Sur-Gard System III SG-DRL3-IP Receiver Line Card
Contents
1. 240VAC 50Hz System III CE is not UL Listed 0825 Parallel CPM3 12 RJ 45 Shelf CAUTION The ethernet Printer Not Debug Connectors Address 5V supervised limited to same communication lines must be Output Used Output Not Used Switch room 20ft power limited connected first to an Approved acceptable to the local 9 9 iti pAn py SOCIO 5500099070 990 0900000 nmn 2mm typo MD Network S 0901 4 5 1 m lr T Bb Bo T BUF d Interface Device before leaving 28 eg EB img sme B4 the premises e g UL e RE 0 EE E EE nich z zu Aa qm installations UL60950 Listed i TS SS SS SS SS SS NID 3 m ea F mE p p uw p i Connections for second e m ry m ii 1 du dn fh Q du backplane p U U U U Fe See System Supervised e i eal UPS Connection Diagram a D rib 12 RJ 45 Ethernet Connectors for details gu For use with SG DRL3 IP only Note For UL Installations AC input is 120VAC 60Hz Do not connect to a receptacle T gt controlled by a switch 1 RS 232 Ethernet 25 Pair RJ 21 Supervised Telephone Lines Connector Serial Output 120VAC 60Hz Automation 10 100 Bas2. 6 N ON OFF OFF 18 MASK NETWORK ABSENT 6 N ON OFF OFF 19 MASK TX RESTORAL 7 N ON OFF OFF 1A MASK TX FAILURE 7 N ON OFF OFF 1B MASK TX SWAP 7 N ON OFF OFF MASK IXUNENCRYPTED 7 N ON OFF OFF 1D MASK INVALID REPORT 7 N ON OFF OFF 1E MASK UNKNOWN ACCOUNT 7 N ON OFF OFF 1F MASK ACCOUNT EXCEEDED 7 N ON OFF OFF 21 MASK OPTION CHANGE 7 N ON OFF OFF 2B BUSYOUT 8 N 00 05 00 1 5 Receiver Setup and Operation DSC recommends testing the receiver before actual installation 3 Insert all the cards in the rack in their appropriate position Becoming familiar with the connections and setup of the unit on the workbench will make final installation more straightforward The following items are required EC Power supply cord One network hub or router One or more dialer or digital control panel and a T LINK TL250 TL300 1 Unpack the components for the System III NOTE Carefully unpack the receiver and inspect for shipping damage If there is any apparent damage notify the carrier imme diately 2 Unscrew the front thumb screws and open the front plates NOTE Before inserting the CPM3 connect the ribbon cable from the UIB3 board Before inserting the PSC3 connect the LCD back light Refer to Figure 1 2 in the System III Installation M
3. The number of flashes on the yellow LED indicates the following errors Flashes Error 1 CPM Absent 2 Line Card Busy 3 Printer Buffer Full 4 Computer Buffer Full 5 Checksum Failed 2 2 CPM3 Error If the SG DRL3 IP cannot detect the CPM3 polling the SG DRL3 IP will start buffering incoming calls Up to 768 alarm messages for the printer and computer will be retained in the SG DRL3 IP event buffer When the event buffer is full the line card will stop processing alarms and the status LED will begin flashing When the CPM3 error condi tion is corrected the alarm messages in the event buffer will be transmitted to the CPM3 with the corresponding time date the alarms have been received 2 3 Fault Data Message When this problem is encountered the following information is transmitted to the printer and the computer Printer SG 12 234 AAAAAA YN Invalid Report 192 158 8 34 Computer 012234 HAAAAAAINYN 192 158 8 34 NOTE This output for account code AAAAAA indicates that data has been received but is not valid e g The packet is encrypted and the SG DRL3 IP does not have the proper key or the T LINK trans mitter packet was rejected NAK four times by the receiver Please also refer to Option 45 2 4 Ethernet Interface The SG DRL3 IP has an Ethernet interface which operates as a 10BaseT 100BaseT IEEE 802 3 compliant Ethernet port half duplex mode This port
4. Additional Events In the case of the T LINK TL250 TL300 transmitter not receiving polls response from the panel the T LINK will generate the events previ ously generated by the SG DVL2A for DVACS panel and restoral 12 SIA Printer 01 Nov 2004 13 50 51 01 02 SG 01 1 001 Account Absent Computer 3011 001YC 000 Printer 01 Nov 2004 13 50 51 01 02 SG 01 1 001 Account Present Computer 3011 001YK 000 Standard Printer 01 Nov 2004 13 50 51 01 02 SG 01 1 001 IDcde IncResp Computer 1011 001 A 0A Printer 01 Nov 2004 13 50 51 01 02 SG 01 1 001 IDcde Restore Computer 1011 001 R 0A NOTE The SG DRL3 IP will use 10 digit account identifications in it s IP table for DVACS transmitters The first four digits represents the receiver and line number originally used on the SG DVL2A and are programmed as the first four digits of the T LINK account refer to Appendix F If the automation protocol in the form of 1RRL 3RRL is required when using the DRL3 IP in the DVACS configuration set e DRL3 IP Option 11 21 e Options 10 amp 11 03 Appendix C SG DRL3 IP Events Description Event SG DRLx IP Power Up Mes sage Printer Buffer Full IP Line Card Computer Buffer Full IP Line Card Checksum Fail COLDBOOT was performed COLDBOOT was performed by debug menu by CPM Menu Network Pr
5. A higher level protocol within the TCP IP suite of protocols which is responsible for implementing web browsers This is the protocol implemented by the CPM3 to enable the web interface to func tion See Centronics See Ethernet A term for the reception of pulse formats The time between two bursts A term used for reception of pulse or DTMF formats The time between two digits A trouble condition which is generated inside a receiver as opposed to being sent as an alarm from the panel Internal troubles are also sent to the printer and automation outputs A term used in the security industry for a positive acknowledgement An individual channel on a line card Equivalent to 1 telephone line A removable hot swappable card which contains a POTS line interface which controls 1 or more POTS lines For System III each line card DRL3 will interface to 1 line Electrical compensation for attenuation and phase delay distortion exhibited by the PSTN Conditioning is per formed through the use of an equalizer Media Access Control A globally unique device 6 byte address which identifies a device attached to an Ether net network Assignment of MAC addresses is governed by the IEEE any OEM company which manufactures Ethernet devices must apply for and purchase an OUI Organizationally Unique Identifier which consists of a block of 16 777 216 MAC addresses all of which have the same first 3 bytes Subsequent allocation of addresses withi
6. authorized distributors and dealers have a warranty program Anyone returning goods to Digital Secu rity Controls must first obtain an authorization number Digital Security Controls 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 such as excessive voltage mechan ical 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 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 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 covered by War ranty 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 p
7. configurations 1 6 7 Acknowledgment of the Signal The Sur Gard System receiver requires an acknowledgment signal ACK Hex 06 from the computer software within 4 seconds for each message sent Failure to receive the ACK will result in 3 retransmissions of the signal before indicating a communication fail ure During a communication failure the System Ill receiver will cease transmitting except for the heartbeat The same thing happens if the receiver receives a NAK Hex 15 In case of communication failure with the computer the System 11 DRL3 line card can store up to 512 events and the DRL3 IP line card can store up to 768 events in the line card internal memory Communication is resumed when the first acknowledgment is received on the heartbeat all buffered informa tion is then transmitted 1 6 8 Automation Responses When the CPM3 sends an event to the computer it checks for 3 responses ACK NAK or Unknown No Response An ACK tells the CPM3 the computer automation got the event successfully A NAK tells the CPM3 the computer automation got the messages but didn t understand it The line card will attempt to send the messages 25 times If after 25 attempts it continually gets a NAK from the computer automation the CPM3 will send an internal communication error event to the printer After 25 attempts the line card will send an internal com munication event to the printer and then begin attempting to send the next event in
8. have smooth well rounded surfaces or shall be protected with bush ings The EXTERNAL ENCLOSURE shall be connected to the PROTECTIVE EARTH GROUND The external cabinet RACK must be secured to he building structure before operation in a such a way to fully meet he STABILITY REQUIREMENTS as per EN60950 2000 conditions An adequate MARKING visible before the door cover NEXT TO THE ACCESS DOOR or cover of the rack with instructions for pro ection once the DOOR or covers IS are removed stating that telephone cord is to be disconnected prior to opening the door is an example of an acceptable Marking and it shall be provided by he Installer An acceptable power supply cord detachable shall be used accord ingly to the local outlets and voltages IT IS THE INSTALLER S RESPONSIBILITY TO PROVIDE AN APPROPRIATE ACCEPTABLE POWER SUPPLY CORD CAUTION This product uses Lithium Batteries Improper handling of lithium batteries may result in HEAT GENERATION EXPLOSION or FIRE which may lead to personal injuries Please ensure that the above precautions are strictly observed by the related divisions including but not limited to sales service customers and or outside contractors THE EQUIPMENT SYSTEM Ill IS EQUIPPED WITH LITHIUM NON REPLACEABLE BATTERY DO NOT ATTEMPT TO REPLACE THE BAT TERIES CONNECTION TO THE MAINS 1 Connect first the DETACHABLE POWER SUPPLY CORD to the IEC 320 connector located on SYSTEM equ
