Agenda Technical Committee on
Single- and Multiple-Station Alarms and Household Fire Alarm Systems (SIG-HOU)
First Draft Meeting Salt Lake City, UT July 25 - 27, 2016
Item 16-7-1. Call to Order
Item 16-7-2. Roll Call and Introductions
Item 16-7-3. Approval of Meeting Agenda
Item 16-7-4. Approval of Meeting Minutes
Item 16-7-5. Staff/Chair Remarks
Item 16-7-6. Task Group Reports
Item 16-7-7. Public Inputs, Committee Inputs and First Revisions
Item 16-7-8. Old Business
Item 16-7-9. New Business
Item 16-7-10. Review Dates and Times for Future Meetings/Conference Calls
Item 16-7-11. Adjournment and Closing Remarks
HOU Second Draft Meeting Minutes, June 2014 Page 1
MINUTES
TECHNICAL COMMITTEE ON
SINGLE- AND MULTIPLE-STATION ALARMS AND HOUSEHOLD FIRE ALARM SYSTEMS
NFPA 72 Second Draft Meeting
June 25 - 26, 2014, La Jolla Marriott, 4240 La Jolla Village Drive, La Jolla, CA
14-6-1 Call to order
The first day of the Second Draft Meeting (A2015) was called to order by Technical
Committee (TC) Chairman L.J. Dallaire at 1:00 pm PDT on Wednesday, June 25, 2014.
Chairman Dallaire recessed the meeting for the day at 4:30 pm PDT.
The second day of the First Draft Meeting was reconvened at 8:00 am PDT on Thursday,
June 26, 2014 by TC Chairman Dallaire. The meeting was adjourned at 3:05 pm PDT.
14-6-2 Roll Call
Chairman Dallaire requested all TC members and guests verbally introduce themselves
and confirm their attendance/contact information on the official committee attendance
roster. Seven guests were recognized.
In addition to the Chair, the following TC members and guests were present:
1 Edward Fraczkowski (Principal) EBL Engineers, LLC
2 David Christian (Principal) Automatic Fire Alarm Association, Inc.
3 Thomas G. Cleary (Principal) NIST
4 Timothy Dedear (Principal) City of Farmers Branch Fire Department
5 Justin Geiman (Principal) US Bureau of ATF&E
6 Wendy Gifford (Principal) Consultant
7 Daniel Gottuk (Principal) Hughes Associates, Inc.
8 Anna Kryagin (Principal) Port Authority of NY & NJ
9 Thomas J. McNelis (Principal) Jarden Safety & Security/BRK Brands
10 Kim Mniszewski (Principal) FX Engineering, Inc.
11 Cory Ogle (Principal) Code Consultants, Inc.
12 Jeffrey Okun (Principal) Nuko Security, Inc.
13 Stephen Olenick (Principal) Combustion Science & Engineering, Inc.
14 Steven Orlowski (Principal) National Association of Home Builders
15 Timothy A. Rader (Principal) ADT Security Services, Inc.
16 Larry Ratzlaff (Principal) UTC
17 Richard Simpson (Principal) Central Station Alarm Association
18 Jason Sutula (Principal) Exponent, Inc.
19 Thomas Waldron (Principal) Aon Fire Protection Engineering
20 Oded Aron (Alt. to A. Kryagin) Port Authority of NY & NJ
21 Michael L. Hartman (Alt. to J. Okun) Hartman Electronics, Inc.
22 Rick Heffernan (Alt. to T. McNelis) NEMA
23 Ken Mott (Alt. to L. Ratzlaff) UTC/Kidde Safety
24 John Parssinen (Alt. to D. Mills) Underwriters Laboratories Inc.
25 Richard Roberts (Alt. to D. Christian) Automatic Fire Alarm Association, Inc.
HOU Second Draft Meeting Minutes, June 2014 Page 2
26 Arthur S. Lee (Nonvoting Member) US Consumer Product Safety Commission
27 Richard Roux NFPA Staff Liaison
GUESTS:
1 Matt Jakusz ADT Security Systems
2 Amanda Kimball Fire Protection Research Foundation
3 Mark O’Keefe Honeywell Security
4 Matt Kruger Honeywell Security
5 Jeff Shapiro National Multifamily Housing Council
6 Larry Shudak UL LLC
7 Robert Schifiliti R.P. Schifiliti Associates, Inc.
14-6-3 Approval of Agenda
Richard Roux requested that an agenda item be added to address PC 95 & PC 96.
Chairman Dallaire recognized Timothy Dedear who made a motion to accept the agenda
as distributed with the noted change. Acceptance was unanimous.
14-6-4 Approval of the Meeting Minutes
Chairman Dallaire recognized Richard Simpson who made a motion to accept the June
26-28, 2013, meeting minutes with one correction of the spelling of Guest David
Lourey’s last name. Acceptance was unanimous.
14-6-5 Staff Remarks & Using the New Process
Richard Roux presented a PowerPoint presentation which reviewed the Second Draft
Meeting process.
Guest Amanda Kimball, FPRF, summarized the recently completed Phase 1 Study
involving smoke alarm nuisance source characterization. She also gave an update on
the Phase 2 portion of the study which emphasizes cooking nuisance sources. The
Phase 2 portion of the study is scheduled to be completed by the end of this year.
14-6-6 Task Group (TG) Reports (A2015)
There were no TG Reports (as assigned at the First Draft Mtg. in St. Louis) that required
additional reporting or follow-up.
The summary of each TG Report assigned during the meeting included the following:
1. TG 16-6-1: TG on Wireless Systems, Chair Timothy Rader, Group members Larry
Shudak and Jeff Shapiro. TG Chair Rader presented the TG’s findings during the
meeting. The findings were addressed in the TC action on the applicable Public
Comments (PC). No further action by the TG is required.
2. TG 16-6-2: TG on Mesh Networks, Chair Wendy Gifford, Group members Thomas
McNelis, Michael Hartman, and a Honeywell Representative. Chair Gifford
HOU Second Draft Meeting Minutes, June 2014 Page 3
presented the TG’s findings during the meeting. The findings were addressed by TC
action on the applicable PC’s. No further action by the TG is required.
3. TG 16-6-3: TG to Revise Section 14.4.5 Current Code Language Manual of Style
Irregularities, Chair Cory Ogle, Group members Justin Geiman, Anna Kryagin, and
Jeff Shapiro. Chair Ogle presented the TG’s findings during the meeting. There
were no technical changes made by the TG. No further action by the TG is required.
4. TG 16-6-4: TG on Implementation of an Installation Documentation Form, Chair
Jeffrey Okun, Group members Stephen Olenick, Steven Orlowski, and Arthur Lee.
Chair Okun presented the TG’s findings during the meeting. The findings were
addressed by the TC action on CI-56. No further action by the TG is required.
5. TG 16-6-5: TG on the 2013 Edition Nuisance Deadline, Chair David Christian, Group
members Richard Roberts and Steven Orlowski. The TG was tasked with
developing an appropriate TIA to revise Section 29.8.3.4 (5), 2013 edition. The TG
will begin its work after the TC meeting.
6. TG 16-6-6: TG to Review the 30-Day Test Signal Protocol as it relates to Section
29.7.9 and Section 26.3.8.5, Chair Timothy Rader, Group members Richard
Simpson, Tim Rader, Bob Schifiliti, Tim Dedear, and two future to-be-named
appointees from Chapter 26. The TG will begin its work after the TC meeting.
7. TG 16-6-7: TG on Non-Wired Network Communications, Chair Richard Simpson,
Group members Wendy Gifford, Richard Roberts, Larry Ratzlaff, Michael Hartman,
Tom Cleary, Timothy Rader, John Parssinen, Jeffrey Okun, and 3 future to-be-named
industry experts. The TG will begin its work after the meeting and was tasked with
the following:
a. Provide a list of three industry experts by December 2014.
b. Develop a scope, schedule, and ‘ultimate’ full report to the TC.
14-6-7 Public Comments and Second Revisions
The following Public Comments (PC) was addressed by the TC. The lists of 12 PC’s were
distributed to the TC prior to the meeting.
1. PC 235, Section Global (12.2.4.2) and others. 2. PC 33, Section 3.3.122. 3. PC 219, Section 3.3.168.2. 4. PC 234, Section 29.7.7.6. 5. PC 226, Section 29.7.8. 6. PC 222, Section 29.7.8.1. 7. PC 82, Section 29.7.8.1. 8. PC 216, Section 29.7.8.3. 9. PC 201, Section 29.7.8.3.2, 29.7.8.3.3, 29.7.8.3.4, 29.7.8.3.5. 10. PC 207, Section 29.8.3.4. 11. PC 95, Section 23.16.4.2
12. PC 96, Section 23.16.4.5
HOU Second Draft Meeting Minutes, June 2014 Page 4
14-6-8 Review of Committee Inputs
1. CI-56 was addressed by the TC based on work provided by TG 16-6-4.
14-6-9 Other Business
1. Chairman Dallaire recognized Richard Simpson who expressed his concern over how the
TC should be addressing ‘fast changing technology’ within the framework of the
minimum standard and the 3-year code cycle. After TC discussion, Chairman Dallaire
indicated he would pose the question to the CC for further direction.
14-6-10 Adjournment
No other formal TC meetings are scheduled for the remainder of this code cycle. TC
conference calls to be scheduled at the Chairman’s discretion.
Chairman Dallaire adjourned the meeting at 3:05 am PDT on Thursday, June 26, 2014.
Minutes prepared by Ed Fraczkowski.
Minutes approved on _______________ .
Public Input No. 210-NFPA 72-2016 [ Global Input ]
Rewrite the "Exception" text throughout NFPA 72 and replace with standard subsection text.
Statement of Problem and Substantiation for Public Input
NFPA 72 contains numerous sections that are written with "Exception" text. This is inconsistent the direction provided in the Manual of Style and should be corrected. Differing types of style that are inconsistent with the MOS create confusion as the proper application of the code by the end user.
As an example, 10.4.4 is currently written with an "exception" as follows:
"10.4.4* In areas that are not continuously occupied, automatic smoke detection shall be provided at the location of each fire alarm control unit(s), notification appliance circuit power extenders, and supervising station transmitting equipment to provide notification of fire at that location.Exception: Where ambient conditions prohibit installation of automatic smoke detection, automatic heat detection shall be permitted."
This section could easily be rewritten to be consistent with the MOS in the following manner with the exception becoming core text in a subsection modifying 10.4.4:
10.4.4* In areas that are not continuously occupied, automatic smoke detection shall be provided at the location of each fire alarm control unit(s), notification appliance circuit power extenders, and supervising station transmitting equipment to provide notification of fire at that location.10.4.4.1 Where ambient conditions prohibit installation of automatic smoke detection, automatic heat detection shall be permitted.
The above is just one example but applies throughout to all "exception" text in NFPA 72.
Submitter Information Verification
Submitter Full Name: Anthony Apfelbeck
Organization: Altamonte Springs Building/Fire Safety Division
Street Address:
City:
State:
Zip:
Submittal Date: Thu May 19 08:52:10 EDT 2016
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Public Input No. 335-NFPA 72-2016 [ Global Input ]
Replace the terms Fire Alarm Control Panel and FACP through the document (including alldiagrams) with the terms Fire Alarm Control Unit and FACU respectively.
Statement of Problem and Substantiation for Public Input
The terms Fire Alarm Control Panel and FACP are not defined in the code. The terms Fire Alarm Control Unit and FACU are defined in section 3.3.100*
Submitter Information Verification
Submitter Full Name: Daniel Gauvin
Organization: Tyco Fire Suppression and Building Products
Street Address:
City:
State:
Zip:
Submittal Date: Mon Jun 13 09:10:07 EDT 2016
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Public Input No. 720-NFPA 72-2016 [ Global Input ]
As applicable in the body of the code as well as any related annexes, all references to NFPA 70, TheNational Electrical Code, should be made to the entire document instead of a specific article unlesstechnically required.
Statement of Problem and Substantiation for Public Input
Referencing a specific article in the NEC can lead to confusion and potential enforcement issues. For example many times only Article 760 is referenced leading some to believe that is the only part of the NEC that applies and not following or acknowledging the charging requirements established in Article 90-.
Submitter Information Verification
Submitter Full Name: Thomas Parrish
Organization: Telgian Corporation
Street Address:
City:
State:
Zip:
Submittal Date: Wed Jun 29 15:38:04 EDT 2016
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Public Input No. 355-NFPA 72-2016 [ Global Input ]
Add a new Annex as follows:
X.1 Guideline Summary. How public emergency response organizations
respond to carbon monoxide (CO) incident calls is
essential for the safety of the building occupants and the emergency
responders. One reference that can be helpful to emergency
responders is the Consumer Product Safety Commission
(CPSC) Guidelines for Fire and other Emergency First Response Personnel.
This guide is designed to help emergency responders to act
quickly and effectively when they receive a call concerning CO
poisoning. The guide contains basic information needed when
responding to a CO incident and provides procedures for:
(1) Dispatchers answering a call
(2) Incident reporting forms to help emergency responders
identify the elevated source of carbon monoxide, the
level of care needed by occupants, and when it is safe for
occupants to return to the building
(3) Advice and actions to give building occupants
The CPSC guide is available for download at www.cpsc.gov/
PageFiles/117067/coguide.pdf.
Statement of Problem and Substantiation for Public Input
:Product of 72-720 task group
Submitter Information Verification
Submitter Full Name: Art Black
Organization: Carmel Fire Protection
Street Address:
City:
State:
Zip:
Submittal Date: Sun Jun 19 12:50:38 EDT 2016
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Public Input No. 559-NFPA 72-2016 [ Global Input ]
The NFPA 72 Correlating Committee Task Group on Metric Values would like to submit the followingGlobal Input , Any place in the body of Chapter 29 or its annex that the value 1 1/2 inches Is usedthe metric equivalent shall be 38.0 mm.
Statement of Problem and Substantiation for Public Input
This Task Group was established to provide conversion values from inch-pound units to Metric units in a consistent manner throughout the document. This will establish a baseline value for the use of each unit of measurement to provide consistency.
Submitter Information Verification
Submitter FullName:
Thomas Parrish
Organization: Telgian Corporation
Affilliation:NFPA SIG-AAC Metric Task Group, Tom Parrish, A. M. Fred Leber,and Jeffery G. Van Keuren
Street Address:
City:
State:
Zip:
Submittal Date: Tue Jun 28 14:27:13 EDT 2016
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Public Input No. 692-NFPA 72-2016 [ Global Input ]
The NFPA 72 Correlating Committee Task Group on Metric Values would like to submitthe following Global Input , Any place in the body of Chapters 18, 26, 29 or itsannexes that the value 50 feet Is used the metric equivalent shall be 15.2 m
Statement of Problem and Substantiation for Public Input
This Task Group was established to provide conversion values from inch-pound units to Metric units in a consistent manner throughout the document. This will establish a baseline value for the use of each unit of measurement to provide consistency.
Submitter Information Verification
Submitter FullName:
Thomas Parrish
Organization: Telgian Corporation
Affilliation:NFPA SIG-AAC Metric Task Group, Tom Parrish, A. M. Fred Leber,and Jeffery G. Van Keuren
Street Address:
City:
State:
Zip:
Submittal Date: Wed Jun 29 14:29:30 EDT 2016
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Public Input No. 2-NFPA 72-2015 [ Chapter 2 ]
Chapter 2 Referenced Publications
2.1 General.
The documents or portions thereof listed in this chapter are referenced within this Code and shall beconsidered part of the requirements of this document.
2.2 NFPA Publications.
National Fire Protection Association, 1 Batterymarch Park, Quincy, MA 02169-7471.
NFPA 10, Standard for Portable Fire Extinguishers, 2013 edition.
NFPA 13, Standard for the Installation of Sprinkler Systems, 2016 edition.
NFPA 25, Standard for the Inspection, Testing, and Maintenance of Water-Based Fire Protection Systems,2014 edition.
NFPA 37, Standard for the Installation and Use of Stationary Combustion Engines and Gas Turbines, 2015edition.
NFPA 70® , National Electrical Code®, 2014 edition.
NFPA 75, Standard for the Fire Protection of Information Technology Equipment, 2016 edition.
NFPA 90A, Standard for the Installation of Air-Conditioning and Ventilating Systems, 2015 edition.
NFPA 101® , Life Safety Code®, 2015 edition.
NFPA 110, Standard for Emergency and Standby Power Systems, 2016 edition.
NFPA 111, Standard on Stored Electrical Energy Emergency and Standby Power Systems, 2016 edition.
NFPA 170, Standard for Fire Safety and Emergency Symbols, 2015 edition.
NFPA 601, Standard for Security Services in Fire Loss Prevention, 2015 edition.
NFPA 720, Standard for the Installation of Carbon Monoxide (CO) Detection and Warning Equipment, 2015edition.
NFPA 1031, Standard for Professional Qualifications for Fire Inspector and Plan Examiner, 2014 edition.
NFPA 1221, Standard for the Installation, Maintenance, and Use of Emergency Services CommunicationsSystems, 2016 edition.
NFPA 1600® , Standard on Disaster/Emergency Management and Business Continuity Programs, 2013edition.
NFPA 1620, Standard for Pre-Incident Planning, 2015 edition.
2.3 Other Publications.
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2.3.1 ANSI Publications.
American National Standards Institute, Inc., 25 West 43rd Street, 4th Floor, New York, NY 10036.
ANSI A-58.1, Building Code Requirements for Minimum Design Loads in Buildings and Other Structures.(Superseded by ASCE 7)
ANSI S1.4a, Specifications for Sound Level Meters, 1985, reaffirmed 2006. (Superseded by ANSI/ASAS1.4 Part 3)
ANSI /ASA S1.4 Part 3/IEC 61672-3, Electroacoustics-Sound Level Meters - Periodic Tests, 2014.
