns to
48. DMP Serial 1 DMP FSK 110 DMP NO DMP DMP Serial 3 DMP FSK 110 DMP NO DMP Varitech 2300Hz FSK 110 4 1 4 2 NO 2300Hz Adcor 2300Hz Pulse Pulse 3 1 3 2 NO 2300Hz Not available on the standard version 38 Appendix B Decimal HEX Binary Conversion Chart DEC HEX Binary DEC HEX Binary DEC HEX Binary DEC HEX Binary 000 00 0000 0000 064 40 0100 0000 28 80 0100 0000 192 CU 0100 0000 001 01 0000 000 065 41 0100 000 29 81 0100 000 193 C1 0100 000 002 02 0000 0010 066 42 0100 0010 30 82 0100 0010 194 C2 0100 0010 003 03 0000 001 067 43 0100 001 31 83 0100 001 195 G3 0100 001 004 04 0000 0100 068 44 0100 0100 32 84 0100 0100 196 C4 0100 0100 005 05 0000 010 069 45 0100 010 33 85 0100 010 197 C5 0100 010 006 06 0000 0110 070 46 0100 0110 34 86 0100 0110 198 C6 0100 0110 007 07 0000 011 071 47 0100 011 35 87 0100 011 199 C7 0100 011 008 08 0000 1000 072 48 0100 1000 36 88 0100 1000 200 C8 0100 1000 009 09 0000 100 073 49 0100 100 37 89 0100 100 201 c9 0100 100 010 OA 0000 1010 074 4A 0100 1010 38 8A 0100 1010 202 CA 0100 1010 011 0B 0000 101 075 4B 0100 101 39 8B 0100 101 203 CB 0100 101 012 UC 0000 1100 076 4C 0100 1100 40 8C 0100 1100 204 CC 0100 1100 013 0D 0000 110 077 4D 0100 110 41 8D 0100 110 205 CD 0100 110 014 OE 0000 1110 078 4E 0100 1110 42 8E 0100 1110 206 CE 0100 1110 015 OF 0000 111 079 4F 0100 111 43 8F 0100 111 207 CF 0100 111 016 10 0001 0000 080 50 0101 0000 44 90 0101 0000 208 DO 0101 000
49. DSC technician When programmed as 00 the inter burst has a time of 100 ms all other values are in 10 ms increments 00 100 ms default 01 10ms 02 20 ms and so on Option 7A Account Codes to Activate 2 Way Audio Default 00 Option 7A determines which account codes will be able to activate the 2 way audio feature Program the first dig its of the desired account codes in Option 7A For example To allow all account codes between 1000 and 2FFF to activate the 2 way audio function program Option 7A as 12 To allow all account codes between 3000 and 6FFF to activate the 2 way audio function program Option 7A as 36 To disable the 2 way audio function program Option 7A as 00 NOTE Option 7A may be used with any formats supported by the MLR2000 Option 7B 3 Digit Account Codes to Activate 2 Way Audio Default 00 Option 7B determines which 3 digit account codes will be able to activate the 2 way audio feature Program the first digits of the desired account codes in Option 7B For example To allow all 3 digits account codes between 200 and 3FF to activate the 2 way audio function program Option 7B as 23 To allow all 3 digit account codes between 300 and 6FF to activate the 2 way audio function program Option 7B as 36 Program Option 04 as 00 to disable this function NOTE Option 7B may be used with any 3 digit account code formats supported by the MLR2000
50. ERVED E5 RESERVED B6 ACCESS DENIED E6 RESERVED B7 ACCESS REPORT BY USER E7 RESERVED B8 RESERVED E8 ANUAL TRIGGER TEST B9 RESERVED E9 PERIODIC TEST REPORT BA RESERVED EA PERIODIC RF TRANSMISSION BB RESERVED EB FIRE TEST BC RESERVED EC STATUS REPORT TO FOLLOW BD RESERVED ED LISTEN IN TO FOLLOW BE GROUP CLOSING EE WALK TEST MODE BF GROUP OPENING EF OFF NORMAL CONDITION co ARMED STAY FO VIDEO TRANSMITTER ACTIVE C1 O C EXCEPTION F1 RESERVED C2 EARLY O C F2 EVENT LOG OVERFLOW C2 LATE O C F3 TIME DATE RESET C4 FAIL TO O C F4 TIME DATE INACCURATE C5 AUTO ARM FAIL F5 PROGRAM MODE ENTRY C6 O C PARTIAL ARMED F6 PROGRAM MODE EXIT C7 EXIT ERROR F7 EXCEPTION SCHEDULE CHANGE c8 USER PRESENT F8 EVENT LOG 50 FULL C9 RECENT CLOSE F9 EVENT LOG 90 FULL CA SOUNDER RELAY DISABLED FA EVENT LOG RESET CB BELL 1 DISABLE FB SCHEDULE CHANGE 42 Appendix E Panels Compatibility List 43 Panel Formats Passed Failed Panel Formats Passed Failed Acron Avenger 4000 20 BPS Not Verified C amp K System 236 10 BPS Passed Acron Superfast Not Verified 20 BPS Passed Adcor PPD 3 Not Verified Any DTMF Format Passed ADT Safewatch Pro 3000 Ademco Contact ID passed C amp K System 238 10 BPS
51. Example 2 Code B1 Computer output 104091sssssss022s0sss1 If Option A3 set to 03 the hex digit will be stripped for 1 and 2 digit reporting codes including Varitech If Option A3 set to 04 the hex digit will be stripped for BFSK NOTE This option will only work if Option A4 is set to 01 Example 1 Code 21 Computer output 604091sssssss022sAss2 1 Example 2 Code B1 Computer output 604091sssssss022s0Osss1 If Option A3 is set to 05 the hex digit will be stripped for 1 digit reporting and BFSK If Option A3 Is set to 06 the hex digit will be stripped for 2 digit reporting and BFSK If Option A3 set to 07 the hex digit will be stripped for 1 digit 2 digit and BFSK NOTE Option 70 must be left as an individual event code when enabling this option Option A4 BFSK RS 232 Default 00 When programming Option A4 as 00 the BFSK format will be reported as Radionics 6500 BFSK mode to the computer the protocol identifier will be a 6 Example 1 Code 21 Computer Output 604091 022sAsss1 Example 2 Code B1 Computer Output 604091 022s0sss1 When Option A4 set to 01 the BFSK will be reported as a standard 3 1 extended format the protocol identifier will also be changed from 6 to 1 Example 1 Code 21 Computer Output 104091 022sAss2 1 Example 2 Code B1 Computer Output 104091 022s0ssB1 Option A5 Sescoa Super Speed Default 01 If set to 00 Sescoa Super Speed will be disabled and 4 2 with checksum
52. K2 Protocol The DRL2000 will provide two possible outputs to the computer according to the value set under option A7 When the option is programmed as 02 the computer output will be as follows FRRLLLssssAAAAAAYYZZss DC4 Where F FSK2 protocol 1 identifier RR Receiver number LLL Line number S Spaces AAAAAA Account number if the account is 4 or 5 dig its the leading A s will be replaced by spaces YY Event code ZZ Zone user number DC4 Represents the terminator Possible events are as follows YTOO Battery Trouble YROO Battery Restore ATOO System Trouble AC DOZZ Access left open ID ZZ DFZZ Access forced ID ZZ DSZZ Access Station ID ZZ AJOO System Restore AC LTOZ Trouble phone line 0Z Restore phone line OZ Expand trouble device ID z Expand restore device ID z ETZZ Expand trouble station ID ZZ ZZ 17 31 ERZZ Expand restore station ID ZZ ZZ 17 31 RPOO Automatic test RXZZ Manual test zone ZZ CA Automatic closing OA Automatic opening CLZZ Normal closing ID ZZ OPZZ Normal opening ID ZZ CFZZ Forced closing ID ZZ ORZZ Forced opening ID ZZ Supervised closing ID ZZ OTZZ Supervised opening ZZ C OUS Closing area Oa OG0a Opening area 0a DRZZ Access granted ID ZZ When the option is programmed as 01 the com puter output will be as follows CRRLLLssssSAAAAAAXYZZss DC4 Where C FSK2 protocol 2 identifier RR Receiver number LLL Line number S Spaces AAAAAA Account number if the a
53. N 2A POLLING LOOP SHORT 2B EXPANSION MODULE FAILURE 2C SENSOR TAMPER 2D EXPANSION MODULE TAMPER 2E SILENT ALARM 2F AUXILIARY 30 NO ACTIVITY 31 DOOR FORCED 32 24 HOUR NON BURGLARY 33 GAS DETECTED 34 REFRIGERATION 35 LOSS OF HEAT 36 WATER LEAKAGE 37 FOIL BREAK 38 LOW BOTTLED GAS LEVEL 39 HIGH TEMPERATURE 3A LOW TEMPERATURE 3B DAY TROUBLE 3C LOSS OF AIR FLOW 3D EXPLOSIVE GAS 3E CARBON MONOXIDE 3F FAIL TO CHECK IN _ GUARD S TOUR 40 FREEZE ALARM 41 SPRINKLER 42 LATCHKEY 43 DOOR LEFT OPEN 44 RESERVED 45 RESERVED Hex Printer Words 46 FIRE SUPERVISORY 47 LOW WATER PRESSURE 48 LOW CO2 49 GATE VALVE SENSOR 4A LOW WATER LEVEL 4B PUMP ACTIVATED 4C PUMP FAILURE 4D ENVIRONMENTAL 4E EMERGENCY 4F FOIL ALRM 50 SYSTEM TROUBLE 51 AC LOSS 52 LOW SYSTEM BATTERY 53 RAM CHECKSUM BAD 54 ROM CHECKSUM BAD 55 SYSTEM RESET 56 PANEL PROGRAM CHANGED 57 SELF TEST FAILURE 58 SYSTEM SHUTDOWN 59 BATTERY TEST FAILURE 5A GROUND FAULT 5B REPEATER TAMPER 5C RF RECEIVER TAMPER 5D RESERVED 5E RESERVED 5F RESERVED 60 RESERVED 61 RESTORE ALARM 62 OPENING ALARM 63 CLOSING ALARM 64 SOUNDER RELAY 65 BELL 1 66 BELL 2 67 ALARM RELAY 68 TROUBLE RELAY 69 REVERSING 6A RESERVED 6B RESERVED 6C RESERVED 6D RESERVED 6E SYSTEM PERIPHERAL 6F POLLING LOOP OPEN 70 POLLING LOOP SHORT 71 EXPANSION MODULE FAILURE 72 REPEATER FAILURE 73 LOCAL PRINTER PAPER OUT 74 LOCAL PRINTER FAILURE 75 EXPANSION MODULE DC LOSS 76 EXPANSION MODULE LOW BATTE
54. Passed Ademco Vista 10 BPS Passed 20 BPS Passed DTMF Passed 40 BPS Passed Ademco Vista 10SE 10 BPS Passed DTMF Passed 20 BPS Passed CADDX Ranger 8980E 20 BPS Passed Any DTMF Format Passed 40 BPS Passed Ademco Vista 20 Ademco Contact ID Passed Any DTMF Format Passed ADT Focus 7604 030 10 BPS Passed SIA Passed 15 BPS Passed CADDX Ranger 9000E 10 BPS Not Verified 20 BPS Passed 20 BPS Not Verified 40 BPS Passed 40 BPS Radionics Not Verified Apex 2100E 10 BPS Passed DTMF Not Verified 15 BPS Passed SIA Not Verified 20 BPS Passed DMP 1512 105 Not Supported 40 BPS Passed DMP 1812 DMP Passed Apex Advantage 10 BPS Silent Knight Passed DMP 1912XR 114 Ademco Contact ID Not Verified 10 BPS Radionics Passed DMP Not Verified Ademco Contact ID Passed DMP XR5 103 40 BPS Passed Apex System E 10 BPS Passed Ademco Contact ID Passed 15 BPS Passed DMP Passed 20 BPS Passed DMP XR10 106 40 BPS Passed Ademco Contact ID Passed DMP Passed Aritech Moose Advisor Any DTMF Format Not Verified Ademco Contact ID Passed SIA Not Verified DMP X20 40 BPS Passed Aritech Moose Discovery 1000 10 BPS Passed DMP Passed 15 BPS Passed odem IIE Passed 20 BPS Passed DMP XR200 101 Ademco Contact ID Not Verified 40 BPS Passed odem Il Not Verified BFSK Passed odem IIE Not Verified Modem II Passed DMP XR200 104 20 BPS Not Verified Aritech Moose Z900 10 BPS Passed Ademco Contact ID Not Verified 10 BPS Sescoa Passed Modem IIE Not Verified 15 BPS Passed DSC NT9005 10 BPS Pas
55. RY 77 EXPANSION MODULE RESET 78 COMMUNICATION 79 TELCO 1 FAULT 7A TELCO 2 FAULT 7B LONG RANGE RADIO 7C FAIL TO COMMUNICATE 7D LOSS OF RADIO SUPERVISION 7E LOSS OF CENTRAL POLLING 7F USER TX USWR 80 LOW RECEIVED SIGNAL STRENGTH 81 RESERVED 82 PROTECTION LOOP 83 PROTECTION LOOP OPEN 84 PROTECTION LOOP SHORT 85 FIRE TROUBLE 86 EXIT ALARM 87 LOSS OF RADIO SUPERVISION 88 SENSOR TROUBLE 89 LOSS OF SUPERVISORY RF 9A LOSS OF SUPERVISORY RPM SENSOR TAMPER Hex amp Printer Words Hex Printer Words 9C RF TRANSMITTER LOW BATTERY CC BELL 2 DISABLE 9D SMOKE HI SENSOR CD ALARM RELAY DISABLE 9E SMOKE LOW SENSOR CE TROUBLE RELAY DISABLE 9F INTRUSION HI SENSOR CF REVERSING RELAY DISABLE AO INTRUSION LOW SENSOR DO RESERVED Al SELF TEST FAIL D1 RESERVED A2 OPEN CLOSE D2 RESERVED A3 O C BY USER D3 RESERVED A4 GROUP O C D4 DIALER DISABLED A5 AUTOMATIC O C D5 RADIO TRANSMITTER DISABLED A6 KEYSWITCH O C D6 MESSAGE ALRM A7 DEFERRED O C D7 SERVICE ALARM A8 CANCEL D8 RESERVED A9 REMOTE ARM DISARM D9 RESERVED AA QUICK ARM DA RESERVED AB RESERVED DB RESERVED AC CALLBACK REQUEST MADE DC RESERVED AD SUCCESSFUL DOWNLOAD ACCESS DD RESERVED AE UNSUCCESSFUL ACCESS DE ZONE BYPASS AF SYSTEM SHUTDOWN DF FIRE BYPASS BO DIALER SHUTDOWN EO 24 HOUR ZONE BYPASS B1 RESERVED E1 BURGLARY BYPASS B2 RESERVED E2 GROUP BYPASS B3 RESERVED E3 SWINGER BYPASS B4 RESERVED E4 UNBYPASS ALARM B5 RES
56. S Passed TI Caretaker 10 BPS Passed Ademco Contact ID Passed 20 BPS Passed SIA Passed TIES Passed DSC PCA020KT VTX TO BPS Passed TI Caretaker ITI FSK Not Verified 20 BPS Passed TI Commander 2000 20 BPS Passed 40 BPS Passed TIFS Passed Any DTMF Format Passed TI Commander 3000 20 BPS Passed SIA Passed TIFS Passed DSC PC40X0 V3 12Y TO BPS Passed TI Concord Ademco Contact ID Passed 20 BPS Passed TTS Passed SIA Passed TI Concord Express Ademco Contact ID Not Verified DSC PC5008 V2 3A 20 BPS Passed SIA Not Verified Ademco Contact ID Passed TI Pro 3000 ITI FSK Not Verified SIA Passed TI Pro 4000 ITI FSK Not Verified DSC PC5010 VIX 20 BPS Passed TI Simon ITI FSK Not Verified 44 Panel Formats Passed Failed Panel Formats Passed Failed ITI SX IVB ITI FSK Not Verified Modem IIA Passed ITI SX V ITI FSK Passed Radionics D7112 BFSK Passed ITI SX V Special ITI FSK Passed Modem IIA Passed ITI RF Commander ITI FSK Passed Radionics D7212 BFSK Passed ITI Ultragard Pro 5000 20 BPS Passed Modem IIE Passed ITI FSK Passed Radionics D7412 Not Verified ITI Fonesafe ITI FSK Not Supported Radionic
