TECHNICAL COMMITTEE ON ELECTRONIC SAFETY EQUIPMENT

NFPA 1801 Second Draft Meeting

Hilton Indianapolis Hotel & Suites 120 West Market Street Indianapolis, IN 46204 Phone: (800) 445-8667

July 12-14, 2016

AGENDA

Meeting Start Time - 9:00 a.m. Local Time

Conference Call Line: 855-747-8824 Passcode: 902034

1. Call to order – Robert Athanas, Chair

2. Self-introduction of members and guests

3. NFPA Staff Liaison Report – Dave Trebisacci

a. TC actions on Public Comments – how to create Second Revisions

4. Approval of Minutes of March 10, 2016 Dallas meeting (attached)

5. Review of Public Comments to NFPA 1801 (attached)

6. 1982 TG report and review of recommendations for proposed change.

7. NFPA 1802 Draft Development

8. Old business

9. New business

a. Next meeting – NFPA 1982 Second Draft – December 6-8, 2016

10. Adjourn no later than 1:00 p.m. local time, July 14, 2016

Technical Committee on Electronic Safety Equipment Minutes of the Meeting

March 10-12, 2016

Dallas, TX

Agenda Items #1-3: Call to Order, Introduction of Members and Guests, and Committee Procedures Chairman Athanas called the Committee to order at 9 a.m. on March 10, 2016. Chairman Athanas welcomed Committee members and guests and asked them to introduce themselves. David Trebisacci provided the NFPA Staff Liaison report and asked attendees to sign in on the appropriate Member or Guest sign-in sheet. Members present: Robert Athanas, Chairman Chris Spoons, Secretary Dave Trebisacci, Staff Liaison

Kamil Agi Joel Berger Todd Bianchi Matt Bowyer Lou Chavez Mathew Cnudde John Facella William Forsyth Craig Gestler Zachary Haase Wayne Haase Jeff Helvin Jeffrey Hull Santiago Lasa Kevin Lentz

Steven Makky Brian Martens Michael McKenna Chad Morey John Morris Timothy Rehak Kate Remley James Rose Matthew Shannon Gordon Sletmoe Gerry Tarver Steven Townsend Jose Velo Gregory Vrabllik Steven Weinstein

Guests present: Scott Glazer Icom America John Hardwick DVSI David Hodson Draeger Luke Hollman Ultra Electronics – USSI Chuck Jaris Motorola Solutions Joel Johnson Savox Clint Mayhue Avon Protection Frank McCarthy LA County Fire Department, Ret. Judge Morgan Scott Safety

Joe Namm Motorola Solutions Jacob Norrby Interspiro John Oblak EF Johnson John Rehayem Otto Engineering Kevin Roche FACETS Robert Sell Draeger Mike Swofford Interspiro Matt Taylor Avon Protection Achim Volmer Draeger Chris Yttro Otto Engineering Agenda Item #4: Approval of the Minutes of the October 2015 meeting in Colorado Springs, CO. The committee reviewed the minutes of the meeting held October 27-29 in Colorado Springs, CO.

Motion to accept the minutes as amended: Bill Haskell Second: Kamil Agi

To approve the amended Minutes of the March 10-12 meeting

Motion carried

Agenda Items #5: Chairman’s Remarks Chairman Athanas welcomed all members and guests to Dallas. Anyone who submitted an application to be an alternate, those applications are now with Standards Council. He reminded all that everyone in the room has a say and should be sure to share their opinions. Technical Correlating Committee update Bill Haskell, Chair of the Correlating Committee provided an update on the last CC meeting. The CC has formed a Task Group on definitions. They are also looking at a reorganization of the entire PPE project and will be working to realign committees and the timeframes for the various project documents. Agenda Item #6: NFPA 1982 Public Input The committee reviewed Public Input submitted for NFPA 1982. Public Input items were assigned to task groups to streamline the process. Jim Rose – TG chair for Chapters 1-5. Craig Gestler led the committee through the Public Inputs relating to Chapter 6

Gordon Sletmoe led the committee through the Public Inputs relating to Chapters 7 and 8 Greg Vrabllik led the committee through the Public Inputs relating to the annex material.

Steve Townsend gave a report on the Hazlock Task Group The TC is currently referencing the 6th edition of UL 913 in NFPA 1982. UL representatives reported that the 6th edition remains available for the TC to reference at the current time, but there is no knowledge as to how long this will be the case. TIA 4950 is the standard that the TG is suggesting as an option while continuing to reference the UL standard for as long as it remains available.

Chairman Athanas appointed a Task Group to review Public Input 101: Matt Bowyer Dave Hodson Kevin Lentz Chad Morey Jim Rose Steve Weinstein

There was significant discussion on Public Input 58 after the TC had taken action on it. After discussions, a motion was made to reopen the discussion on Public Input 58.

Motion: Gerry Tarver Second: Matt Bowyer

To reopen the discussion on Public Input 58

The motion did not pass by a vote of 10-Yes to 13-No

Agenda Item #7: Review of 1802 Draft The committee reviewed the draft to date of NFPA 1802.

• Chapter 1 – Jose Velo • Chapter 2 – Jose Velo • Chapter 3 – Tim Wolfe, Matt Bowyer • Chapter 4 – Gordon Sletmoe • Chapter 5 – Gerry Tarver • Chapter 6 – Mike McKenna, Mike Worrell • Chapter 7 – Mike McKenna, Mike Worrell, Steve Townsend • Chapter 8 – John Morris, Chris Spoons

Agenda Item #8: New Business – Upcoming meetings July 12-14 – NFPA 1801 Second Draft (Indianapolis) December 6-8 – NFPA 1982 Second Draft (tentatively San Diego)

Agenda Item #9: Adjourn at close of business Having no further business, Chairman Athanas sought a motion to adjourn the meeting.

Motion: Steve Townsend Second: Jose Velo

To adjourn the meeting

Motion passed

Chairman Athanas adjourned the meeting at 2:30 p.m. Respectfully submitted, Chris Spoons, Secretary TC on Electronic Safety Equipment

Public Comment No. 2-NFPA 1801-2016 [ Section No. 2.3.3 ]

2.3.3 ISO/IEC Publications.

International Organization for Standardization, ISO Central Secretariat, BIBC II, Chemin de Blandonnet 8,CP 401, 1214 Vernier, Geneva, Switzerland.

IEC 60529, Degrees of protection provided by enclosures (IP Code) Ed. 2.2, 2013/Cor 1:2013.

IEC 61000-6-2, Electromagnetic compatibility (EMC) — Part 6-2: Generic standards — Immunity forindustrial environments, 2005.

IEC 61000-6-3, Electromagnetic compatibility (EMC) — Part 6-3: Generic standards — Emission standardfor residential, commercial, and light-industrial environments, 2011.

ISO 27, Guidelines for corrective action to be taken by a certification body in the event of misuse of its markof conformity, 1983.

ISO 9001, Quality management systems — Requirements, 2014. 2008

ISO 9001, Quality management systems - Requirements, 2015

ISO 17011, Conformity assessment — General requirements for accreditation bodies accreditingconformity assessment bodies, 2004.

ISO 17025, General requirements for the competence of testing and calibration laboratories, 2005/Cor 1:2006.

ISO 17493, Clothing and equipment for protection against heat — Test method for convective heatresistance using a hot air circulating oven, 2000.

ISO/IEC 17021, Conformity assessment — Requirements for bodies providing audit and certification ofmanagement systems, 2011.

ISO/IEC 17065, Conformity assessment — Requirements for bodies certifying products, processes, andservices, 2012.

Additional Proposed Changes

File Name Description Approved

1801_A2017_FAE-AAC_CCNote_1.pdf 1801_CCNote_1

Statement of Problem and Substantiation for Public Comment

This Public Comment appeared as CC Note No. 1 in the First Draft Report on First Revision No. 9.

Related Item

First Revision No. 9-NFPA 1801-2015 [Chapter 2]

Submitter Information Verification

Submitter NFPA User ID: CC_Notes@FAE-AAC.org

Submitter Full Name: Cc On Fae-Aac

Organization: NFPA

Telephone:

Street Address:

City:

State:

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Zip:

Submittal Date: Tue Mar 15 13:59:43 EDT 2016

Copyright Assignment

I, Cc On Fae-Aac, hereby irrevocably grant and assign to the National Fire Protection Association (NFPA) all and full rights in copyright inthis Public Comment (including both the Proposed Change and the Statement of Problem and Substantiation). I understand and intend thatI acquire no rights, including rights as a joint author, in any publication of the NFPA in which this Public Comment in this or another similaror derivative form is used. I hereby warrant that I am the author of this Public Comment and that I have full power and authority to enter intothis copyright assignment.

By checking this box I affirm that I am Cc On Fae-Aac, and I agree to be legally bound by the above Copyright Assignment and theterms and conditions contained therein. I understand and intend that, by checking this box, I am creating an electronic signature that will,upon my submission of this form, have the same legal force and effect as a handwritten signature

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Public Comment No. 3-NFPA 1801-2016 [ New Section after 4.5.3 ]

The Correlating Committee directs the Technical committee to add the following annex material in A.4.5.3

In September of 2015, a revised editions of IAO 9001 Quality management systems - Requirements wasissued. Both the 2008 and 2015 editions of the standard are being referenced in this revision of thestandard to allow manufacturer's sufficient amount of time to transition their quality management systemsregistration to this new edition.

Additional Proposed Changes

File Name Description Approved

1801_A2017_FAE-AAc_CCNote_2.pdf 1801_CCNote_2

Statement of Problem and Substantiation for Public Comment

This Public Comment appeared as a CC Note No. 2 in the First Draft Report on First Revision No. 6

Related Item

First Revision No. 6-NFPA 1801-2015 [Section No. 4.1.2]

Submitter Information Verification

Submitter NFPA User ID: CC_Notes@FAE-AAC.org

Submitter Full Name: Cc On Fae-Aac

Organization: NFPA

Telephone:

Street Address:

City:

State:

Zip:

Submittal Date: Tue Mar 15 14:28:21 EDT 2016

Copyright Assignment

I, Cc On Fae-Aac, hereby irrevocably grant and assign to the National Fire Protection Association (NFPA) all and full rights in copyright inthis Public Comment (including both the Proposed Change and the Statement of Problem and Substantiation). I understand and intend thatI acquire no rights, including rights as a joint author, in any publication of the NFPA in which this Public Comment in this or another similaror derivative form is used. I hereby warrant that I am the author of this Public Comment and that I have full power and authority to enter intothis copyright assignment.

By checking this box I affirm that I am Cc On Fae-Aac, and I agree to be legally bound by the above Copyright Assignment and theterms and conditions contained therein. I understand and intend that, by checking this box, I am creating an electronic signature that will,upon my submission of this form, have the same legal force and effect as a handwritten signature

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Public Comment No. 4-NFPA 1801-2016 [ New Section after 6.1.4 ]

Minimum Sensor Resolution:

The thermal imager shall incorporate a sensor engine consisting of an infrared sensor with at least 76,800imaging pixels. Video output shall be displayed on a display device consisting of at least the sameresolution as the imaging sensor.

Statement of Problem and Substantiation for Public Comment

Currently there is no minimum resolution requirement in the standard. In committee work conducted for prior versions of 1801, it was determined that in order to clearly resolve a firefighters fingers in a gloved hand from a distance of 15 feet, a minimum resolution of 320x240 was required. The SR test has not been fully successful in accomplishing this. Therefore, I believe it is time now to simply require a minimum sensor resolution.

Related Item

First Revision No. 14-NFPA 1801-2015 [Section No. 6.1.2]

Submitter Information Verification

Submitter NFPA UserID:

dalittle@mindspring.com

Submitter Full Name: David Little

Organization: NONE

Affilliation:NFPA ESE COMMITEE MEMBER-SUBJECT MATTEREXPERT

Telephone:

Street Address:

City:

State:

Zip:

Submittal Date: Sun May 15 23:20:48 EDT 2016

Copyright Assignment

I, David Little, hereby irrevocably grant and assign to the National Fire Protection Association (NFPA) all and full rights in copyright in thisPublic Comment (including both the Proposed Change and the Statement of Problem and Substantiation). I understand and intend that Iacquire no rights, including rights as a joint author, in any publication of the NFPA in which this Public Comment in this or another similar orderivative form is used. I hereby warrant that I am the author of this Public Comment and that I have full power and authority to enter intothis copyright assignment.

By checking this box I affirm that I am David Little, and I agree to be legally bound by the above Copyright Assignment and the termsand conditions contained therein. I understand and intend that, by checking this box, I am creating an electronic signature that will, upon mysubmission of this form, have the same legal force and effect as a handwritten signature

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Public Comment No. 5-NFPA 1801-2016 [ Section No. 8.1.3.5 ]

8.1.3.5

Specimens shall be optimally focused to 1 m by the manufacturer for this test. If the thermal imagerincorporates a visible light camera or other sensor whose output is overlaid on to, or fused with, thethermal image, the sensor shall be disabled prior to conducting the test such that only the thermal imageoutput is used to influence Image Recognition Test results.

Statement of Problem and Substantiation for Public Comment

Recently, some thermal cameras have been designed and marketed that incorporate a visible light camera output overlaid on to the thermal image. While the fused image enhances the performance of thermal cameras in ambient light environments, especially for thermal cameras using low resolution FPAs, image enhancement using visible light sensors are not useful in smoke conditions.

Related Item

First Revision No. 42-NFPA 1801-2015 [Section No. 8.1.3.5]

Submitter Information Verification

Submitter NFPA UserID:

dalittle@mindspring.com

Submitter Full Name: David Little

Organization: NONE

Affilliation:NFPA ESE TECH COMMITTEE MEMBER - SUBJECT MATTEREXPERT

Telephone:

Street Address:

City:

State:

Zip:

Submittal Date: Mon May 16 00:00:45 EDT 2016

Copyright Assignment

I, David Little, hereby irrevocably grant and assign to the National Fire Protection Association (NFPA) all and full rights in copyright in thisPublic Comment (including both the Proposed Change and the Statement of Problem and Substantiation). I understand and intend that Iacquire no rights, including rights as a joint author, in any publication of the NFPA in which this Public Comment in this or another similar orderivative form is used. I hereby warrant that I am the author of this Public Comment and that I have full power and authority to enter intothis copyright assignment.

