Honeywell Notifier NFS2-3030 FACP Programming And Operations Manual
Mass notification system
Hide thumbs
Also See for Notifier NFS2-3030 FACP:
- Programming manual (164 pages) ,
- Manual (77 pages) ,
- Operation manual (76 pages)
Related Manuals for Honeywell Notifier NFS2-3030 FACP
Summary of Contents for Honeywell Notifier NFS2-3030 FACP
- Page 1 Configuration, Programming and Operation Manual for Mass Notification Systems Document LS10063-000NF-E Rev: E 06/26/2019 ECN: 18-0305...
- Page 2 Fire Alarm & Emergency Communication System Limitations While a life safety system may lower insurance rates, it is not a substitute for life and property insurance! An automatic fire alarm system—typically made up of smoke Heat detectors do not sense particles of combustion and alarm detectors, heat detectors, manual pull stations, audible warning only when heat on their sensors increases at a predetermined rate devices, and a fire alarm control panel (FACP) with remote notifica-...
- Page 3 HARSH™, NIS™, and NOTI•FIRE•NET™ are all trademarks; and Acclimate® Plus™, eVance®, FlashScan®, FAAST Fire Alarm Aspiration Sensing Technology®, Honeywell®, Intelligent FAAST®, NOTIFIER®, ONYX®, ONYXWorks®, SWIFT®, VeriFire®, and VIEW® are all registered trademarks of Honeywell International Inc. Microsoft® and Windows® are registered trademarks of the Microsoft Corporation. Chrome™ and Google™ are trademarks of Google Inc. Firefox® is a registered trademark of The Mozilla Foundation.
- Page 4 Brief description of content you think should be improved or corrected • Your suggestion for how to correct/improve documentation Send email messages to: FireSystems.TechPubs@honeywell.com Please note this email address is for documentation feedback only. If you have any technical issues, please contact Technical Services. Mass Notification — P/N LS10063-000NF-E:E 06/26/2019...
-
Page 5: Table Of Contents
Table of Contents Section 1: Introduction ..............................6 1.1: Overview..........................................6 1.2: Mass Notification Features ....................................7 1.3: Supplemental Documentation....................................8 1.4: Cautions and Warnings ......................................8 Section 2: Configurations..............................9 2.1: Autonomous Control Unit (ACU) ..................................9 2.1.1: Description......................................9 2.1.2: Configurations ......................................9 2.2: Local Operating Console (LOC) ..................................10 2.2.1: Description......................................10 2.2.2: Configurations ......................................10 2.3: Central Control Station (CCS)..................................11... -
Page 6: Section 1: Introduction
Section 1: Introduction 1.1 Overview A Notifier system is capable of providing both fire and mass notification protection. Based on risk assessment, installers can configure and program a system so that mass notification (MN) system events will always have either a higher or lower priority than fire events. When MN is programmed as the highest priority: •... -
Page 7: Mass Notification Features
Mass Notification Features Introduction (DVC-RPU and (DVC-RPU and LCD-160) LCD-160) NFS-320/SYS (NFS2-3030 and DVC) Noti•Fire•Net (DVC-RPU and LCD-160) (NCA-2 and DVC) NFS2-640 (DVC-RPU and LCD-160) (NCA-2 and DVC, NCA-2 or ONYXWorks) (DVC-RPU and (NCA-2 or NFS2- LCD-160) 3030 and DVC) Notes: •... -
Page 8: Supplemental Documentation
Introduction Supplemental Documentation 1.3 Supplemental Documentation The table below provides a list of documents referenced in this manual. Product Part Number NFS2-3030 Listing Document LS10006-051NF-E NFS2-640 Listing Document 52741LD NFS-320/SYS Listing Document 52745LD NCA-2 Installation, Programming and Operations Manual 52482 ONYXWorks Workstation Manual 52342 ONYXWorks NOTIFY-IP Manual... -
Page 9: Section 2: Configurations
Section 2: Configurations Notifier equipment can be combined to meet the UL 2572 requirements for ACU, LOC, and CCS command centers. This section describes the product combinations that can be used to create these MN features, as well as their MN inputs and outputs. NOTE: Product combinations must be in the same cabinet, or in cabinets next to each other with connections in conduit. -
Page 10: Local Operating Console (Loc)
Configurations Local Operating Console (LOC) 2.2 Local Operating Console (LOC) 2.2.1 Description A Local Operating Console (LOC) is used by authorized personnel to initiate messages and signaling for mass-notification applications. It provides three paging levels - Level 1, Level 2 and Level 3 - which may be assigned to MN, fire, or general paging for prioritization based on site-specific requirements. -
Page 11: Central Control Station (Ccs)
Central Control Station (CCS) Configurations 2.3 Central Control Station (CCS) 2.3.1 Description A Central Control Station (CCS) is a system component with emergency communication and control that is used in conjunction with one or more ACUs in a mass notification system. The priority of a CCS will be lower than that of an ACU or LOC in the MN/fire system. ONYXWorks Workstation The ONYXWorks workstation (in FCC mode, with the NOTIFY-IP option) displays events and status of the MN and fire systems from any ACU located on Noti•Fire•Net. - Page 12 Configurations Central Control Station (CCS) OTHER EVENT LED for MN alarm annunciation MN alarm icon NCA-2 or NFS2- display for MN 3030, and DVC alarm annunciation Required LED annunciator or DVC- KD point programmed to illuminate when an ONYXWorks MN alarm activates. workstation CCS Configuration 1 CCS Configuration 2...