9. DC3 Dialer DNIS The portion of a signal which contains the information identifying the location or the owner of the alarm panel Also referred to as account number account code or account digits A signal sent from the receiver to the panel indicating that data has been received A positive acknowledgement ACK means data was received without any detected errors see kiss off A negative acknowledgement NAK means data was received but there were detected errors An acknowledgement may be sent per packet or per alarm Automatic Handshake Selection See ANI A message transmitted from the panel to the receiver containing account event zone user or other informa tion There may be one or more per call An alarm may be repeated in the same call if not successfully delivered in a previous attempt An alarm will contain one or more packets Packets can contain rounds or different infor mation Alarm transmission is initiated with a handshake and if received correctly acknowledged with a kiss off Automatic Number Identification Refers to the receiver feature which enables the line card to request the handshake to be used with a particular panel from the CPM The CPM maintains a database of most recently used handshakes for all accounts connected to the receiver Handshakes are stored along with the phone num ber of the associated alarm panel America Standard Code for Information Interchange A seven bit alphanumeric code used extens
10. 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 system is monitored the response may not occur in time to protect the occupants or their belongings 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 Inadequate Testing Most problems that would prevent an alarm system from operating as intended can be found by regular test ing 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 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 Controls warrants the original purchaser that for a period of twelve months from the date of purchase the product shall
11. is accessible via a standard RJ45 connector A LINK plus ACTIVITY LED is also present on the board for diagnostics and troubleshooting The IP address of the SG DRL3 IP is programmable The ethernet port is used for system connections including the transmitter and console ports CAUTION The ethernet communication lines must be con nected first to an approved acceptable to the local authorities type NID Network Interface Device before leaving the premises e g UL installations UL60950 Listed NID 2 5 ULAA Receiver Database The receiver has the capability of monitoring T LINK transmitters that are setup as ULAA units The receiver will automatically keep track of new transmitters and indicate whenever a transmitter has been lost No option is required on the receiver since if no ULAA heartbeat signals are received then the receiver will function nor mally Refer to Appendix C SG DRL3 IP Events 2 6 SG DRL3 IP Debug Output Connect the RJ45 end of the debug cable to the debug output jack on the front of the line card Connect the female DB9 connector to the serial port of a computer COM1 or COM2 port usually DB9 male Refer to the System III Installation Manual for details RJ45 Back of DB9 Connector Connector RJ45 DB9 Pin3 to Pin 2 Pin 4 to Pin Pin5 to Pin 5 Section 3 SG DRL3 IP Programming NOTE System Ill Console v2 20 or higher software is required for pro gramming and communication with SG DRL3
12. panel account code will be sent as received For example if option 46 is set to 0x07 the following will occur Transmitter Output 1234567890 4567890 0000001234 0001234 0012345678 2345678 Panel Output 567890 567890 7890 7890 00567890 0567890 If the option 46 is set to 00 the following will occur Transmitter Output 1234567890 1234567890 0000001234 0000001234 Panel Output 567890 567890 7890 7890 00567890 00567890 Default 00 Option 47 SIM Number Output This option is available with the GS transmitter When enabled the receiver will output the received SIM number to the printer and automation The message will include the account number up to 10 digits following Option 56 and the SIM number 21 digits The automation software used with the receiver will need to support the s protocol via the Sur Gard output format in order for this feature to work The automation output is as follows SRRLLLAAAAAAAAAASSSSSSSSSSSSSSSSSSSSS Where S is the protocol identifier RRLLL is the Receiver and Line number of the line card that received the event A is the 10 digit account number 5 is the SIM number of the transmitter that sent the event Default 00 Glossary Account Acknowledgement ACK AHS Alarm ASCII Automation Automation Message Backplane Block BP3 Busy Out Call Caller ID Capture Centronics Checksum C L A S S Client Computer Message Console CPM3 DC
13. the line card buffer to the computer automation Any other response from the computer automation including no response will cause the CPM3 to attempt to send the message again up to 4 times If after 4 attempts the CPM3 gets no response or an unknown response it will assume nothing is connected and generate an alarm 1 6 9 Automation Absent When the computer is not responding to transmissions the CPM3 will generate a SG Serialx fail or SG TCP IPx Fail trouble When a trouble occurs the CPM3 will continue to attempt to send a heart beat signal to the computer until it gets a response The System III receiver will make 4 attempts then wait for the next heartbeat period before making another 4 attempts The typical heartbeat interval is 30 seconds Supervisory Heartbeat Signal Protocol 1 100000sssssssssss ssss DC4 00000 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 computer automation It is sent to the computer auto mation every 30 seconds and is programmable from the receiver The computer automation should acknowledge this signal with an ACK The CPM3 can be programmed to send a test signal to the computer automation once every 01 99 seconds to test the connec tion between the CPM3 and the computer automation 30 seconds is recommended If a heartbeat fails
14. 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 Industry Canada Statement IC 160A SYSTEM3 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 hap pens the Telephone Company will provide advance notice in order for you to make necessary modifications to maintain uninterrupted service Equipment Maintenance Facility If trouble is experienced with this equipment Sur Gard SYSTEM III 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 DSC c o APL Logistics 757 Douglas Hill Rd Lithia Springs GA 30122 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 Alarm dialing equipment must be able to seize the t
15. 0 RS Console Account Por 0 0000 by Console 0 0000 by DEBUG IWARE DOWNLOAD INITIATED UPDATE FAILED 0 0000 Console SET IP Account 0 0000 Console GET IP Account 5 5 gt m 1 000 0000 LC Power Up VX XX XX XXX 1 0000 NYB0001 Computer Buffer Full 1 0000 NYFO100 Checksum Failed BUG 0 0000 NYEO100 Coldboot by 1 XXXXXXXXXX YK Transmitter Restoral IPIPIPIP 1 XXXXXXXXXX YC Transmitter Failure IPIPIPIP 1 XXXXXXXXXX YS Transmitter Swap IPIPIPIP nencrypted IPIPIPIP 1 XXXXXXXXXX YN Invalid Report Possible Compromise Attempt IPIPIPIP 1 XXXXXXXXXX PC Possible Compromise Attempt 1 XXXXXXXXXX JO Maximum Accounts Exceeded IPIPIPIP 1 XXXXXXXXXX JX Transmitter Deleted IPIPIPIP 12000000000CXA Unknown Account IPIPIPIP IPIPIPIP 0 0000 NYYOOO0 Reset SG Fallback Initiated Lead In Lead Ou able able 0 0000 Console SET IP Account XXXXXXXX 000000000 NC ENCRYPTION ENABLED IPIPIPIP XXXXXXXXXX YK ENCRYPTION NOT SUPPORTED IPIPIPIP XXXXXXXXXX YK ENCRYPTION SET FAIL IPIPIPIP XXXXXXXXXX YK ENCRYPTION DISABLED IPIPIPIP NOTE In the event a Compromise Attempt message is reported by the SG DRL3 IP please ensure there are no possible external attacks being attempted at the receiver 13 Appendix D DEC HEX BIN Conversion Chart Dec 000 001 002 003 004 005 006 007 0
16. 0011 0101 cter Appendix F DVACS Alarm Flow Comparison SG DVL2A Configuration SG DRL3 IP Configuration DVAC Panel DVL2A l Automation ID 34 RRL 01A 77777 P 101A 034 Automation 1 digit 101A 034 2 digits 10101A 034 3 digits SG DRL3 IP 10100A 034 TL250 RRLLL 02345 ID 34 IP Account Account 010A000034 gt Automation 010A000034 1 digit S025 000034l 2 digits 50245 0000341 3 digits 502345 000034 Appendix T LINK TL300 Contact ID Reports On V1 20 or higher the SG DRL3 IP can receive Contact ID events account code please refer to the panel manufacturer documenta from the T LINK TL300 The Contact ID messages will be generated tion for all possible events for that panel The T LINK will still trans by the panel attached to the T LINK TL300 including the panel mit it s internal events in SIA Examples From panel through the T LINK TL300 12 Jul 2005 09 36 08 12 Jul 2005 09 36 06 01 03 SG 01 001 0092 E100 00 MEDICAL 000 12 Jul 2005 09 36 11 12 Jul 2005 09 36 09 01 03 SG 01 001 0092 R100 00 MEDICAL 000 From the same T LINK TL300 Input 3 12 Jul 2005 09 37 20 12 Jul 2005 09 37 18 01 03 SG 01 001 0000001212 Nri1 FA0003 12 Jul 2005 09 37 20 12 Jul 2005 09 37 18 01 03 SG 01 001 0000001212 Nri1 FH0003 15 FCC Compliance Statement CAUTION Changes or modifications not expressly approved by Digital Security Controls could void your authority to use
17. 08 009 010 011 012 013 014 015 016 017 018 019 020 021 022 023 024 025 026 Hex 00 01 02 03 04 05 06 07 08 09 0A 0B 0C 0D OE OF 10 11 12 13 14 15 16 17 18 19 1A Binary 0000 0000 0000 0001 0000 0010 0000 0011 0000 0100 0000 0101 0000 0110 0000 0111 0000 1000 0000 1001 0000 1010 0000 1011 0000 1100 0000 1101 0000 1110 0000 1111 0001 0000 0001 0001 0001 0010 0001 0011 0001 0100 0001 0101 0001 0110 0001 0111 0001 1000 0001 1001 0001 1010 Appendix E ASCII Character Chart Corresponding ASCII on printer Option 70 Hex Character Code 20 30 31 32 33 34 35 36 37 38 39 41 42 Character Space 43 44 45 46 47 48 49 4B 4C 4D 4E 4F Character 14 Hommocooozznvomc Dec 027 028 029 030 031 032 033 034 035 036 037 038 039 040 041 042 043 044 045 046 047 048 049 050 051 052 053 Hex 1B IC 1D 1E 1F 20 21 22 23 24 25 26 27 28 29 2A 2B 2C 2D 2E 2F 30 31 32 33 34 35 Code 50 51 52 53 54 55 56 57 58 59 5A 5C Chara NX ME lt GCHuUROY Binary 0001 1011 0001 1100 0001 1101 0001 1110 0001 1111 0010 0000 0010 0001 0010 0010 0010 0011 0010 0100 0010 0101 0010 0110 0010 0111 0010 1000 0010 1001 0001 1010 0010 1011 0010 1100 0010 1101 0010 1110 0010 1111 0011 0000 0011 0001 0011 0010 0011 0011 0011 0100