By checking this box I affirm that I am David Little, and I agree to be legally bound by the above Copyright Assignment and the termsand conditions contained therein. I understand and intend that, by checking this box, I am creating an electronic signature that will, upon mysubmission of this form, have the same legal force and effect as a handwritten signature

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***IMPORTANT: THIS DRAFT IS FOR TASK GROUP OR TECHNICAL COMMITTEE REVIEW ONLY AND HAS NOT YET ENTERED A REVISION CYCLE AND PROCESSED ACCORDING TO

THE REGULATIONS GOVERNING THE DEVELOPMENT OF NFPA STANDARDS***

NFPA 1802

Standard on Two‐Way, Portable RF Voice Communications Devices for Use by Emergency

Services Personnel in the Hazard Zone

20XX Edition

Chapter 1 Administration

1.1 Scope. This standard shall identify the operating environment parameters, as well as the minimum requirements for the design, performance, testing, and certification of two‐way, portable RF voice communications devices for use by emergency services personnel within the hazard zone during emergency incident operations without compromising compatibility with field emergency services communications networks. 1.1.1 This standard shall specify requirements for two‐way, portable RF voice communications devices for use by emergency services personnel. 1.1.2 Reserved. 1.1.3 Except where referenced by this standard, requirements for two‐way, portable RF voice communications devices of other standards shall not apply. 1.1.4 Any accessories or enhancements built into, attached to, or sold with the two‐way, portable RF voice communications device by the manufacturer for later attachment shall be tested with the two‐way, portable voice communications device with those accessories and enhancements installed or attached, as specified in Table 4.3.9, to ensure the performance and functions of the two‐way, portable RF voice communications device. 1.1.5 This standard shall not be construed as addressing all of the safety concerns, if any, associated with the use of this standard by testing facilities. It shall be the responsibility of the persons and organizations that use this standard to establish safety

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and health practices and to determine the applicability of regulatory limitations prior to use of this standard for designing, manufacturing, and testing. 1.1.6 Nothing herein shall restrict any jurisdiction or manufacturer from exceeding these minimum requirements. 1.2 Purpose.

1.2.1 The purpose of this standard shall be to establish minimum requirements for two‐way, portable RF voice communications devices. 1.2.2 Controlled laboratory tests used to determine compliance with the performance requirements of this standard shall not be deemed as establishing performance levels for all situations, environments, and conditions to which two‐way, portable RF voice communications devices could be exposed. 1.2.3 This standard shall not be interpreted or used as a detailed manufacturing or purchase specification, but it shall be permitted to be referenced in purchase specifications as minimum requirements. 1.3 Application.

1.3.1 This standard shall apply to all two‐way, portable RF voice communications devices for use by emergency services personnel. 1.3.2 This standard shall apply to the design, performance, manufacturing, testing, and certification of new two‐way, portable RF voice communications devices for use by emergency services personnel. 1.3.3 This standard shall not apply to any two‐way, portable RF voice communications devices manufactured in accordance with other standards. However, manufacturers shall be permitted to have noncompliant two‐way, portable RF voice communications devices modified to meet the requirements of this standard and become certified as compliant with this standard. 1.3.4* This standard shall not apply to accessories and enhancements that could be built into or attached to a certified two‐way, portable RF voice communications device before or after purchase but that are not necessary for the device to meet the requirements of this standard. 1.3.5* Any accessories, enhancements or optional components built into, attached to, or sold with the two‐way, portable RF voice communications device by the manufacturer for later attachment for use in the hazard zone shall be attached to the

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device or a test substitute as specified in Section XX when the device is tested as specified in Table 4.3.9 to ensure the performance and functions of the device. 1.3.6 This standard shall not apply to criteria for use of two‐way, portable RF voice communications devices by emergency services personnel. 1.4 Units.

1.4.1 In this standard, values for measurement are followed by an equivalent in parentheses, but only the first stated value shall be regarded as the requirement. 1.4.2 Equivalent values in parentheses shall not be considered as the requirement because those values are approximate.

Chapter 2 Referenced Publications 2.1 General. The documents or portions thereof listed in this chapter are referenced within this standard and shall be considered part of the requirements of this document. 2.2 NFPA Publications. National Fire Protection Association, 1 Batterymarch Park, Quincy, MA 02169‐7471. NFPA 1221, Standard for the Installation, Maintenance, and Use of Emergency Services Communications systems, 2016 Edition. NFPA 1500, Standard on Fire Department Occupational Safety and Health Program, 2018 Edition. NFPA 1801, Standard on Thermal Imagers for the Fire Service, 2018 Edition. NFPA 1971, Standard on Protective Ensembles for Structural Fire Fighting and Proximity Fire Fighting, 2018 Edition. NFPA 1981, Standard on Open‐Circuit Self‐Contained Breathing Apparatus (SCBA) for Emergency Services, 2018. 2.3 Other Publications. 2.3.1 ANSI Publications. American National Standards Institute, Inc., 25 West 43rd Street, 4th Floor, New York, NY 10036.

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ANSI/ISA S1.13, Methods for Measurement of Sound Pressure Level, 2005. ANSI S3.2 2009 (R2014) Method for Measuring the Intelligibility of Speech over Communication Systems. 2.3.2 ASME Publications. American Society of Mechanical Engineers, 3 Park Avenue, New York, NY 10016. ASME B46.1, 2009, Surface Texture (Surface Roughness, Waviness, and Lay). 2.3.3 ASTM Publications. ASTM International, 100 Barr Harbor Drive, P.O. Box C700, West Conshohocken, PA 19428‐ 2959. ASTM B117, Standard Practice for Operating Salt Spray (Fog) Apparatus, 2011. ASTM D1003, Standard Test Method for Haze and Luminous Transmittance of Transparent Plastics, 2013. ASTM F903, Standard Test Method for Resistance of Materials Used in Protective Clothing to Penetration by Liquids, 2010. 2.3.4 Bluetooth. Bluetooth SIG, Inc. Headquarters, 5209 Lake Washington Blvd NE, Suite 350, Kirkland, WA 98033. Bluetooth Core Specification version 4.0. 2.3.5 IEEE Publications. Institute of Electrical and Electronics Engineers, 445 Hoes Lane, Piscataway, NJ 08854‐4141. IEEE 802.15.1‐2002, IEEE Standard for Telecommunications and Information Exchange Between Systems – LAN/MAN – Specific Requirements – Part 15: Wireless Medium Access Control (MAC) and Physical Layer (PHY) Specifications for Wireless Personal Area Networks (WPANs). 2.3.6 ISO/IEC Publications. International Organization for Standardization, ISO Central Secretariat, BIBC II, Chemin de Blandonnet 8, CP401, 1214 Vernier, Geneva, Switzerland. ISO Guide 27, Guidelines for corrective action to be taken by a certification body in the event of misuse of its mark of conformity, 1983. ISO 9001, Quality management systems — Requirements, 2008. ISO 9001, Quality management systems — Requirements, 2015.

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ISO/IEC 17011, Conformity assessment — General requirements for accreditation bodies accrediting conformity assessment bodies, 2004. ISO/IEC 17021‐1:2015, Conformity assessment — Requirements for bodies providing audit and certification of management systems. ISO/IEC 17025, General requirements for the competence of testing and calibration laboratories, 2005, Technical Corrigendum 1, 2006. ISO/IEC Guide 17065:2012 Conformity assessment — Requirements for bodies certifying products, processes and services. ISO 17493, Clothing and equipment for protection against heat — Test method for convective heat resistance using a hot air circulating oven, 2000. IEC 60529, Degrees of protection provided by enclosures (IP Code) 2nd Edition, 2015. 2.3.7 NIST Publications. National Institute of Standards and Technology, 100 Bureau Drive, Stop 1070, Gaithersburg, MD 20899‐1070. NIST Technical Note 1477, Testing of Portable Radios in the firefighting environment, August 2006. NIST Technical Note 1850, Performance of Portable Radios exposed to elevated temperatures, September 2014. 2.3.8 Telecommunications Industry Association (TIA). 1320 North Courthouse Road, Suite 200 Arlington, VA 22201. TIA 102.CAAA‐E, Project 25 Digital C4FM/CQPSK Transceiver Measurement Methods. TIA 603‐E, Land Mobile FM or PM Communications Equipment Measurement and Performance Standards. TIA 4950, Requirements for Battery‐Powered, Portable Land Mobile Radio Applications in Class I, II, and III, Division 1, Hazardous (Classified) Locations. 2.3.9 UL Publications. 2.3.10 U.S. Government Publications. U.S. Government Publishing Office, 732 North Capitol Street, NW, Washington, DC 20401‐0001. Title 42, Code of Federal Regulations, Part 84, Respiratory Protective Devices, Tests for Permissibility, 8 June 1995.

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2.3.10 Other Publications. Merriam‐Webster’s Collegiate Dictionary, 11th edition, Merriam‐Webster, Inc., Springfield, MA, 2003. 2.4 References for Extracts in Mandatory Sections. (Reserved) Chapter 3 Definitions

3.1 General. The definitions contained in this chapter shall apply to the terms used in this standard. Where terms are not defined in this chapter or within another chapter, they shall be defined using their ordinarily accepted meanings within the context in which they are used. Merriam‐Webster’s Collegiate Dictionary, 11th edition, shall be the source for the ordinarily accepted meaning. 3.2 NFPA Official Definitions. 3.2.1* Approved. Acceptable to the authority having jurisdiction. 3.2.2* Authority Having Jurisdiction (AHJ). An organization, office, or individual responsible for enforcing the requirements of a code or standard, or for approving equipment, materials, an installation, or a procedure. 3.2.3 Labeled. Equipment or materials to which has been attached a label, symbol, or other identifying mark of an organization that is acceptable to the authority having jurisdiction and concerned with product evaluation, that maintains periodic inspection of production of labeled equipment or materials, and by whose labeling the manufacturer indicates compliance with appropriate standards or performance in a specified manner. 3.2.4* Listed. Equipment, materials, or services included in a list published by an organization that is acceptable to the authority having jurisdiction and concerned with evaluation of products or services, that maintains periodic inspection of production of listed equipment or materials or periodic evaluation of services, and whose listing states that either the equipment, material, or service meets appropriate designated standards or has been tested and found suitable for a specified purpose. 3.2.5 Shall. Indicates a mandatory requirement. 3.2.6 Should. Indicates a recommendation or that which is advised but not required.

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3.2.7 Standard. A document, the main text of which contains only mandatory provisions using the word “shall” to indicate requirements and which is in a form generally suitable for mandatory reference by another standard or code or for adoption into law. Nonmandatory provisions are not to be considered a part of the requirements of a standard and shall be located in an appendix, annex, footnote, informational note, or other means as permitted in the Manual of Style for NFPA Technical Committee Documents. 3.3 General Definitions. 3.3.1 Acceptable. Considered by the authority having jurisdiction (AHJ) as adequate for satisfying the goals, performance objectives, and/or performance criteria. 3.3.2 Accessory. An item, or items, that could be attached to a certified product, but are not necessary for the certified product to meet the requirements of the standard. 3.3.4 Activation Time. The time set for a communication event to transpire. 3.3.5 Alarm Signal. An audible warning that is identifiable as an indication that an emergency services person is in need of assistance. 3.3.5.2 Loss‐of‐Signal Alarm. An audible or visual signal that is initiated automatically when the communication between a base station and RF communications device is lost. The loss‐of‐signal alarm warns emergency services personnel that their RF communications device is no longer in radio communication with the base station. 3.3.56 Out‐of‐Range Indication. An audible signal that is initiated automatically when the communication between a base station and land mobile radio is lost. The out‐of‐range indication warns emergency services personnel that their land mobile radio is no longer in communication with the base station. 3.3.6 American National Standards Institute (ANSI). Founded in 1918, the Institute oversees the creation, promulgation and use of thousands of norms and guidelines that directly impact businesses in nearly every sector: from acoustical devices to construction equipment, from dairy and livestock production to energy distribution, and many more. ANSI is also actively engaged in accrediting programs that assess conformance to standards – including globally‐recognized cross‐sector programs such as the ISO 9000 (quality) and ISO 14000 (environmental) management systems. 3.3.7 Attached. 3.3.8 Attached. [As related to electronics]

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3.3.9 Background Functions. 3.3.10 Background Functions. [As related to electronics] 3.3.11 Black body. An object that absorbs all electromagnetic radiation that falls onto it; no radiation passes through the object and none is reflected. 3.3.12 Bluetooth. A wireless technology that allows data communications between

devices over short ranges (1 to 100 meters). Bluetooth is defined in the IEEE standard

802.15.1.

3.3.13 Certification/Certified. A system whereby a certification organization determines that a manufacturer has demonstrated the ability to produce a product that complies with the requirements of this standard, authorizes the manufacturer to use a label on listed products that comply with the requirements of this standard, and establishes a follow‐up program conducted by the certification organization as a check on the methods the manufacturer uses to determine continued compliance of labeled and listed products with the requirements of this standard. 3.3.14 Certification Organization. An independent third‐party organization that determines product compliance with the requirements of this standard using product testing and evaluation and that administers a labeling, listing, and follow‐up program. 3.3.15 Channel. (1) An assigned operation range of frequencies. (2) A user selectable frequency pair used for radio communications 3.3.16 Char. The formation of a brittle residue when material is exposed to thermal energy. 3.3.17 Class I, Division. A Class I, Division 1 Location. (1) A location in which ignitable concentrations of flammable gases, flammable liquid–produced vapors, or combustible liquid–produced vapors can exist under normal operating conditions. (2) A location in which ignitable concentrations of such flammable gases, flammable liquid–produced vapors, or combustible liquids above their flash points may exist frequently because of repair or maintenance operations or because of leakage. (3) A location in which breakdown or faulty operation of equipment or processes might release ignitable concentrations of flammable gases, flammable liquid–produced vapors, or combustible liquid–produced vapors and might also cause simultaneous failure of electrical equipment in such a way as to directly cause the electrical equipment to become a source of ignition. 3.3.18 Class I, Division 2. A Class I, Division 2 Location. (1) A location in which volatile flammable gases, flammable liquid–produced vapors, or combustible liquid–produced vapors are handled, processed, or used, but in which the liquids, vapors, or gases will

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normally be confined within closed containers or closed systems from which they can escape only in case of accidental rupture or breakdown of such containers or systems or in case of abnormal operation of equipment. (2) A location in which ignitable concentrations of flammable gases, flammable liquid–produced vapors, or combustible liquid–produced vapors are normally prevented by positive mechanical ventilation, and which might become hazardous through failure or abnormal operation of the ventilating equipment. (3) A location that is adjacent to a Class I, Division 1 location, and to which ignitable concentrations of flammable gases, flammable liquid–produced vapors, or combustible liquid–produced vapors above their flash points might occasionally be communicated unless such communication is prevented by adequate positive‐pressure ventilation from a source of clean air and effective safeguards against ventilation failure. 3.3.19 Class II, Division 1. A Class II, Division 1 Location. (1) A location in which combustible dust is in the air under normal operating conditions in quantities sufficient to produce explosive or ignitable mixtures. (2) A location where mechanical failure or abnormal operation of machinery or equipment might cause such explosive or ignitable mixtures to be produced, and might also provide a source of ignition through simultaneous failure of electric equipment, through operation of protection devices, or from other causes. (3) A location in which Group E combustible dusts may be present in quantities sufficient to be hazardous. 3.3.20 Communications Device. A device that is used for the transmission and reception

of voice, data, telemetry, or control information.

