Metasys® System UL 864 9th Edition UUKL/
ORD-C100-13 UUKLC Smoke Control System
Technical Bulletin
Code No. LIT-12011252
Software Release 5.2
Issued August 1, 2012; Updated June 25, 2014
Supersedes November 27, 2008
Refer to the QuickLIT website for the most up-to-date version of this document.
Document Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Related Documentation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
Smoke Control Definitions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
SCT, LCT, and CCT Standard Applications Library . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
References . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
Smoke Control Product Labeling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
Factory and Production Date Codes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
Factory Location List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
Hardware Revision. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
Software and Firmware Version Numbering . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
Software Upgrades . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
Software Patches. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
Installation Instructions Revision Level . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
Smoke Control Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
Eighth Edition and Ninth Edition Coexistence . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
Firefighters Smoke Control Station (FSCS) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
FSCS Guidelines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
FSCS Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
NxE Requirements. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
Metasys System Smoke Control System Overview . . . . . . . . . . . . . . . . . . . . . . . . . 20
Smoke Control Application Examples . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
Overview of HVAC Smoke Control System Types . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
Central Systems. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
Dedicated Smoke Control Systems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
Non-Dedicated Smoke Control Systems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control
System Technical Bulletin
1
Individual Floor Fan Units . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
Fan Coil Units/Water Source Heat Pumps. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
Induction Units . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
Variable Air Volume (VAV) Systems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
Smoke Dampers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
Design Considerations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
Smoke Movement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
Smoke Control Strategies . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25
Initiating Devices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26
Manual Initiation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26
Automatic Initiation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26
End-to-End Verification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27
Fan Relay Supervision . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28
Response Times . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28
Communication Timing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29
Automatic Fan Command Timing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
Manual Fan Command Timing. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31
Weekly Dedicated Fan Test Timing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32
Automatic Damper Command Timing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33
Manual Damper Command Timing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34
Weekly Dedicated Damper Test Timing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35
Fire Alarm Annunciation Panels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
IFC2-640 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
IFC2-3030 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37
IFC-320 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37
Surge Protection Devices. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38
Ethernet Transient Protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38
American Power Conversion (APC®) PNET1GB Ethernet Transient Protector . . . . . . . . . 38
Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41
UL/ULC Label Placement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41
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Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
Power Surge Protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41
Tripp Lite 8 Ultra Surge Suppressor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41
Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43
UL/ULC Label Placement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43
Tripp Lite ISOBAR 12 Ultra Surge Suppressor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44
Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45
UL/ULC Label Placement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45
MS/TP Field Communication Bus and Field Controller I/O Transient Protection . . . . 46
SMK-MOVKIT-MSTP Transient Protection Kit. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46
Installation Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46
Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47
SMK-MOVKIT-MSTP Wiring for MS/TP FC Bus Communication Terminations . . . . . . . . . 49
SMK-MOVKIT-MSTP Wiring for SA Bus Communication Terminations . . . . . . . . . . . . . . . 51
MS/TP Field Communication Bus Repeater SMOKE-TRNKIT-1U Tranzorbs . . . . . . . . 53
Installation Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53
Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 54
MS/TP Field Controller I/O Transient Protection. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 54
Installation Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56
Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58
MOV Placement. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58
Network Communications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 68
Copper Cable Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 70
Fiber-Optic Cable Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 71
ST Style Connectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 72
24-Port Ethernet Switches . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 73
Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 74
UL/ULC Label Placement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 75
5-Port Ethernet Copper Switch with RJ45 Connectors . . . . . . . . . . . . . . . . . . . . . . . . . 75
Wiring. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 76
Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 77
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
3
UL/ULC Label Placement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 78
8-Port Ethernet Copper Switch with RJ45 Connectors . . . . . . . . . . . . . . . . . . . . . . . . . 79
Flow Control Jumper Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 80
Internal LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 81
Wiring. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 81
Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 82
UL/ULC Label Placement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 83
4-Port Ethernet Fiber / Copper Switch with RJ45 Connectors . . . . . . . . . . . . . . . . . . . 84
Flow Jumper Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 85
Duplex Jumper Options - Fiber . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 85
Internal LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 86
Wiring. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 87
Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 88
UL/ULC Label Placement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 89
Media Convertors. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 89
Contemporary Controls® EIMK-100T/FT Media Converter . . . . . . . . . . . . . . . . . . . . . . . . . 90
Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 91
UL/ULC Label Placement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 91
Smoke Control Network Automation Engines and Network Control Engines . . . 94
Standard NxE Features and Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 94
Power Supply. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 94
Wiring. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 94
Smoke Control NAEs MS-NAE5510-1U and MS-NAE5510-2U . . . . . . . . . . . . . . . . . . . . 96
Device Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 97
Powering On the NAE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 98
Disconnecting Power from the NAE. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 98
Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 99
Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 101
UL/ULC Label Placement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 103
Smoke Control NAE MS-NAE4510-2U . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 104
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Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
Device Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 104
Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 105
UL/ULC Label Placement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 107
Smoke Control NAE MS-NAE3510-2U . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 108
Device Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 109
Performance Guidelines and Limitations for Network Engines . . . . . . . . . . . . . . . . . . . . . 109
Wiring Considerations and Guidelines for Network Integrations . . . . . . . . . . . . . . . . . . . . 110
Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 111
Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 113
UL/ULC Label Placement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 114
Smoke Control NCE MS-NCE2560-0U . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 115
Device Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 116
Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 122
UL/ULC Label Placement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 124
MS/TP Field Bus. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 125
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 125
MS/TP Bus Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 125
FC Bus Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 126
SA Bus Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 127
Baud Rates on the MS/TP Bus . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 128
Device Addresses on the MS/TP Bus . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 129
Setting a Device Address. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 130
End-of-Line Termination on the MS/TP Bus . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 131
End-of-Line Termination Switch Locations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 132
FC and SA Bus Device EOL Switch Details . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 132
EOL Termination on the FC Bus . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 132
EOL Termination on the SA Bus . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 134
SA Buses with Multiple Network Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 135
Terminating FC Devices That Do Not Have Integral EOL Termination Capability. . . . . . . 135
FC Bus Rules When Using TEC26xx Series Thermostat Controllers and
Third-Party MS/TP Devices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 140
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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MS/TP Required Transient Protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 140
FC Communication Bus . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 140
SA Communication Bus . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 140
Field Controller I/O Terminals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 140
FC Bus Rules and Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 141
Sensor Actuator (SA) Bus Rules and Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . 143
NU-RPT101-1U RS-485-to-RS-485 MS/TP Repeater . . . . . . . . . . . . . . . . . . . . . . . . . . . 144
Setting EOL for the Repeater. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 145
Wiring. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 145
Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 146
UL/ULC Label Placement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 147
MS/TP Bus Cable Recommendations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 148
Wiring the MS/TP Bus . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150
General MS/TP Bus Wiring Guidelines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150
FC Bus Wiring Guidelines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 151
FC Bus and SA Bus Screw Terminations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 151
Grounding the Cable Shield on MS/TP Bus Segments . . . . . . . . . . . . . . . . . . . . . . . . . . . 152
SA Bus Wiring Guidelines. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 152
SA Bus 6-Pin RJ-Style Modular Jack and Cables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 153
Commissioning Devices on the MS/TP Bus . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 154
MS/TP Controllers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 155
FEU1610, FEC1611, FEU2610, and FEC2611 Field Equipment Controllers . . . . . . . . 155
Mounting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 155
Common FEC Configuration Details . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 156
Wiring. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 157
Setup and Adjustments . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 166
Commissioning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 167
Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 167
Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 168
UL/ULC Label Placement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 170
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IOMx710 Field Equipment Controllers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 173
Mounting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 173
Common IOM Configuration Details . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 174
Wiring. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 175
Wiring the IOM1710 and IOM1711 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 175
Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 178
Wiring the IOM2710, IOM2711, IOM3710, and IOM3711 . . . . . . . . . . . . . . . . . . . . . . . . . 179
Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 186
Wiring the IOU4710 and IOM4711 IOM Controllers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 187
Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 192
IOMx710-0U Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 192
UL/ULC Label Placement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 195
VMA16 Series Controllers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 201
Mounting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 201
VMA16 Programming and Configuration Details . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 202
Wiring. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 203
Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 208
Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 208
UL/ULC Label Placement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 210
MS/TP NS Series Network Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 212
Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 212
Smoke Control System Software . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 217
SCT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 217
System Programming Guidelines for Smoke Control . . . . . . . . . . . . . . . . . . . . . . . . . 217
Enclosures and Accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 218
PAN-PWRSP-U Power Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 218
Wiring the PAN-PWRSP-U Power Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 219
PAN-PWRSP-U Power Supply Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 219
Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 220
UL/ULC Label Placement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 221
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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PAN-96VAXFR-U Power Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 222
Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 222
UL/ULC Label Placement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 224
Power Distribution Panel and Enclosure (PA0P00010FC0-U) . . . . . . . . . . . . . . . . . . . 224
Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 226
UL/ULC Label Placement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 226
Smoke Control Listed Accessories in a Smoke Control Panel . . . . . . . . . . . . . . . . . . 227
Non-Smoke Control Listed Accessories in a Smoke Control Panel . . . . . . . . . . . . . . 227
Ordering Smoke Control Enclosures. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 228
Custom Enclosures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 228
Standard Enclosures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 228
VAV Box Enclosures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 228
Enclosures Requiring a Union Label . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 230
Enclosures Requiring External Plastic Identification Tags. . . . . . . . . . . . . . . . . . . . . . . . . 230
Upgrading to Release 5.2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 230
Software Revision Labels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 231
Ordering and Revision Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 232
General Smoke Control Ordering Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 232
Repair Parts Ordering Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 239
NS Series Network Sensors Selection Charts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 239
Typical Panel Layouts for UL/ULC Smoke Control Listing . . . . . . . . . . . . . . . . . . 244
Compliance Checklist for UL/ULC Smoke Control Listing . . . . . . . . . . . . . . . . . . 245
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 245
Compliance Survey for UL/ULC Smoke Control Listing . . . . . . . . . . . . . . . . . . . . 246
General Requirements for UL/ULC Smoke Control Listing . . . . . . . . . . . . . . . . . . . . . . . . 247
FSCS Requirements for UL/ULC Smoke Control Listing. . . . . . . . . . . . . . . . . . . . . . . . . . 248
Wiring Requirements for UL/ULC Smoke Control Listing . . . . . . . . . . . . . . . . . . . . . . . . . 249
Application Programming Requirements for UL/ULC Smoke Control Listing . . . . . . . . . . 249
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Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Metasys® System UL 864 9th Edition UUKL/
ORD-C100-13 UUKLC Smoke Control System
Technical Bulletin
Document Introduction
The Johnson Controls listing for smoke control systems now includes the United
States listing UL 864 9th Edition UUKL as well as the equivalent Canadian listing
ORD-C100-13 UUKLC.
IMPORTANT: Smoke control applications require extra care during
installation, commissioning, and servicing. Make sure to read smoke control
documentation and follow all procedures carefully to ensure compliance with
the UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Standard for Smoke
Control.
This document provides sales representatives, project engineers, application
engineers, system representatives, and system installers with the information
necessary to sell, engineer, and install a Metasys® system smoke control system
that complies with the Underwriters Laboratories Inc.® (UL) requirements for the
UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control Listing. This
listing applies to an indoor, dry environment only, where each Air Handling Unit
(AHU) is located in an indoor, enclosed space. This listing does not support
applications where equipment is mounted in Rooftop Units (RTUs) or where
equipment is exposed to a damp or wet environment. To comply with the listing,
you must follow the requirements and restrictions placed on the Metasys system
components as detailed in this and other Metasys system documentation applying
to the UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Listing. The restrictions
apply to both used and assembled Metasys system components. If you are unsure if
your particular application complies with the Ninth Edition smoke control listing,
contact your nearest Johnson Controls® representative.
IMPORTANT: Smoke control equipment carries strict ordering guidelines.
For example, all panels for smoke control must be ordered through
Johnson Controls. See Ordering Smoke Control Enclosures.
Note: The Intelligent Fire Controller (IFC) fire system or third-party fire system
is the primary fire annunciation station. (Refer to the Metasys System
Extended Architecture Fire System Integration Using the IFC BACnet
Gateway Application Note [LIT-1201993] for more information.) The
Johnson Controls® Metasys system smoke control system is used as a
secondary fire annunciation station.
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Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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This document specifically addresses the Johnson Controls® Metasys
system smoke control system. This document provides information on the
Ethernet-based systems, communication equipment, and Master-Slave/
Token-Passing (MS/TP) Bus controllers necessary to create a Metasys
system smoke control application. Do not confuse the system in this
document with the Metasys System Smoke Control UL 864 UUKL Eighth
Edition system.
Related Documentation
See Table 1 for Metasys system UL/ULC smoke control documentation.
Table 1: Related Documentation
For Information On
See Document
LIT Number
Eighth Edition Smoke Control
Equipment
Metasys® System Extended Architecture Smoke
Control System Technical Bulletin
LIT-1201684
Eighth Edition Smoke Control
Equipment Wiring Details
Metasys® System Extended Architecture Smoke
Control Wiring Technical Bulletin
LIT-1201753
Ninth Edition Single-Story Shopping
Mall Smoke Control
Metasys System UL 864 9th Edition UUKL/
ORD-C100-13 UUKLC Standard Smoke Control
Applications Application Note
LIT-12011308
Ninth Edition Multi-Story Building
Smoke Control
Ninth Edition Warehouse Smoke Control
Smoke Control Definitions
Table 2 provides the Johnson Controls smoke control definitions.
Table 2: Smoke Control Definitions
10
Term
Definition
Local Authority Having
Jurisdiction (AHJ)
Describes the local agency responsible for local agency code restrictions,
inspections, and approvals of the smoke control site. The local AHJ can
provide written approval for all deviations or required changes to the listed
smoke control system or applications that are required by the local city,
state, or government agency. Certifications are necessary for local specific
code restrictions or sequence requirements.
Depressurization (Exhaust)
Changes the affected smoke control area or zone from an automatic
Heating, Ventilating, and Air Conditioning (HVAC) controlling sequence to an
automatic smoke control sequence or manual smoke control sequence from
the FSCS panel control to maintain a negative pressure in the affected area
or zone.
Pressurization
Changes the adjacent areas next to the affected smoke control area or zone
from an automatic HVAC controlling sequence to an automatic smoke
control sequence or manual smoke control sequence from the FSCS panel
control to supply a positive pressure in the specific area or zone to help
prevent the spread of smoke.
Purge
Changes the present automatic HVAC, automatic smoke control sequence,
or manual smoke control sequence to supply fresh air and simultaneously
exhaust air from the specific area or zone when you select the manual purge
smoke control sequence from the FSCS panel. Purge is generally used after
the initiating smoke control event is cleared and secured and you want to
reenter into the affected areas.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
SCT, LCT, and CCT Standard Applications Library
The System Configuration Tool (SCT) is used in all phases of engineering,
installing, and commissioning of Network Engines (NxEs) and Field Controller
(FC) bus devices that make up the Metasys smoke control system. The SCT is used
offline to create archive databases that are downloaded to a smoke control NxE.
The Logic Connector Tool (LCT), contained in the SCT, is used to create the
standard smoke control applications logic and control. The Controller
Configuration Tool (CCT) is used offline to create applications that configure the
hardware I/O in a Field Controller.
The standard smoke control applications can be installed and executed on any
smoke control NxE. Use the standard smoke control applications as written; any
sequence modification to the LCT program must be pre-approved by the AHJ. The
SCT must not be accessible to anyone other than designated qualified technicians
who are responsible for installing, commissioning, and maintaining the smoke
control site configuration. Password restriction in conjunction with SCT
accessibility prevents unauthorized editing of the smoke control sequences.
References
When designing your smoke control system, you must read and become familiar
with the following documents, codes, and standards, as applicable:
11
•
National Fire Protection Association (NFPA) 92A Recommended Practice for
Smoke Control Systems
•
NFPA 92B Guide for Smoke Management Systems in Malls, Atria, and Large
Areas
•
NFPA 70 National Electrical Code
•
NFPA 72 National Fire Alarm Code
•
NFPA 101 Life Safety Code
•
NFPA 90A Standard for the Installation of Air-Conditioning and Ventilating
Systems
•
International Code Council (ICC), which includes:
-
Building Officials and Code Administrators International (BOCA) model
code
-
International Conference of Building Officials (ICBO) model code
-
Southern Building Code Congress International (SBCCI) regulations
•
UL 864 Control Units and Accessories for Fire Alarm Systems, 9th Edition,
January 12, 2011
•
ORD-C100-13 Smoke Control System Equipment
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
Smoke Control Product Labeling
This section shows UL/ULC label examples. Figure 1 shows the UL/ULC
equipment label examples.
Install per LIT-12011252, 8/1/12.
Smoke Control System Equipment
Subassy, Controller-Supervisory
NFPA std 70, 72, 90A, 92A, 92B
Supply: 24 VAC Nom., 60 Hz
1.1 Amps Max
Environment: Indoor Dry
MS-NAE3510-2U
Rev N
RY11112
S/W Ver 5.2
Figure 1: UL/ULC Equipment Label Examples
Factory and Production Date Codes
Johnson Controls Ninth Edition smoke control products all have a coded label that
designates the factory where the product was produced and its production year and
week. The label format is LLLYYWW, where:
•
LLL is the 1 to 3 character factory location code
•
YY is the last 2 digits of the calendar year
•
WW is a 2 digit number corresponding to the week of the current calendar year
(01 thru 52).
Figure 2 shows an example label code RY11112 for a part manufactured at the
Reynosa, Mexico, factory Plant 1, in the twelfth week of 2011.
RY11112
MS-NAE3510-2U
Rev N
S/W Ver 5.2
Figure 2: Example Label with Date Code
Factory Location List
Table 3: Smoke Control System Factory Location Code Table
Factory Code
Factory Location
RY1
Plant 1, Reynosa, Mexico
RY2
Plant 2, Reynosa, Mexico
LKY
Louisville, Kentucky
Hardware Revision
The Metasys Smoke Control System hardware revision level appears in the
ordering section of this manual for each component. See Ordering and Revision
Information.
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Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Software and Firmware Version Numbering
Metasys smoke control system software uses an X.x.y numbering scheme, where:
•
X is the major revision
•
x is the minor revision
•
y is a patch
Example: 5.2.10
Note: The current revision level is 5.2 for all Metasys components configured
with System Configuration Tool (SCT) and 5.1 for all components
configured with Controller Configuration Tool (CCT). All of the
component revision levels appear in the Ordering and Revision
Information section. For the UL/ULC components, all the revision levels
appear on the UL/ULC label.
Software Upgrades
When upgrading your Ninth Edition smoke control system to a major revision,
such as from Release 4.1 to Release 5.2, be sure to respect the published object
count for each engine in the smoke control system. If an engine exceeds its object
count limit, you must add another engine to ensure the smoke control system
functions properly. The engine must be ordered in a UL 864 9th Edition UUKL/
ORD-C100-13 UUKLC custom or standard panel. You cannot mount an extra
engine-U or -xU in the field to a new panel or to an existing panel. See
Performance Guidelines and Limitations for Network Engines.
Software Patches
Be sure to install any Metasys system smoke control software patches that were
released after your smoke control system was installed or upgraded.
To install Metasys system software patches for smoke control, contact your local
Johnson Controls office, or:
Browse to one of the following locations:
Field Support Center (FSC) Product Quick Patch page at
http://publish.johnsoncontrols.com/content/controls/us/eng/fsc/hf/Metasys_Quick_Patches.html
For North American Authorized Building Controls Specialists (ABCS)
Partners, go to the ABCS Exchange site under Metasys > Technical Support >
Software Patches.
1. Search for patches that apply to the Metasys System Release 5.2 UL 864 9th
Edition UUKL/ORD-C100-13 UUKLC Smoke Control System.
2. Follow patch installation instructions to install the patch.
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Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Installation Instructions Revision Level
Metasys smoke control system installation instructions depict the current revision
level of the document in the format MM/DD/YY, where:
•
MM is the month
•
DD is the day
•
YY is the year
Although the current installation instructions revision level for all the drawings
within this manual show 08/01/12, the current revision level appears as the date on
this manual. The smoke control listed product UL/ULC labels depict the current
revision level of this technical bulletin.
Smoke Control Requirements
Eighth Edition and Ninth Edition Coexistence
The intended combined smoke control system must be approved in writing by the
local AHJ prior to the installation of any Ninth Edition equipment.
To maintain the UL/ULC smoke control listing, the following rules for a smoke
control system where Eighth Edition and Ninth Edition smoke control equipment
coexist must be followed:
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•
The isolation of the Eighth and Ninth Edition smoke control equipment must
occur at the Ethernet switch.
•
The Eighth Edition smoke control system must be installed and operating as
detailed in the Johnson Controls Metasys System Smoke Control UL 864
UUKL Eighth Edition literature.
•
The Ninth Edition smoke control system must be installed and operate as
detailed in the Johnson Controls Ninth Edition smoke control literature.
•
Do not replace an Eighth Edition supervisory controller with a Ninth Edition
supervisory controller to expand the Eighth Edition smoke control system.
Eighth Edition smoke control systems must remain N2 field bus only and
Ninth Edition smoke control systems must be MS/TP.
•
If an Eighth Edition supervisory controller requires replacement, it must only
be replaced with an Eighth Edition smoke control replacement part (Ninth
Edition supervisory controllers are not allowed as Eight Edition replacement
parts). The Johnson Controls Repair Center in Louisville, Kentucky provides
smoke control replacements.
•
The operation of the smoke control applications must have continuity between
the two systems - floor above/floor below and so forth. Smoke control
applications must be programmed to allow smoke control between all floors as
if a single system were controlling the building.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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•
All Ninth Edition hardware must be loaded with the latest version of Metasys
software approved for use with UL 864 9th Edition UUKL/ORD-C100-13
UUKLC smoke control. You may have non-smoke control hardware at a
different release level than the smoke control hardware, but all smoke control
hardware must be at the same release. For example, you can have two NxEs
not approved for smoke control at Release 4.1 and 5.2, but if you have two
NxEs approved for smoke control, they must both be at Release 4.1 or Release
5.2. In addition, if you are using an Application and Data Server (ADS) or
Advanced Application and Data Server (ADX) to view the system (the ADS/
ADX is not listed for smoke control), this device must be at the most recent
Metasys release.
Note: The ADS/ADX may be at a higher release of Metasys software than the
smoke control components because the ADS/ADX does not perform
smoke control functions.
•
All Field Controllers in a smoke control system (with the exception of the MSFEU1610-0U in the FSCS panel) must be at the same software revision. For
example, an FEU at CCT 4.1 must not coexist with an FEU at CCT 5.1 on an
NAE-xU at Release 5.2.
Note: The MS-FEU1610-0U in the FSCS panel must be at Metasys Release
CCT 4.1
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Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Figure 3 shows a representation of coexisting Eighth Edition and Ninth Edition
Smoke Control Systems.
Figure 3: Coexisting Eighth Edition and Ninth Edition Smoke Control System
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Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Firefighters Smoke Control Station (FSCS)
FSCS Guidelines
Follow these guidelines:
17
•
Use a UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Listed FSCS to
provide manual control of smoke control systems. You must use the FSCS
panel from Automation Displays, Inc. (ADI), which has its own listing with the
Johnson Controls MS-FEU1610-0U controller and PAN-PWRSP-U
transformer. The local Johnson Controls office will order the MS-FEU1610-0U
controller and PAN-PWRSP-U transformer from the Johnson Controls factory,
and ship the two items to ADI to install in the FSCS panel. ADI will program
the MS-FEU1610-0U controller with CCT 4.1 using a special tool. See the
FSCS Requirements for ADI contact information.
•
You cannot upgrade a MS-FEU1610-0U controller in the field. The MSFEU1610-0U controller, which is enclosed in the FSCS panel, must be sent to
ADI for a software revision. Upgrading the controller in the field voids the UL
864 9th Edition UUKL/ORD-C100-13 UUKLC listing. See the FSCS
Requirements for ADI contact information.
•
Provide a graphical representation of the building’s smoke control system to
the AHJ or fire marshal and obtain approval before ordering an ADI panel.
•
Provide positive indication of operation on the FSCS for all smoke control
equipment; for example, the damper reaches its intended position.
•
Configure each Binary Output (BO) object used for pressurization and exhaust
control outputs with positive feedback. Positive feedback monitors the
associated controlled equipment status. Typically, smoke control dampers
provide a pair of feedback binary inputs for the two damper end switches, full
open and full closed. For smoke control fans, provide positive indication of
airflow with either a flow switch or pressure differential sensor to determine
the intended operating status of the fan.
•
Display the status of all smoke control systems on the FSCS.
•
Indicate, both visibly and audibly, on the FSCS any trouble conditions, when
smoke control equipment does not respond to automatic or manual commands.
The FSCS controls the Sonalert® logic for all smoke control systems; no other
application is necessary.
•
Prevent the duct smoke detectors from stopping any smoke control fans once
the smoke control system has been activated, if the smoke control strategy is
such that the return duct exhausts the smoke from the building during the
smoke control system operation. Duct smoke detectors are often located in the
return duct of an HVAC fan and connected to stop the fan when smoke is
detected, which is in compliance with NFPA 90A.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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•
Allow the overriding of the Weekly Dedicated Test sequence for higher priority
requests. Refer to the Metasys System UL 864 9th Edition UUKL/ORD-C10013 UUKLC Standard Smoke Control Applications Application Note
(LIT-12011308) for more information. All dedicated smoke control systems
require the Weekly Dedicated Test to verify the continuous proper operation of
Smoke Control Dampers and Fans.
•
Automatic activation of any smoke control sequence of operation must have
priority over any Weekly Dedicated Test, automatic environmental control
strategy, and over any non-smoke control manual commands. When an
automatic smoke control sequence is initiated, the system design must bypass
the following operational overrides:
-
High and Low Temperature Protection Devices (specifically, A-11 and
A-25 Series Temperature Protection Devices)
-
Return and Exhaust Air Duct Smoke Detectors
•
Make the indication of a trouble condition from any air duct smoke detector
available to FSCS operators so that they are able to make informed decisions
concerning their override actions if smoke is detected elsewhere, especially in
the supply air. This indication can be in the form of annunciation on the fire
alarm system control panel or a remote annunciator controlled by the fire alarm
system.
•
Give the highest priority to the FSCS to manually activate or deactivate any
predefined smoke control strategy. Give automatic smoke control a higher
priority than any manual or automatic HVAC application. Give the Weekly
Dedicated test higher priority than any manual or automatic HVAC application.
•
After a smoke alarm is received and acted upon automatically by the smoke
control system, additional smoke alarms must not cause the smoke control
system to take automatic secondary actions. However, the system must execute
any manual commands from the FSCS.
•
Ensure that all communication links between buildings are fiber-optic cable.
•
Ensure that all communication links between rooms are copper cable buried in
a conduit that is separate from power wiring.
•
Ensure that response time for individual smoke control components to reach
their intended position from the point of command does not exceed the
following time periods: 60 seconds for fan operation at the desired state plus
90 seconds to annunciate and 75 seconds for completion of damper travel plus
90 seconds to annunciate. In the case of fan start after damper close, add these
times. If the damper must be closed before the fan starts, the total response
time could be up to 135 seconds for operation, 75 seconds for damper to close
plus 60 seconds for fan to start. Time to annunciate is added to this time.
(Control system response is the time from automatic detection of a smoke
condition to the issuing of the first smoke control command to the equipment.)
•
Use the UL/ULC Listed Smoke Control NAE to interface all input and output
smoke control points.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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•
Observe the status of the Programming LED. When illuminated, the
Programming LED indicates that an operator is currently making changes to
the smoke control system logic. When off, the Programming LED indicates
that no logic changes are being made.
FSCS Requirements
Requirements of an FSCS include the following. The FSCS must have:
•
full monitoring and manual control capability over all smoke control systems
and equipment
•
the capability to override (partially or in full) any operation in progress,
including programmed actions, non-smoke control manual overrides, and
non-smoke control bypasses
•
the highest priority over all smoke control systems and equipment
•
a building diagram clearly indicating the type and location of all smoke control
equipment. The graphic depicting the building diagram must be approved by
the local fire marshal or AHJ.
•
indication of the actual status (not the command status) of systems and
equipment used for smoke control. This includes both the full open status and
the full closed status of each damper, the status of each fan used for smoke
control, and the airflow status of every fan.
•
the ability to activate an audible signal if the operation proof sensor (feedback
point) failed to provide positive feedback that its command was executed
within the allowed response time
•
hardware supervision alarms, such as binary feedback trouble on fans and
dampers, as well as the system trouble points, that turn on the FSCS alarm horn
•
sole control (use only one FSCS on a Metasys system network used for smoke
control applications, unless multiple FSCSs are approved by the AHJ.)
Note: You must use an approved UL/ULC Listed display panel as your FSCS.
Contact ADI for an approved FSCS panel. ADI ships approved panels to
both the United States and Canada.
Automation Displays, Inc. (ADI)
3533 N. White Avenue
Eau Claire, WI 54703
(715) 834-9595
http://www.adipanel.com
You can connect the FSCS to any UL 864 9th Edition UUKL/ORD-C100-13
UUKLC listed NAE with an active FC bus present in the network. This list
includes the following NAEs: MS-NAE5510-1U, MS-NAE5510-2U,
MS-NAE4510-2U, MS-NAE3510-2U, or MS-NCE2560-0U.
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A UL 864 9th Edition UUKL/ORD-C100-13 UUKLC listed Johnson Controls
MS-FEU1610-0U controller and PAN-PWRSP-U transformer are installed in the
FSCS enclosure. First, you must order and ship the controller and transformer to
ADI. Then, ADI includes and programs the enclosed MS-FEU1610-0U at the
factory with your panel order. The MS-FEU1610-0U has a special conversion code
that allows the FSCS to integrate as an FC bus device.
Note: You cannot add extra I/O to the MS-FEU1610-0U controller in the ADI
FSCS panel.
IMPORTANT: You cannot modify the MS-FEU1610-0U controller enclosed
in the FSCS panel. For modification to the MS-FEU1610-0U, you must return
the controller to the ADI factory.
NxE Requirements
Alarm Repository
The smoke control NxE must not overwrite the initial smoke event that initiated
the smoke control sequence. This requirement is a setting for all UL 864
9th Edition UUKL/ORD-C100-13 UUKLC smoke control NxEs.
Refer to the Required Smoke Control Site Object and Smoke Control NxE Settings
section in the Metasys System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC
Standard Smoke Control Applications Application Note (LIT-12011308) for details
on these settings.
Metasys System Smoke Control System Overview
Smoke Control Application Examples
To help design a smoke control system, Figure 4 and Figure 5 show examples that
comply with UL 864 9th Edition UUKL/ORD-C100-13 UUKLC listings,
incorporating smoke control and non-smoke control systems. These figures are
examples; the actual number and arrangement of components in your system may
differ. Ensure that your system complies with all UL 864 9th Edition UUKL/ORDC100-13 UUKLC device and communication requirements and restrictions.
See Figure 4 for main MS/TP bus (0.6 mm [22 AWG] stranded, 3-wire twisted,
shielded cable recommended), IP, and cable (either CAT5/CAT5e copper Ethernet
cable or plastic/glass fiber-optic cable with external adapter) communication
details. See Figure 5 for FC Bus communication details.
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Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Figure 4: Metasys System Smoke Control System
Main Communication Details
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Figure 5: Metasys System Smoke Control System FC Bus Connection Details
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Overview of HVAC Smoke Control System Types
Central Systems
Central HVAC systems are frequently employed in smoke control designs. The
designer should ensure that the system’s capacity is sufficient to supply the
quantity of outdoor air necessary to pressurize the areas adjacent to any fire area.
The designer should also make sure that the fan systems can handle situations
where a fire may expand to other areas, requiring more areas to be positively
pressurized. In addition, the installer must install smoke dampers at the duct risers
of each floor’s supply and return takeoffs as required by NFPA 92A. Pressure
controls should also be employed to avoid rupturing or collapsing the ductwork.
Dedicated Smoke Control Systems
Dedicated smoke control systems are fan, damper, and duct systems designed for
the sole purpose of controlling smoke within a building. An example of a
dedicated system is a stairwell or elevator shaft pressurization system that is
operational only during a smoke control event. The dedicated smoke control
systems form a system of air movement that is separate and distinct from the
building’s HVAC system, and they only operate to control the flow of smoke. With
their function being dedicated to the performance of smoke control, dedicated
smoke control systems are more immune to faults in the building’s HVAC system.
Note: To assure full performance and maintain UL/ULC compliance, apply
automatic weekly testing to all dedicated systems, including dedicated
elevator shaft fans and dampers used exclusively for smoke control. Refer
to the Metasys System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC
Standard Smoke Control Applications Application Note (LIT-12011308) for
details on how to perform the necessary tests. Any failure to properly
respond in the allotted time must send a trouble signal to the FSCS.
Non-Dedicated Smoke Control Systems
Non-dedicated smoke control systems share components with other air moving
equipment normally used for building environmental control. When the smoke
control mode is activated, the operating mode of the building’s HVAC equipment
changes in order to accomplish the objectives of the smoke control design.
Non-dedicated systems tend to be less costly and occupy less space. However,
from an operational standpoint, the control strategy becomes more elaborate. This
strategy may expand the number of control and monitoring points connected to a
Building Automation System (BAS) and increase the complexity of the sequence
of operation of the air moving equipment.
Individual Floor Fan Units
If sufficient outdoor air is available and the system has the capability to exhaust an
area, individual or floor-by-floor fan units can be used in smoke control
applications.
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Fan Coil Units/Water Source Heat Pumps
These types of units are generally located on the perimeters of buildings and draw
only enough outdoor air to fulfill the fresh air requirements of the spaces they
serve. The units are used in conjunction with central systems, which deliver fresh
air and exhaust recirculated air in larger quantities. When the fan coil unit is not
located in the smoke zone, it is acceptable to exclude it from the smoke control
sequence. When the unit serves the smoke zone in a design that calls for the area to
be negatively pressurized, its outdoor air damper should be closed, and the unit
should be de-energized.
Induction Units
During a smoke control mode, induction units that serve the smoke zone should be
shut down, or their primary air source should be closed off.
Variable Air Volume (VAV) Systems
The Variable Air Volume (VAV) system, when employed as part of a smoke
control strategy, is a subset of the general central system category described in the
previous section. Employ control strategies that ensure adequate quantities of air
pass through the terminal units to permit floor pressurization in the areas adjacent
to the smoke zone. This may include overriding the air volume control to provide
maximum deliverable air to the areas adjacent to the fire area. If fan-powered
terminal units are used and installed in the smoke zone, shut off their fans. If
bypass dampers fulfill the volume control, close the damper during smoke control
mode.
Smoke Dampers
All dampers used as barriers in smoke partitions or as safety dampers in a smoke
control system must be UL listed and classified for use in that application. Refer to
UL 555S Standard for Leakage Rated Dampers for Use in Smoke Control Systems.
Design Considerations
This section outlines the design criteria you should consider when implementing a
smoke control strategy.
Smoke Movement
In general, the movement of smoke follows the same pattern as the overall air
movement within a building. The major influences on smoke movement include
stack effect, air/smoke buoyancy, air/smoke expansion, wind, pressure, and the
operating HVAC system. In a fire situation, a combination of these influences
usually causes smoke movement.
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An accepted way of containing smoke within a compartment or an area is to create
pressure differences across partitions that separate the affected area from the
surrounding areas. You can accomplish this setup by creating higher pressure in
the adjacent space than the pressure which is in the smoke zone. The pressure
differential should be sufficient to overcome the effects of wind pressure, stack
effect, buoyancy of hot gases, and other influences, yet permit doors leading to
emergency exit routes to be opened.
In addition, airflow can minimize the movement of smoke through openings such
as doors. For example, you can pressurize a stairwell, thereby minimizing the
migration of smoke into the stairwell. Should one of the stairwell doors open, the
flow of fresh air from the stairwell reduces the movement of smoke into the
affected area.
Note: Treat elevator shafts like stairwells and positively pressurize them to
prevent vertical migration of smoke through the building. You may close
inter-floor and inter-area duct work not being used for active smoke control
at the appropriate locations, as detailed. See the Related Documentation
section.
Smoke Control Strategies
The smoke alarm initiation of an automatic smoke detection device, such as an
area-type smoke detector located in one of the facility’s smoke zones, generally
activates the smoke control system. This activation may initiate a control strategy
for the air moving equipment to create higher pressures in the areas surrounding
the smoke zone than are present in the smoke zone. This may include positively
pressurizing areas adjacent to the smoke zone and/or negatively pressurizing the
smoke zone and exhausting air from the smoke zone. Subsequent smoke alarm
conditions in other zones must be prevented from automatically changing the
initial smoke control sequence. Keep in mind the guidelines provided in this
section when planning your smoke control strategy.
Do not use duct type smoke detectors exclusively to activate smoke control, for the
following reasons:
•
The dilution of air in the duct system likely results in a slow response time.
•
The supply air duct detector, when exposed to outdoor air in the HVAC supply
air duct, may report a false alarm condition.
•
The duct system may move smoke from the smoke zone, and this causes the
duct detector in the return/exhaust duct of the non-dedicated fan system to
register an alarm condition.
Note: It may be acceptable to use a duct smoke detector if it is not exposed to
outdoor air, the duct detector’s coverage area is equal to the area covered
by a spot type area smoke detector (typically 900 square feet or less),
and/or the AHJ has approved the application.
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Initiating Devices
The following section describes initiating devices for manual and automatic
initiation.
Manual Initiation
Do not use manual pull stations to initiate a smoke control sequence, since there is
no certainty that manual devices are activated in the area of involvement.
However, you can use manual pull stations to initiate global operations, such as
energizing stairwell and elevator shaft pressurization fans.
Manual implementation of the smoke control strategy takes place at the FSCS. The
FSCS must be capable of overriding, either partially or in full, any automatic
activation that may be in progress. It must also be capable of manually controlling
each control point (damper, HVAC fan, and so forth) that is used for smoke control
in the facility. See the application notes in Related Documentation for details on
how to integrate an FSCS into a Metasys system.
Interface devices (those that interface field points to the controller) have the
following restrictions. They must:
•
be listed for use in the Johnson Controls Smoke Control Listing, UL File
S4977, Volume 13.
•
be used and installed according to Johnson Controls literature.
•
result in fan operation at the desired state within 60 seconds (plus 90 seconds
to annunciate) when commanded.
•
result in completion of damper travel within 75 seconds (plus 90 seconds to
annunciate) when commanded.
Automatic Initiation
Initiation of an automatic operation of a smoke control sequence is accomplished
by using an Ethernet connection to a Multi-State or Life-Safety BACnet®
Gateway wired to a fire system LAN containing an IFC2-640, IFC2-3030,
IFC-320, or any combination of the IFC panels adhering to the limits of the IFC
system specifications. Refer to the Metasys System Extended Architecture Fire
System Integration Using the IFC BACnet Gateway Application Note
(LIT-1201993) for more information.
Initiation of an automatic operation of a smoke control sequence is accomplished
by using a third-party UL/ULC UOJZ Listed Fire Alarm Control Panel by the
following connection methods:
26
•
Hard-wired dry contact connection to binary inputs on Johnson Controls listed
smoke control devices.
•
Ethernet connection using third-party UL/ULC UOJZ listed BACnet/IP
gateway.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Figure 6 shows a third-party Fire Alarm Control Panel used in a smoke control
system. You can use any UL/ULC UOJZ Listed FACP manufactured by a
third-party company.
Figure 6: Fire Alarm Control Panel Inputs
End-to-End Verification
End-to-end verification is required to ensure that the smoke control sequence of
operation has been implemented. Verification must be accomplished by using
damper position indicators and airflow switches or differential pressure sensors.
Failures resulting in equipment failing to respond (or responding inappropriately)
to commands from the Metasys smoke control system, must generate an audible
and visual trouble signal at the FSCS. For HVAC dampers, used in smoke control
sequences, the FSCS must display a positive indication of the damper’s fully
opened position and its fully closed position and must report a trouble condition if
the damper position does not agree with the commanded position. For a permanent
record of trouble conditions, including situations where the commanded smoke
control sequence does not equal condition, use the audit trail function to record the
last commands and events during a Smoke Control Sequence.
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Fan Relay Supervision
If the project must meet Life Safety Code NFPA 101 requirements (where the fire
system uses the HVAC system to sequence control or shut down an HVAC fan),
then fan relay supervision is required. The auxiliary relay used to control the motor
starter on the HVAC system fan must be located within 3 ft (0.91 m) of the motor
starter. The wiring between the fan shutdown controller and the shutdown relay
must be monitored for integrity (supervised). This can be accomplished by using
electronic supervision or continuously powered shutdown relays that turn the fan
off if power is lost to the relay circuit. In addition, proof of fan operation, such as
an airflow switch, is required.
Response Times
Response times for individual components to achieve their intended state from the
point of command should not exceed the following time periods: 60 seconds for
fan operation at the intended state plus 90 seconds to annunciate; 75 seconds for
completion of damper travel plus 90 seconds to annunciate. See Figure 7 through
Figure 13 for examples of response times and timing order.
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Communication Timing
Figure 7: Communication Timing
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Figure 8: Automatic Fan Command Timing
Automatic Fan Command Timing
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Figure 9: Manual Fan Command Timing
Manual Fan Command Timing
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Figure 10: Weekly Dedicated Fan Test Timing
Weekly Dedicated Fan Test Timing
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Figure 11: Automatic Damper Command Timing
Automatic Damper Command Timing
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Figure 12: Manual Damper Command Timing
Manual Damper Command Timing
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Figure 13: Weekly Dedicated Damper Test Timing
Weekly Dedicated Damper Test Timing
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Fire Alarm Annunciation Panels
Johnson Controls fire alarm annunciation panels are available in many different
configurations. Your panel may not match the photos shown of the panels in this
section. Depending on the manufacturer of the fire alarm system that the
Johnson Controls UL 864 9th Edition UUKL/ORD-C100-13 UUKLC smoke
control system interfaces with, you may need to order a separate electronics card
for a BACnet gateway. The BACnet gateway offering varies with different fire
alarm systems. Refer to the Metasys System Extended Architecture Fire System
Integration Using the IFC BACnet Gateway Application Note (LIT-1201993) for
more information.
IFC2-640
The IFC2-640 Intelligent Addressable Fire Alarm Control Panel is part of the Fire
Alarm Controls. As a stand-alone small-to-large system or as part of a large
network, the products meet virtually every application requirement. Designed with
modularity and for ease of system planning, the IFC2-640 can be configured with
just a few devices for small building applications or for a large campus or high-rise
application. Add additional peripheral equipment to suit the application, such as an
electronics card for a BACnet gateway.
Figure 14: IFC2-640 Intelligent Addressable
Fire Alarm Control Panel
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IFC2-3030
The IFC2-3030 is an intelligent Fire Alarm Control Panel designed for medium- to
large-scale facilities. Fire emergency detection and evacuation are critical to life
safety, and the IFC2-3030 is ideally suited for these applications.