57. Sur Gard MLR2000 Virtual Network Receiver Installation tr UO Manual WARNING This manual contains information on limitations regarding version 4 a product use and function and information on the limitations as to liability of the manufacturer The entire manual should be carefully read FCC Compliance Statement CAUTION Changes or modifications not expressly approved by Digital Security Controls Ltd could void your authority to use this equipment This equipment has been tested and found to comply with the limits for a Class B digital device pursuant to Part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful interference in a residential installation This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instructions may cause harmful interference to radio communications However there is no guarantee that interference will not occur in a particular installation If this equipment does cause harmful interference to radio or television reception which can be determined by turning the equipment off and on the user is encouraged to try to correct the interference by one or more of the following measures Re orient the receiving antenna Increase the separation between the equipment and receiver Connect the equipment into an outlet on a circuit different from that to which the receiver is connected Consult the dealer or
58. al buffer is full Setting Option 1C to 01 is NOT RECOMMENDED CAUTION If your system uses the Call Centre Feature and the option is set to 00 the line will always be seized Option 1D Input Sensitivity Default 1F Option 1E Output Levels Default CO Db Programming Value 2 3 00 1 1 20 0 2 40 1 8 60 3 7 80 4 9 90 6 2 AO 7 8 BO 8 7 B8 9 7 co 12 2 DO 13 8 D8 15 7 EO 17 6 E6 19 0 EA 21 8 FO 24 2 F4 27 8 F8 Option 1F Debug Output Default 00 Option 20 C L A S S Field Data Default 04 Option 20 C L A S S Field Data This option determines how the Caller Source information is sent to the CPM via the E bus Program with one of the following 00 Send 05 in C L A S S field of Ebus 01 Send Receiver Line Card Number from options i C L A S S field of Ebus 02 Send DNIS in C L A S S field of Ebus 03 Send Caller ID in C L A S S field of Ebus 04 Send whatever option 13 Caller Source is set to in the C L A S S field of Ebus Options 21 26 Internal Use Only Option 27 Caller Source Process Default 05 This option determines how many digits of Caller ID or DNIS the receiver will process Ox x is number of digits of DNIS or Caller ID to be pro cessed range from 1 to A hex Options 28 29 Reserved Option 2A Hook flash Delay Default 00 Time delay before hang up option Option value x 100ms to a maximum of 9 5 seconds Options 2B 2C Reser
59. amic Options 30 FF Options 30 3F 3 1 4 1 Digit 0 F The DRL2000 uses a unique Sur Gard communication for mat to transmit data through the CPM2000 to the central station computer Event codes corresponding to alarm codes in 10 to 40 Baud formats and DTMF 4 1 to 4 3 for mats are used in this unique format to enable the com puter software to determine alarm types The DRL2000 will use the last digit of data received in 3 1 and 4 1 formats to determine the computer event code The event code will then be transmitted to the central station computer Refer to the DRL2000 Decod ing Library for the complete set of event codes used by the DRL2000 In Sections 30 through 3F program ASCII codes according to the Decoding Library Do NOT use values other than 20 5C ASCII Defaults Option Value Code 30 4 A 31 4 A 32 4 A 33 4 A 34 4 A 35 4 A 36 4 A 37 4 A 38 4 A 39 52 R 3A 4 A 3B 4F O 3C 43 3D 5C 3E 52 R 3F 54 TT Options 40 4F 3 2 4 2 Digit 0 F The DRL2000 will use the first digit following the account code in 4 2 3 1 extended or 3 2 formats to determine the computer event code The event code will then be transmitted to the central station computer Refer to the DRL2000 Decoding Library for the complete set of event codes used by the DRL2000 In Sections 40 through 4F program ASCII codes according to the Decoding Library Do NOT use values other than 20 5C ASCII
60. an experienced radio television technician for help The user may find the following booklet prepared by the FCC useful How to Identify and Resolve Radio Television Interference Problems This booklet is available from the U S Government Printing Office Washington D C 20402 Stock 004 000 00345 4 IMPORTANT INFORMATION This equipment complies with Part 68 of the FCC Rules On the side of this equipment is a label that con tains among other information the FCC registration number and ringer equivalence number REN for this equipment If requested this number must be provided to the Telephone Company FCC Registration Number 1VDCAN 25404 AL N REN 0 2B USOC Jack RJ11C Telephone Connection Requirements A plug and jack used to connect this equipment to the premises wiring and telephone network must com ply with the applicable FCC Part 68 rules and requirements adopted by the ACTA A compliant telephone cord and modular plug is provided with this product It is designed to be connected to a compatible modu lar jack that is also compliant See installation instructions for details Ringer Equivalence Number REN The REN is used to determine the number of devices that may be connected to a telephone line Excessive RENS on a telephone line may result in the devices not ringing in response to an incoming call In most but not all areas the sum of RENS should not exceed five 5 0 To be certain of the number of devices that may be co
61. ary Decoding and Event Codes Table 7 15 1 3 1 4 1 Alarm Library For Alarm Corresponding Event Message Code Code Options 30 3F 0 A A PER TEST REPORT 1 A FIRE ALARM 2 A PANIC ALARM 3 A BURGLARY 4 A GENERAL ALARM 5 A GENERAL ALARM 6 A GENERAL ALARM 7 A MEDICAL 8 A SYSTEM TROUBLE Restore 9 R RESTORE Open B O OPENING Close E C CLOSING Cancel D CANCEL Restore E R RESTORE Trouble F T SYSTEM TROUBLE 27 7 15 2 3 1 4 1 Extended 3 2 amp 4 2 Alarm Library Alarm arm arm arm arm arm arm arm arm PPrPPPPPPD o D D 5 pen ose Cancl Restr Trble no Ox Ax 1x 2x 3x 4x 5x 6x 7x 8x 9x Bx Cx Dx Ex Fx A4D7 n07 gt gt D gt D gt DDDDD PER TEST REPORT FIRE ALARM PANIC ALARM BURGLARY GENERAL ALARM GENERAL ALARM GENERAL ALARM MEDICAL SYSTEM TROUBLE RESOTRE OPENING CLOSING CANCEL RESTORE SYSTEM TROUBLE 7 15 3 4 2 Extended amp 4 3 Alarm Library Alarm arm arm arm ose pen arm arm arm estr oseGrp OpenGrp Bypas Unbyp Cancl E E E QOO EE I O DW Oxx Axx 1xx 2XX 3xx 4xx 5xx 6xx 7XX 8xx 9xx Bxx Cxx Dxx Exx Fxx T T WO mn E JO mn E E K J I OO 94 n UBRWN O PER TEST REPORT FIRE ALARM PANIC ALARM BURGLARY CLOSING OPENING SERVICE MEDICAL MESSAGE RESTORE OPENING CLOSING CANCEL RESTORE SYSTEM TROUBLE Ensure that the central station automation software is able to accept these codes if they are to be used 28 7 15 4 Event Codes S
62. audio tone detection from specific audio panels This option should be left as default unless otherwise instructed by DSC Technical Support Option 94 Account Digit Stripping Default 00 When Option 94 is set to 01 the leading digit of a four digit account code will be stripped if it is an F Example Standard 4 2 format Output 1RRLllssssssAAAAsXssYZ Example 1 Option 94 set to 00 Panel account code is F245 101001ssssssF245sXssYZ 20 IF Option 94 is set to 01 the F will be replaced by a space and the value of A will be decoded as A but not 0 This setting will also enable the receiver to decode spe cial pulse extended extended formats 101001sssssss245sXssYZ If Option 94 is set to 02 than the leading zero of a four digit panel account code will be stripped This option will work with the following formats Standard Pulse and DTMF 3 x 4 x amp Extended FBI Ademco Super Fast 4 8 1 4 8 Contact ID ITI SIA Modem Il SKFSK Example 1 Option 94 set to 02 Panel account code is 0345 101001ssssss0345sXssYZ New Output 101001sssssss345sXssYZ Option 95 5 Digit Pulse Default 00 The DRL2000 cannot distinguish between 4 1 3 2 and 3 1 with checksum because all of them contain a total of 5 digits Therefore this option must be programmed to inform the DRL2000 which of the 3 formats may be used Option 95 3 2 Format 00 select 4 1 format 01 select 3 2 format 02 sele
63. cation is resumed when the first ACK is received on the heartbeat 36 Section 13 Detailed Description of Computers 13 1 COM Responses 13 2 Automation Absent When the CPM2000 sends an event to the computer it checks for 3 responses Ack Nack or Unknown No Response An ACK tells the CPM2000 the computer got the event successfully A NACK tells the CPM2000 the computer got the message but didn t understand it The CPM will attempt to send the message 20 times If after 20 attempts it continually got NACK from the computer the CPM and line card will send a communication error event to the printer and then begin attempting to send the next event in the Line card buffer to the computer Any other response from the computer including no response will cause the CPM to attempt to send the message again up to 4 attempts If after 4 attempts the CPM got no response or an unknown response it will assume nothing is connected and generate an alarm 37 When the computer is not responding to transmissions the CPM will generate a COMx Absent or TCP IP Absent trouble When a trouble occurs the CPM will continue to attempt to send a signal to the computer until it gets a response The CPM2000 will use the heartbeat signal to poll auto mation for a response It will make 4 attempts then wait the next Heartbeat time before making another 4 attempts The typical heartbeat interval is 30 seconds Supervisory Heartbeat Signal Protocol
64. cations e AC lost detection and stand by battery supervision e Low battery detection and automatic low battery dis connect to prevent deep discharge damage to battery e Operator Acknowledge e Telephone Line Supervision Virtual Receiver Architecture The most novel feature of the DRL2000 is the ability to use Telco information delivered as a DNIS dialed number identification service to allow the Sur Gard expert format identification system to option on the fly each received call to eliminate dedicated line pool hardware Instead the DNIS allows call up options which set up virtual line pools to identify security formats and extend account numbers Standard dialed number identification is supported up to 10 digits Each dialed number should be assigned to a virtual receiver Each dialed number would have formerly been a line pool on conventional line cards Number of Line Cards Supported The system will support a maximum of 255 line cards con currently connected Optional hubs will be required for backplane connectivity in installations beyond 5 shelves Redundancy The MLR2000 has a main power supply module for side A and for side B and an optional stand by power supply per rack Additional 10B2 Ethernet is available as a backup B side This and the ability to mount an optional second CPM2000 controller will allow for seamless system redun dancy in maximum configuration In practical terms this means that any line card may fail
65. ccount is 4 or 5 dig its the leading A s will be replaced by spaces X Event code Y Condition code ZZ Zone user number DC4 Represents the terminator Possible events are as follows B600 Battery Trouble BEOO Battery Restore C600 System Trouble AC CEOO System Restore AC D60z Trouble phone line 0z DEOz Restore phone line Oz E60z Expand trouble device ID z EEOZ Expand restore device ID z E6zz Expand trouble station ID zz 22 17 31 EEzz Expand restore station ID zz 22 17 31 E100 Automatic test E2zz Manual test zone ZZ FOOO Automatic closing F400 Automatic opening Fizz Normal closing ID ZZ F5zz Normal opening ID ZZ F2zz Forced closing ID ZZ F6zz Forced opening ID ZZ F3zz Supervised closing ID ZZ F7zz Supervised opening ZZ FDOa Closing area Oa FFOa Opening area 0a F8zz Access F9zz Access left open ID zz FAzz Access forced ID ZZ FBzz Access station ID ZZ FCOO Duress FEOO Data lost 7 14 Sescoa Super Speed Sescoa Super Speed is a 40 Baud communication format Account codes are programmed as 4 digit decimal codes ranging from 0001 to 3374 The account code is followed by a 1 digit event code a 2 digit alarm code and 1 digit checksum Option A5 must be programmed as 01 in order to use Sescoa Super Speed decoding instead of 4 2 with check sum decoding Example e Printer LO1 1234 LOW BATT HH MM SS DD MM e Computer 701007ssssss1234sF 7 15 DRL2000 Predefined Libr
