Manual LMSmodular Applications Section 1 Cerberus LMSmodular Basic Module Ver. 2.
Data and design subject to change without notice. / Supply subject to availability. © Copyright by Siemens Building Technologies AG We reserve all rights in this document and in the subject thereof.
Document changes in Version 2.4............................................................ 1 1 1.1 2 2.1 2.2 2.3 2.4 Introduction .................................................................................. 2 For further information...................................................................... 2 Network configuration examples.................................................... 3 Example 1: small system fire + intrusion.............................................
Document changes in Version 2.4 Topic Gateway Subsystems Architectures System parameters Comments GW-20 and GW-21 replaced GW-00 and GW-01, respectively CC-30 CerPass, MM/MF, Transliner and WSE 4100 NexSentry in native mode are now supported New examples Improved system capacity in most of the parameter limits 1 Siemens Building Technologies Cerberus Division e1868 06.
1 Introduction LMSmodular is a management system for integrating security and safety systems. It allows central monitoring and control of security installations used in a variety of applications. The LMSmodular system is presently installed in different versions in more that 1000 sites over the world. Among the many benefits the user can get from adopting LMSmodular there are: § the system flexibility - you can build the configuration best fitted to your actual plant.
2 Network configuration examples The following examples are intended to show some typical cases of network configuration. 2.1 Example 1: small system fire + intrusion System composed by § One operating station § 1 CZ10 § 1 CS11 § 1 CS4 GW-21.04 CZ10 CZ11 CS4 You can use § one Gateway GW-21.04. This solution has the advantage to be a low cost, but you cannot expand the system. The GW-21.04 has only four lines and they are occupied by three subsystems and one operating station.
2.2 Example 2: two stations monitoring fire + gas + intrusion System composed by § Two operating stations § 1 CS11 § 1 CS4 § 1 CC60 § availability of one line for future expansion GW-21.06 CS11 CS4 CC60 You can use § one Gateway GW-21.06. A low cost solution, with one line left to connect one more subsystem. However, you cannot add more operating stations. Two is the maximum number or operating stations supported by the GW-21. 2.
2.4 Example 4: medium system fire + gas + intrusion + CCTV + access control System composed by § One operating station § 1 Cerloop § 1 CCTV Simatrix § Some CC30 (max. 15 per line) connected in a multidrop configuration using a serial RS485 line. Gateway GW-20.12 MK 7022 CCTV CZ 10 CS 4 CS 11 CCTV Simatrix CK3003 CK3003 CC30 CC30 CC30 CC30 Max. 15 Max. 15 CC 60 A protocol converter, from RS485 to RS232 is needed.
2.5 Example 5: large system intrusion + CCTV System composed by § Three operating stations § 7 CS4 § 1 CCTV § 2 CF9003 clusters Gateway CCTV Simatrix CS4 CF9003 The system must be implemented using a GW-20 because 10 lines are required. You have to use: § one Gateway GW-20.12 equipped with one CMS Pad and three Subsystem Pads.
2.6 Example 6: IMS2000 System composed by § Two operating stations § 3 CS4 § integration with technological plant supervision system MS 2000 is required § 2 CF9003 clusters Gateway CS 4 NCRS CF9003 The system must be implemented using a GW-20 because the integration with technological plant is required. You have to use: § one Gateway GW-20 equipped with one CMS Pad, two Subsystem Pads and one NISE00 Pad.
2.7 Example 7: four stations monitoring intrusion System composed by § Four operating stations § 3 CS4 Gateway CS4 CS4 CS4 The system must be implemented using a GW-20 to satisfy the requirement for four operating stations. To implement the system you must use § one Gateway GW-20.04 equipped with one CMS Pad and one Subsystem Pad. You can not connect more operating stations. You still have one line to add a further subsystem and four slots available to insert more Subsystems Pads.
2.8 Example 8: local + remote sites System based on two level architecture composed by § Two operating stations § 4 CS4. Three of them are remote installed and connected to the secondary gateway, one to the concentrator § 1 CS11 § one secondary gateway GW-21.04 § one concentrator Gateway GW-20 Gateway GW-20 CS 4 GW-21.04 CS11 Local site Remote site CS 4 CS 4 CS 4 You have to use: § one Gateway GW-20 equipped with one CMS Pad, one Subsystem Pad and one NetM Pad.
2.9 Example 9: small system Cerloop + CF9003 System composed by: § Two operating stations § one Cerloop. One CS4 and three CZ10 (or CS11) are connected to the MK 7022 § a cluster of three CF9003 connected in multidrop to a single IC-2 GW-21.04 MK 7022 CZ 10 CMX-IC CS 4 CZ 10 CZ 10 CF9003 CF9003 CF9003 To implement the system you must use: § a Gateway GW-21.04 that is fully saturated, i.e. no more lines are available to connect other device directly to it.