ANSI /ASA S3.41, American National Standard Audible Emergency Evacuation Signal, 1990, reaffirmed2008.ANSI/ 2015 .
2.3.2 ASCE Publications.
American Society Of Civil Engineers, 1801 Alexander Bell Drive, Reston, VA 20191.
ASCE 7-10, Minimum Design Loads for Buildings and Other Structures, 2010, Supplement 1 andrevised commentary, 2013.
2.3.3 ASME Publications.
ASME A17.1/CSA B44–13, Safety Code for Elevators and Escalators , 2013.
ANSI/IEEE
2.3.4. EIA Publications.
Electronic Industries Alliance, 2500 Wilson Boulevard, Arlington, VA 22201-3834.
EIA Tr 41.3, Telephones .
2.3.5. IEEE Publications.
IEEE, 449 and 501 Hoes Lane, Piscataway, NJ 08854-4141.
IEEE C2, National Electrical Safety Code ,
2007.ANSI/TIA
2016.
2.3.6. IMSA Publication.
International Municipal Signal Association, 597 Haverty Court, Suite 100, Rockledge, FL 32955 .
“IMSA Official Wire and Cable Specifications,” 2012.
2.3.7 ISO Publications.
International Organization for Standardization, ISO Central Secretariat, Chemen de Blandonnet 8, CP401, 1214 Vernier, Geneva Switzerland .
ISO 7731, Danger signals for public and work places — Auditory danger signals , 2003.
2.3.8 Telcordia Publications.
Telcordia Technologies, One Telcordia Drive, Piscataway, NJ 08854.
GR-506-CORE, LATA Switching Systems Generic Requirements: Signaling for Analog Interface, 2006.
GR-909-CORE, Fiber in the Loop Systems Generic Requirements, 2004.
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2.3.9. TIA Publications.
Telecommunications Industry Association, 1320 North Courthouse Road, Suite 200, Arlington, VA 22201.
TIA -568-C.3, Optical Fiber Cabling Components Standard , June 2008 , Addendum 1, 2011 .
ANSI/
2.3.10. UL Publications.
Underwriters Laboratory, 333 Pfingsten Road, Northbrook, IL 60062-2096.
UL 217, Standard for Single and Multiple Station Smoke Alarms ,
6th
8 th edition,
2006, revised 2012
2015 .
ANSI/
UL 268, Standard for Smoke Detectors for Fire Alarm Systems , 6th edition, 2009.
ANSI/
UL 827, Standard for Central-Station Alarm Services ,
7th
8 th edition,
2008
2014 , revised
2013
2015 .
ANSI/
UL 864, Standard for Control Units and Accessories for Fire Alarm Systems ,
9th
10 th edition,
2003, revised 2012
2014 .
ANSI/
UL 985, Standard for Household Fire Warning System Units ,
5th
6 th edition,
2000, revised 2008
2015 .
ANSI/
UL 1638, Visual Signaling Appliances — Private Mode Emergency and General Utility Signaling , 4thedition, 2001, revised 2013.
ANSI/
UL 1730, Standard for Smoke Detector Monitors and Accessories for Individual Living Units of MultifamilyResidences and Hotel/Motel Rooms , 4th edition, 2006, revised 2012.
ANSI/
UL 1971, Standard for Signaling Devices for the Hearing Impaired , 3rd edition, 2002, revised 2013.
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ANSI/
UL 1981, Central Station Automation Systems ,
2nd
3rd edition,
2003
2014 , revised
2012
2015 .
ANSI/
UL 2017, Standard for General-Purpose Signaling Devices and Systems , 2nd edition, 2008, revised 2011.
ANSI/
UL 2572, Mass Notification Systems , 1st edition, 2011, revised 2012.
ANSI/
UL 60950, Information Technology Equipment — Safety — Part 1: General Requirements , 2nd edition,2007, revised
2011
2014 .
2.3. 2 EIA Publications.
Electronic Industries Alliance, 2500 Wilson Boulevard, Arlington, VA 22201-3834.
EIA Tr 41.3, Telephones .
2.3.3 IMSA Publication.
International Municipal Signal Association, 165 East Union Street, Newark, NY 14513-0539.
“IMSA Official Wire and Cable Specifications,” 2012.
2.3.4 ISO Publications.
International Organization for Standardization, 1, ch. de la Voie-Creuse, Case postale 56, CH-1211Geneva 20, Switzerland.
ISO 7731, Danger signals for public and work places — Auditory danger signals , 2003 (reconfirmed2009).
2.3.5 Telcordia Publications.
Telcordia Technologies, One Telcordia Drive, Piscataway, NJ 08854.
GR-506-CORE, LATA Switching Systems Generic Requirements: Signaling for Analog Interface, 2006.
GR-909-CORE, Fiber in the Loop Systems Generic Requirements, 2004.
2.3.6 11. Other Publications.
Merriam-Webster’s Collegiate Dictionary, 11th edition, Merriam-Webster, Inc., Springfield, MA, 2003.
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2.4 References for Extracts in Mandatory Sections.
NFPA 70® , National Electrical Code®, 2014 edition.
NFPA 101® , Life Safety Code®, 2015 edition.
NFPA 654, Standard for the Prevention of Fire and Dust Explosions from the Manufacturing, Processing,and Handling of Combustible Particulate Solids, 2013 edition.
NFPA 720, Standard for the Installation of Carbon Monoxide (CO) Detection and Warning Equipment, 2015edition.
NFPA 1221, Standard for the Installation, Maintenance, and Use of Emergency Services CommunicationsSystems, 2016 edition.
NFPA 5000® , Building Construction and Safety Code®, 2015 edition.
Statement of Problem and Substantiation for Public Input
Referenced current SDO names, addresses, standard names, numbers, and editions.
Related Public Inputs for This Document
Related Input Relationship
Public Input No. 3-NFPA 72-2015 [Chapter H]
Submitter Information Verification
Submitter Full Name: Aaron Adamczyk
Organization: [ Not Specified ]
Street Address:
City:
State:
Zip:
Submittal Date: Mon Dec 21 17:16:12 EST 2015
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Public Input No. 664-NFPA 72-2016 [ New Section after 2.3 ]
2.3.6 UL Publications.
Underwriters Laboratories Inc., 333 Pfingsten Road, Northbrook, IL 60062-2096. www.ul.com
ANSI/UL 217, Standard for Single and Multiple Station Smoke Alarms , 6th edition, 2006, revised 2012.
ANSI/UL 268, Standard for Smoke Detectors for Fire Alarm Systems , 6th edition, 2009.
ANSI/UL 827, Standard for Central-Station Alarm Services , 7th edition, 2008, revised 2013.
ANSI/UL 864, Standard for Control Units and Accessories for Fire Alarm Systems , 9th edition, 2003,revised 2012.
ANSI/UL 985, Standard for Household Fire Warning System Units , 5th edition, 2000, revised 2008.
ANSI/UL 1638, Visual Signaling Appliances — Private Mode Emergency and General Utility Signaling , 4thedition, 2001, revised 2013.
ANSI/UL 1730, Standard for Smoke Detector Monitors and Accessories for Individual Living Units ofMultifamily Residences and Hotel/Motel Rooms , 4th edition, 2006, revised 2012.
ANSI/UL 1971, Standard for Signaling Devices for the Hearing Impaired , 3rd edition, 2002, revised 2013.
ANSI/UL 1981, Central Station Automation Systems , 2nd edition, 2003, revised 2012.
ANSI/UL 2017, Standard for General-Purpose Signaling Devices and Systems , 2nd edition, 2008, revised2011.
ANSI/UL 2572, Mass Notification Systems , 1st edition, 2011, revised 2012 .
ANSI/UL 60950, Information Technology Equipment — Safety —Part 1: General Requirements , 2ndedition, 2007, revised 2011.
Statement of Problem and Substantiation for Public Input
This proposal merely moves UL standards from Section 2.3.1 ANSI Publications to a new Section 2.3.6 titled UL Publications. Other NFPA codes such as NFPA 101, 13, etc. treat UL referenced standards in this same manner. The move will make it easier for code users to locate UL referenced standards. Assume existing Section 2.3.6 will be renumbered 2.3.7.
In separate public inputs we proposed updates to UL referenced standards, and introduced new referenced standards. If those changes are accepted they should be relocated to this section.
Also assume staff can delete these ANSI/UL standards are deleted from Section 2.3.1.
Submitter Information Verification
Submitter Full Name: Howard Hopper
Organization: UL LLC
Street Address:
City:
State:
Zip:
Submittal Date: Wed Jun 29 12:20:57 EDT 2016
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Public Input No. 552-NFPA 72-2016 [ Section No. 2.3.1 ]
2.3.1 ANSI Publications.
American National Standards Institute, Inc., 25 West 43rd Street, 4th Floor, New York, NY 10036.
ANSI A-58.1, Building Code Requirements for Minimum Design Loads in Buildings and Other Structures.
ANSI S1.4a, Specifications for Sound Level Meters, 1985, reaffirmed 2006.
ANSI S3.41, American National Standard Audible Emergency Evacuation Signal, 1990, reaffirmed 2008.
ANSI/ASME A17.1/CSA B44–13, Safety Code for Elevators and Escalators, 2013.
ANSI/IEEE C2, National Electrical Safety Code, 2007.
ANSI/TIA-568-C.3, Optical Fiber Cabling Components Standard, June 2008.
ANSI/UL 217, Standard for Single and Multiple Station Smoke Alarms , 6th edition, 2006, revised 2012.
ANSI/UL 268, Standard for Smoke Detectors for Fire Alarm Systems , 6th edition, 2009.
ANSI/UL 827, Standard for Central-Station Alarm Services , 7th edition, 2008, revised 2013.
ANSI/UL 864, Standard for Control Units and Accessories for Fire Alarm Systems , 9th edition, 2003,revised 2012.
ANSI/UL 985, Standard for Household Fire Warning System Units , 5th edition, 2000, revised 2008.
ANSI/UL 1638, Visual Signaling Appliances — Private Mode Emergency and General Utility Signaling , 4thedition, 2001, revised 2013.
ANSI/UL 1730, Standard for Smoke Detector Monitors and Accessories for Individual Living Units ofMultifamily Residences and Hotel/Motel Rooms , 4th edition, 2006, revised 2012.
ANSI/UL 1971, Standard for Signaling Devices for the Hearing Impaired , 3rd edition, 2002, revised 2013.
ANSI/UL 1981, Central Station Automation Systems , 2nd edition, 2003, revised 2012.
ANSI/UL 2017, Standard for General-Purpose Signaling Devices and Systems , 2nd edition, 2008, revised2011.
ANSI/UL 2572, Mass Notification Systems , 1st edition, 2011, revised 2012.
ANSI/UL 60950, Information Technology Equipment — Safety — Part 1: General Requirements , 2ndedition, 2007, revised 2011.
Statement of Problem and Substantiation for Public Input
The deleted UL Standards should be removed from this section and placed under a separate section in Referenced Publications for UL Standards.
Submitter Information Verification
Submitter Full Name: Ronald Farr
Organization: UL LLC
Street Address:
City:
State:
Zip:
Submittal Date: Tue Jun 28 12:47:13 EDT 2016
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Public Input No. 117-NFPA 72-2016 [ Section No. 2.3.1 ]
2.3.1 ANSI Publications.
American National Standards Institute, Inc., 25 West 43rd Street, 4th Floor, New York, NY 10036.
ANSI A-58.1, Building Code Requirements for Minimum Design Loads in Buildings and Other Structures.
ANSI S1.4a, Specifications for Sound Level Meters, 1985, reaffirmed 2006.
ANSI/ASA S3.41, American National Standard Audible Emergency Evacuation Signal ,1990 Evacuation (E2) and Evacuation Signals with Relocation Instructions (ESRI), 1990 , reaffirmed 2008,revised 2015 .
ANSI/ASME A17.1/CSA B44–13, Safety Code for Elevators and Escalators, 2013.
ANSI/IEEE C2, National Electrical Safety Code, 2007.
ANSI/TIA-568-C.3, Optical Fiber Cabling Components Standard, June 2008.
ANSI/UL 217, Standard for Single and Multiple Station Smoke Alarms, 6th edition, 2006, revised 2012.
ANSI/UL 268, Standard for Smoke Detectors for Fire Alarm Systems, 6th edition, 2009.
ANSI/UL 827, Standard for Central-Station Alarm Services, 7th edition, 2008, revised 2013.
ANSI/UL 864, Standard for Control Units and Accessories for Fire Alarm Systems, 9th edition, 2003,revised 2012.
ANSI/UL 985, Standard for Household Fire Warning System Units, 5th edition, 2000, revised 2008.
ANSI/UL 1638, Visual Signaling Appliances — Private Mode Emergency and General Utility Signaling, 4thedition, 2001, revised 2013.
ANSI/UL 1730, Standard for Smoke Detector Monitors and Accessories for Individual Living Units ofMultifamily Residences and Hotel/Motel Rooms, 4th edition, 2006, revised 2012.
ANSI/UL 1971, Standard for Signaling Devices for the Hearing Impaired, 3rd edition, 2002, revised 2013.
ANSI/UL 1981, Central Station Automation Systems, 2nd edition, 2003, revised 2012.
ANSI/UL 2017, Standard for General-Purpose Signaling Devices and Systems, 2nd edition, 2008, revised2011.
ANSI/UL 2572, Mass Notification Systems, 1st edition, 2011, revised 2012.
ANSI/UL 60950, Information Technology Equipment — Safety — Part 1: General Requirements, 2ndedition, 2007, revised 2011.
Statement of Problem and Substantiation for Public Input
Updated the referenced document.
Submitter Information Verification
Submitter Full Name: Vince Baclawski
Organization: Nema
Street Address:
City:
State:
Zip:
Submittal Date: Thu Apr 07 13:31:58 EDT 2016
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Public Input No. 408-NFPA 72-2016 [ Section No. 2.3.1 ]
2.3.1 ANSI Publications.
American National Standards Institute, Inc., 25 West 43rd Street, 4th Floor, New York, NY 10036.
ANSI A-58.1, Building Code Requirements for Minimum Design Loads in Buildings and Other Structures.
ANSI S1.4a, Specifications for Sound Level Meters, 1985, reaffirmed 2006.
ANSI S3.41, American National Standard Audible Emergency Evacuation Signal, 1990, reaffirmed 2008.
ANSI/ASME A17.1/CSA B44–13, Safety Code for Elevators and Escalators, 2013.
ANSI/IEEE C2, National Electrical Safety Code, 2007.
ANSI/TIA-568-C.3, Optical Fiber Cabling Components Standard, June 2008.
ANSI/UL 217, Standard for Single and Multiple Station Smoke Alarms, 6th edition, 2006, revised 2012.
ANSI/UL 268, Standard for Smoke Detectors for Fire Alarm Systems, 6th edition, 2009.
ANSI/UL 827, Standard for Central-Station Alarm Services, 7th edition, 2008, revised 2013.
ANSI/UL 864, Standard for Control Units and Accessories for Fire Alarm Systems, 9th edition, 2003,revised 2012.
ANSI/UL 985, Standard for Household Fire Warning System Units, 5th edition, 2000, revised 2008.
ANSI/UL 1484, Standard for Residential Gas Detectors, 5th edition, 2016.
ANSI/ UL 1638, Visual Signaling Appliances — Private Mode Emergency and General Utility Signaling, 4thedition, 2001, revised 2013.
ANSI/UL 1730, Standard for Smoke Detector Monitors and Accessories for Individual Living Units ofMultifamily Residences and Hotel/Motel Rooms, 4th edition, 2006, revised 2012.
ANSI/UL 1971, Standard for Signaling Devices for the Hearing Impaired, 3rd edition, 2002, revised 2013.
ANSI/UL 1981, Central Station Automation Systems, 2nd edition, 2003, revised 2012.
ANSI/UL 2017, Standard for General-Purpose Signaling Devices and Systems, 2nd edition, 2008, revised2011.
ANSI/UL 2075, Standard for Gas and Vapor Detectors and Sensors, 2nd edition, 2013
ANSI/ UL 2572, Mass Notification Systems, 1st edition, 2011, revised 2012.
ANSI/UL 60950, Information Technology Equipment — Safety — Part 1: General Requirements, 2ndedition, 2007, revised 2011.
Statement of Problem and Substantiation for Public Input
Identify Gas Detector standards for section 17.10
Related Public Inputs for This Document
Related Input Relationship
Public Input No. 407-NFPA 72-2016 [Section No. 17.10.2.1]
Submitter Information Verification
Submitter Full Name: David Buddingh
Organization: Buddingh Assoc
Street Address:
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City:
State:
Zip:
Submittal Date: Wed Jun 22 13:23:51 EDT 2016
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Public Input No. 558-NFPA 72-2016 [ Section No. 2.3.1 ]
2.3.1 ANSI Publications.
American National Standards Institute, Inc., 25 West 43rd Street, 4th Floor, New York, NY 10036.
ANSI A-58.1, Building Code Requirements for Minimum Design Loads in Buildings and Other Structures.
ANSI S1.4a, Specifications for Sound Level Meters, 1985, reaffirmed 2006.
ANSI S3.41, American National Standard Audible Emergency Evacuation Signal, 1990, reaffirmed 2008.
ANSI/ASME A17.1/CSA B44–13, Safety Code for Elevators and Escalators, 2013.
ANSI/IEEE C2, National Electrical Safety Code, 2007.
ANSI/TIA-568-C.3, Optical Fiber Cabling Components Standard, June 2008.
ANSI/UL 217, Standard for Single and Multiple Station Smoke Alarms, 6th edition, 2006, revised 2012.
ANSI/UL 268, Standard for Smoke Detectors for Fire Alarm Systems, 6th edition, 2009.
ANSI/UL 827, Standard for Central-Station Alarm Services, 7th edition, 2008, revised 2013.
ANSI/UL 864, Standard for Control Units and Accessories for Fire Alarm Systems, 9th edition, 2003,revised 2012.