18. Console Software is located on port 1024 The System Ill Console software is provided for Windows 98 ME NT 2000 XP which provides a graphical style menu for configuration management Additional features are avail able with the console software including storage of virtual receiver setups and configuration wizards 1 6 3 Status Addressing Line card status is reported via physical addressing Shelf and slot number are assigned automatically to each line card 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 6 4 Automation input output Port 1025 Traditional automation communication is provided via port 1025 on the Ethernet connection This primary port is a Sur Gard standard output and provides Sur Gard standard automation output All or a number of virtual receiver types could be mapped to the Sur Gard output 1 6 5 Automation Protocols The Sur Gard System Ill receiver sends a variety of protocols to report signals to the central station computer via a TCP IP and or RS 232 port A complete list of protocols can be provided upon request 1 6 6 Data Byte Protocol The Sur Gard System Ill receiver uses a default configuration of 9600 Baud rate 1 start bit 8 data bits O parity bits and 2 stop bits struc ture to transmit and receive signals on the RS 232 port This proto col can be programmed on the receiver to enable different
19. G DRL3 IP Debug Output Section 3 SG DRL3 IP Programming 3 1 Options 00 47 Glossary Appendix A CPM3 Internal Status Messages Appendix B DVACS Events Appendix C SG DRL3 IP Events Appendix D DEC HEX BIN Conversion Chart Appendix E ASCII Character Chart 14 Appendix F DVACS Alarm Flow Comparison SG DVL2A Configuration SG DRL3 IP Configuration 15 Appendix G T LINK TL300 Contact ID Reports 15 IMPORTANT READ CAREFULLY DSC Software purchased with or without Products and Components is copyrighted and is purchased under the following license terms This End User License Agreement EULA is a legal agreement between You the company individual or entity who acquired the Software and any related Hardware and Digital Security Controls a division of Tyco Safety Products Canada Ltd DSC the manufacturer of the integrated security systems and the developer of the software and any related products or com ponents HARDWARE which You acquired If the DSC software product SOFTWARE PRODUCT or SOFTWARE is intended to be accompanied by HARDWARE and is NOT accompanied by new HARDWARE You may not use copy or install the SOFTWARE PRODUCT The SOFTWARE PRODUCT includes com puter software and may include associated media printed materials and online or electronic documentation Any software provide
20. IP Receiver Modules 3 1 Options 00 47 Indicates Default Option 00 For future use Options 01 04 Receiver IP Address This IP address identifies the SG DRL3 IP on the IP network Each node on the IP network must be assigned a unique IP address which is made up of a network identifier and a host identifier The SG DRL3 IP can only use Static IPs DHCP is not supported These options specify 4 bytes of the receiver IP address from the high byte to low byte with highest byte 3 in section 01 and lowest byte 0 in section 04 in hexadecimal Defaults 01 CO 02 A8 03 00 04 01 Represents 192 168 000 001 Options 05 08 Receiver Subnet Mask Address A mask used to determine what subnet an IP address belongs to The subnet is a portion of a network that shares a common address component On TCP IP networks subnets are defined as all devices whose IP addresses have the same prefix Dividing a network into subnets is useful for both security and performance reasons These options specify 4 bytes of receiver subnet mask address from the high byte to low byte with highest byte 3 in section 05 and lowest byte 0 in section 08 in hexadecimal Defaults 05 FF 06 FF 07 00 08 00 Represents 255 255 000 000 Options 09 OC Receiver Gateway This is the address of the Gateway through which the SG DRL3 IP must communicate to reach the T LINK transmitter This address is applied to all T LINK
21. NK TL300 Contact ID is only compatible with the SG DRL3 IP V1 2x or higher TL250DV GS206X TL300 TL210 GS3055 GS31XX 1 2 Support Software 1 2 1 System III Console Software The line card options must be changed through the CPM3 or using System 11 Console v2 30 or higher Software The System Ill Console software provides support for the SG DRL3 and SG DRL3 IP line cards Refer to the SG System III Installation Manual for details 1 22 T LINK Console Software The T LINK Console v1 20 software is a stand alone application that provides centralized support for the management and control of TL250 TL300 product line and SG DRL3 IP line cards including Generation and deployment of unique encryption keys to IP Receivers e Remote setup control and TCP IP configuration of the SG DRL3 IP and T LINK TL250 TL300 accounts Local and remote programming of T LINK TL250 TL300 devices e Software updates to T LINK TL250 TL300 devices using TFTP Trivial File Transfer Protocol The T LINK Console v1 20 updates T LINK TL250 TL300 using TFTP session e The T LINK accounts table and data encryption keys will be stored in the local database Refer to the T LINK Console User Manual for details 1 3 System Overview The SG DRL3 IP UDP Receiver Module functions as a LAN or WAN server to many remote clients the transmitters The SG DRL3 IP receiver module receives alarm events from the transmitter panel or from the transmitt
22. NT IS PROPERLY MOUNTED WITHIN A METAL LIC FIRE ENCLOSURE WITH A MINIMUM THICKNESS OF 1 5 mm AND THE FINAL ASSEMBLY IS COMPLIANT with ALL OF THE APPLI CABLE REQUIREMENTS FROM THE POINT OF VIEW OF THE ACCES SIBILITY TO THE ENERGIZED PARTS HAZARDOUS VOLTAGES TNV CIRCUITS ETC AS THESE CHARACTERISTICS ARE DEFINED WITHIN THE EN60950 2000 STANDARD THE EXTERNAL ENCLOSURE SHALL MEET ALL OF THE APPLICABLE REQUIREMENTS FROM THE POINT OF VIEW OF PHYSICAL REQUIRE MENTS e g STEADY FORCE 250N IMPACT AND STABILITY THE EQUIPMENT MUST BE SECURED TO THE BUILDING STRUCTURE BEFORE OPERATION ALL WIRING AND INSTALLATION SHALL BE IN ACCORDANCE WITH ELECTRICAL CODES ACCEPTABLE TO THE AUTHORITIES THAT HAVE JURISDICTION WHERE THE EQUIPMENT IS INSTALLED SERVICED AND OPERATED NOT MORE THAN 3 THREE ASSEMBLIES EACH CONSISTING OF 2 two System EQUIPMENT MOUNTED WITHIN THE SAME RACK SHALL BE POWERED FROM THE SAME BRANCH CIRCUIT USE A DIF FERENT BRANCH CIRCUIT FOR ANY GROUP LARGER THAN 3 THREE ASSEMBLIES Internal wiring shall be routed in a manner that prevents e excessive strain on wire and on terminal connections e loosening of terminal connections e damage of conductor insulation The wireways within the enclosure shall be smooth and free from sharp edges Wires shall be protected and routed so that they do not come in contact with burrs cooling fan or heatsinks which could cause damage to the insulation of conductors Holes in metal shall
23. Sur Gard System SG DRL3 IP Receiver Line Card versione 00 l CE WARNING This manual contains information on limitations regarding product use and function aua and information on the limitations as to liability of the manufacturer The entire manual should be carefully read WARNING Please Read Carefully Note to Installers at eos MN 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 sys tem of any type may be compromised deliberately or may fail to operate as expected for a variety of rea sons Some but not all of these reasons may be 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 strength and construction to provide the level of protec tion expected A reevaluation must be done during and after any construction a
24. T SHALL BE LIMITED TO THE GREATER OF THE AMOUNT ACTUALLY PAID BY YOU TO LICENSE THE SOFTWARE PRODUCT AND FIVE CANADIAN DOLLARS CAD 5 00 BECAUSE SOME JURISDICTIONS DO NOT ALLOW THE EXCLUSION OR LIMITATION OF LIABILITY FOR CONSEQUENTIAL OR INCIDENTAL DAMAGES THE ABOVE LIMITATION MAY NOT APPLY TO YOU d 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 PARTICULAR PURPOSE AND OF ALL OTHER OBLIGATIONS OR LIABILITIES ON THE PART OF DSC DSC MAKES NO OTHER WARRANTIES DSC NEITHER ASSUMES NOR AUTHORIZES ANY OTHER PERSON PURPORTING TO ACT ON ITS BEHALF TO MODIFY OR TO CHANGE THIS WARRANTY NOR TO ASSUME FOR IT ANY OTHER WARRANTY OR LIABILITY CONCERNING THIS SOFTWARE PRODUCT EXCLUSIVE REMEDY AND LIMITATION OF WARRANTY UNDER NO CIRCUMSTANCES SHALL DSC BE LIABLE FOR ANY SPECIAL INCIDENTAL CONSEQUENTIAL OR INDIRECT 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 SOFTWARE PRODUCT OR ANY ASSOCIATED EQUIPMENT COST OF CAPITAL COST OF SUBSTITUTE OR REPLACEMENT EQUIPMENT FACILITIES OR SERVICES DOWN TIME PURCHASERS TIME THE CLAIMS OF THIRD PARTIES INCLUDING CUSTOMERS AND INJURY TO PROPERTY WARNING DSC recommends that the entire syste
25. all alarms received during a call The ability of a receiver to store commands sent to the panel from the automation computer after all of the alarms have been sent from the panel to the receiver A parallel printer interface standard Also known as standard IEEE1284 A centronics interface is implemented on the CPM3 through the backplane to interface to the local parallel printer Additional data added to an alarm indicating whether the contents have been received correctly This is generally done by summing all the digits in the message mod 256 and reporting this as the checksum Different methods of calculating a checksum may be specified in particular formats or protocols Custom Local Area Signaling Services This term is used in the telephone industry to represent all features of a telephone line such as Caller ID Call Forwarding 3 Way Calling etc One side of a two sided TCP socket connection The client is the one responsible for initiating the socket con nection with the remote host the server The console represents the client side of the socket connection with the CPM3 See Automation Message A PC application program which can connect to the receiver and provide diagnostic programming abilities to the user For the System III the console connects to the CPM3 via TCP IP Central Processing Module 3 The CPM3 controls the overall operation of the System III receiver which includes multiplexing alarm signals from the line ca