66. ch handshakes are used for which ANI The AHS has the ability to be used in conjunction with the DNIS to select a pre defined profile based on the DNIS table that is stored in the line card The handshake is retrieved from the AHS table and the remainder of the options to be taken from the DNIS profile Also if the panel does not respond to the handshake given by the line card it will proceed with it s handshake sequence from this profile as opposed to the default pro file The ANI database Tel dat is one file that will consist of up to a maximum of 500 000 handshake entries Each entry will be specific to a customer s telephone number and will point to a particular handshake Hand Edit Hand Edit can be used for manually entering and deleting entries from the Tel dat file and for creating the number of entries in the database up to 500 000 This file is then uploaded to the CPM2000 by FTP programs Tel dat The database file is referred to as Tel dat This is the binary file that holds all of the handshake entries 500 000 If the handshake is different for the same ANI number the CPM2000 will change the Handshake programmed auto matically For example When the first call is made to the DRL2000 the first handshake sent by the line card could be 1400Hz If the panel does not respond to this it will go through its default handshake sequence When a 2300Hz hand shake is sent and the panel responas to it the receiver will replace
67. ct 3 1 with checksum format 03 For 40 baud select 311 with checksum Otherwise select 4 1 format NOTE The printer messages for the 3 2 format are the same as those used for the 4 2 format Option 96 4 1 Extended Default 00 Program Option 96 as 01 to combine 2 round pairs of 4 1 extended format into 4 2 output for reporting to the computer and the printer For example with Option 96 enabled the security control panel may transmit the following information 1234 3 1234 3 3333 1 3333 1 The DRL2000 will interpret this information as 123 31 the default setting for Option 98 is 01 when pro grammed as 00 the option is disabled Option 97 4 2 Extended Default 00 Program Option 97 as 01 to combine 2 round pairs of 4 2 extended format into 4 3 output for reporting to the computer and the printer Program one of the following 00 4 2 Extended format data is not combined 01 The panel will send 1234 05 1234 05 0505 16 0505 16 The DRL2000 will interpret this information as 1234 516 or the panel will send 1234 03 1234 03 3333 01 3333 01 The DRL2000 will interpret this information as 1234 301 Note that a longer on line time is required for this format than for a standard 4 2 format The default set ting for Option 97 is 00 when programmed as 00 the option is disabled Option 98 3 1 Extend Default 01 Program Option 98 as 01 to combine 2 round pairs of 3 1 ext
68. d parties including customers and injury to property The laws of some jurisdictions limit or do not allow the disclaimer of consequential damages If the laws of such a jurisdiction apply to any claim by or against DSC the limitations and disclaimers contained here shall be to the greatest extent permitted by law Some states do not allow the exclusion or limitation of incidental or consequential damages so that the above may not apply to you Disclaimer of Warranties This warranty contains the entire warranty and shall be in lieu of any and all other warranties whether expressed or implied including all implied warranties of merchantability or fitness for a par ticular purpose And of all other obligations or liabilities on the part of Digital Security Controls Ltd Digital Security Controls Ltd neither assumes responsibility for nor authorizes any other person pur porting to act on its behalf to modify or to change this warranty nor to assume for it any other war ranty or liability concerning this product This disclaimer of warranties and limited warranty are governed by the laws of the province of Ontario Canada WARNING Digital Security Controls Ltd recommends that the entire system be completely tested on a regular basis However despite frequent testing and due to but not limited to criminal tam pering or electrical disruption it is possible for this product to fail to perform as expected Installer s Lockout An
69. dshake e Sends Modem Il tone as sixth handshake Receives all communication formats except for 3 2 4 1 express 4 2 extended and 4 2 checksum e The above formats can be manually selected e Signals can be displayed on the debug output computer as they are received The signals are then sent to the parallel printer and computer connected to serial port COM1 or to the 10BT connector The default event codes described in the DRL2000 Library Decoding and Event Codes Table will be used with the Sur Gard auto mation communication protocol to send signals to the computer if connected e If a computer is not connected press the ACK button on the CPM2000 module to silence the buzzer Printer Examples Date Ex JUN 01 2000 Ex JUN 01 2000 Ex JUN 01 2000 Time 08 00 22 08 00 22 08 00 22 01 02 01 02 01 02 SG SG SG 2 2 3 2 2 4 2 2 5 2 2 6 2 2 7 2 2 8 SS 00 Receiver Type Receiver 01 01 01 Debug Output The debug output is another means of accessing the line card s programmed options and diagnostics features A debug cable is required to connect by serial communica tion from the line card to a standard PC running Windows 9x 2000 XP Debug Cable Connectivity e Connect the RJ45 end of the debug cable to the debug jack on the front of the line card or to the debug jack of the paddle board on the back of the sub rack e Connect the female DB 9 connector to the serial por
70. e Caller ID 02 Reserved for future use 03 Reserved for future use OX Receive X 4 to 10 digits DTMF DNIS 2X Receive DNIS and ANI in lt DNIS gt C lt ANI gt C 4X Receive ANI and DNIS in lt ANI gt C lt DNIS gt C NOTE A DNIS reception of C lt DNIS gt C will not be detected as DNIS only General messages other than Caller ID or DNIS ePrivate Call An anonymous indication is received instead of the originating telephone number eNo Call No An out of area or unavailable indication is received instead of the originating telephone number Unknown Call The originating telephone number has not been received or was not transmitted Option 13 Caller Source to SG Computer Default 00 Option 13 allows the transmission of the Caller Identifi cation or DNIS to the computer output Program Option 13 as one of the following Protocol 00 Do not send to the computer 01 4RRLLL Send to the computer using North Ameri can protocol 02 URRLLL Send to the computer using International protocol 04 ARRLLL Send ANI information to the computer NOTE Option 12 must be programmed as 01 to use Caller ID or 4x to use ANI Where x represents the number of DNIS digits including the terminator digit Option 14 Caller Source to printer Default 00 Option 14 allows the transmission of the Caller Identifi cation or DNIS to the printer output Program Option 14 as one of the following 15 00 Do not send
71. e Telephone Company will provide advance notice in order for you to make necessary mod ifications to maintain uninterrupted service Equipment Maintenance Facility If trouble is experienced with this equipment Sur Gard MLR2000 for repair or warranty information please contact the facility indicated below If the equipment is causing harm to the telephone network the Telephone Company may request that you disconnect the equipment until the problem is solved This equipment is of a type that is not intended to be repaired by the end user Simplex Time Recorder Co 100 Simplex Drive Westminster MA 01441 0001 USA Tel 978 731 2500 Additional Information Connection to party line service is subject to state tariffs Contact the state public utility commission public service commission or corporation commission for information If your home has specially wired alarm equipment connected to the telephone line ensure the installation of this equipment Sur Gard MLR2000 does not disable your alarm equipment If you have questions about what will disable alarm equipment consult your telephone company or a qualified installer Customer Premises Equipment and Wiring Network Service Provider s Computer Facilities RISIX pace Unused CI Alarm Dialing RJ
72. ecommended for use 1400 Hz kiss off tone regardless of the handshake with Sur Gard and DSC security control panels EVENT CODE CLASSIFICATIONS i di 4 3 format SONIASLID 1 The Event codes have been grouped according to the Each round pair represents a single event type of event see Event E SR below 9 AAAAEZZ AAAA 4 digit account code Contact ID Event Code Library Medical Alarms 100 21 Duress 41 Polling loop open 00 Medical 22 Silent 42 Polling loop short 01 Pendant transmitter 23 Audible 43 Expansion module failure 02 Fail to report in Burglar Alarms 130 44 Sensor tamper Fire Alarms 110 30 Burglary 45 Expansion module tamper 10 Fire alarm 31 Perimeter 46 Silent Alarm 11 Smoke 32 Interior 24 Hour Non Burglary 150 and 160 12 Combustion 33 24 Hour 50 24 Hour non burg 13 Water Flow 34 Entry Exit 51 Gas detected 14 Heat 35 Day Night 52 Refrigeration 15 Pull Station 36 Outdoor 53 Loss of heat 16 Duct 37 Tamper 54 Water leakage 17 Flame 38 Near alarm 55 Foil break 18 Near alarm 39 Silent Burg 56 Day trouble Panic Alarms 120 General Alarms 57 Low bottled gas level 20 Panic alar 40 General alarm 58 High temp 23 159 Low temp 355 Loss of radio supervision 456 O C Partial Arm 161 Loss of air flow 356 Loss of central polling 457 exit Error Fire supervisory 200 and
73. ed out sent to auto mation and stored in memory Events and information stored in memory can be printed at any time Each line card also features flash EPROM uploads through the Debug port for software upgrades or options program ming 1 3 Power and Supervision 1 3 1 Power The MLR2000 power supplies inputs are 120 Vac at 10A 60 Hz Each AC power supply supplies a nominal 28 Vdc 5 power The receiver is equipped with 24V rechargeable stand by battery connections at 160 Ahr and an automatic battery charger Provision is made for an internal battery pack for temporary use User supplied batteries may be used externally but must be fused and connected to 10 32 lugs supplied via a stud termination Full power operation is 5 Amps per line and 1 Amp per CPM at 28 Vdc nominal All elements have extensive power down capabilities and are implemented in CMOS logic 1 3 2 Supervision The stand by battery voltage and connections are super vised The Line Cards are also continuously supervised to ensure uninterrupted communication with the CPM2000 Any trouble conditions are reported on the LCD screens and sent to the printer and the computer The DRL2000 Line Card Module also verifies communica tions with the CPM2000 In the event of a malfunction the operator will be advised with a visual indication and the Line Cards will continue to function Each line card will continue to receive information The printer is supervised for off line paper