ANSI/UL 985, Standard for Household Fire Warning System Units, 5th edition, 2000, revised 2008.
ANSI/UL 1638, Visual Signaling Appliances — Private Mode Emergency and General Utility Signaling, 4thedition, 2001, revised 2013.
ANSI/UL 1730, Standard for Smoke Detector Monitors and Accessories for Individual Living Units ofMultifamily Residences and Hotel/Motel Rooms, 4th edition, 2006, revised 2012.
ANSI/UL 1971, Standard for Signaling Devices for the Hearing Impaired, 3rd edition, 2002, revised 2013.
ANSI/UL 1981, Central Station Automation Systems, 2nd edition, 2003, revised 2012.
ANSI/UL 2017, Standard for General-Purpose Signaling Devices and Systems, 2nd edition, 2008, revised2011.
ANSI/UL 2572, Mass Notification Systems, 1st edition, 2011, revised 2012.
ANSI/UL 60950, Information Technology Equipment — Safety — Part 1: General Requirements, 2ndedition, 2007, revised 2011.
ANSI/UL 1973, Standard for Batteries for use in Light Electric Rail (lER) Applications and StationaryApplications, 1st Edition, 2013, revised 2015.
UL 2054, Standard for Household and Commercial Batteries, 2nd Edition, 2004.
UL Subject 9540, Outline of Investigation for Energy Storage Systems and Equipment, 1st Issue, 2014.
Statement of Problem and Substantiation for Public Input
To reference the ANSI/UL and subject matter standard for energy storage and components of Energy Storage Systems "ESS".
Submitter Information Verification
Submitter Full Name: Vince Baclawski
Organization: Nema
Street Address:
City:
State:
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Zip:
Submittal Date: Tue Jun 28 13:09:40 EDT 2016
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Public Input No. 170-NFPA 72-2016 [ Section No. 2.3.1 ]
2.3.1 ANSI Publications.
American National Standards Institute, Inc., 25 West 43rd Street, 4th Floor, New York, NY 10036.
ANSI A-58.1, Building Code Requirements for Minimum Design Loads in Buildings and Other Structures.
ANSI S1.4a, Specifications for Sound Level Meters, 1985, reaffirmed 2006.
ANSI S3.41, American National Standard Audible Emergency Evacuation Signal, 1990, reaffirmed 2008.
ANSI/ASME A17.1/CSA B44–13, Safety Code for Elevators and Escalators, 2013.
ANSI/IEEE C2, National Electrical Safety Code, 2007.
ANSI/TIA-568-C.3, Optical Fiber Cabling Components Standard, June 2008.
ANSI/UL 217, Standard for Single and Multiple Station Smoke Alarms, 6th edition, 2006, revised 2012.
ANSI/UL 268, Standard for Smoke Detectors for Fire Alarm Systems, 6th edition, 2009.
ANSI/UL 827, Standard for Central-Station Alarm Services, 7th edition, 2008, revised 2013.
ANSI/UL 864, Standard for Control Units and Accessories for Fire Alarm Systems, 9th edition, 2003,revised 2012.
ANSI/UL 985, Standard for Household Fire Warning System Units, 5th edition, 2000, revised 2008.
ANSI/UL 1638, Visual Signaling Appliances — Private Mode Emergency and General Utility Signaling, 4thedition, 2001, revised 2013.
ANSI/UL 1730, Standard for Smoke Detector Monitors and Accessories for Individual Living Units ofMultifamily Residences and Hotel/Motel Rooms, 4th edition, 2006, revised 2012.
ANSI/UL 1971, Standard for Signaling Devices for the Hearing Impaired, 3rd edition, 2002, revised 2013.
ANSI/UL 1981, Central Station Automation Systems, 2nd edition, 2003, revised 2012.
ANSI/UL 2017, Standard for General-Purpose Signaling Devices and Systems, 2nd edition, 2008, revised2011.
ANSI/UL 2572, Mass Notification Systems, 1st edition, 2011, revised 2012.
ANSI/UL 60950, Information Technology Equipment — Safety — Part 1: General Requirements, 2ndedition, 2007, revised 2011.
ANSI/UL 2034, Single- and Multiple Station Carbon Monoxide Alarms, February 2008, Revised February2009
ANSI/UL 2075, Gas and Vapor Detectors and Sensors, March 2013
Statement of Problem and Substantiation for Public Input
This is a product of the 72/720 consolidation task group.
Submitter Information Verification
Submitter Full Name: Art Black
Organization: Carmel Fire Protection
Street Address:
City:
State:
Zip:
Submittal Date: Thu Apr 28 10:31:13 EDT 2016
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Public Input No. 555-NFPA 72-2016 [ New Section after 2.4 ]
TITLE OF NEW CONTENT
Add New Section 2.?.? UL Publications
Underwriters Laboratories Inc., 333 Pfingsten Road, Northbrook, IL 60062-2096.
ANSI/UL 217, Standard for Single and Multiple Station Smoke Alarms , 8th edition, 2006, revised 2015.
ANSI/UL 268, Standard for Smoke Detectors for Fire Alarm Systems , 7th edition, 2016.
ANSI/UL 827, Standard for Central-Station Alarm Services , 8th edition, 2008, revised 2015.
ANSI/UL 864, Standard for Control Units and Accessories for Fire Alarm Systems , 10th edition, 2003,revised 2014.
ANSI/UL 985, Standard for Household Fire Warning System Units , 6th edition, 2000, revised 2015.
ANSI/UL 1638, Visual Signaling Appliances — Private Mode Emergency and General Utility Signaling ,5th edition, 2001, revised 2016.
ANSI/UL 1730, Standard for Smoke Detector Monitors and Accessories for Individual Living Units ofMultifamily Residences and Hotel/Motel Rooms , 4th edition, 2006, revised 2012.
ANSI/UL 1971, Standard for Signaling Devices for the Hearing Impaired , 3rd edition, 2002, revised2013.
ANSI/UL 1981, Central Station Automation Systems , 3rd edition, 2003, revised 2015.
ANSI/UL 2017, Standard for General-Purpose Signaling Devices and Systems , 2nd edition, 2008,revised 2016.
ANSI/UL 2572, Mass Notification Systems , 2nd edition, 2011, revised 2016 .
ANSI/UL 60950, Information Technology Equipment — Safety — Part 1: General Requirements , 3rdedition, 2007, revised 2011.
Statement of Problem and Substantiation for Public Input
This proposal requests to add a new section in Referenced Publications and places those UL Standards that were removed from 2.3.1 (PI 552) under a separate section identified as UL Publications and also updates the referenced standards to the current editions.
Submitter Information Verification
Submitter Full Name: Ronald Farr
Organization: UL LLC
Street Address:
City:
State:
Zip:
Submittal Date: Tue Jun 28 12:52:13 EDT 2016
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Public Input No. 171-NFPA 72-2016 [ New Section after 3.3.11 ]
3.3.x Carbon Monoxide Alarm.
A single- or multiple-station carbon monoxide alarm intended for the purpose of detecting carbon monoxidegas and alerting occupants by a distinct audible signal comprising an assembly that incorporates a sensor,control components, and an alarm notification appliance in a single unit operated from a power sourceeither located in the unit or obtained at the point of installation.
Statement of Problem and Substantiation for Public Input
This is a product of the 72/720 consolidation task group
Submitter Information Verification
Submitter Full Name: Art Black
Organization: Carmel Fire Protection
Street Address:
City:
State:
Zip:
Submittal Date: Thu Apr 28 10:38:12 EDT 2016
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Public Input No. 172-NFPA 72-2016 [ New Section after 3.3.33 ]
3.3.x Carbon Monoxide Detector.A device having a sensor that responds to carbon monoxide gas that is connected to an alarm control unit.
Statement of Problem and Substantiation for Public Input
This is a product of the 72/720 consolidation task group.
Submitter Information Verification
Submitter Full Name: Art Black
Organization: Carmel Fire Protection
Street Address:
City:
State:
Zip:
Submittal Date: Thu Apr 28 10:41:15 EDT 2016
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Public Input No. 179-NFPA 72-2016 [ New Section after 3.3.34 ]
3.3.x Carbon Monoxide Detection System.
3.3.x.1 Carbon Monoxide Detection System. A system or portion of a combination system thatconsists of a control unit, components, and circuits arranged to monitor and annunciate the statusof carbon monoxide alarm initiating devices and to initiate the appropriate response to thosesignals.
3.3.x.2 Combination Carbon Monoxide Detection System. A carbon monoxide detectionsystem in which components are used, in whole or in part, in common with a non–carbonmonoxide signaling system, and in which components are not used as part of a fire alarm system.
3.3.x.3 Household Carbon Monoxide Detection System. A system of devices that uses acontrol unit to produce an alarm signal in the household for the purpose of notifying the occupantsof the presence of concentrations of carbon monoxide that could pose a life safety risk.
Statement of Problem and Substantiation for Public Input
This is a product of the 72/720 consolidation task group
Submitter Information Verification
Submitter Full Name: Art Black
Organization: Carmel Fire Protection
Street Address:
City:
State:
Zip:
Submittal Date: Thu Apr 28 11:04:12 EDT 2016
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Public Input No. 174-NFPA 72-2016 [ New Section after 3.3.108 ]
3.3.x Fireplace.A hearth, fire chamber, or similarly prepared area and a chimney. [ 211, 2013]
Statement of Problem and Substantiation for Public Input
This is a product of the 72/720 consolidation task group
Submitter Information Verification
Submitter Full Name: Art Black
Organization: Carmel Fire Protection
Street Address:
City:
State:
Zip:
Submittal Date: Thu Apr 28 10:49:37 EDT 2016
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Public Input No. 175-NFPA 72-2016 [ New Section after 3.3.114 ]
3.3.x * Fuel-Burning Appliance.
A device that burns solid, liquid, or gaseous fuel or a combination thereof.
Associated annex material:
A.3.3.X Fuel Burning Appliance. Fuel-burning appliances include, but are not limited to, devicesused for cooking, heating, lighting, or decorative purposes. Examples are wood stoves, portablespace heaters, ranges, furnaces, water heaters, clothes dryers, gas refrigerators, gas lamps, andfuel burning fireplaces.
Statement of Problem and Substantiation for Public Input
This is a product of the 72/720 consolidation task group
Submitter Information Verification
Submitter Full Name: Art Black
Organization: Carmel Fire Protection
Street Address:
City:
State:
Zip:
Submittal Date: Thu Apr 28 10:51:41 EDT 2016
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Public Input No. 176-NFPA 72-2016 [ New Section after 3.3.160 ]
3.3.x Multiple-Purpose Alarm.
An alarm that incorporates detection capabilities for more than one hazardous condition, such as fire, fuelgas, or carbon monoxide.
Statement of Problem and Substantiation for Public Input
This is a product of the 72/720 consolidation task group.
Submitter Information Verification
Submitter Full Name: Art Black
Organization: Carmel Fire Protection
Street Address:
City:
State:
Zip:
Submittal Date: Thu Apr 28 10:55:39 EDT 2016
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Public Input No. 177-NFPA 72-2016 [ New Section after 3.3.241 ]
3.3.x Response Plan.
The action to be taken in response to a carbon monoxide alarm signal.
Statement of Problem and Substantiation for Public Input
This is a product of the 72/720 consolidation task group.
Submitter Information Verification
Submitter Full Name: Art Black
Organization: Carmel Fire Protection
Street Address:
City:
State:
Zip:
Submittal Date: Thu Apr 28 10:58:19 EDT 2016
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Public Input No. 178-NFPA 72-2016 [ Section No. 3.3.248 ]
3.3.248 Separate Sleeping Area.
The area of a dwelling unit where the bedrooms or sleeping rooms are located. [ 720, 2015] (SIG-HOU)
Statement of Problem and Substantiation for Public Input
This is a product of the 72/720 consolidation task group. Removal of reference to 720.
Submitter Information Verification
Submitter Full Name: Art Black
Organization: Carmel Fire Protection
Street Address:
City:
State:
Zip:
Submittal Date: Thu Apr 28 11:00:35 EDT 2016
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Public Input No. 751-NFPA 72-2016 [ New Section after 29.1 ]
29.1.6
New Technology
This sections will allow new based on the fgollowing criteria: listing, equipment performance, systemperfortmance and enhancing life system
Statement of Problem and Substantiation for Public Input
Technology is rapidly advancing and devices with data are now entering the marketplace.
Submitter Information Verification
Submitter Full Name: Richard Simpson
Organization: Vector Security Inc
Street Address:
City:
State:
Zip:
Submittal Date: Wed Jun 29 16:51:56 EDT 2016
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Public Input No. 737-NFPA 72-2016 [ Section No. 29.1.3 ]
29.1.3
The requirements of Chapters 10 , 12 , 14 , 17 , 18 , 21 , 23 , 24 , 26 , and 27 shall not applyunless otherwise noted.
Statement of Problem and Substantiation for Public Input
if PI 722 is accepted this is redundant information and would not be required, this can lead to confusion and is additional non-required test that is not enforceable as code language.
Related Public Inputs for This Document
Related Input Relationship
Public Input No. 722-NFPA 72-2016 [New Section after 1.3.4] requirements relocated to ch 1
Submitter Information Verification
Submitter Full Name: Thomas Parrish
Organization: Telgian Corporation
Street Address:
City:
State:
Zip:
Submittal Date: Wed Jun 29 16:05:55 EDT 2016
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Public Input No. 367-NFPA 72-2016 [ Section No. 29.2 ]
29.2* Purpose.
29.2.1 Fire-warning equipment for residential occupancies shall provide a reliable means to notify theoccupants of the presence of a threatening fire and the need to escape to a place of safety before suchescape might be impeded by untenable conditions in the normal path of egress.
29.2.2 Carbon monoxide warning equipment for residential occupancies shall provide a reliable means tonotify the occupants of the presence of levels of carbon monoxide that constitute a potential life safety riskand the need for action as a consequence of those levels.
Statement of Problem and Substantiation for Public Input
Incorporate 720 into 72
Submitter Information Verification
Submitter Full Name: Laurence Dallaire
Organization: Architect Of The Capitol
Affilliation: TG on 720 incorporation
Street Address:
City:
State:
Zip:
Submittal Date: Mon Jun 20 14:05:26 EDT 2016
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Public Input No. 388-NFPA 72-2016 [ Section No. 29.3.5 [Excluding any Sub-Sections] ]
Fire-warning equipment to be installed in residential occupancies shall produce the audible emergencyevacuation signal described in ANSI S3.41, American National Standard Emergency Evacuation Signal,whenever the intended response is to evacuate the building.
Carbon monoxide warning equipment to be installed in residential occupancies shall produce the T-4signal. After the initial 4 minutes of alarm, the 5-second "off" time of the alarm signal shall be permitted tobe changed to 60 seconds - 10 percent.
Exception: Where mechanically powered single-station heat alarms are used as supplementary devices,unless required by applicable laws, codes, or standards, such devices shall not be required to produce theemergency evacuation signal described in ANSI S3.41.
Statement of Problem and Substantiation for Public Input
The Standards Council approved the consolidation of NFPA 720 and NFPA 72 and directed the current material that is within the existing NFPA 720 to be relocated into the next edition of NFPA 72. The Correlating Committee on Signaling Systems for the Protection of Life and Property appointed the 720/72 Consolidation Task Group to review and effect the necessary changes.
This input is submitted on behalf of the 720/72 Consolidation Task Group. The Task Group is comprised of: Robert Schifiliti (C), Art Black, Shane Clary, Tom Norton, Daniel O’Connor, Richard Roberts, LJ Dallaire, Wendy Gifford, Jason Sutula and David Mills.
This specifies the carbon monoxide alarm notification signal, which is distinct from ANSI S3.41.
Submitter Information Verification
Submitter FullName:
Wendy Gifford
Organization: Consultant
Affilliation:
This input is submitted on behalf of the 720/72 Consolidation Task Group.The Task Group is comprised of: Robert Schifiliti (C), Art Black, ShaneClary, Tom Norton, Daniel O’Connor, Richard Roberts, LJ Dallaire,Wendy Gifford, Jason Sutula and David Mills.
StreetAddress:
City:
State:
Zip:
Submittal Date: Tue Jun 21 16:28:28 EDT 2016
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Public Input No. 733-NFPA 72-2016 [ Section No. 29.3.8 ]
29.3.8
Notification appliances provided in sleeping rooms and guest rooms for those with hearing loss shallcomply with 29 18 . 3.8.1 and 29.3.8.2 , as applicable.
29.3.8.1 * Mild to Severe Hearing Loss.
Notification appliances provided for those with mild to severe hearing loss shall comply with the following:
(1) An audible notification appliance producing a low frequency alarm signal shall be installed in thefollowing situations:
(2) Where required by governing laws, codes, or standards for people with hearing loss
(3) Where provided voluntarily for those with hearing loss
(4)
29.3.8.2 * Moderately Severe to Profound Hearing Loss.
Visible notification appliances in accordance with the requirements of 18.5.5.7 and tactile notificationappliances in accordance with the requirements of Section 18.10 shall be required for those withmoderately severe to profound hearing loss in the following situations:
(1)
(2) Where provided voluntarily for those with hearing loss
4.5.3.
Statement of Problem and Substantiation for Public Input
Audible notification provided as a result of a smoke alarm activation (chapter 29) in sleeping areas should be held to the same standard as system audible appliances. This is a correlation issue. It is a technical issue in that several studies have PROVEN that low frequency appliances AWAKEN sleeping occupants. In apartment, hotel, motel, condo, and similar occupancies we have had to enforce TWO different standards which is hard to explain to anyone. Please correlate this requirement or at least recognize the findings from the technical studies! The requirements as written are VERY difficult to enforce. The occupants and their degraded hearing changes daily. It also changed from one occupant to another.