26. ance with the essential requirements and other relevant provisions of Directive 1999 5 EC The complete R amp TTE Declaration of Conformity can be found at http www dsc com listings index aspx 2009 Digital Security Controls Toronto Canada www dsc com Sales 1 888 888 7838 Dec Tech Support Canada amp USA 1 800 503 5869 Printed in Canada
27. ansfer all of Your rights under this EULA only as part of a permanent sale or transfer of the HARDWARE provided You retain no copies You transfer all of the SOFTWARE PRODUCT including all component parts the media and printed materials any upgrades and this EULA and provided the recipient agrees to the terms of this EULA If the SOFTWARE PRODUCT is an upgrade any transfer must also include all prior versions ofthe SOFTWARE PRODUCT f Termination Without prejudice to any other rights DSC may terminate this EULA if You fail to comply with the terms and conditions of this EULA In such event You must destroy all copies of the SOFTWARE PRODUCT and all of its component parts g Trademarks This EULA does not grant You any rights in connection with any trademarks or service marks of DSC or its suppliers 3 COPYRIGHT All title and intellectual property rights and to the SOFTWARE PRODUCT including but not limited to any images photographs and text incorporated into the SOFTWARE PRODUCT the accompanying printed materials and any copies of the SOFTWARE PRODUCT are owned by DSC or its suppliers You may not copy the printed materials accompanying the SOFTWARE PRODUCT title and intellectual property rights in and to the content which may be accessed through use of the SOFTWARE PRODUCT are the property of the respective content owner and may be protected by applicable copyright or other intellectual property laws and treaties T
28. anual Connect the ribbon cable of the front panel to the CPM3 before inserting it Connect the backlight power connec tion to the PSC3 then insert the PSC3 4 Insert the PSU3 into the rack and fasten it properly el Connect an ethernet cable to the proper line card 6 Connect the main power 110VAC or 220VAC using a standard computer IEC cable not supplied 7 The LCD will power up and display internal troubles printer computer telephone line fault network absent The SG DRL3 IP Receiver will have the green LED ON if the ethernet line is connected If the LED is not on make sure the ethernet line is connected to the right port NOTE Internal diagnostics may require more than one minute during the power up sequence 8 Send a signal from a control panel to the receiver The sig nal will be displayed on the LCD Press the ACK button to silence the buzzer Figure 1 SG DRL3 IP Layout adi 9 A o e E 4 RS232 Debug Introduction LED Indicators LED 1 Line Fault Network Absence On if network is present LED 2 Trouble Condition s LED 3 Watch Dog Software Watch Dog Figure 2 System III Wiring Diagram For Model System CE Indicates Trouble by number of blinks Toggles every 500mS
29. be free of defects in materials and workmanship under normal use During the warranty period Digital Security Controls shall at its option repair or replace any defec tive 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 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 software 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 opera tion 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 shall not be responsible for any cus toms fees taxes or VAT 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
30. ctivity An evaluation by the fire and or police department is highly recommended if this service is available 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 fea tures It is important that a security system be reviewed periodically to ensure that its features remain effec tive and that it be updated or replaced if it is found that it does not provide the protection expected 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 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 inoperative while it does not have power Power interruptions of any length are often accompanied by voltage fluctua tions which may damage electronic equipment such as a security system After a power inte
31. d along with the SOFTWARE PRODUCT that is associated with a sepa rate end user license agreement is licensed to You under the terms of that license agreement By installing copying downloading storing accessing or otherwise using the SOFTWARE PRODUCT You agree unconditionally to be bound by the terms of this EULA even if this EULA is deemed to be a modification of any previous arrangement or contract If You do not agree to the terms of this EULA DSC is unwilling to license the SOFTWARE PRODUCT to You and You have no right to use it SOFTWARE PRODUCT LICENSE The SOFTWARE PRODUCT is protected by copyright laws and international copyright treaties as well as other intellectual property laws and treaties The SOFTWARE PRODUCT is licensed not sold 1 GRANT OF LICENSE This EULA grants You the following rights a Software Installation and Use For each license You acquire You may have only one copy ofthe SOFTWARE PRODUCT installed b Storage Network Use The SOFTWARE PRODUCT may not be installed accessed displayed run shared or used concurrently on or from different computers including a workstation terminal or other digital electronic device Device In other words if You have several workstations You will have to acquire a license for each workstation where the SOFTWARE will be used c Backup Copy You may make back up copies of the SOFTWARE PRODUCT but You may only have one copy per license installed at any
32. dent of the con sole One of the wires used on a phone line by convention this is green User Interface Board 3 An L shaped board which connects to the CPM3 and contains output LEDs and 4 push buttons used for the user interface This board also connects directly to the LCD screen The portion of an alarm which contains the information identifying the specific zone of the panel that has been violated 11 Appendix A CPM3 Internal Status Messages Please refer to the System III Installation Manual Appendix B DVACS Events DVACS Generated Events DVACS events generated on DVACS panels connected through the T LINK TL250 TL300 will follow the same protocols used on the SG DVL2A product DVACS Alarms Examples Example 1 DVACS with receiver set as 1 digit line number Printer 01 Nov 2004 11 38 22 01 02 SG 01 1 001 Burgl Alm Zn 02 Computer 1011 001 A 02 Example 2 DVACS with receiver set as 3 digits line number Printer 01 02 SG 01 001 014 Burgl Alm Zn 13 Computer 101001 014A 13 SIA DVACS Alarms Examples Example 1 DVACS with receiver set as 1 digit line number Printer 01 Nov 2004 13 50 51 01 02 SG 01 1 456 Fire Alm Zn999 Computer 3011 456FA 999 Example 2 DVACS with receiver set as 3 digits line number Printer 01 Nov 2004 13 51 03 01 02 SG 01 001 456 Medical Alm Zn001 Computer 301001 456MA 001
33. diction 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 particular purpose and of all other obligations or liabilities on the part of Digital Security Controls Digital Secu rity Controls neither assumes responsibility for nor authorizes any other person purporting to act on its behalf to modify or to change this warranty nor to assume for it any other warranty or liability con cerning this product This disclaimer of warranties and limited warranty are governed by the laws of the province of Ontario Canada WARNING Digital Security Controls recommends that the entire system be completely tested on a regular basis However despite frequent testing and due to but not limited to criminal tampering or electrical disruption it is possible for this product to fail to perform as expected Out of Warranty Repairs Digital Security Controls 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 Secu ri
34. eT Notes 2 5 Output 1 All external devices should be mounted in AC Input circuit the same room as the receiver All outputs supervised 2 All circuits are power limited except AC input non power limited CE APPROVED INSTALLATION AC Cabling 6 15 25cm Maximum For best result Network RJ 45 Socket DRL3 IP Steward Ferrite 2852001 0 Place the ferrite clamp and the Ethernet 5 cables inside the 19 cabinet where the System receiver is installed 3 Maintain 6 5 mm 1 4 separation between power limited and non power limited circuits NOTE When a hub or router gateway is used in conjunction with the System Ill receiver 24 hr standby power is required for these devices i e UL Listed UPS battery backup or engine driven generator 1 6 Description Operation 1 6 1 Operation with Default Programming Without any changes to the factory default programming the receiver operates as indicated below The signals are sent to the parallel printer and computer con nected to serial port COM1 or to the 10 100BaseT connector f a computer is not connected press the ACK button on the to silence the buzzer and to clear the alarm from the LCD display Introduction 1 6 2 Virtual Connectivity Each receiver has one IP address and a number of associated ports Internal socket programming uses specific ports for expected tasks The configuration management done from the
35. elephone line and place a call in an emergency situation It must be able to do this even if other equipment telephone answering system computer modem etc already has the telephone line in use To do so alarm dialing equipment must be connected to a properly installed RJ31X jack that is electrically in series with and ahead of all other equipment attached to the same telephone line Proper installation is depicted in the figure below If you have any questions concerning these instruc tions you should consult your telephone company or a qualified installer about installing the RJ31X jack and alarm dialing equipment for you Network Customer Premises Equipment and Wiring Service Provider s Computer RJ31X Facilities Tak n Alarm Dialing Unused Equipment RJ 11 Jack Telephone Line Li Telephone Network TE Demarcation Unused Point Telephone Fax Machine RJ 11 Jack Answering 8 System Telephone NOTICE This equipment meets the applicable Industry Canada Terminal Equipment Technical Specifications This is confirmed by the registration number The abbreviation IC before the reg istration 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 DSC erk