3.3.21 Compliance/Compliant. Meeting or exceeding all applicable requirements of this standard. 3.3.22 Compliant Product. Equipment that is certified to the applicable NFPA standard. 3.3.23 Component. Any material, part, or subassembly used in the construction of the compliant product. 3.3.24 Department of Homeland Security (DHS). The Department of Homeland Security’s mission is to secure the nation from the many threats we face. This requires the dedication of employees in jobs that range from aviation and border security to emergency response, from cyber security analyst to chemical facility inspector.

3.3.25 Drip. To run or fall in drops or blobs. 3.3.26 Emergency Alert Button (EAB). Electronic device button to assist in alerting of an emergency.

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3.3.27 Emergency Activation Time. The amount of time from when a user initiates emergency mode until the radio enters Emergency mode 3.3.28 Emergency ID. Unit Identification of a radio in an emergency state. 3.3.29 Emergency State/Mode. State of a radio after a user has declared an Emergency condition, usually characterized by a particular set of behaviors, displays and/or audible alerts. 3.3.30 Evacuation Alarm. An alarm initiated by a base station, transmitted to RF communications device. The evacuation alarm warns emergency services personnel to evacuate the premises. 3.3.31 Extreme Temperature Exposure. An exposure to a temperature of 150 degrees

Celsius (300 degrees Fahrenheit) or more for a period of greater than 5 seconds.

3.3.32 Failure Mode and Effects Analysis (FMEA). A risk assessment technique for systematically identifying potential failures in a system or a process. 3.3.33 Federal Communications Commission (FCC). The FCC was formed by the Communications Act of 1934. The FCC's mandated to regulate interstate and international communications by radio, television, wire, satellite and cable in all 50 states, the District of Columbia and U.S. territories. An independent U.S. government agency overseen by Congress, the commission is the United States' primary authority for communications law, regulation and technological innovation. 3.3.34 Federal Emergency Management Agency (FEMA). The Federal Emergency Management Agency coordinates the federal government's role in preparing for, preventing, mitigating the effects of, responding to, and recovering from all domestic disasters, whether natural or man‐made, including acts of terror. FEMA can trace its beginnings to the Congressional Act of 1803. FEMA’s mission is to support our citizens and first responders to ensure that as a nation we work together to build, sustain and improve our capability to prepare for, protect against, respond to, recover from and mitigate all hazards. 3.3.35 Hazard Zone Mode. (1) A setting in the unit that forces a group of features and parameters, which are identified throughout this document, required for use in the IDLH zone. (2) Communication features utilized in the area of emergency operations. 3.3.36 Factory Mutual Approvals (FM). Part of the FM Global group, founded in 1835, FM Approvals offers certification and testing services to manufacturers of fire protection equipment, electrical equipment, hazardous location equipment, fire detection, signaling and other electrical equipment, materials, roofing products and smoke detection.

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3.3.37 Follow‐Up Program. The sampling, inspections, tests, or other measures conducted by the certification organization on a periodic basis to determine the continued compliance of labeled and listed products that are being produced by the manufacturer to the requirements of this standard. 3.3.38 Grayscale. A range of gray shades from white to black, as used in a monochrome display or printout. [Note: if committee decides to keep the following Figure, will need a title and explanation as to what the numbers indicate].

Grey Gray

#D3D3D3 #808080

211 211 211

128 128 128

3.3.39 Handover. The process of maintaining active session(s) as the user’s equipment moves, traversing parts of the network’s coverage area that are served by different cells. Handover allows sessions associated with user’s equipment to be transferred from one cell site to another cell site in the wireless network. 3.3.40 Hazardous Area. An area of a structure or building that poses a degree of hazard greater than that normal to the general occupancy of the building or structure. 3.3.41 Hazardous (Classified) Location (HAZLOC). A location that is classified based on the properties of the flammable vapors, liquids, or gases, or combustible dusts or fibers that might be present and the likelihood that a flammable or combustible concentration or quantity is present. 3.3.42* Hazard Zone. (1) An area or location of an actively involved fire event or recently extinguished hot zone that requires entry by first responders. (2) The physical area where protective clothing is required to conduct emergency response activities.

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3.3.43 HazLoc Certified Equipment. Equipment certified to be used in a specific

Hazardous (Classified) Location by any of the applicable protection methods standards.

There are a wide variety of protection methods and multiple levels of classified

locations. Equipment must be suitable to its specific usage. Acceptance is governed by

the local Authority Having Jurisdiction (AHJ).

3.3.44 HazLoc Scene. A location or area that is likely to have gases, combustible dusts,

or fibers in a flammable or combustible concentration or quantity due to a spontaneous

accidental event.

3.3.45 Head and Torso Simulator (HATS). A mannequin with built‐in ear and mouth simulators that provides a realistic reproduction of the acoustic properties of an average adult human head and torso. 3.3.46 Icon. A symbol that represents an option, program, or system status. 3.3.47 Licensing Authority. 3.3.48 Non‐Hazard Zone Mode. A mode of operation of the device, as defined by the AHJ, which has different operational features than the hazard zone mode of operation. This mode would be used when first responders are performing administrative, training, inspections, or other duties not in the hazard zone. 3.3.49 Interruption time. The length of time that it takes to switch between the two cell sites. 3.3.50 Intrinsic Safety “i.” Type of protection where any spark or thermal effect is incapable of causing ignition of a mixture of flammable or combustible material in air under prescribed test conditions. 3.3.51 Intrinsically Safe Apparatus. Apparatus in which all the circuits are intrinsically safe. 3.3.52 Intrinsically Safe Circuit. A circuit in which any spark or thermal effect is incapable of causing ignition of a mixture of flammable or combustible material in air under prescribed test conditions. 3.3.53 Intrinsically Safe System. An assembly of interconnected intrinsically safe apparatus, associated apparatus, and interconnecting cables, in that those parts of the system that may be used in hazardous (classified) locations are intrinsically safe circuits.

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3.3.54 Land Mobile Radio (LMR). A portable wireless communication device. 3.3.55 Licensing Authority. The government agency, usually at the federal level of a

country or other geo‐political entity, that licenses radio frequency equipment for

manufacture and/or use within its jurisdiction.

3.3.56 Out‐of‐Range Indication. An audible signal that is initiated automatically when the communication between a base station and land mobile radio is lost. The out‐of‐range indication warns emergency services personnel that their land mobile radio is no longer in communication with the base station. 3.3.57 Manufacturer. The entity that directs and controls any of the following: compliant product design, compliant product manufacturing, or compliant product quality assurance; or the entity that assumes liability for the compliant product or provides the warranty for the compliant product. 3.3.58 MDC. An early form of digital signaling that used audio frequency shift keying. 3.3.59 Melt. A response to heat by a material resulting in evidence of flowing or dripping. 3.3.53 Microphone Measurement Point (MMP). A point 1.5 m in front of and on the axis of the lip position of typical human mouth (or artificial mouth) and 1.5 m above the floor. 3.3.54 Mobile. A communications device that is mounted in a vehicle.

3.3.55 Mobility management. Mobility management is a key element of the Nationwide Public Safety Broadband Network (NPSBN) that allows user equipment to work across the network. The aim of mobility management is to track where the user equipment is allowing services to be delivered to the user equipment. 3.3.56 Mode. A means of categorizing a collection of features used in a specific

operational situation. Such features could include a radio channel, talk paths in a

conventional system or a talkgroup in a trunked system, a CTCSS tone, an encryption

type, or another feature.

3.3.57 Model. The collective term used to identify a group of individual elements or items of the same basic design and components from a single manufacturer produced by the same manufacturing and quality assurance procedures that are covered by the same certification.

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3.3.58 Mouth Reference Point (MRP). A point 50 mm in front of and on the axis of the lip position of a typical human mouth (or artificial mouth). 3.3.59 National Institute for Standards and Technology (NIST). Founded in 1901 and part of the U.S. Department of Commerce, NIST is one of the nation's oldest physical science laboratories. Congress established the agency. 3.3.60 Nonincendive. Electrical equipment and associated wiring that are incapable, under normal operating conditions, of releasing sufficient electrical or thermal energy to cause ignition of specific hazardous materials in their most easily ignited concentrations in air. 3.3.61 Nonincendive Circuit. A circuit, other than field wiring, in which any arc or thermal effect produced under intended operating conditions of the equipment, is not capable, under specified test conditions, of igniting the flammable gas–air, vapor–air, or dust–air mixture. 3.3.62 Nonincendive Component. A component having contacts for making or breaking an incendive circuit and the contacting mechanism is constructed so that the component is incapable of igniting the specified flammable gas–air or vapor–air mixture. The housing of a nonincendive component is not intended to exclude the flammable atmosphere or contain an explosion. 3.3.63 Nonincendive Equipment. Equipment having electrical/electronic circuitry that is incapable, under normal operating conditions, of causing ignition of a specified flammable gas–air, vapor–air, or dust–air mixture due to arcing or thermal means incapable, under normal operating conditions, of causing ignition of a specified flammable gas–air, vapor–air, or dust–air mixture due to arcing or thermal means. 3.3.64 National Public Safety Telecommunications Council (NPSTC). The National Public Safety Telecommunications Council is a federation of organizations whose mission is to improve public safety communications and interoperability through collaborative leadership. 3.3.65 Office of Emergency Communications (OEC). 3.3.66 Occupational, Safety & Health Administration (OSHA). 3.3.68 PESQ. Perceptual Evaluation of Speech Quality, is a subjective test process for

speech quality on telecommunications equipment which can be automated. PESQ is

defined in the ITU –T recommendation P.862 (O2/01).

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3.3.69 Pink Noise. Noise that contains constant energy per octave band. 3.3.70 Portable. A communications device that is either carried by an individual or worn

on the body.

3.3.71 Product. See 3.3.22, Compliant Product. 3.3.72 Product Label. A marking provided by the manufacturer for each compliant product containing compliant statements, certification statements, manufacturer and model information, or similar data. The product label is not the certification organization’s label, symbol, or identifying mark; however, the certification organization’s label, symbol, or identifying mark is attached to or is part of the product label. 3.3.73 Programmable Features. A feature or function that can be enabled or disabled by programming the Land Mobile Radio prior to operation. 3.3.74 Rating. 3.3.75 RF Interference. An unwanted radio‐frequency signal. 3.3.76 RF Transceiver. A radio system capable of both transmitting and receiving a modulated radio‐frequency (RF) signal that is then converted to an audio and/or data signal; used to transmit and receive signals. 3.3.77 Roaming. The process supporting the movement of the user’s equipment outside the geographical coverage area of its home network. 3.3.78 Remote Speaker/Device Microphone (RSM/RSD). A device that places the radio microphone and speaker remotely from the radio and near the face of the user. 3.3.79 Safety Alert. The procedure by which a manufacturer notifies users, the marketplace, and distributors of potential safety concerns regarding a product. 3.3.80 Sample. (1) The ensemble, element, component, or composite that is conditioned for testing. (2) Ensembles, elements, items, or components that are randomly selected from the manufacturer’s production line, from the manufacturer’s inventory, or from the open market.

3.3.81 Sensitivity. The degree of response of a receiver or instrument to an incoming signal or to a change in the incoming signal.

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3.3.82 Sensitivity Mode. An operational function that relates to the degree to which temperature differences are resolved. 3.3.83 Service Life. The period for which compliant product may be useful before retirement. 3.3.84 Sound Pressure Level (SPL). The local pressure deviation from the ambient (average, or equilibrium) atmospheric pressure caused by a sound wave. 3.3.85 Specimen. The conditioned ensemble, element, item, or component that is tested. Specimens are taken from samples. 3.3.86 Speech Transmission Index (STI). A measure of intelligibility of speech quality on a scale of intelligibility, whose values vary from 0 (completely unintelligible) to 1 (perfect intelligibility). 3.3.87 Talk group. A working group of users who communicate as a team and to whom it is important that every team member hear every transmission from any other team member, and every team member be able to initiate a transmission to the other team members. Talk groups may also have some unique and common features, such as a priority level of transmission, a common encryption code, etc. Talk groups are typically associated with trunked radio systems, as opposed to conventional radio systems that do not use trunking techniques. 3.3.88 TSBK (Trunking Signaling Block). A form of signaling that uses the P25 digital protocol for ID, emergency, and similar messages. 3.3.89 Telecommunications Industry Association (TIA). The Telecommunications Industry Association is the leading trade association representing the global information and communications technology industry through standards development, policy initiatives, business opportunities, market intelligence and networking events. TIA is accredited by the American National Standards Institute (ANSI) as a standards developing organization.

3.3.90 Transient HazLoc Use. Use case defined by the temporary carrying of active portable devices through a Hazardous (Classified) Location. Example, a portable Land Mobile Radio carried by a security guard through both Classified and non Classified areas as part of a daily routine, which spends the majority of its time in an unclassified location.