Figure 15: IFC2-3030 Fire Alarm Annunciation Panel
IFC-320
The IFC-320 is designed to bring sophistication and superior performance to
smaller applications. Auto-programming features allow fire protection to be
established in seconds. Additional programming is quick and easy, and patented
technology makes the IFC-320 exceed worldwide code requirements for response
time.
Figure 16: IFC-320 Fire Alarm Annunciation Panel
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Surge Protection Devices
Ethernet Transient Protection
American Power Conversion (APC®) PNET1GB Ethernet Transient Protector
The APC PNET1GB provides fail safe, stand-alone data-line surge suppression for
Ethernet networks, telecommunication, and computer system protection. In the
event of a power surge, the APC surge protector disconnects protected equipment
from the power supply, ensuring the power surge does not reach or damage the
equipment. The APC PNET1GB Ethernet Transient Protector ships factoryinstalled in a Johnson Controls approved smoke control enclosure.
Note: For the most up-to-date information on the APC PNET1GB Ethernet
Transient Protector, refer to the APC Web site at http://www.apc.com.
Figure 17: APC PNET1GB Ethernet Transient Protector
See the Wiring sections of each Ethernet device for proper wiring connections.
IMPORTANT: Details for device mounting are included in this document
because it is required by UL/ULC. All smoke listed enclosures are ordered
through Johnson Controls and device mounting is completed at the factory. Do
not field-mount or alter the mounting of any device installed in a Johnson
Controls approved smoke listed enclosure. The only exceptions to field
mounting are the VAV box controller and MOV kits. See VAV Box Enclosures
and MS/TP Field Communication Bus and Field Controller I/O Transient
Protection for more information.
Safety Precautions
38
•
Use only for Ethernet and token ring interface cards, hubs, switches, and other
LAN equipment.
•
Do not install during a lightning storm. Install in a cool and dry indoor
environment.
•
Turn off power to all equipment to be protected prior to installing the
PNET1GB.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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•
The PNET1GB must be connected to earth ground.
•
To prevent electric shock when installing the ground wire to the electrical
power outlet ground, turn off electricity to the outlet. From the electrical panel,
switch off the appropriate circuit breaker or remove the fuse for that circuit/
outlet.
Installation
!
CAUTION: Risk of Electric Shock.
Disconnect the power supply before making electrical connections to
avoid electric shock.
Use the following steps and Figure 18 to install the PNET1GB.
1. Verify all hardware installation and software configuration prior to installing
the PNET1GB surge protector. Verify that the system functions correctly with
the existing network line.
2. Switch off power to the equipment to be protected (1).
3. Disconnect the existing network cable (2) from the equipment to be protected.
4. Connect this network cable to the input jack (6) on the PNET1GB surge
protector.
5. Connect one end of the supplied 6-inch patch cable (5) (or use any standard
10/100/1000 Base-T Ethernet cable) to the output jack (4) on the PNET1GB
surge protector. This jack is labeled on the PNET1GB surge protector with a
circle and arrow.
6. Connect the other end of the patch cable (5) to the input jack (3) on the network
equipment (1) to be protected.
7. Connect the green/yellow ground wire (7) to ground.
Figure 18: APC PNET1GB Installation
39
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Note: To fully protect your system, all surge protectors must be properly
grounded. If your electrical system is a 2-wire non-grounded system, the
PNET1GB may be left ungrounded. However, if the PNET1GB ground
wire is unconnected to earth ground, the longitudinal (line to ground) surge
protection is rendered ineffective.
Note: An APC PNET1GB is required at both Ethernet cable ends of all Ethernet
connections. The Ethernet protector must be connected as closely as
possible to the device. The Ethernet protector must be mounted as shown in
Figure 19.
Figure 19: APC PNET1GB Ethernet Transient Protector Mounting Details
40
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Specifications
Table 4: APC PNET1GB Specifications
Category
Specifications
Peak Current Normal Mode
6.50 kA
Peak Surge Current
250 A Maximum with 8 x 20 µs waveform
Peak Voltage
±4,000 V with 1.2 x 50 µs waveform
Breakover Voltage
60 VDC Nominal
NM Surge Response Time
1 ns
Dataline protection
RJ45 10/100/1000 Base-T Ethernet protection
Data Lines Protected
1
Let Through Voltage Rating
<60
Nominal Operating Temperature
32–120°F (0–49°C)
Relative Humidity
93%, Noncondensing
Lines Protected
Pin #1–8 (on Pin 8 Modular Jack)
Standard Compliance
Compliant with IEEE 802.3, 802.5, 802.12 Ethernet
standard, Category 5, 6
Compliance
UL 497B
UL 1449 TVSS Rating 330 V
Dimensions (H x W x D)
4.10 x 1.87 x 1.10 in. (10.4 x 4.7 x 2.8 cm)
Net Weight
0.11 lb (0.05 kg)
UL/ULC Label Placement
UL/ULC Listing labels are not required for this product.
Power Surge Protection
The Tripp Lite® Isobar® Ultra 8 and Ultra 12 premium surge and noise
suppression devices prevent equipment damage and performance problems
resulting from damaging transient surges and line noise.
Note: For the most up-to-date information on the Tripp Lite Isobar Ultra surge
protectors, refer to the Tripp Lite Web site at http://www.tripplite.com.
Tripp Lite 8 Ultra Surge Suppressor
Robust surge suppression circuits with sine-wave tracking offer extreme levels of
protection against the heaviest surge conditions exceeding IEEE 587 Category
A & B specifications and reducing 6,000 V test surges to harmless levels under
35 volts. The Isobar unique protection system combines large torroidal chokes,
ferrite rod-core inductors, High Frequency/Very High Frequency (HF/VHF)
capacitors and multiple layers of metal oxide varistors into exclusive isolated filter
banks that remove Electromagnetic Interference/Radio Frequency Interference
(EMI/RFI), even noise generated by other pieces of connected equipment.
ISOBAR8ULTRA offers eight outlets arranged in four filter banks to prevent
system crashes, reboots, and performance problems common as noisy system
peripherals are powered off and on.
41
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Surge suppression rated at 3,840 joules (97,000 A) offers network-grade
protection. The widely spaced NEMA 5-15 outlets accommodate up to four large
transformer plugs without blocking outlets. The diagnostic LEDs confirm power
availability, line fault, and protection status. The device includes a 12 ft (3.66 m)
AC line cord with space-saving angled input plug and keyhole mounting tabs.
Note: The Tripp Lite Isobar 8 Ultra Surge Suppressor is configured and installed
in a smoke listed panel at the factory.
Figure 20: Tripp Lite Isobar 8 Ultra Surge Suppressor
42
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Specifications
Table 5: Tripp Lite ISOBAR 8 Ultra Surge Suppressor Specifications
Category
Specification
Voltage Compatibility
120 VAC
Frequency Compatibility
60 Hz
Output Volt A Capacity
12 A
Output Watt Capacity
1,440 watts
Outlet Quantity / Type
8 NEMA 5-15R output receptacles, high-quality duplex style
Transformer Accommodation
Supports up to 4 large transformer plug accessories without
covering remaining outlets
Input Connection Type
NEMA 5-15P input plug
Input Cord Length
12 ft (3.7 m)
Recommended Electrical Service
120 V 15 A
Diagnostic LEDs
PROTECTION PRESENT (green)
LINE FAULT (red)
LINE OK (green)
Switches
Two-position red illuminated on/off power switch
Protection Modes
Includes full normal mode (H-N) and common mode (N-G / H-G)
line surge suppression
AC Suppression Joule Rating
2,350 joules
Clamping Voltage (RMS)
140 V
AC Suppression Response Time
NM = 0 ns, CM = <1 ns
AC Suppression Surge Current Rating
97,000 A (36,000 NM / 61,000 CM)
AC Suppression Components Used
Metal oxide varistors, toroidal balanced chokes, ferrite rod-core
inductors and VHF capacitors.
Safe Thermal Using
Prevents unsafe conditions during extreme extended over voltages
and catastrophic occurrences
UL1499 Let Through Rating
330V - UL Verified
IEEE587 Cat. A Ringwave Let Through
Less than 35 volts
EMI / RFI Filtering
40-80 dB
Unit Weight
4.6 lb (2.1 kg)
Dimensions (Height x Width x Depth)
2.5 x 9 x 3.5 in. (6.4 x 22.9 x 8.9 cm)
Compliance
UL 1449 1998 Rev. (AC Suppression)
UL1449 (UR status)
UL 1283 (EMI Filter)
UL 1283
UL 1363 (EMI Filter)
UL 1363
cUL / CSA (Canada)
cUL
Approvals
Exceeds IEEE 587 category A&B specifications
UL/ULC Label Placement
UL/ULC Listing labels are not required for this product.
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Tripp Lite ISOBAR 12 Ultra Surge Suppressor
The Tripp Lite ISOBAR12ULTRA offers network-grade surge and noise
suppression in a versatile all-metal multi-mount cabinet. Detachable mounting
flanges are configurable for rack mount. The surge suppressor uses only one rack
space (1U) when installed in any 19-inch EIA standard rack. It features the highest
level of AC surge and EMI/RFI noise suppression of all Tripp Lite rackmount
surge suppressors. The outlets are arranged in exclusive isolated filter banks to
limit noise interaction among connected items. The ISOBAR12ULTRA includes
12 outlets (2 front / 10 rear), a 15-ft AC power cord, and a guarded power switch to
reduce the risk of accidental shutoff. Diagnostic LEDs indicate AC present, line
fault, and protection status.
Figure 21: Tripp Lite Isobar 12 Ultra Surge Suppressor
44
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Specifications
Table 6: Tripp Lite Isobar 12 Ultra Surge Suppressor Specifications
Category
Specification
Voltage Compatibility
120 VAC
Frequency Compatibility
60 Hz
Output Volt A Capacity
15 A
Output Watt Capacity
1,800 watts
Outlet Quantity / Type
12 NEMA 5-15R output duplex style receptacles, 2 front / 10 rear
Transformer Accommodation
Supports up to 4 large transformer plug accessories without
covering remaining outlets
Input Connection Type
NEMA 5-15P input plug
Input Cord Length
15 ft (4.6 m)
Recommended Electrical Service
120 V 15 A
Diagnostic LEDs
PROTECTION PRESENT (green)
LINE FAULT (red)
LINE OK (green)
Switches
Two-position red illuminated on/off power switch to all outlets
Protection Modes
Includes full normal mode (H-N) and common mode (N-G / H-G)
line surge suppression
AC Suppression Joule Rating
1,280 joules
Clamping Voltage (RMS)
140 V
AC Suppression Response Time
NM = 0 ns, CM = <1 ns
AC Suppression Surge Current Rating
96,000 A
AC Suppression Components Used
Metal oxide varistors, toroidal balanced chokes, and VHF
capacitors.
Safe Thermal Fusing
Prevents unsafe conditions during extreme extended over
voltages and catastrophic occurrences
UL1499 Let Through Rating
330V - UL Verified
EMI / RFI Filtering
40-80 dB
Unit Weight
4.6 lb (2.1 kg)
Dimensions (Height x Width x Depth)
2.5 x 9 x 3.5 in. (6.4 x 22.9 x 8.9 cm)
Compliance
UL 1449 1998 Rev. (AC Suppression)
UL1449 (UR status)
UL 1283 (EMI Filter)
UL 1283
cUL / CSA (Canada)
cUL
Approvals
Exceeds IEEE 587 category A&B specifications
UL/ULC Label Placement
UL/ULC Listing labels are not required for this product. The Tripp Lite Isobar 12
Ultra Surge Suppressor is rack-mount only in an IDF closet and does not require
housing in an enclosure.
45
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MS/TP Field Communication Bus and Field Controller I/O Transient
Protection
SMK-MOVKIT-MSTP Transient Protection Kit
The MS/TP FC bus and Sensor Actuator (SA) bus communication lines must have
an SMK-MOVKIT-MSTP transient protection kit installed when the conduit run
between enclosures does not remain in the same room.
Figure 22 shows an SMK-MOVKIT-MSTP kit. The SMK-MOVKIT-MSTP kit
contains one transient protection device in each package.
Figure 22: SMK-MOVKIT-MSTP
Installation Requirements
Take care when installing transient protectors (MOV kits) in close proximity to
other protectors. Use the following guidelines to install the MOV kit.
•
Before installing the SMK-MOVKIT-MSTP kit into the MS/TP terminal
block, twist it together with the field lead and insert it in the terminal block as
one wire.
•
Twist the wire tightly around the transient protection device a minimum of two
turns before inserting it into the terminal block.
•
When more than two wires are to be placed under a single terminal screw,
perform the following steps:
a. Strip 3/4 in. (19 mm) of insulation off of all of the wires you plan on
connecting together.
b. Add a single 6 in. (15.2 cm) length of #18 AWG pigtail wire with a
minimum insulation thickness of 1/64 in. (0.4 mm).
46
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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c. Twist the wires together and ensure all the ends of the bare wires are equal
in length.
d. Inspect the connection to see that no bare copper is protruding out of the
wire nut.
e. Wrap the wire nut and a minimum of 1 in. (2.54 cm) of the wire bundle
with an overlapping spiral of electrical tape.
f. Place the free end of the single 6 in. (15.2 cm) wire into the controller
terminal and tighten.
Specifications
Table 7: SMK-MOVKIT-MSTP
Category
Symbol
Conditions
Value
Continuous RMS Voltage
Vm((AC)
TA = 85 DegC
Max 30 V
Continuous DC Voltage
Vm(DC)
TA = 85 DegC
Max 38 V
Transient Energy
WTM
10/1000us, TA = 85 DegC
8.8 J
Transient Peak Current
ITM
8/20uS, TA = 85 DegC
1000 A
Varistor Voltage
Vn(DC)
IT = 1mA, TA = 25 DegC
Min 42 V, Max 52 V
Clamping Voltage
VC
I Pk = 10A, 8/20Us, TA = 25 DegC
Max 93 V
f = 1MHZ, TA = 25 DegC
Typ 4,500 pF
Capacitance
47
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Figure 23 shows wire runs to MS/TP equipment in cabinets in various rooms and
the correct use of the SMK-MOVKIT-MSTP to protect the MS/TP devices from
transients.
Figure 23: SMK-MOVKIT-MSTP Communication Wiring
48
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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SMK-MOVKIT-MSTP Wiring for MS/TP FC Bus Communication Terminations
Figure 24 shows an SMK-MOVKIT-MSTP kit wiring example when the wiring
terminates at the MS/TP FC Bus communication terminal block.
Figure 24: SMK-MOVKIT-MSTP MS/TP FC Bus Communication
Wiring Terminations
49
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Figure 25 shows the SMK-MOVKIT-MSTP wiring example for an FC Bus when
the FC Bus communication wiring does not terminate at the MS/TP FC Bus
terminal block.
Figure 25: SMK-MOVKIT-MSTP FC Bus Wiring Terminations - Multiple MS/TP Wires
50
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SMK-MOVKIT-MSTP Wiring for SA Bus Communication Terminations
Figure 26 shows an SMK-MOVKIT-MSTP wiring example when the SA Bus
communication wiring terminates at the MS/TP SA Bus terminal block.
Figure 26: SMK-MOVKIT-MSTP MS/TP SA Bus Communication
Wiring Terminations
51
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Figure 27 shows an SMK-MOVKIT-MSTP wiring example for an SA Bus when
the SA Bus communication wiring does not terminate at the MS/TP SA Bus
terminal block.
Figure 27: SMK-MOVKIT-MSTP SA Bus Wiring Terminations Multiple MS/TP Wires
52
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MS/TP Field Communication Bus Repeater SMOKE-TRNKIT-1U
Tranzorbs
The Acromag® NU-RPT101-1U Repeater is used on the FC or the SA field
communication bus and must be mounted in a smoke control enclosure. It requires
the SMOKE-TRNKIT-1U tranzorbs on terminal blocks TB1 and TB2. The
SMOKE-TRNKIT-1U is a kit containing one transient suppressor (Figure 28). The
SMOKE-TRNKIT-1U is UL/ULC listed for Smoke Control and Energy
Management equipment.
Figure 28: SMOKE-TRNKIT-1U and a Single Tranzorb
Installation Requirements
Two required SMOKE-TRNKIT-1U tranzorbs, ordered separately, are needed to
protect the NU-RPT101-1U repeater (one for TB1 and one for TB2).
Install the SMOKE-TRNKIT-1U tranzorbs to terminal blocks TB1 and TB2 using
the following procedure (Figure 29):
1. Starting with TB1 (far side), strip the FC bus wiring to 0.5 in. (12.7 mm).
2. Twist the single wire side of the first tranzorb to the FC COM far side wire.
3. Attach the twisted FC COM wires to the TB1 COM terminal.
4. Twist the FC+ far side bus wire together with one wire from 2-wire end of the
first tranzorb.
5. Attach the twisted wires to the TB1 D+ terminal.
6. Twist the FC- far side bus wire together with the remaining 2-wire from the
first tranzorb.
7. Attach the twisted wires to the TB1 D- terminal.
8.
53
Repeat the process for TB2 (near side).
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Specifications
Table 8: SMOKE-TRNKIT-1U Specifications
Category
Breakdown Voltage (V(BR) AT IT)
Specifications
1
7.22 V Minimum
7.98 V Maximum
Test Current (IT)
10 mA
Standoff Voltage (VWM)
6.5 V
Maximum Reverse Leakage (AT VWM ID)
400 µA
Maximum Peak Pulse Current (IPPM)
44.7 A
Maximum Clamping Voltage (AT IPPM VC)
11.2 V
Maximum Temperature Coefficient (OF V(BR))
5.0 mV/°C
1.
Pulse Test: tp 50 ms.
The SMOKE-TRNKIT-1U tranzorb has no polarity; either wire extending from the
2-wire end of the transorb kit may be connected to the D+ terminal, and the
remaining wire is to be connected to the D- terminal of the repeater. FC Bus wire
colors may vary from the example in Figure 29.
Figure 29: NU-RPT101-1U FC Field and SMOKE-TRNKIT-1U Tranzorb
Connections
MS/TP Field Controller I/O Transient Protection
The MS/TP field device’s I/O lines must have a SMOKE-MOVKIT-0U transient
protection kit installed when the conduit run between the controller’s enclosure
and the MS/TP I/O field device does not remain in the same room. Only the I/O
terminals whose field wiring leaves the same room requires transient protection.
Note: Wiring that runs between rooms must be copper wire enclosed in conduit.
Wiring that runs between buildings must be fiber optic cable.
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Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Figure 30 shows the SMOKE-MOVKIT-0U transient protection kit for Controller
I/O Terminals. The SMOKE-MOVKIT-0U kit contains 10 MOVs in each package.
Figure 30: SMOKE-MOVKIT-0U
55
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Figure 31 shows wire runs to control and feedback equipment in various rooms
and the correct use of the SMOKE-MOVKIT-0U to protect the MS/TP I/O
Terminal wiring from transients.
Room #1
Room
#4
Room #3
Room #2
Figure 31: Controller I/O Requiring MOV Protection
All MS/TP controller input terminals and output terminals requiring transient
protection must have an MOV from a SMOKE-MOVKIT-0U placed between
earth ground and each affected Power terminal, I/O Common terminal, and I/O
terminals of the controller.
Installation Requirements
Take care when installing transient protectors (MOV kits) in close proximity to
other protectors. Use the following guidelines to install the MOV kit.
•
56
Before installing the MOV kit to the MS/TP I/O terminal block, twist it
together with the field lead and insert it in the terminal block as one wire.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
•
Twist the wire tightly around the transient protection device a minimum of two
turns before inserting it into the terminal block.
•
When more than two wires are to be placed under a single terminal screw,
perform the following steps:
a. Strip about 3/4 in. (19 mm) of insulation off of all of the wires you plan on
connecting together.
b. Add a single 6 in. (15.2 cm) length of #18 AWG pigtail wire with a
minimum insulation thickness of 1/64 in. (0.4 mm).
c. Twist the wires together and ensure all the ends of the bare wires are equal
in length.
d. Inspect the connection to see that no bare copper is protruding out of the
wire nut.
e. Wrap the wire nut and a minimum of 1 in. (2.54 cm) of the wire bundle
with an overlapping spiral of electrical tape.
f. Place the free end of the single 6 in. (15.2 cm) wire into the controller
terminal and tighten.
Figure 32 shows the MSTP controller I/O terminal block SMOKE-MOVKIT-0U
connections using three MOVs from the SMOKE-MOVKIT-0U kit.
Figure 32: SMOKE-MOVKIT-0U MS/TP I/O Wiring Terminations (AI/UI)
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Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Specifications
Table 9: SMOKE-MOVKIT-0U
Category
Symbol
Conditions
Value
Continuous RMS Voltage
Vm(AC)
TA = 85 DegC
Maximum 30 V
Continuous DC Voltage
Vm(DC)
TA = 85 DegC
Maximum 38 V
Transient Energy
WTM
10/1000us, TA = 85 DegC
8.8 J
Transient Peak Current
ITM
8/20uS, TA = 85 DegC
1,000 A
Varistor Violate
Vn(DC)
IT = 1mA, TA = 25 DegC
Minimum 42 V, Maximum 52 V
Clamping Voltage
VC
I Pk = 10A, 8/20Us, TA = 25 DegC
Maximum 93 V
f = 1MHZ, TA = 25 DegC
Typ 4,500 pF
Capacitance
MOV Placement
The following tables show the Input and Output MOV placements for each
controller. The SMOKE-MOVKIT-0U contains ten individual MOVs.
Table 10: MS-NCE2560-0U Input and Output MOV Placement (Part 1 of 4)
58
Terminal Type
Terminal
MOV Protection
Universal Input
+ 15 V
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN1
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM1
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN2
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM2
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
+15 V
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN3
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM3
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN4
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM4
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
+15 V
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN5
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM5
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN6
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM6
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
+15 V
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Table 10: MS-NCE2560-0U Input and Output MOV Placement (Part 2 of 4)
59
Terminal Type
Terminal
MOV Protection
Universal Input
IN7
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM7
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN8
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM8
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
+15 V
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN9
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM9
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN10
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM10
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
IN11
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
ICOM11
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
IN12
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
ICOM12
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
IN13
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
ICOM13
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
IN14
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
ICOM14
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
IN15
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
ICOM15
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
IN16
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
ICOM16
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
IN17
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
ICOM17
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
IN18
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
ICOM18
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Table 10: MS-NCE2560-0U Input and Output MOV Placement (Part 3 of 4)
60
Terminal Type
Terminal
MOV Protection
Binary Output
OUT1
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OCOM1
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OUT2
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OCOM2
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OUT3
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OCOM3
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OUT4
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OCOM4
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OUT5
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OCOM5
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OUT6
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OCOM6
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OUT7
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OCOM7
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OUT8
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OCOM8
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OUT9
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OCOM9
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OUT10
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OCOM10
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OUT11
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OCOM11
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Analog Output
OUT12
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Analog Output
OCOM12
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Analog Output
OUT13
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
Table 10: MS-NCE2560-0U Input and Output MOV Placement (Part 4 of 4)
Terminal Type
Terminal
MOV Protection
Analog Output
OCOM13
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Analog Output
OUT14
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Analog Output
OCOM14
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Analog Output
OUT15
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Analog Output
OCOM15
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Table 11: MS-FEU1610-0U and MS-FEC1611-1U I/O MOV Placement
(Part 1 of 2)
61
Terminal Type
Terminal
MOV Protection
Universal Input
+15 V
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN1
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM1
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN2
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM2
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
IN3
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
ICOM3
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OUT1
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OCOM1
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OUT2
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OCOM2
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OUT3
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OCOM3
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OUT4
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OCOM4
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OUT5
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
Table 11: MS-FEU1610-0U and MS-FEC1611-1U I/O MOV Placement
(Part 2 of 2)
Terminal Type
Terminal
MOV Protection
Configurable Output
OCOM5
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OUT6
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OCOM6
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OUT7
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OCOM7
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Table 12: MS-FEU2610-0U and MS-FEC2611-0U I/O MOV Placement
(Part 1 of 2)
62
Terminal Type
Terminal
MOV Protection
Universal Input
+15 V
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN1
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM1
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN2
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM2
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
+15 V
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN3
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM3
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN4
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM4
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
+15 V
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN5
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM5
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN6
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM6
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
IN7
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
ICOM7
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
IN8
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
Table 12: MS-FEU2610-0U and MS-FEC2611-0U I/O MOV Placement
(Part 2 of 2)
63
Terminal Type
Terminal
MOV Protection
Binary Input
ICOM8
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OUT1
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OCOM1
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OUT2
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OCOM2
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OUT3
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OCOM3
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OUT4
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OCOM4
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OUT5
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OCOM5
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OUT6
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OCOM6
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OUT7
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OCOM7
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Analog Output
OUT8
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Analog Output
OCOM8
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Analog Output
OUT9
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Analog Output
OCOM9
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
Table 13: MS-IOM1710-0U and MS-IOM1711-0U I/O MOV
Terminal Type
Terminal
MOV Protection
Binary Input
IN1
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
ICOM1
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
IN2
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
ICOM2
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
IN3
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
ICOM3
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
IN4
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
ICOM4
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Table 14: MS-IOM2710-0U and MS-IOM2711-0U I/O MOV
64
Terminal Type
Terminal
MOV Protection
Universal Input
(IOM2710 Only)
+5 V
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
+15 V
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN1
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM1
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN2
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM2
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Relay Output
OUT1NO
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Relay Output
OCOM1
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Relay Output
OUT1NC
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Relay Output
OUT2NO
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Relay Output
OCOM2
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Relay Output
OUT2NC
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Output
OUT3
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Output
OCOM3
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Output
OUT4
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Output
OCOM4
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
Table 15: MS-IOM3710-0U and MS-IOM3711-0U I/O MOV Placement
(Part 1 of 2)
65
Terminal Type
Terminal
MOV Protection
Universal Input
(IOM3710 Only)
+5 V
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
+15 V
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN1
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM1
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN2
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM2
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
+15 V
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN3
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM3
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN4
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM4
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Relay Output
OUT1NO
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Relay Output
OCOM1
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Relay Output
OUT1NC
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Relay Output
OUT2NO
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Relay Output
OCOM2
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Relay Output
OUT2NC
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Relay Output
OUT3NO
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Relay Output
OCOM3
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Relay Output
OUT3NC
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Relay Output
OUT4NO
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Relay Output
OCOM4
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Relay Output
OUT4NC
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Output
OUT5
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Output
OCOM5
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
Table 15: MS-IOM3710-0U and MS-IOM3711-0U I/O MOV Placement
(Part 2 of 2)
Terminal Type
Terminal
MOV Protection
Universal Output
OUT6
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Output
OCOM6
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Output
OUT7
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Output
OCOM7
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Output
OUT8
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Output
OCOM8
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Table 16: MS-IOU4710-0U and MS-IOM4711-0U I/O MOV Placement
(Part 1 of 2)
66
Terminal Type
Terminal
MOV Protection
Universal Input
+15 V
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN1
1 piece of SMOKE-MOVKIT-0USMOKE-MOVKIT-0U installed between
Terminal and Earth Ground
Universal Input
ICOM1
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN2
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM2
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
+15V
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN3
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM3
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN4
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM4
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
+15 V
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN5
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM5
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN6
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM6
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
IN7
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
ICOM7
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
Table 16: MS-IOU4710-0U and MS-IOM4711-0U I/O MOV Placement
(Part 2 of 2)
Terminal Type
Terminal
MOV Protection
Binary Input
IN8
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Input
ICOM8
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OUT1
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OCOM1
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OUT2
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OCOM2
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OUT3
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OCOM3
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OUT4
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OCOM4
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OUT5
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OCOM5
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OUT6
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OCOM6
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OUT7
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OCOM7
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Analog Output
OUT8
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Analog Output
OCOM8
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Analog Output
OUT9
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Analog Output
OCOM9
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Table 17: MS-VMA1610-0U and MS-VMA1610-1U I/O MOV Placement
67
Terminal Type
Terminal
MOV Protection
Universal Input
+15V
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
Table 18: MS-VMA1620-0U and MS-VMA1620-1U I/O MOV Placement
Terminal Type
Terminal
MOV Protection
Universal Input
+15V
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
IN
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Universal Input
ICOM
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OUT1
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OCOM1
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OUT2
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OCOM2
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OUT3
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Binary Output
OCOM3
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OUT4
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OCOM4
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OUT5
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Configurable Output
OCOM5
1 piece of SMOKE-MOVKIT-0U installed between Terminal and Earth
Ground
Network Communications
See Table 19 for Ethernet network rules and follow the guidelines provided.
Table 19: Ethernet Network Rules
Category
Rules/Maximum Allowed
General
Star topology with network switches
Number of Devices (IP)
Maximum of 200 devices can be connected to one site. The site can be a mix
of both smoke listed and non-smoke listed controllers, or all smoke listed
controllers1.
Line Length and Type
Solid unshielded twisted pair (Category 5 cable): 100 m (330 ft)
Stranded unshielded twisted pair (patch cable): 10 m (33 ft)
RG58A/U coax cable (for 10Base2 systems): 185 m (607 ft)
Plastic/glass fiber optic with external adapter: 2,000 m (6,600 ft)
Terminations
For 10/100 BaseT, no line terminators allowed.
Surge Protection
All Ethernet connections must have a PNET1GB surge suppressor at each end
of the Ethernet cable. The ground lead of the PNET1GB must be connected to
earth ground. See American Power Conversion (APC®) PNET1GB Ethernet
Transient Protector for additional information and wiring details.
1.
68
Smoke control products are identified by product code numbers that end in -U or -xU. For example,
MS-FEC1611-1U is listed for smoke control, MS-FEC1611-1 is not listed for smoke control.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
!
!
!
!
WARNING: Risk of Electric Shock.
Disconnect or isolate all power supplies before making electrical
connections. More than one disconnect or isolation may be required to
completely de-energize equipment. Contact with components carrying
hazardous voltage can cause electric shock and may result in severe personal
injury or death.
CAUTION: Risk of Property Damage.
Do not run low voltage cable in the same conduit or wiring troughs with high
voltage wires. Running low and high voltage wires in the same conduit or wiring
troughs may damage the equipment or cause system malfunction.
CAUTION: Risk of Property Damage.
Do not run network communication cables in the same conduit, raceway, or panel
with any high voltage (greater than 30 VAC) wiring. Isolate all network wiring and
all network devices from high-voltage wiring and equipment. Failure to isolate
network wiring and network devices from high-voltage wiring and equipment can
result in damage to network devices or poor network performance.
CAUTION: Risk of Property Damage.
Do not apply power to the system before checking all wiring connections. Short
circuited or improperly connected wires may result in permanent damage to the
equipment.
IMPORTANT: Use copper conductors only. Make all wiring in accordance with local,
national, and regional regulations. Do not exceed the electrical ratings for the devices on the
Metasys network.
IMPORTANT: Electrostatic discharge can damage controller components. Use proper
electrostatic discharge precautions during installation, setup, and service to avoid damaging the
controller.
IMPORTANT: Always consult with the customer’s Network IT department before installing
Metasys Ethernet components. Close coordination with the IT department is critical as other
online systems may be affected.
IMPORTANT: Do not deform, bend, stretch, or staple Ethernet cables. Doing so can put your
system at risk of communication loss. Also, do not run Ethernet cables parallel to power cables
or near noise inducing components.
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Copper Cable Connections
Use Ethernet cables for connections between RJ45 ports on switches, media
converters, and Ethernet Network Interface Cards (NICs). Verify the copper cable
connected to media converters does not leave the room in which the media
converter is installed. Use an APC ProtectNet® (model PNET1GB) surge
protector on each cable segment to prevent electrical surges. PNET1GB surge
protectors must be mounted in a Johnson Controls approved smoke listed
enclosure. See Figure 18 for Ethernet surge protection details using the PNET1GB
surge protector.
Table 20: Copper Cable Connections
Port Signaling and
Data Rate
Minimum Required Cable
Minimum
Segment
Distance
Maximum
Segment
Distance
10BASE-T, 10 Mbps
RJ45, 4-pair UTP, Category 5, Copper
2.5 m (8.2 ft)
100 m (328 ft)
100BASE-Tx, 100 Mbps
RJ45, 4-pair UTP, Category 5, Copper
2.5 m (8.2 ft)
100 m (328 ft)
1000BASE-T, 1 Gbps
RJ45, 4-pair UTP Category 5e, Copper
2.5 m (8.2 ft)
100 m (328 ft)
RJ45 Female Port on Device
Step 1. Align plug on cable with port on device.
Step 2. Insert plug into port.
FIG:RJ45_connector
Step 3. Push forward slightly to lock into place.
Figure 33: Using RJ45 Style Connectors on Copper Cables
Figure 34: Ethernet Straight-Through Cable RJ45 Connector Pinouts
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Figure 35: Ethernet Crossover Cable RJ45 Connector Pinouts
Fiber-Optic Cable Connections
Use fiber-optic cable that has the characteristic outlined in Table 21.
Table 21: Fiber-Optic Cable Connections1
Port Signaling and
Data Rate
Minimum
Required Cable
Full-Duplex:
Maximum
Segment Distance
Half-Duplex:
Maximum
Segment Distance
10BASE-FL, 10 Mbps
1,300 nm,
multimode 50/125
or 62.5, ST
connectors
2,000 m (6,562 ft)
412 m (1,352 ft)
100BASE-FX, 100
Mbps
1,300 nm,
multimode 50/125
or 62.5, ST
connectors
2,000 m (6,562 ft)
412 m (1,352 ft)
100BASE-FX, 100
Mbps
1,300 nm, singlemode 50/125, ST
connectors
15,000 m (49,213 ft)
412 m (1,352 ft)
1.
71
The CTRLink EIS6-100T/FT maximum attenuation for multimode is 13 db loss/2 km and the
maximum attenuation for single mode is 19 db/15 km for the fiber-optic connection.
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ST Style Connectors
Step 1: Line up the peg on the cable
with the slot on the connector.
Step 2: Twist the collar on the cable
to line up with the peg on the
connector.
Twist
Collar
Peg
Twist
Step 3: Push forward and twist
to lock in place.
FIG:ST_connector
Push
Figure 36: Using ST Style Connectors on Fiber-Optic Lines
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24-Port Ethernet Switches
The 24 ports on the Cisco® Catalyst 2960 and Asante™ NU-RJ45SW1-0U
Copper Switch with RJ45 Connectors are 10/100 Mbps and automatically detect
the communication speed, allowing any of the ports to be used for 100 Mbps
uplink. The copper switch also automatically detects whether the communication
is half duplex or full duplex.
IMPORTANT: At Release 5.2, the Asante NU-RJ45SW1-0U Copper Switch
is no longer available for ordering. The UL listing for the Asante switch
available at Release 4.1 is maintained, and the Asante switch may be used in the
Release 5.2 listing if you have purchased it through Johnson Controls for a
UL 864 Ninth Edition UUKL Release 4.1 job site.
Figure 37: Cisco Catalyst 2960 Ethernet Switch
Figure 38: Asante NU-RJ45SW1-0U Copper Switch
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Specifications
Table 22: Cisco WS-C2960-24TC-S 24-Port Switch Specifications1
Category
Specifications
Fast Ethernet
24 x 10/100BaseTX Fast Ethernet ports
Power Rating
120 VAC, 1.3 A, 60 Hz
Forwarding Bandwidth
16 Gbps
Flash Memory
32 MB
Forwarding Rate
6.5 mpps
Operating Temperature
32–120°F (0–49°C)
Storage Temperature
23–104°F (-5–40°C)
Relative Humidity
10–93% Noncondensing
Dimensions
1.73 x 17.7 x 9.52 in.
(4.4 x 45 x 24.2 cm)
Weight
8 lb (3.6 kg)
1.
Technical specifications are subject to change without notice, per Cisco. For the most up-to-date
information, refer to the Cisco Web site at http://www.cisco.com.
Table 23: Asante NU-RJ45SW1-0U 24-Port Ethernet Copper Switch
Specifications
74
Category
Specifications
Fast Ethernet
24 x 10/100BaseTX Fast Ethernet ports with Auto-Uplink: RJ-45 shielded
connectors
Configuration
IEEE Auto Negotiation (sets 10/100 Mbps speed and half/full duplex)
Status Indicators
System: Power
Per Port: 2 LEDs. Link (solid)/activity (blink).100 Mbps (on)/10 Mbps (off)
Efficiency
Non-blocking, Fast Ethernet switching
Switch Architecture
Triple-chip design with onboard frame buffers
Error Detection
Frames with errors (malformed PHY, runt < 64 bytes, CRC error, long > 1536)
are discarded
Forwarding MAC Table
4K addresses
On-Chip Buffer
768 KB (total)
Dimensions (H x W x D)
1.7 x 17.5 x 4.7 in (4.5 x 44.5 x 12.0 cm)
Weight
4.0 lb (1.8 Kg)
Power
120 VAC, 60 Hz, 0.33 A Maximum
Operating Temperature
32 to 120ºF (0º to 49ºC)
Relative Humidity
10 to 93%, noncondensing
Standards Compliance
IEEE 802.3u Fast Ethernet over 2 pairs of UTP Category 5 (100BaseTX) IEEE
802.3 Ethernet over 2 pairs of UTP Category 3 (10BaseT)
Emissions Compliance
FCC Class A
Compliance
UL, cUL, CE Safety
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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UL/ULC Label Placement
UL/ULC Listing labels must be positioned as shown in Figure 39 and Figure 40.
Figure 39: UL Label Placement for the Asante Ethernet Switch
(Release 4.1 Job Sites)
Figure 40: UL/ULC Label Placement for the Cisco Ethernet Switch
5-Port Ethernet Copper Switch with RJ45 Connectors
The five ports on the CTRLink™ EISK5-100T Copper Switch and Netgear®
FS105 Copper Switch with RJ45 Connectors are 10/100 Mbps and automatically
detect the communication speed, allowing any of the ports to be used for 100 Mbps
uplink. The copper switch also automatically detects whether the communication
is half duplex or full duplex.
Figure 41: CTRLink EISK5-100T 5-Port Copper Switch
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Figure 42: Netgear FS105 5-Port Copper Switch
IMPORTANT: The Netgear FS105 Copper Switch is no longer available to
order at Release 5.2; however, the smoke control listing from Release 4.1 is
maintained at Release 5.2. The Netgear FS105NA Copper Switch is not
included in the Release 4.1 or Release 5.2 listing.
All other Ethernet ports connected to the Ethernet switch require an individual
APC PNET1GB Ethernet Transient protection device per port.
The 5-Port Ethernet Copper Switch must be mounted in a Johnson Controls
approved smoke listed enclosure with a PAN-PWRSP-U Power Supply.
Figure 43: FS105 Mounted in an Enclosure
Wiring
Copper Cables
See Copper Cable Connections for details on Ethernet copper connections.
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Specifications
Table 24: Netgear FS105 5-Port Ethernet Copper Switch
77
Category
Specifications
Network Ports
Five auto speed-sensing UTP ports
Fast Ethernet
5 x 10/100BaseTX Fast Ethernet ports with Auto-Uplink: RJ-45 shielded connectors
Configuration
IEEE Auto Negotiation (sets 10/100 Mbps speed and half/full duplex)
Status LEDs
Link, speed, and activity indicators built into each RJ-45 port
Efficiency
Non-blocking, Fast Ethernet switching
Switch Architecture
Triple-chip design with onboard frame buffers
Error Detection
Frames with errors (malformed PHY, runt < 64 bytes, CRC error, long > 1536) are
discarded
Forwarding Modes
Store-and-forward
Buffer Memory
64 KB
Bandwidth
1 Gbps
Network Latency
Less than 20 µs for 64-byte frames in store-and-forward mode for 100 Mbps to 100
Mbps transmission
Address Database Size
1,000
Addressing
48-bit MAC address
Dimensions (H x W x D)
3.7 x 4.1 x 1.1 in (9.4 x 10.3 x 2.7 cm)
Weight
0.62 lb (0.28 kg)
AC Power
7.5 W (7.5 VDC, 1A)
Operating Temperature
32 to 120ºF (0 to 49ºC)
Relative Humidity
10 to 93%RH, noncondensing
Standards Compliance
IEEE 802.3 10BASE-T Ethernet
IEEE 802.3u 100BASE-TX Fast Ethernet
IEEE 802.3x Full-duplex Flow Control
Electromagnetic
Emissions Compliance
CE mark, commercial
FCC part 15 Class A
EN55 022 (CISPR22), Class A
VCCI Class A
C-Tick
Safety Agency
Compliance
UL listed (UL 1950)/cUL
IEC950/EN60950
ULC/ORD-C100-13
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Table 25: CTRLink EISK5-100T 5-Port Ethernet Copper Switch
Category
Specifications
Voltage
24 VAC
Power
.4 A, 3 W, 7 VA
Frequency
60 Hz
Operating Temperature
0–49°C (32–120°F)
Storage Temperature
-40–85°C (-40–185°F)
Humidity
10–93% Noncondensing
Communication
ANSI/IEEE 802.3 at 10 or 100 Mbps; 10BASE-T or 100-BASE-TX
Connectors
Shielded RJ-45
LEDs
Power, Activity/Link, Duplex
Protection
IP 30
Mounting
TS-35 DIN Rail
Weight
0.45 kg (1 lb)
Dimensions (H x W x D)
100 x 70 x 26 mm (4 x 2-3/4 x 1 in.)
Compliance
North America: UL508 Industrial Control Equipment
Europe: CE Mark; CFR 47 Part 15, Class A
UL/ULC Label Placement
UL/ULC Listing labels for the CTRLink Ethernet switch must be positioned as
shown in Figure 44. The Netgear Ethernet switch does not require UL/ULC
labeling.
Figure 44: UL/ULC Label Placement for the EISK5-100T
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8-Port Ethernet Copper Switch with RJ45 Connectors
The eight ports on the Contemporary Controls® CTRLink™ EIS8-100T Copper
Switch with RJ45 Connectors are 10/100 Mbps and automatically detect the
communication speed, allowing any of the ports to be used for 100 Mbps uplink.
The switch also automatically detects whether the communication is half duplex or
full duplex. The EIS8-100T uses a PAN-PWRSP-U Power Supply.
Figure 45: 8-Port Copper Switch
Figure 46 shows the EIS8 circuit board with port jumpers in their default settings
and the location of the internal LEDs. The internal LEDs indicate the status of each
communication port.
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Four jumpers are used for factory testing (JP1, JP2, JP3 - no jumper installed,
JP4 - no jumper installed) and must be left in there default or vacant positions. All
other jumpers can be adjusted as required according to the Table 26.
Figure 46: EIS8 Circuit Board Jumper Locations
Flow Control Jumper Options
Table 26 shows the Flow Control Jumper Options.