Submitter Information Verification
Submitter Full Name: Lynn Nielson
Organization: City Of Henderson
Affilliation: Self
* The low frequency alarm signal output shall comply with the following:
(5) The waveform shall have a fundamental frequency of 520 Hz ±10 percent.
(6) The minimum sound level at the pillow shall be 75 dBA, or 15 dB above the average ambientsound level, or 5 dB above the maximum sound level having a duration of at least 60 seconds,whichever is greater.
* Where required by governing laws, codes, or standards for people with hearing loss
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Street Address:
City:
State:
Zip:
Submittal Date: Wed Jun 29 15:59:28 EDT 2016
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Public Input No. 318-NFPA 72-2016 [ Section No. 29.3.8.1 ]
29.3.8.1 * Low Frequency Smoke Alarms
Effective January 1, 2023, smoke alarms installed in sleeping areas shall be capable of producing afundamental frequency of 520 Hz ± 10 percent.
29.3.8.1 Mild to Severe Hearing Loss.
Notification appliances provided for those with mild to severe hearing loss shall comply with the following:
(1) An audible notification appliance producing a low frequency alarm signal shall be installed in thefollowing situations:
(2) Where required by governing laws, codes, or standards for people with hearing loss
(3) Where provided voluntarily for those with hearing loss
(4) * The low frequency alarm signal output shall comply with the following:
(5) The waveform shall have a fundamental frequency of 520 Hz ±10 percent.
(6) The minimum sound level at the pillow shall be 75 dBA, or 15 dB above the average ambientsound level, or 5 dB above the maximum sound level having a duration of at least 60 seconds,whichever is greater.
Statement of Problem and Substantiation for Public Input
The language currently outlined in section 29.3.8.1 requires a low frequency alarm signal in sleeping areas only when the occupant has mild to severe hearing loss. Code officials and AHJs have no way in determining during the design phase of a building if occupants will have mild to severe hearing loss. This makes this section as written unenforceable. There are many different occupancies outlined in the model codes that require compliance with NFPA 72 chapter 29; including but not limited to: hotel/motels, apartments, dormitories, and assisted livings, in addition to single family homes.
This change is intended to serve two purposes: 1. Give smoke alarm manufacturers adequate time to develop low frequency smoke alarm technology, have the smoke alarm listed by a nationally recognized testing agency, and on the market by 1/1/23. 2. It also is intended to provide clarification to AHJs that low frequency smoke alarms, based on research, are more effective at waking sleeping individuals than the 3000 Hz smoke alarm.
Submitter Information Verification
Submitter Full Name: John Swanson
Organization: Minnesota State Fire Marshal D
Affilliation: Self
Street Address:
City:
State:
Zip:
Submittal Date: Thu Jun 09 18:36:45 EDT 2016
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Public Input No. 368-NFPA 72-2016 [ Section No. 29.5.1 ]
29.5.1* Required Smoke Detection.
29.5.1.1*
Where required by other governing laws, codes, or standards for a specific type of occupancy, approvedsingle- and multiple-station smoke alarms shall be installed as follows:
(1)
(2)
(3) On every level of a dwelling unit, including basements
(4) On every level of a residential board and care occupancy (small facility), including basements andexcluding crawl spaces and unfinished attics
(5)
(6) In the living area(s) of a residential board and care occupancy (small facility)
29.5.1.2
Where the area addressed in 29.5.1.1 (2) is separated from the adjacent living areas by a door, a smokealarm shall be installed in the area between the door and the sleeping rooms, and additional alarms shallbe installed on the living area side of the door as specified by 29.5.1.1 and 29.5.1.3.
29.5.1.3
In addition to the requirements of 29.5.1.1 (1) through (3), where the interior floor area for a given level of a
dwelling unit, excluding garage areas, is greater than 1000 ft2 (93 m2), smoke alarms shall be installed per29.5.1.3.1 and 29.5.1.3.2.
29.5.1.3.1*
All points on the ceiling shall have a smoke alarm within a distance of 30 ft (9.1 m) travel distance or shall
have an equivalent of one smoke alarm per 500 ft2 (46 m2) of floor area. One smoke alarm per 500 ft2
(46 m2) is evaluated by dividing the total interior square footage of floor area per level by 500 ft2 (46 m2).
29.5.1.3.2
Where dwelling units include great rooms or vaulted/cathedral ceilings extending over multiple floors,smoke alarms located on the upper floor that are intended to protect the aforementioned area shall bepermitted to be considered as part of the lower floor(s) protection scheme used to meet the requirements of29.5.1.3.1.
Statement of Problem and Substantiation for Public Input
Differentiate smoke detection from CO.
Submitter Information Verification
Submitter Full Name: Laurence Dallaire
Organization: Architect Of The Capitol
Affilliation: TG on 720 integration
Street Address:
City:
State:
Zip:
* In all sleeping rooms and guest rooms
* Outside of each separate dwelling unit sleeping area, within 21 ft (6.4 m) of any door to a sleepingroom, with the distance measured along a path of travel
* In the living area(s) of a guest suite
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1059 of 1374 6/30/2016 11:10 AM
Submittal Date: Mon Jun 20 14:08:35 EDT 2016
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1060 of 1374 6/30/2016 11:10 AM
Public Input No. 369-NFPA 72-2016 [ New Section after 29.5.1 ]
29.5.2 Required Carbon Monoxide Protection.
29.5.2.1* Carbon Monoxide Alarms and Detectors.
The warning functions intended in this standard shall be performed by single or multiplestation alarms or bydetectors connected to a control unit and associated equipment, in accordance with 9.3.3. 9.4.1.1* Carbonmonoxide alarms or detectors shall be installed as follows:
(1) Outside of each separate dwelling unit sleeping area in the immediate vicinity of the bedrooms
(2) On every occupiable level of a dwelling unit, including basements, excluding attics and crawl spaces
(3) Other locations where required by applicable laws, codes, or standards
29.5.2. 2* Each alarm or detector shall be located on the wall, ceiling, or other location as specified inthe manufacturer’s published instructions that accompany the unit.
Statement of Problem and Substantiation for Public Input
Incorporate 720 requirements
Submitter Information Verification
Submitter Full Name: Laurence Dallaire
Organization: Architect Of The Capitol
Affilliation: TG on 720 integration
Street Address:
City:
State:
Zip:
Submittal Date: Mon Jun 20 14:15:24 EDT 2016
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1058 of 1374 6/30/2016 11:10 AM
Public Input No. 694-NFPA 72-2016 [ Section No. 29.5.1.1 ]
29.5.1.1*
Where required by other governing laws, codes, or standards for a specific type of occupancy, approvedlisted single- and multiple-station smoke alarms shall be installed as follows:
(1)
(2)
(3) On every level of a dwelling unit, including basements
(4) On every level of a residential board and care occupancy (small facility), including basements andexcluding crawl spaces and unfinished attics
(5)
(6) In the living area(s) of a residential board and care occupancy (small facility)
Statement of Problem and Substantiation for Public Input
In the context of this section it is more appropriate to indicate that the smoke alarms themselves must be listed and not approved.
Submitter Information Verification
Submitter Full Name: Howard Hopper
Organization: UL LLC
Street Address:
City:
State:
Zip:
Submittal Date: Wed Jun 29 14:32:58 EDT 2016
* In all sleeping rooms and guest rooms
* Outside of each separate dwelling unit sleeping area, within 21 ft (6.4 m) of any door to a sleepingroom, with the distance measured along a path of travel
* In the living area(s) of a guest suite
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1061 of 1374 6/30/2016 11:10 AM
Public Input No. 370-NFPA 72-2016 [ Section No. 29.5.2.1.1 ]
29.5.2.1.1* Smoke and Heat Alarms.
Unless exempted by applicable laws, codes, or standards, smoke or heat alarms used to provide afire-warning function, and when two or more alarms are installed within a dwelling unit, suite of rooms, orsimilar area, shall be arranged so that the operation of any smoke or heat alarm causes all alarms withinthese locations to sound.
Exception: The arrangement for all alarms to sound shall not be required for mechanically poweredsingle-station heat alarms.
Exception: Carbon Monoxide Alarms installed in existing construction shall not be required to cause allalarms to sound.
Statement of Problem and Substantiation for Public Input
Incorporation of 720 requirements
Submitter Information Verification
Submitter Full Name: Laurence Dallaire
Organization: Architect Of The Capitol
Affilliation: TG on 720 Integration
Street Address:
City:
State:
Zip:
Submittal Date: Mon Jun 20 14:21:42 EDT 2016
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1062 of 1374 6/30/2016 11:10 AM
Public Input No. 381-NFPA 72-2016 [ New Section after 29.5.2.2 ]
29.5.2.3 General
Each alarm or detector shall cause the operation of an alarm notification appliance that shall meet theperformance requirements of 6.4.2, 6.4.4.1, 6.4.4.2, and, if applicable, 9.4.2.2. .
Statement of Problem and Substantiation for Public Input
The Standards Council approved the consolidation of NFPA 720 and NFPA 72 and directed the current material that is within the existing NFPA 720 to be relocated into the next edition of NFPA 72. The Correlating Committee on Signaling Systems for the Protection of Life and Property appointed the 720/72 Consolidation Task Group to review and effect the necessary changes.
This input is submitted on behalf of the 720/72 Consolidation Task Group. The Task Group is comprised of: Robert Schifiliti (C), Art Black, Shane Clary, Tom Norton, Daniel O’Connor, Richard Roberts, LJ Dallaire, Wendy Gifford, Jason Sutula and David Mills.
This section is moved from NFPA 720. References are to Sections in 720 and will need to be reviewed and reconciled with appropriate NFPA 72 Sections.
Submitter Information Verification
Submitter Full Name: Wendy Gifford
Organization: Consultant
Affilliation: Submitting on behalf of NFPA 72/720 Consolidation Task Group.
Street Address:
City:
State:
Zip:
Submittal Date: Tue Jun 21 15:23:54 EDT 2016
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1063 of 1374 6/30/2016 11:10 AM
Public Input No. 384-NFPA 72-2016 [ Section No. 29.6.1 ]
29.6.1 Smoke and Heat and Carbon Monoxide Alarms.
Smoke and heat and carbon monoxide alarms shall meet the requirements of 29.5.2.1.1 and be poweredby one of the following means:
(1) A commercial light and power source along with a secondary power source that is capable ofoperating the device for at least 7 days in the normal condition, followed by 4 minutes of alarm. Carbon monoxide alarms shall have sufficient capacity to operate the alarm signal(s) for at least 12continuous hours.
(2) If a commercial light and power source is not normally available, a noncommercial ac power sourcealong with a secondary power source that is capable of operating the device for at least 7 days in thenormal condition, followed by 4 minutes of alarm for smoke and heat alarms or 12 hours of alarm forcarbon monoxide alarms.
(3) A nonrechargeable, nonreplaceable primary battery that is capable of operating the device for at least10 years in the normal condition, followed by 4 minutes of alarm for smoke or heat alarms or 12continuous hours of alarm for carbon monoxide alarms , followed by 7 days of trouble
(4) If a battery primary power supply is specifically permitted, a battery meeting the requirements of29.6.6 (nonrechargeable primary battery) or the requirements of 29.6.7 (rechargeable primary battery)
(5) A suitable spring-wound mechanism for the nonelectrical portion of a listed single-station alarm with avisible indication to show that sufficient operating power is not available
Statement of Problem and Substantiation for Public Input
The Standards Council approved the consolidation of NFPA 720 and NFPA 72 and directed the current material that is within the existing NFPA 720 to be relocated into the next edition of NFPA 72. The Correlating Committee on Signaling Systems for the Protection of Life and Property appointed the 720/72 Consolidation Task Group to review and effect the necessary changes.
This input is submitted on behalf of the 720/72 Consolidation Task Group. The Task Group is comprised of: Robert Schifiliti (C), Art Black, Shane Clary, Tom Norton, Daniel O’Connor, Richard Roberts, LJ Dallaire, Wendy Gifford, Jason Sutula and David Mills.
Carbon monoxide alarms are required to be able to sound for 12 continuous hours. This adds that requirement to this section.
Submitter Information Verification
Submitter FullName:
Wendy Gifford
Organization: Consultant
Affilliation:
This input is submitted on behalf of the 720/72 Consolidation Task Group.The Task Group is comprised of: Robert Schifiliti (C), Art Black, ShaneClary, Tom Norton, Daniel O’Connor, Richard Roberts, LJ Dallaire,Wendy Gifford, Jason Sutula and David Mills.
StreetAddress:
City:
State:
Zip:
Submittal Date: Tue Jun 21 15:52:19 EDT 2016
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1064 of 1374 6/30/2016 11:10 AM
Public Input No. 385-NFPA 72-2016 [ Section No. 29.6.2 ]
29.6.2 Household Fire Fire and Carbon Monoxide Alarm Systems.
Power for household fire alarm systems shall comply with the following requirements:
(1) Household fire and carbon monoxide alarm systems shall have two independent power sourcesconsisting of a primary source that uses commercial light and power and a secondary source thatconsists of a rechargeable battery.
(2) The secondary source shall be capable of operating the system for at least 24 hours in the normalcondition, followed by 4 minutes of fire alarm or 12 hours of carbon monoxide alarm .
(3) The secondary power source shall be supervised and shall cause a distinctive audible and visibletrouble signal upon removal or disconnection of a battery or a low-battery condition.
(4) A rechargeable battery used as a secondary power source shall meet the following criteria:
(5) Be automatically recharged by an ac circuit of the commercial light and power source
(6) Be recharged within 48 hours
(7) Provide a distinctive audible trouble signal before the battery is incapable of operating thedevice(s) for alarm purposes
(8) Low-power wireless systems shall comply with the performance criteria of Section 23.16.
Statement of Problem and Substantiation for Public Input
The Standards Council approved the consolidation of NFPA 720 and NFPA 72 and directed the current material that is within the existing NFPA 720 to be relocated into the next edition of NFPA 72. The Correlating Committee on Signaling Systems for the Protection of Life and Property appointed the 720/72 Consolidation Task Group to review and effect the necessary changes.
This input is submitted on behalf of the 720/72 Consolidation Task Group. The Task Group is comprised of: Robert Schifiliti (C), Art Black, Shane Clary, Tom Norton, Daniel O’Connor, Richard Roberts, LJ Dallaire, Wendy Gifford, Jason Sutula and David Mills.
Carbon monoxide alarms must operate for 12 continuous hours. This PI incorporates that requirement into the household alarm system power requirements.
Submitter Information Verification
Submitter FullName:
Wendy Gifford
Organization: Consultant
Affilliation:
This input is submitted on behalf of the 720/72 Consolidation Task Group.The Task Group is comprised of: Robert Schifiliti (C), Art Black, ShaneClary, Tom Norton, Daniel O’Connor, Richard Roberts, LJ Dallaire,Wendy Gifford, Jason Sutula and David Mills.
StreetAddress:
City:
State:
Zip:
Submittal Date: Tue Jun 21 16:06:29 EDT 2016
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1066 of 1374 6/30/2016 11:10 AM
Public Input No. 386-NFPA 72-2016 [ Section No. 29.6.3 ]
29.6.3 AC Primary Power Source.
The ac power source specified in 29.6.1 and 29.6.2 shall comply with the following conditions:
(1) A visible “power on” indicator shall be provided.
(2) All electrical systems designed to be installed by other than a qualified electrician shall be poweredfrom a source not in excess of 30 volts that meets the requirements for power-limited fire alarm circuitsas defined in NFPA 70, Article 760.
(3) A restraining means shall be used at the plug-in of any cord-connected installation.
(4) AC primary (main) power shall be supplied either from a dedicated branch circuit or the unswitchedportion of a branch circuit also used for power and lighting.
(5) Operation of a switch (other than a circuit breaker) shall not cause loss of primary (main) power.Operation of a ground-fault circuit-interrupter (GFCI) receptacle shall not cause loss of primary (main)power. Smoke alarms Alarms powered by branch circuits protected by arc-fault circuit-interrupters(AFCI) or GFCI circuit breakers shall have a secondary power source.
(6) Neither loss nor restoration of primary (main) power shall cause an alarm signal.
Exception: An alarm signal shall be permitted but shall not exceed 2 seconds.
(7) Where a secondary (standby) battery is provided, the primary (main) power supply shall be ofsufficient capacity to operate the system under all conditions of loading with any secondary (standby)battery disconnected or fully discharged.
Statement of Problem and Substantiation for Public Input
The Standards Council approved the consolidation of NFPA 720 and NFPA 72 and directed the current material that is within the existing NFPA 720 to be relocated into the next edition of NFPA 72. The Correlating Committee on Signaling Systems for the Protection of Life and Property appointed the 720/72 Consolidation Task Group to review and effect the necessary changes.
This input is submitted on behalf of the 720/72 Consolidation Task Group. The Task Group is comprised of: Robert Schifiliti (C), Art Black, Shane Clary, Tom Norton, Daniel O’Connor, Richard Roberts, LJ Dallaire, Wendy Gifford, Jason Sutula and David Mills.
This removes the descriptor "Smoke" from alarms, so the section will apply to smoke and CO alarms.
Submitter Information Verification
Submitter FullName:
Wendy Gifford
Organization: Consultant
Affilliation:
This input is submitted on behalf of the 720/72 Consolidation Task Group.The Task Group is comprised of: Robert Schifiliti (C), Art Black, ShaneClary, Tom Norton, Daniel O’Connor, Richard Roberts, LJ Dallaire,Wendy Gifford, Jason Sutula and David Mills.
StreetAddress:
City:
State:
Zip:
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1067 of 1374 6/30/2016 11:10 AM
Submittal Date: Tue Jun 21 16:12:14 EDT 2016
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1068 of 1374 6/30/2016 11:10 AM
Public Input No. 663-NFPA 72-2016 [ Section No. 29.6.3 ]
29.6.3 AC Primary Power Source.
The ac power source specified in 29.6.1 and 29.6.2 shall comply with the following conditions:
(1) A visible “power on” indicator shall be provided.
