SYSTIMAX. Intelligent Building Systems. Siemens Cerberus Division MXL TM. and MXLV Systems Application Guide

SYSTIMAX ® Intelligent Building Systems Siemens Cerberus Division MXL and MXLV Systems TM Application Guide Copyright© 1999 Lucent Technologies ...
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SYSTIMAX

®

Intelligent Building Systems

Siemens Cerberus Division MXL and MXLV Systems TM

Application Guide

Copyright© 1999 Lucent Technologies Inc. All Rights Reserved. This material is protected by the copyright laws of the United States and other contries. It may not be reproduced, distributed, altered in any fashion by any entity (either internal or external to Lucent Technologies), except in accordance with applicable agreements, contracts, or licensing, without the express written consent of the Customer Training and Information Products organization and the business management owner of the material.

Ordering Information Additional copies of this document are available from the Lucent Technologies Order Center. Please contact them via any of the convenient methods below: • E-Mail: [email protected] • Telephone: 1-800-458-1761 in the U.S. or 1-908-523-2253 outside the U.S. • FAX: 908-862-6722

Notice Every effort was made to ensure that the information in this document was complete and accurate at the time of printing. However, information is subject to change and Lucent Technologies is not responsible for any errors or omissions contained within.

Trademarks AMP is a registered trademark of AMP, Inc. MXL is a trademark of Siemens Building Technologies, Inc. SYSTIMAX is a registered trademark of Lucent Technologies.

Acknowledgments This document was developed by the Lucent Technologies Customer Training and Information Products Organization.

Contents

1

SYSTIMAX  IBS Siemens Cerberus Division MXL and MXLV Systems Application Guide 1-1

A

Conversions

GL

Glossary

A-1

GL-1

Issue 1 April 1999 i

Figures 1-1. SYSTIMAX IBS Subsystem 1-3 1-2. SYSTIMAX SCS Subsystem 1-3 1-3. Extended Coverage Area Wiring Structure 1-4 1-4. SYSTIMAX IBS Topology 1-5 1-5. Star Wiring Branch Connections 1-6 1-6. Chain of Devices 1-7 1-7. T-Tapped Connections to Intelligent Sensors/Modules 1-8 1-8. Why T-Tapped Connections of Non-Intelligent Devices are Prohibited 1-9 1-9. 4-Wire Fault-Tolerant Circuit 1-9 1-10. 2-Wire Circuit 1-10 1-11. Chained Circuit Connections 1-11 1-12. 2-Wire Bus 1-12 1-13. 4-Wire Bus 1-12 1-14. Control Panel Style 4 Wiring 1-14 1-15. Control Panel Style 7 Wiring 1-14 1-16. Control Panel Style 4 Wiring with Repeater 1-15 1-17. Cabling for Centralized Controller Connections 1-17 1-18. Cabling for Multipoint Controller Connections 1-18 1-19. Typical Fire Alarm Sensor Configuration 1-21 1-20. Connection to Controller Panel 1-24 1-21. Typical SYSTIMAX IBS Device Connection 1-25 1-22. Device Connections Using Two Pairs of a 4-pair Cable 1-27 1-23. Device Connections and EOLR 1-28 1-24. 100 Pair Wiring Block 1-29 1-25. Bridging in the TC 1-29 1-26. Example of Chaining Devices in the TC (Using Two Pairs of a 4-pair Cable) 1-30 1-27. Style 4 Wiring of RS-485 Communications Interfaces (MNET/XNET) 1-35 1-28. Wiring of Style 6 (Class A) Circuit for Initiating Devices 1-39 1-29. Wiring of Style 4 (Class B) Circuits for Initiating Devices 1-39 1-30. Wiring of Style 4 (Class B) Initiating Circuits With T-Tapping 1-40 1-31. Style 4 and Style 6 Loop Wiring for Single Branch Daisy Chain of Intelligent Devices 1-43 1-32. Point-to-Point Wiring (Daisy Chaining) of Intelligent Devices 1-43 1-33. Star Wiring of Chains of Intelligent Devices 1-44 1-34. Remote Star Wiring of Intelligent Devices 1-45 1-35. Multipoint Bus Wiring of Chained Intelligent Devices 1-46