Table 26: Flow Control Jumper Options
80
Jumper
Function
If Set Up
If Set Down
JP5
Pause
Enabled
Disabled
JP6
Backpressure
Enabled
Disabled
JP7
Data Forwarding
Cut Through
Store-and-Forward
JP8
Broadcast Storm Control
Enabled
Disabled
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Internal LEDs
Table 27 shows the Internal LEDs: Half Duplex (HD), Full Duplex (FD) and
Collision (C).
Requirements include mounting the CTRLink EIS8 Copper Switch in a
Johnson Controls approved smoke listed enclosure with eight APC Ethernet
PNET1GB Transient protection devices, and a 24 VAC Power Supply. All devices
are mounted at the factory and cannot be field mounted.
Table 27: Internal LEDs
Port
1
2
3
4
5
6
7
8
LED
D20
D21
D22
D23
D24
D25
D26
D27
Signaling
TX
TX
TX
TX
TX
TX
TX
TX
If ON
HD
HD
HD
HD
HD
HD
HD
HD
If OFF
FD
FD
FD
FD
FD
FD
FD
FD
If Flashing
C
C
C
C
C
C
C
C
Figure 47: EIS8 Mounted in an Enclosure
Wiring
See Copper Cable Connections for details on Ethernet copper and fiber
connections.
Note: All inputs and outputs are rated as special application, power limited, and
supervised with trouble signal on the FSCS.
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Note: The 24 VAC supply power transformer for the EIS8-100T must be installed
in the same room as the Ethernet switch.
Note: If you cannot connect to a resettable 24 VAC power supply, you must cycle
power to the Ethernet switch by installing a relay or switch on the power
line of the Ethernet switch.
Specifications
Table 28: CTRLink™ EIS8-100T 8-Port Ethernet Copper Switch
Category
Specifications
Network Ports
Eight auto speed-sensing UTP ports
Configuration
IEEE Auto Negotiation (sets 10/100 Mbps speed)
Status LEDs
The switch has a Power LED (green) and Loop Detect LED (red). Each RJ-45 port has a
Link/Data LED (green) and Data Rate LED (yellow).
Enclosure
Requirements
Hoffman® A20N16BLP 20 x 16 x 8.62 Medium Type 1 Enclosure
Dimensions (H x W x D)
7.54 x 1.75 x 5.45 in. (191 x 44 x 138 mm)
Weight
AC Power
2 lb (0.9 Kg)
1
5 VA (24 VAC, 400 mA), 60 Hz
Operating Temperature
32–120°F (0–49°C)
Relative Humidity
10 to 93%RH, noncondensing
Standards Compliance
ANSI/IEEE 802.3 10BASE-T Ethernet
ANSI/IEEE 802.3 100BASE-TX Fast Ethernet
IEEE 802.3x Full-duplex Flow Control
Electromagnetic
Emissions Compliance
CE Mark:
Applied Council Directives 89/336/EEC as amended by 92/31/EEC and 93/68/EEC
92/59/EEC
Standard to which conformity is declared EN 55022:1995 Class A
EN 55024:1998
FCC:
CFR part 15 Class A
Safety Agency
Compliance
UL listed:
UL 1604 9BA2
UL 508
UL864 Recognized UOXX2
ULC/ORD-C100-13
1.
82
Hoffman A20N16MPP NEMA 1, Perforated 17.00 x 14.50 sub panel, fits a 20 x 16
enclosure
All inputs and outputs are rated as special application, power limited, and supervised with trouble signal on the
FSCS.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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UL/ULC Label Placement
UL/ULC Listing labels must be positioned as shown in Figure 48.
Figure 48: UL/ULC Label Placement for the EIS8-100T
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4-Port Ethernet Fiber / Copper Switch with RJ45 Connectors
The four Ethernet copper ports on the Contemporary Controls CTRLink
EIS6-100T/FT Switch with RJ45 Connectors are 10/100 Mbps and automatically
detect the communication speed, allowing any of the ports to be used for 100 Mbps
uplink. The switch also automatically detects whether the communication is half
duplex or full duplex on the RJ45 ports. The two fiber ports on the switch are
100BASE-FX. The half- or full-duplex mode is set by internal jumpers. The EIS6100T/FT must be mounted in a Johnson Controls approved smoke listed enclosure
with a PAN-PWRSP-U Power Supply.
Figure 49: 4-Port Copper / Fiber Switch
Figure 50 shows the EIS6-100T/FT circuit board with the fiber port jumpers in
their default settings, and the location of the internal LEDs which indicate the
status of each communication port. Five jumpers are used for factory testing (JP1,
JP2, JP3 - no jumper installed, JP4 - no jumper installed) and must be left in their
default or vacant positions. All other jumpers can be adjusted as required
according to Table 29 and Table 30.
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Figure 50: EIS6 Circuit Board Jumper Locations
Flow Jumper Options
Table 29 shows the flow control jumper options.
Table 29: Flow Control Jumper Options
Jumper
Function
If Set Up
If Set Down
JP5
Pause
Enabled
Disabled
JP6
Backpressure
Enabled
Disabled
JP7
Data Forwarding
Cut Through
Store-and-Forward
JP8
Broadcast Storm Control
Enabled
Disabled
Duplex Jumper Options - Fiber
Table 30 shows the duplex jumper options for fiber.
Table 30: Duplex Jumper Options - Fiber
Jumper1
Function
If Set Left
If Set Right
JP9
Port 5 Duplex Operation
Half-Duplex
Full-Duplex
JP10
Port 5 Duplex Operation
Half-Duplex
Full-Duplex
JP11
Port 6 Duplex Operation
Half-Duplex
Full-Duplex
JP12
Port 6 Duplex Operation
Half-Duplex
Full-Duplex
1.
85
The positions of JP9 and JP10 must match. The positions of JP11 and JP12 must match.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Internal LEDs
Table 31 shows the internal LEDs.
Table 31: Internal LEDs
Port
1
2
3
4
5
6
LED
D21
D17
D18
D19
D16
D20
Signaling
TX
TX
TX
TX
FX
FX
If ON
HD
HD
HD
HD
HD
HD
If OFF
FD
FD
FD
FD
FD
FD
If Flashing
C
C
C
C
N/A
N/A
The CTRLink EIS6 Copper / Fiber Switch must be mounted in a Johnson Controls
approved smoke listed enclosure with four APC PNET1GB Ethernet Transient
protection devices and a 24 VAC power supply. All devices are mounted at the
factory and cannot be field mounted.
Figure 51: EIS6 Mounted in an Enclosure
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Wiring
Note: All inputs and outputs are rated as special application, power-limited, and
supervised with trouble signal on the FSCS.
Note: The 24 VAC supply power transformer for the EIS6-100T/FT must be
installed in the same room as the Ethernet switch.
Note: If you cannot connect to a resettable 24 VAC power supply, you must cycle
power to the Ethernet switch by installing a relay or switch on the power
line of the Ethernet switch.
Copper Cables
See Copper Cable Connections for details on Ethernet copper connections.
Fiber-Optic Connections
See Fiber-Optic Cable Connections for more information on fiber-optic
connections.
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Specifications
Table 32: CTRLink EIS6-100T/FT 4-Port Ethernet Copper /2-Port Fiber Port
Switch
Category
Specifications
Network Ports
Four auto speed-sensing RJ45 10BASE-T/100BASE-TX 10/100 Mbps speed UTP
ports
Two Duplex ST Connector Fiber 100BASE-TX 100 Mbps Speed Ports
Status LEDs
The switch has a Power LED (green) and Loop Detect LED (red). Each RJ-45 port and
ST Fiber Port have a Link/Data LED (green) and Data Rate LED (yellow).
Enclosure
Requirements
Hoffman A20N16BLP 20 x 16 x 8.62 Medium Type 1 Enclosure
Dimensions (H x W x D)
7.54 x 1.75 x 5.45 in. (191 x 44 x 138.43 mm)
Weight
2 lb (0.9 kg)
AC Power1
5 VA (24 VAC, 400 mA), 60 Hz
Ethernet connection: 8.17 ohm line resistance
Operating Temperature
32–120°F (0–49°C)
Relative Humidity
10 to 93%RH, noncondensing
Standards Compliance
ANSI/IEEE 802.3 10BASE-T Ethernet
ANSI/IEEE 802.3 100BASE-TX Fast Ethernet
IEEE 802.3x Full-duplex Flow Control
Electromagnetic
Emissions Compliance
CE mark:
Applied Council Directives 89/336/EEC as amended by 92/31/EEC and 93/68/EEC
92/59/EEC
Standard to which conformity is declared EN 55022:1995 Class A
EN 55024:1998
FCC:
CFR part 15 Class A
Safety Agency
Compliance
UL listed:
UL 1604 9BA2
UL 508
UL864 Recognized - UOXX2
ULC/ORD-C100-13
1.
88
Hoffman A20N16MPP NEMA 1, Perforated 17.00 x 14.50 sub panel, fits a 20 x 16
enclosure
All inputs and outputs are rated as special application, power limited, and supervised with trouble signal on the
FSCS.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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UL/ULC Label Placement
UL/ULC Listing labels must be positioned as shown in Figure 52.
Figure 52: UL/ULC Label Placement for the EIS6-100T/FT
Media Convertors
Follow these additional guidelines when installing the media converters:
89
•
Keep copper cables in the same room as media converters. Use CAT5 or
CAT5e copper cables with RJ45 connectors. Cables must be 6 m (20 ft) or less
in length.
•
Use an AC to DC power adapter to provide power to the media converters.
Secure the power adapters in a locked enclosure with a UL/ULC Listed
terminal strip.
•
Install the fiber converter within the same enclosure as the connected controller
when the fiber converter is installed outside of an IT equipment room.
•
Mount the EIMK-100T/FT Media Convertor in a Johnson Controls approved
smoke listed enclosure with a PAN-PWRSP-U Power Supply.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Contemporary Controls® EIMK-100T/FT Media Converter
Figure 53: EIMK-100T/FT Media Converter
Wiring
Ethernet Surge Protection
See Figure 18 for information on the PNET1GB Ethernet surge suppression.
Copper Cables
See Copper Cable Connections for details on copper connections.
Fiber-Optic Connections
See Fiber-Optic Cable Connections for more information on fiber-optic
connections.
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Specifications
Table 33: EIMK-100T/FT Specifications
Category
Specifications
Power Requirements
24 VAC, .4 A, 4 VA, 60 Hz
Operating
Temperature
0–49°C (32–120°F)
Storage Temperature
-40–85°C (-40–185°F)
Relative Humidity
10–93% noncondensing
Protection
IP30
Mounting
DIN rail
Shipping Weight
1 lb (0.45 kg)
Communications
IEEE 802.3 100 Mbps data rate
100BASE-TX using RJ-45 connectors (MDI and MDIX), 100 m maximum
100BASE-FX multimode using ST or SC connectors, 2 km maximum
LEDs
Power, Link, Activity
Compliance
CE Mark, CFR 47 Part 15 Class A; RoHS, UL 508 Industrial Control
Equipment
UL/ULC Label Placement
UL/ULC Listing labels must be positioned as shown in Figure 54.
Figure 54: UL/ULC Label Placement for the EIMK-100T/FT
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See the manufacturer’s information packaged with each device for more device
specifications.
Table 34: Media Converter Fiber Optic Connector Specifications
Connector
Type
Fiber
Type
Wave
length
Typical
Distance
Min TX
PWR
Max TX
PWR
Sensitivity
(dBm)
Max In
PWR
Link
Budget
ST
Multimode
850 nm
LED
2 km
-16.0 dBm
-10.0 dBm
-29.5 dBm
-7.2 dBm
13.5 dB
Table 35: Electrical Specifications for Ethernet-to-Fiber Media Convertors
Product Code
Number
Product
Electrical Specifications
EIMK-100T/FT
100 Mbps Media Converter
Power supplied from external adapter
Power Draw: 4 W
Communication Wiring Example
Figure 55 shows a application using fiber-optic cable and media converters. The
following guidelines apply in this system:
92
•
Install all fiber-optic lines and copper cables in conduit.
•
Verify that all fiber-optic lines with ST connectors have a maximum length of
2,000 meters (6,560 feet).
•
Verify that connections between a media converter and a Smoke Control
supervisory controller have a maximum length of 6 meters (20 feet) and that all
cables are in the same room as the media converters.
•
Verify that all copper cables with RJ45 connectors are CAT5 or CAT5e twisted
pair.
•
Do not field mount any devices; all smoke control devices are mounted at the
factory to ensure compliance with the UL 864 9th Edition UUKL/ORD-C10013 UUKLC listing.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Figure 55: Smoke Control System - Fiber-Optic and Ethernet Communications
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Smoke Control Network Automation Engines and Network
Control Engines
IMPORTANT: Be sure to keep your smoke listed engines up-to-date with the
most recent Metasys software patches approved for smoke control. For more
information, see Software Patches.
IMPORTANT: Smoke control engines have defined object count limits which
cannot be exceeded without compromising system function. NAE5510 engines
can support up to 4,341 objects. NAE45/NAE35/NCE25 engines can support up
to 2,271 objects. If you exceed these object counts, you must add another engine
to your system. The engine must be ordered in a UL 864 9th Edition UUKL/
ORD-C100-13 UUKLC custom or standard panel. You cannot mount an extra
engine-U or -xU in the field to a new panel or to an existing panel.
Standard NxE Features and Connections
The Smoke Control NAE55, NAE45, NAE35, NCE25 models have several
common features and wiring connections.
Power Supply
The MS-NAE5510-1U, MS-NAE5510-2U, MS-NAE4510-2U, MS-NAE3510-2U
NAEs, and MS-NCE2560-0U NCE must be powered from either a
PAN-PWRSP-U or a PAN-96VAXFR-U power supply transformer.
Note: For additional information about power supply, see the PAN-PWRSP-U
Power Supply section.
Wiring
Power Wiring
FIG: NAE_POWER_PORT
Connect the 24 VAC supply power wires from the transformer to the removable
three-terminal plug as shown in Figure 56. The middle terminal is not used.
NAE
Power Terminal
Block
24V~
HOT
Wires from
Johnson Controls
24 VAC Class 2
Power Transformer
COM
NAE
Power Terminal
Block Plug
Brown Wire
(COM)
Orange Wire
(24 VAC)
Figure 56: 24 VAC Supply Power Wiring
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The 24 VAC power should be connected to all network devices so transformer
phasing is uniform across the devices. Powering devices with uniform 24 VAC
supply power phasing reduces noise, interference, and ground loop problems. The
NxE does not require an earth ground connection.
Disconnecting Power from the NxE
When 24 VAC supply power to an NxE is disconnected or lost, the NxE is
non-operational, but the POWER LED (Figure 69) remains on and the data
protection battery continues to power the NxE for several (1 to 5) minutes while
volatile data is backed up in nonvolatile memory. The RUN LED goes off when
data backup and shutdown are complete.
FC Bus Wiring
+
-
COM
SHLD
Connect the three FC Bus wires to the removable four-terminal plug as shown in
Figure 57 (labeled FC Bus).
FC Bus
Terminal
Block
COM FC- FC+
FIG: NAE_FC_BUS
FC Bus
Terminal Block
Plug
Figure 57: FC Bus Wiring
If the NxE is connected to an FC Bus, you must set the End-of-Line (EOL) switch
to the proper position. See the Setting the MS-NAE3510-2U’s End-of-Line Switch
section.
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Smoke Control NAEs MS-NAE5510-1U and MS-NAE5510-2U
Use the smoke control NAEs MS-NAE5510-1U and MS-NAE5510-2U to
interface all input and output smoke control points. The internal modem is not
available for smoke control NAEs.
IMPORTANT: All smoke listed enclosures are ordered through Johnson
Controls. Device mounting is completed at the factory. Do not field-mount or
alter the mounting of any device installed in a Johnson Controls approved
smoke listed enclosure.
Field-mounting or altering the mounting of any device installed in a
Johnson Controls approved smoke listed enclosure voids the UL 864 9th Edition
UUKL/ORD-C100-13 UUKLC listing.
Figure 58: Smoke Control NAE MS-NAE5510-xU
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Device Layout
USB
Ports
RS-232-C
Serial Ports
Field Controller
24 VAC
(FC) Buses Power Terminal
End-of-Line
(EOL) Switches
RJ-45 8-Pin
Ethernet
Jack
Wall Mount
Feet
Data
Protection
Battery
Compartment
System Status
Light-Emitting Diodes
(LEDs)
226 mm
(8-7/8 in.)
System
Re-Boot
Switch
FIG:nae5510_dim
97 mm
(3-13/16 in.)
Figure 59: Smoke Control NAE MS-NAE5510-1U Dimensions, mm (in.)
USB
Ports
RS-232-C
Serial Ports
Field Controller
24 VAC
(FC) Buses Power Terminal
End-of-Line
(EOL) Switches
RJ-45 8-Pin
Ethernet
Jack
Wall Mount
Feet
Data
Protection
Battery
Compartment
System
Re-Boot
Switch
System Status
Light-Emitting Diodes
(LEDs)
97 mm
(3-13/16 in.)
FIG:nae5510-2_dim
226 mm
(8-7/8 in.)
Figure 60: Smoke Control NAE MS-NAE5510-2U Dimensions, mm (in.)
IMPORTANT: The unused USB ports and RS-232-C Serial Ports in Figure 59
and Figure 60 are not UL 864 9th Edition UUKL/ORD-C100-13 UUKLC
Listed. These ports are not approved for smoke control.
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Powering On the NAE
After applying 24 VAC power, the NAE requires up to 5 minutes to start up and
become operational. See the LED Test Sequence at Startup section.
Startup is complete and the NAE is operational when the green RUN LED is on
steady and the red GEN FAULT LED is off. See Figure 61 for LED locations.
Disconnecting Power from the NAE
IMPORTANT: The data protection battery must be installed and charged
before disconnecting the 24 VAC supply power.
The 24 VAC supply power is disconnected from the NAE by removing the
terminal block plug from the power terminal port on the NAE (Figure 56).
When the 24 VAC supply power to the NAE is disconnected or lost, the NAE is
nonoperational. The POWER LED (Figure 61) remains on, and the data protection
battery continues to power the NAE for several (1 to 8) minutes so that the volatile
data can be backed up in nonvolatile memory. The POWER LED goes off when
the data backup is completed.
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Troubleshooting
LED Status Indicators
NC
+
-
+
N2
-
REF
S
POWER
ETHERNET
10/LINK
100/LINK
N2A
N2B
PEERCOM
RUN
24 VAC
ET SY
POWER
N2-A
N2-B
BATT FAULT
GENL FAULT
MODEM
SY ST EM
ETHERNET
+
N2
-
REF
S
24 VAC
BATT FAULT
GENL FAULT
R E -BO OT
24 VAC
BATT FAULT
GENL FAULT
SERIAL A
FC A
FC B
PEER COM
RUN
USB A
FC A
FC B
PEER COM
RUN
SERIAL B
POWER
ETHERNET
10/LINK
100/LINK
USB B
POWER
ETHERNET
10/LINK
100/1000 LINK
FIG: NAE_LED_STATUS
The NAE55 has 11 LEDs to indicate power and communication status. Figure 61
shows the LEDs and Table 36 describes their meaning.
R
NAE
Figure 61: MS-NAE5510-2U (Left) and MS-NAE5510-1U (Right)
LED Designations
Table 36: NAE LEDs Designation, Normal Status, Description, and Other
Conditions (Part 1 of 2)
99
LED
Normal
Descriptions/Other Conditions
POWER (Green)
On Steady
On Steady = Unit is getting power from either the battery or 24 VAC power.
Also see the 24 VAC LED.
Off Steady = Unit is shut down.
ETHERNET (Green)
Flicker
Flicker = Data is transferring on the Ethernet connection. Ethernet traffic is
general traffic (may not be for the NAE).
Off Steady = No Ethernet traffic, probably indicates a dead Ethernet
network or bad Ethernet connection.
10/LINK (Green)
On Steady
On Steady = Ethernet connection is established at 10 Mbps.
100/LINK (Green)
(MS-NAE5510-1U Only)
On Steady
On Steady = Ethernet connection is established at 100 Mbps.
100/1000 Link
(Green/Yellow)
(MS-NAE5510-2U Only)
On Steady
On Steady (Green) = Ethernet connection is established at 100 Mbps.
On Steady (Yellow) = Ethernet connection is established at 1,000 Mbps.
FC A (Green)
Flicker
On Steady = Controllers are defined to FC A (FC Bus 1 or N2 Trunk 1) in
the NAE, but none are communicating. (NAE transmitting only)
Flicker = Normal communications; FC A port is transmitting and receiving
data. Flickers are generally in sync with data transmission but should not be
used to indicate specific transmission times.
Off Steady = No field controllers are defined to FC A (FC Bus 1 or N2 Trunk
1) in the NAE.
FC B (Green)
Flicker
On Steady = Controllers are defined to FC B (FC Bus 2 or N2 Trunk 2) in
the NAE, but none are communicating. (NAE transmitting only)
Flicker = Normal communications; FC B port is transmitting and receiving
data. Flickers are generally in sync with data transmission but should not be
used to indicate specific transmission times.
Off Steady = No field controllers are defined to FC B (FC Bus 2 or N2 Trunk
2) in the NAE.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Table 36: NAE LEDs Designation, Normal Status, Description, and Other
Conditions (Part 2 of 2)
LED
Normal
Descriptions/Other Conditions
PEER COMM (Green)
Varies (see
next column)
Flicker = Data traffic between NAE devices. For an NAE that is not a Site
Director, this LED indicates regular heartbeat communications with the Site
Director. For a Site Director NAE, flashes are more frequent and indicate
heartbeat communications from all other NAE devices on the site. For a
single NAE on a network without an Application and Data Server (ADS),
there is no flicker.
Run (Green)
On Steady
On Steady = NAE software is running.
On 1 second, Off 1 second = NAE software is in startup mode.
On 0.5 seconds, Off 0.5 seconds = NAE software is shutting down.
Off Steady = Operating system is shutting down or software is not running.
24 VAC (Green)
On Steady
On Steady = 24 VAC power is present.
Off Steady = Loss of 24 VAC power. In the Off Steady condition, the NAE
can be running on battery power. Also see the POWER LED.
BATT FAULT (Red)
Off Steady
On Steady = Battery fault. Replace the battery. Battery not connected or
cannot be charged. The BATT FAULT LED may remain On for up to 24
hours after initially powering-on the NAE. If the BATT FAULT LED remains
on longer than 48 hours after initially powering-on the NAE, check the
battery connection or replace the battery.
GENL FAULT (Red)
Off Steady
On Steady = General Fault. Fault conditions are user configurable in
software. Preconfigured fault conditions include excessive Central
Processing Unit (CPU), flash or memory use, excessive CPU or Printed
Wire Board (PWB) temperature, or Battery Fault. In normal operation, the
GENL FAULT LED stays on steady for the first half of the startup sequence.
LED Test Sequence at Startup
During startup, the NAE automatically initiates an LED test to verify the
operational status of the LEDs. Immediately after connecting supply power, the
following LED lighting sequence occurs:
1. The PEER COM, RUN, FC A, FC B, and GENL FAULT LEDs turn on,
indicating that the Operating System (OS) is booting up. The FC A and FC B
LEDs also turn on.
2. The PEER COM, RUN, GENL FAULT LEDs, and the FC A and FC B LEDs
shut off. The RUN LED flashes to indicate that the NAE software is loading.
3. The LEDs display the operational status of the NAE. When the RUN LED
goes on steady, the operating system and Metasys application are running and
the NAE is ready.
The total time to start up the NAE depends on the size of the database and can take
several minutes.
System Re-Boot Switch
The System Re-Boot switch (Figure 60) forces a manual restart of the NAE
processor. All data changes made to the system since the last time the NAE saved
data are lost on restart, including alarm, trend, and audit trail data. Press the
System Re-Boot switch only if the NAE fails to respond and cannot be accessed by
any user device. Do not press the System Re-Boot switch unless you have tried
other reasonable means to fix the problem.
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Specifications
Table 37: Smoke Control MS-NAE5510-xU Technical Specifications
(Part 1 of 2)
101
Category
Specifications
Power Requirement
Dedicated nominal 24 VAC, Class 2 power supply (North America), at 60 Hz
Power Consumption
50 VA Maximum
Installation Environment
Indoor, Dry
Ambient Operating
Conditions
0–49°C (32–120°F); 10–90% RH, 30°C (86°F) maximum dew point
Ambient Storage Conditions
-40–70°C (-40–158°F); 5–95% RH, 30°C (86°F) maximum dew point
Data Protection Battery
Supports data protection on power failure. Rechargeable gel cell battery: 12 V,
1.2 Ah, with a typical life of 3 to 5 years at 21°C (70°F);
Product Code Number: MS-BAT1010-0
Clock Battery
Maintains real-time clock through a power failure. On board cell; typical life
10 years at 21°C (70°F)
Processor
MS-NAE5510-1U: 400 MHz Pentium® Geode® GX533 processor
MS-NAE5510-2U: 1.6 GHz Intel® Atom™ processor
Memory
MS-NAE5510-1U: 512 MB Flash nonvolatile memory for operating system,
configuration data, and operations data storage and backup; 256 MB Synchronous
Dynamic Random Access Memory (DRAM) for operations data dynamic memory.
MS-NAE5510-2U: 4 GB Flash nonvolatile memory for operating system,
configuration data, and operations data storage and backup; 1 GB Synchronous
Dynamic Random Access Memory (DRAM) for operations data dynamic memory.
Operating System
MS-NAE5510-1U: Microsoft® Windows XP® Embedded
MS-NAE5510-2U: Microsoft Windows® Embedded Standard (WES) 2009
Network and Serial
Interfaces
One Ethernet port; 10/100 Mbps (10/100/1,000 Mbps on MS-NAE5510-2U); 8-pin
RJ-45 connector
Two optically isolated RS-485 BACnet MS/TP ports; (9600, 19.2K, 38.4K, or 76.8K
baud); pluggable and keyed 4-position terminal blocks
Two RS-232-C serial ports with standard 9-pin sub-D connectors that support all
standard baud rates
Two USB serial ports, standard USB connectors
Housing
Plastic housing with internal metal shield
Plastic material: ABS + polycarbonate UL94-5VB
Protection: IP20 (IEC 60529)
Mounting
On flat surface with screws on four mounting feet or on dual 35 mm DIN rail
Dimensions
(Height x Width x Depth)
226 x 332 x 96.5 mm (8.9 x 13.1 x 3.8 in.) including mounting feet
Minimum space for mounting: 303 x 408 x 148 mm (12.0 x 16.1 x 5.8 in.)
Shipping Weight
2.9 kg (6.4 lb)
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Table 37: Smoke Control MS-NAE5510-xU Technical Specifications
(Part 2 of 2)
Category
Compliance
102
Specifications
United States
UL Listed, File E107041, CCN PAZX, UL 916, Energy Management Equipment
FCC Compliant to CFR, Part 15, Subpart B, Class A
UL Listed, File S4977, UUKL, UL 864 9th Edition, Smoke Control System
Equipment
Canada
UL Listed, File E107041, CCN PAZX7, CAN/CSA C22.2 No. 205, Signal
Equipment
UL Listed, File S4977, CCN UUKLC, ORD-C100-13 Standard for Control Units for
Fire Alarm Systems
Industry Canada Compliant, ICES-003
Europe
CE Mark – Johnson Controls, Inc., declares that this product is in compliance with
the essential requirements and other relevant provisions of the
EMC Directive 2004/108/EC.
Australia and
New Zealand
C-Tick Mark, Australia/NZ Emissions Compliant
BACnet
International
BACnet Testing Laboratories™ (BTL) 135-2004 Listed BACnet Building Controller
(B-BC)
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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UL/ULC Label Placement
UL/ULC Listing labels must be positioned by the factory as shown in Figure 62.
Figure 62: UL/ULC Label Placement for the MS-NAE5510-xU (Front and Bottom View)
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Smoke Control NAE MS-NAE4510-2U
Use the Smoke Control NAE MS-NAE4510-2U to interface all input and output
smoke control points. The internal modem is not available on the smoke control
NAE. Place the Smoke Control NAE in a locked enclosure.
IMPORTANT: All smoke listed enclosures are ordered through Johnson
Controls. Device mounting is completed at the factory. Do not field-mount or
alter the mounting of any device installed in a Johnson Controls approved
smoke listed enclosure.
Field-mounting or altering the mounting of any device installed in a
Johnson Controls approved smoke listed enclosure voids the UL 864 9th Edition
UUKL/ORD-C100-13 UUKLC listing.
Figure 63: Smoke Control MS-NAE4510-2U
Device Layout
See Figure 64 (MS/TP) for the location of the power supply terminal, network
terminals, Universal Serial Bus (USB) port, and Ethernet port on the NAE.
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Field Controller (FC) Bus Jack and Service Port
The NAE is designed to control one field controller MS/TP FC Bus trunk. The
RJ-11, 6-Pin jack labeled FC BUS (Figure 64) is an FC bus service port.
Figure 64: Smoke Control MS-NAE4510-2U Dimensions, mm/in.
Specifications
Table 38: Smoke Control MS-NAE4510-2U Technical Specifications
105
Category
Specifications
Power Requirement
Dedicated nominal 24 VAC, Class 2 power supply (North America), at 60 Hz
Power Consumption
25 VA Maximum
Installation Environment
Indoor, Dry
Ambient Operating
Conditions
0–49°C (32–120°F); 10–90% RH, 30°C (86°F) maximum dew point
Ambient Storage Conditions
-40–70°C (-40–158°F); 5–95% RH, 30°C (86°F) maximum dew point
Data Protection Battery
Supports data protection on power failure. Rechargeable NiMH battery: 3.6 VDC,
500 mAh, with a typical life of 5 to 7 years at 21°C (70°F);
Product Code Number: MS-BAT1020-0
Processor
192 MHz Renesas® SH4 7760 RISC Processor
Memory
128 MB Flash nonvolatile memory for operating system, configuration data, and
operations data storage and backup
128 MB Synchronous Dynamic Random Access Memory (DRAM) for operations
data dynamic memory.
Operating System
Microsoft® Windows® CE Embedded
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Table 38: Smoke Control MS-NAE4510-2U Technical Specifications
106
Category
Specifications
Network and Serial
Interfaces
One Ethernet port; 10/100 Mbps; 8-pin RJ-45 connector
One optically isolated RS-485 BACnet MS/TP port; (9,600, 19.2K, 38.4K, or 76.8K
baud); pluggable and keyed 4-position terminal blocks
One RS-232-C serial port with standard 9-pin sub-D connector that supports all
standard baud rates
One USB serial port, standard USB connector
Housing
Plastic housing material: ABS + polycarbonate UL94-5VB
Protection: IP20 (IEC 60529)
Mounting
On flat surface with screws on three mounting clips or on a single 35 mm DIN rail
Dimensions
(Height x Width x Depth)
131 x 270 x 62 mm (5.2 x 10.6 x 2.5 in.)
Minimum space for mounting: 210 x 350 x 110 mm (8.3 x 13.8 x 4.3 in.)
Shipping Weight
1.2 kg (2.7 lb)
Compliance
United States
UL Listed, File E107041, CCN PAZX, UL 916, Energy Management Equipment
FCC Compliant to CFR, Part 15, Subpart B, Class A
UL Listed, File S4977, UUKL, UL 864 Ninth Edition, Smoke Control System
Equipment
Canada
UL Listed, File E107041, CCN PAZX7, CAN/CSA C22.2 No. 205, Signal
Equipment
UL Listed, File S4977, CCN UUKLC, ORD-C100-13 Standard for Control Units for
Fire Alarm Systems
Industry Canada Compliant, ICES-003
Europe
CE Mark – Johnson Controls, Inc., declares that this product is in compliance with
the essential requirements and other relevant provisions of the
EMC Directive 2004/108/EC.
Australia and
New Zealand
C-Tick Mark, Australia/NZ Emissions Compliant
BACnet
International
BACnet Testing Laboratories™ (BTL) 135-2004 Listed BACnet Building Controller
(B-BC)
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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UL/ULC Label Placement
Figure 65: UL/ULC Label Placement for the MS-NAE4510-2U
UL/ULC Listing labels must be positioned as shown in Figure 65.
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Smoke Control NAE MS-NAE3510-2U
The Network Automation Engine (NAE) is a Web-enabled, Ethernet-based,
supervisory device that monitors and controls networks of field-level building
automation devices, HVAC equipment, lighting, and smoke control. Figure 66
shows a smoke control NAE3510-2U.
Use the Smoke Control NAE MS-NAE3510-2U to interface all input and output
smoke control points.
IMPORTANT: All smoke listed enclosures are ordered through Johnson
Controls. Device mounting is completed at the factory. Do not field-mount or
alter the mounting of any device installed in a Johnson Controls approved
smoke listed enclosure.
Field-mounting or altering the mounting of any device installed in a
Johnson Controls approved smoke listed enclosure voids the UL 864 9th Edition
UUKL/ORD-C100-13 UUKLC listing.
Figure 66: Smoke Control MS-NAE3510-2U
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Device Layout
MS-NAE3510-2U
The MS-NAE3510-2U is designed to control one field controller MS/TP FC Bus
trunk. The RJ-11, 6-Pin jack labeled FC BUS (Figure 67) is an FC bus service port.
See Figure 67 for the location of the power supply terminal, network terminals,
Universal Serial Bus (USB) port, and Ethernet port on the MS/TP NAE.
Figure 67: Smoke Control MS-NAE3510-2U Dimensions, mm/in.
Performance Guidelines and Limitations for Network Engines
Observe the performance guidelines and limitations listed in Table 39.
Table 39: Performance Guidelines and Limitations
109
Description
Supported
Comment
Maximum number of items
(objects) in one NAE55
4,341
Includes all points, extensions, graphics (background
image), trend study, and other objects (schedules and
interlock, for example).
Maximum number of items
(objects) in one NAE45/NAE35/
NCE25
2,271
Includes all points, extensions, graphics (background
image), trend study, and other objects (schedules and
interlock, for example).
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Wiring Considerations and Guidelines for Network Integrations
Table 40: Guidelines for MS/TP (FC Bus) Network Topology
Category
Rules/Maximums Allowed
General
One FC Bus per NAE35 and NAE45
Only daisy-chained devices
Number of FC Devices Supported
NAE45 models support up to 1,0011 devices on the FC Bus trunk with no more than
two repeaters between an NAE and any device and a maximum of 50 devices
between repeaters.
NAE35 models support up to 5011 devices on the FC Bus trunk with no more than
two repeaters between an NAE and any device and a maximum of 50 devices
between repeaters.
Cable Length and Type
1,500 m (5,000 ft) twisted pair cable without a repeater
4,500 m (15,000 ft) twisted pair cable from an NAE and the farthest FC device (three
segments of 1,500 m [5,000 ft] each, separated by repeaters)
2,000 m (6,600 ft) between two fiber media convertors
Cable Wire Type and Size
Solid or stranded 22 AWG recommended (24 AWG twisted pair or larger is
acceptable)
Terminations
Two FC Bus devices with EOL switches in the ON position, one at each end of each
FC Bus segment
1.
If TEC Thermostat Controllers or third-party devices are used on the FC Bus, the maximum total number of devices is 32
and the maximum length is 1,219 m (4,000 ft).
Table 41: NAE Ethernet Network Rules
Category
Rules/Maximums Allowed1
General
Point-to-point star topology with network hubs/switches
Number of Devices
Maximum of 200 supervisory devices may be connected to one site in the
Metasys system extended architecture.
Line Length and Type
2,000 m (6,600 ft) for plastic/glass fiber optic with external adapter
10/100 BaseT: 100 m (330 ft) CAT5 cable
1000 BaseT:2 100 m (330 ft) CAT5E cable
Terminations
For 10/100/1000 BaseT, no line terminators allowed
Transient Protection
A PNET1GB transient protector is required at each end of every Ethernet
connection
1.
2.
See Surge Protection Devices and Network Communications for more information.
MS-NAE5510-2U only.
Powering On the NAE35/45
After applying 24 VAC power, the NAE35/45 requires up to 2 minutes to start up
and become operational. See the LED Test Sequence at Startup section.
Startup is complete and the NAE35/45 is operational when the (green) RUN LED
is on steady and the (red) FAULT LED is off (Figure 69).
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Disconnecting Power from the NAE35/45
When 24 VAC supply power to an NAE35/45 is disconnected or lost, the
NAE35/45 is nonoperational, but the POWER LED (Figure 69) remains on and the
data protection battery continues to power the NAE35/45 for 1 to 5 minutes while
volatile data is backed up in nonvolatile memory. The RUN LED goes off when
data backup and shutdown are complete.
IMPORTANT: The data protection battery must be installed and charged
before disconnecting the 24 VAC supply power.
Setting the MS-NAE3510-2U’s End-of-Line Switch
MS/TP network devices at either end of an FC Bus must be set as network
terminated devices. The MS-NAE3510-2U has an End-of-Line (EOL) switch that
allows you to set the NAE as a network terminated device. The MS-NAE3510-2U
is shipped with the EOL switch in the factory default, ON (up) position
(Figure 68).
NAE45_EOL
1
Figure 68: FC Bus EOL Switch in the Factory Default ON (Up) Position
The MS-NAE3510-2U follows the same rules as other MS/TP terminated devices.
See MS/TP Field Communication Bus Repeater SMOKE-TRNKIT-1U Tranzorbs
for details.
Troubleshooting
LED Status Indicators
The Smoke Control NAE35 and NAE45 models have nine LEDs to indicate power
and network communication status. Figure 69 shows the LEDs and Table 42
describes the LED indications.
Figure 69: Smoke Control NAE35/45 FC Bus LED Designations
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LED Test Sequence at Startup
During startup, the NAE automatically initiates an LED test to verify the
operational status of the LEDs. Immediately after connecting supply power, the
following LED lighting sequence occurs:
1. The POWER, BAT FAULT, 10 LINK, FAULT, RUN, and PEER COM LEDs
turn on, indicating that the Operating System (OS) is booting up. (After
2 seconds, the LEDs may change states depending on site-specific network
activity.)
2. The BAT FAULT, PEER COM, and FAULT LEDs shut off. The RUN LED
flashes to indicate that the NAE35/45 software is loading.
3. The LEDs display the operational status of the NAE35/45. When the RUN
LED goes on steady, startup is complete, and the NAE35/45 is operational.
Note: The total time to start up the NAE depends on the size of the database and
can take several minutes.
Table 42: NAE35/45 LED Designations, Normal Status and Descriptions
112
LED Designation
Normal
Status
Descriptions/Other Conditions
POWER (Green)
On Steady
On Steady = Unit is getting power from either the battery or 24 VAC
power.
Off Steady = Unit is shut down.
ETHERNET (Green)
Flicker
Flicker = Data is transferring on the Ethernet connection. Ethernet traffic
is general traffic (may not be for the NAE).
Off Steady = No Ethernet traffic, probably indicates a dead Ethernet
network or bad Ethernet connection.
10/LINK (Green)
On Steady
On Steady = Ethernet connection is established at 10 Mbps.
100/LINK (Green)
On Steady
On Steady = Ethernet connection is established at 100 Mbps.
FC BUS (Green)
Flicker
Flicker = Normal communications; the FC Bus is transmitting and
receiving data. Flickers are generally in sync with data transmission, but
should not be used to indicate specific transmission times.
Off Steady = No field controllers are defined to FC Bus in the NAE.
PEER COM (Green)
Varies (see
next column)
Flicker = Data traffic between NAE devices. For an NAE that is not a Site
Director, this LED indicates regular heartbeat communications with the
Site Director. For a Site Director NAE, flashes are more frequent and
indicate heartbeat communications from all other NAE devices on the
site. For a single NAE on a network without an Application and Data
Server (ADS), there is no flicker.
RUN (Green)
On Steady
On Steady = NAE software is running.
On 1 second, Off 1 second = NAE software is in startup mode.
On 0.5 seconds, Off 0.5 seconds = NAE software is shutting down.
Off Steady = Operating system is shutting down or software is not
running.
BAT FAULT (Red)
Off Steady
On Steady = Battery defective. Flicker = Data Protection Battery is not
installed. Connect or install battery.
FAULT (Red)
Off Steady
On Steady = General Fault. Fault conditions are user configurable in
software. Preconfigured fault conditions include excessive Central
Processing Unit (CPU) flash or memory use, excessive Printed Wire
Board (PWB) temperature.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Specifications
Table 43: Smoke Control MS-NAE3510-2U Technical Specifications
Category
Specifications
Power Requirement
Dedicated nominal 24 VAC, Class 2 power supply (North America), at 60 Hz
Power Consumption
25 VA maximum
Ambient Operating
Conditions
0 to 49°C (32 to 120°F); 10 to 90% RH, 30°C (86°F) maximum dew point
Ambient Storage Conditions
-40 to 70°C (-40 to 158°F); 5 to 95% RH, 30°C (86°F) maximum dew point
Data Protection Battery
Supports data protection on power failure. Rechargeable NiMH battery: 3.6 VDC
500 mAh, with a typical life of 5 to 7 years at 21°C (70°F); Product Code Number:
MS-BAT1020-0
Processor
192 MHz Renesas® SH4 7760 RISC processor
Memory
128 MB Flash nonvolatile memory for operating system, configuration data, and
operations data storage and backup
128 MB Synchronous Dynamic Random Access Memory (SDRAM) for operations
data dynamic memory
Operating System
Microsoft® Windows® CE embedded
Network and Serial
Interfaces
One Ethernet port; 10/100 Mbps; 8-pin RJ-45 connector
One optically isolated RS-485 port; 9600 baud; with a pluggable and keyed
4-position terminal block
One RS-232-C serial ports, with standard 9-pin sub-D connectors, that support all
standard baud rates
(Only the models without an optional internal modem have a second serial port
that supports an optional, user-supplied external modem)
One USB serial port with standard USB connector
Options: One Telephone port for internal modem; up to 56 Kbps; 6-pin RJ-11
connector (Models with an optional internal modem have one RS-232-C serial port
only.)
Housing
Plastic housing material: ABS + polycarbonate UL94-5VB
Protection: IP20 (IEC 60529)
Dimensions
(Height x Width x Depth)
131 x 270 x 62 mm (5.2 x 10.6 x 2.5 in.)
Minimum space for mounting NAE35: 210 x 350 x 110 mm (8.3 x 13.8 x 4.3 in.)
Mounting
On flat surface with screws on three mounting clips or a single DIN rail
Compliance
United States
UL Listed, File E107041, CCN PAZX, UL 916, Energy Management Equipment
FCC Compliant to CFR, Part 15, Subpart B, Class A
UL Listed, File S4977, UUKL, UL 864 Ninth Edition, Smoke Control System
Equipment
Canada
UL Listed, File E107041, CCN PAZX7, CAN/CSA C22.2 No. 205, Signal
Equipment
UL Listed, File S4977, CCN UUKLC, ORD-C100-13 Standard for Control Units for
Fire Alarm Systems
Industry Canada Compliant, ICES-003
Europe
CE Mark – Johnson Controls, Inc., declares that this product is in compliance
with the essential requirements and other relevant provisions of the
EMC Directive 2004/108/EC.