(2) All electrical systems designed to be installed by other than a qualified electrician shall be poweredfrom a source not in excess of 30 volts that meets the requirements for power-limited fire alarm circuitsas defined in NFPA 70, Article 760.
(3) A restraining means shall be used at the plug-in of any cord-connected installation unless the unitutilizes a secondary (standby) power source meeting the requirements of 29 .6 and loss of the ACprimary power source results in annuncaition of an audible trouble signal meeting 29.7.6.4.
(4) AC primary (main) power shall be supplied either from a dedicated branch circuit or the unswitchedportion of a branch circuit also used for power and lighting.
(5) Operation of a switch (other than a circuit breaker) shall not cause loss of primary (main) power.Operation of a ground-fault circuit-interrupter (GFCI) receptacle shall not cause loss of primary (main)power. Smoke alarms powered by branch circuits protected by arc-fault circuit-interrupters (AFCI) orGFCI circuit breakers shall have a secondary power source.
(6) Neither loss nor restoration of primary (main) power shall cause an alarm signal.
Exception: An alarm signal shall be permitted but shall not exceed 2 seconds.
(7) Where a secondary (standby) battery is provided, the primary (main) power supply shall be ofsufficient capacity to operate the system under all conditions of loading with any secondary (standby)battery disconnected or fully discharged.
Statement of Problem and Substantiation for Public Input
The requirement for a restraining means appears to have been included when products were not required to utilize a secondary power source and loss of the AC power was annunciated only by the extinguishing of a visual indicator. The restraining means that case is warranted to preclude disabling the product via inadvertent dislodging of the plug or disconnecting the plug to plug in a different product. The annunciation of an audible trouble signal meeting 29.7.6.4 to alert the user when the plug has been dislodged or disconnected provides warning to reattach the plug to the receptacle and addresses the initial concerns.
This option also addresses newer receptacles which do not have a center screw for attachment of the receptacle cover. The variability in the construction of receptacles poses issues for manufacturers to provide a uniform restraining means. Rather than a mechanical means, less reliable restraining means are being proposed such as the use of double sided tape - some of which are only one time use.
Submitter Information Verification
Submitter Full Name: Lawrence Shudak
Organization: UL LLC
Street Address:
City:
State:
Zip:
Submittal Date: Wed Jun 29 12:11:03 EDT 2016
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1069 of 1374 6/30/2016 11:10 AM
Public Input No. 764-NFPA 72-2016 [ Section No. 29.6.3 ]
29.6.3 AC Primary Power Source.
The ac power source specified in 29.6.1 and 29.6.2 shall comply with the following conditions:
(1) A visible “power on” indicator shall be provided.
(2) All electrical systems designed to be installed by other than a qualified electrician shall be poweredfrom a source not in excess of 30 volts that meets the requirements for power-limited fire alarm circuitsas defined in NFPA 70, Article 760.
(3) A restraining means shall be used at the plug-in of any cord-connected installation. Alternatively, amarking stating that the power source must not be unplugged may be used to discouragedisconnection of the power source.
(4) AC primary (main) power shall be supplied either from a dedicated branch circuit or the unswitchedportion of a branch circuit also used for power and lighting.
(5) Operation of a switch (other than a circuit breaker) shall not cause loss of primary (main) power.Operation of a ground-fault circuit-interrupter (GFCI) receptacle shall not cause loss of primary (main)power. Smoke alarms powered by branch circuits protected by arc-fault circuit-interrupters (AFCI) orGFCI circuit breakers shall have a secondary power source.
(6) Neither loss nor restoration of primary (main) power shall cause an alarm signal.
Exception: An alarm signal shall be permitted but shall not exceed 2 seconds.
(7) Where a secondary (standby) battery is provided, the primary (main) power supply shall be ofsufficient capacity to operate the system under all conditions of loading with any secondary (standby)battery disconnected or fully discharged.
Statement of Problem and Substantiation for Public Input
Third-party certification labs including UL and Intertek have created internal Engineering Judgement documents that essentially require a mounting tab and screw for power supplies to satisfy this "restraining means" requirement. As a result, many manufacturer's installation instructions state that the power source must be secured using a screw in the mounting tab on the power source. New screwless wall plates do not include a screw as the standard and Decora wall plates do. Therefore, instructing an installer to use a screw to secure the power supply to a screwless wall plate could result in a severe safety hazard. If an installer follows the manufacturer's written instructions, a self-drilling screw or such could inadvertently be used to satisfy the manufacturer's installation requirement. Therefore, an alternative method should be permitted.The requirement for a “restraining means” originated back when the heavy “wall transformers” were used which were quite bulky and could be easily bumped and dislodged from the receptacle. The modern power supply designs available today are much lighter and narrower and much less likely to be accidentally bumped and dislodged from the receptacle, so a label identifying the function would minimize the inadvertent removal concern for the power supply. The NFPA 72 Handbook states that the reason for the requirement was due to “…accidental bumping of the plug or inadvertent removal…”. People should be discouraged from removing the power source from the receptacle. This can be accomplished using a marking on the power source. Although double sided adhesive could be used as a restraining means on a screwless wall plate, that becomes fairly permanent and the power source cannot be readily disconnected in the event of a catastrophic failure. Please consider allowing a marking as an alternative restraining means.
Submitter Information Verification
Submitter Full Name: Greg Hansen
Organization: Vivint Inc
Street Address:
City:
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1070 of 1374 6/30/2016 11:10 AM
State:
Zip:
Submittal Date: Wed Jun 29 18:30:01 EDT 2016
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1071 of 1374 6/30/2016 11:10 AM
Public Input No. 387-NFPA 72-2016 [ Section No. 29.6.4 ]
29.6.4 Secondary (Standby) Power Source.
Where alarms include a battery that is used as a secondary power source, the following conditions shall bemet:
(1) The secondary power source shall be supervised and shall cause a distinctive audible or visibletrouble signal upon removal or disconnection of a battery or a low-battery condition.
(2) Acceptable replacement batteries shall be clearly identified by the manufacturer’s name and modelnumber on the unit near the battery compartment.
(3) A rechargeable battery used as a secondary power source shall meet the following criteria:
(4) Be automatically recharged by the primary power source
(5) Be recharged within 4 hours where power is provided from a circuit that can be switched on oroff by means other than a circuit breaker, or within 48 hours where power is provided from a circuitthat cannot be switched on or off by means other than a circuit breaker
(6) Provide a distinctive audible trouble signal before the battery is incapable of operating thedevice(s) for alarm purposes
(7) At the battery condition at which a trouble signal is obtained, be capable of producing
an
(a) the smoke alarm signal for at least 4 minutes or the carbon monoxide alarm signal for 12continuous hours , followed by not less than 7 days of trouble signal operation
(b) Produce an audible trouble signal at least once every minute for 7 consecutive days
Statement of Problem and Substantiation for Public Input
The Standards Council approved the consolidation of NFPA 720 and NFPA 72 and directed the current material that is within the existing NFPA 720 to be relocated into the next edition of NFPA 72. The Correlating Committee on Signaling Systems for the Protection of Life and Property appointed the 720/72 Consolidation Task Group to review and effect the necessary changes.
This input is submitted on behalf of the 720/72 Consolidation Task Group. The Task Group is comprised of: Robert Schifiliti (C), Art Black, Shane Clary, Tom Norton, Daniel O’Connor, Richard Roberts, LJ Dallaire, Wendy Gifford, Jason Sutula and David Mills.
This adds the 12 hour alarm signal requirement for carbon monoxide alarms.
Submitter Information Verification
Submitter FullName:
Wendy Gifford
Organization: Consultant
Affilliation:
This input is submitted on behalf of the 720/72 Consolidation Task Group.The Task Group is comprised of: Robert Schifiliti (C), Art Black, ShaneClary, Tom Norton, Daniel O’Connor, Richard Roberts, LJ Dallaire,Wendy Gifford, Jason Sutula and David Mills.
StreetAddress:
City:
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1072 of 1374 6/30/2016 11:10 AM
State:
Zip:
Submittal Date: Tue Jun 21 16:17:02 EDT 2016
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1073 of 1374 6/30/2016 11:10 AM
Public Input No. 392-NFPA 72-2016 [ Section No. 29.6.5 ]
29.6.5 Notification Appliance (with Smoke or Heat or Carbon Monoxide Alarm).
If a visible notification appliance is used in conjunction with a smoke or heat or carbon monoxide alarmapplication for compliance with 29.3.7, the notification appliance shall not be required to be supplied with asecondary power source.
Statement of Problem and Substantiation for Public Input
The Standards Council approved the consolidation of NFPA 720 and NFPA 72 and directed the current material that is within the existing NFPA 720 to be relocated into the next edition of NFPA 72. The Correlating Committee on Signaling Systems for the Protection of Life and Property appointed the 720/72 Consolidation Task Group to review and effect the necessary changes.
This input is submitted on behalf of the 720/72 Consolidation Task Group. The Task Group is comprised of: Robert Schifiliti (C), Art Black, Shane Clary, Tom Norton, Daniel O’Connor, Richard Roberts, LJ Dallaire, Wendy Gifford, Jason Sutula and David Mills.
This incorporates carbon monoxide alarms in this requirement.
Submitter Information Verification
Submitter FullName:
Wendy Gifford
Organization: Consultant
Affilliation:
This input is submitted on behalf of the 720/72 Consolidation Task Group.The Task Group is comprised of: Robert Schifiliti (C), Art Black, ShaneClary, Tom Norton, Daniel O’Connor, Richard Roberts, LJ Dallaire,Wendy Gifford, Jason Sutula and David Mills.
StreetAddress:
City:
State:
Zip:
Submittal Date: Tue Jun 21 16:46:25 EDT 2016
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1074 of 1374 6/30/2016 11:10 AM
Public Input No. 389-NFPA 72-2016 [ Section No. 29.6.6 ]
29.6.6 Primary Power Source (Nonrechargeable Battery).
If smoke alarms are powered by a primary battery, the battery shall be monitored to ensure the followingconditions are met:
(1) All power requirements are met for at least 1 year of battery life, including weekly testing of the smokealarm and monthly testing of the carbon monoxide alarm .
(2) A distinctive audible trouble signal before the battery is incapable of operating (from causes such asaging or terminal corrosion) the device(s) for alarm purposes.
(3) For a unit employing a lock-in alarm feature, automatic transfer is provided from alarm to a troublecondition.
(4) At the battery voltage at which a trouble signal is obtained, the unit is capable of producing an smokealarm signal for at least 4 minutes or a carbon monoxide alarm signal for at least 12 hours , followed bynot less than 7 days of trouble signal operation.
(5) The audible trouble signal is produced at least once every minute for 7 consecutive days.
(6) Acceptable replacement batteries are clearly identified by the manufacturer’s name and model numberon the unit near the battery compartment.
(7) A noticeable, visible indication is displayed when a primary battery is removed from the unit.
Statement of Problem and Substantiation for Public Input
The Standards Council approved the consolidation of NFPA 720 and NFPA 72 and directed the current material that is within the existing NFPA 720 to be relocated into the next edition of NFPA 72. The Correlating Committee on Signaling Systems for the Protection of Life and Property appointed the 720/72 Consolidation Task Group to review and effect the necessary changes.
This input is submitted on behalf of the 720/72 Consolidation Task Group. The Task Group is comprised of: Robert Schifiliti (C), Art Black, Shane Clary, Tom Norton, Daniel O’Connor, Richard Roberts, LJ Dallaire, Wendy Gifford, Jason Sutula and David Mills.
The incorporates the 12 hour carbon monoxide alarm requirement.
Submitter Information Verification
Submitter FullName:
Wendy Gifford
Organization: Consultant
Affilliation:
This input is submitted on behalf of the 720/72 Consolidation Task Group.The Task Group is comprised of: Robert Schifiliti (C), Art Black, ShaneClary, Tom Norton, Daniel O’Connor, Richard Roberts, LJ Dallaire,Wendy Gifford, Jason Sutula and David Mills.
StreetAddress:
City:
State:
Zip:
Submittal Date: Tue Jun 21 16:36:59 EDT 2016
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1075 of 1374 6/30/2016 11:10 AM
Public Input No. 390-NFPA 72-2016 [ Section No. 29.6.7 ]
29.6.7 Primary Power Source (Rechargeable Battery).
If smoke alarms are powered by a rechargeable battery, the following conditions shall be met:
(1) The battery shall, with proper charging, be able to power the alarm for a life of 1 year.
(2) The battery shall be automatically recharged by an circuit of the commercial light and power source.
(3) The battery shall be recharged within 4 hours where power is provided from a circuit that can beswitched on or off by means other than a circuit breaker, or within 48 hours where power is providedfrom a circuit that cannot be switched on or off by means other than a circuit breaker.
(4) A distinctive audible trouble signal shall sound before the battery is incapable of operating thedevice(s) for alarm purposes.
(5) For a unit employing a lock-in alarm feature, automatic transfer shall be provided from alarm to atrouble condition.
(6) At the battery condition at which a trouble signal is obtained, the unit shall be capable of producing ansmoke alarm signal for at least 4 minutes or a carbon monoxide alarm signal for at least 12continuous hours , followed by not less than 7 days of trouble signal operation.
(7) The audible trouble signal shall be produced at least once every minute for 7 consecutive days.
Statement of Problem and Substantiation for Public Input
The Standards Council approved the consolidation of NFPA 720 and NFPA 72 and directed the current material that is within the existing NFPA 720 to be relocated into the next edition of NFPA 72. The Correlating Committee on Signaling Systems for the Protection of Life and Property appointed the 720/72 Consolidation Task Group to review and effect the necessary changes.
This input is submitted on behalf of the 720/72 Consolidation Task Group. The Task Group is comprised of: Robert Schifiliti (C), Art Black, Shane Clary, Tom Norton, Daniel O’Connor, Richard Roberts, LJ Dallaire, Wendy Gifford, Jason Sutula and David Mills.
This incorporates the 12 hour carbon monoxide alarm requirement.
Submitter Information Verification
Submitter FullName:
Wendy Gifford
Organization: Consultant
Affilliation:
This input is submitted on behalf of the 720/72 Consolidation Task Group.The Task Group is comprised of: Robert Schifiliti (C), Art Black, ShaneClary, Tom Norton, Daniel O’Connor, Richard Roberts, LJ Dallaire,Wendy Gifford, Jason Sutula and David Mills.
StreetAddress:
City:
State:
Zip:
Submittal Date: Tue Jun 21 16:41:01 EDT 2016
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Public Input No. 391-NFPA 72-2016 [ Section No. 29.6.8 ]
29.6.8 Secondary (Standby) Non-Battery Power Source.
Where alarms include a secondary power source (non-battery), the following conditions shall be met:
(1) The secondary power source shall be supervised and shall cause a distinctive audible or visibletrouble signal upon depletion or failure.
(2) A distinctive audible trouble signal shall be provided before the power source is incapable of operatingthe device(s) for alarm purposes.
(3) At a power source condition at which a trouble signal is obtained, the power source shall be capable ofproducing an smoke alarm signal for at least 4 minutes or a carbon monoxide alarm signal for at least12 continous hours , followed by not less than 7 days of trouble signal operation.
(4) The audible trouble signal shall be produced at least once every minute for 7 consecutive days.
(5) A rechargeable secondary power source shall meet the following criteria:
(6) Be automatically recharged.
(7) Be recharged within 4 hours where power is provided from a circuit that can be switched on oroff by means other than a circuit breaker, or within 48 hours where power is provided from a circuitthat cannot be switched on or off by means other than a circuit breaker.
Statement of Problem and Substantiation for Public Input
The Standards Council approved the consolidation of NFPA 720 and NFPA 72 and directed the current material that is within the existing NFPA 720 to be relocated into the next edition of NFPA 72. The Correlating Committee on Signaling Systems for the Protection of Life and Property appointed the 720/72 Consolidation Task Group to review and effect the necessary changes.
This input is submitted on behalf of the 720/72 Consolidation Task Group. The Task Group is comprised of: Robert Schifiliti (C), Art Black, Shane Clary, Tom Norton, Daniel O’Connor, Richard Roberts, LJ Dallaire, Wendy Gifford, Jason Sutula and David Mills.
This incorporates the 12 hour alarm requirement for carbon monoxide devices.
Submitter Information Verification
Submitter FullName:
Wendy Gifford
Organization: Consultant
Affilliation:
This input is submitted on behalf of the 720/72 Consolidation Task Group.The Task Group is comprised of: Robert Schifiliti (C), Art Black, ShaneClary, Tom Norton, Daniel O’Connor, Richard Roberts, LJ Dallaire,Wendy Gifford, Jason Sutula and David Mills.
StreetAddress:
City:
State:
Zip:
Submittal Date: Tue Jun 21 16:43:48 EDT 2016
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Public Input No. 747-NFPA 72-2016 [ Section No. 29.7.2 ]
29.7.2* Smoke Alarms, System Smoke Detectors, and Other Non-Heat Fire Detectors.
Each device shall detect abnormal quantities of smoke or applicable fire signature, shall operate in thenormal environmental conditions, and shall be in compliance with applicable standards such asANSI/UL 268, Standard for Smoke Detectors for Fire Alarm Systems , or ANSI/UL 217, Standard forSingle and Multiple Station Smoke Alarms
(1) Devices tuned to receive receive temporal patterns within the protected premise shall be listed for itsintended application .
(2) Devices shall be assigend to indivudual smoke alarms and report alarm condition as an individualpoint.
Statement of Problem and Substantiation for Public Input
New devices designed to activate a household fire alarm by listening for a specific frequency have entered the marketplace without any performance requirements attached.
Submitter Information Verification
Submitter Full Name: Richard Simpson
Organization: Vector Security Inc
Street Address:
City:
State:
Zip:
Submittal Date: Wed Jun 29 16:40:55 EDT 2016
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Public Input No. 755-NFPA 72-2016 [ Section No. 29.7.3 ]
29.7.3 Resistance to Nuisance Source.
Effective January 1, 2019, smoke alarms and smoke detectors used in household fire alarm systems shallbe listed for resistance to common nuisance sources.