-
Page 13: Mn Alarm Indicator
MN Alarm Indicator Configurations 2.4 MN Alarm Indicator One of the following must be programmed as a dedicated MN alarm indicator for the NFS-320/SYS, NFS2-640, NFS2-3030, and NCA- 2. The indicator is not required if a panel is acting as a displayless node. •... -
Page 14: 2: Microphone Activations For Mn
Configurations Outputs 2.5.2 Microphone Activations for MN MN Microphone activations are initiated at ACU, LOC and CCS stations. Programming determines which button is assigned to mass notification. ACU, LOC, and Non-ONYXWorks CCS Activations MN ALL CALL paging is activated by pressing one of the top two paging buttons in the second column of DVC-KD buttons, then using the microphone to page. -
Page 15: Section 3: Programming
Section 3: Programming 3.1 Overview When a system is configured for both fire and MN protection, programming determines which events always have the highest priority - MN or fire. If MN is programmed as the highest priority at the fire panels and network annunciators, fire events are suppressed when MN alarms are active. -
Page 16: 2: Loc
Programming Programming Steps 3.2.2 LOC An LOC is comprised of a DVC in LOC mode, (with an NCA-2 or NFS2-3030 in network display mode) or a DVC-RPU combined with an LCD-160. The LCD-160 must be associated with the NCA-2 or NFS2-3030 (in network display mode) that is being used for the ACU. -
Page 17: 4: Subsidiary Equipment
Programming Steps Programming CCS Programming Steps 4 Create MN audio paging group(s). manual 5 Set up the workstation priorities for an MN CCS station. manual 3.2.4 Subsidiary Equipment The panels and network annunciators in this section may be present on an MN network without being part of an ACU, LOC or CCS. They do not have local control when an MN alarm is active in the system unless fire is the highest priority and there is a fire alarm on the panel or on a mapped node on the NCA-2. -
Page 18: Programming
Programming Programming 3.3 Programming 3.3.1 DCC Participation In a system with both MN and Fire, DCC must always be disabled for all NFS-320/SYSs, NFS2-640s, NFS2-3030s, NCA-2s and ONYXWorks Workstation. NFS2-3030/NCA-2 P A N E L S E T T I N G S Panel: In the Panel Settings Menu, set DCC Participation to NO to disable DCC Participation. -
Page 19: 2: Mass Notification Control Settings For The Dvc
Programming Programming VeriFire Tools: Leave the Display and Control Center box unchecked NFS2-640/NFS-320/SYS General Settings in the NFS2-640 and NFS-320/SYS service. Branch, “General Settings 2” column Leave unchecked. Figure 3.4 VeriFire Tools, NFS2-640/NFS-320/SYS 3.3.2 Mass Notification Control Settings for the DVC Open the General Settings branch of the DVC System Programming Service in VeriFire Tools. - Page 20 Programming Programming Panel: Navigate through the Panel Settings menu, pressing the “More” softkey until “MN PRIORITY OVER FIRE” appears. Press the softkey next to this selection until the appropriate P A N E L S E T T I N G S setting appears, then press “ACCEPT”.
- Page 21 Programming Programming NFS2-640/NFS-320/SYS This field allows the programmer to define the panel’s fire and MN NFS2-640/NFS-320/SYS General Settings Branch, priority. “General Settings 2” column On the VeriFire Tools General Settings branch for NFS2-640 or NFS- 320/SYS, select the appropriate setting from the pull-down menu for the “Mass Notification Priority”...