Australia and
New Zealand
C-Tick Mark, Australia/NZ Emissions Compliant
Shipping Weight
113
1.2 kg (2.7 lb)
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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UL/ULC Label Placement
Figure 70: UL/ULC Label Placement for the MS-NAE3510-2U
UL/ULC Listing labels must be positioned as shown in Figure 70.
114
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Smoke Control NCE MS-NCE2560-0U
Use the Smoke Control NCE MS-NCE2560-0U to interface all input and output
smoke control points. The internal modem is not available on the smoke control
NCE.
IMPORTANT: All smoke listed enclosures are ordered through Johnson
Controls. Device mounting is completed at the factory. Do not field-mount or
alter the mounting of any device installed in a Johnson Controls approved
smoke listed enclosure.
Field-mounting or altering the mounting of any device installed in a
Johnson Controls approved smoke listed enclosure voids the UL 864 9th Edition
UUKL/ORD-C100-13 UUKLC listing.
Figure 71: Smoke Control MS-NCE2560-0U
115
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Device Layout
See Figure 72 for the location of the power supply terminal, network terminals,
Universal Serial Bus (USB) port, and Ethernet port on the NCE.
Field Controller (FC) Bus Jack and Service Port
The NCE is designed to control one field controller MS/TP FC Bus trunk. The
RJ-11, 6-Pin jack labeled FC BUS (Figure 64) is an FC bus service port.
Figure 72: Smoke Control MS-NCE2560-0U
NCE SA Bus
The NCE field controller supports one SA Bus and all NCE models have an SA
Bus terminal block and an RJ-style modular SA Bus port. The SA Bus supports up
to 128 I/O points.
NCE Input/Output Points
The NCE field controller includes 33 hard-wired I/O points, which can be
configured for multiple types of inputs or outputs (Figure 73 and Figure 74). Most
of the points are configured in the Controller Configuration Tool (CCT) software.
The Binary Outputs are configured by positioning two jumpers next to the output
terminal block.
116
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Each NCE model has:
•
10 Universal Inputs, each of which can be configured as either a Voltage
Analog Input (0–10 VDC), Current Analog Input (4–20 mA), Resistive Analog
Input, or a Dry-Contact Binary Input. See Figure 73.
•
8 Binary Inputs, each of which can be configured as either a Dry-Contact
Maintained Input or a Pulse Counter Mode Input (50 Hz at 50% Duty Cycle).
See Figure 73.
•
4 Analog Outputs, each of which can be configured as either a Voltage Analog
Output (0–10 VDC) or Current Analog Output (4–20 mA). See Figure 74.
•
7 Binary Outputs, each of which can be configured as either an internally
powered or externally powered 24 VAC Triac output. See Figure 74.
•
4 Configurable Outputs, each of which can be configured as either a Voltage
Analog Output (0–10 VDC) or a Binary Output (24 VAC Triac). See Figure 74.
FIG: NCE_INPOINTS
Universal Inputs can be defined as:
Voltage Analog Inputs (0-10 VDC)
Current Analog Inputs (4-20 mA)
Resistive Analog Inputs:
0-2k ohm
RTD: 1k Nickel, 1k Platinum, or A99B SI
NTC: 10k Type L or 2.225k Type 2
Dry Contact Binary Inputs
Binary Inputs can be defined as:
Dry Contact Maintained
Pulse Counter Mode (50 Hz at 50% Duty Cycle)
Front of NCE
ICOM
18
IN18
IN17
ICOM
17
ICOM
16
IN16
IN15
ICOM
15
IN14
IN13
ICOM
13
ICOM
12
IN12
IN11
ICOM
11
ICOM
14
BINARY
UNIVERSAL
Back of NCE (Flush to Mounting Surface)
Binary Output 2 jumpers positioned
for an Internal source of power.
FIG: NCE_OUTPOINTS
Figure 73: NCE Universal Input and Binary Input Terminal Blocks
Analog Outputs can be defined as:
Voltage Analog Outputs (0-10 VDC)
Current Analog Outputs (4-20 mA)
Binary Outputs are
24 VAC Triac Outputs
BINARY
CONFIGURABLE
ANALOG
HOT
COM
OUT15
OCOM15
OCOM14
OUT14
OUT13
OCOM13
OCOM12
OUT12
OUT11
OCOM11
OCOM10
OUT10
OUT9
OCOM9
OUT8
BO TYP
EXT INT
OCOM8
Back of NCE (Flush to Mounting Surface)
24V~
Front of NCE
Binary Output 4 jumpers positioned
for an External source of power.
Required jumper positions for setting
a Binary Output's power source.
24 VAC, Class 2 Supply Power
Terminal Block (Center terminal not used.)
Configurable Outputs can be defined as:
Voltage Analog Outputs (0-10 VDC)
Binary Outputs (24 VAC Triac)
Figure 74: NCE Output Terminal Blocks, Binary Output Jumpers, and Power Terminal Block
117
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Table 44: NCE Terminal Wiring (Part 1 of 3)
Terminal Block
Terminal
Label
Function and Electrical Ratings/
Requirements
Recommended
Cable Type
UNIVERSAL
(Inputs)
+15 V
15 VDC Power Source for active (3-wire) input
devices connected to the Universal INn terminals.
Provides 100 mA total current.
Same as Universal INn.
Note: Use 3-wire cable
for devices that
source power
from the +15 V
terminal.
INn
Analog Input – Voltage Mode (0–10 VDC)
10 VDC maximum input voltage
Internal 75k ohm Pulldown
Row A in Table 46
Analog Input – Current Mode (4–20 mA)
Internal 100 ohm load impedance
Row B in Table 46
Analog Input – Resistive Mode (0–600k ohm)
Internal 12 V, 15k ohm Pullup
Qualified Sensors: 0–2k ohm potentiometer
RTD (1k Nickel [Johnson Controls sensor], 1k
Platinum, A99B Silicon Temperature Sensor)
Negative Temperature Coefficient (NTC) Sensor
(10k Type L, 10k Johnson Controls Type II,
2.252k Type II)
Row A in Table 46
Binary Input – Dry Contact Maintained Mode
1.0 second minimum pulse width
(0.5 Hz at 50% duty cycle)
Internal 12 V, 15k ohm Pullup
Row A in Table 46
ICOMn
Universal Input Common for all Universal IN
terminals; isolated from all other terminal commons.
Note: All Universal ICOMn terminals share a
common that is isolated from all other
commons.
Same as Universal INn.
INn
Binary Input – Dry Contact Maintained Mode
0.01 second minimum pulse width
(50 Hz at 50% duty cycle)
Internal 18 V, 3k ohm Pullup
Row A in Table 46
BINARY
(Inputs)
Binary Input – Pulse Counter Mode
0.01 second minimum pulse width
(50 Hz at 50% duty cycle)
Internal 18 V, 3k ohm Pullup
ICOMn
118
Binary Input Common for all Binary Input (IN)
terminals.
Note: All Binary ICOMn terminals share a common
that is isolated from all other terminal
commons, except the Configurable Output
(CO) common (OCOMn) when the CO is
defined as an Analog Output (AO).
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Table 44: NCE Terminal Wiring (Part 2 of 3)
Terminal Block
Terminal
Label
Function and Electrical Ratings/
Requirements
Recommended
Cable Type
ANALOG
(Outputs)
OUTn
Analog Output – Voltage Mode (0–10 VDC)
10 VDC maximum output voltage
10 mA maximum output current
Requires an external load of 1,000 ohm or more
Note: The AO operates in Voltage Mode when
connected to devices with impedances greater
than 1,000 ohm. Devices that drop below
1,000 ohm may not operate as intended for
Voltage Mode applications.
Row A in Table 46
Analog Output – Current Mode (4–20 mA)
Requires an external load between 0–300 ohm.
Note: The AO operates in Current Mode when
connected to devices with impedances less
than 300 ohm. Devices that exceed 300 ohm
may not operate as intended for Current Mode
applications.
Row B in Table 46
OCOMn
Analog Output Signal Common for all Analog OUT
terminals.
Note: All Analog OCOMn terminals share a common
that is isolated from all other commons.
Same as Analog OUTn.
OUTn
Binary Output – 24 VAC Triac (External Power)
Connects OUTn to OCOMn when activated.
External Power Source:
24 VAC maximum output voltage
0.5 A maximum output current
Maximum 6 cycles/hour with M9220-BGx-3
40 mA minimum load current
Row C in Table 46
OCOMn
Binary Output Common (for OUTn terminal)
Note: Each Binary Output common terminal
(OCOMn) is isolated from all other commons,
including other Binary Output commons.
BINARY
(Outputs)
Power Selection
Jumper
Positioned to
External (EXT)
119
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Table 44: NCE Terminal Wiring (Part 3 of 3)
Terminal Block
Terminal
Label
Function and Electrical Ratings/
Requirements
Recommended
Cable Type
BINARY
(Outputs)
Power Selection
Jumper
Positioned to
Internal (INT)
OUTn
Binary Output – 24 VAC Triac (Internal Power)
Sources internal 24 VAC (24~ HOT)
Row C in Table 46
OCOMn
Binary Output – 24 VAC Triac (Internal Power)
Connects OCOMn to 24~ COM when activated
Internal Power Source:
24 VAC maximum voltage to load
0.5 A maximum output current
Maximum 6 cycles/hour with M9220-BGx-3
40 mA minimum load current
OUTn
Analog Output – Voltage Mode (0–10 VDC)
10 VDC maximum output voltage
10 mA maximum output current
Requires an external load of 1,000 ohm or more
Row A in Table 46
Binary Output – 24 VAC Triac
Connects OUT to OCOM when activated.
External Power Source:
24 VAC maximum voltage to load
0.5 A maximum output current
Maximum 6 cycles/hour with M9220-BGx-3
40 mA minimum load current
Row C in Table 46
Analog Output Signal Common: All Configurable
Outputs defined as Analog Outputs share a common
that is isolated from all other commons except the
Binary Input common.
Binary Output Signal Common: All Configurable
Outputs defined as Binary Outputs are isolated from
all other commons, including other Configurable
Output commons.
Same as Configurable
OUTn.
CONFIGURABLE
(Outputs)
OCOMn
Table 45: Communication Bus and Supply Power Terminal Blocks,
Functions, Ratings, Requirements, and Cables (Part 1 of 2)
Terminal
Block/Port
Label
Terminal
Labels
Function, Electrical Ratings/
Requirements
Recommended Cable
Type1
FC BUS2
+
-
FC Bus Communications
COM
Signal Reference (Common) for bus
communications
0.6 mm (22 AWG) stranded,
3-wire twisted, shielded
cable recommended
SHLD
Isolated terminal (optional shield drain
connection)
FC BUS2
(Port)
120
6-Position Modular Connector provides:
FC Bus Communications
FC Bus Signal Reference and 15 VDC Common
Wireless Commissioning
Converter retractable cable
or 24 AWG 3-pair CAT 3
Cable <30.5 m (100 ft)
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Table 45: Communication Bus and Supply Power Terminal Blocks,
Functions, Ratings, Requirements, and Cables (Part 2 of 2)
Terminal
Block/Port
Label
Terminal
Labels
Function, Electrical Ratings/
Requirements
Recommended Cable
Type1
SA BUS2
+
-
SA Bus Communications
COM
SA Bus Signal Reference and 15 VDC Common
SA PWR
15 VDC Supply Power for Devices on the SA Bus
(Maximum total current draw for SA Bus is
240 mA.)
0.6 mm (22 AWG) stranded,
4-wire (2 twisted pairs),
shielded cable
recommended.
Note: The + and- wires are
one twisted pair and
the COM and SA
PWR are the second
twisted pair of wires.
6-Position Modular Connector provides:
SA Bus Communications
SA Bus Signal Reference and 15 VDC Common
15 VDC Power for devices on the SA Bus
24 AWG 3-pair CAT 3 Cable
<30.5 m (100 ft)
HOT
24 VAC Power Supply – Hot
Supplies 24 VAC
0.8 mm to 1.5 mm2
(20 to 16 AWG) 2-wire
COM
24 VAC Power Supply Common
Isolated from all other Common terminals on
controller
SA BUS2
(Port)
24~
1.
2.
See Table 46 to determine wire size and cable lengths for cables other than the recommended cables.
The SA Bus and FC Bus wiring recommendations in this table are for MS/TP Bus communications at 38.4k baud.
For more information, refer to the MS/TP Communications Bus Technical Bulletin (LIT-12011034).
Table 46: Alternative Wire Gauge and Cable Length Guidelines
Guideline
A
B
C
121
Cable (Wire) Gauge
1.5 mm
2 (18
AWG)
Maximum Length
Assumptions
457.2 m (1,500 ft)
100 mV maximum voltage drop
Depending on the cable length and the
connected input or output device, you may
have to define an offset in the setup software
for the input or output point.
0.8 mm (20 AWG)
297.2 m (975 ft)
0.6 mm (22 AWG)
182.9 m (600 ft)
N/A (24 AWG)
106.7 m (350 ft)
1.5 mm
2 (18
AWG)
228.6 m (750 ft)
0.8 mm (20 AWG)
137.1 m (450 ft)
0.6 mm (22 AWG)
91.4 m (300 ft)
N/A (24 AWG)
61 m (200 ft)
See Table 61.
See Table 61.
100 mV maximum voltage drop
Depending on the cable length and the
connected input or output device, you may
have to define an offset in the setup software
for the input or output point.
N/A
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Specifications
Table 47: Smoke Control MS-NCE2560-0U Technical Specifications
(Part 1 of 2)
122
Category
Specifications
Power Requirement
Dedicated nominal 24 VAC, Class 2 power supply (North America), at 60 Hz
FC Bus: 5.25 VDC at 200 mA maximum, 82 ohm maximum line impedance
Power Consumption1
25 VA maximum
The 25 VA rating does not include any power supplied to devices connected at the
NCE BOs. BO devices connected to and powered by an NCE can require an
additional 125 VA (maximum).
Ambient Operating
Conditions
0–49°C (32–120°F); 10–90% RH, 30°C (86°F) maximum dew point
Ambient Storage
Conditions
-40–70°C (-40–158°F); 5–95% RH, 30°C (86°F) maximum dew point
Data Protection Battery
Supports data protection on power failure. Rechargeable NiMH battery: 3.6 VDC,
500 mAh, with a typical life of 5 to 7 years at 21°C (70°F);
Product Code Number: MS-BAT1020-0
Processor
192 MHz Renesas® SH4 7760 RISC processor
Memory
128 MB Flash nonvolatile memory for operating system, configuration data, and
operations data storage and backup
128 MB Synchronous Dynamic Random Access Memory (DRAM) for operations
data dynamic memory
Operating System
Microsoft® Windows® CE embedded
Network and Serial
Interfaces
One Ethernet port; 10/100 Mbps; 8-pin RJ-45 connector
One optically isolated RS-485 SA Bus port; 9600 baud; with a pluggable and keyed
4-position terminal block
One optically isolated RS-485 FC Bus port; 9600 baud; with a pluggable and keyed
4-position terminal block
One RS-232-C serial port, with standard 9-pin sub-D connectors, that supports
standard baud rates
One USB serial port with standard USB connector
Analog Input/Analog
Output Resolution and
Accuracy
Analog Input Points: 16-bit resolution
Analog Output Points: 16-bit resolution and ±200 mV accuracy on 0–10 VDC
applications
Dimensions
(Height x Width x Depth)
152 x 270 x 64 mm (6.1 x 10.6 x 2.5 in.)
Minimum space for mounting: 250 x 370 x 110 mm (9.8 x 14.6 x 4.3 in.)
Housing
Plastic housing
Plastic material: ABS + polycarbonate
Protection: IP20 (IEC 60529)
Mounting
On flat surface with screws on three mounting clips or single 35 mm DIN rail
Shipping Weight
1.2 kg (2.7 lb)
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Table 47: Smoke Control MS-NCE2560-0U Technical Specifications
(Part 2 of 2)
Category
Compliance
1.
123
Specifications
United
States
UL Listed, File E107041, CCN PAZX, UL 916, Energy Management Equipment
FCC Compliant to CFR, Part 15, Subpart B, Class A
UL Listed, File S4977, UUKL, UL 864 Ninth Edition, Smoke Control System
Equipment
Canada
UL Listed, File E107041, CCN PAZX7, CAN/CSA C22.2 No. 205, Signal Equipment
UL Listed, File S4977, CCN UUKLC, ORD-C100-13 Standard for Control Units for
Fire Alarm Systems
Industry Canada Compliant, ICES-003
Europe
CE Mark – Johnson Controls, Inc., declares that this product is in compliance with
the essential requirements and other relevant provisions of the
EMC Directive 2004/108/EC.
Australia and
New Zealand
C-Tick Mark, Australia/NZ Emissions Compliant
BACnet
International
BACnet Testing Laboratories™ (BTL) 135-2004 Listed BACnet Building Controller
(B-BC)
The MS-NCE2560-0U is power limited and supervised with trouble signal on the FSCS.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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UL/ULC Label Placement
Figure 75: UL/ULC Label Placement for the MS-NCE2560-0U
UL/ULC Listing labels must be positioned as shown in Figure 75.
124
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MS/TP Field Bus
Introduction
The BACnet® protocol MS/TP Communications Bus is a local network that
connects supervisory controllers and field controllers to field point interfaces.
This section describes the specifications, device limits, and rules of the MS/TP
Communications Bus. This section also describes how to wire and terminate
devices and troubleshoot the communications of devices on the MS/TP Bus.
This section helps you understand the rules, specifications, and MS/TP
configuration and installation.
Note: For all network graphics included in this section, the repeater depicted as R
is the UL/ULC Listed smoke control NU-RPT101-1U repeater.
MS/TP Bus Overview
The BACnet® protocol MS/TP Communications Bus is a high-baud RS-485
protocol network bus that connects Metasys NxEs to Metasys BACnet MS/TP
field controllers and control point interfaces (IOMs). The MS/TP Communications
Bus (Figure 76) supports two bus types/levels of buses:
125
•
a Field Controller (FC) Bus connects NxEs to MS/TP field equipment
controllers and IOMs
•
a Sensor Actuator (SA) Bus connects the MS/TP field equipment controllers to
IOMs, thermostat controllers, sensors, and other subordinate level network
devices
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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The FC Bus and the SA Bus are networks of daisy-chained devices. Each bus has
only one bus supervisor. The bus supervisor communicates with devices on the
supervised bus and with the next (higher level) bus on the network. The bus
supervisor typically starts the communication on the FC bus and SA Bus. If an
SA Bus or FC Bus does not have a bus supervisor, the device with the lowest
device address value on the bus starts the communication.
Figure 76: Example MS/TP Network
FC Bus Overview
The FC Bus connects Field Equipment Controllers (FECs), Variable Air Volume
Modular Assemblies (VMAs), Input/Output Modules (IOMs), and
TEC26xx Series Thermostat Controllers to a Metasys system Network
Automation Engine (NAE).
Note: FECs include field equipment controllers with both FEC and FEU product
code numbers. IOMs include input/output modules with both IOM and
IOU product code numbers.
On an FC Bus, the NAE is the bus supervisor and has a fixed device address of 0.
See Device Addresses on the MS/TP Bus.
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An FC Bus can be divided into up to three bus segments using network repeaters
(Figure 77). See FC Bus Rules and Specifications.
Figure 77: FC Bus with Three Bus Segments
SA Bus Overview
The SA Bus connects FECs and VMAs to point devices such as IOMs, network
thermostats, and network sensors to controllers on the FC Bus.
On an SA bus, an FEC or VMA is the bus supervisor and always has a fixed device
address of 0. See Device Addresses on the MS/TP Bus.
The SA Bus does not support bus segments (Figure 78). See Sensor Actuator (SA)
Bus Rules and Specifications for more information.
Figure 78: SA Bus Segment
127
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Baud Rates on the MS/TP Bus
An MS/TP bus can be configured to communicate at one of four different baud
rates. All devices on the MS/TP bus must communicate at the same baud rate.
The baud rate setting determines the rate at which devices communicate data over
the bus. The baud rate settings available on Metasys MS/TP devices are 9600,
19,200, 38,400, 76,800, and Auto.
We recommend setting all MS/TP bus supervisors to 38,400 baud.
In the Auto setting, the Metasys devices listen for the bus supervisor to
communicate first; the devices then automatically set their baud rate to the bus
supervisor’s baud rate. We recommend setting all field controllers on the FC Bus
(FECs, VMAs, and IOMs) to Auto.
TEC26xx Series thermostats automatically set their baud rate to the bus
supervisor’s baud rate. The baud rate setting on bus repeaters and third-party
MS/TP devices typically is configured manually at the device and the baud rate
setting must match the setting of the bus supervisor. Refer to the manufacturer’s
product documentation for information on setting the device’s baud rate.
The two device attributes related to the baud rate are Baud Rate Selection and
Active Baud Rate. The Baud Rate Selection attribute allows you to use the SCT
(for NAEs) or the CCT (for FECs, VMAs, and IOMs) to set the baud rate for the
device. The Active Baud Rate attribute allows you to view the baud rate at which
the device is communicating on the active bus when Auto baud is selected. For
more information on Metasys system attributes, refer to the Metasys system Help.
Higher baud rates require a limited range of wire gauge. There is a direct
relationship among the baud rate, wire gauge, and wire length that determines the
number of devices allowed on the bus. Higher baud rates support more devices, but
require small gauge wire (which provides lower capacitance). A lower baud rate
may be required in order to use existing, larger gauge wire (which has higher
capacitance), but may support fewer devices. We recommend 38,400 baud using
22 AWG stranded wire. This provides the best balance between performance and
installation sensitivity.
For more details on baud rate, wire gauge, wire length, and the number of devices
see MS/TP Bus Cable Recommendations.
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Device Addresses on the MS/TP Bus
Each device connection on an MS/TP Bus requires a device address to coordinate
communication on the bus. Each bus has a set of device addresses that is separate
and independent from the device addresses on all other buses. Devices connected
to both an FC Bus and SA Bus have two different device addresses, one for each
device connection.
In the MS/TP bus hierarchy, device connections on separate buses can have the
same device address. Every bus supervisor connection on an MS/TP bus, for
example, has a device address of 0 (zero), and the device address for the first
network sensor on many SA Buses is 199. Figure 79 shows an example of an
MS/TP bus and the device addresses for connections on the FC Bus and the SA
Buses.
Figure 79: Example MS/TP Bus Showing FC Bus and SA Bus Addresses
The NAE is the bus supervisor on an FC Bus. The FEC or VMA is the bus
supervisor on an SA Bus. Bus supervisors have a fixed device address of 0 (zero)
that cannot be changed (Figure 79). Depending on the model, a network sensor has
either a fixed address of 199 or can be assigned a switch-selectable address
between 200 and 203. Table 48 provides a list of the MS/TP device address values
and address value ranges for devices connected to an MS/TP bus.
Token-passing messages are sent from address to address in consecutive order;
therefore, any gaps in the device address range reduce bus performance while the
message negotiates the gap to find the next device address on the bus. Start with
the lowest device address value and use consecutive address values for optimal bus
performance. Table 48 lists the address ranges.
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Note: The devices on the bus do not need to be physically wired in sequential
order as long as there are no gaps in the address value range.
Table 48: Valid MS/TP Bus Address and Value Ranges
Address Value/
Address Range
Class
Examples
0
Bus Supervisor
NAE on the FC Bus
FEC and VMA on the SA Bus
1
Reserved
Wireless Commissioning Converter
2–3
Reserved
Reserved for future use.
4–127
Master Range
FEC/FEU, VMA, IOM, TEC26xx on the FC Bus
IOM on the SA Bus
128–254
Slave Range
Slave devices and network sensors on the SA Bus
198
Reserved
VAV Balancing Sensor (handheld)
199
Reserved
Most NS Series Network Sensor models or VAV Balancing
Sensor (wall-mounted)
200–203
Reserved
NS Series Network Sensors (specified models)
255
Broadcast
Do not apply address 255 to any device.
Setting a Device Address
For most (non-supervisory) devices on an FC Bus or SA Bus, the device address is
set using the DIP switches on the device’s ADDRESS DIP switch block. The DIP
switches are binary switch blocks, and each switch represents a binary numerical
value when the switch is in the ON position.
The device address set on the ADDRESS DIP switch block applies to only the bus
where the device is not the bus supervisor. For example, the DIP switches on an
FEC set the FC Bus address. If the FEC also supervises an SA Bus, the FEC’s
SA Bus address is 0 by default (Figure 79). The switches on the IOM set the
address of the FC Bus or SA Bus depending on the bus on which the IOM is
located.
As you set the device address, the best practice is to set the highest switch value
first, then the next highest switch value, and so on, until the total of the switch
values equal the intended device address. For example, to set a device address for a
device on an SA Bus to 227, position switch 128 to ON first, then 64, 32, 2, and 1.
Positioning switches 16, 4, and 1 to ON (as shown in Figure 80) sets the device
address to 21 for a device on the FC Bus.
Figure 80: Setting the Device Address
on the ADDRESS DIP Switch Block
Note: Devices may go offline momentarily when a device address is changed on
an active bus, but the bus devices and bus supervisor do not need to be reset
after changing a device address.
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Some devices, such as the TEC26xx Series Thermostat Controllers and third-party
MS/TP devices, use their own configuration settings to establish the device
address on the bus. Refer to the device manufacturer’s product documentation for
instructions on setting the device address. The device address values for TEC26xx
Series Thermostat Controllers and all third-party devices must comply with the
rules and ranges described previously.
End-of-Line Termination on the MS/TP Bus
Daisy-chained RS485-protocol networks typically require some type of
End-of-Line (EOL) termination to reduce interference caused by signal reflection
that occurs when data transmissions reach the end of a bus segment and bounce
back on the segment. The high baud rates on MS/TP bus applications require
robust EOL termination and strict adherence to the EOL termination rules.
Figure 81 shows an example of the EOL termination settings on an MS/TP bus
application.
Figure 81: EOL Termination on an MS/TP Bus
The EOL termination requirements for FC Buses are different from the SA Bus
requirements. See Sensor Actuator (SA) Bus Rules and Specifications and EOL
Termination on the SA Bus for more information on terminating the MS/TP bus.
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End-of-Line Termination Switch Locations
EOL termination on the FC Bus is enabled with a switch on the MS/TP device
(Figure 82). EOL termination on the SA Bus is fixed On on the MS/TP device.
Figure 82: EOL Switch
FC and SA Bus Device EOL Switch Details
MS/TP NxEs connect only to FC Buses. FECs and VMAs can connect to an FC
Bus and an SA Bus simultaneously. The EOL switches on NxEs, FECs, and VMAs
enable EOL termination on the FC Bus only.
Smoke Control MS-NAE5510-xU models have two FC Bus ports and EOL
switches, and each EOL switch is double-pole.
Smoke Control MS-NAE3510-2U and MS-NAE4510-2U models have one
FC Bus port and one double-pole EOL switch.
Note: The FECs and VMAs do not have EOL switches for the SA Bus, and these
controllers are always SA Bus EOL termination devices (EOL fixed ON).
IOMs connect to either an FC Bus or SA Bus. IOMs cannot simultaneously
connect to the FC Bus and SA Bus. The EOL switch on IOMs enables an IOM as
an EOL termination device on either an FC Bus or an SA Bus.
IMPORTANT: The TEC Series Thermostat Controllers cannot be used as
End-of-Line (EOL) devices. You can use the MS-BACEOL-0 RS-485 EOL
Terminator to provide EOL termination on Metasys® RS-485 protocol FC
segments when the terminating field device does not have integral EOL
termination capability.
EOL Termination on the FC Bus
An MS/TP FC Bus may consist of up to three bus segments. Each bus segment on
an FC Bus requires two EOL termination devices, one at each end of the bus
segment. All other devices on the FC Bus should have their EOL termination
disabled (EOL switches OFF). See Figure 77.
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FC Bus EOL Termination Scenarios
The FC Bus requires EOL terminations on the devices at the end of each bus
segment on the FC Bus. Figure 83 shows examples of FC Bus EOL termination in
four different FC Bus scenarios.
Figure 83: FC Bus Termination Scenarios
Note: Set the EOL termination switch on a repeater to ON only when the repeater
terminates a bus segment at the repeater. See Scenario 4 in Figure 83.
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EOL Termination on the SA Bus
An SA Bus is a single-segment bus only. NxEs, FECs, or VMAs are always EOL
termination devices on an SA Bus (EOL fixed ON). The EOL termination on an
IOM is enabled by positioning the IOM EOL switch to ON.
Since an SA Bus is always connected to a supervisory/master controller (FEC and
VMA) or an IOM, an SA Bus always meets the acceptable EOL termination
requirements. For enhanced bus performance, it is preferable to have EOL
termination enabled on the devices at each end of the SA Bus. Figure 84 shows SA
Bus EOL termination scenarios.
Figure 84: SA Bus Termination Scenarios
Note: The MS-BACEOL-0 RS-485 End-of-Line Terminator module is not
designed for use on the SA bus.
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SA Buses with Multiple Network Sensors
The SA Bus supports up to four network sensors. Figure 85 shows an example of
two SA Buses, each with four network sensors. To place multiple network sensors
on the bus, three of the four network sensors must be switch addressable model
NS-ATN7003-0 or NS-BTN7003-0.
Figure 85: SA Bus Example Showing Multiple Networks Sensors
Terminating FC Devices That Do Not Have Integral EOL Termination
Capability
MS-BACEOL-0 EOL Terminator Module
The non-smoke control listed MS-BACEOL-0 RS-485 EOL terminator provides
EOL termination on FC Bus segments when the terminating device does not have
integral EOL termination capability.
The EOL terminator module is a compact, lightweight module wrapped in a
protective cover that can be quickly installed in the field in a variety of ways. The
EOL connects directly to the terminating device on a bus segment with the
attached wire leads. The EOL requires 24 VAC, Class 2 power supplied by the
field device or other 24 VAC source.
An EOL is required in all Metasys MS/TP applications wherever a terminating
third-party device that does not have integral EOL termination (for example,
TEC26xx Series thermostats) is on an isolated non-smoke FC Bus segment.
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The EOL terminator is designed for Metasys RS-485 buses.
Figure 86: MS-BACEOL-0 FC Bus EOL Terminator to Provide End-of-Line Termination on an FC Bus
IMPORTANT: When you use a third-party device, place a repeater before it.
Third-party devices require an EOL terminator module at the beginning of the
bus. You also must set the EOL switch on the A and B side of the repeater to
EOL. Ensure the last third-party device on the bus has a terminator module. In
addition, a SMOKE-TRNKIT-1U tranzorb must be installed on the repeater’s
TB1 and TB2 terminals.
Note: Disable the integral EOL termination on the third-party device if the EOL
terminator is connected to a third-party device that has integral EOL
termination.
Figure 87: EOL Terminator Connected to a TEC2600 Series
Thermostat Controller to Provide End-of-Line Termination on an FC Bus
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Wiring the MS-BACEOL-0 EOL Terminator Module
!
CAUTION: Risk of Electric Shock
Disconnect the power supply before making electrical connections to
avoid electric shock.
IMPORTANT: Do not connect 24 VAC supply power to the EOL Terminator
before wiring is complete.
IMPORTANT: Use copper conductors only. Ensure all wiring is in accordance
with local, national, and regional regulations.
IMPORTANT: The EOL Terminator is a low-voltage (<30 VAC) device. Do
not exceed the EOL Terminator electrical ratings.
IMPORTANT: Electrostatic discharge can damage controller components. Use
proper electrostatic discharge precautions during installation, setup, and service
to avoid damaging the controller.
Observe the following guidelines when wiring the EOL terminator:
•
The EOL terminator is designed for MS/TP trunks on Metasys RS-485 Buses.
Connect the EOL terminator to only MS/TP trunks on Metasys RS-485 FC
Buses.
•
Connect the EOL terminator to MS/TP devices that terminate Metasys bus
segments and do not have integral EOL termination capability.
•
When a third-party device terminates a Metasys FC Bus segment, it is
recommended that any EOL termination on the third-party be disabled and an
EOL terminator be installed to provide EOL termination on the bus segment.
•
When the third-party (terminating) device has only the + and - terminals (no
REF or COM), isolate and insulate the blue REF lead on the EOL (Figure 88).
Connect the EOL FC Bus leads to the appropriate FC Bus terminals on the bus
terminating device (Figure 88).
Connect the EOL 24 VAC power supply leads to a dedicated or surged protected
24 VAC, Class 2 power supply (Figure 88).
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Figure 88: Wiring the MS-BACEOL-0 EOL Terminator to a Bus-Terminating Device
to Provide End-of-Line Termination on an FC Bus
Mounting the MS-BACEOL-0 EOL Terminator Module in Plenum
Applications
IMPORTANT: Before installing the MS-BACEOL-0 RS-485 EOL Terminator in plenum
applications, verify acceptance of exposed plastic materials in plenum areas with the local
building authority. Building codes for plenum requirements vary by location. Some local
building authorities accept compliance to UL 1995, Heating and Cooling Equipment. Check
with the local building authority for local building codes.
Troubleshooting the MS-BACEOL-0 EOL Terminator Module
An improperly wired or malfunctioning EOL terminator may result in loss of
network communication or poor performance on the RS-485 bus.
To troubleshoot the EOL terminator:
1. Check the supply voltage to the EOL to ensure that the voltage is between 18
and 30 VAC:
138
•
If the supply voltage is between 18 and 30 VAC, proceed to Step 2.
•
If the voltage is less than 18 or greater than 30 VAC, troubleshoot the
supply power source and bring the supply voltage into the required range,
then proceed to Step 2.
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2. With the EOL connected to 24 VAC power and the FC Bus leads disconnected,
check the voltage drop between the REF and FC+ leads and between the REF
and FC- leads:
•
REF to FC+ should be 2.7 to 3.2 VDC
•
REF to FC- should be 2.3 to 2.7 VDC
If the EOL voltages are within these ranges, the EOL is operating properly and is
not a source of communication or performance problems on the bus.
If the EOL voltages are out of either of these ranges, replace the EOL terminator.
3. Reconnect a properly operating EOL terminator to the 24 VAC, Class 2
(network) power source.
If network communication or performance problems persist, continue
troubleshooting the RS-485 bus.
Specifications
Table 49: MS-BACEOL-0 Specifications
Category
Specifications
Product Code
MS-BACEOL-0 RS-485 End-of-Line Terminator
Power Requirements
24 VAC, 1.2 VA Maximum
Wiring Terminations and
Network Interfaces
Power: Two 200 mm (8 in.) 22 AWG wire leads for 24 VAC supply power connections
Network: Three 200 mm (8 in.) 22 AWG wire leads for RS-485 Bus connections
Ambient Operating
Temperature
32 to 120°F (0 to 49°C)
Ambient Operating
Humidity
10 to 93% RH, noncondensing
Dimensions
70 x 38 x 10 mm (2-3/4 x 1-1/2 x 3/8 in.) with five 20 cm (8 in.) 20 AWG wire leads
Shipping Weight
40.0 g (1.4 oz)
Compliance
United States: UL Listed, File E107041, CCN PAZX, UL 916, Energy Management
Equipment
FCC Compliant to CFR, Part 15, Subpart B, Class A
UL Listed, File S4977, UUKL, UL 864 Ninth Edition, Smoke Control System
Equipment
Canada: UL Listed, File E107041, CCN PAZX7, CAN/CSA C22.2 No. 205, Signal
Equipment. Industry Canada Compliant, ICES-003
CE Mark – Johnson Controls, Inc., declares that this product is in compliance with the
essential requirements and other relevant provisions of the
EMC Directive 2004/108/EC.
Australia and New Zealand: C-Tick Mark, Australia/New Zealand Emissions
Compliant
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FC Bus Rules When Using TEC26xx Series Thermostat Controllers and
Third-Party MS/TP Devices
If TEC26xx Series Thermostat Controllers and/or third-party BACnet MS/TP
devices are connected on an FC Bus, then they must be isolated from the MS/TP
bus using an NU-RPT101-1U repeater.
When a TEC26xx Series Thermostat Controller terminates an isolated FC Bus
segment, an EOL Terminator module (MS-BACEOL-0) must be wired to the FC
Bus terminals on the TEC26xx Series Thermostat Controller. See Terminating FC
Devices That Do Not Have Integral EOL Termination Capability for more
information.
If one or more TEC26xx Series Thermostat Controllers and/or third-party BACnet
MS/TP devices are connected on an isolated FC Bus, the supported maximum
device counts, bus segments, and bus length are:
•
64 devices total per FC Bus (maximum)
•
3 bus segments per FC Bus (maximum)
•
32 devices per bus segment (maximum, not to exceed 64 devices total on FC
Bus)
•
1,220 m (4,000 ft) maximum per bus segment (using 22 AWG stranded, 3-wire
twisted, shielded cable)
•
3,660 m (12,000 ft) maximum per FC Bus (using 22 AWG stranded, 3-wire
twisted, shielded cable)
•
MS/TP Required Transient Protection
MS/TP Required Transient Protection
FC Communication Bus
See MS/TP Field Communication Bus and Field Controller I/O Transient
Protection.
SA Communication Bus
See MS/TP Field Communication Bus and Field Controller I/O Transient
Protection.
Field Controller I/O Terminals
See MS/TP Field Controller I/O Transient Protection.
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FC Bus Rules and Specifications
The FC Bus connects field controllers to an NxE. Table 50 and Table 51 provide
FC Bus rules and specifications.
Table 50: FC Bus Rules
Category
Rules/Limits
General
NAE55 Series models support up to two FC Buses.
NCE25, NAE35, and NAE45 Series models support one FC Bus.
Only daisy-chained connections (no T or Star topology configurations)
Number of Devices
An FC Bus supports up to 100 Metasys devices and up to three bus
segments.
When TEC26xx Series thermostats and/or third-party MS/TP controllers are
connected on the FC Bus, the FC Bus supports only up to 64 devices.
A bus segment on an FC Bus supports up to 50 Metasys devices (but the
total number of Metasys devices on the FC Bus cannot exceed 100).
When TEC26xx Series thermostat controllers and/or third-party MS/TP
controllers are connected on the bus segment, the bus segment supports only
up to 32 devices per bus segment and the FC Bus supports a maximum of 64
devices.
Up to two cascaded repeaters may be applied to an FC Bus.
Cable Length and Type
1,520 m (5,000 ft)2 maximum separation between any devices on a bus
segment. Repeaters are used to connect bus segments.
4,570 m (15,000 ft)2 between any devices on a bus (up to three segments of
1,520 m [5,000 ft] each using cascaded repeaters). See Figure 77 on page 127.
When TEC26xx Series thermostats and/or third-party MS/TP controllers are
connected on the FC Bus:
Each bus segment may be up to 1,220 m (4,000 ft) in length (using 22 AWG
3-wire twisted, shielded cable).
The FC Bus may be up to 3,660 m (12,000 ft) in length (using 22 AWG 3-wire
twisted, shielded cable).
Recommended
Cable Type1
22 AWG Stranded, 3-Wire Twisted, Shielded Cable
EOL Termination
The EOL switch must be set to On (or an EOL terminator installed) on the two
devices located at either end of each bus segment on an FC Bus.
The EOL switches must be set to Off (or EOL termination disabled) for all other
devices on the FC Bus segment. See Sensor Actuator (SA) Bus Rules and
Specifications for more information.
EOL Termination Method
Integral EOL Termination switch or add-on EOL Terminator module
(See Sensor Actuator (SA) Bus Rules and Specifications on page 143 and
Terminating FC Devices That Do Not Have Integral EOL Termination Capability
for more information.)
FC Bus Communication Wiring
Transient Protection
Requires an SMK-MOVKIT-MSTP for all FC Bus communication terminal
wiring. See SMK-MOVKIT-MSTP for details.
FC Bus I/O Terminals Transient
Protection
Requires SMOKE-MOVKIT-0U between all FC Bus I/O terminals
(Power terminals, I/O Common terminals, I/O terminals, and earth ground).
See SMOKE-TRNKIT-1U and a Single Tranzorb for details.
Connecting TEC26xx Series
thermostats and/or third-party
MS/TP controllers
When TEC26xx Series thermostat controllers and/or third-party MS/TP
controllers are connected on the FC bus segment, an NU-RPT101-1U repeater
is required to isolate the FC Bus. See MS/TP Field Communication Bus
Repeater SMOKE-TRNKIT-1U Tranzorbs for more information.
1.
2.
141
The recommended cable type provides the best bus performance. See MS/TP Bus Cable Recommendations for
more information on alternative cable types.
If third-party devices are connected to the bus, the cable lengths should be reduced if necessary to match the
third-party vendor recommendations.
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Table 51: FC Bus Specifications
142
Category
Specification
Error Checking
Message headers checked using 8-bit CRC test. Message data checked using
16-bit CRC test.
Device Addressing
0–255 (See Device Addresses on the MS/TP Bus for more information.)
Data Transmission Standard
RS485
Signaling Method
BACnet MS/TP
Signaling Rate
9,600, 19,200, 38,400, or 76,800 baud as selected by bus supervisor
Transient Immunity
Meets ENG1000-4 Requirements for heavy industrial applications. Protected
against misapplication of 24 VAC.
EOL Termination Method
Integral EOL Termination switch or add-on EOL Terminator module
(See Sensor Actuator (SA) Bus Rules and Specifications on page 143 and
Terminating FC Devices That Do Not Have Integral EOL Termination Capability
for more information.)
Shield Grounding
One (only) hard ground connection per bus segment with shielded cable.
Physical Configuration
Daisy-chained
Optional Vendor Components
Repeaters
• NU-RPT101-1U (Acromag 4683-TTM-1F [120 VAC])
Note: A repeater is required to support more than 50 devices per trunk
segment and/ or trunk cable segments longer than 1,524 m (5,000 ft.).
MS-BACEOL-0 RS485 End-of-Line Terminator
• provides EOL termination on Metasys® RS485 protocol Field Controller
(FC) Bus segments when the terminating field device does not have integral
EOL termination capability.
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Sensor Actuator (SA) Bus Rules and Specifications
The SA Bus connects input/output point controllers and network sensors to
field controllers. Table 52 and Table 53 provide SA Bus rules and
specifications.
Table 52: SA Bus Rules
Category
Rules/Limits
General
Each bus supervisor supports one SA Bus and each SA Bus supports one segment.
Number of Devices
Supported on the Bus
An SA Bus supports up to 10 devices.
Note: An SA Bus supports only up to four Network Sensors (due to bus address and
power limits).
SA Buses do not support repeaters.