3.3.91 Underwriters’ Laboratories (UL). Founded in 1894, UL certifies, validates, tests, inspects, audits, advises, and trains. They provide knowledge and expertise to help

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customers navigate growing complexities across the supply chain from compliance and regulatory issues to trade challenges and market access. 3.3.92 United States Fire Administration (USFA). As an entity of the Department of Homeland Security's Federal Emergency Management Agency, the mission of the USFA is to provide national leadership to foster a solid foundation for our fire and emergency services stakeholders in prevention, preparedness, and response. 3.3.93 Zone. (1) A geographically defined area where communications are transmitted and received. (2) A collection of channels, talk groups or talk paths. Chapter 4 Certification 4.1 General. 4.1.1 For the process of certification of two‐way, portable voice communications device as being compliant with NFPA 1802, all two‐way, portable voice communications devices shall meet the requirements of Section 4.1, General; Section 4.2, Certification Program; Section 4.3, Inspection and Testing; Section 4.4, Annual Verification of Product Compliance; Section 4.5, Manufacturers’ Quality Assurance Program; Section 4.6, Hazards Involving Compliant Product; Section 4.7, Manufacturers’ Investigation of Complaints and Returns; and Section 4.8, Manufacturers’ Safety Alert and Product Recall Systems. 4.1.2 All certification shall be performed by a certification organization that meets the requirements specified in Section 4.2, Certification Program, and that is accredited for personal protective equipment in accordance with ISO 17065, Conformity assessment ‐ Requirements for bodies certifying products, processes and services. The accreditation shall be issued by an accreditation body operating in accordance with ISO 17011, Conformity assessment— General requirements for accreditation bodies accrediting conformity assessment bodies. 4.1.3 Manufacturers shall not claim compliance with portions or segments of the requirements of this standard and shall not use the NFPA name or the name or identification of this standard, NFPA 1802, in any statements about their respective product(s) unless the product(s) is certified as compliant with all applicable requirements of this standard. 4.1.4 Where two‐way, portable voice communications devices are compliant, the product shall be labeled and listed.

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4.1.5 Where two‐way, portable voice communications devices are compliant, the product shall also have a product label that meets the requirements specified in Section 5.1, Product Label Requirements. 4.1.6 The certification organization’s label, symbol, or identifying mark shall be attached to the product label, shall be part of the product label, or shall be immediately adjacent to the product label. 4.2 Certification Program. 4.2.1 The certification organization shall not be owned or controlled by the manufacturers or vendors of the product being certified. 4.2.2 The certification organization shall be primarily engaged in certification work and shall not have a monetary interest in the product’s ultimate profitability. 4.2.3 The certification organization shall be accredited for personal protective equipment in accordance with ISO 17065, Requirements for bodies certifying products, processes and services. The accreditation shall be issued by an accreditation body operating in accordance with ISO 17011, Conformity assessment— General requirements for accreditation bodies accrediting conformity assessment bodies. 4.2.4 The certification organization shall refuse to certify products to this standard that do not comply with all applicable requirements of this standard. 4.2.5 The contractual provisions between the certification organization and the manufacturer shall specify that certification is contingent on compliance with all applicable requirements of this standard. 4.2.5.1 The certification organization shall not offer or confer any conditional, temporary, or partial certifications. 4.2.5.2 Manufacturers shall not be authorized to use any label or reference to the certification organization on products that are not compliant with all applicable requirements of this standard. 4.2.6 The certification organization shall have laboratory facilities and equipment available for conducting required tests to determine product compliance. 4.2.6.1 The certification organization laboratory facilities shall have a program in place and functioning for calibration of all instruments, and procedures shall be in use to ensure accurate control of all testing.

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4.2.6.2 The certification organization laboratory facilities shall follow good practice regarding the use of laboratory manuals, form data sheets, documented calibration and calibration routines, performance verification, proficiency testing, and staff qualification and training programs. 4.2.7 The certification organization shall require the manufacturer to establish and maintain a quality assurance program that meets the requirements of Section 4.5, Manufacturers’ Quality Assurance Program. 4.2.7.1 The certification organization shall require the manufacturer to have a product recall system specified in Section 4.8, Manufacturers’ Safety Alert and Product Recall Systems, as part of the manufacturers’ quality assurance program. 4.2.7.2 The certification organization shall audit the manufacturer’s quality assurance program to ensure that the quality assurance program provides continued product compliance with this standard. 4.2.8 The certification organization and the manufacturer shall evaluate any changes affecting the form, fit, or function of the compliant product to determine its continued certification to this standard. 4.2.9 The certification organization shall have a follow‐up inspection program of the manufacturer’s facilities of the compliant product with at least two random and unannounced visits per 12‐month period to verify the product’s continued compliance. 4.2.9.1 As part of the follow‐up inspection program, the certification organization shall select samples of the compliant product at random from the manufacturer’s production line, from the manufacturer’s in‐house stock, or from the open market. 4.2.9.2 Samples shall be evaluated by the certification organization to verify the product’s continued compliance in order to ensure that the materials, components, and manufacturing quality assurance systems are consistent with the materials, components, and manufacturing quality assurance that were inspected and tested by the certification organization during initial certification and recertification. 4.2.9.3 The certification organization shall be permitted to conduct specific testing to verify the product’s continued compliance. 4.2.9.4 For products, components, and materials where prior testing, judgment, and experience of the certification organization have shown results to be in jeopardy of not complying with this standard, the certification organization shall conduct more frequent testing of sample product, components, and materials acquired in accordance with 4.2.9.1 against the applicable requirements of this standard.

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4.2.10 The certification organization shall have in place a series of procedures, as specified in Section 4.6, Hazards Involving Compliant Product, that address reports of situations in which a compliant product is subsequently found to be hazardous. 4.2.11 The certification organization’s operating procedures shall provide a mechanism for the manufacturer to appeal decisions. The procedures shall include the presentation of information from both sides of a controversy to a designated appeals panel. 4.2.12 The certification organization shall be in a position to use legal means to protect the integrity of its name and label. The name and label shall be registered and legally defended. 4.3 Inspection and Testing. 4.3.1 For both initial certification and recertification of compliant products, the certification organization shall conduct both inspection and testing as specified in this section. 4.3.2 All inspections, evaluations, conditioning, and testing for certification or for recertification shall be conducted by a certification organization’s testing laboratory that is accredited in accordance with the requirements of ISO 17025, General requirements for the competence of testing and calibration laboratories. 4.3.2.1 The certification organization’s testing laboratory’s scope of accreditation to ISO 17025, General requirements for the competence of testing and calibration laboratories, shall encompass testing of two‐way, portable voice communications devices. 4.3.2.2 The accreditation of a certification organization’s testing laboratory shall be issued by an accreditation body operating in accordance with ISO 17011, Conformity assessment— General requirements for accreditation bodies accrediting conformity assessment bodies. 4.3.3 A certification organization shall be permitted to utilize conditioning and testing results conducted by a product or component manufacturer for certification or recertification, provided the manufacturer’s testing laboratory meets the requirements specified in 4.3.3.1 through 4.3.3.5. 4.3.3.1 The manufacturer’s testing laboratory shall be accredited in accordance with the requirements of ISO 17025, General requirements for the competence of testing and calibration laboratories. 4.3.3.2 The manufacturer’s testing laboratory’s scope of accreditation to ISO 17025, General requirements for the competence of testing and calibration laboratories, shall encompass testing of two‐way, portable voice communications devices.

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4.3.3.3 The accreditation of a manufacturer’s testing laboratory shall be issued by an accreditation body operating in accordance with ISO 17011, Conformity assessment — General requirements for accreditation bodies accrediting conformity assessment bodies. 4.3.3.4 The certification organization shall approve the manufacturer’s testing laboratory. 4.3.3.5 The certification organization shall determine the level of supervision and witnessing of the conditioning and testing for certification or recertification conducted at the manufacturer’s testing laboratory. 4.3.4 Sampling levels for testing and inspection shall be established by the certification organization and the manufacturer to ensure a reasonable and acceptable reliability at a reasonable and acceptable confidence level that products certified to this standard are compliant, unless such sampling levels are specified herein. 4.3.5 Inspection and evaluation by the certification organization shall include a review of all product labels to ensure that all required label attachments, compliance statements, certification statements, and other product information are at least as specified for two‐way, portable voice communications devices in Section 5.1, Product Label Requirements. 4.3.6 Inspection and evaluation by the certification organization shall include an evaluation of any symbols and pictorial graphic representations used on product labels or in user information, as permitted in 5.1.5, to ensure that the symbols are clearly explained in the product’s user information package. 4.3.7 Inspection and evaluation by the certification organization shall include a review of the user information required by Section 5.2, User Information, to ensure that the information has been developed and is available. 4.3.8 Inspection and evaluation by the certification organization for determining compliance with the design requirements specified in Chapter 6 shall be performed on whole or complete products. 4.3.9 Testing to determine compliance of the two‐way, portable voice communications device and the components that are necessary for the proper operation of the two‐way, portable voice communications devices with the performance requirements specified in Chapter 7 shall be conducted by the certification organization in accordance with the specified testing requirements of Chapter 8. The order of testing shall be conducted as specified in Table 4.3.9.

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Table 4.3.9 Test Matrix Table

Specimen 1‐3 Specimen 4‐6 Specimen 7‐9 Specimen 10‐12 Specimen 13‐15 Specimen 16‐18 Specimen 19‐21

Heat / Flame (Section 8.9)

Vibration Resistance (Section 8.4)

Impact Accelerated Resistance Test (Section 8.5)

Water Drainage Resistance Test (Section 8.13)

Case Integrity (Section 8.12)

TIA Transmit Power (Section 8.15)

Durability Resistance (Section

8.14)

PESQ (Section 8.2) PESQ (Section 8.2) PESQ (Section 8.2) PESQ (Section 8.2) Heat Resistance (Section 8.8)

TIA Frequency Drift (Section 8.16)

PESQ (Section 8.2)

Cable Pull Out Test

(Section 8.11) Corrosion Resistance Test (Section 8.6)

PESQ (Section 8.2) TIA Receiver

Sensitivity (Section 8.17)

Label Durability and Legibility (Section

8.10)

PESQ (Section 8.2) Label Durability and Legibility (Section

8.10)

Label Durability and Legibility (Section

8.10)

Heat and Immersion Leakage Resistance

(Section 8.3)

PESQ (Section 8.2) PESQ (Section 8.2)

4.3.9.1 Testing shall be performed on new two‐way, portable voice communications devices. 4.3.9.2 Testing shall be performed on specimens representative of materials and components used in the actual construction of the compliant product. 4.3.9.3 The certification organization also shall be permitted to use sample materials cut from a representative product. 4.3.9.4 Where any manufacturer‐supplied accessories, enhancements or optional components are built into, attached to, or detachable from the two‐way, portable voice communications devices for use in the hazard zone, the certification organization shall inspect and evaluate the two‐way, portable voice communications devices as specified in Chapter 6 and shall test the two‐way, portable voice communications devices as specified in Chapter 8. 4.3.9.5 The two‐way, portable voice communications devices shall meet all the performance requirements specified in Chapter 7 with those accessories and enhancements installed or attached to ensure that the performance and functions of the two‐way, portable voice communications devices are not reduced or otherwise negatively affected.

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4.3.10 The certification organization shall accept from the manufacturer, for evaluation and testing for certification, only product or product components that are the same in every respect as the actual final product or product component. 4.3.11 The certification organization shall not allow any modifications, pretreatment, conditioning, or other such special processes of the product or any product component prior to the product’s submission for evaluation and testing by the certification organization. 4.3.12 The certification organization shall not allow the substitution, repair, or modification, other than as specifically permitted herein, of any product or any product component during testing. 4.3.13 The certification organization shall not allow test specimens that have been conditioned and tested for one method to be reconditioned and tested for another test method unless specifically permitted in the test method. 4.3.14 Material changes in the form, fit, or function of a compliant product shall necessitate new inspection and testing to verify compliance to all applicable requirements of this standard that the certification organization determines can be affected by such change. This recertification shall be conducted before labeling the modified product as being compliant with this standard. 4.3.15 The manufacturer shall maintain all design, performance, inspection, and test data from the certification organization used in the certification of the manufacturer’s compliant product. The manufacturer shall provide such data, upon request, to the purchaser or authority having jurisdiction (AHJ). 4.4 Annual Verification of Product Compliance. 4.4.1 All two‐way, portable voice communications devices that are certified as compliant with this standard shall undergo recertification on an annual basis. This recertification shall include the following: (1) Inspection and evaluation to all design requirements as required by this standard on all manufacturer’s models and components (2) Testing to all performance requirements as required by this standard on all manufacturer’s models and components within the following protocol: (a) Where a test method incorporates testing both before and after preconditioning and the test generates quantitative results, recertification testing shall be limited to the conditioning that yielded the worst case test result during the initial certification for the model or component.

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(b) Where a test method requires testing of three specimens, a minimum of one specimen shall be tested for annual recertification. (c) Where a test method requires testing of five or more specimens, a minimum of two specimens shall be tested for annual recertification. 4.4.2 Samples of manufacturer’s models and components for recertification acquired from the manufacturer or a component supplier during random and unannounced visits as part of the follow‐up inspection program in accordance with 4.2.9 shall be permitted to be used toward annual recertification. 4.4.3 The manufacturer shall maintain all design, performance inspections and test data from the certification organization used in the recertification of manufacturer’s models and components. The manufacturer shall provide such data, upon request, to the purchaser or AHJ. 4.5 Manufacturers’ Quality Assurance Program. 4.5.1 The manufacturer shall provide and operate a quality assurance program that meets the requirements of this section and that includes a product recall system as specified in 4.2.7.1 and Section 4.8, Manufacturers’ Safety Alert and Product Recall Systems. 4.5.2 The operation of the quality assurance program shall evaluate and test compliant product production to the requirements of this standard to ensure that production remains in compliance. 4.5.3 The manufacturer shall be registered to ISO 9001, Quality management systems — Requirements. 4.5.3.1 Registration to the requirements of ISO 9001, Quality management systems — Requirements, shall be conducted by a registrar that is accredited for personal protective equipment in accordance with ISO/IEC 17021, Conformity assessment – Requirements for bodies providing audit and certification of management systems. 4.5.3.2 The scope of the ISO registration shall include at least the design and manufacturing systems management for the personal protective equipment being certified. 4.5.3.3 The registrar shall affix the accreditation mark on the ISO registration certificate. 4.5.4 Any entity that meets the definition of manufacturer specified in 3.3.15 and therefore is considered to be the “manufacturer” but does not manufacture or assemble the compliant product shall meet the requirements specified in Section 4.5.