36. eports using a SIA output for a burglary alarm an event code of Format Expert Systems The name given to a receiver task which performs the basic functions of 1 Sending handshakes 2 Detecting the format from the panel 3 Processing the alarm from the panel 4 Sending a kiss off to the panel The pre established order of events and meanings of the various characters in an alarm transmitted from a panel to a receiver Frequency Shift Keying A modulation technique used with low speed modems 300 to 1800 bps The carrier frequency is shifted between two discrete frequencies in accordance with the binary serial data Global System for Mobile communications Standard used for mobile phone A signal sent by the receiver to a panel indicating that a connection has been established These are either tones or modem data A periodic signal sent from the automation outputter tasks to the automation software to verify the presence of that output The period of this heartbeat is controlled via an option in the CPM3 Alternatively the heartbeat refers to the signal sent between CPM3s to verify the presence absence of each other The process of the receiver going temporarily off hook usually in an attempt to transfer the phone call Refers to the ability to add or remove particular cards to or from the system without removing power In the System III the CPM3 DRL3 DC DC3 and PSC3 are all fully hot swappable Hypertext Transfer Protocol
37. equipment is a label that contains among other information a product identifier in the format US AAAEQ H TXXXX If requested this number must be provided to the Telephone Company Product identifier US IVDALO3BSYSTEMIII USOC Jack RJ 21X Telephone Connection Requirements A plug and jack used to connect this equipment to the premises wiring and telephone network must comply 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 modular 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 con nected 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 connected to a line as determined by the total RENs contact 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 H TXXXX The digits represented by are the REN without a decimal point e g 03 is a REN of 0 3 For earlier products the REN is separately shown on the label Incidence of Harm If this equipment Sur Gard SYSTEM III causes harm to
38. er when the transmitter is in standalone mode and forwards them to the CPM3 for subsequent output to the printer and automation outputs After a receiver module has been configured and installed it will run on a predefined port and await communications from transmitters which have been configured to connect to that specific receiver When communication has been established the transmitter will enter its normal operating mode waiting for panel polls transmit heartbeat signals alarm messages and DLS SA download messages The SG DRL3 IP will log the connection and generate the appropri ate connection event for forwarding to the CPM3 When an alarm message is generated the transmitter will send the message in a UDP IP Ethernet frame and pass it along to the receiver this communication can be optionally encrypted reference trans mitter documentation to determine if encryption is supported by the device When an alarm message is received from the transmitter panel the receiver will strip off the UDP IP Ethernet frame and decrypt the message It will then send an appropriate response ACK or NAK back to the transmitter panel The timing will follow the standard timing requirements of the panel If the message was a valid alarm event the event will be sent to the appropriate con nected printer and automation devices The SG DRL3 IP Receiver Module receives heartbeats from all network supervision enabled transmitters periodically This allo
39. esent where IPIPIPIP is the network address of the line card Network Absent where IPIPI ransmitter Restoral where ransmitte ransmitter Swap where IP ransmitter Unencrypted Invalid Report where IP is ransmitter Deleted where Reset fallback PIP is the network address of the line card IP is transmitters IP and X is the transmitters account Failure where IP is transmitters IP and X is the transmitters account is transmitters IP and X is the transmitters account here IP is transmitters IP and X is the transmitters account ransmitters IP and X is the transmitters account Possible Compromise Attempt where IP is transmitters IP and X is the transmitters account Max Accounts Exceeded where IP is transmitters IP and X is the transmitters account IP is transmitters IP and X is the transmitters account Unknown Account where IP is transmitters IP and X is the transmitters account P Channel has reached 75 capacity of table where IP is the transmitters IP address Console Lead In IP Channe Console Lead Out IP Chann Reset by Console Reset by Debug Firmware update has failed el Firmware update has been started via TCP port P account table has been set by the console application P account table has been requested by the console application Specific IP account has been set by the console where XXXXXXXXXX is the account number ransmitter has successful had encryption enabled where IP
40. eve modify the account table of the receiver the application must have a password that matches this sec tion Applications that connect to this port are T Link Console SG Receiver Consoles Table Loader DLS downloading software Default 40 0C 41 0A 42 0F 43 0E Represents CAFE SG DRL3 IP Programming Options 44 DNIS Replacement of RRLLL When set to 00 the SG DRL3 IP will output the RRLLL Receiver num ber and line number When set to 01 the SG DRL3 IP will output the DNIS received from a GS transmitter instead of the RRLLL Default 00 Options 45 Invalid Report Counter Option 45 is used for limiting the number of invalid report messages that are sent to the printer and computer on encryption keys mist match The default setting will send an invalid report for every 25 Invalid report 19 hex To have every Invalid report sent to the computer and printer set Option 45 to 00 For example option 19 default then the invalid counter is set for 25 consecutive occurrences to print invalid report for each individual account in the table If the account is not in the table a generic counter common to all invalid accounts will follow that same option Option 46 Account Digit Stripping The option controls the output of the account number set from 1 to 9 digits for both T Link transmitter and panel account code If the option is set to 00 T Link transmitter account code will be sent to the output as 10 digits and
41. fies the trouble will not be reported 00 Condition reported 01 Condition not reported masked For UL Listed products the permitted setting is OFF Option 1C Transmitter Unencrypted Trouble Mask This programmable mask enables or disables the reporting of the T LINK transmitter sending an unencrypted event when the SG DRL3 IP is expecting an encrypted event condition on the SG DRL3 IP receiver Setting the mask to O signifies the trouble will be reported setting the mask to 1 signifies the trouble will not be reported 00 Condition reported 01 Condition not reported masked For UL Listed products the permitted setting is OFF Option 1D Invalid Report Trouble Mask This programmable mask enables or disables the reporting the invalid report condition SG DRL3 IP determines that the signal received is invalid bad checksum encryption key miss match Set ting the mask to O signifies the trouble will be reported setting the mask to 1 signifies the trouble will not be reported 00 Condition reported 01 Condition not reported masked For UL Listed products the permitted setting is OFF Option 1E Unknown Account Trouble Mask This programmable mask enables or disables the reporting an unknown account report condition when the SG DRL3 IP received is from an invalid account not in the account table Setting the mask to 0 signifies the trouble will be reported setting the mask to 1 sig nifies the trouble will
42. given time You may use the back up copy solely for archival purposes Except as expressly provided in this EULA You may not otherwise make copies of the SOFTWARE PRODUCT including the printed materials accompanying the SOFTWARE 2 DESCRIPTION OF OTHER RIGHTS AND LIMITATIONS a Limitations on Reverse Engineering Decompilation and Disassembly You may not reverse engineer decompile or disassemble the SOFTWARE PRODUCT except and only to the extent that such activity is expressly permitted by applicable law notwithstanding this limitation You may not make any changes or modifications to the Software without the written permission of an officer of DSC You may not remove any proprietary notices marks or labels from the Software Product You shall institute reasonable measures to ensure compliance with the terms and conditions of this EULA b Separation of Components The SOFTWARE PRODUCT is licensed as a single product Its component parts may not be separated for use on more than one HARDWARE unit c Single INTEGRATED PRODUCT If You acquired this SOFTWARE with HARDWARE then the SOFTWARE PRODUCT is licensed with the HARDWARE as a single integrated product In this case the SOFTWARE PRODUCT may only be used with the HARDWARE as set forth in this EULA d Rental You may not rent lease or lend the SOFTWARE PRODUCT You may not make it available to others or post it on a server or web site e Software Product Transfer You may tr