Cable Length
366 m (1,200 ft) maximum separation between any devices on the bus
152 m (500 ft) maximum distance between network sensor and the controller supplying
power (FEC, VMA) using screw terminal blocks
30 m (100 ft) maximum length for network sensors using the modular jack
366 m (1,200 ft) maximum Bus Length
Recommended
Cable Type1
Screw Terminal Connections: 22 AWG Stranded 4-wire, 2-Twisted Pairs, Shielded
Cable for screw terminals
Modular Jack Connections: 6-Pin RJ-Style Modular Connectors with 24 or 26 AWG
Stranded 6-Wire, 3-Twisted Pairs
EOL Termination
Each SA Bus supervisor has integral EOL termination, which typically provides sufficient
EOL termination on an SA Bus. Long SA Bus runs or persistent communication
problems on an SA Bus may require EOL termination at the last device on the SA Bus
(in addition to the integral EOL termination at the SA Bus supervisor).
EOL Termination
Method
Integral EOL Termination switch or add-on EOL Terminator module
(See Sensor Actuator (SA) Bus Rules and Specifications and Terminating FC Devices
That Do Not Have Integral EOL Termination Capability for more information.)
SA Bus
Communication Wiring
Transient Protection
Requires an SMK-MOVKIT-MSTP for all FC Bus communication terminal wiring. See SA
Communication Bus for details.
SA Bus I/O Terminals
Transient Protection
Requires SMOKE-MOVKIT-0U between all SA Bus I/O terminals
(Power terminals, I/O Common terminals, I/O terminals, and earth ground).
See MS/TP Required Transient Protection for details.
1.
The recommended cable types provide the best bus performance. See MS/TP Bus Cable Recommendations on
page 148 for information on alternative cable types.
Table 53: SA Bus Specifications
143
Category
Specification
Error Checking
Message headers checked using 8-bit CRC test.
Message data checked using 16-bit CRC test.
Device Addressing
0–255 (See Device Addresses on the MS/TP Bus for more information.)
Data Transmission
Standard
RS-485
Signaling Method
BACnet MS/TP
Signaling Rate
9,600, 19,200, 38,400 (default), or 76,800 baud as selected by the bus supervisor
Transient Immunity
Meets ENG1000-4 Requirements for heavy industrial applications. Protected
against misapplication of 24 VAC.
Shield Grounding
One hard ground per bus when using shielded cable
Physical Configuration
Daisy-chained (screw terminal only).
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NU-RPT101-1U RS-485-to-RS-485 MS/TP Repeater
The repeater must be factory-installed in a UL 864 9th Edition UUKL/ORD-C10013 UUKLC Listed enclosure. See Enclosures and Accessories. The repeater
provides isolation on the FC Bus end of a smoke control system. Input and output
wiring is supervised and power-limited. The repeater has non-power-limited
wiring for the input power source.
The NU-RPT101-1U repeater serves two purposes:
•
Isolate Smoke Control equipment from Non-Smoke Control equipment.
•
Extend the physical length of the FC Bus on a single Smoke Control FC Bus.
Figure 89: NU-RPT101-1U RS-485-to-RS-485 Repeater
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Setting EOL for the Repeater
Figure 90 show the EOL jumper locations for the NU-RPT101-1U repeater.
Table 54 shows the EOL jumper settings.
Figure 90: NU-RPT101-1U RS-485-to-RS-485 Repeater EOL Termination
Table 54: EOL Repeater Setting
Side
Jumper
If Repeater
Side A
J1 and J2
At end-of-line, install both jumpers over Pins 1 and 2 (EOL In).
Not at end-of-line, install both jumpers over Pins 2 and 3 (EOL Out).
Side B
J3 and J4
At end-of-line, install both jumpers over Pins 1 and 2 (EOL In).
Not at end-of-line, install both jumpers over Pins 2 and 3 (EOL Out).
Wiring
Communication Bus and Transient Protection
See MS/TP Field Communication Bus Repeater SMOKE-TRNKIT-1U Tranzorbs
for transient protection and field bus wiring details.
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Specifications
Table 55: Physical Specifications
Category
Specifications
Operating Temperature
Range
0 to 49°C (32 to 120°F)
Relative Humidity (RH)
10 to 93% RH, Noncondensing
Power
120 VAC, 60 Hz, 0.2A
Power Line Fuse
0.5 A, 250 V, 3AG type
Power Wire AWG
2 to 18 AWG (without terminal lugs);
14 to 18 AWG (with terminal lugs)
Power Wire Length
Less than 32 feet (10 meters) length
Isolation
The network repeater provides galvanic and opto-coupler isolation between RS-485(A),
RS-485(B), AC power, and chassis ground. Common mode voltages are permitted up to
250 V rms or 354 VDC (withstands a 1,500 VAC dielectric strength test for 1 min. without
breakdown) on a continuous basis. Complies with test requirements outlined in ANSI
C39.5-1974 for voltage ratings specified.
RFI Resistance
Withstands an RFI field strength of 10 V per meter at 27 MHz, 151 MHz, and 467 MHz
with no digital effect, per SAMA PMC 33.1 test procedures.
Line Noise Effects
Field and power line terminals withstand ANSI/IEEE C37.90-1978 Surge Withstanding
Capability (SWC) Test with no component failures.
Unit is tested to a standardized test waveform that is representative of surges (highfrequency transient electrical interference), observed in actual installations.
Communications
Connections
Network repeater - both RS-485 conn. use modular terminal blocks with screw clamps.
Wire range 14 to 26 AWG, CSA approval.
Power Wire
Connections
Network repeater term. block.
Approvals
UL Listed, CSA Certified file LR25710.
Dimensions (L x W x D)
7 x 4.3 x 2.1 in (17.8 x 10.3 x 5.3 cm)
Weight
3.0 pounds (1.4 kg) packed per unit.
Table 56: Communication Specifications
146
Category
Specifications
Baud Rates
Switch settings on unit for 600, 1200, 2400, 4800, 9600, 19.2K, 38.4K, and 76.8K baud
rates. Switch must be in the proper baud rate position for proper operation.
RS-485 Bus Loading
One unit load equivalent.
RS-485 Bus Drive
Complete RS-485 compliance for up to 32 unit loads (31 unit loads if a repeater is
used).
End-of-Line
Termination Network
The EOLN termination network is enabled for the A side or B side when the associated
pair of jumpers are positioned over pins 1 and 2. Conversely, the EOLN is disabled (out
of the circuit) when the pair jumpers are positioned over pins 2 and 3.
The EOLN termination network is individually selected on both the A and B sides by a
pair of shorting clips. The A-side is controlled by jumper pair J1, J2 and the B-side is
controlled by jumper pair J3 and J4
Duplex
Half-duplex only
Data Format
Ten bits typical (1 start bit, 8 data bits, and 1 stop bit). Other formats are supported.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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UL/ULC Label Placement
UL/ULC Listing labels must be positioned as shown in Figure 91.
Figure 91: Acromag Repeater UL/ULC Label Placement
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MS/TP Bus Cable Recommendations
Table 57 provides cable recommendations for MS/TP applications. The
recommended FC Bus and SA Bus cables are available from Belden CDT Inc. and
Anixter Inc.
Note: For the best performance on MS/TP bus applications, 22 AWG stranded
wire in a shielded cable with proper cable shield grounding is
recommended. Other wire gauges and non-shielded cable may provide
acceptable bus performance in many applications, especially applications
that have short cable runs and low ambient inductive noise levels. See
Table 57 and Table 58 for more information.
Table 57: Recommended Cable for FC Buses and SA Buses
Bus and Cable Type
Non-Plenum Applications
Plenum Applications
Part Number
O.D.
Part Number
O.D.
FC Bus: 22 AWG Stranded,
3-Wire Twisted Shielded Cable1
Anixter:
CBL-22/3-FC-PVC
Belden®: B5501FE
0.138 in.
Anixter: CBL-22/3-FC-PVC
Belden: B6501FE
0.140 in.
SA Bus (Terminal Block):
22 AWG Stranded, 4-Wire,
2 Twisted-Pair Shielded Cable1
Anixter:
CBL-22/2P-SA-PVC
Belden: B5541FE
0.209 in.
Anixter: CBL-22/2P-SA-PLN
Belden: B6541FE
0.206 in.
SA Bus (Modular Jack)2:
26 AWG Stranded 6-Wire,
3 Twisted-Pair Cable
—
—
Anixter Inc. pre-assembled:
CBL-NETWORK25
CBL-NETWORK50
CBL-NETWORK75
CBL-NETWORK100
0.15 in.
FC Bus: 22 AWG Stranded,
3-Wire Twisted Non-Shielded
Cable
Belden: B5501UE
0.135 in.
Belden: B6501UE
0.131 in.
SA Bus (Terminal Block):
22 AWG Stranded, 4-Wire,
2 Twisted-Pair Non-Shielded
Cable
Belden: B5541UE
0.206 in.
Belden: B6541UE
0.199 in.
Recommended
1.
2.
148
Acceptable
A 3-wire (for FC Bus) and 4-wire, 2 twisted-pair (for SA Bus), 22 AWG stranded, shielded cable is strongly
recommended. A 22-gauge cable offers the best performance for various baud rates, cable distances and
number of trunk devices primarily due to lower conductor-to-conductor capacitance. Shielded cable offers
better overall electrical noise immunity than non-shielded cable. Observe the shield grounding requirements.
A 26 AWG stranded, 6-wire, (3 twisted pairs) cable is recommended as the best fit for fabricating modular
cables with the modular jack housing assembly. Be sure the cable you use fits the modular jack housing. The
pre-assembled cables that are available from Anixter (Part No. CBL-NETWORKxxx) use 24-gauge wire.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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MS/TP buses cannot support the same number of devices at every baud rate and
wire gauge. See Table 58. We recommend operating the MS/TP bus at 38,400
baud.
Table 58: FC Bus Wire Gauge vs. FC Bus Baud Rate
AWG
Wire
Gauge
Maximum Cable
Length and Node
Connections Limit
18
Maximum Cable
Length per Bus
Segment (ft [m])
Maximum Number of
Nodes [per Segment /
per FC Bus]
20
Maximum Cable
Length per Bus
Segment [m (ft)]
Maximum Number of
Nodes [per Segment /
per FC Bus]
22
Maximum Cable
Length per Bus
Segment [m (ft)]
Maximum Number of
Nodes [per Segment /
per FC Bus]
24
Maximum Cable
Length per Bus
Segment [m (ft)]
Maximum Number of
Nodes [per Segment /
per FC Bus]
26
Maximum Cable
Length per Bus
Segment [m (ft)]
Maximum Number of
Nodes [per Segment /
per FC Bus]
Best
1.
2.
149
Acceptable
Baud Rate
1
1
38,4002
76,800
9600
19,200
1,524 (5,000)
1,524 (5,000)
1,524
(5,000)
1,219
(4,000)
1,524
(5,000)
305
(1000)
25/25
50/50
40/100
50/100
10/30
50/100
1,524 (5,000)
1,524 (5,000)
1,524 (5,000)
1,524
(5,000)
1,219
(4,000)
25/25
50/50
50/100
40/100
50/100
1,524 (5,000)
1,524 (5,000)
1,524 (5,000)
1,524 (5,000)
25/25
50/50
50/100
50/100
1,524 (5,000)
1,524 (5,000)
1,524 (5,000)
1,524 (5,000)
25/25
50/50
50/100
50/100
1,524 (5,000)
1,524 (5,000)
1,524 (5,000)
1,524 (5,000)
25/25
50/50
50/100
50/100
Acceptable with Possible Restrictions
Not Recommended
The maximum number of devices is reduced at lower baud rates due to increased token loop times.
A 3 conductor (FC Bus), 22 AWG stranded, shielded cable is recommended. A 22-gauge cable offers the best
performance for various baud rates, cable distances, and number of trunk devices primarily due to lower
conductor-to-conductor capacitance. Shielded cable offers better overall electrical noise immunity than
non-shielded cable.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Wiring the MS/TP Bus
!
!
CAUTION: Risk of Property Damage.
Do not apply power to the system before checking all wiring
connections. Short circuited or improperly connected wires may
result in permanent damage to the equipment
CAUTION: Risk of Property Damage.
Do not run low voltage cable in the same conduit or wiring troughs
with high voltage wires. Running low and high voltage wires in the
same conduit or wiring troughs may damage the equipment or cause
system malfunction.
IMPORTANT: Use copper conductors only. Make all wiring in accordance
with local, national, and regional regulations. Do not exceed the electrical
ratings for the devices on the Metasys network.
IMPORTANT: Properly install, terminate, and ground the cable shield on the
FC Bus to minimize inductive noise, which can result in unreliable
communication on the bus.
IMPORTANT: Electrostatic discharge can damage controller components.
Use proper electrostatic discharge precautions during installation, setup, and
service to avoid damaging the controller.
General MS/TP Bus Wiring Guidelines
Observe the following when installing and wiring the MS/TP Communications
Bus:
150
•
Do not run cables near moving parts. Avoid sharp bends, abrasion, and the
potential for severing or crushing the cable.
•
Route cables neatly to promote good ventilation, visibility, testing, and ease of
service.
•
Provide some slack in the wires and cables to allow for access and servicing.
•
Protect, coil, and secure any excess cable.
•
Ensure proper grounding for bus cable shielding.
•
Ensure proper EOL termination on buses and bus segments.
•
Use dedicated transformers (either PAN-PWRSP-U or PAN-96VAXFR-U) for
24 VAC supply power to the network devices.
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FC Bus Wiring Guidelines
The FC Bus is a 22 AWG stranded, 3-wire, twisted shielded cable. Figure 92
shows a wiring detail for the FC Bus terminal blocks.
See Table 58 for bus cable length limits.
Follow these guidelines for wiring the FC Bus:
•
Wire the bus devices in a daisy-chained network configuration. Maintain
polarity (FC+ to FC+, FC- to FC-, COM to COM, and SHLD to SHLD) along
entire bus daisy-chain (Figure 92).
•
Twist the FC Bus lead pairs together before inserting into the termination and
ensure that the termination is tight at each terminal block on the daisy chain.
•
Each FC Bus segment must have only one hard ground connection to the cable
shield.
•
The hard ground connection to the cable shield should be made at the NxE
when the NxE terminates the bus segment. Cable shield ground connection
should be made within the first inch after entering the NxE enclosure.
•
All other cable shield connections along the bus segment must be isolated from
ground unless network communication problems persist.
FC Bus and SA Bus Screw Terminations
Both the FC Bus and SA Bus terminations have pluggable screw terminal blocks
that allow you to connect the bus devices in a daisy-chain configuration
(Figure 92).
For optimum bus performance, connect the FC Bus cable shield to a metal, earth
grounded enclosure at only one connection on each bus segment. On bus
segments connected to an NxE, this connection should be made within 1 or 2
inches of the NxE. Connect the remaining devices on each bus segment on the FC
Bus as shown in Figure 92.
Figure 92: FC Bus and SA Bus Terminal Block Wiring Details
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Note: The SHLD terminal on the FC Bus terminal block is electrically isolated
from ground and is provided as a convenient terminal for connecting the
cable shield in a daisy chain on the bus segment.
Grounding the Cable Shield on MS/TP Bus Segments
Inductive interference and Radio Frequency (RF) interference can adversely affect
MS/TP applications, causing poor bus performance and frequent device offline
occurrences. Experience has shown that installing properly grounded shielded
cable in MS/TP applications greatly reduces the impact of ambient inductive noise
and RF interference. Applications installed without shielded cable are much less
tolerant to ambient interference.
We recommended installing MS/TP bus applications using shielded cable. In
applications using shielded cable, it is very important to ensure you ground the
cable shield properly. Improper shield grounding can also result in poor bus
performance and frequent device offline occurrences.
To properly ground the cable shield on an MS/TP application, the cable shields on
each bus segment must be connected in a daisy chain as shown in Figure 92. Each
daisy-chained segment must be connected at only one point to a hard ground
connection. We recommend making the hard ground connection within the first 2
inches of the cable terminations at the bus supervisor (the NAE on an FC Bus, and
the FEC or VMA on the SA Bus).
IMPORTANT: Ensure that the cable shield is connected to hard ground at
only one point on the bus segment and is completely isolated from hard ground
at all other points on the bus segment. Multiple hard ground connections on a
bus segment can create transient currents in the cable shield, which can result in
poor bus performance and frequent device offline occurrences.
SA Bus Wiring Guidelines
The SA Bus can be connected using either a 4-wire (2-twisted pair) cable to the SA
Bus (screw) terminal block or 6-wire cables with RJ-style modular jacks.
SA Bus Screw Terminations
The SA bus is a (2 twisted pair) shielded cable. The + and - leads make up one
twisted pair and the SA PWR and COM leads makeup the second twisted pair.
152
•
Wire the SA Bus devices in a daisy-chain network configuration. Maintain
polarity (SA+ to SA+, SA- to SA-, COM to COM, and SA PWR to SA PWR)
along entire bus daisy chain.
•
Twist the SA bus leads together before inserting into the termination and
ensure that the termination is tight at each terminal block on the daisy chain.
•
Each SA Bus must have only one hard ground connection to the cable shield.
•
The single hard ground connection should be made at the bus supervisor where
the SA Bus originates and should be made within one inch of entering an
enclosure.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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•
All shield connections on the SA Bus must be isolated from ground and
connected in continuous segment along the SA Bus.
Note: The SA Bus terminal blocks do not provide an isolated terminal for making
cable shield connections. Use a small wire nut or other suitable connector
to daisy-chain and isolate the cable shield on the SA Bus (Figure 93).
•
Isolate the cable shield at the end of the bus segment (opposite the controller).
Figure 93: SA Bus Terminal Block Wiring Details
SA Bus 6-Pin RJ-Style Modular Jack and Cables
The 6-pin modular jack SA Bus connection is a straight-through (not a crossover)
connection that uses a 6-wire connector cable (with 6-pin RJ-style modular jacks)
to connect SA devices to network sensors and the VMA Balancing Sensor. On the
6-wire cable, two wires are used for network communication, two wires for
network sensor power, and two wires supply 15 VDC (200 mA maximum) power
to the devices connected to the sensor.
The Wireless Commissioning Converter is also connected (temporarily) to the SA
Bus modular jack to commission the controller.
The cable connected to the SA Bus 6-pin modular jack cannot exceed 30 m
(100 ft). The SA Bus 6-pin modular jack supports only one device and no other SA
device may be daisy-chained to the port.
IMPORTANT: Failure to adhere to the wiring details may cause your network sensor to
function incorrectly. You cannot connect to the system using the Wireless Commissioning
Converter, the Handheld VAV Balancing Sensor, nor can you expand the system with future
offerings.
Every MS/TP device (except the NAE55) has at least one 6-pin modular jack.
Modular jacks on the network sensors allow you to connect a Wireless
Commissioning Converter or VMA Balancing Sensor. Figure 94 shows the SA
Bus modular jack pinouts.
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Printed Circuit Board
3 2 1
4
6 5
Pin Number Assignment for
Straight-Through Cable
rj_6-pin_jack_wire_pairs
SA Bus Port
Modular
Jack
SA+
SA-
Twisted Pair
SA Bus Common (Power from Sensor to Tool*)
SA Power (Power to from Sensor Tool*)
Twisted Pair
SA Bus Common (Power from Bus to Network Sensor)
SA Power (Power from Bus to Network Sensor)
Twisted Pair
* Provides power from the Network Sensor SA Bus terminal block
to a Wireless Commissioning Converter (MS-BTCVT-1) or
handheld VAV balancing sensor connected to the modular jack.
Note: Straight-through SA Bus cable with three twisted-pair wire groups as shown above increases
noise immunity and reduces radiated interference potential caused by high frequency transmission.
Figure 94: SA Bus 6-Pin Modular Jack Pinout Details
Commissioning Devices on the MS/TP Bus
Commission the devices on the MS/TP Bus using the Controller Configuration
Tool (CCT) Release 5.1 software.
Applications and device configurations are downloaded to the hardware from the
CCT computer using the Wireless Commissioning Converter or through the NAE
from the User Interface (UI).
Hardware points can be auto discovered from the online UI of the NAE, the
Application and Data Server (ADS), or the Extended Application and Data Server
(ADX).
Note: The ADS/ADX cannot perform smoke control functions, but may be used
as a device to view a smoke control system.
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MS/TP Controllers
FEU1610, FEC1611, FEU2610, and FEC2611 Field Equipment
Controllers
The 16-bit FEU1610 and FEU2610 controllers, and the 32-bit FEC1611 and
FEC2611 controllers are members of the Metasys® system Field Equipment
Controller (FEC) family. They are designed to run a variety of pre-engineered
Heating, Ventilating, and Air Conditioning (HVAC) applications and provide the
inputs/outputs required for these applications.
Figure 95: MS-FEU1610-0U and MS-FEU2610-0U Controllers
Figure 96: MS-FEC1611-1U and MS-FEC2611-0U Controllers
Mounting
Follow these guidelines when mounting all smoke-listed FEC controller models:
155
•
Ensure that the mounting surface can support the FEC controller and DIN rail.
•
Mount the FEC on a DIN rail whenever possible.
•
Mount the FEC controller in the proper orientation. See Figure 97.
•
Mount the FEC controller in a smoke-listed custom panel.
•
Use shims or washers to mount the unit securely and evenly on the mounting
surface.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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•
Mount the FEC controller in areas free of corrosive vapors and observe the
environmental limitations listed in Table 63.
•
Do not mount the FEC controller on surfaces that are prone to vibration, such
as duct work, or in areas where electromagnetic emissions from other devices
or wiring can interfere with FEC controller communication.
•
Allow for sufficient space around the FEC for cable and wire connections, easy
cover removal, and good ventilation through the controller (minimum of
50 mm [2 inches] in each direction).
On panel or enclosure mount applications, observe the following guidelines:
•
Do not install the FEC controller in an airtight enclosure.
•
Mount the FEC so that the enclosure walls do not obstruct cover removal or
ventilation through the controller.
•
Mount the FEC controller so that the power transformer and other devices do
not radiate excessive heat to the controller.
IMPORTANT: All smoke listed enclosures are ordered through Johnson
Controls. Device mounting is completed at the factory. Do not field-mount or
alter the mounting of any device installed in a Johnson Controls approved
smoke listed enclosure.
Field-mounting or altering the mounting of any device installed in a
Johnson Controls approved smoke listed enclosure voids the UL 864 9th Edition
UUKL/ORD-C100-13 UUKLC listing.
Mounting Orientation
Figure 97: Controller Mounting Positions
Common FEC Configuration Details
Use the following information links to configure all Smoke Control FEC models.
Determining the FC Bus Address
See Device Addresses on the MS/TP Bus for detailed information.
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Setting the FC Bus Address
See Setting a Device Address for detailed information.
FC Bus End-of-Line Switch
See End-of-Line Termination on the MS/TP Bus for detailed information.
Wiring
!
CAUTION: Risk of Electric Shock.
Disconnect the power supply before making electrical connections to
avoid electric shock.
!
CAUTION: Risk of Property Damage.
Do not apply power to the system before checking all wiring
connections. Short circuited or improperly connected wires may
result in permanent damage to the equipment.
IMPORTANT: Do not exceed the controller electrical ratings. Exceeding the
controller electrical ratings can result in permanent damage to the controller and
void any warranty.
IMPORTANT: Use copper conductors only. Make all wiring in accordance
with local, national, and regional regulations.
IMPORTANT: Electrostatic discharge can damage controller components.
User proper electrostatic discharge precautions during installation, setup, and
servicing to avoid damaging the controller.
To wire all FEC controller models:
1. Terminate wiring per engineering drawings.
2. Wire Network Sensors and other devices to the SA Bus or RJ-45 modular jack
for sensors. See Figure 98 (FEU1610), Figure 99 (FEC1611), Figure 100
(FEU2610), and Figure 101 (FEC2611).
3. Wire the FC Bus in a daisy chain to other devices on the FC Bus and the
supervisory controller.
4. Wire the SA Bus in a daisy chain.
Note: The FEC controller should be at one end of the SA Bus daisy chain. If
multiple Input/Output Modules (IOMs) are used, set the End-of-Line
(EOL) switch on the last IOM.
5. Ensure the device address DIP switches are set to the appropriate address in the
range of 4 to 127.
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6. Add SMK-MOVKIT-MSTP transient protector kits to all FC and SA Bus
communication terminal block connections. See MS/TP Required Transient
Protection for details.
7. Add SMOKE-MOVKIT-0U transient protectors to all MS/TP I/O terminal
connections. See MS/TP Required Transient Protection for details.
8. Connect power to the FEC controller.
9. Download and commission the FEC controller. See the Commissioning
section.
Figure 98: MS-FEU1610-0U Wiring Interface
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Figure 99: MS-FEC1611-1U Wiring Interface
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Figure 100: MS-FEU2610-0U Wiring Interface
160
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Figure 101: MS-FEC2611-0U Wiring Interface
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Table 59: FEU1610, FEC1611, FEU2610, and FEC2611 Terminal Blocks, Functions,
Ratings, Requirements, and Cables (Part 1 of 3)
Terminal Block
Label
Terminal
Labels
Function, Ratings, and Requirements
Wiring Requirements
(See Table 61)
UNIVERSAL
(Inputs)
+15 V
15 VDC Power Source for active (3-wire) input devices
connected to the Universal INn terminals.
Provides 100 mA total current.
Same as (Universal) INn.
Note: Use 3-wire cable for
devices that source power
from the +15 V terminal.
INn
Analog Input - Voltage Mode (0–10 VDC)
10 VDC maximum input voltage
Internal 75k ohm Pulldown
A1, 2
Analog Input - Current Mode (4–20 mA)
Internal 100 ohm load Impedance
Note: A current loop fail-safe jumper can be positioned
to maintain a closed 4–20 mA current loop even when
power to the controller is interrupted or off.
B1, 2
Analog Input - Resistive Mode (0–600k ohm)
Internal 12 V, 15k ohm pull up
Qualified Sensors: 0–2k potentiometer,
RTD (1k Nickel [Johnson Controls® sensor],
1k Platinum, and A99B Silicon Temperature Sensor)
Negative Temperature Coefficient (NTC) Sensor
(10k Type L, 10k JCI Type II, 2.252k Type II)
A1, 2
Binary Input - Dry Contact Maintained Mode
1 second minimum pulse width
Internal 12 V, 15k ohm pull up
A1, 2
ICOMn
Universal Input Common for all Universal IN terminals
Note: All Universal ICOMn terminals share a common,
which is isolated from all other commons.
Same as (Universal) INn.
INn
Binary Input - Dry Contact Maintained Mode
0.01 second minimum pulse width
Internal 18 V, 3k ohm pull up
A1, 2
BINARY
(Inputs)
Binary Input - Pulse Counter/Accumulator Mode
0.01 second minimum pulse width
(50 Hz at 50% duty cycle)
Internal 18 V, 3k ohm pull up
ICOMn
162
Binary Input Common for all Binary Input (IN) terminals
Note: All Binary ICOMn terminals share a common,
which is isolated from all other commons, except the
Configurable Output (CO) common (OCOMn) when the
CO is defined as an Analog Output.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Table 59: FEU1610, FEC1611, FEU2610, and FEC2611 Terminal Blocks, Functions,
Ratings, Requirements, and Cables (Part 2 of 3)
Terminal Block
Label
Terminal
Labels
Function, Ratings, and Requirements
Wiring Requirements
(See Table 61)
ANALOG
(Outputs)
(FEU2610 and
FEC2611 only)
OUTn
Analog Output - Voltage Mode (0-10 VDC)
10 VDC maximum output voltage
10 mA maximum output current
Requires an external load of 1,000 ohm or more.
Note: The AO operates in Voltage Mode when
connected to devices with impedances greater than
1,000 ohm. Devices that drop below 1,000 ohm may not
operate as intended for Voltage Mode applications.
A1, 2
Analog Output - Current Mode (4-20 mA)
Requires an external load between 0-300 ohm.
Note: The AO operates in Current Mode when
connected to devices with impedances less than
300 ohm. Devices that exceed 300 ohm may not operate
as intended for Current Mode applications.
B1, 2
OCOMn
Analog Output Signal Common for all Analog OUT
terminals.
Note: All Analog OCOMn terminals share a common,
which is isolated from all other commons.
Same as (Analog) OUTn.
OUTn
Binary Output - 24 VAC Triac (External Power)
Connects OUTn to OCOMn when activated.
External Power Source:
24 VAC maximum output voltage
0.5 A maximum output current
Maximum 6 cycles/hour with M9220-BGx-3
40 mA minimum load current
C1, 2
OCOMn
Binary Output Common (for OUTn terminal)
Note: Each Binary Output common terminal (OCOMn) is
isolated from all other commons, including other Binary
Output commons.
OUTn
Binary Output - 24 VAC Triac (Internal Power)
Sources internal 24 VAC power (24~ HOT)
OCOMn
Binary Output - 24 VAC Triac (Internal Power)
Connects OCOMn to 24~ COM when activated.
Internal Power Source:
24 VAC maximum voltage to load
0.5 A maximum output current
Maximum 6 cycles/hour with M9220-BGx-3
40 mA minimum load current
BINARY
(Outputs)
Power Selection
Jumper positioned
to External (EXT).
BINARY
(Outputs)
Power Selection
Jumper positioned
to Internal (INT).
163
C1, 2
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Table 59: FEU1610, FEC1611, FEU2610, and FEC2611 Terminal Blocks, Functions,
Ratings, Requirements, and Cables (Part 3 of 3)
Terminal Block
Label
Terminal
Labels
Function, Ratings, and Requirements
Wiring Requirements
(See Table 61)
CONFIGURABLE
(Outputs)
OUTn
Analog Output - Voltage Mode (0-10 VDC)
10 VDC maximum output voltage
10 mA maximum output current
Requires an external load of 1000 ohm or more
A1, 2
Binary Output 24 VAC Triac
Connects OUT to OCOM when activated.
External Power Source:
24 VAC maximum voltage to load
0.5 A maximum output current
Maximum 6 cycles/hour with M9220-BGx-3
40 mA minimum load current
C1, 2
Analog Output Signal Common: All Configurable
Outputs defined as Analog Outputs share a common,
which is isolated from all other commons except the
Binary Input common.
Binary Output Signal Common: All Configurable
Outputs defined as Binary Outputs are isolated from all
other commons, including other Configurable Output
commons.
Same as (Configurable)
OUTn.
OCOMn
1.
2.
See MS/TP Bus Cable Recommendations for wire length specifications.
Requires SMOKE-MOVKIT-0U transient protectors for all MS/TP I/O terminal connections. See MS/TP Field Controller I/O
Transient Protection for wiring details.
Table 60: Communication Bus and Supply Power Terminal Blocks, Functions, Ratings,
Requirements, and Cables
Terminal
Block/Port
Label
Terminal
Labels
Function, Electrical Ratings/Requirements
Recommended Cable Type1
FC BUS2
+
-
FC Bus Communications
COM
Signal Reference (Common) for bus communications
0.6 mm (22 AWG) stranded, 3-wire
twisted, shielded cable
recommended
SHLD
Isolated terminal (optional shield drain connection)
RJ-12 6-Position Modular Connector provides:
FC Bus Communications
FC Bus Signal Reference and 15 VDC Common
24 AWG 3-pair CAT 3 Cable
<30.5 m (100 ft)
+
-
SA Bus Communications
COM
SA Bus Signal Reference and 15 VDC Common
SA PWR
15 VDC Supply Power for Devices on the SA Bus
(Maximum total current draw for SA Bus is 240 mA.)
0.6 mm (22 AWG) stranded, 4-wire
(2 twisted-pairs), shielded cable
recommended
Note: The + and - wires are one
twisted pair and the COM and
SA PWR are the second twisted
pair of wires.
SENSOR2, 3
SENSOR
RJ-12 6-Position Modular Connector provides:
SA Bus Communications
SA Bus Signal Reference and 15 VDC Common
24 AWG 3-pair CAT 3 Cable
<30.5 m (100 ft)
24~
HOT
24 VAC Power Supply - Hot
Supplies 24 VAC
0.8 mm to 1.5 mm2
(20 to 16 AWG) 2-wire
COM
24 VAC Power Supply Common (Isolated from all other
Common terminals on controller)
Bus2
FC
(Port)
SA BUS2
1.
164
See Table 61 to determine wire size and cable lengths for cables other than the recommended cables.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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2.
3.
The SA Bus and FC Bus wiring recommendations in this table are for MS/TP bus communications at 38.4k baud. For more
information, see the MS/TP Field Bus section.
The SA Bus and the Sensor Port are daisy-chained internally.
Use Table 61 for all FEC wiring.
Table 61: FEC Wire Gauge and Length Guidelines
Guideline
Cable
Size
(AWG)
A
B
C
40 mA
Load
Maximum
Length
(Ft)
Assumptions
18
1,500
100 mV maximum voltage drop at maximum current
20
975
22
600
24
350
18
750
20
450
22
300
24
200
18
400
20
250
22
150
100 mV maximum voltage drop at maximum current
Load Current vs Wire Length
Length
450 ft (137.2 m)
500 mA
Load
24
100
18
75
20
50
18 AWG (1.5 mm2)
400 ft (121.9 m)
350 ft (106.7 m)
300 ft (91.4 m)
2
20 AWG (0.8 mm )
250 ft (76.2 m)
22
30
24
20
200 ft (61 m)
2
22 AWG (0.6 mm )
150 ft (45.7 m)
100 ft (30.5 m)
24 AWG (N/A)
50 ft (15.2 m)
0 ft (0 m)
0
50
100
150
200
250
300
350
400
450
500
Load Current (mA)
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Setup and Adjustments
Setting the Binary Output INT/EXT Jumpers
!
CAUTION: Risk of Electric Shock.
Disconnect supply power to the FEC controller before attempting to
adjust the Binary Output Source Power Selection Jumpers. Failure to
disconnect the supply power may result in electric shock.
IMPORTANT: Do not connect an external power source to a Binary Output
(BO) when the BO power source jumper is in the internal power (INT) position.
Connecting external power to a BO that sources internal power can damage the
controller and void any warranties.
The Binary Output jumpers (OUT1 through OUT3) are located on the circuit board
in the mounting base near the binary outputs. These jumpers select whether the
output provides internal power to the load (INT) or requires external power (EXT).
See Figure 102.
Figure 102: Binary Output Jumper Positions
When set to the INT position, the FEC controller is the power source for the Binary
Output and both sides of the load can be wired directly to the OUTx and COMx
terminals.
Setting the jumper to the EXT position isolates the Binary Outputs and power must
come from one or more external sources. Do not wire the load directly to the
OUTx and COMx terminals. Wire one side of the load to the source and the other
side of the load to the OUTx terminal. Wire the other side of the external power
source to the COMx terminal.
166
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Setting the Analog Input Load Resistor Enable/Disable
The Analog Input Resistor Enable/Disable jumpers (J10 through J15) are located
on the circuit board in the controller cover. These jumpers can permanently
connect the internal 4–20 mA, 100 ohm load resistor to the input terminals. There
is one jumper for each of the Universal Inputs. See Figure 103.
Figure 103: Analog Input Resistor Jumper Positions
Software configuration of the Universal Input normally selects the enabling or
disabling of the analog input load resistor. In cases when the analog input load
resistor must be left connected even when power is OFF to the controller, set this
jumper to the ENABLE position. This jumper must be in the DISABLE position
for all Universal Input modes other than 4–20 mA.
Commissioning
You commission the FEUx610 or FECx611 controller through the NxE passthrough and FC communication bus using the Controller Configuration Tool
(CCT) Release 5.1 software.
Troubleshooting
Use Table 62 to troubleshoot the FEC controllers.
Table 62: Status Light-Emitting Diodes (LEDs)
167
Name
Color
Normal
Descriptions
Power
Green
On Steady
Off Steady = No Power
On Steady = Power is supplied by Primary Voltage.
Fault
Red
Off Steady
Blink - 2 Hz = Download or Startup in progress, not ready for
normal operation
Off Steady = No Faults
On Steady = Device Fault or no application loaded
FC Bus
Green
Blink - 2 Hz
Blink - 2 Hz = Data Transmission (normal communication)
Off Steady = No Data Transmission (auto baud in progress)
On Steady = Communication lost, waiting to join
communication ring
SA Bus
Green
Blink - 2 Hz
Blink - 2 Hz = Data Transmission (normal communication)
Off Steady = No Data Transmission (N/A - auto baud not
supported)
On Steady = Communication lost, waiting to join
communication ring
EOL
(MS-FEC1611-1U and
MS-FEC2611-0U only)
Amber
Off
(Except on
terminating
devices)
On Steady = EOL switch in ON position.
Off Steady = EOL switch in Off position.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Specifications
Table 63: FEUx610-0U, FECx611-0U, and FECx611-1U Technical Specifications
(Part 1 of 2)
168
Category
Specification
Product Code
Number
MS-FEU1610-0U, MS-FEC1611-1U: Cooling Only
Supply
Voltage
24 VAC, 60 Hz, power supply Class 2 (North America)
Power
Consumption
MS-FEU1610-0U and MS-FEU2610-0U: 10 VA maximum
MS-FEC1611-1U and MS-FEC2611-0U: 14 VA maximum
Note: VA ratings do not include any power supplied to the peripheral devices connected to
Binary Outputs (BOs) or Configurable Outputs (COs), which can consume up to 12 VA for
each BO or CO; for a possible total consumption of an additional 84 VA (maximum).
Ambient
Conditions
Operating: 0 to 49°C (32 to 120°F); 10 to 90% RH noncondensing
Storage: -40 to 80°C (-40 to 176°F); 5 to 95% RH noncondensing
Controller
Addressing
DIP switch set; valid field controller device address (4–127)
(Device addresses 0–3, 128–255 are reserved and not valid field controller addresses.)
Communicatio
ns Bus
BACnet MS/TP, RS-485:
3-wire Field Controller Bus (FC Bus) between the Network Automation Engine (NAE) and other
devices.
4-wire Sensor-Actuator Bus (SA Bus) between network sensors and other devices,1 includes a
lead to source 15 VDC supply power from field controller to bus devices.
Processor
MS-FEU1610-0U and MS-FEU2610-0U: H8S Renesas® 16-bit microcontroller
MS-FEC1611-1U and MS-FEC2611-0U: H8SX/166xR Renesas® 32-bit microcontroller
Memory
1 MB Flash Memory and 512 KB RAM
Input and
Output
Capabilities
MS-FEU1610-0U and MS-FEC1611-1U:
2 - Universal Inputs: Defined as 0–10 VDC, 4–20 mA, 0–600k ohm or Binary Dry Contact
1 - Binary Inputs: Defined as Dry Contact Maintained or Pulse Counter/Accumulator Mode
3 - Binary Outputs: Defined as 24 VAC Triac (selectable internal or external source power)
4 - Configurable Outputs: Defined as 0–10 VDC or 24 VAC Triac BO
MS-FEU2610-0U and MS-FEC2611-0U:
6 - Universal Inputs: Defined as 0–10 VDC, 4–20 mA, 0–600k ohm, or Binary Dry Contact
2 - Binary Inputs: Defined as Dry Contact Maintained or Pulse Counter/Accumulator Mode
3 - Binary Outputs: Defined as 24 VAC Triac (selectable internal or external source power)
4 - Configurable Outputs: Defined as 0–10 VDC or 24 VAC Triac BO
2 - Analog Outputs: Defined as 0–10 VDC or 4–20 mA
Terminations
Input/Output: Fixed Screw Terminal Blocks
FC Bus, SA Bus, and Supply Power: 4-wire and 3-wire pluggable screw terminal blocks
FC Bus and SA Bus: RJ-12 6-pin modular jacks
Mounting
Horizontal on single 35 mm DIN rail mount (preferred), or screw mount on flat surface with three
integral mounting clips on controller.
Housing
Enclosure material: ABS and polycarbonate UL94 5VB; Self-extinguishing, Plenum Rated
Protection Class: IP20 (IEC529)
Dimensions
(H x W x D)
MS-FEU1610-0U: 144 x 127 x 58 mm (5-11/16 x 5 x 2-1/4 in.)
MS-FEU2610-0U: 180 x 127 x 58 mm (7-1/16 x 5 x 2-1/4 in.)
MS-FEC1611-1U: 150 x 164 x 53 mm (5-7/8 x 6-7/16 x 2-1/8 in.)
MS-FEC2611-0U: 150 x 190 x 53 mm (5-7/8 x 7-1/2 x 2-1/8 in.)
Note: Mounting space requires an additional 50 mm (2 in.) space on top, bottom and front face
of controller for easy cover removal, ventilation, and wire terminations.
Weight
MS-FEU1610-0U: 0.5 kg (1.1 lb)
MS-FEU2610-0U: 0.7 kg (1.5 lb)
MS-FEC1611-1U: 0.4 kg (0.9 lb)
MS-FEC2611-0U: 0.5 kg (1.1 lb)
MS-FEU2610-0U, MS-FEC2611-0U: Cooling with Reheat
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Table 63: FEUx610-0U, FECx611-0U, and FECx611-1U Technical Specifications
(Part 2 of 2)
Category
Specification
Compliance
United States
UL Listed, File E107041, CCN PAZX, UL 916, Energy Management
Equipment
FCC Compliant to CFR, Part 15, Subpart B, Class A
UL Listed, File S4977, UUKL, UL 864 Ninth Edition, Smoke Control System
Equipment
Canada
UL Listed, File E107041, CCN PAZX7, CAN/CSA C22.2 No. 205, Signal
Equipment
UL Listed, File S4977, CCN UUKLC, ORD-C100-13 Standard for Control Units
for Fire Alarm Systems
Industry Canada Compliant, ICES-003
Europe
CE Mark – Johnson Controls, Inc., declares that these products are in
compliance with the essential requirements and other relevant provisions of
the EMC Directive 2004/108/EC.
Australia and
New Zealand
C-Tick Mark, Australia/NZ Emissions Compliant
BACnet
International
BACnet Testing Laboratories™ (BTL) 135-2004 Listed BACnet Application
Specific Controller (B-ASC)
1.
169
For more information, see the MS/TP Field Bus section for details.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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UL/ULC Label Placement
UL/ULC Listing labels must be positioned as shown in Figure 104.
Figure 104: UL/ULC Label Placement for the MS-FEU1610-0U (Top)
and MS-FEU2610-0U (Bottom)
170
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UL/ULC Listing labels must be positioned as shown in Figure 105 and Figure 106.
Figure 105: UL/ULC Label Placement for the MS-FEC1611-1U
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Figure 106: UL/ULC Label Placement for the MS-FEC2611-0U
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IOMx710 Field Equipment Controllers
The Input Output Modules (IOMs)—MS-IOM1710-0U, MS-IOM2710-0U,
MS-IOM3710-0U, MS-IOU4710-0U, MS-IOM1711-0U, MS-IOM2711-0U,
MS-IOM3711-0U, MS-IOM4711-0U—are members of the Metasys® system
Field Equipment Controller family. The IOM provides increased capacity to larger
Field Equipment Controller (FEC) applications when used on the Sensor Actuator
(SA) bus. The IOM can also be used on the Field Controller (FC) bus to connect
additional physical points to the system.