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4.5.5 Where the manufacturer uses subcontractors in the construction or assembly of the compliant product, the locations and names of all subcontractor facilities shall be documented, and the documentation shall be provided to the manufacturer’s ISO registrar and the certification organization. 4.6 Hazards Involving Compliant Product. 4.6.1 The certification organization shall establish procedures to be followed where situation(s) are reported in which a compliant product is subsequently found to be hazardous. These procedures shall comply with the provisions of ISO 27, Guidelines for corrective action to be taken by a certification body in the event of misuse of its mark of conformity, and as modified herein. 4.6.2 Where a report of a hazard involved with a compliant product is received by the certification organization, the validity of the report shall be investigated. 4.6.3 With respect to a compliant product, a hazard shall be a condition, or create a situation, that results in exposing life, limb, or property to a dangerous or imminently dangerous condition. 4.6.4 Where a specific hazard is identified, the determination of the appropriate action for the certification organization and the manufacturer to undertake shall take into consideration the severity of the hazard and its consequences to the safety and health of users. 4.6.5 Where it is established that a hazard is involved with a compliant product, the certification organization shall determine the scope of the hazard, including products, model numbers, serial numbers, factory production facilities, production runs, and quantities involved. 4.6.6 The certification organization’s investigation shall include, but not be limited to, the extent and scope of the problem as it might apply to other compliant product or compliant product components manufactured by other manufacturers or certified by other certification organizations. 4.6.7 The certification organization shall also investigate reports of a hazard where compliant product is gaining widespread use in applications not foreseen when the standard was written. Such applications in turn being ones for which the product was not certified, and no specific scope of application has been provided in the standard, and no limiting scope of application was provided by the manufacturer in written material accompanying the compliant product at the point of sale. 4.6.8 The certification organization shall require the manufacturer of the compliant product or the manufacturer of the compliant product component if applicable, to assist

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the certification organization in the investigation and to conduct its own investigation as specified in Section 4.7, Manufacturers’ Investigation of Complaints and Returns. 4.6.9 Where the facts indicating a need for corrective action are conclusive and the certification organization’s appeal procedures referenced in 4.2.12 have been followed, the certification organization shall initiate corrective action immediately, provided there is a manufacturer to be held responsible for such action. 4.6.10 Where the facts are conclusive and corrective action is indicated, but there is no manufacturer to be held responsible, such as when the manufacturer is out of business or the manufacturer is bankrupt, the certification organization shall immediately notify relevant governmental and regulatory agencies and issue a notice to the user community about the hazard. 4.6.11 Where the facts are conclusive and corrective action is indicated, the certification organization shall take one or more of the following corrective actions: (1) Parties authorized and responsible for issuing a safety alert shall be notified when, in the opinion of the certification organization, such a safety alert is necessary to inform the users. (2) Parties authorized and responsible for issuing a product recall shall be notified when, in the opinion of the certification organization, such a recall is necessary to protect the users. (3) The mark of certification shall be removed from the product. (4) Where a hazardous condition exists and it is not practical to implement the corrective actions in 4.6.11(1), 4.6.11(2), or 4.6.11(3) or where the responsible parties refuse to take corrective action, the certification organization shall notify relevant governmental and regulatory agencies and issue a notice to the user community about the hazard. 4.6.12 The certification organization shall provide a report to the organization or individual identifying the reported hazardous condition and notify that organization or individual of the corrective action indicated or that no corrective action is indicated. 4.7 Manufacturers’ Investigation of Complaints and Returns. 4.7.1 Manufacturers shall provide corrective action in accordance with ISO 9001, Quality management systems — Requirements, for investigating written complaints and returned products. 4.7.2 Manufacturers’ records of returns and complaints related to safety issues shall be retained for at least 5 years.

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4.7.3 Where the manufacturer discovers, during the review of specific returns or complaints, that a compliant product or compliant product component can constitute a potential safety risk to end users and is possibly subject to a safety alert or product recall, the manufacturer shall immediately contact the certification organization and provide all information about its review to assist the certification organization with the investigation. 4.8 Manufacturers’ Safety Alert and Product Recall Systems. 4.8.1 Manufacturers shall establish a written safety alert system and a written product recall system that describes the procedures to be used in the event that they decide or are directed by the certification organization to either issue a safety alert or conduct a product recall. 4.8.2 The manufacturers’ safety alert and product recall systems shall provide the following: (1) The establishment of a coordinator and responsibilities by the manufacturer for the handling of safety alerts and product recalls (2) A method of notifying all dealers, distributors, purchasers, users, and the NFPA about the safety alert or product recall that can be initiated within 1 week following the manufacturer’s decision to issue a safety alert or to conduct a product recall or after the manufacturer has been directed by the certification organization to issue a safety alert or conduct a product recall (3) Techniques for communicating accurately and understandably the nature of the safety alert or product recall and, in particular, the specific hazard or safety issue found to exist (4) Procedures for removing product that is recalled and for documenting the effectiveness of the product recall (5) A plan for repairing or replacing product or for compensating purchasers for returned product Chapter 5 Product Labeling and Information 5.1 Product Label Requirements. 5.1.1 Each compliant two‐way, portable voice communications device shall have a product label permanently and conspicuously attached to the complete assembled product. 5.1.2 Multiple label pieces shall be permitted in order to carry all statements and information required to be on the product label; however, all label pieces that the product label comprises shall be located adjacent to each other.

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5.1.3 The certification organization’s label, symbol, or identifying mark shall be attached to the product label or be part of the product label and shall be placed in a conspicuous location. All letters shall be at least 1.5 mm (1⁄32 in.) in height, and the label, symbol, or identifying mark shall be at least 6 mm (1⁄4 in.) in height. The font Arial in capital le ers shall be used for all label lettering. 5.1.4 All worded portions of the required product label shall be at least in English. 5.1.5 Symbols and other pictorial graphic representations shall be permitted to be used to supplement worded statements on the product label(s). 5.1.6 The following compliance statement shall be legibly printed on the product label:

“THIS TWO‐WAY, PORTABLE VOICE COMMUNICATIONS DEVICE MEETS THE REQUIREMENTS OF NFPA 1802, STANDARD ON TWO‐WAY, PORTABLE VOICE

COMMUNICATIONS DEVICES FOR USE BY EMERGENCY SERVICES PERSONNEL IN THE HAZARD ZONE, 20XX EDITION.

DO NOT REMOVE THIS LABEL!”

5.1.7 Each two‐way portable voice communications device shall be marked directly with the serial number and the year and month of manufacture. 5.1.8 All rechargeable power sources provided by the two‐way portable voice communications device manufacturer shall be marked with a serial number and the year and date of manufacture. 5.1.9 Accessories and components certified shall contain an approval identifier indicating certification to this standard and shall include the year and month of manufacture. 5.2 User Information. 5.2.1 The manufacturer shall provide with each product at least the informational material and user instructions specified in Section 5.2. 5.2.2 At the time of purchase, the manufacturer shall provide to the purchaser an information sheet with each product that documents at least the following: (1) Date of manufacture (2) Model number (3) Serial number (4) Lot number, if applicable

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5.2.3* Information and materials regarding use shall be provided on at least the following topics: (1) Safety considerations (2) Pre‐use checks (3) Limitations of use (4) Power source requirements, type, and brand (5) Estimated operation time on fully charged power source in each available mode (6) Low‐power source signals and power supply replacement, where applicable (7) Charging and recharging procedures (8) Marking recommendations and restrictions (9) Warranty information (10) Recommended storage practices (11) Mounting on/in vehicles or fire apparatus 5.2.4 Information and operational materials regarding periodic inspections shall be provided on at least inspection frequency and details. 5.2.5 Information and operational materials regarding proper operational use shall be provided. 5.2.6 Information and operational materials regarding periodic maintenance and cleaning shall be provided on at least the following areas: (1) Cleaning instructions and precautions (2) Disinfecting procedures (3) Maintenance frequency and details (4) Guidelines for service and repair 5.2.7 Information and operational materials regarding replacement and retirement considerations for two‐way portable voice communications device and components shall be provided. Chapter 6 Design Requirements 6.1 General Design Requirements 6.1.1 All devices shall meet the applicable design requirements specified in Section 9.3.6 of NFPA 1221: Standard for the Installation, Maintenance, and Use of Emergency Services Communications Systems, 2016 edition.

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6.1.1 All devices shall be interoperable with all optional components including, but not limited to:

(1) Remote speaker microphones (RSM) (2) Self‐contained breathing apparatus

6.1.1.2 The device and any optional component shall be interoperable with each other via wired or wireless communication systems, or both. 6.1.2 This standard shall not apply to voice amplification devices. 6.1.2 All devices shall have at least the applicable design requirements specified in this chapter when inspected and evaluated by the certification organization as specified in 4.3, Inspection and Testing. 6.1.3 All devices shall be capable of continuously operating for a minimum of 8 hours when operated at full transmit power for 5%, active receive at rated volume for 5%, and idle receive for 90% of the time without the power source being changed or recharged, in all transmission modes. 6.1.3.1 Transmission modes shall be permitted to include analog FM. 6.1.3.2 Transmission modes may include, but not be limited to, the following (1) P25 Trunked Phase 1 (2) P25 Phase 2 (3) P25 Conventional 6.1.4 All devices shall have a visual indicator that displays the status of the power source when activated. 6.1.4.1 The Power source visual indicator shall display the following visual information signals for remaining power capacity: (1) 75‐100% (2) 50‐75%, (3) 25‐50% (4) Less than 25% 6.1.4.2 The power source visual indicator shall flash when less than 25% capacity remains. 6.1.5 All operational selection devices, including but not limited to switches, buttons and keys, shall be rated for not less than 50,000 cycles. 6.1.5.1 Rotary knobs shall be rated for not less than 10,000 cycles.

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6.1.6 All operational selection devices shall be designed to prevent unintentional activation, deactivation, and change of operation. 6.1.7 All operational selection devices shall be capable of being switched by a gloved hand. 6.1.7.1 The gloves used for this function test shall be certified as compliant with the structural fire‐fighting glove requirements of NFPA 1971, Standard on Protective Ensembles for Structural Fire Fighting and Proximity Fire Fighting (2018 edition). 6.1.7.2 The gloves shall meet the following requirements: (1) Size Large (2) Outer shell shall be a minimum of 3.25 oz/yd2 American sourced and tanned cowhide (3) Thermal liner system shall be a minimum of 7.5 oz/yd2 6.1.8 All devices shall be capable of both the hazard zone mode and non‐hazard zone mode. 6.1.9 The minimum volume of the device in the hazard zone mode shall be 24 dB +0/‐6 dB below the SPL specified in 6.3.7. 6.1.9.1 All devices shall have the capability to enable hazard zone mode via a programmable switch activation, or also by being pre‐programmed to a channel, talk group or talk path via use of the mode switch. 6.1.10 The device shall include the following: (1) Speaker (2) Microphone 6.2 Controls 6.2.1 The front of the device shall be the side facing the viewer when the push‐to‐talk (PTT) button is located on the left side. 6.2.2 The following controls and features shall be positioned on the top of the device: s (1) Power/volume knob (2) Selector knob (3) EAB Emergency alert button (4) External antenna (if so equipped) (5) Display

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(6) Transmit indicator (7) Programmable selector switch capable of at least three‐positions (8) Programmable selector switch capable of at least two‐positions 6.2.3 Any additional controls or features on the top of the device shall not interfere with any of the required controls 6.2.4 The left side of the device shall include the following: (1) Push‐to‐talk button (PTT) (2) At least one programmable button 6.2.4.1 Any additional controls or features on the left side of the device shall not interfere with any of the required controls 6.2.5 The right side of the device shall include a Component Connector that will provide sufficient connections to enable the use of a RSM with the functionality defined in 6.7. 6.2.5.1 Any additional controls or features on the right side of the device shall not interfere with the operation of the required Component Connector. 6.2.5.2 The device shall have the ability to sense that a previously connected component that conducts, transmit and receive audio paths, is no longer present, then the device’s internal speaker and the microphone will be automatically activated. 6.3 Power/Volume Knob 6.3.1 The device shall have a power/volume knob that shall rotate clockwise to activate the device with and audible and tactile click. 6.3.1.1 The power/volume knob shall be located on the top of the device. 6.3.1.2 The power/volume knob shall control the volume. 6.3.1.2.1 A clockwise rotation of the power/volume knob shall increase the volume. 6.3.1.2.2 A counterclockwise rotation of the power/volume knob shall decrease the volume. 6.3.2 When powered “on” the device shall enter the hazard zone.

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6.3.4 Turning off the device shall be accomplished with two separate actions: turning the power/volume knob fully counterclockwise, and then within 5 seconds (‐0/+0.5 seconds) pushing a programmable side button for at least 2 seconds (‐0/+0.5 seconds). 6.3.5 The power/volume knob shall be protected from accidental change of operation and impact damage. 6.3.6 The maximum volume of the device shall be no less than 88 dBA SPL when measured by the method specified in TIA 603E, Section 2.1.20. 6.3.7 When the device is turned off in the hazard mode, the device shall have the following voice annunciation: “powering off.” 6.4 Selector Knob 6.4.1 The device shall have a programmable selector knob. 6.4.1.1 The selector knob shall be differentiated in size and shape from the power/volume knob. 6.4.1.2 The selector knob shall have a minimum of 16 positions. 6.4.1.3 There shall be a detent at each position. 6.4.1.4 There shall be hard stops at the minimum and maximum positions. 6.4.1.5 Turning resistance shall be designed to minimize accidental rotation. 6.4.1.6* The selector knob shall change channels, talk groups or talk paths. 6.4.1.7 The AHJ shall be permitted to designate non‐hazard zone channels, talk groups or talk paths. 6.4.1.8 All hazard zone channels, talk groups or talk paths shall use the features and function of hazard zone mode. 6.5 Emergency Alert Button 6.5.1 The emergency alert button shall be located adjacent to the base of the external, if so equipped, or, if not so equipped, adjacent to a guiding device on the top of the radio. 6.5.2 The emergency alert button shall be international orange in color.