74. effectively communicate with control panels A profile is a set of pre programmed line card options unique for a particular DNIS number The DNIS will point to a particular profile which will then be loaded into the line card before the first handshake is sent It is essential that the correct option be programmed for a profile in order to correctly communicate with the control panel Each virtual receiver can have a maximum of 64 profiles To change the options for a particular profile the Console software is provided This software will allow the user operator to edit the profiles NOTE DNIS Dialled Number Identification Service This number represents the dialled number or the number being called Caller ID This number identi fies the source of a call For the purpose of this doc ument Caller ID and ANI will be referred to as Caller 1D but both cannot be used at the same time Caller ID cannot be used with DNIS Contact your provider to determine which service is available DNIS or Caller ID can be used for profile selection Line Cards Identification Number Handling Figure 7 Call Processing Flowchart Receive DNIS or Caller ID Send string to Lookup Table Corresponding Profile YES Point to Profile Use Profile O Use Options from Profile 13 Each profile is made up of Static Options and Dynamic Options The static options are the same for all profiles but the dynamic option
75. elephone line or defeat its operation by more sophisticated means which may be difficult to detect E Insufficient Time There may be circumstances when the system will operate as intended yet the occupants will not be pro tected from the emergency due to their inability to respond to the warnings in a timely manner If the sys tem is monitored the response may not occur in time to protect the occupants or their belongings E Component Failure Although every effort has been made to make this system as reliable as possible the system may fail to function as intended due to the failure of a component E Inadequate Testing Most problems that would prevent an alarm system from operating as intended can be found by regular testing and maintenance The complete system should be tested weekly and immediately after a break in an attempted break in a fire a storm an earthquake an accident or any kind of construction activity inside or outside the premises The testing should include all sensing devices keypads consoles alarm indicating devices and any other operational devices that are part of the system E Security and Insurance Regardless of its capabilities an alarm system is not a substitute for property or life insurance An alarm system also is not a substitute for property owners renters or other occupants to act prudently to prevent or minimize the harmful effects of an emergency situation Limited Warranty Digital Security
76. ended or 3 1 partial extended format into 3 2 output for reporting to the computer and the printer For example with Option 98 enabled the security control panel may transmit the following information 123 3 123 3 333 1 333 1 The DRL2000 will interpret this information as 123 31 the default setting for Option 98 is 01 when pro grammed as 00 the option is disabled Option 99 Ademco Express Default 01 The Ademco 4 1 Express format may cause conflicts with the Sur Gard DTMF 4 3 with checksum format or FBI Super fast without checksum Therefore this option must be programmed to inform the DRL2000 which of the 3 formats may be used 00 Sur Gard DTMF 4 3 with checksum 01 Ademco 4 1 Express 02 FBI without checksum Option 9A Error Counter Default 00 Program this option to determine the number of bad rounds from a pulse communicator the line card will receive before hanging up Option 9B Echo Canceller Default 00 00 Disabled 01 Enabled The echo suppression option will enable the transmission of a two second 2025 Hz tone from the line card to disable echo suppression equipment Option 9C Acron RS 232 Default 01 When this option is programmed as 00 the DRL2000 will convert the Acron Super Fast format signal into 3 2 or 4 2 format Ex AAAAsXssYY DC4 If it is pro grammed as 01 the Acron Super Fast will be sent to the computer as indicated below 9RRLLLssssAAAACCCCC
77. ength and construction to provide the level of protection expected A reevaluation must be done during and after any construction activity An evalua tion by the fire and or police department is highly recommended if this service is available E Criminal Knowledge This system contains security features which were known to be effective at the time of manufacture It is possible for persons with criminal intent to develop techniques which reduce the effectiveness of these features It is important that a security system be reviewed periodically to ensure that its features remain effective and that it be updated or replaced if it is found that it does not provide the protection expected E Access by Intruders Intruders may enter through an unprotected access point circumvent a sensing device evade detection by moving through an area of insufficient coverage disconnect a warning device or interfere with or prevent the proper operation of the system E Power Failure Control units intrusion detectors smoke detectors and many other security devices require an adequate power supply for proper operation If a device operates from batteries it is possible for the batteries to fail Even if the batteries have not failed they must be charged in good condition and installed correctly If a device operates only by AC power any interruption however brief will render that device inopera tive while it does not have power Power interruptions of any length a
78. ess setup and port setup Once the configuration management port is set up all other options and setups may be done via a Telnet session or the Sur Gard Console UL Manual Mode For UL manual mode each event will activate the internal buzzer to be acknowledged manually Each event will be sent automatically to all connected printers NOTE For central station applications the signaling performance of each dact shall be manually tracked Failure to receive a signal from a dact over a 24 hour period shall be handled as a trouble signal Virtual Connectivity Each receiver has one IP address and a number of associ ated ports Internal socket programming uses specific ports for expected tasks The MLR2000 is the listener 1 10 1 Configuration Management Sur Gard Con figuration Port 1024 A tool is provided for NT 4 or Windows 9x 2000 XP environments which provides graphical style menu for configuration management Additional features are stor age of virtual receiver setups formats conversion table and configuration wizards 1 10 2 Status Addressing Line card status will be reported via physical addressing This will be assigned by shelf and slot number All device status information is in Sur Gard format The reporting of status on this port automation output and printer will relate to physical addressing 1 10 3 Automation input output Port 1025 1026 1 11 Traditional automation communication will be provided via
79. if a Line Card is unable to commu nicate with the CPM2000 then each Line Card is capable of functioning independently Each Line Card can record 256 different alarm messages and 256 Caller ID telephone numbers General Information The receiver is capable of processing signals from digital communicators in variety of formats The type of signal alarm trouble restore cancel and so on can be printed DRL2000 Features e Operator selection of communication formats and handshake priority s 64 profiles per line card up to 255 line pools e On Board Ethernet interface s Flash Download for software upgrades e Records up to 256 messages e Records up to 256 Caller ID phone numbers This fea ture helps locate and identify the source of the device in communication and assists in troubleshooting e Multiple alarms are forwarded to the computer and printer through the CPM2000 with minimum delay e The DRL2000 monitors the telephone line connection and line faults will result in reports to the computer and the printer e DRL2000 automatically goes into stand alone mode in case of CPM2000 failure e Watchdog timer continually monitors receiver opera tion e Cold boot option allows receiver s configuration to be reset to factory default programming e DSP processing to reduce data receiving errors and to help for weak and noisy signals e Gain boost available to amplify weak signals e Serial link for troubleshooting Installa
80. inter Restored SG TCP IP Failed SG TCP IP Restored UPS AC Fail UPS AC Restored UPS Low Battery Restore UPS Low Battery Secondary CPM2000 Failure Line Fault Line Restore Fault Call Fault Data Line Card Reset Line Card Restored Line Card Absent Primary CPM2000 Power Up Secondary CPM2000 Power Up Line Card Busy Out nternal Comm Error Checksum Failed Computer Internal Comm Error Shelf in Hex Slot in Hex Socket number 33 Automation message YTOOOO YROOOO YTO001 YR0001 YX0000 YZ0000 LBOOOO YX0001 VZ0001 VY0001 VZ0002 VY0002 VZ000x VY000x AT0000 AR0000 ATO001 AR0001 YP0003 YR0003 YP0004 YRO004 YZ0002 YC0001 YK0001 YC0002 YK0002 VZ0000 VY0000 NT1025 NR1025 ATO002 AR0002 YROOO2 YT0002 YX0002 LTSStt LRSStt YCSStt YNSStt RRSStt YESStt YDSStt RROOOO RROOO1 YBSStt YOSStt YFSStt NTSSoo CPM2000 LCD Messages by priority VZ0000 Parallel port Printer Error VZ0001 TCP IP Printer Error YC0001 COM 1 Absent YC0002 COM 2 Absent YTOOOO 12V Battery Low YT0001 5V Failure ATOOOO AC CPMA Failure ATO001 AC CPMB Failure Special Messages 67890 0000 ABLOCKEDCALL 1234567890 14 01001 0000 ABLOCKEDCALL 12345 1234567890 14 S01001 0000 AAHS TABLE FULL 10 8 Console Specifies which SG Automation to Supervise A selection which defines a combination of SG Sock ets Ports and Protocols may be active This setup is saved in the configuration file Also
81. is location will be converted to decimal and then mul tiplied by 100 milliseconds to generate the delay For example Option 80 OA Hex 10 decimal 100 ms 1000 ms 1 second delay Option 80 28 Hex 40 decimal 100 ms 4000 ms 4 second delay Options 81 through 88 Handshake Selection Defaults 81 23 85 OE 82 14 86 OB 83 2D 87 00 84 oc 88 00 The DRL2000 is a multi format receiver capable of send ing several handshakes to a dialer Often it is important which handshake is sent first Program Options 81 through 88 according to your applications Handshake Options 00 No handshake 2D Double dual tone handshake OC SIA FSK handshake Modem Il handshake Modem IIE and ITI handshake Single dual tone handshake DMP handshake All other frequencies can be programmed using the first two digits to represent the 3rd and 4th decimal places Example 23 2300 Hz 18 1800 Hz 14 1400 Hz 10 1000 Hz Option 89 to 90 Handshake and Kiss off Duration Default 00 Some control panels may require a different handshake duration Each unit has increments of 100 ms from 100 ms to a maximum of 8 1 seconds Program Options 88 to 90 for the desired duration 00 1 second 01 100ms 02 200 ms 03 300 ms 04 400 ms OA 1 second OC 1 2 second and so on DSC does not recommend programmed durations longer than 1 5 seconds as it may not be tolerated by the alarm panel For special applications
82. it may be nec essary but any durations higher than 8 1 seconds will not be accurate and may not match the duration pro grammed NOTE These options will only affect steady tones handshakes Option 89 Handshake amp 1 duration Option 8A Handshake 2 duration Option 8B Handshake 3 duration Option 8C Handshake 4 duration Option 8D Handshake amp 5 duration Option 8E Handshake 6 duration Option 8F Handshake 7 duration Option 90 Handshake 8 duration Option 91 Inter Handshake Duration Default 00 The DRL2000 line card will usually wait for signals from the control panels for 4 seconds before sending the next handshake if there are no signals received In certain applications control panels cannot wait long enough to get its own handshake especially if the handshake is pro grammed as the fifth or later handshake Program Option 91 with one of the following 00 4 second interval 01 1 second interval 02 2 second interval 03 3 second interval Option 92 Pulse Decoding Only Default 00 When this option is enabled the DRL2000 line card will only detect pulse formats When programmed as 02 special ADT pulse formats will be enabled This option should be left as default unless instructed by DSC Tech nical Support Set this option to x where x 1 to F to specify the mini mum burst to be rejected as 1 15 ms Option 93 Min Audio Tone Default 00 This option is used for Two way