Figure 107: IOM1710, IOM2710, IOM3710, and IOU4710 Controllers
Figure 108: IOM1711, IOM2711, IOM3711, and IOM4711 Controllers
Mounting
IMPORTANT: All smoke listed enclosures are ordered through Johnson
Controls. Device mounting is completed at the factory. Do not field-mount or
alter the mounting of any device installed in a Johnson Controls approved
smoke listed enclosure.
Field-mounting or altering the mounting of any device installed in a Johnson
Controls approved smoke listed enclosure voids the UL 864 9th Edition UUKL/
ORD-C100-13 UUKLC listing.
Follow these guidelines when mounting an IOM controller:
173
•
Ensure that the mounting surface can support the IOM controller and DIN rail.
•
Mount the IOM on 35 mm DIN rail whenever possible.
•
Mount the IOM controller in the proper orientation. See Figure 109.
•
Mount the IOM controller in an approved smoke-listed enclosure.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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•
Use shims or washers to mount the unit securely and evenly on the mounting
surface.
•
Mount the IOM controller in an area free of corrosive vapors and observe the
environmental limitations listed in Table 73.
•
Do not mount the IOM controller on surfaces that are prone to vibration, such
as duct work, or in areas where electromagnetic emissions from other devices
or wiring can interfere with IOM controller communication.
•
Allow for sufficient space around the IOM controller for cable and wire
connections, easy cover removal, and good ventilation through the controller
(minimum of 2 in. [50 mm] in each direction).
On panel or enclosure mount applications, observe these additional guidelines:
•
Do not install the IOM controller in an airtight enclosure.
•
Mount the IOM controller so that the enclosure walls do not obstruct cover
removal or ventilation through the controller.
•
Mount the IOM controller so that the power transformer and other devices do
not radiate excessive heat into the IOM controller housing.
Figure 109: Controller Mounting Positions
Common IOM Configuration Details
Use the following information links to configure all IOM models.
Determining the FC Bus Address
See Device Addresses on the MS/TP Bus for detailed information.
Setting the FC Bus Address
See Setting a Device Address for detailed information.
FC Bus End-of-Line Switch
See End-of-Line Termination on the MS/TP Bus for detailed information.
Commissioning the IOM
Commission all Smoke Control IOM models through the NxE pass-through and
FC communication bus and the Controller Configuration Tool (CCT) software.
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Wiring
General Wiring Precautions
!
!
WARNING: Risk of Electric Shock.
Disconnect or isolate all power supplies before making electrical
connections. More than one disconnect or isolation may be required
to completely de-energize equipment. Contact with components
carrying hazardous voltage can cause electric shock and may result
in severe personal injury or death.
CAUTION: Risk of Property Damage.
Do not apply power to the system before checking all wiring
connections. Short circuited or improperly connected wires may
result in permanent damage to the equipment.
IMPORTANT: Do not exceed the controller electrical ratings. Exceeding
controller electrical ratings can result in permanent damage to the controller and
void any warranty.
IMPORTANT: User copper conductors only. Make all wiring in accordance
with local, national, and regional regulations.
IMPORTANT: Electrostatic discharge can damage controller components.
Use proper electrostatic discharge precautions during installation, setup, and
service to avoid damaging the controller.
Wiring the IOM1710 and IOM1711
To wire the IOM1710 and IOM1711:
1. Terminate wiring per engineering drawings.
2. Wire Network Sensors and other devices to the SA Bus or Sensor socket.
3. Ensure the device address DIP switches are set to the appropriate hardware
address in the range of 4–127.
4. Add SMK-MOVKIT-MSTP transient protector kits to all FC and SA Bus
communication terminal block connections. See MS/TP Required Transient
Protection for details.
5. Add SMOKE-MOVKIT-0U transient protectors to all MS/TP I/O terminal
connections. See MS/TP Required Transient Protection for details.
6. Connect power to the IOM.
7. Download and commission the IOM.
175
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Figure 110: IOM1710 Wiring Interface
Figure 111: IOM1711 Wiring Interface
176
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IOM1710 and IOM1711 Field Controller Platform Wiring List
Table 64: IOM1710 Field Controller Platform Wiring List
Terminal
Block
Terminal
Labels
Function and Electrical Ratings/Requirements
Wiring Requirements
(See Table 65)
BINARY
(Inputs)
INn
Binary Input – Dry Contact Maintained Mode
0.01 s minimum pulse width (50 Hz at 50% duty cycle)
Internal 18 V, 3k ohm Pull-up
A1
Binary Input – Pulse Counter Mode/Accumulator Mode
0.01 s minimum pulse width (50 Hz at 50% duty cycle)
Internal 18 V, 3k ohm Pull-up
SA Bus2, 3 or
FC Bus2, 4
(Terminals)
ICOMn
Binary Input Common for all Binary Input (IN) terminals
Note: All Binary ICOMn terminals share a common that is
isolated from all other commons.
+
-
Provides SA or FC Communications.
COM
Signal Reference (Common) for FC or SA Bus
Communications
SHLD or
SA PWR
Isolated terminal (optional shield drain connection on FC
Bus or connection for 15 VDC power lead on SA Bus)
Note: The SA PWR terminal on an IOM does not supply
15 VDC. 15 VDC power for devices (requiring
power) on the SA Bus is supplied by the SA Bus
supervisor.
SA/FC Bus
(Port)
24~ Power
1.
2.
3.
4.
177
FC Bus: 0.6 mm (22 AWG)
stranded, 3-wire twisted,
shielded cable
recommended.
SA Bus: 0.6 mm (22 AWG)
stranded, 4-wire (2 twisted
pairs) shielded cable
recommended.
Note: On the SA Bus, the
+ and - wires are
one twisted pair
and the COM and
SA PWR are the
second twisted pair
of wires.
RJ-12 6-Position Modular Connector provides:
FC or SA Bus Communications
FC or SA Bus Signal Reference and 15 VDC Common
(Maximum total current draw for SA Bus is 240 mA)
24 AWG 3-pair CAT 3
Cable <30.5 m (100 ft)
HOT
24 VAC Power Supply – Hot
Supplies 24 VAC
0.8 to 1.5 mm2
(20 to 16 AWG) 2-wire
COM
24 VAC Power Supply Common (Isolated from all other
Common terminals on controller)
Requires SMOKE-MOVKIT-0U transient protectors for all MS/TP I/O terminal connections. See MS/TP Required
Transient Protection for wiring details.
The SA Bus and FC Bus specifications in this table are for MS/TP bus communications at 38.4K. For more
information, see MS/TP Required Transient Protection.
Requires a SMK-MOVKIT-MSTP transient protector kit for all MS/TP communication terminal connections. See MS/
TP Required Transient Protection for details.
Requires a SMK-MOVKIT-MSTP transient protector kit for all MS/TP communication terminal connections. See MS/
TP Required Transient Protection for wiring details.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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IOM Wire Gauge and Length Guidelines
Use Table 65 for all IOM wiring.
Table 65: IOM Wire Gauge and Length Guidelines
Guideline
Cable Size (AWG)
Maximum
Length (Ft)
Assumptions
A
18
1,500
100 mV maximum voltage drop at maximum current
20
975
22
600
24
350
18
750
20
450
22
300
24
200
18
400
20
250
22
150
24
100
18
75
B
C
40 mA
Load
100 mV maximum voltage drop at maximum current
Load Current vs Wire Length
Length
500 mA
Load
450 ft (137.2 m)
2
18 AWG (1.5 mm )
400 ft (121.9 m)
350 ft (106.7 m)
300 ft (91.4 m)
2
20 AWG (0.8 mm )
250 ft (76.2 m)
20
50
200 ft (61 m)
2
22 AWG (0.6 mm )
22
30
24
20
150 ft (45.7 m)
Wiring length.cdr
100 ft (30.5 m)
24 AWG (N/A)
50 ft (15.2 m)
0 ft (0 m)
0
50
100
150
200
250
300
350
400
450
500
Load Current (mA)
Troubleshooting
Use Table 66 to troubleshoot the IOM1710 and IOM1711 module.
Table 66: IOM171x LED Indicators
178
LED Label
Color
Normal
Descriptions
POWER
Green
On Steady
On Steady = Power is Supplied by Primary Voltage.
Off = No Power, or the controller’s polyswitch/resettable fuse is open.
Check Output wiring for short circuits and cycle power to the controller.
FAULT
Red
Off
Off Steady = No Faults
On Steady = Device Fault; no application loaded; Main Code download
required, if controller is in boot mode, or a firmware mismatch exists
between the IOM and the ZFR1811 Wireless Field Bus Router.
Blink – 2 Hz = Download or startup in progress, not ready for normal
operation
SA/FC BUS
Green
Blink – 2 Hz
Blink – 2 Hz = Data Transmission (Normal Communication)
Off Steady = No Data Transmission (N/A – auto baud not supported)
On Steady = Communication lost, waiting to join communication ring
EOL
(IOM4711 Only)
Amber
Off
(Except on
terminating
devices)
On Steady = EOL switch in ON position
Off Steady = EOL switch in Off position
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Wiring the IOM2710, IOM2711, IOM3710, and IOM3711
To wire the IOM2710, IOM2711, IOM3710, or IOM3711:
1. Terminate wiring per engineering drawings.
2. Wire Network Sensors and other devices to the SA Bus or Sensor socket.
3. Ensure the device address DIP switches are set to the appropriate hardware
address in the range of 4–127.
4. Connect power to the IOM.
5. Download and commission the IOM.
Figure 112: IOM2710 and IOM3710 Wiring Interface
179
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Figure 113: IOM2711 Wiring Interface
180
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Figure 114: IOM3711 Wiring Interface
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IOM271x and IOM371x Field Controller Platform Wiring List
Table 67: IOM271x Field Controller Platform Wiring List (Part 1 of 2)
Terminal
Block Label
Terminal
Labels
Function, Ratings, and Requirements
Wiring Requirements1
(See Table 65)
UNIVERSAL
(Inputs)
(IOM27)
+15 V
15 VDC Power Source for active (3-wire) input
devices connected to the Universal INn terminals.
Provides 35 mA total current.
Same as (Universal) INn.
Note: Use 3-wire cable for
devices that source power
from the +15 V terminal.
INn
Analog Input - Voltage Mode (0–10 VDC)
10 VDC maximum input voltage
Internal 75k ohm pull down
A
Analog Input - Current Mode (4–20 mA)
Internal 100 ohm load Impedance
B
Analog Input - Resistive Mode (0–600k ohm)
Internal 12 V, 15k ohm pull up
Qualified Sensors: 0–2k potentiometer,
RTD (1k Nickel [Johnson Controls® sensor],
1k Platinum, and A99B Silicon Temperature
Sensor)
Negative Temperature Coefficient (NTC) Sensor
(10k Type L, 10k JCI Type II, 2.252k Type II)
A
Binary Input - Dry Contact Maintained Mode
1 second minimum pulse width
Internal 12 V, 15k ohm pull up
A
ICOMn
Universal Input Common for all Universal IN
terminals
Note: All Universal ICOMn terminals share a
common, which is isolated from all other commons.
Same as (Universal) INn.
OUT NOn
Normally Open Contact
Connects OCOM to OUT NO when activated.
24 VAC maximum voltage
0.5 A maximum current
OCOMn
Relay Common
Isolated from all other terminal commons, including
other Relay Commons.
OUT NCn
Normally Closed Contact
Connects OCOM to OUT NC when activated.
24 VAC maximum voltage
0.5 A maximum current
RELAY
n
(Outputs)
182
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Table 67: IOM271x Field Controller Platform Wiring List (Part 2 of 2)
Terminal
Block Label
Terminal
Labels
Function, Ratings, and Requirements
Wiring Requirements1
(See Table 65)
UNIVERSAL
(Outputs)
OUTn
Analog Output - Voltage Mode (0–10 VDC)
10 VDC maximum output voltage
10 mA maximum output current
Requires an external load of 1,000 ohm or more.
Note: The AO operates in Voltage Mode when
connected to devices with impedances greater than
1,000 ohm. Devices that drop below 1,000 ohm
may not operate as intended for Voltage Mode
applications.
A
Analog Output - Current Mode (4–20 mA)
Requires an external load between 0–300 ohm.
Note: The AO operates in Current Mode when
connected to devices with impedances less than
300 ohm. Devices that exceed 300 ohm may not
operate as intended for Current Mode applications.
B
Binary Output Mode - 24 VAC/DC Field-effect
Transistor (FET)
Connects OUT to OCOM when activated.
24 V AC/DC maximum output voltage
0.5 A maximum output current
40 mA minimum load current (hold current)
B
Universal Output (UO) Common
Isolated from all other terminal commons, including
other UO commons.
Same as OUT
OCOMn
1.
183
All wiring requires SMOKE-MOVKIT-0U transient protectors for all MS/TP I/O terminal connections. See MS/TP
Bus Overview for more information.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Table 68: IOM371x Field Controller Platform Wiring List (Part 1 of 2)
Terminal
Block
Label
Terminal
Labels
Function, Ratings, and Requirements
Wiring Requirements1
(See Table 65)
UNIVERSAL
(Inputs)
+15 V
15 VDC Power Source for active (3-wire) input
devices connected to the Universal INn terminals.
Provides 35 mA total current.
Same as (Universal) INn.
Note: Use 3-wire cable for
devices that source power
from the +15 V terminal.
INn
Analog Input - Voltage Mode (0–10 VDC)
10 VDC maximum input voltage
Internal 75k ohm pull down
A
Analog Input - Current Mode (4–20 mA)
Internal 100 ohm load Impedance
B
Analog Input - Resistive Mode (0–600k ohm)
Internal 12 V, 15k ohm pull up
Qualified Sensors: 0–2k potentiometer,
RTD (1k Nickel [Johnson Controls® sensor],
1k Platinum, and A99B Silicon Temperature
Sensor)
Negative Temperature Coefficient (NTC) Sensor
(10k Type L, 10k JCI Type II, 2.252k Type II)
A
Binary Input - Dry Contact Maintained Mode
1 second minimum pulse width
Internal 12 V, 15k ohm pull up
A
ICOMn
Universal Input Common for all Universal IN
terminals
Note: All Universal ICOMn terminals share a
common, which is isolated from all other commons.
Same as (Universal) INn.
OUT NOn
Normally Open Contact
Connects OCOM to OUT NO when activated.
24 VAC maximum voltage
0.5 A maximum current
OCOMn
Relay Common
Isolated from all other terminal commons, including
other Relay Commons.
OUT NCn
Normally Closed Contact
Connects OCOM to OUT NC when activated.
24 VAC maximum voltage
0.5 A maximum current
RELAY
n
(Outputs)
184
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Table 68: IOM371x Field Controller Platform Wiring List (Part 2 of 2)
Terminal
Block
Label
Terminal
Labels
Function, Ratings, and Requirements
Wiring Requirements1
(See Table 65)
UNIVERSAL
(Outputs)
OUTn
Analog Output - Voltage Mode (0-10 VDC)
10 VDC maximum output voltage
10 mA maximum output current
Requires an external load of 1,000 ohm or more.
Note: The AO operates in Voltage Mode when
connected to devices with impedances greater than
1,000 ohm. Devices that drop below 1,000 ohm
may not operate as intended for Voltage Mode
applications.
A
Analog Output - Current Mode (4–20 mA)
Requires an external load between 0-300 ohm.
Note: The AO operates in Current Mode when
connected to devices with impedances less than
300 ohm. Devices that exceed 300 ohm may not
operate as intended for Current Mode applications.
B
Binary Output Mode - 24 VAC/DC Field-Effect
Transistor (FET)
Connects OUT to OCOM when activated.
24 V AC/DC maximum output voltage
0.5 A maximum output current
40 mA minimum load current (hold current)
B
Universal Output (UO) Common
Isolated from all other terminal commons, including
other UO commons.
Same as OUT
OCOMn
1.
185
All wiring requires SMOKE-MOVKIT-0U transient protectors for all MS/TP I/O terminal connections. See MS/TP
Bus Overview for more information.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Table 69: IOM271x and IOM371x Communication Bus and Supply Power
Terminal Blocks, Functions, Ratings, Requirements, and Cables
Terminal
Block
Terminal
Labels
Function and Electrical Ratings/Requirements
Wiring Requirements
(See Table 65)
SA Bus1, 2 or
FC Bus2, 3
(Terminals)
+
-
Provides SA or FC Communications.
COM
Signal Reference (Common) for FC or SA Bus
Communications
SHLD or
SA PWR
Isolated terminal (optional shield drain connection on FC
Bus or connection for 15 VDC power lead on SA Bus)
Note: The SA PWR terminal on an IOM does not supply
15 VDC. 15 VDC power for devices (requiring
power) on the SA Bus is supplied by the SA Bus
supervisor.
FC Bus: 0.6 mm (22 AWG)
stranded, 3-wire twisted,
shielded cable
recommended.
SA Bus: 0.6 mm (22 AWG)
stranded, 4-wire (2 twisted
pairs) shielded cable
recommended.
Note: On the SA Bus, the
+ and - wires are
one twisted pair
and the COM and
SA PWR are the
second twisted pair
of wires.
SA/FC Bus
(Port)
24~ Power
1.
2.
3.
RJ-12 6-Position Modular Connector provides:
FC or SA Bus Communications
FC or SA Bus Signal Reference and 15 VDC Common
(Maximum total current draw for SA Bus is 240 mA)
24 AWG 3-pair CAT 3
Cable
<30.5 m (100 ft)
HOT
24 VAC Power Supply – Hot
Supplies 24 VAC
0.8 to 1.5 mm2
(20 to 16 AWG) 2-wire
COM
24 VAC Power Supply Common (Isolated from all other
Common terminals on controller)
The SA Bus and FC Bus specifications in this table are for MS/TP bus communications at 38.4K. For more
information, see MS/TP Required Transient Protection.
Requires a SMK-MOVKIT-MSTP transient protector kit for all MS/TP communication terminal connections. See MS/
TP Required Transient Protection for details.
Requires a SMK-MOVKIT-MSTP transient protector kit for all MS/TP communication terminal connections. See MS/
TP Required Transient Protection for wiring details.
Troubleshooting
Use Table 70 to troubleshoot the IOM271x and IOM371x modules.
Table 70: IOM271x and IOM371x LED Indicators
186
LED Label
Color
Normal
Descriptions
POWER
Green
On Steady
On Steady = Power is Supplied by Primary Voltage.
Off = No Power, or the controller’s polyswitch/resettable fuse is open. Check
Output wiring for short circuits and cycle power to the controller.
FAULT
Red
Off
Off Steady = No Faults
On Steady = Device Fault; no application loaded; Main Code download
required, if controller is in boot mode, or a firmware mismatch exists.
Blink – 2 Hz = Download or startup in progress, not ready for normal
operation
SA/FC BUS
Green
Blink – 2 Hz
Blink – 2 Hz = Data Transmission (Normal Communication)
Off Steady = No Data Transmission (N/A – auto baud not supported)
On Steady = Communication lost, waiting to join communication ring
EOL
(IOM2711 and
IOM3711 Only)
Amber
Off
(Except on
terminating
devices)
On Steady = EOL switch in ON position
Off Steady = EOL switch in Off position
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Wiring the IOU4710 and IOM4711 IOM Controllers
1. Terminate wiring per engineering drawings.
2. Wire Network Sensors and other devices to the SA Bus or Sensor socket.
3. Wire the FC Bus in a daisy chain.
4. Wire the SA Bus in a daisy chain.
5. The IOM controller should be at one end of the SA Bus daisy chain. If multiple
Input/Output Modules (IOMs) are used, set the End-of-Line (EOL) switch on
the last IOM.
6. Ensure the device address DIP switches are set to the appropriate hardware
address in the range of 4–127. See Device Addresses on the MS/TP Bus.
7. Connect power to the IOM controller.
8. Download and commission the IOM controller.
Figure 115: IOU4710 Module Wiring Interface
187
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Figure 116: IOM4711 Module Wiring Interface
188
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IOU4710 and IOM4711 Field Controller Platform Wiring List
Table 71: IOU4710 and IOM4711 Field Controller Platform Wiring List
(Part 1 of 3)
Terminal Block
Label
Terminal
Labels
Function, Ratings, and Requirements
Wiring Requirements1
(See Table 65)
UNIVERSAL
(Inputs)
+15 V
15 VDC Power Source for active (3-wire) input
devices connected to the Universal INn
terminals.
Provides 100 mA total current.
Same as (Universal) INn.
Note: Use 3-wire cable for
devices that source power
from the +15 V terminal.
INn
Analog Input - Voltage Mode (0–10 VDC)
10 VDC maximum input voltage
Internal 75k ohm pull down
A.
Analog Input - Current Mode (4–20 mA)
Internal 100 ohm load Impedance
Note: A current loop fail-safe jumper can be
positioned to maintain a closed 4–20 mA current
loop even when power to the controller is
interrupted or off.
B
Analog Input - Resistive Mode (0–600k ohm)
Internal 12 V, 15k ohm pull up
Qualified Sensors: 0–2k potentiometer,
RTD (1k Nickel [Johnson Controls® sensor],
1k Platinum, and A99B Silicon Temperature
Sensor)
Negative Temperature Coefficient (NTC)
Sensor
(10k Type L, 10k JCI Type II, 2.252k Type II)
A
Binary Input - Dry Contact Maintained Mode
1 second minimum pulse width
Internal 12 V, 15k ohm pull up
A
ICOMn
Universal Input Common for all Universal IN
terminals
Note: All Universal ICOMn terminals share a
common, which is isolated from all other
commons.
Same as (Universal) INn.
INn
Binary Input - Dry Contact Maintained Mode
0.01 second minimum pulse width
Internal 18 V, 3k ohm pull up
A
BINARY
(Inputs)
Binary Input - Pulse Counter/Accumulator
Mode
0.01 second minimum pulse width
(50 Hz at 50% duty cycle)
Internal 18 V, 3k ohm pull up
ICOMn
189
Binary Input Common for all Binary Input (IN)
terminals
Note: All Binary ICOMn terminals share a
common, which is isolated from all other
commons, except the Configurable Output (CO)
common (OCOMn) when the CO is defined as
an Analog Output.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Table 71: IOU4710 and IOM4711 Field Controller Platform Wiring List
(Part 2 of 3)
Terminal Block
Label
Terminal
Labels
Function, Ratings, and Requirements
Wiring Requirements1
(See Table 65)
ANALOG
(Outputs)
OUTn
Analog Output - Voltage Mode (0-10 VDC)
10 VDC maximum output voltage
10 mA maximum output current
Requires an external load of 1,000 ohm or
more.
Note: The AO operates in Voltage Mode when
connected to devices with impedances greater
than 1,000 ohm. Devices that drop below
1,000 ohm may not operate as intended for
Voltage Mode applications.
A
Analog Output - Current Mode (4-20 mA)
Requires an external load between 0300 ohm.
Note: The AO operates in Current Mode when
connected to devices with impedances less than
300 ohm. Devices that exceed 300 ohm may not
operate as intended for Current Mode
applications.
B
OCOMn
Analog Output Signal Common for all Analog
OUT terminals.
Note: All Analog OCOMn terminals share a
common, which is isolated from all other
commons.
Same as (Analog) OUTn.
OUTn
Binary Output - 24 VAC Triac (External
Power)
Connects OUTn to OCOMn when activated.
External Power Source:
24 VAC maximum output voltage
0.5 A maximum output current
Maximum 6 cycles/hour with M9220-BGx-3
40 mA minimum load current
C
OCOMn
Binary Output Common (for OUTn terminal)
Note: Each Binary Output common terminal
(OCOMn) is isolated from all other commons,
including other Binary Output commons.
BINARY
(Outputs)
Power Selection
Jumper positioned
to External (EXT).
190
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Table 71: IOU4710 and IOM4711 Field Controller Platform Wiring List
(Part 3 of 3)
Terminal Block
Label
Terminal
Labels
Function, Ratings, and Requirements
Wiring Requirements1
(See Table 65)
BINARY
(Outputs)
Power Selection
Jumper positioned
to Internal (INT).
OUTn
Binary Output - 24 VAC Triac (Internal Power)
Sources internal 24 VAC power (24~ HOT)
C
OCOMn
Binary Output - 24 VAC Triac (Internal Power)
Connects OCOMn to 24~ COM when activated.
Internal Power Source:
24 VAC maximum voltage to load
0.5 A maximum output current
Maximum 6 cycles/hour with M9220-BGx-3
40 mA minimum load current
OUTn
Analog Output - Voltage Mode (0–10 VDC)
10 VDC maximum output voltage
10 mA maximum output current
Requires an external load of 1000 ohm or
more
A
Binary Output 24 VAC Triac
Connects OUT to OCOM when activated.
External Power Source:
24 VAC maximum voltage to load
0.5 A maximum output current
Maximum 6 cycles/hour with M9220-BGx-3
40 mA minimum load current
C
Analog Output Signal Common: All
Configurable Outputs defined as Analog Outputs
share a common, which is isolated from all other
commons except the Binary Input common.
Binary Output Signal Common: All
Configurable Outputs defined as Binary Outputs
are isolated from all other commons, including
other Configurable Output commons.
Same as (Configurable)
OUTn.
CONFIGURABLE
(Outputs)
OCOMn
1.
191
All wiring requires SMOKE-MOVKIT-0U transient protectors for all MS/TP I/O terminal connections. See MS/TP
Bus Overview for more information.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Troubleshooting
Use Table 72 to troubleshoot the IOU4710 and IOM4711 controllers.
Table 72: IOU4710 and IOM4711 LED Indicators
LED Label
Color
Normal
Descriptions
POWER
Green
On Steady
On Steady = Power is Supplied by Primary Voltage.
Off = No Power, or the controller’s polyswitch/resettable fuse is open.
Check Output wiring for short circuits and cycle power to the
controller.
FAULT
Red
Off
Off Steady = No Faults
On Steady = Device Fault; no application loaded; Main Code
download required, if controller is in boot mode, or a firmware
mismatch exists.
Blink – 2 Hz = Download or startup in progress, not ready for normal
operation
SA/FC BUS
Green
Blink – 2 Hz
Blink – 2 Hz = Data Transmission (Normal Communication)
Off Steady = No Data Transmission (N/A – auto baud not supported)
On Steady = Communication lost, waiting to join communication ring
EOL
(IOM4711 Only)
Amber
Off
(Except on
terminating
devices)
On Steady = EOL switch in ON position
Off Steady = EOL switch in Off position
IOMx710-0U Specifications
Table 73: IOM Series Specifications
192
Category
Specification
Product Code Numbers
MS-IOM171x-0U – 4-Point Input/Output Module
MS-IOM271x-0U – 6-Point Input/Output Module
MS-IOM371x-0U – 12-Point Input/Output Module
MS-IOU4710-0U – 17-Point Input/Output Module
MS-IOM4711-0U – 17-Point Input/Output Module
Supply Voltage
24 VAC, 60 Hz, power supply Class 2 (North America)
Power Consumption
14 VA maximum
VA rating does not include any power supplied to the peripheral devices connected to
Binary Outputs (BOs) or Configurable Outputs (COs), which can consume up to 12
VA for each BO or CO; for a possible total consumption of an additional 96 VA
(maximum).
Ambient Conditions
Operating: 0 to 49°C (32 to 120°F); 10 to 90% RH noncondensing
Storage: -40 to 80°C (-40 to 176°F); 5 to 95% RH noncondensing
Addressing
DIP switch set; valid field controller device addresses 4–127
(Device addresses 0–3 and 128–255 are reserved and not valid IOM addresses).
Communications Bus
BACnet MS/TP, RS-485
3-wire FC Bus between the supervisory controller and field devices
4-wire SA Bus between field controller, network sensors, and other sensor/actuator
devices, includes a lead source 15 VDC supply power (from field controller) to bus
devices.1
Processor
MS-IOMx710-0U and MS-IOU4710-0U: H8S Renesas® 16-bit microcontroller
MS-IOMx711-0U: H8SX/166xR Renesas® 32-bit microcontroller
Memory
IOM171x, IOM271x, and IOM371x Models: 640 KB Flash Memory and 128 KB
Random Access Memory (RAM)
IOU4710 and IOM4711 Models: 1 MB Flash Memory and 512 KB RAM
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Table 73: IOM Series Specifications
Category
Specification
Input and Output
Capabilities
IOM1710 and IOM1711:
4 - Binary Inputs: Defined as Dry Contact Maintained or Pulse Counter/Accumulator
Mode
IOM2710 and IOM2711:
2 - Universal Inputs: Defined as 0–10 VDC, 4–20 mA, 0–600k ohm, or Binary Dry
Contact
2 - Universal Outputs: Defined as Dry Contact Maintained or Pulse Counter/
Accumulator Mode
2 - Relay Outputs (Single-Pole, Double-Throw) Rate as:
24 VAC maximum voltage
0.5 A maximum current
IOM3710 and IOM3711:
4 - Universal Inputs: Defined as 0–10 VDC, 4–20 mA, 0–600k ohm, or Binary Dry
Contact
4 - Universal Outputs: Defined as Dry Contact Maintained or Pulse Counter/
Accumulator Mode
4 - Relay Outputs (Single-Pole, Double-Throw) Rate as:
24 VAC maximum voltage
0.5 A maximum current
IOU4710 and IOM4711:
6 - Universal Inputs: Defined as 0–VDC, 4–20 mA, 0–600k ohm, or Binary Dry
Contact
2 - Binary Inputs: Defined as Dry Contact Maintained or Pulse Counter/Accumulator
Mode
3 - Binary Outputs: Defined as 24 VAC Triac (selectable internal or external source
power)
4 - Configurable Outputs: Defined as 0–10 VDC or 24 VAC Triac BO
2 - Analog Outputs: Defined as 0–10 VDC or 4–20 mA
193
Analog Input/Analog
Output Resolution and
Accuracy
Analog Input: 16-bit resolution
Analog Output: 16-bit resolution and ±200 mV in 0–10 VDC applications
Terminations
Input/Output: Fixed Screw Terminal Blocks
SA/FC Bus and Supply Power: 4-Wire and 3-Wire Pluggable Screw Terminal Blocks
SA/FC Bus Port: RJ-12 6-Pin Modular Jacks
Mounting
Horizontal on single 35 mm DIN rail mount (preferred), or screw mount on flat surface
with three integral mounting clips on controller
Housing
Enclosure material: ABS and polycarbonate UL94 5VB; Self-extinguishing, Plenumrated Protection Class: IP20 (IEC529)
Dimensions
(Height x Width x Depth)
IOM1710 Model: 108 x 127 x 58 mm (4-1/4 x 5 x 2-1/4 in.)
IOM1711 and IOM2711 Models: 150 x 120 x 53 mm (5-7/8 x 4-3/4 x 2-1/8 in.)
including terminals and mounting clips
IOM2710 Model: 180 x 127 x 58 mm (7-1/16 x 5 x 2-1/4 in.)
IOM3710 Model: 180 x 127 x 58 mm (7-1/16 x 5 x 2-1/4 in.)
IOU4710 Model: 180 x 127 x 58 mm (7-1/16 x 5 x 2-1/4 in.)
IOM3711 and IOM4711 Models: 150 x 190 x 53 mm (5-7/8 x 7-1/2 x 2-1/8 in.)
including terminals and mounting clips
For all models, mounting space requires an additional 50 mm (2 in.) space on top,
bottom, and front face of controller for easy removal, ventilation, and wire
terminations.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Table 73: IOM Series Specifications
Category
Specification
Weight
IOM1710: 0.31 kg (0.7 lb)
IOM2710: 0.48 kg (1.1 lb)
IOM3710: 0.55 kg (1.2 lb)
IOU4710: 0.68 kg (1.5 lb)
IOMx711: 0.5 kg (1.1 lb) maximum
Compliance
United States: UL Listed, File E107041, CCN PAZX, UL 916, Energy Management
Equipment
FCC Compliant to CFR, Part 15, Subpart B, Class A
UL Listed, File S4977, UUKL, UL 864 Ninth Edition, Smoke Control System
Equipment
Canada: UL Listed, File E107041, CCN PAZX7, CAN/CSA C22.2 No. 205, Signal
Equipment
UL Listed, File S4977, CCN UUKLC, ORD-C100-13 Standard for Control Units for
Fire Alarm Systems
Industry Canada Compliant, ICES-003
Australia and New Zealand: C-Tick Mark, Australia/NZ Emissions Compliant
BACnet International: BACnet Testing Laboratories (BTL) 135-2004 Listed BACnet
Application Specific Controller (B-ASC)
1.
194
For more information, see the MS/TP Bus Overview section.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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UL/ULC Label Placement
UL/ULC Listing labels must be positioned as shown in Figure 117, Figure 118,
Figure 119, Figure 120, Figure 121, and Figure 122.
Figure 117: UL/ULC Label Placement for the MS-IOM1710-0U (Top)
and MS-IOM2710-0U (Bottom)
195
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Figure 118: UL/ULC Label Placement for the MS-IOM3710-0U (Top)
and MS-IOU4710-0U (Bottom)
196
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Figure 119: UL/ULC Label Placement for the MS-IOM1711-0U
197
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Figure 120: UL/ULC Label Placement for the MS-IOM2711-0U
198
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Figure 121: UL/ULC Label Placement for the MS-IOM3711-0U
199
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Figure 122: UL/ULC Label Placement for the MS-IOM4711-0U
200
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VMA16 Series Controllers
The Variable Air Volume (VAV) Modular Assembly (VMA) 16 Series controllers
are programmable digital controllers that communicate over a BACnet® MS/TP
field bus. Included in the VMA16 Series, the VMA1610 and VMA1620
controllers have integral air-pressure sensors and a damper actuator in a pre-wired
unit. VMA16 Series controllers connect easily to the NS Series Network Sensors
for zone and discharge air temperature sensing and control.
Figure 123: VMA16 Series Controller
Mounting
Observe these guidelines when mounting a VMA16 Series controller:
IMPORTANT: When the air supply to the VAV box is below 10°C (50°F),
make sure that any condensation on the VAV box, particularly on the damper
shaft, does not enter the electronics. Mount the VMA vertically above the
damper shaft to allow any shaft condensation to fall away from the VMA
controller. Additional measures may be required in some installations.
201
•
Ensure the mounting surface can support the VMA and any user-supplied
enclosure.
•
Mount the VMA in an approved smoke listed enclosure. See Table 86 for
approved smoke listed VMA enclosures (Product Code Numbers 00-00051-01
and 00-0052-01).
•
Use shims or washers to mount the VMA securely and evenly on the mounting
surface.
•
Mount the VMA in an area free of corrosive vapors and observe the Ambient
Conditions listed in Table 78.
•
Provide for sufficient space around the VMA for cable and wire connections
and good ventilation through the controller (50 mm [2 in.] minimum on the
top, bottom, sides and front of the controllers).
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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•
Do not mount the VMA on surfaces prone to vibration, such as duct work, or in
areas where electromagnetic emissions from other devices or wiring can
interfere with controller communication.
On panel or enclosure mount applications, observe these additional guidelines:
•
Do not install the VMA in an airtight enclosure.
•
Mount the VMA so that the enclosure walls do not obstruct cover removal or
ventilation through the controller.
•
Mount the VMA so that the power transformer and other devices do not radiate
excessive heat to the controller.
Note: When you order a smoke control VMA controller from ETI or the factory,
it has to be mounted in a panel approved for smoke control from Table 86.
Note: ETI does not factory-install MS/TP or I/O transient surge suppression;
therefore, all MOV kits must be installed in the field.
VMA16 Programming and Configuration Details
VMA16 controllers can be programmed and installed by branch technicians, field
engineers, service technicians, and the Johnson Controls factory.
Use the following information links to configure all Smoke Control VMA models.
Determining the FC Bus Address
See Device Addresses on the MS/TP Bus for detailed information.
Setting the FC Bus Address
See Setting a Device Address for detailed information.
FC Bus End-of-Line Switch
See End-of-Line Termination on the MS/TP Bus for detailed information.
Commissioning the VMA
Commission all Smoke Control VMA models through the NxE pass-through and
FC communication bus and the Controller Configuration Tool (CCT) Release 5.1
software.
202
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Wiring
!
!
!
CAUTION: Risk of Electric Shock.
Disconnect the power supply before making electrical connections to
avoid electric shock.
CAUTION: Risk of Property Damage.
Do not run network communication cables in the same conduit,
raceway, or panel with any high voltage (greater than 30 VAC)
wiring. Isolate all network wiring and all network devices from highvoltage wiring and equipment. Failure to isolate network wiring and
network devices from high-voltage wiring and equipment can result
in damage to network devices or poor network performance.
CAUTION: Risk of Property Damage.
Do not apply power to the system before checking all wiring
connections. Short circuited or improperly connected wires may
result in permanent damage to the equipment.
IMPORTANT: Do not exceed the controller electrical ratings. Exceeding
controller electrical ratings can result in permanent damage to the controller and
void any warranty.
IMPORTANT: Use copper conductors only. Make all wiring in accordance
with local, national, and regional regulations.
IMPORTANT: Electrostatic discharge can damage controller components.
Use proper electrostatic discharge precautions during installation, setup, and
service to avoid damaging the controller.
For more information on the rules of the MS/TP Communications Bus, see the
MS/TP Field Bus section in this document.
To wire the VMA:
1. Terminate wiring per engineering drawings.
2. Wire network sensors and other devices to the SA Bus or Sensor socket.
3. Wire the FC Bus in a daisy chain.
4. Ensure the device address DIP switches are set to the appropriate hardware
address, between 4–127.
5. Add SMK-MOVKIT-MSTP transient protector kits to all FC and SA Bus
communication terminal block connections. See MS/TP Required Transient
Protection for details.
203
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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6. Add SMOKE-MOVKIT-0U transient protectors to all MS/TP I/O terminal
connections. See MS/TP Required Transient Protection for details
7. Connect power to the VMA.
Figure 124: VMA1610/1620 Wiring
204
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Table 74: VMA16 Controller Wiring (Part 1 of 2)
Terminal Block
Label
BINARY
(Outputs)
205
Terminal
Labels
Function, Ratings, and Requirements
Wiring Requirements1
(See Table 76)
+15 V
15 VDC Power Source for active (3-wire) input
devices connected to the Universal INn
terminals.
Provides 100 mA total current.
Same as (Universal) INn.
Note: Use 3-wire cable for
devices that source power
from the +15 V terminal.
INn
Analog Input - Voltage Mode (0–10 VDC)
10 VDC maximum input voltage
Internal 75k ohm Pulldown
A
Analog Input - Resistive Mode (0–600k ohm)
Internal 12 V, 15k ohm pull up
Qualified Sensors: 0–2k potentiometer,
RTD (1k Nickel [Johnson Controls sensor],
1k Platinum, and A99B Silicon Temperature
Sensor)
Negative Temperature Coefficient (NTC)
Sensor
(10k Type L, 10k JCI Type II, 2.252k Type II)
A
Binary Input - Dry Contact Maintained Mode
1 second minimum pulse width
Internal 12 V, 15k ohm pull up
A
ICOMn
Universal Input Common for all Universal IN
terminals
Note: All Universal ICOMn terminals share a
common, which is isolated from all other
commons.
Same as (Universal) INn.
OUTn
Binary Output - 24 VAC Triac (Internal
Power)
Sources internal 24 VAC power (24~ HOT)
C
OCOMn
Binary Output - 24 VAC Triac (Internal
Power)
Connects OCOMn to 24~ COM when activated.
Internal Power Source:
24 VAC maximum voltage to load
0.5 A maximum output current
Maximum 6 cycles/hour with M9220-BGx-3
40 mA minimum load current
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Table 74: VMA16 Controller Wiring (Part 2 of 2)
Terminal Block
Label
Terminal
Labels
Function, Ratings, and Requirements
Wiring Requirements1
(See Table 76)
CONFIGURABLE
(Outputs)
OUTn
Analog Output - Voltage Mode (0–10 VDC)
10 VDC maximum output voltage
10 mA maximum output current
External 1k to 50K ohm load required
A
Binary Output 24 VAC Triac
Connects OUT to OCOM when activated.
External Power Source:
24 VAC maximum voltage to load
0.5 A maximum output current
Maximum 6 cycles/hour with M9220-BGx-3
40 mA minimum load current
C
Analog Output Signal Common: All
Configurable Outputs defined as Analog
Outputs share a common, which is isolated
from all other commons except the Binary Input
common.
Binary Output Signal Common: All
Configurable Outputs defined as Binary
Outputs are isolated from all other commons,
including other Configurable Output commons.
Same as (Configurable)
OUTn.
OCOMn
1.
Requires SMOKE-MOVKIT-0U transient protectors for all MS/TP I/O terminal connections. See MS/TP Field
Controller I/O Transient Protection for wiring details.
Table 75: VMA16 Communication Bus and Supply Power Terminal Blocks,
Functions, Ratings, Requirements, and Cables
Terminal
Block/Port
Label
Terminal
Labels
Function, Electrical Ratings/Requirements
Recommended Cable Type
FC BUS1, 2
+
-
FC Bus Communications
COM
Signal Reference (Common) for bus communications
0.6 mm (22 AWG) stranded, 3-wire
twisted, shielded cable
recommended
SHLD
Isolated terminal (optional shield drain connection)
+
-
SA Bus Communications
COM
SA Bus Signal Reference and 15 VDC Common
SA PWR
15 VDC Supply Power for Devices on the SA Bus
SENSOR2, 3
(SA Bus Port)
SENSOR
RJ-12 6-Position Modular Connector provides:
SA Bus Communications
SA Bus Signal Reference and 15 VDC Common
15 VDC Power for devices on the SA Bus and
Wireless Commissioning Converter.
24 AWG 3-pair CAT 3 Cable
<30.5 m (100 ft)
24~
HOT
24 VAC Power Supply - Hot
Supplies 24 VAC
0.8 mm to 1.5 mm2
(20 to 16 AWG) 2-wire
COM
24 VAC Power Supply Common (Isolated from all other
Common terminals on controller)
SA
1.
2.
206
BUS1, 2, 3
0.6 mm (22 AWG) stranded, 4-wire
(2 twisted-pairs), shielded cable
recommended
Note: The + and - wires are one
twisted pair and the COM and
SA PWR are the second twisted
pair of wires.
Requires SMK-MOVKIT-MSTP transient protector kit for all MS/TP communication terminal connections. See FC Bus
Overview and SA Bus Overview for wiring details.
The SA Bus and the FC Bus specifications in this table are for MS/TP communications at 38.4k baud. For more information,
see the MS/TP Field Bus section in this document.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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3.
The SA Bus and the Sensor Port are daisy-chained internally.
VMA Wire Gauge and Length Guidelines
Use Table 76 for all VMA wiring.