43. his EULA grants You no rights to use such content All rights not expressly granted under this EULA are reserved by DSC and its suppliers 4 EXPORT RESTRICTIONS You agree that You will not export or re export the SOFTWARE PRODUCT to any country person or entity subject to Canadian export restrictions 5 CHOICE OF LAW This Software License Agreement is governed by the laws of the Province of Ontario Canada 6 ARBITRATION All disputes arising in connection with this Agreement shall be determined by final and binding arbitration in accordance with the Arbitration Act and the parties agree to be bound by the arbitrator s decision The place of arbitration shall be Toronto Canada and the language of the arbitration shall be English 7 LIMITED WARRANTY NO WARRANTY DSC PROVIDES THE SOFTWARE AS IS WITHOUT WARRANTY DSC DOES NOT WARRANT THAT THE SOFTWARE WILL MEET YOUR REQUIREMENTS OR THAT OPERATION OF THE SOFTWARE WILL BE UNINTERRUPTED OR ERROR FREE b CHANGES IN OPERATING ENVIRONMENT DSC shall not be responsible for problems caused by changes in the operating characteristics of the HARDWARE or for problems in the interaction of the SOFTWARE PRODUCT with non DSC SOFTWARE or HARDWARE PRODUCTS c LIMITATION OF LIABILITY WARRANTY REFLECTS ALLOCATION OF RISK IN ANY EVENT IF ANY STATUTE IMPLIES WARRANTIES OR CONDITIONS NOT STATED IN THIS LICENSE AGREEMENT DSC S ENTIRE LIABILITY UNDER ANY PROVISION OF THIS LICENSE AGREEMEN
44. ing Requirements Table 1 1 UL864 Programming Requirements e EN50130 4 Immunity requirements for components of fire intruder and social alarm systems This equipment shall be installed in accordance with the require ments of NFPA72 NFPA70 UL827 and the authority having juris diction SG System III with SG DRL3 IP Line Card is ULC listed for active communication channel security level A4 when used in conjunction with T Link TL250 and T Link TL300 Internet Intranet alarm commu nicators For this type of application the supervision and encryption features have to be enabled For ULC Installations the equipment shall be installed in accordance with the requirements of ULC S561 and ULC S301 Standards and the authority having jurisdiction NOTICE to Users Installers Authorities having Jurisdiction and other involved parties This product incorporates field programmable software In order for the product to comply with the requirements in the Standard for Control Units and Accessories for Fire Alarms Systems UL 864 certain programming features or options must be limited to specific values or not used at all as indicated below Opt Program Option Page Permitted in UL 864 Y N Possible Settings Settings Permitted UL 864 13 14 TX ABSENT DEBOUNCE TIME 6 N 1E FFH 30 255 90s 15 16 TX ABSENT RESTORE TIME 6 N 1E FFH 30 255 O5AH 90s 17 MASK NETWORK PRESENT
45. ipment 2 Connect all the telecommunications cord sets to the appropri ate connectors 3 Be sure that the enclosure of the equipment SYSTEM III is fully installed covers doors etc in a such a way that HAZARDOUS VOLTAGES and TNV Circuits will not be ACCESSIBLE when the equipment will be connected to the MAINS and or TELECOM MUNICATION NETWORK ATTENTION THE INTERNAL POWER SUPPLIES ARE NOT SWAPPABLE DISCONNECT POWER BEFORE ATTEMPTING TO CHANGE A POWER SUPPLY In order to change the INTERNAL Power Supply first DISCONNECT the DETACHABLE POWER SUPPLY CORD from the socket outlet used to provide power and then from the IEC320 Connector which is mounted on the SYSTEM Ill equipment Wait minimum 5 seconds to allow the Capacitor C8 within the unit to discharge IF THE FUSE IS SUSPECTED OF HAVING OPENED a discharge path for the involved Capacitor C8 shall be provided Do not touch the HEATSINKS within the equipment these are LIVE PARTS and or may present a hazard related to high temperatures In order to swap the boards USE THE PROVIDED PLASTIC HANDLES INSERTERS EXTRACTORS NO REPAIRS IN THE FIELD ARE ALLOWED THE EQUIPMENT SYSTEM MUST BE RETURNED TO THE MANUFACTURER FOR REPAIRS Section 1 Introduction 1 1 Features The SG DRL3 IP performs similar functions to the SG DRL3 line card The SG DRL3 line card receives alarm information from a control panel over a telephone line The SG DRL3 IP line card receives a
46. is transmitters IP and X is the transmitters account he transmitter is not able to support encryption request where IP is transmitters IP and X is the transmitters account ransmitter has not successful had encryption enabled where IP is transmitters IP and X is the transmitters account ransmitter has successful had encryption disabled where IP is transmitters IP and X is the transmitters account Automation Message NA 001001 0000 NYB0001 001001 0000 NYB0002 001000 0000 NYFO100 001000 0000 NYEO100 001000 0000 NYEO100 001001 0000 IPIPIPIP 001001 0000 NNT IPIPIPIP 001001 NYK IPIPIPIP 001001 XXXXXXXX NYC IPIPIPIP 001001 NYS IPIPIPIP 001001 XXXXXXXXXX NNC IPIPIPIP 001001 XXXXXXXXXX NYN IPIPIPIP 001001 NPC IPIPIPIP 001001 A XXXXXXXXXX NJO IPIPIPIP 001001 XXXXXXXXXxX NJX IPIPIPIP 001001 XXXXXXXXXx NXA IPIPIPIP 001001 0000 NUL IPIPIPIP 001000 0000 NYY0000 001001 0000 NRB IPIPIPIP 001001 0000 NRS IPIPIPIP NA NA NA NA NA NA NA NA NA NA NA Printer Message 1 0000 YB Printer Buffer Ful 0 0000 NYEO100 Coldboot by DEI 1 0000 NR Network Restora 1 0000 NT Network Failure 1 XXXXXXXXXX NC Transmitter U coocoooooooo ooooc oooo oooo 1 0000 JL Account table 75 ful 1 0000 RB Console Account Por 1 000
47. ith the CPM3 05 No time set from the CPM3 automation computer is absent loss of CPM3 line card is being downloaded NOTE If this O1 is selected the line card will overwrite the oldest alarm with a new alarm when the internal buffer is full For UL Listed products the permitted setting is 00 Option 2C Internal Messages RS 232 When this option is programmed as 00 the SG DRL3 IP will output its internal messages in the following format SRRLLL ZAAAA Nxxyy If it is programmed as 01 internal messages will be output as ORRLLL ZAAAA Nxxyy S O zero Protocol number RR Receiver number LLL Line number ARAR Account code always 0000 vo1 Output for all internal signals is SRRL protocol 02 Output for all internal signals is ORRL protocol Output signals in automation protocol SRRL 03 With leading space in the zone DVACS only Output signals in automation protocol ORRL with leading space in the zone DVACS only Options 2D to 39 For Future Use Options 3A 3B Console Port These options set the 2 byte Console Connection Port Number with high byte in section 3A and low byte in section 3B If this option is changed the console connected to the SG DRL3 IP must be programmed with the new port number Defaults 3A OB 3B F8 Represents 3064 Options 40 43 Console Password This is the password for the Account Port communication In order for the user to be able to retri
48. ively in data communications Parity is often added to the seven bit code for error detection The combination of software package and PC which connects to the receiver to receive alarm events The auto mation can be connected either by direct serial connection or TCP The alarm information delivered by a receiver in a specified protocol to a central station computer or network Also referred to as a computer message See BP3 A group of data that specifically makes up one of the elements of an alarm For example account block event block or alarm block One packet could contain multiple blocks A motherboard style PCB which acts as the backbone for a single shelf of a System III receiver The BP3 contains Sockets to which up to 12 DRL3s 1 CPM3 1 PSC3 and 2 DC DC3s can be connected Furthermore 2 BP3s can be connected together to form a 2 shelf configuration for the System III receiver The BP3 also contains connec tions for a parallel printer and 2 serial automation COM ports as well as an Ethernet connection Also referred to as a backplane A state of a line card Under predefined criteria the line card will go off hook so as to not process any new alarms The process of a receiver going off hook receiving one or more alarms and returning on hook An FSK format received by the line card This format can be received prior to sending the handshakes The Caller ID data can be used by the receiver to provide additional information to
49. laerer herved at denne komponenten overholder alle viktige krav samt andre bestemmelser gitt i direktiv 1999 5 EC Por este meio a DSC declara que este equipamento est em conformidade com os requisitos essenciais e outras determina es relevantes da Directiva 1999 5 EC DSC bekraftar harmed att denna apparat uppfyller de vasentliga kraven och andra relevanta best mmelser i Direktivet 1999 5 EC Con la presente la Digital Security Controls dichiara che questo prodotto conforme ai requisiti essenziali ed altre disposizioni rilevanti relative alla Direttiva 1999 05 CE Por la presente DSC declara que este equipo est en conformidad con los requisitos esenciales y otros requisitos relevantes de la Directiva 1999 5 EC Hierdurch erkl rt DSC da dieses Ger t den erforderlichen Bedingungen und Vorrausetzungen der Richtlinie 1999 5 EC entspricht A a tov n DSC dnAcvet Ott ovokev eivai HE TIG OVOLMSNS LE OES tis es OXETIKES avapop s TS O nyiac 1999 5 EC Hierbij verklaart DSC dat dit toestel in overeenstemming is met de eisen en bepalingen van richtlijn 1999 5 EC Par la pr sente DSC d clare que cet article est conforme aux xigences essentielles et autres relevantes stipulations de la directive 1999 5 EC DSC vakuuttaa laitteen tayttavan direktiivin 1999 5 EC olennaiset vaatimukset Hereby DSC declares that this device is in compli
50. larm informa tion from panels over a LAN WAN or internet network The System Ill receiver can be configured to use SG DRL3 line cards SG DRL3 IP line cards or a combination of the two Refer to the System III Installation Manual for additional information SG DRL3 PP line card features include the following Provides higher line security than conventional dial up panels with the polling feature Quicker transmission since dialing or handshaking is not required The control panel is the originator of the signals and as such will be the one requesting the ACK from the central station Network trouble detection is displayed on LCD Printer and automation software Disconnect trouble detection e Static IP for programming of the network protocols e Data network polling environment for replacement of an exist ing DVACS network Meets the 90 second ULC requirement for this option SIA event descriptors are used when transmitting information to the central station from the control panel through the PC Link connection A security function communicates to the central station when a module is removed and replaced NOTES The SG DRL3 IP can only receive data from the following transmitters TL150 TL250 GS3060 TL26X UL ULC Lisdted The SG DRL3 IP Receiver Module is NOT compatible with the T LINK TL100 DVACS support on the T LINK TL250 TL300 v1 10 or higher is only compatible with the SG DRL3 IP v1 1x or higher The T LI