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6.5.3 The emergency alert button shall be a minimum of 113 mm2 (0.175 in2) of projected surface area. 6.5.4 The emergency alert button shall be designed to minimize accidental activation. 6.5.5* The emergency alert button shall be activated by a continuous press of at least 1.5 seconds (±0.5 seconds). 6.5.6 The activation of the emergency alert button shall cause the device to transmit an emergency ID. 6.5.6.1 The activation of the emergency alert button shall emit a distinct audible tone from the device. 6.5.6.2 The audible tone shall be at maximum volume. 6.5.6.3 The device shall transmit the emergency ID at the highest RF power the device is capable of transmitting and in compliance with the licensing authority. 6.5.6.4 The emergency signal shall use the TSBK protocol when operating in analog conventional mode. 6.5.6.4.1* The AHJ shall be permitted to select one of the following optional protocols in addition to TSBK protocol, based on operational need:

(1) MDC 1200 (2) DTMF (3) P25 (4) G‐Star (5) Other closed proprietary signaling system.

6.5.6.4.2 The emergency signaling scheme shall meet the following requirements [TIA citation]. 6.5.6.5 The device shall have the following capabilities for voice transmission upon activation of the emergency button for transmission of the emergency ID:

(1) Remain on a selected channels, talk groups or talk paths, or (2) Revert to a pre‐programmed emergency ID transmission channels, talk groups or talk paths, and (3) Transmit at the highest RF power the device is capable of transmitting and in compliance with the licensing authority.

6.5.6.6 Upon receipt of an emergency activation from another device, the receiving device shall visually indicate the emergency activation by means of a solid backlit orange display.

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6.5.6.6.1 The displayed emergency indication shall remain activated until reset by the activating user or by the dispatch center upon request. 6.5.6.7 Upon receipt of any emergency activation from another device, the receiving device shall have the capability to emit a distinct audible tone for 3 seconds at maximum volume. 6.5.6.8 Upon receipt of any emergency activation from another device, the receiving device shall display the identification designator of the initiating device. 6.5.6.8.1 Upon receipt of an emergency activation from another device, the receiving device shall have the capability to display alias data by referring to an internally stored ID database. 6.5.6.8.2 Upon receipt of an emergency activation from another device, the receiving device shall have the capability of activating maximum volume regardless of knob position. This shall be permitted to be cancelled at the cessation of the emergency activation. 6.5.6.9 The device shall have the capability of displaying the history of the last 20 received emergency IDs. 6.5.6.9.1 The alias ID information shall be capable of displaying an ID of a minimum of 14 alphanumeric characters. 6.5.6.9.2 The internally stored alias database shall have the capacity of a minimum of 3,000 entries stored in the radio. 6.6 Display 6.6.1 The device shall include a display of at least 8 characters visible without scrolling, and additional characters visible with scrolling and when the backlight is enabled. 6.6.2 The display shall be illuminated by means of backlighting when any device control is manipulated. 6.6.2.1 After being activated,the display shall remain illuminated for 2 seconds, +1/−0 seconds 6.6.3 The display shall remain illuminated flashing orange on the device that initiated the emergency mode, and illuminated solid orange on all devices that are receiving the emergency message, until reset in accordance with 6.5.6.6.1.

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6.6.4 All displays shall be legible in all modes when backlighted and read in a completely dark room from a distance of 2 feet. 6.7 Remote Speaker Microphone 6.7.1 The remote speaker microphone shall be considered an optional component of the device. 6.7.2 The remote speaker microphone shall include a microphone. 6.7.3 The remote speaker microphone shall have a PTT button that meets the requirements of 6.1.7. 6.7.4 The remote speaker microphone shall have a speaker. 6.7.5 The remote speaker microphone shall have a transmit/receive indicator. 6.7.5.1 The transmit/receive indicator shall use the following colors: (1) Green when receiving (2) Red when transmitting 6.7.6 The remote speaker microphone shall have an emergency button that meets the requirements of 6.1.7. 6.7.6.1 The remote speaker microphone emergency button shall be located at the top of the device. 6.7.6.2 The remote speaker microphone emergency button shall meet the requirements specified in 6.5, except 6.5.1. 6.7.7 The remote speaker microphone shall have an orange indicator. 6.7.7.1 The remote speaker microphone orange/red indicator shall display in accordance with 6.6.2 during emergency use. 6.7.7.2 The remote speaker microphone orange/red indicator shall indicate red in accordance with 6.13.11. 6.7.8 Remote speaker microphone emergency indicators shall operate as specified in 6.5. 6.7.9* The remote speaker microphone shall include a programmable option button.

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6.8 Optional Component Connection to Device 6.8.1 All devices shall have a means of detecting a loss of connection with the remote speaker microphone or optional components including but not limited to self‐contained breathing apparatus. 6.8.1.1 The loss of connection shall be reported to the host the next time the slave unit is polled by the host. 6.8.1.2 Connection shall be permitted to be wired, wireless, or both, to different components. 6.8.1.3 Loss of connection shall be detected if any one of the following conditions occur:

a. Loss of power to the component b. Loss of connection to red, green, or orange/red indicator lights c. Loss of connection to PTT switch d. Loss of connection to programmable button

6.8.2* When connecting one or more components to a device, the device shall act as the master and the other components shall act as slaves. 6.8.2.1 The device is always the master and slave device may be a host to additional devices. 6.8.2.2 The host in a cabled or a wireless system shall monitor all of its slave components. 6.8.3 A host in the cabled system shall periodically send the HEALTH challenge command to the device(s) in the cabled system to verify presence. 6.8.3.1 A device in the cabled system shall respond to presence verification messages within 500 ms. 6.8.4 The device shall be the primary host device. 6.8.4.1 A host shall provide a means to connect to a subordinate device through the standard host connector. 6.8.4.2 Connector shall be a 10‐pin miniature version of US MIL‐DTL‐55116 (M55116) or equivalent.

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6.8.4.2.1 An optional component shall provide a means to connect to a host device through the component connector. 6.8.4.2.2 Component connector shall be a 10‐pin miniature version of US MIL‐DTL‐55116 (M55116) or equivalent. 6.8.4.2.3 The component connector for the host shall be the plug connector. 6.8.4.2.4 The component connector for a subordinate device shall be the jack connector. 6.8.4.1 Where the device is equipped with wired capability to communicate with other optional components the device shall meet the following requirements as specified in Table 6.8.4.1.

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Table 6.8.4.1

Pin Assignment

Signal Type Level Tolerance Conditions Notes

J Power + DC +5V ± 0.25V

Minimum capacity: 0.25A ±0.05A (Primary Host) 0.15A±0.05A (Subordinate Device)

A Host Device may be capable of higher current.

K Return Power ‐

DC

Shell Shield / Drain

Tie to Return only at Primary Host end

F Speaker+ AC ≥ 0.5Wrms

RLOAD = 8Ω

G Speaker‐ AC ≥ 0.5Wrms

RLOAD = 8Ω

A Mic+ AC ‐38dBV ±2dBV 94dbSPL at the mic port

B Mic‐ AC

May be connected to 0V reference

D I2C Bus Clock

Digital 0 to +5V ± 0.25V RLOAD > 10kΩ CLOAD < 300pF

5V tolerant i/o, 3.3V Nominal

E I2C Data Digital 0 to +5V ± 0.25V RLOAD > 10kΩ CLOAD < 300pF

5V tolerant i/o, 3.3V Nominal

H

(Hold for shield/gnd if necessary)

C

(Hold for shield/gnd if necessary)

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6.8.4.2 The component connector pin assignments shall be configured as specified in Figure 6.8.4.2.

6.8.4.3 The remote speaker microphone and other optional components shall be capable of being slave components. 6.8.4 Failure by the host to detect a proper response that all its connections and functionality are okay from a slave component within 5 seconds shall initiate the connection failsafe protocol. 6.8.4.1 When entering the connection failsafe protocol, the primary host shall:

(1) Disconnect the slave radio speaker microphone or slave optional component and revert all audio and control input to the host.

(2) Play an audible alert tone for 3 seconds to alert the user that the connected radio speaker microphone or optional component is no longer available.

6.8.4.1.2 The alert tone shall be played at maximum volume 6.8.4.1.3 The host shall remain in connection failsafe mode until cleared by a specific user action. 6.8.4.1.3.1 The specific user action to clear the connection failsafe mode shall be permitted to be any of the following:

(1) Re‐initiating a pairing with a wireless device, (2) Power cycling (which shall initiate a new verification cycle) (3) Connecting a new or repaired cabled device.

6.8.5.1 This loss of connection shall be display as “ACCSRY FAIL” on the primary device’s display 6.8.5.1.1 When “ACCSRY FAIL” status is detected, the displayed message shall be with orange backlighting 6.8.5.1.2 When “ACCSRY FAIL” status is detected, the primary host shall audibly announced “ACCSRY FAIL” at maximum volume.

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6.9 Voice Announcement 6.9.1 The device shall be equipped with voice announcement in English. 6.9.1.1 Voice announcements in additional languages shall be permitted. 6.9.2 The voice announcement shall be active by default. 6.9.2.1 The default minimum volume of voice announcements shall be at full volume, but shall be permitted to be changed by the service shop to another volume level, but not less than half volume. 6.9.3 Receive audio shall have priority over channel, talk group or talk path annunciation, and shall override same if they both occur simultaneously, and voice annunciation shall follow within 5 seconds of the last PPT or received audio. 6.9.4 The channels, talk groups or talk path selection shall be announced when the channel, talk group or talk path selector is rotated to indicate the selected channels, talk groups or talk paths. 6.9.5 Announcements shall include the following: (1) Zone/Deck/Bank (2) Channels, talk groups or talk paths. (4) Emergency as described in 6.5 (5) RSM failure (6) Low battery at 40% remaining and 20% remaining

(4) Optional component failure (5) Out of range, if applicable in accordance with 6.13 (6) Self diagnostic fail as described in 6.15.1.3 (7) Power off (8) Battery at 40% capacity left, and again when battery is at 20% capacity left

6.9.5.1 Channel, talk group or talk paths name announcements shall be required. 6.9.6 Channel, talk group or talk path selection announcement shall permit the use of pre‐recorded voice files or voice synthesis files, or both, as determined by the AHJ. 6.9.6.1 Channel, talk group or talk path selection announcements shall allow user created voice files. 6.9.7 Channel, talk group or talk path voice announcements in the hazard zone mode shall be at maximum volume as specified in 6.5.6.7.2.

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6.9.8 Voice announcement shall commence within 0.5 seconds of switching channels, talk groups or talk paths. 6.10 Three‐Position Switch 6.10.1 *The three‐position switch shall be capable of being programmed as required by the AHJ. 6.11 Two‐Position Switch 6.11.1 The two‐position Switch shall be capable of being programmed as required by the AHJ. 6.12 Programmable Side Button 6.12.1 The device shall incorporate a minimum of one programmable side button on the display of the Plus model. 6.13 Out‐of‐Range Indication 6.13.1* Where the device operates on a system that has an out‐of‐range capability, the device shall have an out‐of‐range indication. 6.13.1.1 The device shall have a visual indicator indicating an out‐of‐range condition. All displays shall be backlit flashing red when the device is out of range. 6.13.1.2 The device shall emit an audible tone every 15 seconds (+1/‐1 seconds), and the tone shall last 1 second (+0.5/‐0 seconds) at ??? volume level to indicate an out‐of‐range condition when in an out‐of‐range status. 6.13.1.3 The device shall return to normal display, and the sound shall cease when an out‐of‐range condition is resolved. 6.13.1.4 The device out of range condition shall be indicated within 1 minute of detecting an out of range condition. The AHJ shall have the ability to program a holdoff time of 0 to 45 seconds to eliminate nuisance warnings. 6.14 Transmit and Receive Indicator 6.14.1 The device shall have both a Transmit and Receive indicator. 6.14.1.1 The indicator shall be illuminated solid red when the device is in the transmit mode.

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6.14.1.2 The indicator shall be illuminated solid green when the device is in the receive mode. 6.15 Diagnostics 6.15.1 The device shall perform mandatory self‐checks to verify operation when the unit is initially powered up and periodic self‐checks while it remains powered up and periodic self‐diagnostics every 5 minutes at a minimum. 6.15.1.1 The device shall display a visual indication when it has failed the self‐check. 6.15.1.2 The display shall be backlit red when the device does not pass the self‐check. 6.15.1.3 The device shall have a voice annunciation of radio failure if the self‐diagnostic tests fail. 6.15.2 The following functions shall be tested in self‐check: (1)* Remote speaker microphone as stated in 6.8.1 (2)* Loss of antenna connection to the radio (3)* Temperature exposure over 300o F (4) Battery has at least 50% of the total capacity available 6.15.3 The AHJ shall have the ability to configure the device to skip the self check of the optional component. 6.15.4 Connecting and optional equipment shall be detected by the device and clear this setting until the next power cycle and perform the optional component check normally. 6.16 Data Logging. 6.16.1 Device shall incorporate data logging in nonvolatile memory and, at a minimum, the following events shall be identified and recorded with the data log and shall also have a time stamp for each event in the data log:

(1) Device is turned on (2) Emergency button activation (3) Activation of user input, button press or switch (4) When power source levels are at initial power on, and then at 75%, 50%, 25%, 10% and 5% of capacity. (5) Device is turned off (6) Selection of channel, talk group, talk path, zone, mode, deck, bank or mission plan (7)* Device was exposed to extreme temperature

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6.16.2 The data logging information shall be downloadable by the emergency services organization. 6.16.3 The data logging shall have a minimum capacity of logging 2000 events. 6.17 Personal Are Network Wireless Interface. 6.17.1 Where the device is equipped with wireless capability to communicate with other components the device shall meet the following requirements: (1) The device shall provide private, point‐to‐point, voice and data communications

between the device and the RSM or optional components including, but not, limited to self‐contained breathing apparatus.