83. ith the ASCII value of 41 which is an A New Output 1RRLLLssssssA876sXssYZ Example 2 To insert a digit use 8x were x is the spot were the digit is to be inserted Option 77 is set to 2D and Option A2 is set for 82 Account code is 9876 1RRLLLssssss9876sXssYZ The receiver will do the following it will insert the ASCII value of Option 77 in this case the ASCII value of 2D 2D is a into position two Option A2 82 and the account code will shift to the left So it will convert account code 9876 as indicated below 1RRLLLsssss9 876sXssYZ This will not affect SIA Option 78 Max Inter digit Default 00 Certain old dialers may have difficulties in communicat ing with the DRL2000 line cards The DRL2000 provides a possible solution by programming this option This option should be left as a default and should be changed only on the recommendation of a DSC techni cian When programmed as 00 the inter digit time is determined by the Baud rate of the format being used all other values are in 100 ms intervals O determined by Baud rate default 00 auto 01 100 ms 02 200 ms OA 1000 ms Option 79 Max Inter burst Default 00 Certain old dialers may have difficulties in communicat ing with the DRL2000 line cards The DRL2000 provides the possible solution by programming this option This option should be left as default and should be changed only on the recommendation of a
84. l send each message it receives to the printer for review by the system operator Two messages may be sent to the printer to indicate reception problems the Fault Data and Fault Call Fault Data Message When this problem is encountered the following informa tion is transmitted to the printer and the computer e Printer Jun 25 1998 11 18 07 SS 00 SG 12 234 0000 INVALID REPORT e Computer 012234 0000 INYNSSOO DC4 This output for account code 0000 indicates that data has been received but is not valid for example there are unmatched rounds or wrong parity Fault Call When this problem is encountered the following informa tion is transmitted to the printer and the computer e Printer Jun 25 1998 11 18 07 SS 00 SG 12 234 0000 COMMUNICATION FAIL e Computer ORRLLL 0000 NYCSSOO DC4 This output indicates that a call was received but no data was detected The call may have been a wrong number or the calling control panel was unable to connect with the receiver s handshakes Caller ID When Caller ID is enabled e Printer 19 Nov 1998 10 40 54 Nov 19 1998 11 32 25 F3 00 SG 19 069 123F e Computer 419069 123F0000000000 Calling Name When Calling name is enabled e Computer U19069 123FSUR GARD SECURT e Printer 19 Nov 1998 10 40 56 Nov 19 1998 11 32 25F3 00 SG 19 069 123F SUR GARD SECURT Section 6 Profiles 6 1 Introduction The DRL2000 virtual receiver will load unique profiles in order to
85. nFormat e 4 2 Extended format 10 14 20 40 Baud option The Acron format is a DTMF format It can transmit 3 or 4 Example account digits and 8 digits of channel status at a time e 3 1 FORMAT Shown below are several examples of Acron transmis Computer 1011ssssss123sAsss1 14 sions Printer Jun 26 1998 13 42 32 01 02 SG 01 123 Handshake Kiss off 2300 Hz 123 e 1234 Account Code e 1 FIRE ALARM Example S S Resta e AAAAZZ77777701AAAZ7777777 E ORRLLLssssAAAACCCCCCCC DC4 Printer Jun26 1998 13 49 38 01 02 SG 01 123 S VI ation scaled pe 123 4 8 E O Computer 101123ssssss1234sCssA1 14 6 Printer Jun 25 1998 13 25 12 01 02 SG 01 123 Computer 1011ssssss1234sAss22 14 1234 A1 CLOSESUSERSO1 Printer Jun 26 1998 15 02 23 01 02 SG 01 123 e With option enabled 1234 4 8 e 22 PANIC ALARM Computer 901123ssss1234AAAAA78A 14 6 7 2 Sur Gard DTMF Formats 7 4 Ademco Contact ID Sur Gard DTMF 4 3 and 4 3 with checksum formats pro This DTMF format requires a dual tone handshake and vide fast reliable and easy to understand and decode 1400 Hz kiseoff or 1400 Hz handshake and 1400 Hz data transmission On line time will be greatly reduced kiss off i when using 4 3 ps 4 3 with checksum formats The 4 1 NOTE If the dialer responds to a 2300 Hz handshake by a DTMF formats can also be decoded by the sending the Contact ID Format data the DRL2000 will y accept and decode the format The DRL2000 will send a The 4 3 with checksum format is r
86. nnected to a line as determined by the total RENs con tact the local Telephone Company For products approved after July 23 2001 the REN for this product is part of the product identifier that has the format US AAAEQ TXXXX The digits represented by are the REN without a decimal point e g 03 is a Industry Canada Statement IC 160A MLR2000 NOTICE This equipment meets the applicable Industry Canada Terminal Equipment Techni cal Specifications This is confirmed by the registration number The abbreviation IC before the registration number signifies that registration was performed based on a Declaration of Conformity indicating that Industry Canada technical specifications were met It does not imply that Industry Canada approved the equipment REN of 0 3 For earlier products the REN is separately shown on the label Incidence of Harm If this equipment Sur Gard MLR2000 causes harm to the telephone network the tele phone company will notify you in advance that temporary discontinuance of service may be required But if advance notice is not practical the Telephone Company will notify the customer as soon as possible Also you will be advised of your right to file a complaint with the FCC if you believe it is necessary Changes in Telephone Company Equipment or Facilities The Telephone Company may make changes in its facilities equipment operations or procedures that could affect the operation of the equipment If this happens th
87. normal the Line Fault light will be shut OFF If the Line Check option is enabled and the telephone line returns to normal the following information will be trans mitted to the printer and computer e Printer Jul 17 1998 08 08 35 SS 00 SG RR LLL 0000 PHONE LINE RESTORE e Computer ORRLLL O000 NLRSSOO DCA CPM2000 Error If the DRL2000 cannot detect CPM2000 polling the trou ble light will come on If alarm messages cannot be sent to the CPM2000 because of the error the DRL2000 will start buffering incoming calls Up to 256 alarm messages for the printer and computer will be retained in the DRL2000 event buffer When the event buffer is full the line card will stop answering the calls When the CPM2000 Error condition is corrected the alarm messages in the event buffer will be transmitted to the CPM2000 with the corresponding time date the alarm have been received 12 5 2 5 3 5 3 1 5 3 2 5 3 3 5 3 4 5 3 5 DRL2000 Cold Start up To perform a Cold Start up press the F1 and F2 buttons simultaneously for 10 seconds after a power up Communications in Progress Data Reception During data reception the on line LED will turn on The DRL2000 decodes all information received and stores the information in its Event Buffer When a valid signal is received the DRL2000 sends a kiss off signal and trans mits the decoded alarm signal to the computer and then to the printer through the CPM2000 The DRL2000 wil
88. not detect motion which occurs behind walls ceilings floor closed doors glass partitions glass doors or windows Any type of tampering whether intentional or unintentional such as masking painting or spraying of any material on the lenses mirrors windows or any other part of the detection system will impair its proper operation Passive infrared motion detectors operate by sensing changes in temperature However their effectiveness can be reduced when the ambient temperature rises near or above body temperature or if there are inten tional or unintentional sources of heat in or near the detection area Some of these heat sources could be heaters radiators stoves barbeques fireplaces sunlight steam vents lighting and so on EH Warning Devices Warning devices such as sirens bells horns or strobes may not warn people or waken someone sleeping if there is an intervening wall or door If warning devices are located on a different level of the residence or premise then it is less likely that the occupants will be alerted or awakened Audible warning devices may be interfered with by other noise sources such as stereos radios televisions air conditioners or other appliances or passing traffic Audible warning devices however loud may not be heard by a hearing impaired person E Telephone Lines If telephone lines are used to transmit alarms they may be out of service or busy for certain periods of time Also an intruder may cut the t
89. o 2 2 1 4 Signaling Supervisory Connections Figure 5 60 Line Cards Configuration Supervised System Status Power Monitor e Fans QUIQE IXON WO4 Ethernet Repeater A Figure 6 72 Line Cards Configuration Expansion Cabinet Ethernet Repeater B
90. on 19 to 01 Option 1A DNIS Input Sensitivity Default 00 Option 1A allows the user to change the DNIS reception window NOTE Do not change this option unless instructed to do so by DSC Technical Support Options 1B Reserved Option 1C Busy Out Default 00 This option allows the line card to seize the phone line in case of checksum error after download or when its inter nal buffer is full Program Option 1C with one of the fol lowing 00 The line is seized if any of the conditions mentioned above occurs 01 The line is NOT seized if any of the conditions mentioned above occurs 02 Same as set to 00 when used with the Call Centre Fea ture configuration on the telephone interface module SG Paddle 03 Same as set to 01 when used with the Call Centre Fea ture configuration on the telephone interface module SG Paddle 05 The line will be seized if there is a loss of automation software or no communication to the CPM2000 ONLY if the internal computer buffer is full If there is a loss of printer s any new alarms will not be buffered in the Internal printer buffer note the line card has two inde pendent printer and computer buffers NOTE If the option is programmed to 01 the line card will NOT buffer any new alarms once the inter nal buffer is full Setting Option 1C to 01 is NOT RECOMMENDED NOTE If the option is programmed to 01 the line card will NOT buffer any new alarms once the inter n
91. one numbers will have 00 added as the zone number Example Received A123 NriBA Output 0123 NriBAOO Option 73 Reserved Option 74 Equivalent Line Number Default 00 The equivalent line number is used with the receiver number for sending signals to the central station soft ware This option can be used if there is no DNIS number being received by the line card Option 75 Receiver Number Default 01 The receiver number is used for sending signals to the cen tral station software Refer to the manuals for any central station automation software being used to determine if there are any special requirements for this number Also check the numbers used for any other receivers in the sta tion to ensure that numbers are not duplicated Option 76 Accounts 3 x to 4 x Default 00 Program Option 76 with one of the values listed below Value Function 00 If the alarm is reported in 3 1 3 1 extended 3 2 BFSK or 3 8 ACRON formats a leading space will be communicated in front of the 3 digit Account Codes when sent to the computer Ex 101001sssssssAAAsXsssY DC4 01 If the alarm is reported in 3 1 3 1 extended 3 2 BFSK or 3 8 ACRON formats a leading 0 zero will be communicated in front of the 3 digit Account Codes Ex 101001ssssssOAAAsXsssY DC4 02 If the alarm is reported in 3 1 3 1 extended 3 2 BFSK or 3 8 ACRON formats a leading 0 zero will be communicated in f