ii Issue 1 April 1999

Figures 1-36. Point-to-Point Wiring (Daisy Chain) of Conventional Zone Initiating Devices 1-49 1-37. Multipoint Wiring by Chaining Branches of CZ Initiating Devices 1-51 1-38. Remote Multipoint Wiring by Chaining Branches for CZ Initiating Devices 1-51 1-39. Style 4 and Style 6 Loop Wiring Diagram for CZ Loop Wiring of CZ Devices 1-52 1-40. Wiring of Style Y (Class B) NACs 1-53 1-41. Wiring of Style Z (Class A) NACs 1-53 1-42. Style (Class B) Wiring of Speaker Circuits 1-54 1-43. Style Z (Class A) Wiring of Speaker Circuits 1-54 1-44. Zone Control Module Fuse Locations 1-57 1-45. Wiring or 2-Watt Speakers Within a Loop Reach of 500 ft (152 m) 1-59 1-46. Wiring of 2-Watt Speakers Within a Loop Reach of 282 ft (85 m) 1-60 1-47. Wiring of Five 0.10 A (Worst Case) Strobes Within a Loop Reach of 283 ft 1-70 1-48. Wiring of 2-Watt Speakers Within a Loop Reach of 282 ft (85 m) 1-70

Issue 1 April 1999 iii

Tables 1-1. Typical Coverage Area Size 1-19 1-2. Building Type and Device Density - Fire and Life Safety 1-22 1-3. RS-485 Link Support, Distance vs. Number of Devices 1-36 1-4. MXL System and Commonly-Supported Circuit Types 1-36 1-5. Support for MXLV System Voice Additions by Circuit Types 1-37 1-6. Loading and Bases for Intelligent/Analog Devices Used on MXL ALD-2I or MMB-1 1-37 1-7. Conventional Detector Devices Used With MXL Control (Compatible With CZM-4) 1-38 1-8. Daisy Chained Intelligent Devices on Style 4 and Style 6 ALD Loops - Meters vs. Devices 1-41 1-9. Loop Wiring of CZ Devices on Style 4 or Style 6 Wiring of CZ Loops 1-50 1-10. Fusing of Zone Control Card Control Modules Used for 70.7 V RMS Speaker Support 1-55 1-11. Maximum Distances for Single Speakers and for Multiple Speakers of Equal Power and Spacing 1-59 1-12. Maximum Number of Speakers and Maximum Distance for Link Supporting a Total Wattage (TW) 1-61 1-13. Fusing of NAC Zone Control Card Modules Used for Strobe/Horn/Bell Support 1-64 1-14. Voltage and Current Ratings of Supported 24 VDC and 25 V RMS Notification Appliances 1-65 1-15. SYSTIMAX Wiring Resistance Specifications for 1 Amp NACs on ZC Series Zone Control Cards 1-67 1-16. Modular IO Pin Number and Wire Color 1-71 1-17. D8PA-SE Plenum Distribution Cord Pin Assignments1-71 1-18. Fire and Life Safety Applications and Active Pairs 1-72 1-19. SYSTIMAX SCS Ordering Information - 4-pair Horizontal Cable 1-73 1-20. SYSTIMAX SCS Ordering Information - ARMM Riser Cable 1-73 1-21. SYSTIMAX SCS Ordering Information - 4-pair Modular Distribution Cords 1-74 1-22. SYSTIMAX SCS Ordering Information Information Outlets 1-75 1-23. 110 Connector System Hardware 1-75 1-24. QuickSnap Connector Products Ordering Information 1-76 1-25. Spade Lug, Crimp-On Pin, and Terminating Tool Ordering Information 1-76 A-1. IR Drops Versus Current Load at Various Cabling Lengths A-2

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SYSTIMAX  IBS Siemens Cerberus Division MXL and MXLV Systems Application Guide

Contents 1. Introduction 2. SYSTIMAX IBS Subsystems •

1-1 1-2

2.1 The Synergy Between SYSTIMAX SCS and SYSTIMAX IBS subsystems 2.2 Star Wiring with Extended Coverage Area Wiring 2.3 SYSTIMAX IBS Supported Configurations 2.3.1 Branches 2.3.2 Chain of Devices 2.3.3 T-Tapping 2.3.4 Chained Circuits 2.3.5 Bus Circuits 2.3.6 Bridging

1-2 1-3 1-4 1-6 1-7 1-7 1-10 1-11 1-12

3. Siemens Cerberus Division MXL/MXLV System

1-13



1-13 1-14 1-15 1-15 1-15 1-16 1-16 1-16 1-16 1-18 1-19 1-20 1-20 1-20 1-20 1-21

• •



• •

• • • • • •

3.1 MXL and MXLV System Capacities 3.1.1 Networking Communication Interface 3.2 The SYSTIMAX IBS Configurations Supported 3.2.1 Shared Sheath Configurations Permitted 3.2.2 Topological configurations 3.2.3 Support by Interface/Circuit Types 3.3 General Planning Guidelines 3.4 Premises Configuration 3.4.1 Centralized Controller Connections 3.4.2 Multipoint Controller Connections 3.5 Determining Each Coverage Area Size and Location 3.6 Horizontal Distribution Systems 3.7 Telecommunication Closets per Floor 3.8 Equipment Room to Telecommunications Closet 3.9 Cable Transport System/Method 3.10 Fire Alarms