- Page 22 Programming Programming Input Number Input Source Default Priority Category ACU Local Paging Level 2 Fire ACU Network Paging Level 2 Fire LOC Local Paging Level 2 Fire LOC Network Paging Level 2 Fire CCS Local Paging Level 2 Fire CCS Network Paging Level 2 Fire Local General Paging General...
-
Page 23: 4: Mn Mapping
Programming Programming In systems that implement multiple network audio sources, the priority of the network sources will be determined by the priority assigned to the active input on the network source. For example, a DVC that is sending an ACU Local Paging Level 1 of priority 1 to a network DVC will take priority over a DVC that is sending an ACU Local Paging level 2 of priority 7 to the same DVC. -
Page 24: 5: Type Ids
Programming Programming NFS2-640, NFS-320/SYS Mass Notification Mapping Column MN network mapping allows the programmer to select the Noti•Fire•Net nodes from which the NFS2-640 or NFS-320/SYS will accept an MN alarm message to initiate fire suppression. On the NFS2-640 or NFS-320/SYS Network Map- ping branch of VeriFire Tools, check the appropriate boxes in the Mass Notification mapping column. -
Page 25: 6: Special Function Zones
Programming Programming Table 3.2 lists and describes MN control module and panel bell circuit Type IDs. Point Characteristics Point Type Code Switch Walk Type Silenceable Device Function Inhibit Test Mass notification supervised output. GENERAL Mass notification supervised NAC. CONTROL Mass notification supervised NAC. STROBE Mass notification supervised NAC for speaker SPEAKER... - Page 26 Programming Programming • It suppresses fire sequences and pages that come below it in priority, until an MN reset clears the “MN Active Tone”. NOTE: Fire or OTHER sequences and pages will not be suppressed for MN alarms without the MN Active Tone, properly prioritized in the PAM.
- Page 27 Programming Programming Assign Message Priorities Open the DVC Inputs branch of VeriFire Tools DVC programming, scroll down to the MN Active Tone Sequence. Assign the MN Active Tone Category to the MN Active Tone sequence, and give it the priority just below the MN Category inputs. When MN is the highest priority in the system, the MN Active Tone input will be the priority just above the Fire category of pages.
- Page 28 Programming Programming Create MN Logic Zones Create a logic zone that will activate if a ZF20 MN alarm comes in from any MN-mapped node. Select “OR” as the function. Select “Special Function” ZF20 as the point, and link it to each MN-mapped node on the system.
-
Page 29: 8: Fire Active Tone
Programming Programming 3.3.8 Fire Active Tone When Fire is the highest priority in a system, a DVC must be programmed in VeriFire Tools to generate a “Fire Active Tone”. This pro- gramming is required for two reasons: • It generates an audible reminder every 30 seconds that Fire has control of the system and that MN signals may be suppressed. •... - Page 30 Programming Programming Assign Message Priorities Open the DVC Inputs branch of VeriFire Tools DVC programming, scroll down to the Fire Active Tone Sequence. Assign the Fire Cate- gory to the Fire Active Tone sequence, and give it the priority just below the Fire Category inputs. When MN is the highest priority in the system, the MN Active Tone input will be the priority just above the Fire category of pages.
- Page 31 Programming Programming Create Fire Logic Zones The logic equation for the Fire Active Tone sequence must reference all DVC, panel, and NCA-2 nodes on the network. Write an OR logic equation that includes the local DVC’s general zone, the general zones on the other networked DVCs, and the general alarm zones on the networked fire panels.
- Page 32 Programming Programming Add the Logic Zone created in Figure 3.21 to all PAM Points in the row for Fire Active Tone. Select PAM View “Logic Equations” for quick data-entry. Add the common general zone to all PAM points designated as “Fire”. This example uses General Zone Z1 created in Figure 3.21.