92. per fast or high speed DTMF format with or without parity e DTMF 4 1 express format optional e DTMF 4 2 express format e FBI super fast format with or without parity e Radionics Modem II Modem IIE Modem Illa2 and BFSK formats e SIA format 110 and 300 baud tone and data acknowl edgement e SK FSKO FSK1 FSK2 e Any handshake frequencies by increment of 100 Hz from 100 Hz to 2300 HZ Dual Tone SIA FSK Modem Il and ITI selected by configuration commands s Up to 8 different handshakes per profile e Large easy to read 2 line 16 characters per line LCD Liquid Crystal Display screen s All modules function individually to help ensure uninter rupted operation during hardware or software upgrades e Inputs on CPM2000 for UPS supervisory e 255 lines maximum per receiver e 256 event memory buffer on each individual line card e Real time clock e CPM2000 features 32 bit micro controller e Two parallel printer port three serial RS232 ports and one 10 BaseT connection e Programmable serial ports configuration e Programmable System Functions Computer and printer e Fast transmission of multiple alarms to the computer and printer to ensure operator s quick response All formats noted as optional are selected using configuration commands 1 6 1 7 1 8 1 9 1 9 1 1 9 2 e Continuous verification of the computer receiver links with the heartbeat function e Switched negative outputs on CPM2000 special appli
93. r approximately 1 2 minutes during system ini tialization The buzzer will deactivate as soon as the CPM2000 software initializes and is running The LCD dis play on the CPM2000 should display Primary If the Line Cards do not have telephone lines connected the DRL2000 modules will activate Line Fault lights The tele phone line should be connected to the POTS jack at the back of the DRL SUBRACK As soon as the line card detects a phone line a line restore message will be sent to the printer and computer output If the phone line is removed a line fault message will be sent to the printer and computer output If there is no computer or printer connected a trouble message will be displayed on the CPM2000 LCD and the ACK light will flash Press the ACK button to silence the CPM2000 buzzer The watchdog LED on the line card should flicker as soon as it is initialized The Trouble LED will activate if the line card is not receiving a poll from the CPM2000 As soon as the line card responds to the polling the Trouble LED should deactivate Operation with Default Programming Without any changes to the factory default programming the receiver operates as follows e Answers incoming calls on the first ring e Sends 2300 Hz as the first handshake e Sends 1400 Hz as the second handshake e Sends dual tone as the third handshake e Sends SIA FSK tone as the fourth handshake e Sends ITI Modem IIE Illa2 tone as fifth han
94. re often accompanied by voltage fluctuations which may damage electronic equipment such as a security system After a power interrup tion has occurred immediately conduct a complete system test to ensure that the system operates as intended E Failure of Replaceable Batteries This system s wireless transmitters have been designed to provide several years of battery life under nor mal conditions The expected battery life is a function of the device environment usage and type Ambi ent conditions such as high humidity high or low temperatures or large temperature fluctuations may reduce the expected battery life While each transmitting device has a low battery monitor which identi fies when the batteries need to be replaced this monitor may fail to operate as expected Regular testing and maintenance will keep the system in good operating condition E Compromise of Radio Frequency Wireless Devices Signals may not reach the receiver under all circumstances which could include metal objects placed on or near the radio path or deliberate jamming or other inadvertent radio signal interference E System Users A user may not be able to operate a panic or emergency switch possibly due to permanent or temporary physical disability inability to reach the device in time or unfamiliarity with the correct operation It is important that all system users be trained in the correct operation of the alarm system and that they know how to respond when the
95. red by Warranty i freight cost to the repair centre ii products which are not identified with DSC s product label and lot number or serial number iii products disassembled or repaired in such a manner as to adversely affect performance or prevent adequate inspection or testing to verify any warranty claim Access cards or tags returned for replacement under warranty will be credited or replaced at DSC s option Products not cov ered by this warranty or otherwise out of warranty due to age misuse or damage shall be evaluated and a repair estimate shall be provided No repair work will be performed until a valid purchase order is received from the Customer and a Return Merchandise Authorisation number RMA is issued by DSC s Customer Service Digital Security Controls Ltd s liability for failure to repair the product under this warranty after a rea sonable number of attempts will be limited to a replacement of the product as the exclusive remedy for breach of warranty Under no circumstances shall Digital Security Controls Ltd be liable for any special incidental or consequential damages based upon breach of warranty breach of contract negligence strict liability or any other legal theory Such damages include but are not limited to loss of profits loss of the product or any associated equipment cost of capital cost of substitute or replacement equipment facili ties or services down time purchaser s time the claims of thir
96. ress and a number of asso ciated ports Each MLR2000 receiver may have up to two CPM2000 s configured as a primary CPM plus an optional hot backup CPM Internally socket program ming uses specific ports for expected tasks The MLR2000 is the Server in a connection oriented protocol Berkeley Socket 4 3BSD In the case of an IP Fall down serial ports will carry the same stream of traffic as TCP IP as backup communica tions channels As the CPM does not attempt to save state when it fails communications are switched to the backup CPM Line cards will re transmit unacknowledged packets through the system restoring any CPM message loss 10 2 Automation Mode In automation mode it is expected that the primary con nection is via TCP IP networking on the 10BaseT Ethernet connection To setup this mode a menu will prompt the user for an IP Address Once the IP address is set up all other options and setups may be done via the Sur Gard Console Package running on a Windows 9x 2000 XP plat form The TCP IP connection is the primary output of the CPM2000 for automation computer alarms It is esti mated that sockets may appear and disappear regularly as processes are terminated and reconstituted After 5 sec onds of socket loss a socket loss is declared and automa tion output is shifted to the next connection level which is the serial automation output connection 10 2 1 First configuration LOOP 0 If both outputs are present
97. rminal will display Ready to download CECC 2 Point and click at Transfer on the Hyper Terminal menu and access the Send File category The Send File window should appear 3 Change the protocol to X modem and place the correct path and file name of the binary file to be downloaded 4 Point and click on the Send button and the down loading status window should appear The line card will restart automatically after a successful download Printer output Line amp Account Alarm Code Message 061 965 E9 RESTORE 061 965 F9 TROUBLE 061 965 2 PANIC ALARM Section 3 Installation 3 1 Dimensions The MLR2000 is implemented into a 422U 600 mm 800 mm cabinet The cabinet has 7 subracks each on is 19 inches 6U high Housed in the top subrack the CPM2000 comes complete with its own 19 inch 6U tray Bellow the CPM2000 tray the MLRX 2000 expansion cage provides for up to 12 DRL2000 line cards Each DRL2000 line card is 6U 6HP 220 mm Each paddle board is 3U 6 HP 220 mm The PSU 2000 comes com plete in its own 19 inch 6U high cage The main MLR2000 cabinet will hold 2xCPM2000 5xMRLX 2000 60xDRL2000 2xPSU 2000 The expansion MLR2000 cabinet will hold 6xMRLX 2000 72xDRL2000 2xPSU 2000 3 1 1 Spacing All units of a receiver must be within 50 ft cable length of the CPM to provide system timing integrity 3 2 Definity DNIS The AT amp T Definity G3 DTMF vdn codes have been tested and are
98. ront of the 3 digit Account 0 zero will be communicated in front of the 1 digit alarm code Ex 101001ssssssOAAAsXssOY DC4 04 If the alarm is reported in SIA then a leading 0 zero will be communicated in front of the 3 digit Account Ex 01001 0AAA Nri0 FHOO 05 if the alarm is reported in 3 1 3 1 extended 3 2 BFSK SIA or 3 8 ACRON formats then a leading 0 zero will be communicated in front of the 3 digit Account 06 if the alarm is reported in 3 1 3 1 extended 3 2 BFSK SIA or 3 8 ACRON formats then a leading 0 zero will be communicated in front of the 3 digit Account and a 0 zero will be communicated in front of the 1 digit alarm code Option 77 Digit Replace Default 00 Option 77 works in conjunction with Option A2 Option 77 is programmed with an ASCII value that will replace an account code digit or insert a value into an account code Option A2 is used to replace a digit or insert a digit To replace a digit use Ox where x is the digit to be replaced To shift a digit use Option A2 and set to 8x where x is the loca tion in the account code 18 Example 1 Option 77 is set for 41 and Option A2 is set for 01 Standard 4 2 format output 1RRLLLssssssala2a3a4sXssYZ Account code is 9876 1RRLLLssssss9876sXssYZ The receiver will do the following First it will replace the first digit Option A2 01 of the account code in this example 1 and replace it w
99. rrent is factory set at 5A Removing and Installing System Components To remove the Power Supply Modules The Power Supply charges the battery and provides low battery voltage disconnect removing the power supply module will disconnect the battery and shut down the entire system Please make sure there is a second power supply module installed To Remove the CPM2000 Module Slowly pull the module out of the metal cabinet To Remove a Line Card Module Slowly pull the module out of the sub rack To Install a Line Card Module Slowly insert the module in the sub rack Installation Checklist Complete Operation O 19 Rack Mount Cabinet connected to earth ground LI SG PSU2000 Power Supply installed A 6 pin modular cable s connected to DRL2000 and tele phone line Q Parallel Printer Cable connected to MLR2000 Parallel Printer Port O Parallel Printer power connected L Computer connected to MLR2000 COMI port using serial cable L Computer connected to MLR2000 10BT port using 10BT cable Section 4 DRL2000 Digital Receiver Line Card 4 4 DRL2000 Controls 4 1 4 2 4 3 The DRL2000 acts as an interface between the digital alarm transmitter and the CPM2000 Different communi cation formats can be used to transmit the information The main functions of the line cards are to continuously monitor the telephone line receive calls from digital dial ers or control panels and to report alarms to the CPM2000 In addition