51. m be completely tested on a regular basis However despite frequent testing and due to but not limited to criminal tampering or electrical disruption it is possible for this SOFTWARE PRODUCT to fail to perform as expected GENERAL DESCRIPTION of the EQUIPMENT and CLASSIFICATION CLASSIFICATION The SYSTEM Ill equipment is a CLASS 1 RACK MOUNTED FIXED STATIONARY EQUIPMENT PLUGGABLE TYPE A USING A DETACH ABLE POWER SUPPLY CORD designed to be INSTALLED OPERATED and MAINTAINED by SERVICE PERSONNEL ONLY persons having appropriate technical training and experience necessary to be aware of hazards to which they are exposed in performing a task and of measures to minimise the danger to themselves or other persons The equipment SYSTEM Ill is designed to be installed in RESTRICTED ACCESS LOCATIONS within an environment that provides the Pollu tion Degree max 2 and OVERVOLTAGES CATEGORY II NONHAZ ARDOUS LOCATIONS INDOOR ONLY The POWER SUPPLY CORD serves as a means of disconnection from the MAINS The OUTLET used to power the equipment shall be installed near the equipment and shall be easily accessible The equipment must be connected to a socket outlet with a protective earthing connection The INSTALLATION of the SYSTEM Ill equip ment must provide a reliable earth connection and it shall respect the local electrical wiring regulations IMPORTANT IT IS THE RESPONSIBILITY OF THE INSTALLER TO ENSURE THAT THE SYSTEM EQUIPME
52. modules connected to the SG DRL3 IP These options specify the 4 bytes of the receiver gateway from high byte to low byte with the highest byte 3 in section 09 and the lowest byte 0 in section OC Defaults 09 00 00 OB 00 OC 00 Represents 000 000 000 000 Options OD OE Alarm Port Number Use this option to set the Alarm Port connection number for your receiver While the default value will suffice in environments involving just one receiver Option OD OE can be used to differentiate receivers in a complex multiple receiver environment If this option is changed IP communication modules connected to the SG DRL3 IP must be pro grammed with the new receiver number Communicatiors connected to the receiver will send their signals to this port Defaults 0D OB OE F5 Represents 3061 Option OF Receiver Number The receiver number is used for sending signals to the central station software Refer to the manuals for any central station automation software being used to determine if there are any special require ments for this number Also ensure that there are no duplicate receiver numbers used Default 01 Option 10 Line Card Number The Line Card Number provides a virtual identification code for each SG DRL3 IP module Hexadecimal numbers 01 to FE can be programmed in Option 01 to identify line cards Default 01 Option 11 Line Card Number Length This option is used to determine ho
53. n that block is at the discretion of the purchaser Each Ethernet device produced must be pro grammed with a different MAC address in order to guarantee that each device will function correctly on the net work For the System the MAC address is stored in serial EEPROM on the CPM3 board It is only programmable during manufacturing The metal rack which is used to enclose all other modules within a single shelf of the System III receiver The Power PC microprocessor used as the main processor on the CPM3 board 10 Multidrop Negative Acknowl edgement NAK Off Hook On Hook Options Packet Panel Ping POTS Printer Message Profile Protocol PSC3 PSTN PSU3 Receiver Ring Rounds RRLLL Server SG SIA RS 232 System III TCP IP Tip UIB3 Zone Glossary A communication link in which a single channel is shared by several stations or nodes DVACS is a Multidrop net work Only one station may transmit at a time Multidrop is also referred to as multipoint See acknowledgement The process of connecting to the telephone line to answer an incoming call or dial a remote device answering The process of releasing the telephone line after completion of a call hanging up A set of user configurable parameters which controls the operation of a device In the System III both the DRL3 and the CPM3 contain sets of options Static options are affect all Profiles on a card Dynamic options are unique t
54. not be reported 00 Condition reported 01 Condition not reported masked For UL Listed products the permitted setting is OFF Option 1F Accounts Exceeded Trouble Mask This programmable mask enables or disables the reporting if the account table limit is exceeded when a new account tries to connect to a SG DRL3 IP that has a full account table Setting the mask to 0 signifies the trouble will be reported setting the mask to 1 signifies the trouble will not be reported 00 Condition reported 01 Condition not reported masked For UL Listed products the permitted setting is OFF Option 20 Transmitter Deleted Trouble Mask This programmable mask enables or disables the reporting when a T LINK transmitter account deleted from the table Setting the mask to 0 signifies the trouble will be reported setting the mask to 1 sig nifies the trouble will not be reported v 00 Condition reported 01 Condition not reported masked Option 2A For Future Use SG DRL3 IP Programming Option 2B Busy Out The line card will stop acknowledging transmitter events under specific trouble conditions if Option 27 is programmed with the following 00 No time set from CPM3 a code corruption checksum error or an internal buffer is in full condition 01 Line card is being downloaded 04 No time set from CPM3 a code corruption checksum error line card is being down loaded if internal buffer is full or loss of communication w
55. o each profile A group of digits or characters of information in an alarm A device the alarm system at the protected premises used to transmit alarms to the receiver A standard network command which can be used to verify the presence of a device on a network using the device IP address Ping is implemented as part of the ICMP protocol and consists of the Echo Request and Echo Reply commands poll and response respectively Plain Old Telephone System An acronym used to describe a standard analog telephone network or alterna tively a standard analog telephone line The alarm information delivered by a receiver to a central station printer This information is generally encapsu lated in a descriptive English text message Generally refers to a group of options The receiver can select a profile based on certain conditions The pre established order of events and meanings of the various characters in the information transmitted from a receiver to a monitoring computer Power Supply Controller 3 Public Switched Telephone Network Analogous to POTS Power Supply Unit 3 The equipment used to receive alarms sent from panels Sur Gard s receivers are the SLR and the MLR Receiver F ND used interchangeably with line card as it is the line card which actually receives the alarm in the One of the wires used on a phone line by convention this is red Two or more packets of alarm information used for error checking If two packe
56. rds and sending them to the appropriate outputs The DC power supply of the System III receiver Another name for a control panel Dialed Number Identification Service Glossary DRL3 DTMF Equivalent Line Number Event Event Code FES Format FSK GSM Handshake Heartbeat Hook Flash Hot Swappable HTIP IEEE 1284 IEEE 802 3 Inter burst Time Inter digit Time Internal Trouble Kiss off Line Line Card Line Conditioning MAC Address MLRF3 MPC860 Digital Receiver Line Card 3 Dual Tone Multiple Frequency A method of dialing which utilizes 2 sets of 4 tones frequencies each Selecting one tone from each set will produce 16 distinct pairs These pairs are used to dial digits when dialing a tele phone number An option in the receiver By default printer and computer messages will contain the line card number Some times it is necessary to output the printer and computer messages with a different line card number in this case this option can be used to overwrite the line card number in the printer and computer outputs of the receiver The specific type of alarm being reported by the panel A term used to describe a character or group of characters in an automation output This character s is used to represent the event that was reported by the panel Example 1 SG automation reports an alarm event using an event code of A Restore as R or Trouble as T Example 2 Sur Gard automation r
57. re for a number of rea sons 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 resi dence 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 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 cannot detect motion which occurs behind walls ceilings floor closed doors glass partitions glass doors or windows Any type of
58. roducts 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 covered by this warranty or otherwise out of warranty due to age misuse or dam age 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 liability for failure to repair the product under this warranty after a reason able 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 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 facilities or services down time purchaser s time the claims of third 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 juris