(2) Optional components shall be allowed to stand alone or integrated into other equipment (3) The device shall have a minimum effective range of 1 meter. (4) The device shall operate without degradation in the presence of 20 co‐located like

units with a 5‐meter spherical radius (5)The device shall support the control of all remote speaker functions as required in

NFPA 1802 (6) The device shall support the control of all audio device features as required in NFPA

1981. (7) The device shall only pair with the same unit until user forces it to do otherwise via some definite activation (8) The device pairing shall survive power interruption (9) The device shall be allowed to be manually paired (10) The device shall support audio over standard BT headset profile (11) The device shall support serial data commands over standard BT Serial Protocol (12) The device shall contain data commands as specified in Table 6.17.1.1 (13) The device shall attempt to re‐pair in the case of loss of connection. Table 6.17.1.1. Data Commands.

Command Format Ack Required

Required, 1981

Required, 1802

Notes

PTT ‐ Press +PTT=P Yes Y Y Indicate the PTT button on the accessory has been pressed

PTT ‐ Release

+PTT=R Yes Y Y Indicate the PTT button on the accessory has been released

Emergency +EMER=P Yes Y Y Indicate the Emergency

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Button, Press

button on the accessory has been pressed

Emergency Button, Release

+EMER=R Yes N Y Indicate the Emergency button on the accessory has been released

Emergency Mode, Set

+EMODE=S Yes N Y

Emergency Mode, Clear

+EMODE=C Yes N Y

Transmit Mode, Set

+TMODE=S Yes N Y

Transmit Mode, Clear

+TMODE=C Yes N Y

Receive Mode, Set

+RMODE=S Yes N Y

Receive Mode, Clear

+RMODE=C Yes N Y

Revision +REV Yes N Y Returns Product information, format TBD

Health +HEALTH Yes Y Y Returns Health Status of device, also used as indication of cable integrity, format is TBD, see ACK table

LED Control, Local Control

+LED=Y Yes N Y Accessory Controls LED

LED Control, Remote

+LED=N Yes N Y Radio Controls LED

LED Control, OFF

+LED=OFF Yes N Y

LED Control, Red, On

+LED=RED Yes

N Y

LED Control, Green, On

+LED=GREEN Yes N Y

LED Control, +LED=BLUE Yes N Y

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Blue

LED Control, Yellow

+LED=YELLOW

Yes N Y

6.17.2 Device shall use the acknowledge definition as specified in Table 6.17.2. Table 6.17.2. Acknowledge Definitions.

Code String Notes

OK <cr><lf>OK<cr><lf>

Error <cr><lf>ERROR<cr><lf> Healthy <cr><lf>GOOD<cr><lf> Response if no issues, any other response

triggers cable failsafe protocol

Not Healthy

<cr><lf>FAULT: optional information, total message length not to exceed 128 bytes<cr><lf>

If cable is damagedconnection is lost, Host may never receive this response. ACK format provided to enable additional functionality. HOST device is not required to act on this information. Italics indicates optional message payload

Connection Failsafe Mode

<cr><lf>FAULT: REMOTE DEVICE CONNECTION<cr><lf>

Indicates that a downstream device fault has been detected, for example, the connection is lost between the SCBA and RSM is reported to the Radio with this response

6.17.13 The PAN Wireless Interface shall be Bluetooth 4.0 compliant (or equivalent) wireless stack 6.17.3.1 The wireless Bluetooth stack (or equivalent) shall support the following profiles a specified in Table 6.17.3.1 Table 6.17.3.1. Profiles.

Profile Description

HSP Headset Profile

SPP Serial Port Profile

6.17.4 Device shall utilize Numeric Comparison and Passkey Entry methods for Bluetooth pairing Bluetooth Specification Version 4.0 Section 7.2 or equivalent. 6.17.5 Device shall require encrypted Bluetooth communications or equivalent.

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6.17.6 Device shall utilize maximum key sizes (Lmin = 128 bit) as specified in Bluetooth Specification Version 4.0 Section 4.2.5.2 or equivalent. 6.17.7 Device shall support simultaneous pairing and operation of two or more Bluetooth (or equivalent) accessories 6.17.8 Device shall be a certified BT device.

6.17.9 Device shall support the Bluetooth Device ID Profile (or equivalent) to report the following ID’s:

(1) Vendor ID (2) Product ID (3) Version ID

Chapter 7 Performance Requirements 7.1 Device Requirements 7.1.1 The device shall be tested for Perceptual Evaluation of Speech Quality (PESQ) in the analog mode as specified in 8.2 and shall minimum PESQ value of 2.5 7.1.1.1 If equipped with digital mode the device shall be tested in the analog mode in addition to any digital modes as specified in 8.2 and shall have a minimum PESQ of 2.5 7.1.1.2 The device shall include any optional components and shall have a minimum PESQ of 2.5. 7.1.2 Device viewing surfaces shall be tested for abrasion resistance as specified in Section 8.7, Viewing Surface Abrasion Test, and shall not have the viewing surface exhibit an average delta haze greater than 14 percent. 7.1.3 The device shall be tested for resistance to vibration as specified in 8.4, Vibration Test, and shall be evaluated for proper functioning as specified in 7.1.1, and shall have a minimum PESQ value of 2.5. 7.1.3.1 The device shall evaluated for proper functioning of data logging as specific in 6.16. 7.1.4 The device shall be tested for durability as specified in 8.14, Durability Test, and shall remain functional, shall have no water inside the electronics compartment(s), and shall have no water inside the power source compartment(s) and the device shall have a minimum PESQ of 2.5.

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7.1.4.1 The device shall be evaluated for proper functioning of data logging as specified in 6.16. 7.1.5 The device shall be tested for heat and immersion leakage resistance as specified in 8.3 and portable hand‐held communications devices shall be evaluated per 8.3.5, Test Procedure 1; shall have no leakage in the power source compartment(s); and shall have a minimum PESQ of 2.5. 7.1.5.1 The device shall be evaluated for proper functioning of data logging as specified in 6.16. 7.1.6 The device shall be tested for heat and immersion leakage resistance as specified in 8.3 and portable hand‐held communications devices shall be evaluated per 8.3.6, Test Procedure 2; shall have no leakage in the electronics compartment(s); and shall have a minimum PESQ of 2.5. 7.1.6.1 The device shall be evaluated for proper functioning of data logging as specified in 6.16. 7.1.7 The device shall be tested for resistance to heat as specified in Section 8.8, High Temperature Functionality Test, and shall evaluated for proper function, shall not melt, drip or ignite, and the device shall have a minimum PESQ of 2.5. 7.1.7.1 The devices shall be evaluated for proper functioning of data logging as specific in 6.16. 7.1.8 The device shall be tested for ingress protection (IP) rating as specified in ISO IEC 60529, Degrees of protection provided by enclosures (IP Code), and shall have a rating of IP6X. 7.1.9 The device shall be tested for resistance to impact as specified in 8.5, Impact Acceleration Resistance Test, and shall be evaluated for proper functioning, and the device shall have a minimum PESQ of 2.5. 7.1.9.1 The device shall be evaluated for proper functioning of data logging as specific in 6.16. 7.1.10 The device shall be tested for resistance to corrosion as specified in Section 8.6, Corrosion Test, shall be evaluated for proper functioning and the device shall have a minimum PESQ of 2.5. 7.1.11 The device shall be tested for integrity for specified in Section 8.12, Case Integrity Test and have no case, housing or closure damage; shall be evaluated for proper

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functioning and have a minimum PESQ value of 2.5. 7.1.11.1 The device shall be evaluated for proper functioning of data logging as specific in 6.16. 7.1.12 The device shall be tested for cable pullout as specified in Section 8.11, Cable Pullout Test, and shall have a minimum value of 156 N +9/‐0 N (35 lbf +2/‐0 lbf) in the direction of the wiring and have proper functioning. 7.1.12.1 The device shall have a maximum separation force value of 445 N +9/‐0 N (100 lbf +2/‐0 lbf) in the direction of the wiring. 7.1.13 The device shall be tested for resistance to heat and flame as specified in Section 8.9, Heat and Flame Test, Procedure, and shall not have the afterflame exceed 2.2 seconds; shall have nothing fall of the device; shall not have the device fall from its mounted position; and shall function as follows:

(1) The device shall be activated using the Power/Volume Knob as specified in Section 6.3.

(2) The Selector Knob shall function as specified in Section 6.4. (3) The Emergency Button shall function as specified in Section 6.5. (4) The display shall function as specified in Section 6.5. (5) The remote mic audio connection shall function as specified in Section 6.7.

7.1.13.1 The device shall evaluated for proper functioning of data logging as specific in 6.16. 7.1.14 The device shall be tested for durability and legibility as specified in Section 8.10, Product Label Durability Test, and the product labels shall remain attached to the device and shall be legible to the untrained eye for the following exposures: (1) Corrosion (2) Heat Resistance (3) Durability 7.1.15 Devices shall be tested for water drainage as specified in Section 8.13, Water Drainage Test. 7.1.15.1 The device shall be evaluated for proper functioning of data logging as specific in 6.16. 7.1.16 Devices shall be tested for intrinsic safety as specified in TIA STANDARD TIA‐4950‐A Requirements for Battery‐Powered, Portable Land Mobile Radio Applications in Class I, II and III, Division 1, Hazardous (Classified) Locations.

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7.1.16.1 The device shall earn a rating for use in the following hazard locations: Class I, Division 1, Groups C, D Class I, Division 2, Groups A, B, C, D Class II, Divisions 1 and 2, Groups E, F, G Class III, Divisions 1 and 2 7.17 After pairing or connecting a remote speaker mic, or optional component, the device (ed. Device is the radio) shall be evaluated for proper functioning; and shall function as follows: (1) The device shall be activated using the Power/Volume Knob as specified in Section 6.3. (2) The Selector Knob shall function as specified in Section 6.4. (3) The Emergency Button shall function as specified in Section 6.5. (4) The display shall function as specified in Section 6.5.

7.17.1 After pairing or connecting the remote speaker mic shall function as specified in Section 6.7. 7.17.2 After pairing or connecting any optional component attached to the device shall be evaluated for proper functioning. 7.18 The wired connection shall be tested for cable pullout as specified in Section 8.11, Cable Pullout Test, and shall have a minimum value of 156 N +9/‐0 N (35 lbf +2/‐0 lbf) in the direction of the wiring and have proper functioning. 7.18.1 The wired connection shall have a maximum separation force value of 34 N +?/‐0 N (25 lbf +?/‐0 lbf) in the direction of the coupling.

Chapter 8 Test Methods 8.1 Sample Preparation. 8.1.1 Application. 8.1.1.1 The sample preparation procedures contained in this section shall apply to each test method in this chapter, as specifically referenced in the sample preparation section of each test method. 8.1.1.2 Only the specific sample preparation procedure or procedures referenced in the sample preparation section of each test method shall be applied to that test method. 8.1.1.3 Samples shall be complete devices. 8.1.1.4 Specimens for testing shall be complete devices.

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8.1.1.5 A minimum of three specimens shall be tested. 8.1.2 Room Temperature Conditioning Procedure. 8.1.2.1 Specimens shall be conditioned at a temperature of 22°C ± 3°C (72°F ± 5°F) and relative humidity (RH) of 50 percent ± 25 percent for at least 4 hours. 8.1.2.2 Specimens shall be tested within 5 minutes after removal from conditioning. 8.1.3 Cold Temperature Conditioning Procedure. 8.1.3.1 Specimens shall be exposed to a temperature of −20°C +0/−3°C (−4°F +0/−5°F) for at least 4 hours. 8.1.3.2 Testing shall begin within 30 seconds of the specimens being removed from the conditioning. 8.1.4 Elevated Temperature Conditioning Procedure. 8.1.4.1 Specimens shall be exposed to a temperature of 71°C +1/−0°C (160°F +2/−0°F) for at least 4 hours. 8.1.4.2 Testing shall begin within 30 seconds of the specimens being removed from the conditioning. 8.2 Perceptual Evaluation of Speech Quality (PESQ) Test. All of 8.2 need to be rewritten as “shall” statements Measurement: LMR Radio Transmission Path Measurement: LMR Handset Transmission Path Measurement: LMR Handset Receiving Path Measurement: LMR RSM Transmission Path 8.2.1 Apparatus 8.2.1.1 The PESQ test apparatus shall consist of the following:

(1) Anechoic chamber as described in NFPA 1981 (2) Head and torso simulator (HATS‐mannequin) with artificial mouth as used for

NFPA 1981 (3) Artificial ears for HATS (4) Audio analyzer, e.g. Audio Precision APX 525 (5) Equalizer, e.g. Behringer Ultra Curve DEQ2496 as used for NFPA 1981 (6) Amplifier, e.g. Alesis RA150 as used for NFPA 1981

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(7) Sound level meter, e.g. NTI XL2 as used for NFPA 1981

8.2.1.2 Calibration and set‐up of the artificial mouth:

1. Equalize the frequency response to flat according to procedure 8.10.4.14.3 of NFPA 1981:2013. The auto EQ function of the equalizer can be used to achieve a reproducible adjustment.

2. Use the Audio Analyzer to generate a test signal for excitation of the HATS. The signal Path Setup, Output: Select “Male1_1st_Set_8k.wav”. Use identical levels in PESQ measurement.

3. Use the Sound Level Meter to measure the SPL 5 cm in front of the artificial mouth.

4. Adjust the gain of the artificial mouth until an average SPL (Leq) of 95 dB(A) is achieved. Use an averaging of about 60 s.

8.2.1.3 Calibration and set‐up of the artificial ear:

1. Apply the microphone calibrator to the artificial ear and set it to 114dB (see Figure 8.2.1.3.1)

2. Use the calibration of the Audio Analyzer measurement software (Signal Path Setup, Reference: Mic Cal/dB SPL)

Figure 8.2.1.3.1 Calibration of the Artificial Ear

8.2.1.4 PESQ measurement setup: 1. Activate the PESQ measurement in the Audio Analyzer. 2. Select 4 excitation speech signals provided by the Audio Analyzer, 2 male and 2

female signals. 3. Mode: Narrowband (P.862.1) as bandwidth of LMRs is typically below 4 kHz. 4. Disable automatic gain control in Advanced Settings 5. Calculate the average of the 4 PESQ readings.