100. s D8112G2 10 BPS Passed Microtech Galaxy 500 DTMF Passed 20 BPS Passed SIA Level 1 Passed 40 BPS Passed SIA Level 2 Passed BFSK Passed SIA Level 3 Passed Modem Il Passed Napco 1016E 10 BPS Passed Radionics D8112 Modem Il Passed 15 BPS Passed Radionics D9112 BFSK Not Verified 20 BPS Passed Modem IIE Not Verified 40 BPS Passed Radionics D9412 BFSK Passed Napco 2600 10 BPS Passed Modem 11142 Passed 20 BPS Passed Scantronics Avenger IX AV 10 BPS Passed 40 BPS Passed 9000 BFSK Passed 20 BPS Passed Napco 3000 10 BPS Silent Knight Not Verified Any DTMF Format Passed 20 BPS Franklin Not Verified Silent Knight 5104 20 BPS Passed 40 BPS Radionics Not Verified BFSK Passed BFSK Not Verified SIA Passed DTMF Not Verified SK FSK1 Passed Modem Il Not Verified Silent Knight 1410 Not Verified SIA Not Verified Silent Knight 2820 20 BPS Silent Knight Not Verified Napco GEM P1632 10 BPS Passed BFSK Passed 20 BPS Passed Silent Kinght FSK 1 Not Verified Ademco Contact ID Passed SIA Not Verified SIA Passed Silent Knight 4720 10 BPS Sescoa ot Verified Optex Morse Gensys 824 10 BPS Passed 20 BPS Silent Knight Not Verified 20 BPS Passed BFSK Not Verified SIA Passed Silent Kinght FSK 1 Not Verified Optex Morse MDC 16C 10 BPS Passed Silent Kinght FSK 2 Not Verified 20 BPS Passed SIA Passed 40 BPS Passed Silent Knight 5107 Silent Kinght FSK 1 Passed BFSK Passed Silent Knight 5204 10 BPS Sescoa ot Verified Varitech Passed 10 BPS Silent Knight Not Verified Parado
101. s can be programmed specifically per hunt groups panel type etc By receiving the DNIS or Caller ID the appropriate profile can be selected through a look up table stored on the line card Profile Profile Profile __ Profile 0 1 2 63 Default s Static Options identical for all profiles 30 30 Dynamic 30 Dynamic 30 Dynamic Options Options Options AF AF AF Profiles are used to reduce on line time and for specific customers or panel format types one can have a profile with certain handshakes sent first Also some formats require certain options and this can be pre defined as well Profiles allow for a more customized system Rather than having a line card or a receiver itself devoted to certain customers the DRL2000 can handle any format at any time through the use of profiles Each line card holds its own look up table that can be shared through line pools or shared within the entire receiver Two types of tables are available but only one type can be chosen The first type which consists of 10 000 entries is used strictly with DNIS of up to 5 digits Table type 1 DNIS receivedProfile to be used DNIS Received Profile to be used 00001 01 00002 03 00003 24 99999 45 6 2 6 2 1 6 2 2 6 2 3 A H S Automatic Handshake Selection AHS is the process of the line card to send a handshake to be used with the ANI Also included in AHS is the ability for the CPM2000 to remember whi
102. sed 20 BPS Sescoa Passed 20 BPS Passed 20 BPS Passed Ademco Contact ID Passed 40 BPS Passed SIA Passed BFSK Passed DSC NT9010 20 BPS Passed Aritech Moose Z1100 1 10 BPS Silent Knight Not Verified Ademco Contact ID Passed 14 BPS Silent Knight Not Verified SIA Passed 20 BPS Franklin Not Verified DSC PC580 20 BPS Passed 40 BPS Radionics Not Verified Ademco Contact ID Passed Aritech Moose Z1100 E 10 BPS Passed SIA Passed 10 BPS Sescoa Passed DSC PC1000 10 BPS Passed 15 BPS Passed 20 BPS Passed 20 BPS Passed DSC PC1500 10 BPS Passed 20 BPS Sescoa Passed 20 BPS Passed 40 BPS Passed DSC PC1550 10 BPS Passed BFSK Passed 20 BPS Passed AT amp T System 8300 10 BPS Passed 40 BPS Passed 20 BPS Passed DSC PC1555 20 BPS Passed Ademco High Speed Passed Ademco Contact ID Passed SIA Passed SIA Passed DSC PC1575 20 BPS Passed Panel Formats Passed Failed Panel Formats Passed Failed Ademco Contact ID Passed Ademco Contact ID Passed SIA Passed SIA Passed DSC PC2500 O BPS Passed DSC PC5010 V2 X 20 BPS Passed 20 BPS Passed Ademco Contact ID Passed 40 BPS Passed SIA Passed DSC PC2525 O BPS Passed DSC WSS 5010 V2 1 SIA Passed 20 BPS Passed DSC
103. system indicates an alarm E Smoke Detectors Smoke detectors that are a part of this system may not properly alert occupants of a fire for a number of reasons some of which follow The smoke detectors may have been improperly installed or positioned Smoke may not be able to reach the smoke detectors such as when the fire is in a chimney walls or roofs or on the other side of closed doors Smoke detectors may not detect smoke from fires on another level of the residence or building Every fire is different in the amount of smoke produced and the rate of burning Smoke detectors cannot sense all types of fires equally well Smoke detectors may not provide timely warning of fires caused by carelessness or safety hazards such as smoking in bed violent explosions escaping gas improper storage of flammable materials overloaded electrical circuits children playing with matches or arson Even if the smoke detector operates as intended there may be circumstances when there is insufficient warning to allow all occupants to escape in time to avoid injury or death E Motion Detectors Motion detectors can only detect motion within the designated areas as shown in their respective installa tion instructions They cannot discriminate between intruders and intended occupants Motion detectors do not provide volumetric area protection They have multiple beams of detection and motion can only be detected in unobstructed areas covered by these beams They can
104. t of a computer COM1 port usually DB 9 male COM2 port DB 25 female Debug Software Setup e Using WIN95 point and click on the START button Access Programs gt Accessories gt HyperTerminal Once in the HyperTerminal window point and click on Hypertrm exe icon e A connection description window should appear A prompt should appear on the Name category Type a name Point and click on the OK button e A phone number window should appear Choose the direct to COM port required for connection and point and click on OK e COMX properties windows should appear The configu ration should be e Bits per second 19200 e Data bits 8 e Parity None e Stop bits 1 e Flow control None e Point and click on the OK button after setting the con figuration e The HyperTerminal window should appear Press any button The debug menu will be displayed Button Commands A This button will display the address of the line card The address includes the shelf and slot number of the line card making each line card unique D This button will initiate the download of a file to the line card O This button will enable the user to dump the current programmed options of the line card or set an option to a particular value P Sets the message priority to be displayed This is useful for debugging purposes only Downloading steps 1 Press the D button to initiate downloading of the binary file The Hyper Te
105. that may be due Warranty Procedure To obtain service under this warranty please return the item s in question to the point of purchase All authorized distributors and dealers have a warranty program Anyone returning goods to Digital Security Controls Ltd must first obtain an authorization number Digital Security Controls Ltd will not accept any shipment whatsoever for which prior authorization has not been obtained Conditions to Void Warranty This warranty applies only to defects in parts and workmanship relating to normal use It does not cover damage incurred in shipping or handling damage caused by disaster such as fire flood wind earthquake or lightning damage due to causes beyond the control of Digital Security Controls Ltd such as excessive voltage mechanical shock or water damage damage caused by unauthorized attachment alterations modifications or foreign objects damage caused by peripherals unless such peripherals were supplied by Digital Security Controls Ltd defects caused by failure to provide a suitable installation environment for the products damage caused by use of the products for purposes other than those for which it was designed damage from improper maintenance e damage arising out of any other abuse mishandling or improper application of the products Items Not Covered by Warranty In addition to the items which void the Warranty the following items shall not be cove
106. the CPM2000 will send to the TCPAP until it fails proceed to the serial until it fails pro ceed back to the TCP IP until it fails and so on 10 2 2 Second configuration FALL BACK 1 If both outputs are present the CPM2000 will send to the TCP IP until it fails proceed to the serial until it fails and will keep trying on the serial continuously or until the reset fallback command is generated from the console in which case it would go back to try the TCP IP connection 10 2 3 Third Configuration ALL 2 The CPM2000 will always send to all connected outputs If at least one output replies with a ACK then the alarm is considered as transmitted regardless if the other output acknowledged it or not This setting is NOT recom mended Flow diagram for Automation LOOPMode 0 Power Up Restart A le Manual Re start from Console Reset Fallback PM2000 A Ethernet Port Active Poll Automation No ES 4 Manual Re start from Console Reset Fallback CPM2000 A Serial Port Active le Flow diagram for Automation FALL BACK Mode 1 Power Up Restart _ Manual Re start from Console Reset Fallback CPM2000 A Ethernet Port Active Poll Automation No CPM2000 A Serial Port Active A Manual Re start from Console Reset Fallback
107. the old handshake with the new one Call Blocking At any time the operator may want to use a call blocking type feature for particular customers i e inactive accounts The operator will be able to manually update the AHS database Tel dat and enter handshake selec tions If the operator wishes to call block a particular cus tomer Caller ID they would do this by entering the handshake value 99 When this is sent to the line card the line card will release the line e Computer Message ORRLLL 0000 ACPM 2000 BLOCKED CALL e Printer Message RRLLL 0000 CPM2000 BLOCKED CALL 14 6 3 Static Options 00 2F Option 00 Reserved Option 01 Line Card Number Default 01 The line card Number provides a virtual identification code for each DRL2000 module Hexadecimal numbers 01 to FE can be programmed in Option 01 to identify line cards Option 02 Line Card Number Length Default 0A This option is used to determine how many digits from the line card number will be sent to the output You also have the option of displaying the number in hex or decimal Program Option 02 with one of the following 01 Send only one Hex digit to the printer or computer output if you have a 2 digit line card number only the last digit will be sent to the output 02 Send 2 Hex digit line card number to the output 03 Send 3 Hex digit line card number to the output leading Zeros will be inserted prior to the line card number
108. there are 50 ohm BNC terminators on the other end of the T Connectors of the CPM2000 labelled ETHERNET A AND B e Make sure that there are 50 ohm BNC terminators con nected on the BNC terminals marked ENET A OUT and ENET B OUT of the backplane This should be already done U U ga IG GIGI E ama 41414 ODO ah AAA dada DD o gv Bala alelele elelelelelele Ethernet Repeater A ses Sitio N sei elelelelele 8 6 S e eje elele elelels Ethernet Repeater B o oa VOO O WO DEEP Oo Di O Di O D D 0 O C OOO l 0 bl 50 OHM 50 OHM e e e e J C h O ODO L DDD DD L DD P E E E Fl E O D D O O D o O ajuda ooo a o 4 00O a ad 4D ala SR SISSIG 9 DIG Di D 0 OD O 0 aro Di O O D D O E polo olo oi ol o 50 OHM 8 50 OHM DO POWER ABATTERY o o jo o A To Next Cabinet B To Next Cabinet Figure 2 72 Line Cards Configura
109. tion It is recommended that a DRL2000 Cold Start up be per formed when the unit is updated with a new program version Refer to Operating Mode Section DRL2000 Cold Start up for information After the cold start up check the configuration informa tion listed in the Quick Reference Guide to make any required changes for your particular application 11 Each DRL2000 Module has one telephone line Momentarily depressing and releasing a button will regis ter as a single input or keystroke ON LINE The on line light will be ON when the Line Card is on line in communication The on line light will be OFF when the Line Card is in Stand by Mode When the line card is on line but not in communication the on line LED will FLASH to indicate that the buffer is full or that there is a check ACK sum error after download LINE FAULT The Line Fault light will FG come ON if the telephone line is dis CANCEL connected The Line Fault light will turn OFF automatically when the tele F1 phone line is restored TROUBLE The Trouble light will Es come ON when the Line Card is shut down by an operator s command or when communication with the CPM2000 is interrupted The Trouble light will be shut OFF when the trouble condition is corrected WATCHDOG The Watchdog light ON LINE LINE FAULT TROUBLE WATCHDOG DRL2000 will FLASH to indicate that Line Card HANDSET operation is being monitored A