4. General Installation Instructions

1-22

• • •

1-22 1-22 1-23

4.1 Administration Points 4.2 Controllers, Sensors, and Loads 4.3 Connection to Siemens Cerberus Division Controllers

Issue 1 April 1999 1-i

Contents • • • • • • • • • • •

4.4 Installing Current Limiting Devices 4.5 Riser Backbone Subsystem 4.6 Horizontal Subsystem 4.7 Information Outlet to Endpoint 4.8 Telecommunication Closet Wiring 4.9 Bridging at the Information Outlet 4.10 Coverage Area Wiring 4.11 Chained Circuits 4.12 Fault-Tolerant Circuits 4.13 Extended Coverage Area Wiring 4.14 Sheath Sharing and Cable Routing

1-23 1-24 1-25 1-26 1-28 1-31 1-31 1-31 1-31 1-32 1-32

5. General Support Specifications

1-33

• • •

1-33 1-34 1-34

5.1 Circuit Current and Current Limiting 5.2 Parallel Wires and Fire and Life Safety 5.3 Power Support

6. Siemens Cerberus Division Applications and Configurations

1-35

• • •

1-35 1-36 1-38



6.1 Cerberus Division MXL RS-485 Interfaces Supported 6.2 Siemens Cerberus Division Equipment Supported 6.3 Support of Initiating Device Circuits 6.3.1 Support of Siemens Cerberus Division Intelligent/Analog Initiating Devices (ALD-2I Analog Loop Device Interface and ID/B6 Series Devices) 6.3.2 ALD-2I Point-to-Point Wiring (Single Daisy Chain) 6.3.3 ALD-2I Circuit Star Wiring 6.3.4 ALD-2I Circuit Remote Star Wiring 6.3.5 ALD-2I Circuit Multipoint Bus Wiring 6.3.5.1 Style 4 Implementation of ALD-2I Circuit Multipoint Bus Wiring 6.3.5.2 Style 6 Implementation of ALD-2I Circuit Multipoint Bus Wiring 6.4 Support of Siemens Cerberus Division Conventional Zone Devices with CZM-4 Card Conventional Zone Interfaces 6.4.1 CZM-4 With Style 4 or Style 6 Wiring Support of CZ Devices 6.4.2 Looping back to TC for Sub-Loop (Multipoint Bus) Distribution of Conventional Zone 6.4.3 Relay Base Circuit With CZ-type Devices and CZM4 6.4.3.1 Support of NACs 6.4.4 SYSTIMAX IBS Support of Siemens Cerberus Division 70.7 V RMS Audio Speaker Circuits 6.4.4.1 70.7 V RMS Speaker Circuits - General

1-ii Issue 1 April 1999

1-40 1-42 1-44 1-45 1-46 1-47 1-47

1-48 1-49 1-50 1-52 1-52 1-53 1-54

Contents



6.4.4.2 Required Power-Limiting of Siemens Cerberus Division 70.7 V RMS Speaker Circuits 6.4.4.3 Four Formulas For Planning Speaker Wiring Installations 6.4.4.4 Maximum Distance For Multiple Speakers of Equal Wattage and With Nonuniform Spacing 6.4.4.5 Maximum Number of Speakers of Given Power Rating W on Link Supporting Total Watts TW at distance MAXDNONUNIFORM-SPACING 6.4.4.6 Examples of Support of Audio Configurations with 2 Watt Speakers on 70 V 25W Amplifier 6.4.4.7 Sheath Shared Wiring of Speaker Circuits 6.4.5 24 VDC and 25 V RMS NACs - General 6.4.5.1 Support of Siemens Cerberus Division 24 VDC and 25 V RMS NACs 6.4.5.2 Required Power-Limiting of Siemens Cerberus Division NACs 6.4.5.3 Methods/Formulas For Planning 24 VDC or 25 V RMS NAC Wiring Installations 6.5 Required Current Limiting for Siemens Cerberus Division Zone Control Modules Used With SYSTIMAX IBS Support of Speaker Circuits and NACs 6.5.1 Cable Pair Assignments and Designations