Statement of Problem and Substantiation for Public Input
The cooking nuisance test is now been defined in ANSI/UL 217 and ANSI/UL 268 and is required for smoke alarm and detector certification. All products certified by UL LLC must comply with this requirement by May 29, 2020. Therefore, inclusion of such a requirement in NFPA 72 is like stating that a smoke alarm shall be capable of detecting smoke or that a smoke alarm shall be resistant to surge immunity tests.
Related Public Inputs for This Document
Related Input Relationship
Public Input No. 759-NFPA 72-2016 [Section No. 29.8.3.4]
Submitter Information Verification
Submitter Full Name: David Mills
Organization: UL LLC
Street Address:
City:
State:
Zip:
Submittal Date: Wed Jun 29 17:00:28 EDT 2016
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Public Input No. 366-NFPA 72-2016 [ New Section after 29.7.4 ]
29.7.4 Equipment Performance - Carbon Monoxide Alarms and Detectors.
29.7.4 .1 * Each carbon monoxide alarm shall be in compliance with ANSI/UL 2034, Standard forSingle and Multiple Station Carbon Monoxide Alarms.
29.7.4 .2 Each carbon monoxide detector shall be in compliance with ANSI/UL 2075, Gas and VaporDetectors and Sensors , and shall meet the sensitivity testing and alarm thresholds of ANSI/UL 2034,Standard for Single and Multiple Station Carbon Monoxide Alarms .
29.7.4 .3 All signals produced from periodic testing of carbon monoxide alarms or detectors (see9.8.2) shall be identical to the signal produced when the unit is in alarm.
29.7.4 .4 Trouble signals shall be distinctive from alarm signals.
29.7.4 .5 Unless otherwise recommended by the manufacturer’s published instructions, carbonmonoxide alarms and detectors shall be replaced when they fail to respond to tests.
Statement of Problem and Substantiation for Public Input
Incorporation of NFPA 720 requirements into 72.
Submitter Information Verification
Submitter Full Name: Laurence Dallaire
Organization: Architect Of The Capitol
Affilliation: TG on 720 Incorporation
Street Address:
City:
State:
Zip:
Submittal Date: Mon Jun 20 13:49:02 EDT 2016
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Public Input No. 365-NFPA 72-2016 [ Section No. 29.7.6.5 ]
29.7.6.5
A means for turning off activated alarm notification appliances shall be permitted only if the followingconditions are satisfied:
(1) The means is key-operated or located within a locked cabinet, or arranged to provide equivalentprotection against unauthorized use.
(2) The means includes the provision of a visible alarm silence indication.
(3) The silenced position is indicated by a distinctive signal.
(4) The switch is a momentary or self-restoring switch.
Statement of Problem and Substantiation for Public Input
Added the requirements currently existing for CO systems.
Submitter Information Verification
Submitter Full Name: Laurence Dallaire
Organization: Architect Of The Capitol
Affilliation: TG on 720 integration.
Street Address:
City:
State:
Zip:
Submittal Date: Mon Jun 20 13:38:21 EDT 2016
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Public Input No. 515-NFPA 72-2016 [ Sections 29.7.7.7.2, 29.7.7.7.3 ]
Sections 29.7.7.7.2, 29.7.7.7.3
29.7.7.7.2
When connected, the actuation of a single- or multiple-station smoke alarm shall initiate an alarm signal atthe system control equipment located within the dwelling unit.
29.7.7.7.3
A sprinkler waterflow alarm initiating device shall be permitted to be connected to the multiple-stationalarms or household fire alarm system to activate an alarm signal , and is permitted to transmit the alarmsignal to a constently attended monitoring location .
Additional Proposed Changes
File Name Description Approved
NFPA_Chapter_29_Comments.docx
Statement of Problem and Substantiation for Public Input
The primary use case for connecting single or multiple smoke alarms to an output, either physically connected, supervised sound sensing device or electrically connected, is to provide the occupants of the dwelling notification, when away from the dwelling, that an alert from a hazard detector has been detected and an alert has been received at the constantly attended monitoring center.
Remote monitoring of the integrity of the interconnected smoke alarms is not required. The responsibility for testing and maintaining in home smoke alarm is with the occupants of the dwelling. 29.8.2.4
As stated in 29.3.4, Supplementary functions, including the extension of an alarm beyond the residential occupancy, shall be permitted and shall not interfere with the performance requirements of this chapter; therefore, allowing the alarm to be extended beyond the residence to a constantly attended monitoring center.
As permitted in 29.7.7.7, output devices are permitted as long as they do not interfere with the operation of the interconnected smoke alarms. An output device may be a simple wireless connection between the interconnected smoke alarms and the system control equipment. 29.7.7.7.1 Allows the connection to the system control equipment and it is assumed that a function of the system control equipment provides an extension the alarm beyond the dwelling.
Submitter Information Verification
Submitter Full Name: Ron Carr
Organization: AT&T Digital Life
Street Address:
City:
State:
Zip:
Submittal Date: Mon Jun 27 14:32:02 EDT 2016
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The primary use case for connecting single or multiple smoke alarms to an output, either physically connected, supervised sound sensing device or electrically connected, is to provide the occupants of the dwelling notification, when away from the dwelling, that an alert from a hazard detector has been detected and an alert has been received at the constantly attended monitoring center. Remote monitoring of the integrity of the interconnected smoke alarms is not required. The responsibility for testing and maintaining in home smoke alarm is with the occupants of the dwelling. 29.8.2.4 As stated in 29.3.4, Supplementary functions, including the extension of an alarm beyond the residential occupancy, shall be permitted and shall not interfere with the performance requirements of this chapter; therefore, allowing the alarm to be extended beyond the residence to a constantly attended monitoring center. As permitted in 29.7.7.7, output devices are permitted as long as they do not interfere with the operation of the interconnected smoke alarms. An output device may be a simple wireless connection between the interconnected smoke alarms and the system control equipment. 29.7.7.7.1 Allows the connection to the system control equipment and it is assumed that a function of the system control equipment provides an extension the alarm beyond the dwelling.
Public Input No. 364-NFPA 72-2016 [ Section No. 29.7.7.3 ]
29.7.7.3
Signals shall be distinctive so that a fire signal can be distinguished from signals that require differentactions by the occupants.
Distinctively different audible alarm signals shall be provided for each of the following:
(1) Fire alarms
(2) Carbon monoxide alarms
(3) Other alarms
Statement of Problem and Substantiation for Public Input
Integrate 720 Requirements
Submitter Information Verification
Submitter Full Name: Laurence Dallaire
Organization: Architect Of The Capitol
Affilliation: TG on 720 integration
Street Address:
City:
State:
Zip:
Submittal Date: Mon Jun 20 12:57:58 EDT 2016
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Public Input No. 363-NFPA 72-2016 [ Section No. 29.7.7.6 ]
29.7.7.6
In a fire/burglar system, the operation shall be as follows:
(1) A fire alarm signal shall take precedence or be clearly recognizable over any other signal, even whenthe non-fire alarm signal is initiated first.
(2) Distinctive alarm signals shall be used so that fire alarms and carbon monoxide alarms can bedistinguished from other functions, such as burglar alarms. The use of a common-sounding appliancefor fire and burglar alarms shall be permitted where distinctive signals are used.
Statement of Problem and Substantiation for Public Input
Integrate NFPA 720 requirements
Submitter Information Verification
Submitter Full Name: Laurence Dallaire
Organization: Architect Of The Capitol
Affilliation: TG on 720 Integration
Street Address:
City:
State:
Zip:
Submittal Date: Mon Jun 20 12:54:33 EDT 2016
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Public Input No. 655-NFPA 72-2016 [ Section No. 29.7.9.1 [Excluding any Sub-Sections]
]
Means to transmit alarm signals to a constantly attended, remote monitoring location shall be processed bya household fire alarm system and shall perform as described in Chapter 26, except as modified by29.7.9.1.1 through 29.7.9.1.6.
Statement of Problem and Substantiation for Public Input
This allows remote monitoring stations to monitor household fire alarms systems without the restrictions listed in section 26.5.3
Submitter Information Verification
Submitter Full Name: Richard Simpson
Organization: Vector Security Inc
Street Address:
City:
State:
Zip:
Submittal Date: Wed Jun 29 09:49:12 EDT 2016
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Public Input No. 656-NFPA 72-2016 [ Section No. 29.7.9.1.5 ]
29.7.9.1.5
Supervising station systems shall not be required to comply with requirements for indication of centralstation service in 26.3.4 or as described in Facilities section 26 . 5.3.
Statement of Problem and Substantiation for Public Input
Section 26.5.3 will only allow alarm traffic to a listed central station if permitted by the AHJ. This is a restrictive clause requiring listed stations to exceed the current supervising station requirements.
Submitter Information Verification
Submitter Full Name: Richard Simpson
Organization: Vector Security Inc
Street Address:
City:
State:
Zip:
Submittal Date: Wed Jun 29 09:53:36 EDT 2016
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Public Input No. 757-NFPA 72-2016 [ Section No. 29.7.9.2 ]
29.7.9.2*
Remote monitoring stations shall be permitted to verify alarm signals prior to reporting them to the fireservice, provided that the verification process does not delay the reporting by more than 90 seconds.
Exception: Verification shall not be permitted for signals from carbon monoxide detectors and carbonmonoxide detection systems transmitted to a fire alarm system
Statement of Problem and Substantiation for Public Input
Verification is extremely difficult and possibly unsafe because carbon monoxide is odorless, tasteless, and colorless. Its presence is undetectable by smell, taste, or sigh, but can be determined only with special equipment for the purpose of measuring levels of Carbon Monoxide. Carbon monoxide can be mixed and migrate throughout a residence through the HVAC system, so initiating device quantity and placement is to be in the area of coverage in accordance to NFPA720-2015; 5.8.5.3 Requirements for Carbon Monoxide Detectors. 5.8.5.3.1 Carbon monoxide detectors shall be installed as specified in the manufacturer’s published instructions in accordance with 5.8.5.3.1(1) and 5.8.5.3.1(2), or 5.8.5.3.1(3): (1)*On the ceiling in the same room as permanently installed fuel-burning appliances (2)*Centrally located on every habitable level and in every HVAC zone of the building
Submitter Information Verification
Submitter Full Name: Anthony Mucci
Organization: Tyco Integrated Security
Street Address:
City:
State:
Zip:
Submittal Date: Wed Jun 29 17:03:00 EDT 2016
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Public Input No. 319-NFPA 72-2016 [ Section No. 29.8.1.4 ]
29.8.1.4*
The supplier or installing contractor shall provide the system owner or other responsible parties with thefollowing:
(1) An instruction booklet illustrating typical installation layouts
(2) Instruction charts describing the operation, method, and frequency of testing and maintenance offire-warning equipment
(3) Printed information for establishing an emergency evacuation plan
(4) Printed information to inform system owners where they can obtain repair or replacement service,and where and how parts requiring regular replacement, such as batteries or bulbs, can be obtainedwithin 2 weeks
(5) Information noting both of the following:
(6) Unless otherwise recommended by the manufacturer's published instructions, smoke alarmsshall be replaced when they fail to respond to tests.
(7) Smoke alarms installed in one- and two-family dwellings shall not remain in service longer than10 years from the date of manufacture.
Statement of Problem and Substantiation for Public Input
The language as written clearly is intended to only apply to one and two family dwellings. Currently, there is no language within chapter 29 that would give authority to the code official to write orders for smoke alarms to be replaced in hotels, motels, apartments or any other location other than one and two family dwellings where smoke alarms may be present. From a life safety perspective, it does not matter whether the smoke alarm is located in a home, apartment or hotel, it needs to be replaced after 10 years or when the device fails an operability test.
Submitter Information Verification
Submitter Full Name: John Swanson
Organization: Minnesota State Fire Marshal D
Affilliation: Self
Street Address:
City:
State:
Zip:
Submittal Date: Thu Jun 09 21:19:24 EDT 2016
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Public Input No. 550-NFPA 72-2016 [ Section No. 29.8.3.4 ]
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29.8.3.4 Specific Location Requirements.
The installation of smoke alarms and smoke detectors shall comply with the following requirements:
(1) Smoke alarms and smoke detectors shall not be located where ambient conditions, including humidityand temperature, are outside the limits specified by the manufacturer's published instructions.
(2) Smoke alarms and smoke detectors shall not be located within unfinished attics or garages or in otherspaces where temperatures can fall below 40ºF (4ºC) or exceed 100ºF (38ºC).
(3)
(4)
(5)
(6)
(7) Effective January 1, 2019 2022 , smoke alarms and smoke detectors used in household fire alarmsystems installed between 6 ft (1.8 m) and 20 ft (6.1 m) along a horizontal flow path from a stationaryor fixed cooking appliance shall be listed for resistance to common nuisance sources from cooking.
(8)
(9) Smoke alarms and smoke detectors shall not be installed within a 36 in. (910 mm) horizontal pathfrom the supply registers of a forced air heating or cooling system and shall be installed outside of thedirect airflow from those registers.
(10) Smoke alarms and smoke detectors shall not be installed within a 36 in. (910 mm) horizontal pathfrom the tip of the blade of a ceiling-suspended (paddle) fan.
(11) Where stairs lead to other occupiable levels, a smoke alarm or smoke detector shall be located so thatsmoke rising in the stairway cannot be prevented from reaching the smoke alarm or smoke detector byan intervening door or obstruction.
(12) For stairways leading up from a basement, smoke alarms or smoke detectors shall be located on thebasement ceiling near the entry to the stairs.
(13)
(14) Smoke alarms and detectors installed in rooms with joists or beams shall comply with therequirements of 17.7.3.2.4.
(15) Heat alarms and detectors installed in rooms with joists or beams shall comply with the requirementsof 17.6.3.
Statement of Problem and Substantiation for Public Input
Underwriters Laboratories has announced that as of May 29, 2020, it will require that product be tested to the
* Where the mounting surface could become considerably warmer or cooler than the room, such as apoorly insulated ceiling below an unfinished attic or an exterior wall, smoke alarms and smokedetectors shall be mounted on an inside wall.
* Smoke alarms and smoke detectors shall not be installed within an area of exclusion determined bya 10 ft (3.0 m) radial distance along a horizontal flow path from a stationary or fixed cooking appliance,unless listed for installation in close proximity to cooking appliances. Smoke alarms and smokedetectors installed between 10 ft (3.0 m) and 20 ft (6.1 m) along a horizontal flow path from a stationaryor fixed cooking appliance shall be equipped with an alarm-silencing means or use photoelectricdetection.
Exception: Smoke alarms or smoke detectors that use photoelectric detection shall be permitted forinstallation at a radial distance greater than 6 ft (1.8 m) from any stationary or fixed cookingappliance when the following conditions are met:
The kitchen or cooking area and adjacent spaces have no clear interior partitions or headersand
The 10 ft (3.0 m) area of exclusion would prohibit the placement of a smoke alarm or smokedetector required by other sections of this code.
* Smoke alarms and smoke detectors shall not be installed within a 36 in. (910 mm) horizontal pathfrom a door to a bathroom containing a shower or tub unless listed for installation in close proximity tosuch locations.
* For tray-shaped ceilings (coffered ceilings), smoke alarms and smoke detectors shall be installed onthe highest portion of the ceiling or on the sloped portion of the ceiling within 12 in. (300 mm) verticallydown from the highest point.
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requirements of the 8th edition of UL 217, which includes the nuisance resistance requirements. The same date is expected for UL 268 devices with the same requirements. (Intertek has informally suggested they will adhere the same date.) As a result, it is not possible to expect the 2019 date to be met.The new edition of the standard(s) has hundreds of changes which will require redesign, testing, and certification of virtually every alarm and detector on the market. There is no way to know how long redesign will take nor when a majority of manufacturers will be ready to begin testing, nor how long it might take for all testing to be completed, giving the physical constraints of testing facilities. In addition, an anonymous survey of NEMA members suggested that more than half might not be ready to begin testing by the 2020 date. As a result, NEMA proposes January 1, 2022, in an effort to be certain there will be sufficient product available when the requirement goes into effect.
Submitter Information Verification
Submitter Full Name: Vince Baclawski
Organization: Nema
Street Address:
City:
State:
Zip:
Submittal Date: Tue Jun 28 12:31:53 EDT 2016
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Public Input No. 675-NFPA 72-2016 [ Section No. 29.8.3.4 ]
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29.8.3.4 Specific Location Requirements.
The installation of smoke alarms and smoke detectors shall comply with the following requirements:
(1) Smoke alarms and smoke detectors shall not be located where ambient conditions, including humidityand temperature, are outside the limits specified by the manufacturer's published instructions.
(2) Smoke alarms and smoke detectors shall not be located within unfinished attics or garages or in otherspaces where temperatures can fall below 40ºF (4ºC) or exceed 100ºF (38ºC).
(3)
(4)
(5)
(6)
(7) Effective January 1, 2019, smoke alarms and smoke detectors used in household fire alarm systemsinstalled between 6 ft (1.8 m) and 20 ft (6.1 m) along a horizontal flow path from a stationary or fixedcooking appliance shall be listed for resistance to common nuisance sources from cooking.
(8)
(9) Smoke alarms and smoke detectors shall not be installed within a 36 in. (910 mm) horizontal pathfrom the supply registers of a forced air heating or cooling system and shall be installed outside of thedirect airflow from those registers.
(10) Smoke Where physically possible, smoke alarms and smoke detectors shall not be installed within a36 in. (910 mm) horizontal path from the tip of the blade of a ceiling-suspended (paddle) fan.
(11) Where stairs lead to other occupiable levels, a smoke alarm or smoke detector shall be located so thatsmoke rising in the stairway cannot be prevented from reaching the smoke alarm or smoke detector byan intervening door or obstruction.