Table 76: Wire Gauge and Length Guidelines
Guideline
Wire Size/Gauge and Type
Maximum Cable Length
and Type
Assumptions
A
1.5 mm2 (18 AWG) stranded copper
457 m (1,500 ft) twisted wire
0.8 mm (20 AWG) stranded copper
297 m (975 ft) twisted wire
0.6 mm (22 AWG) stranded copper
183 m (600 ft) twisted wire
N/A (24 AWG) stranded copper
107 m (350 ft) twisted wire
100 mV maximum voltage
drop
Depending on the cable
length and the connected
input or output device, you
may have to define an offset
in the setup software for the
input or output point.
1.5 mm2 (18 AWG) stranded copper
229 m (750 ft) twisted wire
0.8 mm (20 AWG) stranded copper
137 m (450 ft) twisted wire
0.6 mm (22 AWG) stranded copper
91 m (300 ft) twisted wire
N/A (24 AWG) stranded copper
61 m (200 ft) twisted wire
See Figure 125 to select wire size/
gauge. Use stranded copper wire.
See Figure 125 to determine
cable length. Use twisted
wire cable.
B
C
100 mV maximum voltage
drop
Depending on the cable
length and the connected
input or output device, you
may have to define an offset
in the setup software for the
input or output point.
N/A
Length
137.2 m (450 ft)
121.9 m (400 ft)
106.7 m (350 ft)
2
1.5 mm (18 AWG)
91.4 m (300 ft)
76.2 m (250 ft)
0.8 mm (20 AWG)
45.7 m (150 ft)
FIG:wir_lngth
61 m (200 ft)
0.6 mm (22 AWG)
30.5 m (100 ft)
N/A (24 AWG )
15.2 m (50 ft)
0 m (0 ft)
0
50
100
150
200
250
300
350
400
450
500
Load Current (mA)
Figure 125: Maximum Wire Length by Current and Wire Size
207
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Troubleshooting
Use Table 77 to troubleshoot the VMA controllers.
Table 77: VMA16 Series Controller Status Light-Emitting Diodes (LEDs)
LED Label
LED
Color
Normal
State
Descriptions of LED States
POWER
Green
On Steady
Off Steady = No Power
On Steady = Power is supplied by Primary Voltage.
FAULT
Red
Off Steady
Blink - 2 Hz = Download or Startup in progress, not ready for normal
operation
Off Steady = No Faults
On Steady = Device Fault or no application loaded
FC BUS
Green
Blink - 2 Hz
Blink - 2 Hz = Data Transmission (normal communication)
Off Steady = No Data Transmission (auto baud in progress)
On Steady = Communication lost, waiting to join communication ring
SA BUS
Green
Blink - 2 Hz
Blink - 2 Hz = Data Transmission (normal communication)
Off Steady = No Data Transmission (N/A - auto baud not supported)
On Steady = Communication lost, waiting to join communication ring
Specifications
Table 78: VMA16 Controllers (Part 1 of 2)
208
Category
Specification
Product Code
Numbers
MS-VMA1610-xU: Cooling Only
MS-VMA1620-xU: Cooling with Reheat and Fan Control
Supply Voltage
24 VAC, 60 Hz, power supply Class 2 (North America)
Power
Consumption
10 VA typical, 14 VA maximum
Note: VA rating does not include any power supplied to the peripheral devices connected to
Binary Outputs (BOs) or Configurable Outputs (COs), which can consume up to 12 VA for
each BO or CO; for a possible total consumption of an additional 60 VA (maximum).
Ambient
Conditions
Operating: 0 to 49°C (32 to 120°F)
Storage: -40 to 70°C (-40 to 158°F)
Terminations
Inputs/Outputs: 6.3 mm (1/4 in.) spade lugs
FC Bus, SA Bus, and Supply Power: 4-Wire and 3-Wire Pluggable Screw Terminal Blocks
Sensor Port: RJ-12 6-Pin Modular Jacks
Controller
Addressing
DIP switch set; valid field controller device addresses 4–127
(Device addresses 0–3 and 128–255 are reserved and not valid field controller addresses.)
Communications
Bus
BACnet MS/TP, RS-485:
3-wire FC Bus between the supervisory controller and field controllers
4-wire SA Bus between VMA controller, network sensors and other sensor/actuator devices,
includes a terminal to source 15 VDC supply power from VMA to SA Bus devices.1
Analog Input/
Analog Output
Resolution
Analog Input: 15-bit resolution
Analog Output: 16-bit resolution and ±200 mV in 0–10 VDC applications
Air Pressure
Differential
Sensor
Setra transducer, differential pressure to electrical, 0 to 38.1 mm (0 to 1.5 in.) WC, 0.5 to 4.5
VDC, 5 VDC supply, aluminum plated.
Performance Characteristics:
Combined Repeatability and Hysteresis Error: ±0.05% of Full Span Maximum
Non-linearity Errors (Best Fit Method): ±1.0% of Full Span Maximum
Response Time (to within 63% of Full Scale Pressure with Step Change on Input): 15 ms
Temperature Error from 15.6 to 48.9°C (60 to 120°F)
Null: ±0.06% of Full Span per °F Maximum
Span: ±1.5% of Full Span Maximum
Stability, Null: ±0.5% of Full Scale Maximum, 1 Year Minimum
Stability, Span: ±2.0% of Full Scale Maximum, 1 Year Minimum
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Table 78: VMA16 Controllers (Part 2 of 2)
Category
Specification
Actuator Rating
Torque: 4 N·m (35 lb·in)
Stroke Time: 60 sec at 60 Hz, 72 sec at 50 Hz
Minimum Shaft Length: 44 mm (1-3/4 in.)
Mounting
Mounts to damper shaft using single set screw and to duct with single mounting screw.
Dimensions
(Height x Width x
Depth)
182 x 182 x 64 mm (7-3/16 x 7-3/16 x 2-1/2 in.)
Note: Center of output hub to center of anti-rotation slot is 160 mm (6-5/16 in.).
Weight
0.86 kg (1.9 lb)
Compliance
United States
UL Listed, File E107041, CCN PAZX, UL 916, Energy Management Equipment
FCC Compliant to CFR, Part 15, Subpart B, Class A
UL Listed, File S4977, UUKL, UL 864 Ninth Edition, Smoke Control System Equipment
Canada
UL Listed, File E107041, CCN PAZX7, CAN/CSA C22.2 No. 205, Signal Equipment
UL Listed, File S4977, CCN UUKLC, ORD-C100-13 Standard for Control Units for Fire Alarm
Systems
Industry Canada Compliant, ICES-003
Europe
CE Mark – Johnson Controls, Inc., declares that this product is in compliance with the
essential requirements and other relevant provisions of the EMC Directive 2004/108/EC, and
the Low Voltage Directive 2006/95/EC.
Australia and New Zealand
C-Tick Mark, Australia/NZ Emissions Compliant.
BACnet International
BACnet Testing Laboratories™ (BTL) 135-2004 Listed BACnet Application Specific Controller
(B-ASC)
1.
209
For more information, see the MS/TP Bus Overview section in this document.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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UL/ULC Label Placement
UL/ULC Listing labels must be positioned as shown in Figure 126 and Figure 127.
Figure 126: UL/ULC Label Placement for MS-VMA1610-xU
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Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Figure 127: UL/ULC Label Placement for MS-VMA1620-xU
211
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MS/TP NS Series Network Sensors
The MS/TP NS Series Network Sensors are SA Bus electronic zone sensors
designed to function directly with Metasys® system BACnet® protocol FECs,
IOMs, and VMA16 controllers (Figure 128). NS Series sensors are available in
either temperature only or temperature and humidity models.
See NS Series Network Sensors Selection Charts for ordering information.
Figure 128: NS Series Network Sensors
Specifications
Table 79: NS Series Network Zone Sensors — Temperature Only Models and
Temperature and Humidity Models (Part 1 of 2)
Category
Specification
Supply Voltage
9.8 to 16.5 VDC; 15 VDC Nominal (From SA Bus)
Current Consumption
Temperature Only Models with LCD Display: 21 mA Maximum (Nontransmitting)
Temperature Only Models without LCD Display: 13 mA Maximum (Nontransmitting)
Temperature and Humidity Models with LCD Display: 25 mA Maximum
(Non-transmitting)
Temperature and Humidity Models without LCD Display: 17 mA Maximum
(Non-transmitting)
Terminations
Modular Jack or Screw Terminal Block
Sensor Addressing
NS-AHx7003-0, NS-APB7003-0, NS-ATx7003-0, NS-BHx7003-0, NSBPB7003-0, NS-BTB7003-0, NS-BTN7003-0, and NS-BTP7003-0 Models: DIP
Switch Set from 200 to 203; Factory Set at 203
All Other Models: Fixed Address of 199
Wire Size
Modular Jack Models: 24 AWG or 26 AWG (0.5 or 0.4 mm Diameter)
Recommended; Three Twisted Pair (Six Conductors)
Screw Terminal Block Models: 18 to 22 AWG (1.0 to 0.6 mm Diameter); 22
AWG (0.6 mm Diameter) Recommended
Communication Rate
212
Auto-Detect: 9.6k, 19.2k, 38.4k, or 76.8k bps
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Table 79: NS Series Network Zone Sensors — Temperature Only Models and
Temperature and Humidity Models (Part 2 of 2)
Category
Specification
Mounting
Surface-Mounted: 80 x 80 mm
Surface-Mounted or Vertical Wallbox-Mounted: 120 x 80 mm
Temperature Measurement
Range
32.0°F/0.0°C to 104.0°F/40.0°C
Humidity Measurement Range
Full Range: 0 to 100% RH
Calibrated Range: 10 to 90% RH
Temperature Sensor Type
Local Platinum Resistance Temperature Detector (RTD)
Humidity Sensor Type
Thin Film Capacitive Sensor
Temperature Resolution
(Models with LCD)
±0.5F°/±0.5C°
Temperature Sensor Accuracy
±1.0F°/±0.6C°
Humidity Element Accuracy
NS-APx700x-0 and NS-BPB700x-0 Models: ±2% RH for 20 to 80% RH; ±4%
RH for 10 to 20% and 80 to 90% RH
NS-AHx700x-0 and NS-BHx700x-0 Models: ±3% RH for 20 to 80% RH; ±6%
RH for 10 to 20% and 80 to 90% RH
Time Constant
10 Minutes Nominal at 10 fpm Airflow
Default Temperature Setpoint
Adjustment Range
With LCD Display: 50.0°F/10.0°C to 86.0°F/30.0°C in 0.5° Increments
Ambient Conditions
Operating: 32 to 104°F (0 to 40°C); 10 to 90% RH, Noncondensing; 85°F (29°C)
Maximum Dew Point
Without LCD Display: ±5.0F°/±3.0C°
Storage with LCD Display: -4 to 140°F (-20 to 60°C); 5 to 95% RH,
Noncondensing
Storage without LCD Display: -40 to 158°F (-40 to 70°C); 5 to 95% RH,
Noncondensing
Compliance
BACnet
International
BACnet Testing Laboratories™ (BTL) 135-2004 Listed BACnet Smart Sensor (BSS)
Note: Excludes the NS-ATV700x-0 and NS-BTV700x-0 models.
United
States
UL Listed, File E107041, CCN PAZX, Under UL 916, Energy Management
Equipment;
FCC Compliant to CFR 47, Part 15, Subpart B, Class A
Canada
UL Listed, File E107041, CCN PAZX7, Under CAN/CSA C22.2 No. 205, Signal
Equipment;
Industry Canada, ICES-003
Europe
CE Mark – Johnson Controls, Inc., declares that this product is in compliance with
the essential requirements and other relevant provisions of the
EMC Directive 2004/108/EC.
Australia
and New
Zealand
C-Tick Mark, Australia/NZ Emissions Compliant
Accessory (Order Separately)
NS-WALLPLATE-0: Adapts an 80 x 80 mm NS Series Network Zone Sensor to
a Standard 80 x 120 mm Wallbox
Shipping Weight
NS-Axx7xxx-0 Models: 0.20 lb (0.09 kg)
NS-Bxx7xxx-0 Models: 0.25 lb (0.11 kg)
213
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Table 80: NS Series Network Zone Sensor — CO2 Models
Category
Specification
Supply Voltage
Non-isolated: 20 to 30 VAC (18 to 30 VDC), Class 2 or Safety Extra-Low Voltage
(SELV)
Isolated: 9.8 to 16.5 VDC; 15 VDC Nominal (From SA Bus)
Current Consumption
Non-isolated: 22 mA Average at 24 VAC; 28 mA Average at 24 VDC
Isolated: 5 mA Maximum, Non-transmitting (From SA Bus)
Power Consumption
Non-isolated: Less Than 0.7 W Average
Terminations
Non-isolated Supply: Screw Terminal Block
SA Bus: Modular Jack or Screw Terminal Block
Sensor Addressing
DIP Switch Set from 212 to 219; Factory Set at 212
Wire Size
Modular Jack: 24 AWG or 26 AWG (0.5 or 0.4 mm Diameter) Recommended;
Three Twisted Pair (Six Conductors)
Screw Terminal Block: 18 to 22 AWG (1.0 to 0.6 mm Diameter); 22 AWG (0.6
mm Diameter) Recommended
Communication Rate
Auto-Detect: 9.6k, 19.2k, 38.4k, or 76.8k bps
CO2 Measurement Range
0 to 2,000 ppm
CO2 Sensing Accuracy
Plus or Minus the Sum of 50 ppm and 3.0% of the CO2 Reading at 77°F (25°C)
and 978 hPa or an Altitude of 1,000 ft/300 m
Note: All accuracy specifications reflect the testing of the device using highgrade certified gases. This device is intended for an altitude range of 0 ft/
0 m to 2,000 ft/600 m above sea level without compensation.
Temperature Dependence of Output: -0.35% of the CO2 Reading per 1.8F°/
1C° Typical
Pressure Dependence of Output: +0.15% of the CO2 Reading per 1 hPa
Typical
CO2 Sensing Resolution
1 ppm
CO2 Sensing Response Time
1 Minute (0 to 90%)
CO2 Sensing Warm-Up Time
Less Than 1 Minute; Less Than 10 Minutes for Full Accuracy
CO2 Sensing Long-Term
Stability
Less Than ±100 ppm Over 5 Years
Mounting
Surface-Mounted or Vertical Wallbox-Mounted: 120 x 80 mm
Ambient Conditions
Operating: 32 to 104°F (0 to 40°C); 10 to 90% RH, Noncondensing; 85°F (29°C)
Maximum Dew Point; 700 to 1,200 hPa
Storage: -40 to 158°F (-40 to 70°C); 0 to 95% RH, Noncondensing
Compliance
Shipping Weight
214
BACnet
International
BACnet Testing Laboratories™ (BTL) 135-2004 Listed BACnet Smart Sensor (BSS)
United
States
UL Listed, File E107041, CCN PAZX, Under UL 916, Energy Management
Equipment;
FCC Compliant to CFR 47, Part 15, Subpart B, Class A
Canada
UL Listed, File E107041, CCN PAZX7, Under CAN/CSA C22.2 No. 205, Signal
Equipment; Industry Canada, ICES-003
Europe
CE Mark – Johnson Controls, Inc., declares that this product is in compliance with
the essential requirements and other relevant provisions of the EMC Directive
2004/108/EC.
Australia
and New
Zealand
C-Tick Mark, Australia/NZ Emissions Compliant
0.35 lb (0.16 kg)
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Table 81: NS Series Network Zone Sensor — Flush-Mount Temperature Only
Model
Category
Specification
Supply Voltage
9.8 to 16.5 VDC; 15 VDC Nominal (From SA Bus)
Current Consumption
12 mA Maximum (Non-transmitting) per Flush-Mount Network Sensor
Terminations
Screw Terminal Block
Note: Wire leads are field supplied and are not tinned.
Sensor Addressing
DIP Switch Set from 200 to 203; Factory Set at 203
Wire Size
18 to 22 AWG (1.0 to 0.6 mm Diameter); 22 AWG (0.6 mm Diameter)
Recommended;
10 ft (304.8 cm) Wiring Lead Included with the Unit
Communication Rate
Auto-Detect: 9.6k, 19.2k, 38.4k, or 76.8k bps
Temperature Measurement
Range
32.0°F/0.0°C to 104.0°F/40.0°C
Temperature Sensor Type
Local Platinum Resistance Temperature Detector (RTD)
Temperature Sensor Accuracy
±1.0F°/±0.6C°
Ambient Conditions
Operating: 32 to 104°F (0 to 40°C); 10 to 90% RH, Noncondensing; 85°F (29°C)
Maximum Dew Point
Compliance
BACnet
International
BACnet Testing Laboratories™ (BTL) 135-2004 Listed BACnet Smart Sensor (BSS)
United
States
UL Listed, File E107041, CCN PAZX, Under UL 916, Energy Management
Equipment;
FCC Compliant to CFR 47, Part 15, Subpart B, Class A
Canada
UL Listed, File E107041, CCN PAZX7, Under CAN/CSA C22.2 No. 205, Signal
Equipment; Industry Canada, ICES-003
Europe
CE Mark – Johnson Controls, Inc., declares that this product is in compliance with
the essential requirements and other relevant provisions of the
EMC Directive 2004/108/EC.
Australia
and New
Zealand
C-Tick Mark, Australia/NZ Emissions Compliant
Storage: -40 to 158°F (-40 to 70°C); 5 to 95% RH, Noncondensing
Shipping Weight
0.25 lb (0.11 kg)
Table 82: NS Series Network Discharge Air Sensors (Part 1 of 2)
215
Category
Specification
Supply Voltage
9.8 to 16.5 VDC; 15 VDC Nominal
Current Consumption
12 mA Maximum (Non-transmitting) per Discharge Air Sensor
Terminations
Four Color-Coded Wiring Leads, Stripped and Tinned;
Factory-Installed at the Discharge Air Sensor Screw Terminal Block
Sensor Addressing
DIP Switch Set from 204 to 211; Factory Set at 204
Wire Size
18 to 22 AWG (1.0 to 0.6 mm Diameter); 22 AWG
(0.6 mm Diameter) Recommended;
10 ft (305 cm) Wiring Lead Included with the Unit
Communication Rate
Auto-Detect: 9.6k, 19.2k, 38.4k, or 76.8k bps
Mounting
Duct-Mounted: 4 or 8 in. (102 or 203 mm) Temperature Probe Length
Temperature Measurement
Range
14°F/-10°C to 140°F/60°C
Temperature Sensor Type
Local Platinum Resistance Temperature Detector (RTD)
Temperature Sensor Accuracy
±1.0F°/±0.6C°
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Table 82: NS Series Network Discharge Air Sensors (Part 2 of 2)
Category
Specification
Ambient Conditions
Operating: 0 to 49°C (32 to 120°F); 10 to 90% RH, Noncondensing; 85°F
(29°C) Maximum Dew Point
Storage: -40 to 158°F (-40 to 70°C); 5 to 95% RH, Noncondensing
Compliance
Shipping Weight
BACnet
International
BACnet Testing Laboratories™ (BTL) 135-2004 Listed BACnet Smart Sensor
(B-SS)
United
States
UL Listed, File E107041, CCN PAZX, Under UL 916, Energy Management
Equipment;
FCC Compliant to CFR 47, Part 15, Subpart B, Class A
Canada
UL Listed, File E107041, CCN PAZX7, Under CAN/CSA C22.2 No. 205, Signal
Equipment; Industry Canada, ICES-003
Europe
CE Mark – Johnson Controls, Inc., declares that this product is in compliance
with the essential requirements and other relevant provisions of the EMC
Directive 2004/108/EC.
Australia
and New
Zealand
C-Tick Mark, Australia/NZ Emissions Compliant
NS-DTN7043-0: 1.15 lb (0.52 kg)
NS-DTN7083-0: 1.17 lb (0.53 kg)
216
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Smoke Control System Software
SCT
The Release 5.2 System Configuration Tool (SCT) is used in all phases of
engineering, installation, and commissioning of NxEs and FC bus devices that
make up the Metasys smoke control system. The SCT is used offline to create
archive databases that are downloaded to a smoke control NxE. The Logic
Connector Tool (LCT), contained in the SCT, was used to create the standard
smoke control applications included on the Branch Purchase Package (BPP)
product disk. This product disk is preloaded with the following smoke control
application examples: multi-story building, warehouse, and single-story shopping
mall.
The standard smoke control applications can be installed and executed on any
smoke control NxE. Use the standard smoke control applications as written; any
sequence modification to the LCT program must be pre-approved by the AHJ. The
SCT must not be accessible to anyone other than designated qualified technicians
who are responsible for installing, commissioning, and maintaining the smoke
control site configuration. Password restriction in conjunction with SCT
accessibility prevents unauthorized editing of the smoke control sequences.
Note: The UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control
System uses the Metasys Release 5.2 version of SCT and the Release 5.1
version of CCT.
System Programming Guidelines for Smoke Control
When programming the system for smoke control applications, the system must
conform to the following guidelines.
Follow these guidelines when defining systems and objects:
217
•
Name all systems used for smoke control in a manner that makes identification
obvious. For example, the air handling unit serving the west wing on the third
floor might be called AHU3_W and the stairwell pressurization system might
be called STR_PRES.
•
Name all objects within a system used for smoke control in a manner that
makes identification obvious. For example, the outdoor air damper might be
called OSA_DMPR and the mixed air damper might be called MXA_DMPR.
•
Use engineering units that are appropriate to easily determine the current status
of a device.
•
Use the 24-character expanded ID attribute in an object definition window to
provide information that is pertinent to an object’s type and location and is
easily understood in an emergency situation.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Enclosures and Accessories
Every enclosure must be of correct metal thickness for its size, mounted, and wired
in accordance with the UL/ULC Control Units and Accessories for Fire Alarm
Systems specification. UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke
Listed enclosures are built by the Johnson Controls custom panel supplier.
The Johnson Controls factory mounts NxE controllers, switches, and all other
equipment in the smoke control network in a UL/ULC Listed enclosure. Refer to
the installation information packaged with each product. See Table 86 for
enclosure and accessory part numbers and specifications. See the Typical Panel
Layouts for UL/ULC Smoke Control Listing section for additional enclosure
information.
IMPORTANT: All smoke listed enclosures are ordered through Johnson
Controls. Device mounting is completed at the factory. Do not field-mount or
alter the mounting of any device installed in a Johnson Controls approved
smoke listed enclosure.
Field-mounting or altering the mounting of any device installed in a
Johnson Controls approved smoke listed enclosure voids the UL 864 9th Edition
UUKL/ORD-C100-13 UUKLC listing.
PAN-PWRSP-U Power Supply
The PAN-PWRSP-U Power Supply is a UL/ULC Listed and CSA Certified
Class 2 120/24 VAC power supply with a duplex outlet and power switch
(Figure 129).
Figure 129: PAN-PWRSP-U Power Supply
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Wiring the PAN-PWRSP-U Power Supply
Figure 130: PAN-PWRSP-U Power Supply
PAN-PWRSP-U Power Supply Connections
Main Power Terminal Connections
The 120 VAC supply power connects to a three-terminal block mounted on top of
the power supply.
To wire the PAN-PWRSP-U Main Power terminal, connect the 120 VAC supply
wires to the respective Hot (H), Neutral (N), and Ground (G) terminals of the Main
Power Input block (Figure 130).
On/Off Switch
An On/Off rocker switch on the right side of the power supply controls 120 VAC at
the secondary power terminal block and 24 VAC out from the power supply. The
two utility outlets are unswitched and always remain Hot.
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Switched 120 VAC Secondary Output
A switched 120 VAC source is available from the PAN-PWRSP-U Secondary
Output terminal block. This VAC source is used to power a PAN-96VAXFR-U
power supply that is mounted in the same enclosure as the PAN-PWRSP-U. A
rocker switch on the right side of the PAN-PWRSP-U controls the 120 VAC
output.
To connect to the Switched Output:
1. Connect the Hot side of the PAN-96VAXFR-U to the Hot terminal of the
PAN-PWRSP-U Secondary Power terminal block.
2. Connect the Neutral wire of the PAN-96VAXFR-U to the Neutral terminal of
the PAN-PWRSP-U Secondary Power terminal block.
IMPORTANT: Be sure the ground lug for the PAN-PWRSP-U and
PAN-96VAXFR-U are both securely mounted to the backplane.
Note: See Figure 133 on page 223 for wiring details.
Switched 24 VAC to Field - Wiring Connections
1. Connect the PAN-PWRSP-U orange wire to the field device 24 VAC Hot
terminal connection.
2. Connect the PAN-PWRSP-U brown wire to the field device 24 VAC COM
(Neutral) terminal connection.
Utility Plugs
Two factory-wired, unswitched 120 VAC utility plugs are part of the
PAN-PWRSP-U power supply. One plug is located on the front of the power
supply, and the other is located on the right side. Connecting 120 VAC to the Main
Power input terminal automatically powers the utility plugs.
Specifications
Table 83: PAN-PWRSP-U Power Supply Specifications
220
Category
Description
Power
96 VA 120/24 VAC power assembly
Receptacle
Two receptacles 120 VAC, 5A manual resettable thermal protection circuit breaker
Primary Voltage
120 VRMS
Secondary Voltage
24 VAC, 4 A Maximum
Transformer Insulation
Class 130
Transformer Class
Class 2
Operating Temperature
0 to 49°C (32 to 120°F)
Agency Listings
UL 508 CCN NMTR
CSA C22.2 No. 66-1988
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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UL/ULC Label Placement
UL/ULC Listing labels must be positioned as shown in Figure 131.
Figure 131: PAN-PWRSP-U UL/ULC Label Placement on Enclosure
(1 in. [2.5 cm] from Edge)
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PAN-96VAXFR-U Power Supply
The PAN-96VAXFR-U Power Supply is a UL/ULC Listed and CSA Certified
Class 2 120/24 VAC power supply. This power supply is used in conjunction with
a PAN-PWRSP-U power supply when loads exceed the PAN-PWRSP-U 96 VA
limit.
Figure 132: PAN-96VAXFR-U Power Supply
Specifications
Table 84: PAN-96VAXFR-U Power Supply Specifications
222
Category
Description
Power
96 VA 120/24 VAC power assembly
Receptacle
4 A secondary, manual resettable thermal protection circuit breaker
Primary Voltage
120 VRMS
Secondary Voltage
24 VAC, 4 A Maximum
Transformer Insulation
Class 130
Transformer Class
Class 2
Operating Temperature
0 to 49°C (32 to 120°F)
Agency Listings
UL 1585
CSA C22.2 No. 66-1988
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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The secondary output terminal of the PAN-PWRSP-U provides a switched
120 VAC to the PAN-96VAXFR-U.
Figure 133: PAN-PWRSP-U to PAN-96VAXFR-U Wiring
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UL/ULC Label Placement
UL/ULC Listing labels must be positioned as shown in Figure 134.
Figure 134: PAN-PWRSP-U and PAN-96VAXFR-U UL/ULC Label Placement
(1 in. [2.5 cm] from Enclosure Edge)
Power Distribution Panel and Enclosure (PA0P00010FC0-U)
The PA0P00010FC0-U is a pre-wired, pre-assembled Standard Control Panel and
enclosure that contains four 96 VA 120/24 VAC Class 2 transformers, each with
4 A manual reset secondary protection for powering Variable Air Volume (VAV)
box controllers. This predesigned solution saves both time and money by not
requiring individual transformers in every VAV box.
The PA0P00010FC0-U Control Panel is shipped complete, mounted in a
16 in. W x 20 in. H steel enclosure. In addition to the four 96 VA transformers, the
assembly also contains low-voltage terminal blocks and a 10 A circuit breaker that
provides primary protection for all four transformers.
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The PA0P00010FC0-U contains terminals that are pre-wired and pre-labeled to
match each transformer, making installing, commissioning, and servicing quicker
and easier.
Figure 135: PA0P00010FC0-U Assembly 24 VAC Power
Distribution Control Panel
Maximum devices per each 96 VA low-voltage power distribution trunk are as
follows:
•
A single VMA1610 draws a maximum of 14 VA, which means you can have a
maximum of six VMA1610s per 96 VA transformer.
•
A single VMA1620 draws a maximum of 14 VA. Adding relays, actuators, etc.
adds another 6 VA which means you can have a maximum of five VMA1620s
per 96 VA transformer.
The preceding recommendations are based on a system where every controller is
not fully loaded at all times.
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Specifications
Table 85: PA0P00010FC0-U Specifications
Category
Description
Terminal Blocks
Terminal Blocks: 1/4 in. (6 mm) Wire Slots
Wiring
All Components are Pre-wired to Terminal Blocks
Wire Size
Ground Wire: 14 AWG; Transformer Wires: 18 AWG
Enclosure Rating
Type 1
Ambient Operating Condition
32 to 120°F (0 to 49°C)
10 to 93% RH
Transformers
Four PAN-96VAXFR-U Transformers, Power, Panel Mount, 120 V
Primary, 24 V Secondary, 96 VA, Split Bobbin, 4 A Secondary Circuit
Breaker, 10 A Primary Circuit Breaker that provides primary
protection for all four transformers.
Enclosure
Type 1 with keyed lock, 16 in. W x 20 in. H x 6.62 in. D (406 mm W x
508 mm H x 168 mm D)
Agency Compliance
Control Panel: UL 508A Rated (cULus); Enclosure: UL 50 Rated,
CSA Approved
UL/ULC Label Placement
UL/ULC Listing labels must be positioned as shown in Figure 137.
Figure 136: PA0P00010FC0-U Internal Layout
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Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Figure 137: PA0P00010FC0-U UL/ULC Label Placement on Enclosure Door
(1 in. [2.5 cm] from Edge)
Smoke Control Listed Accessories in a Smoke Control Panel
Control accessories that are smoke control listed, such as the Acromag
NU-RPT101-1U repeater and media converters, can be mounted in a smoke
control enclosure provided:
1. Enough space exists to mount the devices.
2. The total power required by the smoke control devices and the control
accessories does not exceed the enclosure’s power supply transformer
rating. A second transformer may be required to satisfy total power
requirements.
3. Addition of the control accessories does not cause the ambient temperature
inside the enclosure to exceed 120°F (49°C).
Non-Smoke Control Listed Accessories in a Smoke Control Panel
Control accessories that are non-smoke control listed, such as relays, pneumatics,
and so forth, cannot be mounted in a smoke control enclosure. A separate
enclosure must be mounted in which to install all non-smoke control accessories.
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Ordering Smoke Control Enclosures
UL 864 9th Edition UUKL/ORD-C100-13 UUKLC smoke control enclosures are
available as custom or standard enclosures.
For more information on UL 864 9th Edition UUKL/ORD-C100-13 UUKLC
Smoke Control Panels, refer to the Metasys System UL 864 9th Edition UUKL/
ORD-C100-13 UUKLC Smoke Control System Catalog Page (LIT-1900612).
Custom Enclosures
Custom enclosures using UL 864 9th Edition UUKL/ORD-C100-13 UUKLC
listed MS-NAE5510-xU, MS-NAE4510-2U, MS-NAE3510-2U, MS-NCE25600U, MS-FEUx610-0U, MS-FECx611-0U, MS-IOU4710-0U, and IOMx71x-0U
controllers are ordered through the Johnson Controls, Control Panels Web site,
Custom Panels section. Use order form 1634-a to place a custom panel order.
•
Be sure to select the Smoke Control check box in the Special Conditions
section of this form.
•
If the local authority requires that a Union label be affixed to the panel, then
select the Union Label Required check box.
Standard Enclosures
Standard enclosures are preconfigured panels built by Johnson Controls using UL
864 9th Edition UUKL/ORD-C100-13 UUKLC listed MS-NAE5510-xU, MSNAE4510-2U, MS-NAE3510-2U, MS-NCE2560-0U, MS-FEC2611-0U, and MSIOM4711-0U controllers and other devices. The panels are configured with MS/
TP, I/O, or Ethernet transient surge suppression where applicable. Each panel
comes with the appropriate software version and a factory-applied UL/ULC label.
See Table 86 for a list of standard enclosure product code numbers.
IMPORTANT: All smoke listed enclosures are ordered through Johnson
Controls. Device mounting is completed at the factory. Do not field-mount or
alter the mounting of any device installed in a Johnson Controls approved
smoke listed enclosure.
Field-mounting or altering the mounting of any device installed in a
Johnson Controls approved smoke listed enclosure voids the UL 864 9th Edition
UUKL/ORD-C100-13 UUKLC listing.
VAV Box Enclosures
Custom VAV box controller enclosures using the UL 864 9th Edition UUKL/ORDC100-13 UUKLC listed MS-VMA16x0-xU controllers are ordered from
Environmental Technology, Inc. using the ETI Selection Program. To order an
enclosure, contact your Johnson Controls Sales Representative. The local branch
office is allowed to mount a MS-VMA16x0-xU controller in an enclosure
specified in Table 86 along with MOV kits for MS/TP and I/O transient surge
suppression. See Figure 138 for ETI enclosure details.
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Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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•
Be sure to select the Smoke Control Electronics Enclosure check box when
ordering a new VAV box unit from ETI.
•
For systems that have a VAV box unit that was not manufactured by ETI, order
only the Smoke Control Electronics Enclosure from ETI. Install the enclosure
on the non ETI manufactured VAV box unit to house the controller.
•
ETI does not factory-install MS/TP or I/O transient surge suppression;
therefore, all MOV kits must be installed in the field. For installation
guidelines, see MS/TP Field Communication Bus and Field Controller I/O
Transient Protection.
IMPORTANT: Operating MS/TP Bus or I/O in the field without MOV kits
installed voids the UL 864 9th Edition UUKL/ORD-C100-13 UUKLC listing.
Enclosure
Cover
Side View
Figure 138: ETI VAV Smoke Control Electronics Enclosure
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Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Enclosures Requiring a Union Label
Certain jurisdictions require that smoke control panels display a union label.
Johnson Controls must contract with an external union electrical shop to meet
Union requirements. The process to meet these requirements is:
1. The Johnson Controls Branch orders a Smoke Control Listed custom panel
requiring a Union label.
2. Johnson Controls provides all Smoke Control Listed parts.
3. Every part of the smoke control panel, including the enclosure with
manufacturer’s UL/ULC label, is inspected and labeled at the factory in
accordance with Johnson Control’s Smoke Control Listing.
4. All parts are factory mounted in an enclosure by Johnson Controls in
accordance with UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Control
Units and Accessories for Fire Alarm Systems.
5. Johnson Controls sends the pre-assembled panel to the union electrical shop.
6. The union electrical shop wires the panel in accordance with UL 864 9th
Edition UUKL/ORD-C100-13 UUKLC Control Units and Accessories for Fire
Alarm Systems, applies the union label, and sends the completed panel to the
specified smoke control site.
Enclosures Requiring External Plastic Identification Tags
A customer may require all enclosures on the job to have external plastic
identification tags indicating the areas that are being controlled. Identification tags
must be approved by the local AHJ. The local Johnson Controls branch will then
create or order the tags and apply them to the exterior of the Johnson Controls
UL 864 9th Edition UUKL/ORD-C100-13 UUKLC custom or standard
enclosures.
Upgrading to Release 5.2
When you upgrade a UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke
Control System from Release 3.0 to Release 5.2, or from Release 4.1 to Release
5.2, all NxEs must be upgraded to Release 5.2.
When you upgrade a UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke
Control System from Release 3.0 to Release 5.2, or from Release 4.1 to Release
5.2, all Field Controllers must be upgraded to Metasys Release CCT 5.1. The
exception to this is the MS-FEU1610-0U in the FSCS panel, which must be at
Release CCT 4.1.
Note: A site upgrading from Metasys Release 3.0 to Release 5.2 must send the
MS-FEU1610-0U to ADI for an upgrade to Metasys Release 4.1. The MSFEU1610-0U is used in a special manner and only ADI may change it. ADI
will program the MS-FEU1610-0U controller with CCT 4.1 using a special
tool. See the FSCS Requirements for ADI contact information.
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Only equipment listed in this document may be used in a Metasys Release 5.2 UL/
ULC Smoke Control System. Legacy equipment from Metasys Release 3.0 or 4.1
may need to be replaced before upgrading to Metasys Release 5.2
Note: A MS-NAE5510-0U controller cannot be used at Release 5.2.
IMPORTANT: Failure to follow the upgrade guidelines, requirements, and
procedures listed in this document voids the UL 864 9th Edition UUKL/ORDC100-13 UUKLC Smoke Control Listing.
Software Revision Labels
Every controller (NxE or Field Controller) in a UL 864 9th Edition UUKL/ORDC100-13 UUKLC Smoke Control System must be clearly marked with its current
software version. When a smoke control system is upgraded to Metasys Release
5.2, the Johnson Controls branch office or local installer will apply a Version 5.2
label to all NxE controllers, and a Version 5.1 label to all FEC, IOM, and VMA
controllers in the field. The labels shown in Figure 139 are printed on ULapproved label material and are listed in Table 86 under UL/ULC Listed MS/TP
Accessories.
Note: Do not apply a software revision label over any other label already affixed
to a controller.
Note: Because the MS-FEU1610-0U in the FSCS panel is programmed by ADI,
it should not have a software revision label applied to it.
Figure 139: Software Revision Labels
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Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Ordering and Revision Information
Table 86 shows ordering information and revision numbers (when applicable) for
all orderable UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control
Parts.
General Smoke Control Ordering Requirements
All Smoke Control sites must abide by the following requirements:
1. You cannot purchase a similar third-party device and install it in a UL/ULC
Listed smoke control system. Doing so voids the UL/ULC Smoke Control
Listing. Third-party devices must be provided and labeled by the factory as
described in the UL/ULC Smoke Control Listing.
2. A minimum of one UL 864 9th Edition UUKL/ORD-C100-13 UUKLC
approved Ethernet switch is required for each smoke control site. See Table 86
for a list of UL/ULC Listed Ethernet switches approved for use with Metasys
Release 5.2.
3. A PNET1GB Ethernet transient protector is required at each end of all Ethernet
communication cables. The PNET1GB transient protector must have the
strain-relief tie-wrap installed. You can use CAT5 or CAT5e Ethernet cable
between two PNET1GB devices.
4. All devices mounted in enclosures that have a 120 VAC power converter must
have the power converter connected to a TrippLite Isobar 8 Ultra surge
suppressor mounted in the same enclosure.
5. Acromag® NU-RPT101-1U repeaters must be mounted in an enclosure and
must have the 120 VAC power connected to a TrippLite Isobar 8 Ultra surge
suppressor mounted in the same enclosure.
6. All technical guidelines for Release 5.2, including products, must be followed
when upgrading from Release 3.0 or 4.1.
7. When a smoke control system is upgraded to Metasys Release 5.2, a Version
5.2 revision label must be applied to every upgraded smoke control NxE, and a
Version 5.1 revision label must be applied to every upgraded smoke control
FEC, IOM, and VMA. Do not place a revision label over any other label on the
controller.
All parts following are UL 864 9th Edition UUKL/ORD-C100-13 UUKLC listed
smoke control applications.
IMPORTANT: The Johnson Controls products listed in Table 86 have been tested and listed
by UL for use in a Metasys System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke
Control System. Installation of a product that is not UL/ULC Listed and labeled for this
application prevents the entire system from being UL/ULC Listed for smoke control.
All panels must be purchased through the Johnson Controls panel factory and labeled for
UL 864 9th Edition UUKL/ORD-C100-13 UUKLC.
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Table 86: UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control
Part Ordering / Revision Information (Part 1 of 6)
Code Number
Description
Revision
Johnson Controls Supervisory Equipment
MS-NAE5510-1U
NAE55 with MS/TP; supports two BACnet® MS/TP (RS-485 port) trunks.
UL 864 9th Edition UUKL/ORD-C100-13 UUKLC listed for smoke control
applications
SCT
5.2.11.02001
MS-NAE5510-2U
NAE55 with MS/TP; supports two BACnet MS/TP (RS-485 port) trunks.
UL 864 9th Edition UUKL/ORD-C100-13 UUKLC listed for smoke control
applications
SCT
5.2.11.02001
MS-NAE4510-2U
NAE45 with MS/TP; supports one BACnet MS/TP (RS-485 port) trunk.
UL 864 9th Edition UUKL/ORD-C100-13 UUKLC listed for smoke control
applications
SCT
5.2.11.02001
MS-NAE3510-2U
NAE35 with MS/TP; supports one BACnet MS/TP (RS-485 port) trunk.
UL 864 9th Edition UUKL/ORD-C100-13 UUKLC listed for smoke control
applications
SCT
5.2.11.02001
MS-NCE2560-0U
NCE25 with MS/TP; supports one BACnet MS/TP (RS-485 port) trunk.