1-55 1-57 1-58 1-58 1-58 1-61 1-62 1-62 1-63 1-68

1-71 1-71

7. Ordering Information

1-72

• • • • • • • •

1-72 1-72 1-74 1-74 1-75 1-76 1-76 1-76

7.1 4-Pair Horizontal Cable 7.2 ARMM Riser Cable 7.3 4-pair Modular Distribution Cords 7.4 Information Outlets 7.5 110 Connector System Hardware 7.6 QuickSnap Connector Products 7.7 Spade Lugs, Crimp-On Pins, and Terminating Tools 7.8 Fuse Information

Issue 1 April 1999 1-iii

Contents

1-iv Issue 1 April 1999

SYSTIMAX IBS Siemens Cerberus Division MXL and MXLV Systems Application Guide

1. Introduction Lucent Technologies’ SYSTIMAX Intelligent Building System (IBS) supports cabling for the installation of Siemens Cerberus Division MXL and MXLV Fire Protection and Alarm Systems using various SYSTIMAX IBS components, for example, 1010/2010 Local Area Network (LAN) cable or 62.5/125-µm fiber optic cables. The purpose of this application guide is to help customers identify and implement SYSTIMAX IBS connectivity solutions for those Siemens Cerberus Division Systems. Lucent Technologies’ SYSTIMAX IBS is a modular, flexible building distribution system that supports building automation devices and systems by providing cost-effective connectivity for intelligent building control and management. SYSTIMAX IBS is part of SYSTIMAX Structured Connectivity Solutions (SCS), which supports data, voice, and imaging communications using economical and easy-to-handle 24 AWG unshielded twisted-pair (UTP) copper cables and/or 62.5/125-µm fiber optic cables to provide connectivity in an open architecture environment. SYSTIMAX SCS and SYSTIMAX IBS support cabling for Lucent Technologies equipment and for equipment by other vendors. A number of cabling arrangements in support of these Pyrotronics Systems are possible, and should be considered in relation to the various applications that customers plan to use. For these different applications and cabling configurations, there are signal loss budgets and other performance issues for

Issue 1 April 1999 1-1

SYSTIMAX  IBS Siemens Cerberus Division MXL and MXLV Systems Application Guide

signaling and power distribution. The number of devices placed on a link or bus, and the cabling distances supported, are determined according to the electrical characteristics of the cable1 and of the different types of applications and configurations. Because of the many aspects that must be considered, this application guide helps identify and implement various connectivity solutions. This document contains information on SYSTIMAX IBS subsystems, SYSTIMAX IBS configurations, planning guidelines, general wiring guidelines, and installation instructions for the installation of MXL and MXLV equipment, circuits, and configurations with SYSTIMAX IBS. See the Glossary at the end of this document for explanations of abbreviations and acronyms.

2. SYSTIMAX IBS Subsystems The subsystems of SYSTIMAX IBS are the same as those of SYSTIMAX SCS, except the term "coverage area" is used instead of "work area." SYSTIMAX IBS includes extended-coverage-area wiring, which refers to the area served by a SYSTIMAX IBS information outlet (IO). The coverage area is typically defined by the structure of the building, access to the coverage areas, and the logical use of those coverage areas. The coverage area is usually larger than the average work area. SYSTIMAX IBS devices and IOs are typically mounted in different physical places than voice/data IOs (for example, in the ceiling, on the walls, on door jams, and other building structures).

2.1 The Synergy Between SYSTIMAX SCS and SYSTIMAX IBS subsystems Compare Figures 1-1 and 1-2 to see the synergy between SYSTIMAX SCS and SYSTIMAX IBS subsystems. Although the recommended maximum distance from the telecommunications closet (TC) to the device or voice/data equipment is 328 ft (100 m), subsystem distances are different. In both SYSTIMAX IBS and SYSTIMAX SCS there is an allowance of 19.7 ft (6 m) of cable in the closet. Because the IBS coverage area is larger than a typical work area, the recommended horizontal distance is shorter than in SCS .

1 Cerberus Division normally specifies the use of 14 AWG to 18 AWG wire for interconnecting

elements of their MXL Systems. Compared to 18 AWG, the 24 AWG used in UTP cable has significantly more resistance per unit length. This higher resistivity prevents use of SYSTIMAX with certain Cerberus Division System circuits in some configurations, or imposes some distance limitations that are more restrictive than would be imposed by using 14 to 18 AWG cable.

1-2 Issue 1 April 1999

SYSTIMAX IBS Subsystems

SYSTIMAX IBS Maximum Horizontal Distance 262 ft (80 m) Telecommunications Closet

Coverage Area = 48 sq yd (40 sq m) Coverage Area Wiring