-
Page 33: 9: Dvc-Rpu
Programming Programming 3.3.9 DVC-RPU On the DAL Mapping branch, install a DVC-RPU by selecting Device Type RPU-PCC at the appropriate address. Click on the address’s row and edit the device-specific information where it displays at the bottom of the screen. Addressing: The DVC-RPU’s DAL address on its node must be set to be the same as the RDP... -
Page 34: 11: Mn Annunciator Programming
Programming Programming Linked through DVC Mass Notification Control Settings, “Associated Node Number” setting in Veri-Fire Tools NCA-2 or NFS2-3030 LCD-160 DVC-RPU RDP Bus Address 5 Address 5 on RPD Bus on DAL LCD-160 and DVC-RPU have same address number Figure 3.24 Block Diagram Illustrating Address Link 3.3.11 MN Annunciator Programming Dedicated MN Alarm Annunciator An ACM-24AT, AEM-24AT, or DVC-KD LED annunciator, programmed as a dedicated MN alarm annunciator, is required for each... -
Page 35: 13: Mn Control Label
Programming Programming 3.3.13 MN Control Label This field provides values of Subsidiary, ACU, LOC and CCS. Select the MN function provided by the NFS2-3030 or NCA-2. This field can be set at the panel or in VeriFire Tools. P A N E L Subsidiary: Make this selection when the NFS2-3030 or NCA-2 is S E T T I N G S present on the network, but not acting as an ACU, LOC or CCS. -
Page 36: Section 4: Operation
Section 4: Operation 4.1 Mass Notification Events Special zones ZF20 (MN alarm), ZF21 (MN supervisory), and ZF22 (MN trouble) are used to signal mass notification events locally and over Noti•Fire•Net. If MN has the highest priority in the system, a ZF20 (MN alarm) will suppress fire locally and for every node in the initiating node’s MN map. -
Page 37: 2: Mn Supervisory
Mass Notification Events Operation • Any device programmed for “Resound by Fire” will not resound. • Sends an MN alarm message to the history buffer and installed printer and annunciators. • Latches the control panel in alarm. The control panel will not return to normal operation until the alarm condition is corrected and the control panel is reset. -
Page 38: 3: Mn Trouble
Operation Mass Notification Events • Flashes the SUPERVISORY yellow LED. • Activates Special Function Zone ZF21 (MN supervisory zone). • Does not suppress Fire or any other activations. • Does not activate “General Supervisory” type ID. • Any device programmed for “Resound by Supervisory” will not resound. •... -
Page 39: Performing A System Reset
Performing a System Reset Operation 4.2 Performing a System Reset If both fire and MN events are present in the system, two button presses are required to reset the system. The first button press resets the highest priority events, the second press resets the lowest priority events. When the first button press resets the highest priority events, the lower priority events will resound, if necessary. -
Page 40: Output Event Suppression
Operation Output Event Suppression All network nodes will go through a 10 second decouple time. An MN reset may require up to 60 seconds of decouple time depending on the complexity of logic equation evaluations. Fire Events Only Present in System When MN events have the highest priority and only fire events are present in the system, pressing the panel’s Reset button will reset the system. -
Page 41: Mass Notification Control Operation
Mass Notification Control Operation Operation Fire is the Highest Priority Zones: • It is crucial that logic zones be written conditionally to ensure suppression. Example 1: Output suppression using Logic Zone Programming and Special Function Zone ZF20 Logic equation ZL1 = AND(ZF20,NOT(OR(Z1,Z2,Z3))), mapped to an output that is used for both fire and MN. Z1, Z2, and Z3 are dedicated fire zones. -
Page 42: Paging
Operation Paging An MN page at a DVC-RPU will: • Give control to its assigned LCD-160, which will maintain its Controls Active LED on and maintain control functions as unblocked. • Turn off Control Active LEDs and block control functions at all other panels and annunciators. An MN alarm that is not activated by an MN page: •... -
Page 43: Index
Index Special function zones, MN 15 Subsidiary Equipment 17 ACM-24AT 9 Mass notification events 36 ACU (Autonomous Control Unit) 7 MN Active Tone 15 configurations 9 programming 25 function description 9 MN alarm activations 36 Type IDs 15 programming 15 MN alarm annunciator programming 34 AEM-24AT 9 MN alarm indicator 13... - Page 44 Index Mass Notification — P/N LS10063-000NF-E:E 06/26/2019...
- Page 45 Manufacturer Warranties and Limitation of Liability Manufacturer Warranties. Subject to the limitations set forth herein, Manufacturer warrants that the Products manufactured by it in its Northford, Connecticut facility and sold by it to its authorized Distributors shall be free, under normal use and service, from defects in material and workmanship for a period of thirty six months (36) months from the date of manufacture (effective Jan.
- Page 46 NOTIFIER 12 Clintonville Road Northford, CT 06472-1610 USA 203-484-7161 www.notifier.com...