UL 864 9th Edition UUKL/ORD-C100-13 UUKLC listed for smoke control
applications
SCT
5.2.11.02001
Johnson Controls Field Equipment Controllers
233
MS-FEU1610-0U
10-Point Field Equipment Controller with 2 UI, 1 BI, 3 BO, and 4 CO,
24 VAC, and SA Bus, with Mounting Base
CCT
4.11, 2
MS-FEC1611-1U
10-Point Field Equipment Controller with 2 UI, 1 BI, 3 BO, and 4 CO;
24 VAC, SA Bus, Mounting Base
CCT
5.1.8.01001
MS-FEU2610-0U
17-Point Field Equipment Controller with 6 UI, 2 BI, 3 BO, 2 AO, and
4 CO; 24 VAC, SA Bus, Mounting Base
CCT
5.1.8.01001
MS-FEC2611-0U
17-Point Field Equipment Controller with 6 UI, 2 BI, 3 BO, 2 AO, and
4 CO; 24 VAC, SA Bus, Mounting Base
CCT
5.1.8.01001
MS-IOM1710-0U
4-Point IOM with 4 BI, FC Bus and SA Bus Support
CCT
5.1.8.01001
MS-IOM1711-0U
4-Point IOM with 4 BI, FC Bus and SA Bus Support
CCT
5.1.8.01001
MS-IOM2710-0U
6-Point IOM with 2 UI, 2 UO, 2 BO, FC Bus and SA Bus Support
CCT
5.1.8.01001
MS-IOM2711-0U
6-Point IOM with 2 UI, 2 UO, 2 BO, FC Bus and SA Bus Support
CCT
5.1.8.01001
MS-IOM3710-0U
12-Point IOM with 4 UI, 4 UO, 4 BO, FC Bus and SA Bus Support
CCT
5.1.8.01001
MS-IOM3711-0U
12-Point IOM with 4 UI, 4 UO, 4 BO, FC Bus and SA Bus Support
CCT
5.1.8.01001
MS-IOU4710-0U
17-Point IOM with 6 UI, 2 BI, 3 BO, 2 AO, 4 CO, 24 VAC, FC Bus and SA
Bus with Mounting Base
CCT
5.1.8.01001
MS-IOM4711-0U
17-Point IOM with 6 UI, 2 BI, 3 BO, 2 AO, 4 CO, 24 VAC, FC Bus and SA
Bus with Mounting Base
CCT
5.1.8.01001
MS-VMA1610-0U
Integrated VAV Controller/Actuator/Pressure Sensor (Cooling Only), FC
Bus and SA Bus
CCT
5.1.8.01001
MS-VMA1620-0U
Integrated VAV Controller/Actuator/Pressure Sensor (with Reheat and
Fan Control), FC Bus and SA Bus
CCT
5.1.8.01001
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
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Table 86: UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control
Part Ordering / Revision Information (Part 2 of 6)
Code Number
Description
Revision
MS-VMA1610-1U
Integrated VAV Controller/Actuator/Pressure Sensor (Cooling Only), FC
Bus and SA Bus, 3.3 volt model
CCT
5.1.8.01001
MS-VMA1620-1U
Integrated VAV Controller/Actuator/Pressure Sensor (with Reheat and
Fan Control), FC Bus and SA Bus, 3.3 volt model
CCT
5.1.8.01001
Johnson Controls Standard Panels
234
PAG100U11EC03
MS-NAE5510-2U with two BACnet MS/TP (RS-485 port) trunks
Hoffman® enclosure (9.25 x 24 x 24 in.) with keyed lock
EISK5-100T Contemporary Controls® CTRLink™ 5-Port 10/100 Ethernet
Switch
APC® PNET1GB Ethernet Surge Protection (4)
PAN-PWRSP-U 120/24 VAC, 96 VA, Transformer with circuit breaker and
120 VAC outlet
SMK-MOVKIT-MSTP Transient Protection for MS/TP Communication (2)
N/A
PAGE00U11EC0
MS-NAE4510-2U with one BACnet MS/TP (RS-485 port) trunk
Hoffman enclosure (9.25 x 24 x 24 in.) with keyed lock
EISK5-100T Contemporary Controls CTRLink 5-Port 10/100 Ethernet
Switch
APC PNET1GB Ethernet Surge Protection (4)
PAN-PWRSP-U 120/24 VAC, 96 VA, Transformer with circuit breaker and
120 VAC outlet
SMK-MOVKIT-MSTP Transient Protection for MS/TP Communication
N/A
PAGJ00U11EC0
MS-NAE3510-2U with one BACnet MS/TP (RS-485 port) trunk
Hoffman enclosure (9.25 x 24 x 24 in.) with keyed lock
EISK5-100T Contemporary Controls CTRLink 5-Port 10/100 Ethernet
Switch
APC PNET1GB Ethernet Surge Protection (4)
PAN-PWRSP-U 120/24 VAC, 96 VA, Transformer with circuit breaker and
120 VAC outlet
SMK-MOVKIT-MSTP Transient Protection for MS/TP Communication
N/A
PARE00U11BC0
MS-NCE2560-0U with one BACnet MS/TP (RS485) trunk and 10 UI, 8 BI,
7 BO, 4 CO, 4 AO
Hoffman enclosure (9.25 x 24 x 36 in.) with keyed lock
EISK5-100T Contemporary Controls CTRLink 5-Port 10/100 Ethernet
Switch
APC PNET1GB Ethernet Surge Protection (4)
PAN-PWRSP-U 120/24 VAC, 96 VA, Transformer with circuit breaker and
120 VAC outlet
SMK-MOVKIT-MSTP Transient Protection for MS/TP Communication (2)
SMOKE-MOVKIT-0U Transient Protection for MS/TP I/O Communication
(66)
N/A
PAKGJJU12BC0
MS-FEC2611-0U and MS-IOM4711-0U with 12 UI, 4 BI, 6 BO, 4 AO, 8
CO
Hoffman enclosure (9.25 x 24 x 36 in.) with keyed lock
PAN-PWRSP-U 120/24 VAC, 96 VA, Transformer with circuit breaker and
120 VAC outlet
PAN-96VAXFR-U 120/24 VAC, 96 VA, Transformer
SMK-MOVKIT-MSTP Transient Protection for MS/TP Communication (3)
SMOKE-MOVKIT-0U Transient Protection for MS/TP I/O Communication
(74)
N/A
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
Table 86: UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control
Part Ordering / Revision Information (Part 3 of 6)
Code Number
Description
Revision
PAKG00U11AC0
MS-FEC2611-0U with 6 UI, 2 BI, 3 BO, 2 AO, 4 CO
Hoffman enclosure (9.25 x 20 x 24 in.) with keyed lock
PAN-PWRSP-U 120/24 VAC, 96 VA, Transformer with circuit breaker and
120 VAC outlet
SMK-MOVKIT-MSTP Transient Protection for MS/TP Communication (2)
SMOKE-MOVKIT-0U Transient Protection for MS/TP I/O Communication
(37)
N/A
PAJJ00U11AC0
MS-IOM4711-0U with 6 UI, 2 BI, 3 BO, 2 AO, 4 CO
Hoffman enclosure (9.25 x 20 x 24 in.) with keyed lock
PAN-PWRSP-U 120/24 VAC, 96 VA, Transformer with circuit breaker and
120 VAC outlet
SMK-MOVKIT-MSTP Transient Protection for MS/TP Communication
SMOKE-MOVKIT-0U Transient Protection for MS/TP I/O Communication
(37)
N/A
PA5100U01FC0
EIS8-100T Contemporary Controls CTRLink 8-Port 10/100 Industrial
Ethernet Switch
Hoffman enclosure (6.62 x 16 x 20 in.) with keyed lock
PAN-PWRSP-U 120/24 VAC, 96 VA, Transformer with circuit breaker and
120 VAC outlet
APC PNET1GB Ethernet Surge Protection (8)
N/A
PA5200U15CC0
2960-24TC-S Cisco® Catalyst 24-Port 10/100/1000 Ethernet Switch
Hoffman enclosure (9.25 x 30 x 42 in.) with keyed lock
APC PNET1GB Ethernet Surge Protection (24)
Tripp Lite® ISOBAR8 120 VAC Surge Protection
N/A
PA5300U11FC0
EISK5-100T Contemporary Controls CTRLink 5-Port 10/100 Ethernet
Switch
Hoffman enclosure (6.62 x 16 x 20 in.) with keyed lock
PAN-PWRSP-U 120/24 VAC, 96 VA, Transformer with circuit breaker and
120 VAC outlet
APC PNET1GB Ethernet Surge Protection (5)
N/A
UL/ULC Listed MS/TP Accessories
NU-RPT101-1U
Acromag® MSTP Repeater
N/A
SMOKE-TRNKIT-1U
Acromag® MSTP Repeater Kit - tranzorb transient suppressor for smoke
control applications (1 per bag)
N/A
SMK-MOVKIT-MSTP
MOV transient protection for MS/TP communication (1 per bag)
N/A
SMOKE-MOVKIT-0U
MOV transient protection for MS/TP I/O communication (10 per bag)
N/A
SMK-UPLABL-0U
Software revision labels (40 per bag) - Version 5.2 labels (10) for NxE
controllers and Version 5.1 labels (30) for FEC, IOM, and VMA controllers
N/A
Non UL/ULC Listed MS/TP Accessories
235
NS-APA7001
SA Bus network sensor -SA Bus network sensor - 80x80 mm, surface
mount, LCD, 2% RH, setpoint adjustment, override, modular jack
N/A
NS-APA7002
SA Bus network sensor - 80x80 mm, surface mount, LCD, 2% RH,
setpoint adjustment, override, screw terminal
N/A
NS-APB7001
SA Bus network sensor - 80x80 mm, surface mount, LCD, 2% RH,
setpoint adjustment, override, F/C toggle, modular jack
N/A
NS-APB7002
SA Bus network sensor - 80x80 mm, surface mount, LCD, 2% RH,
setpoint adjustment, override, F/C toggle, screw terminal
N/A
NS-BPB7001
SA Bus network sensor - 120x80 mm, wall or surface mount, LCD, 2%
RH, setpoint adjustment, override, F/C toggle, modular jack
N/A
NS-BPB7002
SA Bus network sensor - 120x80 mm, wall or surface mount, LCD, 2%
RH, setpoint adjustment, override, F/C toggle, screw terminal
N/A
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
Table 86: UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control
Part Ordering / Revision Information (Part 4 of 6)
236
Code Number
Description
Revision
NS-AHA7001
SA Bus network sensor - 80x80 mm, surface mount, LCD, 3% RH,
setpoint adjustment, override, modular jack
N/A
NS-AHA7002
SA Bus network sensor - 80x80 mm, surface mount, LCD, 3% RH,
setpoint adjustment, override, screw terminal
N/A
NS-AHB7001
SA Bus network sensor - 80x80 mm, surface mount, LCD, 3% RH,
setpoint adjustment, override, F/C toggle, modular jack
N/A
NS-AHB7002
SA Bus network sensor - 80x80 mm, surface mount, LCD, 3% RH,
setpoint adjustment, override, F/C toggle, screw terminal
N/A
NS-BHB7001
SA Bus network sensor - 120x80 mm, wall or surface mount, LCD, 3%
RH, setpoint adjustment, override, F/C toggle, modular jack
N/A
NS-BHB7002
SA Bus network sensor - 120x80 mm, wall or surface mount, LCD, 3%
RH, setpoint adjustment, override, F/C toggle, screw terminal
N/A
NS-ATA7001
SA Bus network sensor - 80x80 mm, surface mount, LCD, setpoint
adjustment, override, modular jack
N/A
NS-ATA7002
SA Bus network sensor - 80x80 mm, surface mount, LCD, setpoint
adjustment, override, screw terminal
N/A
NS-ATB7001
SA Bus network sensor - 80x80 mm, surface mount, LCD, setpoint
adjustment, F/C toggle, override, modular jack
N/A
NS-ATB7002
SA Bus network sensor - 80x80 mm, surface mount, LCD, setpoint
adjustment, F/C toggle, override, screw terminal
N/A
NS-ATC7001
SA Bus network sensor - 80x80 mm, surface mount, LCD, setpoint
adjustment, fan control, override, modular jack
N/A
NS-ATC7002
SA Bus network sensor - 80x80 mm, surface mount, LCD, setpoint
adjustment, fan control, override, screw terminal
N/A
NS-ATD7001
SA Bus network sensor - 80x80 mm, surface mount, LCD, setpoint
adjustment, F/C toggle, fan control, override, modular jack
N/A
NS-ATD7002
SA Bus network sensor - 80x80 mm, surface mount, LCD, setpoint
adjustment, F/C toggle, fan control, override, screw terminal
N/A
NS-ATN7001
SA Bus network sensor - 80x80 mm, surface mount, modular jack
N/A
NS-ATN7003
SA Bus network sensor - 80x80 mm, surface mount, screw terminal,
address switches
N/A
NS-ATP7001
SA Bus network sensor - 80x80 mm, surface mount, warmer/cooler dial
adjustment, override, modular jack
N/A
NS-ATP7002
SA Bus network sensor - 80x80 mm, surface mount, warmer/cooler dial
adjustment, override, screw terminal
N/A
NS-ATV7001
SA Bus network sensor - 80x80 mm, surface mount, LCD, setpoint
adjustment, F/C toggle, override, modular jack, VAV balancing feature
Note: Fan control button is replaced by a light bulb button used in the
balancing process.
N/A
NS-ATV7002
SA Bus network sensor - 80x80 mm, surface mount, LCD, setpoint
adjustment, F/C toggle, override, screw terminal, VAV balancing feature
Note: Fan control button is replaced by a light bulb button used in the
balancing process.
N/A
NS-BTB7001
SA Bus network sensor - 120x80 mm, wall or surface mount, LCD,
setpoint adjustment, override, F/C toggle, fan control, modular jack
N/A
NS-BTB7002
SA Bus network sensor - 120x80 mm, wall or surface mount, LCD,
setpoint adjustment, F/C toggle, fan control, override, screw terminal
N/A
NS-BTN7001
SA Bus network sensor - 120x80 mm, wall or surface mount, modular jack
N/A
NS-BTN7003
SA Bus network sensor - 120x80 mm, wall or surface mount, screw
terminal, address switches
N/A
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
Table 86: UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control
Part Ordering / Revision Information (Part 5 of 6)
Code Number
Description
Revision
NS-BTP7001
SA Bus network sensor - 120x80 mm, wall or surface mount, warmer/
cooler dial adjustment, override, modular jack
N/A
NS-BTP7002
SA Bus network sensor - 120x80 mm, wall or surface mount, warmer/
cooler dial adjustment, override, screw terminal
N/A
NS-BTV7001
SA Bus network sensor - 120x80 mm, wall or surface mount, LCD,
setpoint adjustment, F/C toggle, override, modular jack, VAV balancing
feature
Note: Fan control button is replaced by a light bulb button used in the
balancing process.
N/A
NS-BTV7002
SA Bus network sensor - 120x80 mm, wall or surface mount, LCD,
setpoint adjustment, F/C toggle, override, screw terminal, VAV balancing
feature
Note: Fan control button is replaced by a light bulb button used in the
balancing process.
N/A
Third-Party Communication Equipment
EISK5-100T
Contemporary Controls® CTRLink™ EISK5-100T Industrial Ethernet
Switch, 5-port copper switch 10/100 Base-T RJ45 Ethernet Ports
N/A
EIS8-100T
Contemporary Controls CTRLink EIS8-100T Industrial Ethernet Switch,
8 each 10/100 Base-T RJ45 Ethernet Ports
N/A
EIS6-100T/FT
Contemporary Controls CTRLink EIS6-100T/FT Industrial Ethernet
Switch, 4 each 10/100 Base-T RJ45 Ethernet Ports, 100Base-FX Fiber
ports
N/A
2960-24TC-S4, 5
Cisco® Catalyst 24-Port 10/100/1000 Ethernet Switch
N/A
EIMK-100T/FT4
Contemporary Controls Media Converter (Ethernet to Fiber)
N/A
Johnson Controls Enclosures / Transformers
Standard Hoffman Enclosures6
PAN-ENH1620WDP
6.62 x 16 x 20 in. Enclosure with door, latch, subpanel
N/A
PAN-ENH1620WD
6.62 x 16 x 20 in. Enclosure with door, latch
N/A
PAN-ENH2024WDP
6.62 x 20 x 24 in. Enclosure with door, latch, subpanel
N/A
PAN-ENH2024WD
6.62 x 20 x 24 in. Enclosure with door, latch
N/A
PAN-ENH2424WDP
6.62 x 24 x 24 in. Enclosure with door, subpanel
N/A
PAN-ENH2424WD
6.62 x 24 x 24 in. Enclosure with door
N/A
PAN-ENH2436WDP
6.62 x 24 x 36 in. Enclosure with door, subpanel
N/A
PAN-ENH2436WD
6.62 x 24 x 36 in. Enclosure with door
N/A
Custom Hoffman Enclosures6 with Lift-Off Doors, Louvers, and Locks
237
PAN-ENC1620WDP
6.62 x 16 x 20 in. Enclosure with door, lock, subpanel
N/A
PAN-ENC1620WD
6.62 x 16 x 20 in. Enclosure with door, lock
N/A
PAN-ENC2024WDP
9.25 x 20 x 24 in. Enclosure with door, lock, subpanel
N/A
PAN-ENC2024WD
9.25 x 20 x 24 in. Enclosure with door, lock
N/A
PAN-ENC2424WDP
9.25 x 24 x 24 in. Enclosure with door, lock, subpanel
N/A
PAN-ENC2424WDF
9.25 x 24 x 24 in. Enclosure with cut-out door, lock
N/A
PAN-ENC2424WD
9.25 x 24 x 24 in. Enclosure with door, lock
N/A
PAN-ENC2436WDP
9.25 x 24 x 36 in. Enclosure with door, lock, subpanel
N/A
PAN-ENC2436WDF
9.25 x 24 x 36 in. Enclosure with cut-out door, lock
N/A
PAN-ENC2436WD
9.25 x 24 x 36 in. Enclosure with door, lock
N/A
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
Table 86: UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control
Part Ordering / Revision Information (Part 6 of 6)
Code Number
Description
Revision
PAN-ENC3042WDP
9.25 x 30 x 42 in. Enclosure with door, lock, subpanel
N/A
PAN-ENC3042WD
9.25 x 30 x 42 in. Enclosure with door, lock
N/A
PAN-ENC3648WDP
9.25 x 36 x 48 in. Enclosure with door, lock, subpanel
N/A
PAN-ENC3648WD
9.25 x 36 x 48 in. Enclosure with door, lock
N/A
PAN-PWRSP-U
96 VA 120/24 VAC Power Assembly (Transformer, Receptacle, 5 A
Overcurrent Circuit Breaker)
N/A
PAN-96VAXFR-U
Transformer, Power, Panel Mount, 120 V Primary, 24 V Secondary, 96 VA,
Split Bobbin, 4 A Secondary Circuit Breaker,
N/A
PA0P00010FC0-U
Power Distribution Panel and Enclosure - Contains four PAN-96VAXFR-U
transformers, 120V,10 A Primary Circuit Breaker. For powering multiple
VAV/VMAs
N/A
00-00051-01
00-00052-01
ETI VAV Electronic Enclosure - 16 in. Enclosure, Electronic Control,
18 GA
ETI VAV Electronic Enclosure - 16 in. Cover, Electronic Control, 18 GA
N/A
A20N16BLP
A20N16MPP
CTRLink Ethernet Switch Enclosure - 20 x 16 x 8.62 in.
Medium Type 1 Enclosure
CTRLink Ethernet Switch Backplate - NEMA 1, Perforated 17.00 x 14.50
in. Subpanel, fits 20 x16 in. Enclosure
N/A
Third-Party Equipment
ISOBAR8Ultra
CDW - 025070 - Tripp Lite® ISOBAR8Ultra Surge Suppressor
http://www.cdw.com
N/A
ISOBAR12Ultra
CDW - 154600 - Tripp Lite® ISOBAR12Ultra Rackmount Surge
Suppressor http://www.cdw.com
N/A
PNET1GB
American Power Conversion (APC®) - PNET1GB Ethernet Surge
Suppressor http://www.apc.com
N/A
www.adipanel.com
ADI MSTP FSCS http://www.adipanel.com
Note: Custom product from Automation Displays, Inc. (ADI®)
N/A
1.
2.
3.
4.
5.
6.
This is the revision approved by UL/ULC for smoke control. To see if approved patches are available, contact your
local Johnson Controls office or visit the Field Support Center (FSC) Product Quick Patch page at
http://publish.johnsoncontrols.com/content/controls/us/eng/fsc/hf/Metasys_Quick_Patches.html
This must be at Metasys Revision 4.1 when used in the ADI FSCS panel.
Contact your Johnson Controls representative regarding availability.
To order a replacement device, use the Johnson Controls iPROC.
Cisco offers an optional additional 2-year extended service agreement for this switch.
All Hoffman custom enclosures have a factory-installed grounding strap, supplied by Hoffman, connecting the
enclosure to the enclosure door.
Repair Parts Ordering Information
UL 864 9th Edition UUKL/ORD-C100-13 UUKLC requires that the job be
designed, commissioned, and maintained with the supervisory and field controllers
at the revision for which the job site was tested and approved. Therefore, to
maintain the installed UL 864 9th Edition UUKL/ORD-C100-13 UUKLC jobs,
Johnson Controls offers the MS-NAE5510-1U and the MS-NAE5510-2U as
orderable repaired supervisory controllers. See Table 87 for ordering information.
238
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
All of the supervisory and field controllers may be able to be sent in for repair for
Metasys Release 5.2 UL 864 9th Edition UUKL/ORD-C100-13 UUKLC listed
products. Please contact the Johnson Controls Repair Center in Louisville,
Kentucky, at 1-502-671-7312 to discuss if repair parts are available for these
smoke control listed supervisory and field controllers.
Table 87: Repair Parts
Product Code Number
Description
MS-NAE5510-701U
Replacement MS-NAE5510-1U with MS/TP; supports two BACnet MS/TP (RS485 port) trunks. UL 864 9th Edition UUKL/ORD-C100-13 UUKLC listed for
smoke control applications
MS-NAE5510-702U
Replacement MS-NAE5510-2U with MS/TP; supports two BACnet MS/TP (RS485 port) trunks. UL 864 9th Edition UUKL/ORD-C100-13 UUKLC listed for
smoke control applications
NS Series Network Sensors Selection Charts
See the following tables for more information about NS Series Network Sensors
(non-UL/ULC Listed accessories).
239
Product Code
Number
Size (mm), Height x Width
Vertical Wallbox-Mounted (WB)
or Surface-Mounted (SM)
Johnson Controls
Logo
LCD Display
Temperature Adjustment
Setpoint (Set) or
Warmer/Cooler Dial (W/C)
Occupancy Override
F/C Scale Toggle
Fan Control
Screw Terminals (ST) or
Modular Jack (MJ)
Address Switches
VAV
Balancing Feature
Table 88: Network Zone Sensor Ordering Information — Temperature Only
Models (Part 1 of 2)
NS-ATA7001-0
80 x 80
SM
Yes
Yes
Set
Yes
No
No
MJ
No
No
NS-ATA7002-0
80 x 80
SM
Yes
Yes
Set
Yes
No
No
ST
No
No
NS-ATA7003-0
80 x 80
SM
Yes
Yes
Set
Yes
No
No
ST
Yes
No
NS-ATB7001-0
80 x 80
SM
Yes
Yes
Set
Yes
Yes
No
MJ
No
No
NS-ATB7002-0
80 x 80
SM
Yes
Yes
Set
Yes
Yes
No
ST
No
No
NS-ATB7003-0
80 x 80
SM
Yes
Yes
Set
Yes
Yes
No
ST
Yes
No
NS-ATC7001-0
80 x 80
SM
Yes
Yes
Set
Yes
No
Yes
MJ
No
No
NS-ATC7002-0
80 x 80
SM
Yes
Yes
Set
Yes
No
Yes
ST
No
No
NS-ATD7001-0
80 x 80
SM
Yes
Yes
Set
Yes
Yes
Yes
MJ
No
No
NS-ATD7002-0
80 x 80
SM
Yes
Yes
Set
Yes
Yes
Yes
ST
No
No
NS-ATF7001-0
80 x 80
SM
Yes
Yes
W/C
Yes
Yes
No
MJ
No
No
NS-ATF7002-0
80 x 80
SM
Yes
Yes
W/C
Yes
Yes
No
ST
No
No
NS-ATN7001-0
80 x 80
SM
Yes
No
N/A
No
No
No
MJ
No
No
NS-ATN7001-2
80 x 80
SM
No
No
N/A
No
No
No
MJ
No
No
NS-ATN7003-0
80 x 80
SM
Yes
No
N/A
No
No
No
ST
Yes
No
NS-ATN7003-2
80 x 80
SM
No
No
N/A
No
No
No
ST
Yes
No
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
W/C
Yes
No
No
MJ
No
No
No
W/C
Yes
No
No
MJ
No
No
NS-ATP7002-0
80 x 80
SM
Yes
No
W/C
Yes
No
No
ST
No
No
NS-ATP7003-0
80 x 80
SM
Yes
No
W/C
Yes
No
No
ST
Yes
No
NS-ATP7003-2
80 x 80
SM
No
No
W/C
Yes
No
No
ST
Yes
No
NS-ATV7001-0
80 x 80
SM
Yes
Yes
Set
Yes
Yes
No1
MJ
No
Yes
1
ST
No
Yes
Fan Control
VAV
Balancing Feature
No
No
Screw Terminals (ST) or
Modular Jack (MJ)
Address Switches
Yes
SM
F/C Scale Toggle
SM
80 x 80
Temperature Adjustment
Setpoint (Set) or
Warmer/Cooler Dial (W/C)
Occupancy Override
Size (mm), Height x Width
80 x 80
NS-ATP7001-2
Johnson Controls
Logo
LCD Display
Product Code
Number
NS-ATP7001-0
NS-ATV7002-0
80 x 80
SM
Yes
Yes
Set
Yes
Yes
No
NS-BTB7001-0
120 x 80
WB, SM
Yes
Yes
Set
Yes
Yes
No
MJ
No
No
NS-BTB7001-2
120 x 80
WB, SM
No
Yes
Set
Yes
Yes
No
MJ
No
No
NS-BTB7002-0
120 x 80
WB, SM
Yes
Yes
Set
Yes
Yes
No
ST
No
No
NS-BTB7003-0
120 x 80
WB, SM
Yes
Yes
Set
Yes
Yes
No
ST
Yes
No
NS-BTF7001-0
120 x 80
WB, SM
Yes
Yes
W/C
Yes
Yes
No
MJ
No
No
NS-BTF7002-0
120 x 80
WB, SM
Yes
Yes
W/C
Yes
Yes
No
ST
No
No
NS-BTN7001-0
120 x 80
WB, SM
Yes
No
N/A
No
No
No
MJ
No
No
NS-BTN7001-2
120 x 80
WB, SM
No
No
N/A
No
No
No
MJ
No
No
NS-BTN7003-0
120 x 80
WB, SM
Yes
No
N/A
No
No
No
ST
Yes
No
NS-BTP7001-0
120 x 80
WB, SM
Yes
No
W/C
Yes
No
No
MJ
No
No
NS-BTP7001-2
120 x 80
WB, SM
No
No
W/C
Yes
No
No
MJ
No
No
NS-BTP7002-0
120 x 80
WB, SM
Yes
No
W/C
Yes
No
No
ST
No
No
NS-BTP7002-2
120 x 80
WB, SM
No
No
W/C
Yes
No
No
ST
No
No
NS-BTP7003-0
120 x 80
WB, SM
Yes
No
W/C
Yes
No
No
ST
Yes
No
NS-BTV7001-0
120 x 80
WB, SM
Yes
Yes
Set
Yes
Yes
No1
MJ
No
Yes
NS-BTV7002-0
120 x 80
WB, SM
Yes
Yes
Set
Yes
Yes
No1
ST
No
Yes
1.
240
Vertical Wallbox-Mounted (WB)
or Surface-Mounted (SM)
Table 88: Network Zone Sensor Ordering Information — Temperature Only
Models (Part 2 of 2)
In the VAV balancing models, the fan control button is replaced by a light bulb button used in the VAV
balancing process.
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
241
Product Code
Number
Size (mm),
Height x Width
Vertical
Wallbox-Mounted (WB) or
Surface-Mounted (SM)
LCD Display,
RH Display
Humidity Element
Accuracy
Temperature Adjustment:
Setpoint (Set) or
Warmer/Cooler Dial (W/C)
Occupancy Override
F/C Scale Toggle
Screw Terminals (ST) or
Modular Jack (MJ)
Address Switches
Table 89: Network Zone Sensor Ordering Information — Temperature and
Humidity Models without RH Display
NS-AHA7001-0
80 x 80
SM
Yes, No
3%
Set
Yes
No
MJ
No
NS-AHA7002-0
80 x 80
SM
Yes, No
3%
Set
Yes
No
ST
No
NS-AHB7001-0
80 x 80
SM
Yes, No
3%
Set
Yes
Yes
MJ
No
NS-AHB7002-0
80 x 80
SM
Yes, No
3%
Set
Yes
Yes
ST
No
NS-AHB7003-0
80 x 80
SM
Yes, No
3%
Set
Yes
Yes
ST
Yes
NS-AHN7001-0
80 x 80
SM
None
3%
N/A
No
No
MJ
No
NS-AHN7001-2
80 x 80
SM
None
3%
N/A
No
No
MJ
No
NS-AHP7001-0
80 x 80
SM
None
3%
W/C
Yes
No
MJ
No
NS-APA7001-0
80 x 80
SM
Yes, No
2%
Set
Yes
No
MJ
No
NS-APA7002-0
80 x 80
SM
Yes, No
2%
Set
Yes
No
ST
No
NS-APB7001-0
80 x 80
SM
Yes, No
2%
Set
Yes
Yes
MJ
No
NS-APB7002-0
80 x 80
SM
Yes, No
2%
Set
Yes
Yes
ST
No
NS-APB7003-0
80 x 80
SM
Yes, No
2%
Set
Yes
Yes
ST
Yes
NS-BHB7001-0
120 x 80
WB, SM
Yes, No
3%
Set
Yes
Yes
MJ
No
NS-BHB7002-0
120 x 80
WB, SM
Yes, No
3%
Set
Yes
Yes
ST
No
NS-BHB7003-0
120 x 80
WB, SM
Yes, No
3%
Set
Yes
Yes
ST
Yes
NS-BHN7001-0
120 x 80
WB, SM
None
3%
N/A
No
No
MJ
No
NS-BHP7001-0
120 x 80
WB, SM
None
3%
W/C
Yes
No
MJ
No
NS-BPB7001-0
120 x 80
WB, SM
Yes, No
2%
Set
Yes
Yes
MJ
No
NS-BPB7002-0
120 x 80
WB, SM
Yes, No
2%
Set
Yes
Yes
ST
No
NS-BPB7003-0
120 x 80
WB, SM
Yes, No
2%
Set
Yes
Yes
ST
Yes
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
Product Code Number
Size (mm), Height x Width
Vertical
Wallbox-Mounted (WB) or
Surface-Mounted (SM)
LCD Display,
RH Display
Humidity Element Accuracy
Temperature Adjustment:
Setpoint (Set) or
Warmer/Cooler Dial (W/C)
Occupancy
Override
F/C Scale Toggle
Screw Terminals (ST) or
Modular Jack (MJ)
Address Switches
Table 90: Network Zone Sensor Ordering Information — Temperature and
Humidity Models with Temperature or RH Display (Field Selectable
Default Display)
NS-AHR7101-0
80 x 80
SM
Yes, Yes
3%
Set
Yes
Yes
MJ
No
NS-AHR7102-0
80 x 80
SM
Yes, Yes
3%
Set
Yes
Yes
ST
No
NS-AHR7103-0
80 x 80
SM
Yes, Yes
3%
Set
Yes
Yes
ST
Yes
NS-APR7101-0
80 x 80
SM
Yes, Yes
2%
Set
Yes
Yes
MJ
No
NS-APR7102-0
80 x 80
SM
Yes, Yes
2%
Set
Yes
Yes
ST
No
NS-BHR7101-0
120 x 80
WB, SM
Yes, Yes
3%
Set
Yes
Yes
MJ
No
NS-BHR7103-0
120 x 80
WB, SM
Yes, Yes
3%
Set
Yes
Yes
ST
Yes
Size (mm) Height x Width
Vertical
Wallbox-Mounted (WB), or
Surface-Mounted (SM)
LCD Display
CO2 Measurement Range
Johnson Controls Logo
Screw Terminals (ST), or
Modular Jack (MJ)
NS-BCN7004-0
120 x 80
WB, SM
No
0 to 2,000 ppm
Yes
ST, MJ
DIP Switch
(212 to 219)
NS-BCN7004-2
120 x 80
WB, SM
No
0 to 2,000 ppm
No
ST, MJ
DIP Switch
(212 to 219)
Sensor Addressing
Product Code Number
Table 91: Network Zone Sensor Ordering Information — CO2 Models
242
32.0°F/0.0°C to
104.0°F/40.0°C
Screw
Terminal
Block
Sensor Addressing
No
Terminations
Flush-Mount
Temperature
Measurement
Range
4-1/2 in. x 2-3/4 in.
(114 mm x 70 mm)
LCD Display
Faceplate
Dimensions,
Height x Width
NS-FTN7003-2
Mounting
Product
Code Number
Table 92: Network Zone Sensor Ordering Information — Flush-Mount
Temperature Only Model
DIP Switch
(200 to 203)
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
Table 93: Network Discharge Air Sensor Ordering Information
243
Product
Code Number
Dimensions,
Height x Width x
Depth
Temperature
Probe
Length
305 cm (10 ft)
Wiring Lead
Included
Terminations
Sensor
Addressing
NS-DTN7043-0
3 in. x 3 in. x 2 in.
(76 mm x 76 mm x 51 mm)
4 in. (102 mm)
Yes
Screw
Terminal Block
DIP Switch
(204 to 211)
NS-DTN7083-0
3 in. x 3 in. x 2 in.
(76 mm x 76 mm x 51 mm)
8 in. (203 mm)
Yes
Screw
Terminal Block
DIP Switch
(204 to 211)
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
Typical Panel Layouts for UL/ULC Smoke Control Listing
This section shows typical panel layouts for the smoke control UL 864 9th Edition
UUKL/ORD-C100-13 UUKLC equipment.
IMPORTANT: All panels used for smoke control must be ordered from
Johnson Controls.
Device layout may differ due to the physical number of optional Smoke Control
devices desired in the enclosure because the cumulative power requirements can
not exceed the maximum specifications of the PAN-PWRSP-U Power Supply and
the PAN-96VAXFR-U Power Supply (if necessary).
Figure 140: Typical Ethernet Communication Enclosures
Figure 141: Typical NAE5510 Enclosure (Left)
and Typical MSTP Controller Enclosure with Two Controllers (Right)
244
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
Compliance Checklist for UL/ULC Smoke Control Listing
Overview
This section summarizes the most common requirements to configure the Metasys
system to comply with the UL 864 9th Edition UUKL/ORD-C100-13 UUKLC
Smoke Control Listing. A Compliance Survey for UL/ULC Smoke Control Listing
form is followed by tables listing the requirements for UL 864 9th Edition UUKL/
ORD-C100-13 UUKLC Listing compliance.
The purpose of the Compliance Survey for UL/ULC Smoke Control Listing is to
provide a record of those elements of National Fire Protection Association (NFPA)
92A and UL/ULC that Johnson Controls, Inc. does or does not provide.
UL/ULC is an identifier created by UL to identify those products listed under UL
864 9th Edition UUKL/ORD-C100-13 UUKLC for smoke control. Products
covered by this listing are intended to be installed in conjunction with Heating,
Ventilating, and Air Conditioning (HVAC) equipment to form a system for
controlling the flow of smoke in a building during a fire condition in accordance
with NFPA Recommended Practice 92A.
It is important that we document the system elements that are being provided. The
Compliance Survey for UL/ULC Smoke Control Listing can be used to provide that
documentation.
In the case where a project specification dictates compliance with the UL/ULC
Listing, but contains elements of the system design that conflict with the Listing or
are omitted, the completed Compliance Survey for UL/ULC Smoke Control
Listing can be given to the designer or the AHJ to obtain recognition and
agreement on the extent of Listing compliance. This should occur prior to bid or
proposal.
Once an agreement is reached with the AHJ, designer, and customer, the signed or
initialed Smoke Control Compliance Checklist must become a permanent part of
the project file.
If you are bidding, engineering, installing, or commissioning a Metasys system
requiring UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control
Listing compliance, follow the guidelines, requirements, and procedures listed in
this document and in the Related Documentation section.
245
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
Compliance Survey for UL/ULC Smoke Control Listing
Date of Survey
Conducted By
Project
Location
Branch Office
Project Manager
Specifications
Building Codes
Contract
Applicable Building Codes and Standards
Local (Branch) Person Providing and Verifying Information
Initials
246
Name
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
General Requirements for UL/ULC Smoke Control Listing
Table 94 lists general requirements for UL 864 9th Edition UUKL/ORD-C100-13
UUKLC Listing compliance. Mark Yes/No for compliance and initial each item
that was verified.
Table 94: General Requirements for UL 864 9th Edition UUKL/
ORD-C100-13 UUKLC Listing
Requirement
Y/N
NA
Person
Verifying
If there was an upgrade, the controllers have been labeled with the correct
Metasys software revision.
If there was an upgrade from Metasys Release 3.0, ADI upgraded the FEU1610-0U
in the FSCS panel to Metasys Release 4.1.
The wiring guidelines for transient and surge protection have been followed as
outlined in the document.
Communication links between buildings are fiber-optic cable or copper cable
buried in a conduit separate from power wiring.
Each binary output object used for pressurization and exhaust control is
configured with positive feedback. The feedback input monitors the associated
controlled equipment status (for example, both open and closed, on and off). For
smoke control dampers, there may be a pair of feedback binary inputs for two
damper end switches. Any mismatch of a command and status of the binary
output occurring longer than the allowed response time must create a trouble light
indication at the FSCS.
For fans there is positive indication of airflow.
Non UL/ULC Listed control equipment must be isolated from the UL/ULC Listed
network.
The Weekly Testing of Dedicated Stairwell Pressurization Fans application is used
on all dedicated smoke control systems.
Automatic smoke control sequences take precedence over HVAC automatic and
manual commands. Manual FSCS takes precedence over all else.
Automatic activation of any smoke control sequence of operation has priority over
any non-smoke control manual commands and any automatic environmental
control strategy, when an auto smoke control sequence is initiated. High and low
temperature protection devices and return and exhaust air-duct smoke detectors
are bypassed.
Response time for individual smoke control fans to reach commanded state is no
more than 60 seconds.
Response time for individual smoke control dampers to reach commanded state is
no more than 75 seconds.
Fire alarm system manual pull stations do not initiate automatic smoke control
sequences.
Smoke detectors are used to initiate a smoke control strategy only as detailed in
this document, Metasys System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC
Smoke Control System Technical Bulletin (LIT-12011252).
All field controllers that monitor or control smoke control equipment are UL/ULC
Listed.
Electrical disconnects, overloads, duct static pressure limits, and supply air duct
smoke detectors are not overridden by manual or automatic smoke control
strategies.
247
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
FSCS Requirements for UL/ULC Smoke Control Listing
Table 95 lists requirements for UL 864 9th Edition UUKL/ORD-C100-13 UUKLC
Listing compliance for FSCSs where required. Mark Yes/No for compliance and
initial each item that was verified.
Table 95: FSCS Requirements for UL 864 9th Edition UUKL/ORD-C100-13
UUKLC Listing
Requirement
Y/N
NA
Person
Verifying
FSCS is UL/ULC Listed and provides manual control of the smoke control system,
a UL/ULC Listed annunciator panel is used as FSCS.
Custom annunciator FSCS is connected to a UL/ULC Listed Smoke Control engine
via the MS/TP bus.
FSCS provides positive indication of the operation of all smoke control equipment
(for example, both open and closed, on and off).
FSCS provides audible and visible trouble indication when any smoke control
equipment does not respond to automatic or manual commands.
FSCS simultaneously displays the status of all smoke control systems dampers,
fans
FSCS has manual control over all smoke control systems.
FSCS can override (partially or in full) any operation in progress, including
programmed actions, non-smoke control manual overrides.
FSCS has highest priority over all smoke control systems.
A building diagram or equivalent at FSCS clearly indicates the type and location of
all smoke control equipment (branch must obtain diagram approval from local fire
marshal)
FSCS indicates the actual status (not the command status) of systems and
equipment used for smoke control. This includes the current position of each
damper used in an active smoke control sequence and the status of airflow status
of every fan.
FSCS activates an audible signal if the operation proof sensor (binary feedback
point) failed to provide positive feedback that fan or damper reached its intended
position.
Only one FSCS on Metasys system is used for smoke control applications unless
approved by the AHJ.
The FSCS manual activation or deactivation of any smoke control device has
priority over any automatic smoke or environmental sequence of operation.
Any return air duct smoke detectors in duct work of each HVAC fan system used
for smoke control exhaust or purge only reports an alarm condition to the FSCS or
fire alarm annunciator located at the FSCS and does not stop the fan.
All hardware supervision alarms, such as binary feedback alarms on fans and
dampers, as well as system alarm points turn on FSCS alarm horn.
Annunciation on the FSCS of change of state of smoke control equipment is no
more than 10 seconds after reaching commanded state.
248
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
Wiring Requirements for UL/ULC Smoke Control Listing
Table 96 lists requirements for UL 864 9th Edition UUKL/ORD-C100-13 UUKLC
Listing compliance for Smoke Control Wiring. Mark Yes/No for compliance and
initial each item verified.
Table 96: Wiring Requirements for UL 864 9th Edition UUKL/ORD-C10013 UUKLC Listing
Requirement
Y/N
NA
Person
Verifying
Communication links between buildings are fiber-optic cable or copper cable
buried in a conduit separate from power wiring.
If FC Bus signal circuits leave the room, transient protection is applied as detailed
in the Metasys System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke
Control Technical Bulletin (LIT-12011252).
Verify that a Tripp Lite® ISOBAR8ULTRA surge protector or a Tripp Lite
ISOBAR12ULTRA surge protector protects all 120 VAC power sources.
If fiber-optic cable is used, verify that it meets the requirements listed in the
Metasys System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control
System Technical Bulletin (LIT-12011252).
If copper cable is used, verify that it meets the requirements listed in the Metasys
System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System
Technical Bulletin (LIT-12011252).
Verify that copper cable connected to media converters does not leave the room in
which the media converter is installed.
Verify that all RJ45 Ethernet cables are protected from electrical surges through
the use of the American Power Conversion (APC) Protect Net (Model PNET1GB)
surge protector at each end of the RJ45 Ethernet cable.
Verify that only the Smoke Control NAE model MS-NAE5510-1U, MS-NAE5510-2U,
MS-NAE4510-2U, or MS-NAE3510-2U are used for smoke control in a UL 864 9th
Edition UUKL/ORD-C100-13 UUKLC smoke control system.
If an RS-485-to-RS-485 NU-RPT101-1U repeater is used to isolate UL/ULC from
non-UL/ULC devices on an FC Bus, verify that it is installed in a UL/ULC Listed
enclosure. Refer to the Metasys System UL 864 9th Edition UUKL/ORD-C100-13
UUKLC Smoke Control System Technical Bulletin (LIT-12011252). The transzorb
must be Johnson Controls Code No. SMOKE-TRNKIT-1U.
Application Programming Requirements for UL/ULC Smoke Control Listing
Table 97 lists requirements for UL 864 9th Edition UUKL/ORD-C100-13 UUKLC
Listing compliance for Smoke Control Application Programming. Mark Yes/No
for compliance and initial when verified.
Table 97: Application Programming Requirements for UL 864 9th Edition
UUKL/ORD-C100-13 UUKLC Listing
Requirement
Y/N
NA
Verifier’s
Initials
The Standard Smoke Control Applications as detailed in the Metasys System UL
864 9th Edition UUKL/ORD-C100-13 UUKLC Standard Smoke Control
Applications Application Note (LIT-12011308) were used with no alterations to
program the site’s smoke control system applications
249
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
Table 98 details the alterations to the standard smoke control applications that were
required by local, state/provincial, or federal/national codes and requirements.
Initial each item after verified.
Table 98: Standard Smoke Control Application Alternation Details
Alternations to the Standard Smoke Control Applications
Verifier’s Initials
The information contained within this compliance checklist is verified and
accepted to be true as indicated by the signatures in Table 99.
Table 99: Smoke Control Site Acceptance Information
Date of Acceptance
Project
Location
Branch Office
Title
Signature
Project Manager
Branch Manager
Building Engineer
Building Manger/Owner
Authority Having Jurisdiction
Building Efficiency
507 E. Michigan Street, Milwaukee, WI 53202
Metasys® and Johnson Controls® are registered trademarks of Johnson Controls, Inc.
All other marks herein are the marks of their respective owners. © 2014 Johnson Controls, Inc.
250
Metasys® System UL 864 9th Edition UUKL/ORD-C100-13 UUKLC Smoke Control System Technical
Bulletin
Published in U.S.A.
www.johnsoncontrols.com