2.10 Example 10: small system Cerloop System composed by: § One operating stations § one Cerloop. One CS4 and three CZ10 (or CS11) are connected to the MK 7022 MK 7022 CZ10 CS4 CZ10 CZ10 The system is implemented as a null network, i.e. the MK 7022 that controls the Cerloop is directly connected to the Operating station. 2.11 Example 11: CBA fire System composed by: § one operating station § four CBA (CDDL / CDSF) CBA CBA CBA CBA The system is implemented as a null network, i.e.
2.12 Example 12: very small system fire + intrusion System composed by: § one CS4 § one CS11 CS4 CS11 The system is implemented as a null network, i.e. the CS4 and the CS11 are directly connected to the Operating station. 2.13 Example 13: small system fire + intrusion + CCTV + access control System composed by: § one operating station § one CS4 § one CS11 § one CCTV Simatrix § three CC30 GW-21.04 CS 4 CS 11 CK3003 CCTV CCTV Simatrix CC30 CC30 CC30 Max.
2.14 Example 14: small system fire (CS11 + STT11) System composed by: § one operating station § one CS11 § one STT11 GW-21.04 CS11 STT11 A GW-21.04 can be applied, one serial line of the gateway is still available for either a second station or an additional subsystem. 2.15 Example 15: large system with redundant stations System composed by: § three operating stations § two GW20 § one local set of Csxx § 20 remote sites with up to 4 Csxx Gateway GW-20 Gateway GW-20 CS 4 GW-21 . .. . .. . .
2.16 Example 16: large system with redundant network System composed by: § four operating stations cross connected to Gateways GW20 § two GW20 cross connected to Gateway GW21 § 24 GW21 connected to CS4 and CS11 control panels Gateway GW-20 GW-21 Gateway GW-20 GW-21 .... CS 4 CS11 The system implements a network hot stand-by. Even in case of communication lines failures, the messages have an alternative path to reach the operating stations which are also hot stand-by.
2.17 Example 17: small system fire + access control + intrusion System composed by: § one operating station § one CC11 § one CC30 § one CS6 (intrusion only) The station monitors fire and access control via a GW21-04 gateway; whereas Guarto control unit is connected to the station via a Cnv-CS6 converter. 2.18 Gateway GW-21.
3 OS configuration examples 3.1 Example 1: fire station + intrusion station The operating station can be specialized at Gateway level. The Gateway routes information from the subsystem only to the operating station it has been configured to. Fire station Intrusion station Gateway 3.2 CS11 CS 4 Fire panel Intrusion panel Example 2: two multi-discipline stations In this example, the operating station are not specialized.
3.3 Example 3: stations specialized by site This third example shows a configuration with operating stations that are specialized through software configuration. The Gateway routes all information from the subsystem to any operating station connected to it, but the operating station have different database. Therefore, the information displayed to the operators are different. This configuration allows the operating station differentiation on the basis of functions.
3.5 Example 5: access control stations In this example a system that includes access control is presented. A total of three operating stations are installed; two of them are connected to a gateway that controls fire, intrusion and access control panels. A third station is connected via a local area network to another station. The software installed on the three stations is different. In the first one the base LMSmodular allows for security monitoring.
3.7 Example 7: client/server This example shows the solution found to optimize network traffic on Cerloop configurations: LMSmodular stations can be grouped in subsets connected through local TCP/IP-based networks. For each subset, a single LMS station identified as the “server station” can thus manage communication with the loop. All the other ones, identified as “client stations”, can get the field information from the server via the LAN connection.
4 System parameters Parameter (max number of) LMSmodular system: sites systems subsystems points point property fields treatment tables description tables reaction tables sequences time programs exception days (holidays) single advisories advisory programs operators windows applications running windows applications icons subsystem network addresses treatment pages foreground symbols per treatment page foreground commands per treatment page graphic slides (Graphic Station) foreground symbols per graphic sl
Gateways: GW-20s per LMSmodular station GW-21s per LMSmodular station GW-21s and GW-20s (mixed) on the same LMSmodular station GW-21s per GW-20 at intermediate level GW-20s via another GW-20 at intermediate level LMSmodular stations per GW-20 Subsystem lines per GW-20 LMSmodular stations per GW-21.04 LMSmodular stations per GW-21.06 Subsystem lines per GW-21.04 with one LMSmodular st ations Subsystem lines per GW-21.04 with two LMSmodular stations Subsystem lines per GW-21.
Siemens Building Technologies AG Cerberus Division CH-8708 Männedorf Alte Landstrasse 411 Tel. +41 1 - 922 61 11 Fax +41 1 - 922 64 50 www.cerberus.ch Siemens Building Technologies Cerberus Division Cerberus Security for People and Assets Replaces - Doc.no Edition: e1868 06.