(12) For stairways leading up from a basement, smoke alarms or smoke detectors shall be located on thebasement ceiling near the entry to the stairs.
(13)
(14) Smoke alarms and detectors installed in rooms with joists or beams shall comply with therequirements of 17.7.3.2.4.
(15) Heat alarms and detectors installed in rooms with joists or beams shall comply with the requirementsof 17.6.3.
Additional Proposed Changes
File Name Description Approved
* Where the mounting surface could become considerably warmer or cooler than the room, such as apoorly insulated ceiling below an unfinished attic or an exterior wall, smoke alarms and smokedetectors shall be mounted on an inside wall.
* Smoke alarms and smoke detectors shall not be installed within an area of exclusion determined bya 10 ft (3.0 m) radial distance along a horizontal flow path from a stationary or fixed cooking appliance,unless listed for installation in close proximity to cooking appliances. Smoke alarms and smokedetectors installed between 10 ft (3.0 m) and 20 ft (6.1 m) along a horizontal flow path from a stationaryor fixed cooking appliance shall be equipped with an alarm-silencing means or use photoelectricdetection.
Exception: Smoke alarms or smoke detectors that use photoelectric detection shall be permitted forinstallation at a radial distance greater than 6 ft (1.8 m) from any stationary or fixed cookingappliance when the following conditions are met:
The kitchen or cooking area and adjacent spaces have no clear interior partitions or headersand
The 10 ft (3.0 m) area of exclusion would prohibit the placement of a smoke alarm or smokedetector required by other sections of this code.
* Smoke alarms and smoke detectors shall not be installed within a 36 in. (910 mm) horizontal pathfrom a door to a bathroom containing a shower or tub unless listed for installation in close proximity tosuch locations.
* For tray-shaped ceilings (coffered ceilings), smoke alarms and smoke detectors shall be installed onthe highest portion of the ceiling or on the sloped portion of the ceiling within 12 in. (300 mm) verticallydown from the highest point.
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Effect_of_Ceiling_Fans_on_Smoke_Alarm_Performance.pdf Elyse Gottuk, SUPDET 2015
Statement of Problem and Substantiation for Public Input
The existing code language for 29.8.3.4(8) creates conflicts when it is physically impossible to locate smoke alarms and detectors 36 inche or more from the tip of a fan blade. The proposed change provides a means to be code compliant under these circumstances. The study by Elyse Gottuk (see attached presentation to SUPDET 2015, "Effect of Ceiling Fans on Smoke Alarm Performance") demonstrates that the proposed language should be acceptable without creating an unacceptable risk.
Submitter Information Verification
Submitter Full Name: Daniel Gottuk
Organization: JENSEN HUGHES
Street Address:
City:
State:
Zip:
Submittal Date: Wed Jun 29 13:23:49 EDT 2016
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Effect of Ceiling Fans on Smoke
Alarm Performance
Elyse Gottuk
Dan Gottuk
Background
• Smoke alarms and smoke detectors shall not be installed within a 36 in. (910 mm) horizontal path from the tip of the blade of a ceiling-suspended (paddle) fan. [NFPA 72 – 29.8.3.4 (8)]
• Not always possible
Example of Potential Problem
4 ft
8.5 ft
8.5 ft2.25 ft
3.0 ft
Background – Safety Questions?
• Will a ceiling fan prevent smoke from getting to the alarm? Does the fan direction matter?
• Will a fan dilute the smoke and prevent or delay the smoke alarm from sounding?
• Will different alarm locations be better than the three foot requirement?
Objective
• To determine the effect of a ceiling fan on the performance of smoke alarms.
• To determine if the 3 ft requirement is valid or if closer distances can be used.
Approach
• Ran fire experiments in a 17 x 17 x 8 ft high room.
• 2 paper fire locations
• 8 ionization smoke alarms
• Fan conditions:
▫ Fan off
▫ Slow and Fast
▫ CW and CCW
Experimental Setup
Experimental Setup
Fires
• 100 grams of shredded paper in a 9x9 inch steel pan
Procedure
1. Set the fan on the predetermined speed and direction (ex. Fast, counter clockwise)
2. Turn the data acquisition system on for 60 seconds before igniting the fire
3. Light the fire, leave the room and shut the door4. Wait for all the smoke alarms to alarm and then
extinguish the fire
Ran each test condition 3 times (except no fan condition run once for each fire location)
Results – All Tests with Fire in Corner
Results – All Tests with Fire in Corner
Results – All Tests with Fire near Center
Results – All Tests with Fire near Center
Safety Questions?
• Will a ceiling fan prevent smoke from getting to the alarm? NO
• Does the fan direction matter? Generally NO, particularly for 3 ft and longer
Results – Fan Direction
Safety Questions?
• Will a fan dilute the smoke and prevent or delay the smoke alarm from sounding?
▫ Fan operation delays detection (typ~34 s with a range of 15-65 s).
▫ Fast speed ~25 s longer to alarm than slow speed.
Safety Questions?
• Will different alarm locations be better than the three foot requirement?
▫ For fires near the center, no significant difference in alarm locations.
▫ For fires in the corner, little difference for most, except a CW fast fan where 3 ft or larger had faster alarm times.
Results – Smoke Alarm Location
Conclusion
• Ceiling fans negatively affect smoke alarm performance. The faster the fan, the slower the response.
▫ Fan operation delays detection (typ~34 s with a range of 15-65 s).
▫ Fast speed ~25 s longer to alarm than slow speed.
• The direction of the fan does not typically matter.
Conclusion
• The location of smoke alarms only matters in a few scenarios.▫ For fires near the center, no significant difference in alarm locations.
▫ For fires in the corner, little difference for most, except a CW fast fan where 3 ft or larger had faster alarm times.
• Tests should be done with smaller rooms• The code requirement should allow for closer spacing when 3 ft is not physically possible.
Acknowledgements
Thank You to
• Jensen Hughes for support of their lab
• Kidde for supplying smoke alarms
Public Input No. 685-NFPA 72-2016 [ Section No. 29.8.3.4 ]
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29.8.3.4 Specific Location Requirements.
The installation of smoke alarms and smoke detectors shall comply with the following requirements:
(1) Smoke alarms and smoke detectors shall not be located where ambient conditions, including humidityand temperature, are outside the limits specified by the manufacturer's published instructions.
(2) Smoke alarms and smoke detectors shall not be located within unfinished attics or garages or in otherspaces where temperatures can fall below 40ºF (4. 4ºC) or exceed 100ºF (38ºC).
(3)
(4)
(5)
(6)
(7) Effective January 1, 2019, smoke alarms and smoke detectors used in household fire alarm systemsinstalled between 6 ft (1.8 m) and 20 ft (6.1 m) along a horizontal flow path from a stationary or fixedcooking appliance shall be listed for resistance to common nuisance sources from cooking.
(8)
(9) Smoke alarms and smoke detectors shall not be installed within a 36 in. (910 mm) horizontal pathfrom the supply registers of a forced air heating or cooling system and shall be installed outside of thedirect airflow from those registers.
(10) Smoke alarms and smoke detectors shall not be installed within a 36 in. (910 mm) horizontal pathfrom the tip of the blade of a ceiling-suspended (paddle) fan.
(11) Where stairs lead to other occupiable levels, a smoke alarm or smoke detector shall be located so thatsmoke rising in the stairway cannot be prevented from reaching the smoke alarm or smoke detector byan intervening door or obstruction.
(12) For stairways leading up from a basement, smoke alarms or smoke detectors shall be located on thebasement ceiling near the entry to the stairs.
(13)
(14) Smoke alarms and detectors installed in rooms with joists or beams shall comply with therequirements of 17.7.3.2.4.
(15) Heat alarms and detectors installed in rooms with joists or beams shall comply with the requirementsof 17.6.3.
Statement of Problem and Substantiation for Public Input
This Task Group was established to provide conversion values from inch-pound units to Metric units in a
* Where the mounting surface could become considerably warmer or cooler than the room, such as apoorly insulated ceiling below an unfinished attic or an exterior wall, smoke alarms and smokedetectors shall be mounted on an inside wall.
* Smoke alarms and smoke detectors shall not be installed within an area of exclusion determined bya 10 ft (3.0 m) radial distance along a horizontal flow path from a stationary or fixed cooking appliance,unless listed for installation in close proximity to cooking appliances. Smoke alarms and smokedetectors installed between 10 ft (3.0 m) and 20 ft (6.1 m) along a horizontal flow path from a stationaryor fixed cooking appliance shall be equipped with an alarm-silencing means or use photoelectricdetection.
Exception: Smoke alarms or smoke detectors that use photoelectric detection shall be permitted forinstallation at a radial distance greater than 6 ft (1.8 m) from any stationary or fixed cookingappliance when the following conditions are met:
The kitchen or cooking area and adjacent spaces have no clear interior partitions or headersand
The 10 ft (3.0 m) area of exclusion would prohibit the placement of a smoke alarm or smokedetector required by other sections of this code.
* Smoke alarms and smoke detectors shall not be installed within a 36 in. (910 mm) horizontal pathfrom a door to a bathroom containing a shower or tub unless listed for installation in close proximity tosuch locations.
* For tray-shaped ceilings (coffered ceilings), smoke alarms and smoke detectors shall be installed onthe highest portion of the ceiling or on the sloped portion of the ceiling within 12 in. (300 mm) verticallydown from the highest point.
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consistent manner throughout the document. This will establish a baseline value for the use of each unit of measurement to provide consistency.
Submitter Information Verification
Submitter FullName:
Thomas Parrish
Organization: Telgian Corporation
Affilliation:NFPA SIG-AAC Metric Task Group, Tom Parrish, A. M. Fred Leber,and Jeffery G. Van Keuren
Street Address:
City:
State:
Zip:
Submittal Date: Wed Jun 29 14:14:18 EDT 2016
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Public Input No. 759-NFPA 72-2016 [ Section No. 29.8.3.4 ]
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29.8.3.4 Specific Location Requirements.
The installation of smoke alarms and smoke detectors shall comply with the following requirements:
(1) Smoke alarms and smoke detectors shall not be located where ambient conditions, including humidityand temperature, are outside the limits specified by the manufacturer's published instructions.
(2) Smoke alarms and smoke detectors shall not be located within unfinished attics or garages or in otherspaces where temperatures can fall below 40ºF (4ºC) or exceed 100ºF (38ºC).
(3)
(4)
(5)
(6)
(7) Effective January 1, 2019, smoke alarms and smoke detectors used in household fire alarm systemsinstalled between 6 ft (1.8 m) and 20 ft (6.1 m) along a horizontal flow path from a stationary or fixedcooking appliance shall be listed for resistance to common nuisance sources from cooking.
(8)
(9)
(10) Smoke alarms and smoke detectors shall not be installed within a 36 in. (910 mm) horizontal pathfrom the supply registers of a forced air heating or cooling system and shall be installed outside of thedirect airflow from those registers.
(11) Smoke alarms and smoke detectors shall not be installed within a 36 in. (910 mm) horizontal pathfrom the tip of the blade of a ceiling-suspended (paddle) fan.
(12) Where stairs lead to other occupiable levels, a smoke alarm or smoke detector shall be located so thatsmoke rising in the stairway cannot be prevented from reaching the smoke alarm or smoke detector byan intervening door or obstruction.
(13) For stairways leading up from a basement, smoke alarms or smoke detectors shall be located on thebasement ceiling near the entry to the stairs.
(14)
(15) Smoke alarms and detectors installed in rooms with joists or beams shall comply with therequirements of 17.7.3.2.4.
(16) Heat alarms and detectors installed in rooms with joists or beams shall comply with the requirementsof 17.6.3.
Statement of Problem and Substantiation for Public Input
* Where the mounting surface could become considerably warmer or cooler than the room, such as apoorly insulated ceiling below an unfinished attic or an exterior wall, smoke alarms and smokedetectors shall be mounted on an inside wall.
* Smoke alarms and smoke detectors shall not be installed within an area of exclusion determined bya 10 ft (3.0 m) radial distance along a horizontal flow path from a stationary or fixed cooking appliance,unless listed for installation in close proximity to cooking appliances. Smoke alarms and smokedetectors installed between 10 ft (3.0 m) and 20 ft (6.1 m) along a horizontal flow path from a stationaryor fixed cooking appliance shall be equipped with an alarm-silencing means or use photoelectricdetection.
Exception: Smoke alarms or smoke detectors that use photoelectric detection shall be permitted forinstallation at a radial distance greater than 6 ft (1.8 m) from any stationary or fixed cookingappliance when the following conditions are met:
The kitchen or cooking area and adjacent spaces have no clear interior partitions or headersand
The 10 ft (3.0 m) area of exclusion would prohibit the placement of a smoke alarm or smokedetector required by other sections of this code.
* Smoke alarms and smoke detectors shall not be installed within a 36 in. (910 mm) horizontal pathfrom a door to a bathroom containing a shower or tub unless listed for installation in close proximity tosuch locations.
* For tray-shaped ceilings (coffered ceilings), smoke alarms and smoke detectors shall be installed onthe highest portion of the ceiling or on the sloped portion of the ceiling within 12 in. (300 mm) verticallydown from the highest point.
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The cooking nuisance test is now been defined in ANSI/UL 217 and ANSI/UL 268 and is required for smoke alarm and detector certification. All products certified by UL LLC must comply with this requirement by May 29, 2020. Therefore, inclusion of such a requirement in NFPA 72 is like stating that a smoke alarm shall be capable of detecting smoke or that a smoke alarm shall be resistant to surge immunity tests.
In addition, the installation location requirements in NFPA 72 for cooking/kitchen installations should be reconsidered to determine if these installation locations should remain, be revised, or be removed. In addition, should additional research be conducted to consider a modified installation location?
Related Public Inputs for This Document
Related Input Relationship
Public Input No. 755-NFPA 72-2016 [Section No. 29.7.3] Cooking Nuisance
Submitter Information Verification
Submitter Full Name: David Mills
Organization: UL LLC
Street Address:
City:
State:
Zip:
Submittal Date: Wed Jun 29 17:06:48 EDT 2016
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Public Input No. 419-NFPA 72-2016 [ New Section after 29.10 ]
TITLE OF NEW CONTENT
Relocate A.29.8.1.4 to 29.10.1
Statement of Problem and Substantiation for Public Input
This change moves the referenced form from the annex to the body of the code and allows for required use and in enforceable in the state of Louisana.
Related Public Inputs for This Document
Related Input Relationship
Public Input No. 417-NFPA 72-2016 [Section No. A.29.8.1.4]
Submitter Information Verification
Submitter Full Name: Butch Browning
Organization: La State Fire Marshal
Street Address:
City:
State:
Zip:
Submittal Date: Wed Jun 22 16:49:45 EDT 2016
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Public Input No. 400-NFPA 72-2016 [ Section No. 29.10 ]
29.10 Maintenance and Tests.
Fire-warning equipment shall be maintained and tested in accordance with the manufacturer’s publishedinstructions and per the requirements of Chapter 14.Relocate A29.8.1.4 to this section and number it29.10.1
Statement of Problem and Substantiation for Public Input
see substantiation from PI336
Related Public Inputs for This Document
Related Input Relationship
Public Input No. 336-NFPA 72-2016 [Section No. A.29.8.1.4]
Submitter Information Verification
Submitter Full Name: Jeffrey Okun
Organization: Nuko Security Inc
Street Address:
City:
State:
Zip:
Submittal Date: Wed Jun 22 11:00:10 EDT 2016
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Public Input No. 723-NFPA 72-2016 [ Section No. 29.10 ]
29.10 Maintenance and Tests.
Fire-warning equipment shall be maintained and tested in accordance with the manufacturer’s publishedinstructions and per the requirements of Chapter 14 and Chapter 29 .
Statement of Problem and Substantiation for Public Input
The testing requirements for household systems should be covered in Chapter 29. This will bring clarity and specific testing criteria for household systems as technology unfolds. Inserting testing and maintenance will allow the committee to alter testing criteria as the consumer technology evolves.
Submitter Information Verification
Submitter Full Name: Richard Simpson
Organization: Vector Security Inc
Street Address:
City:
State:
Zip:
Submittal Date: Wed Jun 29 15:45:46 EDT 2016
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Public Input No. 698-NFPA 72-2016 [ Section No. 29.11 ]
29.11 Markings and Instructions.
29.11.1 Alarms.
All alarms shall be plainly marked with the following information on the unit:
(1) Manufacturer’s or listee’s name, address, and model number
(2) A mark or certification that the unit has been approved or listed by a testing laboratory certificationorganization.
(3) Electrical rating (where applicable)
(4) Manufacturer's published operating and maintenance instructions
(5) Test instructions
(6) Replacement and service instructions
(7) Identification of lights, switches, meters, and similar devices regarding their function, unless theirfunction is obvious
(8) Distinction between alarm and trouble signals on units employing both
(9) The sensitivity setting for an alarm having a fixed setting (For an alarm that is intended to be adjustedin the field, the range of sensitivity shall be indicated. The marked sensitivity shall be indicated as apercent per foot obscuration level. The marking shall include a nominal value plus tolerance.)
(10) Reference to an installation diagram and system owner’s manual
(11) Date of manufacture in the format YEAR (in four digits), MONTH (in letters), and DAY (in two digits)located on the outside of the alarm
Exception: Where space limitations prohibit inclusion of 29.11.1 (4) and (6), it is not prohibited for thisinformation to be in the installation instructions instead.
29.11.2 Fire Alarm Control Unit.
All household fire-warning equipment or systems shall be plainly marked with the following information onthe unit:
(1) Manufacturer’s or listee’s name, address, and model number
(2) A mark or certification that the unit has been approved or listed by a testing laboratory certificationorganization.