59. rruption has occurred immediately conduct a complete system test to ensure that the system operates as intended Failure of Replaceable Batteries This system s wireless transmitters have been designed to provide several years of battery life under normal conditions The expected battery life is a function of the device environment usage and type Ambient con ditions such as high humidity high low temperatures or large temperature fluctuations may reduce the expected battery life While each transmitting device has a low battery monitor which identifies 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 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 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 system indicates an alarm Smoke Detectors Smoke detectors that are a part of this system may not properly alert occupants of a fi
60. s Options 15 16 Transmitter Restoral Time This option determines the required time a transmitter must be pres ent before it is registered in the Account Table and the transmitter restoral message is sent Transmitter Restore Time must be 30 seconds minimum Default 003C 60s For UL Listed products the permitted setting is 05AH 90s Option 19 Transmitter Restoral Trouble Mask This programmable mask enables or disables the reporting of the Transmitter restoral condition on the SG DRL3 IP receiver Setting the mask to O signifies the trouble will be reported setting the mask to signifies the trouble will not be reported 00 Condition reported 01 Condition not reported masked For UL Listed products the permitted setting is OFF Option 1A Transmitter Failure Trouble Mask This programmable mask enables or disables the reporting of the Transmitter failure absent condition on the SG DRL3 IP receiver Set ting the mask to O signifies the trouble will be reported setting the mask to 1 signifies the trouble will not be reported 00 Condition reported 01 Condition not reported masked For UL Listed products the permitted setting is OFF Option 1B Transmitter Swap Trouble Mask This programmable mask enables or disables the reporting of the T LINK transmitter swap condition on the SG DRL3 IP receiver Set ting the mask to O signifies the trouble will be reported setting the mask to 1 signi
61. 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 eaters radiators stoves barbeques fireplaces sunlight steam vents lighting and so on 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 appli ances or passing traffic Audible warning devices however loud may not be heard by a hearing impaired person 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 telephone line or defeat its operation by more sophisticated means which may be difficult to detect Insufficient Time
62. this equipment This equipment has been tested and found to comply with the limits for a Class B digital device pursuant to Part 15 ofthe FCC Rules These limits are designed to provide reasonable protection against harmful interfer ence 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 commu nications 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 turn ing 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 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 and the requirements adopted by the ACTA On the side of this
63. to get a response from the computer automation the CPM3 will immediately transmit the heartbeat again up to 4 attempts If all computer automation out put fails and if by default the TCP IP automation fails the CPM3 will switch to the serial automation output If the output fails the CPM3 will switch to manual mode all signals will be displayed on the LCD and will require a manual acknowl edge To re establish connection with the TCP IP a reset fallback command must be generated from the Console software If the line card buffers are full the line cards will stop answering the calls 1 6 10 System III SIA Internal Status Output 0 ORRLLL 0000 NYYZZZZ Protocol ID RR Receiver number of the CPM3 LLL 000 signifies a CPM3 Event 0000 System Account NYYZZ SIA Event DCA Terminator 14 Hex ORRLLL 40000 NY YZZZZ RR is the receiver number of the CPM3 and LLL will be 000 to signify a CPM3 event Refer to Appendix A CPM3 Internal Status Messages Section 2 Operating Modes 2 1 SG DRL3 IP Standby Mode After start up the line card enters the Standby mode and monitors the network connection and the CPM3 Depending on the system s status the following conditions will be displayed for each line card LED ON OFF FLASHING 12 LINE Network Network N A Green Present Absent STATUS Trouble Off line Error Yellow Condition s condition WATCHDOG Line Card Line Card Blue not functional functional
64. ts rounds are identical the packet contains valid data The part of the automation message which stores the receiver number and line card number The length of this field is variable and is controlled via an option in both the line card and the CPM3 One side of a two sided TCP socket connection The server is the one responsible for receiving the socket con nection with the remote host the client In general a host which acts as a server can receive multiple client Socket connection requests simultaneously The CPM3 acts as a server to both the console and the web inter face Sur Gard a brand name of DSC Also used to describe a particular type of automation output Security Industry Association Sometimes referred to as the SIA format which is an example of FSK modulation An asynchronous point to point serial communications protocol Used to communicate between the DRL3 and a PC for the DRL3 s debug output Also used to communicate between the CPM3 and the automation computer and the CPM3 and a PC for the CPM3 s debug output Name given to a single entire receiver configuration including rack line card s power supply etc Transmission Control Protocol Internet Protocol A standard network communications protocol On the System III TCP IP is used to communicate between the console and the CPM3 It is also used to connect the to a TCP printer resident on the console and TCP automation software runs indepen
65. ty Controls must first obtain an authorization number Digital Security Controls will not accept any shipment whatsoever for which prior authorization has not been obtained Products which Digital Security Controls determines to be repairable will be repaired and returned A set fee which Digital Security Controls has predetermined and which may be revised from time to time will be charged for each unit repaired Products which Digital Security Controls determines not to be repairable will be replaced by the near est equivalent product available at that time The current market price of the replacement product will be charged for each replacement unit Table of Contents Section 1 Introduction 1 1 Features 1 2 Support Software System III1 2 1 System III Console Software 1 2 2 T LINK Console Software 1 3 System Overview 1 4 Approvals 1 5 Receiver Setup and Operation 1 6 Description Operation 1 6 1 Operation with Default Programming 1 6 2 Virtual Connectivity 1 6 3 Status Addressing 1 6 4 Automation input output Port 1025 1 6 5 Automation Protocols 1 6 6 Data Byte Protocol 1 6 7 Acknowledgment of the Signal 1 6 8 Automation Responses 1 6 9 Automation Absent 1 6 10 System SIA Internal Status Output 4 Section 2 Operating Modes 2 1 SG DRL3 IP Standby Mode 2 2 CPMG Error 2 3 Fault Data Message 2 4 Ethernet Interface 2 5 ULAA Receiver Database 2 6 S
66. w many digits from the line card number will be sent to the output You also have the option of dis playing the number in hex or decimal Program this option with one of the following 01 Sends only one hex digit to the printer or com puter output if you have a 2 digit line card num ber only the last digit will be sent to the output 02 Sends 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 v 0A Send 3 digit line card number in decimal send 2 digit receiver number in decimal OD Send 3 digit line card number in decimal Option 12 Debug Output The debug mode should only be used when required and disabled after use Enabling the Debug option reduces the SG DRL3 IP receiver s ability to monitor the T LINK transmitters 00 Disabled Options 13 14 Transmitter Absent Debounce Time The time in seconds for which a transmitter configured in supervised mode must be absent before a transmitter failure condition will be reported Valid entries are 30 65535 seconds Value entered in hex Default 078 120s NOTE Transmitter Absent Time should not be less than 90 seconds For ULC Installations Security Level 4 this option shall be programmed as 5A 90s 4B 75s for Security Level 5 For UL Installations this option shall be programmed as B4 1805 For UL Listed products the permitted setting is 05AH 90
67. ws the receiver to determine whether the transmitters are still online The receiver maintains a table of all installed transmitters and monitors their status presence absence installed software versions MAC addresses for swap detection purposes and other network statistics The SG DRL3 IP Receiver Module can be programmed with various configuration parameters and options including receiver IP address receiver sub net mask and default gateway address Configuration parameters are password protected The default password can be changed during initial installation for maximum security The SG DRL3 IP Receiver Module is programmed with a globally unique MAC address during production This MAC address is NOT re programmable NOTE Each SG DRL3 IP Receiver Module can monitor up to a maxi mum of 1536 account of which 512 accounts can be supervised Introduction 1 4 Approvals 1 4 1 Industry Approvals UL 1610 Central Station Burglar Alarm Units UL 864 Standard for Control Units and Accessories for Fire Alarm Systems CAN ULC S304 06 Signal Receiving Centre and Premises Burglar Alarm Control Units CAN ULC S559 04 Equipment for Fire Signal Receiving Centres and Systems EN60950 1 2001 Standard for Information Technology Equip ment AS NZS 60950 2000 Information Technology Equipment Safety CISPR22 Information Technology Equipment Radio Disturbance Characteristics Limits and Methods of Measurements UL864 Programm
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