110. tion Expansion cabinet 37 8 5 8 8 8 8 8 8 5 8 8 G OOo GGO 0 00 DoD O D o D gio D a D a a C Di D D oro Di D 0 D D D C q 8 48 0 8 0008 010 slelelelelelelelelelelelele G 5 G G al al al o o OOOO o sle CECU alo jo Oo LS a lo lo lo lo DOT PORTA Ethernet Repeater A PORTZ e el e 8 8 8 8 8 8 8 8 9181 8 8 DIDO BBIB P om oc AAAH BIE A HARS A 08 8 Di O 0 D D o o O U el el el el el el el el elelelelele e e e e e e UU e e e e e e POWER ABATTERY POWER B ooljoo oo
111. ummary Code 0 APOTWOARPVAN AUN RWN or N 20 Hex Event Automatic Test Fire Alarm Panic Alarm Burglary Alarm Closing by User Number Opening by User Number Service Medical Emergency Message Restore Alarm Bypass Closing Cancel Unbypass Opening Restore Trouble Common Event Code Common Event code Space Section 8 CPM2000 Central Processing Module The CPM2000 is the central processing module that monitors the DRL2000 Line Cards and forwards the information from the Line Cards to the computer and printer The CPM2000 is capa ble of monitoring a maximum of 255 DRL2000 modules 8 1 General Information The CPM2000 64 bit micro controller and real time lan guage program running at 133 MHz allow the system to quickly and efficiently execute several tasks at the same time The use of a unique menu display system enhances the system s ease of use for the operator and makes the system configuration and programming simple and effi cient Several diagnostics modes are available to assist the operator in troubleshooting and maintenance the MLR2000 Console software through Windows 9x 2000 8 3 XP computer is also available to setup the CPM and Line cards 8 2 Features e Multi tasking allows the receiver to perform functions that might otherwise be delayed by a slow computer 8 3 1 acknowledgement response e Fast internal communication results in practically no delay in transfer of information
112. urce i e actively polling until END is encountered When End is encountered the unit will con tinuously try to connect to the last entry One of the switched negative output on the CPM PGMOUT 1 will be activated when automation fails 30 The Manual Restore rule is a command that may be issued on the Sur Gard console to jump back to the first entry The CPM and automation must connect to all resources announced all the time In the CPM s case this means that a socket is presented for each automation to connect to CPM Redundancy CPM s are directly redundant The secondary CPM con stantly monitors the first CPM by observing polling events If the primary is considered failed either by loss or by agreed upon takeover the unacknowledged signals on the systems line cards are flushed out of the failed CPM As the secondary CPM resumes polling the previously unacknowledged signals are re transmitted from the line card in chronological order CPM Restoral All contemplated scenarios for recovery of a CPM except watchdog restart involve a serviceman It is expected that CPM restoral will be manually switched from the console 9 2 9 3 Section 10 MLR2000 Computer Interface The CPM2000 is able to send alarm messages to a computer connected to the TCP IP or serial port This section describes the communication procedures and the communication formats available for use 10 1 Virtual connectivity Each CPM2000 has one IP add
113. us D5O ADT SIA Passed ADT Focus 45 Old Focus FSK Passed ADT Focus 45B Multi point Il Passed ADT Focus 48 Old Focus FSK Passed ADT Focus 100B Old Focus FSK Passed ADT Focus 100C Multi point Il Passed ADT Focus 100D ADT SIA Passed ADT Focus 200 ADT SIA Passed ADT Focus 200B ADT SIA Passed ADT Focus 200P ADT SIA Passed ADT Focus7580 Old Focus FSK Passed ADT Safewatch RF ADT SIA Passed ADT Unimode 5 ADT SIA Passed 46 WARNING Please Read Carefully Note to Installers This warning contains vital information As the only individual in contact with system users it is your responsibility to bring each item in this warning to the attention of the users of this system System Failures This system has been carefully designed to be as effective as possible There are circumstances however involving fire burglary or other types of emergencies where it may not provide protection Any alarm system of any type may be compromised deliberately or may fail to operate as expected for a variety of reasons Some but not all of these reasons may be E Inadequate Installation A security system must be installed properly in order to provide adequate protection Every installation should be evaluated by a security professional to ensure that all access points and areas are covered Locks and latches on windows and doors must be secure and operate as intended Windows doors walls ceilings and other building materials must be of sufficient str
114. ved Option 2D A H S Default 00 A H S Automatic Handshake Selection is the process of the line card to send a handshake to be used with the ANI Also included in A H S is the ability for the CPM2000 to remember which handshakes are used for which ANI The A H S has the ability to be used in conjunction with the DNIS to select a predefined profile based on the DNIS table that is stored in the line card The handshake is retrieved from the A H S table and the remainder of the options to be taken from the DNIS profile Also if the panel does not respond to the handshake given by the line card it will proceed with its handshake sequence from this profile as opposed to the default profile gt 16 00 A H S Disable 01 A H S enable 10 digits 02 AH S enable international Call Blocking when A H S is active At any time the operator may want to use a call blocking type feature for particular customers i e inactive accounts The operator will be able to manually update the A H S database with the Hand Edit software If the operator wishes to call block a particular customer Caller ID they would do this by entering for that entry the handshake value of 99 When this is sent to the line card the line card will release the line as soon as it sees the Caller ID e Computer Message ORRLLL 0000 ACPM 2000 BLOCKED CALL e Printer Message RRLLL 0000 CPM2000 BLOCKED CALL Options 2E 2F Reserved 6 4 Dyn
115. will be enabled If set to 01 Sescoa Super Speed will be enabled and 4 2 with checksum will be disabled Option A6 ITI Adjust Default 00 When set to 01 the ITl account codes will be converted to four digits by stripping the last digit off For example a panel account of 23459 will become account 2345 If the leading digit of the panel account is a O than it will be stripped and replaced with a space For example if 02349 is sent then the receiver will output 234 for the panel account 22 Option A7 Silent Knight FSK2 RS 232 Default 00 The DRL2000 provides two possible outputs to the com puter for Silent Knight FSK2 format The operation of this option is explained below A7 00 SKFSK disabled A7 01 SKFSK enabled for SKFSK1 ERRLLLssssssAAAAY Y ssss DC4 SKFSK2 Protocol 2 CRRLLLssssAAAAAAYYZZss DC4 SKFSK enabled for SKFSK1 ERRLLLssssssAAAAY Y ssss DC4 SKFSK2 Protocol 2 FRRLLLssssAAAAAAYYZZss DC4 A7 02 Options A8 AF Dial out Number For 2 way Audio Transfer Default 00 These 8 options are used to provide the dial out number if the user wishes to transfer the call to another exten sion Up to 16 digits may be programmed including any Feature Command digits The values in these options will be sent as DTMF tones on the phone line after the following sequence takes place 1 The DRL2000 has recognized the current call as a 2 way audio account and alarm code
116. x Digiplex 10 BPS Passed 20 BPS Silent Knight Not Verified 20 BPS Passed SIA Not Verified Ademco H S Passed Silent Knight FSK Not Verified SIA Not Verified Silent Knight 5207 20 BPS Silent Knight Not Verified Radionics D2071A 40 BPS Not Verified Silent Knight FSK Not Verified BFSK Not Verified BFSK Not Verified Radionics D2112 20 BPS Passed SIA Not Verified Modem Il Passed Sur Gard DC1664LC 10 BPS Passed Radionics D2212 20 BPS Passed 20 BPS Passed Modem IIE Passed 40 BPS Passed Radionics D4012 40 BPS Passed Any DTMF Format Passed Radionics D4112 10 BPS Passed SIA Passed 20 BPS Passed Sur Gard P16 P16LC 10 BPS Passed 40 BPS Passed 15 BPS Passed BFSK Passed 20 BPS Passed Modem IIA Passed 40 BPS Passed Radionics D6112 10 BPS Passed Any DTMF Format Passed 20 BPS Passed SIA Passed 40 BPS Passed Sur Gard P1664LC 10 BPS Passed BFSK Passed 20 BPS Passed 45 Panel Formats Passed Failed 40 BPS Passed Any DTMF Format Passed SIA Passed Linear 1704 SSD Linear FSK ot Supported Westec 800 Westec Format 3 ot Supported Westec 900 Westec Format 1 ot Supported Westec 2000 Old Westec Format 2 Not Supported Westec 2000 C2K Westec Format 5 Not Supported Westec 3000 Westec Format 5 ot Supported Westec 4000 Westec Format 5 ot Supported Westec 5000 Westec Format 6 ot Supported ADT A910 Multi point Il Passed ADT Foc
117. xample e COMPUTER 5011235181234E12200003 14 6 e PRINTER Jun 26 1998 16 07 35 01 02 SG 01 123 1234 122 E122 00sSILENT PANIC 003 24 7 5 7 6 7 7 Ademco Express This format consists of 4 digit account codes and 1 or 2 digit alarm codes The DRL2000 will decode the signal as regular 4 1 or 4 2 format Option 99 must be pro grammed as 01 to decode the 4 1 Express format instead of the Sur Gard 4 3 with checksum format Example e Option 99 set to 00 Raw data 23451726 Computer Output 101123 2345 A 172 Printer Output Jul 20 1998 15 54 31 01 02 SG 01 123 2345 172 FIRE ALARM e Option 99 set to 01 Raw data 23451726 Computer Output 101123 2345 A 2 Printer Output Jul 20 1998 15 48 57 01 02 SG 01 123 2345 2 PANIC ALARM Ademco Super Fast High Speed Format The High Speed format consists of 4 digit account num bers 8 channel status digits and 1 auxiliary channel NOTE When option 9F is programmed as 00 the DRL2000 will convert the signal into 4 2 format When option 9F is programmed as 01 the DRL2000 will send the information as it received to the printer and to the computer using High Speed RS 232 communication protocol 8RRLLLAAAAsCCCCsC DC4 AAAAZZZZ ZZZZ S AAAA Three digit or four digit account number ZZZZ ZZZZ Zone status S Status channel indicates the meaning of the message AAAAZZZZZZZZS or AAAZZZZZZZZS Example e With option 9F disabled Computer 101001ssssss
118. y products returned to DSC which have the Installer s Lockout option enabled and exhibit no other problems will be subject to a service charge Out of Warranty Repairs Digital Security Controls Ltd will at its option repair or replace out of warranty products which are returned to its factory according to the following conditions Anyone returning goods to Digital Security Controls Ltd must first obtain an authorization number Digital Security Controls Ltd will not accept any shipment whatsoever for which prior authorization has not been obtained Products which Digital Security Controls Ltd determines to be repairable will be repaired and returned A set fee which Digital Security Controls Ltd has predetermined and which may be revised from time to time will be charged for each unit repaired Products which Digital Security Controls Ltd determines not to be repairable will be replaced by the nearest equivalent product available at that time The current market price of the replacement product will be charged for each replacement unit 2008 Digital Security Controls Ltd Toronto Canada e www dsc com Sales 1 888 888 7838 Tech Support Canada amp USA 1 800 503 5869 Direct all comments concerning this publication to pubs dscltd com Printed in Canada 2903 7R001 4637R0
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