(3) Electrical rating (where applicable)
(4) Identification of all user interface components and their functions (such as, but not limited to, lights,switches, and meters) located adjacent to the component
(5) Manufacturer's published operating and maintenance instructions
(6) Test instructions
(7) Replacement and service instructions
(8) Reference to an installation wiring diagram and homeowner’s manual, if not attached to control unit,by drawing number and issue number and/or date
Exception: Where space limitations prohibit inclusion of 29.11.2 (5) and (7), it is not prohibited for thisinformation to be in the installation instructions instead.
Statement of Problem and Substantiation for Public Input
The section being revised is essentially identifying a certification mark. "Listing" is a defined term in the code that covers listings (or approvals) provided by a wide range of certification organizations that may or may not include
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the word "Listed" in their certification mark. The use of "approved" in this context is not correct, since it is defined as being acceptable to the AHJ. The term "certification organization" is also more accurate than "testing laboratory", and covers both the testing and certifications aspects of the organization.
Submitter Information Verification
Submitter Full Name: Howard Hopper
Organization: UL LLC
Street Address:
City:
State:
Zip:
Submittal Date: Wed Jun 29 14:37:23 EDT 2016
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Public Input No. 362-NFPA 72-2016 [ Section No. 29.11.1 ]
29.11.1 Alarms.
All alarms shall be plainly marked with the following information on the unit:
(1) Manufacturer’s or listee’s name, address, and model number
(2) A mark or certification that the unit has been approved or listed by a testing laboratory
(3) Electrical rating (where applicable)
(4) Manufacturer's published operating and maintenance instructions
(5) Test instructions
(6) Replacement and service instructions
(7) Identification Explanation of signal indicators, including i dentification of lights, switches, meters,and similar devices regarding their function, unless their function is obvious
(8) Distinction between alarm and trouble signals on units employing both
(9) The sensitivity setting for an alarm having a fixed setting (For an alarm that is intended to be adjustedin the field, the range of sensitivity shall be indicated. The marked sensitivity shall be indicated as apercent per foot obscuration level. The marking shall include a nominal value plus tolerance.)
(10) Reference to an installation diagram and system owner’s manual
(11) Date of manufacture in the format YEAR (in four digits), MONTH (in letters), and DAY (in two digits)located on the outside of the alarm
Exception: Where space limitations prohibit inclusion of 29.11.1 (4) and (6), it is not prohibited for thisinformation to be in the installation instructions instead.
In addition, Carbon monoxide alarms or detectors shall be provided with the following information:
(1) Statement that indicates the unit is not suitable as a fire detector
(2) Electrical rating (if applicable)
(3) Warning that carbon monoxide is odorless, colorless, and tasteless
(4) Emergency actions to be taken
(5) Recommended replacement date
Statement of Problem and Substantiation for Public Input
Incorporation of NFPA 720 Requirements.
Submitter Information Verification
Submitter Full Name: Laurence Dallaire
Organization: Architect Of The Capitol
Affilliation: TG on 720 integration
Street Address:
City:
State:
Zip:
Submittal Date: Mon Jun 20 12:50:31 EDT 2016
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Public Input No. 361-NFPA 72-2016 [ New Section after 29.11.2 ]
29.11.1.1.3 Operating Instructions.
The following information shall be included in the printed instructions provided with carbon monoxidealarms and detectors:
(1) Installation instructions
(2) Operating instructions
(3) Testing instructions
(4) Maintenance instructions
(5) Replacement and service instructions
(6) Statement indicating that smoke might not be present during a carbon monoxide alarm condition
(7) * Information on the actions to be taken in case of an alarm
(8) Minimum and recommended distances from fuel-burning appliances
Statement of Problem and Substantiation for Public Input
Incorporate requirements of NFPA 720.
Submitter Information Verification
Submitter Full Name: Laurence Dallaire
Organization: Architect Of The Capitol
Affilliation: TG on 720 integration
Street Address:
City:
State:
Zip:
Submittal Date: Mon Jun 20 12:46:22 EDT 2016
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Public Input No. 622-NFPA 72-2016 [ Section No. A.29.3.5 ]
A.29.3.5
The use of the distinctive three-pulse temporal pattern fire alarm evacuation signal has been recommendedby this Code since 1979. It has since been adopted as both an American National Standard (ANSI S3.41,American National Standard Audible Emergency Evacuation Signal) and an International Standard (ISO8201, Audible Emergency Evacuation Signal).
Copies of both of these standards are available from either of the following:
(1) The web at asa.aip.org/map_publications.html
(2)
(3) Standards Publication Fulfillment, P.O., Box 1020, Sewickly, PA 15143-9998, Tel. 412-741-1979
For information about the Acoustical Society of America, or for how and why the three-pulse temporalpattern signal was chosen as the international standard evacuation signal, contact Standards Secretariat,Acoustical Society of America, 35 Pinelawn Road, Suite 114E, Melville, NY 11747, Tel. 531-490-0215,Email: [email protected].
The standard fire alarm evacuation signal is a three-pulse temporal pattern using any appropriate sound.The pattern consists of the following in this order:
(1) An “on” phase lasting 0.5 second ±10 percent.
(2) An “off” phase lasting 0.5 second ±10 percent for three successive “on” periods.
(3) An “off” phase lasting 1.5 seconds ±10 percent [see Figure A.29.3.5(a) and Figure A.29.3.5(b) ]. Thesignal should be repeated for a period appropriate for the purposes of evacuation of the building, butfor not less than 180 seconds. A single-stroke bell or chime sounded at “on” intervals lasting 1 second±10 percent, with a 2-second ±10 percent “off” interval after each third “on” stroke, is permitted [seeFigure A.29.3.5(c)].
The minimum repetition time is permitted to be manually interrupted.
Figure A.29.3.5(a) Temporal Pattern Parameters.
Figure A.29.3.5(b) Temporal Pattern Imposed on Signaling Appliances That Emit ContinuousSignal While Energized.
Figure A.29.3.5(c) Temporal Pattern Imposed on Single-Stroke Bell or Chime.
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Statement of Problem and Substantiation for Public Input
A Correlating Committee task group on process reviewed the Code for consistency. Delete the reference to the web page because the referenced documents are not available on the site. Renumber subsequent items.
Submitter Information Verification
Submitter Full Name: Lawrence Shudak
Organization: UL LLC
Street Address:
City:
State:
Zip:
Submittal Date: Tue Jun 28 23:22:14 EDT 2016
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Public Input No. 401-NFPA 72-2016 [ New Section after A.29.5.1.3.1 ]
A.29.5.2.1
Hazardous concentrations of carbon monoxide can accumulate in a residence, generally from improperlyoperating heating appliances, insufficient make-up air into the residence or space, or blocked chimneys orvents. However, there are many other potential sources of carbon monoxide within a home, including, butnot limited to, the following:
(1) Malfunctioning fossil fuel–burning appliances
(2) Wood stoves
(3) Fireplaces
(4) Idling automobiles in attached garages
(5) Portable equipment such as gasoline-powered lawn and garden equipment and electric powergenerators
(6) Barbecues
Carbon monoxide is odorless, tasteless, and colorless; therefore, its presence is undetectable by smell,taste, or sight. Carbon monoxide can be mixed and migrate throughout a residence through the HVACsystem. Carbon monoxide alarms meeting the requirements of ANSI/UL 2034, Standard for Single andMultiple Station Carbon Monoxide Alarms , and installed in accordance with this standard should provide asignificant level of protection against fatal carbon monoxide exposure.
The installation of additional carbon monoxide alarms could result in a higher degree of protection. Addingalarms to rooms where fuel-burning appliances are located could provide earlier warning of carbonmonoxide hazards caused by those sources. Additional alarms located in rooms normally closed off fromthe required alarms could increase the escape time, since the carbon monoxide concentration needed toforce the carbon monoxide out of the closed rooms to the alarms would not be necessary. As aconsequence, the installation of additional carbon monoxide alarms should be considered.
Carbon monoxide alarms or detectors are not substitutes for proper maintenance, inspection, and testing offuel-burning equipment. Fuel-burning equipment and appliances should be used, maintained, tested, andinspected according to the manufacturers' instructions.
Carbon monoxide detectors/alarms are cross sensitive to hydrogen, an explosive gas that can be given offby recharging lead acid batteries. Where households include recharging stations (e.g., for golf carts), thealarm should be located away from the recharging location.
Statement of Problem and Substantiation for Public Input
The Standards Council approved the consolidation of NFPA 720 and NFPA 72 and directed the current material that is within the existing NFPA 720 to be relocated into the next edition of NFPA 72. The Correlating Committee on Signaling Systems for the Protection of Life and Property appointed the 720/72 Consolidation Task Group to review and effect the necessary changes.
This input is submitted on behalf of the 720/72 Consolidation Task Group. The Task Group is comprised of: Robert Schifiliti (C), Art Black, Shane Clary, Tom Norton, Daniel O’Connor, Richard Roberts, LJ Dallaire, Wendy Gifford, Jason Sutula and David Mills.
NFPA 720 Section 9.4.1 has been incorporated by the task group into new Section 29.5.2.1 in the code. The appendix material from NFPA 720 A.9.4.1 is inserted here to preserve the additional information from the Annex of NFPA 720.
Submitter Information Verification
Submitter Full Name: Jason Sutula
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Organization: JENSEN HUGHES
Street Address:
City:
State:
Zip:
Submittal Date: Wed Jun 22 11:01:55 EDT 2016
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Public Input No. 402-NFPA 72-2016 [ New Section after A.29.5.1.3.1 ]
A.29.5.2.1.1
Where sleeping areas are separated and the audibility of the alarm or detector to occupants within eachsleeping area could be seriously impaired, more than one unit could be needed.
At times, depending on conditions, the audibility of notification appliances could be seriously impaired whenoccupants are in the bedroom area. For instance, there might be a noisy window air conditioner or roomhumidifier generating an ambient noise level of 55 dBA or higher. The detection device alarms need topenetrate through the closed doors and be heard over the bedroom's noise levels with sufficient intensity toawaken sleeping occupants. Test data indicate that alarms with ratings of 85 dBA at 3 m (10 ft) that areinstalled outside the bedrooms can produce about 15 dBA over ambient noise levels of 55 dBA in thebedrooms. This sound pressure is likely to be sufficient to awaken the average sleeping person.
Alarms or detectors located remote from the bedroom area might not be loud enough to awaken theaverage person. In such cases, it is recommended that units be interconnected in such a way that theoperation of the remotely located detector or alarm causes an alarm of sufficient intensity to penetrate thebedrooms. The interconnection can be accomplished by the following:
(1) Installation of a system
(2) Wiring together of multiple-station alarms
(3) Use of line carrier or radio frequency transmitters/receivers
(4) Adding supplemental notification appliances
Statement of Problem and Substantiation for Public Input
The Standards Council approved the consolidation of NFPA 720 and NFPA 72 and directed the current material that is within the existing NFPA 720 to be relocated into the next edition of NFPA 72. The Correlating Committee on Signaling Systems for the Protection of Life and Property appointed the 720/72 Consolidation Task Group to review and effect the necessary changes.
This input is submitted on behalf of the 720/72 Consolidation Task Group. The Task Group is comprised of: Robert Schifiliti (C), Art Black, Shane Clary, Tom Norton, Daniel O’Connor, Richard Roberts, LJ Dallaire, Wendy Gifford, Jason Sutula and David Mills.
NFPA 720 Section 9.4.1.1 has been incorporated by the task group into new Section 29.5.2.1.1 in the code. The appendix material from NFPA 720 A.9.4.1.1 is inserted here to preserve the additional information from the Annex of NFPA 720.
Submitter Information Verification
Submitter Full Name: Jason Sutula
Organization: JENSEN HUGHES
Street Address:
City:
State:
Zip:
Submittal Date: Wed Jun 22 12:07:42 EDT 2016
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Public Input No. 403-NFPA 72-2016 [ New Section after A.29.5.1.3.1 ]
A.29.5.2.1.2
The location for effective performance is not generally dependent on mounting height. The density ofcarbon monoxide is similar to that of air at room temperature, and carbon monoxide generally mixes readilywith air.
Statement of Problem and Substantiation for Public Input
The Standards Council approved the consolidation of NFPA 720 and NFPA 72 and directed the current material that is within the existing NFPA 720 to be relocated into the next edition of NFPA 72. The Correlating Committee on Signaling Systems for the Protection of Life and Property appointed the 720/72 Consolidation Task Group to review and effect the necessary changes.
This input is submitted on behalf of the 720/72 Consolidation Task Group. The Task Group is comprised of: Robert Schifiliti (C), Art Black, Shane Clary, Tom Norton, Daniel O’Connor, Richard Roberts, LJ Dallaire, Wendy Gifford, Jason Sutula and David Mills.
NFPA 720 Section 9.4.1.2 has been incorporated by the task group into new Section 29.5.2.1.2 in the code. The appendix material from NFPA 720 A.9.4.1.2 is inserted here to preserve the additional information from the Annex of NFPA 720.
Submitter Information Verification
Submitter Full Name: Jason Sutula
Organization: JENSEN HUGHES
Street Address:
City:
State:
Zip:
Submittal Date: Wed Jun 22 12:12:07 EDT 2016
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Public Input No. 404-NFPA 72-2016 [ New Section after A.29.5.2.2 ]
A.29.6.3.2.5
Restraining means are not intended to be used where the detector or alarm is designated to be pluggeddirectly into a receptacle.
Statement of Problem and Substantiation for Public Input
The Standards Council approved the consolidation of NFPA 720 and NFPA 72 and directed the current material that is within the existing NFPA 720 to be relocated into the next edition of NFPA 72. The Correlating Committee on Signaling Systems for the Protection of Life and Property appointed the 720/72 Consolidation Task Group to review and effect the necessary changes.
This input is submitted on behalf of the 720/72 Consolidation Task Group. The Task Group is comprised of: Robert Schifiliti (C), Art Black, Shane Clary, Tom Norton, Daniel O’Connor, Richard Roberts, LJ Dallaire, Wendy Gifford, Jason Sutula and David Mills.
NFPA 720 Section 9.5.2.5 has been incorporated by the task group into new Section 29.6.3.2.5 in the code. The appendix material from NFPA 720 A.9.5.2.5 is inserted here to preserve the additional information from the Annex of NFPA 720.
Submitter Information Verification
Submitter Full Name: Jason Sutula
Organization: JENSEN HUGHES
Street Address:
City:
State:
Zip:
Submittal Date: Wed Jun 22 12:19:54 EDT 2016
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Public Input No. 405-NFPA 72-2016 [ New Section after A.29.7.2 ]
A.29.7.4
ANSI/UL 2034, Standard for Single and Multiple Station Carbon Monoxide Alarms, includes a level belowwhich the alarm should not respond.
Statement of Problem and Substantiation for Public Input
The Standards Council approved the consolidation of NFPA 720 and NFPA 72 and directed the current material that is within the existing NFPA 720 to be relocated into the next edition of NFPA 72. The Correlating Committee on Signaling Systems for the Protection of Life and Property appointed the 720/72 Consolidation Task Group to review and effect the necessary changes.
This input is submitted on behalf of the 720/72 Consolidation Task Group. The Task Group is comprised of: Robert Schifiliti (C), Art Black, Shane Clary, Tom Norton, Daniel O’Connor, Richard Roberts, LJ Dallaire, Wendy Gifford, Jason Sutula and David Mills.
NFPA 720 Section 9.6.1.1 has been incorporated by the task group into new Section 29.7.4.1.1 in the code. The appendix material from NFPA 720 A. 9.6.1.1 is inserted here to preserve the additional information from the Annex of NFPA 720.
Submitter Information Verification
Submitter Full Name: Jason Sutula
Organization: JENSEN HUGHES
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Submittal Date: Wed Jun 22 12:34:31 EDT 2016
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1298 of 1374 6/30/2016 11:10 AM
Public Input No. 336-NFPA 72-2016 [ Section No. A.29.8.1.4 ]
A.29.8.1.4
Where a form is required by the AHJ to document the installation and Inspection of a household fire alarmsystem or single- or multiple-station alarms, Figure A.29.8.1.4 can be used to document the record ofcompletion . and inspection
Figure A.29.8.1.4 Installation and Inspection Form Single- and Multiple-Station Smoke Alarms andHousehold Fire Alarm Systems.
Statement of Problem and Substantiation for Public Input
The intent of this form is to provide guidance for installation as well as inspection. The submitter believes the homeowner/occupant would benefit from not only receiving this form atthe time of occupancy, but also as a guide to know that there is regular maintenance and testing required for this equipment. Too often this part of the equation is left out and the owner/occupant is unaware that there are inspection and maintenance requirements within the code to ensure proper operation of the equipment installed.
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1299 of 1374 6/30/2016 11:10 AM
Public Input No. 400-NFPA 72-2016 [Section No. 29.10]
Submitter Information Verification
Submitter Full Name: Jeffrey Okun
Organization: Nuko Security Inc
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Submittal Date: Mon Jun 13 20:24:23 EDT 2016
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1300 of 1374 6/30/2016 11:10 AM
Public Input No. 417-NFPA 72-2016 [ Section No. A.29.8.1.4 ]
A.29.8.1.4
Where a form is required by the AHJ to document the installation and inspection of a household fire alarmsystem or single- or multiple-station alarms, Figure A.29.8.1.4 can be used to document the record ofcompletion.
Figure A.29.8.1.4 Installation and Inspection Form Single- and Multiple-Station Smoke Alarms andHousehold Fire Alarm Systems.
Statement of Problem and Substantiation for Public Input
This provides for validation of inspections for both the AHJ and responsible parties. AHJ can adopt this form and bring about uniformity throughout jurisdictions. More over ensure reliable and effective performance in fire and life safety systems.
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Public Input No. 419-NFPA 72-2016 [New Section after 29.10]
Submitter Information Verification
Submitter Full Name: Butch Browning
Organization: La State Fire Marshal
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Submittal Date: Wed Jun 22 16:43:41 EDT 2016
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