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Figure 8.2.1.4 (?) PESQ measurement reading 8.2.1.5 LMR Radio Transmission Path

1. Feed excitation signal to transmitting LMR via NFPA Standard Connector. 2. Received signal of receiving LMR via NFPA Standard Connector. 3. Set the signal level of the Audio Analyzer to 100 mVRMS 4. Start the measurement and get the PESQ reading [see Figure 8.2.1.5 (4)].

Figure 8.2.1.5 (4)

Measurement setup for LMR Radio Transmission Path 8.2.1.6: LMR Handset Transmission Path

1. Feed the excitation signal to the artificial mouth. 2. Received signal of receiving LMR via NFPA Standard Connector. 3. Set the signal level to the signal level determined in the artificial mouth

calibration. 4. Start the measurement and get the PESQ reading [see Figure 8.2.1.6 (4)].

Figure 8.2.1.6 (4)

Measurement setup for LMR Handset Transmission Path 8.2.1.7: LMR Handset Receiving Path

1. Feed excitation signal to transmitting LMR via NFPA Standard Connector. 2. Received signal of receiving LMR via NFPA Standard Connector. 3. Set the signal level of the Audio Analyzer to 100 mVRMS 4. Start the measurement and get the PESQ reading [see 8.2.1.7 (4)].

Figure 8.2.1.7 (4)

Measurement setup for LMR Handset Receiving Path

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8.2.1.8: LMR RSM Transmission Path

1. Feed the excitation signal to the artificial mouth. 2. Feed acoustic signal via RSM to transmitting LMR. 3. Feed signal of receiving LMR to Audio Analyzer. 4. Set the signal level to the signal level determined in the artificial mouth

calibration. 5. Start the measurement and get the PESQ reading [see Figure 8.2.1.8 (5)].

Figure 8.2.1.8 (5)

Measurement setup for LMR RSM Transmission Path 8.3 Heat and Immersion Leakage Resistance 8.3.1 Application. This test method shall apply to all devices. 8.3.2 Samples. 8.3.2.1 Samples shall be complete devices. 8.3.2.2 Samples shall be conditioned as specified in 8.1.2. 8.3.3 Specimens. 8.3.3.1 Specimens for testing shall be complete devices. 8.3.3.2 A minimum of three specimens shall be tested. 8.3.4 Apparatus. 8.3.4.1 A test oven having minimum dimensions of 915 mm depth × 915mm width × 1220mm height (36 in. depth × 36 in. width × 48 in. height) shall be provided. 8.3.4.1.1 The test oven shall have an airflow rate of 38 m/min to 76 m/min (125 ft/min to 250 ft/min) at the standard temperature and pressure of 22°C (72°F) at 1 atmosphere measured at the center point of the oven. 8.3.4.1.2 A test thermocouple shall be positioned so that it is level with the horizontal centerline of a mounted specimen. 8.3.4.2 A test water container capable of covering the uppermost point of the specimen with a depth of 1.5 m (4.9 ft) of water shall be provided. 8.3.4.2.1 The water container shall maintain the devices at that depth.

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8.3.4.2.2 The water temperature shall be 22°C ± 3°C (72°F ± 5°F). 8.3.5 Test Procedure 1. 8.3.5.1 Specimens shall be placed in the test oven that has been preheated to 177°C +5/−0°C (350°F +10/−0°F). Test exposure time of 15 minutes shall begin. 8.3.5.2 After the test exposure time of 15 minutes, the specimens shall be removed from the oven and within 30 seconds shall be immersed in the test water container for 15 minutes. After 15 minutes, the specimens shall be removed from the test water container and shall be wiped dry. 8.3.5.3 Specimens shall be subject to 8.3.5.1 and 8.3.5.2 for six complete cycles. 8.3.5.4 After the sixth cycle, the power source compartment of the specimens shall be opened and shall be inspected for water leakage to determine pass or fail performance. Where the device does not fail this portion of the test, the power source shall be reinstalled. 8.3.5.5 After the sixth cycle, The PESQ measurement shall be conducted as specified in 8.2 to determine the pass or fail performance. 8.3.5.6 Following the PESQ measurement, the specimen shall be operated to the manufacturer’s instructions as specified in 6.2 thru 6.7 to determine the proper functioning to determine the pass or fail performance. 8.3.6 Test Procedure 2. 8.3.6.1 Following test procedure 1, the specimens shall be re‐immersed in the test water container for an additional 5 minutes +30/−0 seconds. The power source compartment(s), if so equipped, shall be opened, and the power source shall not be installed. 8.3.6.2 After the 5‐minute immersion, the specimens shall be removed from the test water container and shall be wiped dry. 8.3.6.3 The electronic compartment(s) of the specimens shall be opened and inspected for water leakage to determine pass or fail performance. 8.3.7 Report.

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8.3.7.1 The PESQ Value measured after Heat and Immersion Leakage Test shall be recorded and reported. 8.3.7.2 The functioning of the specimens shall be recorded and reported. 8.3.8 Interpretation 8.3.8.1 Pass or Fail performance shall be determined for each specimen. 8.3.8.2 Failing performance of one or more specimens shall constitute failing performance for this test. 8.4 Vibration Test. 8.4.1 Application. This test method shall apply to all devices. 8.4.2 Samples. Samples shall be complete Devices. 8.4.2.1 Samples shall be conditioned as specified in 8.1.2. 8.4.3 Specimens. 8.4.3.1 Specimens for testing shall be complete devices. 8.4.3.2 A minimum of three specimens shall be tested. 8.4.3.3 Specimens shall be conditioned at a temperature of 22°C ± 3°C (72°F ± 5°F), and a relative humidity of 50 percent ± 25 percent, for at least 4 hours. 8.4.3.4 Specimens shall be tested within 5 minutes after removal from conditioning. 8.4.4 Apparatus. 8.4.4.1 Product shall be tested on a typical package tester within the compartments specified in 8.3.4.2 through 8.3.4.4. 8.4.4.2 Compartments shall be set up as specified in Figure 8.4.4.2(a) and Figure 8.4.4.2(b). FIGURE 8.4.4.2(a) Vibration Table Compartments — Top View (Not to Scale). FIGURE 8.4.4.2(b) Vibration Table Compartments — Side View (Not to Scale).

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8.4.4.2.1 The sides and the base of the compartments shall be constructed of nominal 6 mm (1⁄4 in.) stainless steel, and the top of the compartments shall remain open. 8.4.4.2.2 There shall be no burrs, sharp edges, surface discontinuities, or fasteners on the internal surfaces of the holding boxes. 8.4.4.3 The large compartments shall encase the complete devices that are larger than 5161 mm2 (8 in2). 8.4.4.4 The small compartments shall encase the complete devices that are smaller than 5161 mm2 (8 in2). 8.4.5 Procedure. 8.4.5.1 Test specimens shall be placed unrestrained in the compartments specified in 8.3.4.2. 8.4.5.2 Test specimens shall not be tied down. 8.4.5.3 The basic movement of the bed of the test table shall be a 25 mm, orbital path such as can be obtained on a standard package tester operating in synchronous mode at 250 rpm ± 5 rpm. 8.4.5.4 The test duration shall be 3 hours. 8.4.5.5 The PESQ measurement shall be conducted as specified in 8.2 to determine the pass or fail performance. 8.4.5.6 Following the PESQ measurement, the specimen shall be operated to the manufacturer’s instructions to determine the proper functioning as specified in 7.1.1 to determine the pass or fail performance. 8.4.5.7 Specimens shall be operated according to the manufacturer’s instructions to determine the proper functioning for data logging as specified in 6.16 to determine pass or fail performance. 8.4.6 Report 8.4.6.1 The PESQ Value measured after Vibration Resistance Test shall be recorded and reported. 8.4.6.2 The functioning of the specimens shall be recorded and reported. 8.4.7 Interpretation

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8.4.7.1 Pass or Fail performance shall be determined for each specimen. 8.4.7.2 Failing performance of one or more specimens shall constitute failing performance for this test. 8.5 Impact Acceleration Resistance Test. 8.5.1 Application. This test method shall apply to all devices. 8.5.2 Samples. Samples shall be complete devices. 8.5.2.1 Samples shall be conditioned as specified in 8.1.2. 8.5.3 Specimens. 8.5.3.1 Specimens for testing shall be complete devices. 8.5.3.2 A minimum of three specimens shall be tested. 8.5.4 Procedure. 8.5.4.1 Three specimens of product shall be subjected to a series of impact acceleration tests. 8.5.4.1.1 One test specimen for ambient temperature conditioning shall be exposed to a temperature of 22°C ± 3°C (72°F ± 5°F), for at least 4 hours. 8.5.4.1.2 One test specimen for cold temperature conditioning shall be exposed to a temperature of −20°C ± 1°C (−4°F ± 2°F), for at least 4 hours. 8.5.4.1.3 One test specimen for elevated temperature conditioning shall be exposed to a temperature of 60°C ± 1°C (140°F ± 2°F), for at least 4 hours. 8.5.4.2 Each product tested shall be complete with power source. 8.5.4.3 After conditioning, product shall be turned to the “on” position. Testing shall begin within 30 seconds of removal from conditioning. 8.5.4.4 Following each conditioning, the product shall be dropped a total of eight times from a distance of 2 m (6.5 ft) onto a concrete surface so that impact is on each face and on one corner and one edge of the product. 8.5.4.5 The entire series of drops shall be completed within 10 minutes of removal from conditioning.

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8.5.4.6 Specimens shall be evaluated to determine that the device enclosure has not incurred damage that affects normal operation or enclosure integrity. 8.5.4.7 The PESQ measurement shall be conducted as specified in 8.2 to determine the pass or fail performance. 8.5.4.8 Following the PESQ measurement, the specimen shall be operated to the manufacturer’s instructions as specified in 6.2 thru 6.7 to determine the proper functioning to determine the pass or fail performance. 8.5.4.9 Specimens shall be operated according to the manufacturer’s instructions to determine the proper functioning for data logging as specified in 6.16 to determine pass or fail performance. 8.5.5 Report 8.5.5.1 The PESQ Value measured after Accelerated Impact Resistance Test shall be recorded and reported. 8.5.5.2 The functioning of the specimens shall be recorded and reported. 8.5.6 Interpretation 8.5.6.1 Pass or Fail performance shall be determined for each specimen. 8.5.6.2 Failing performance of one or more specimens shall constitute failing performance for this test. 8.6 Corrosion Test. 8.6.1 Application. This test method shall apply to all devices. 8.6.2 Samples. Samples shall be complete devices. 8.6.3 Specimens. 8.6.3.1 Specimens for testing shall be complete devices. 8.6.3.2 A minimum of three specimens shall be tested. 8.6.3.3 Specimens shall be conditioned at a temperature of 22°C ± 3°C (72°F ± 5°F), and a relative humidity of 50 percent, ± 25 percent, for at least 4 hours. 8.6.3.4 Specimens shall be tested within 5 minutes after removal from conditioning.

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8.6.4 Procedure. 8.6.4.1 Specimens shall be tested in accordance with ASTM B117, Standard Practice for Operating Salt Spray (Fog) Apparatus. Salt spray shall be 5 percent saline solution, and the test exposure shall be for 48 hours, +30/−0 minutes. The chamber shall be stabilized at a temperature of 35°C ± 3°C (95°F ± 5°F). 8.6.4.2 Specimens shall be placed in the chamber in the typical operating position as used by first responders, as specified by the manufacturer. 8.6.4.3 At the conclusion of the salt spray period, specimens shall be stored in an environment of 22°C ± 3°C (72°F ± 5°F) at 50 percent ± 5 percent, relative humidity for a minimum of 48 hours. 8.6.4.4 Following the conditioning period, specimens shall be tested within 60 seconds of removal from conditioning. 8.6.5 The PESQ measurement shall be conducted as specified in 8.2 to determine the pass or fail performance. 8.6.6 The specimen shall be operated to the manufacturer’s instructions as specified in 6.2 thru 6.7 to determine the proper functioning to determine the pass or fail performance. 8.6.7 Report 8.6.7.1 The PESQ Value measured after Corrosion Test shall be recorded and reported. 8.6.7.2 The functioning of the specimens shall be recorded and reported. 8.6.8 Interpretation 8.6.8.1 Pass or Fail performance shall be determined for each specimen. 8.6.8.2 Failing performance of one or more specimens shall constitute failing performance for this test. 8.7 Viewing Surface Abrasion Test. 8.7.1 Application. This test shall apply to all devices. 8.7.2 Samples. Samples shall be complete viewing surfaces or representative plaques from devices.

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8.7.3 Specimens. 8.7.3.1 Specimens for testing shall be complete devices’ viewing surfaces or representative plaques. 8.7.3.2 Four specimens shall be taken. 8.7.3.3 One of the specimens shall be the set‐up specimen. 8.7.3.4 The test specimen shall include all of the following criteria: (1) The specimen shall be a square measuring 50 mm × 50 mm (2 in. × 2 in.). (2) At least 38 mm (11⁄2 in.) of the 50 mm × 50 mm (2 in. × 2 in.) square shall be taken from the viewing surface. 8.7.3.5 Each of the specimens shall be cleaned in the following manner: (1) The specimen shall be rinsed with clean tap water. (2) The specimen shall be washed with a solution of nonionic/ low‐phosphate detergent and water using a clean, soft gauze pad. (3) The specimen shall be rinsed with de‐ionized water. (4) The specimen shall be blown dry with clean compressed air or nitrogen. 8.7.3.6 Samples shall be conditioned as specified in 8.1.2. 8.7.3.7 Specimens shall be tested within 5 minutes after removal from conditioning. 8.7.4 Apparatus. The test apparatus shall be constructed in accordance with Figure 8.7.4(a) and Figure 8.7.4(b). FIGURE 8.7.4(a) Lens Abrasion Tester. FIGURE 8.7.4(b) Lens Abrasion Tester (details). 8.7.5 Procedure. 8.7.5.1 The haze of the specimen shall be measured using a haze meter in accordance with ASTM D 1003, Standard Test Method for Haze and Luminous Transmittance of Transparent Plastics, and recorded with the following additions: (1) The haze shall be measured in the middle 2 mm2 of the specimen. (2) The specimen shall be repositioned to achieve the maximum haze value within the area defined in 8.7.5.1(1). (3) The haze meter shall have a specified aperture of 22 mm.

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(4) The haze meter shall have a visual display showing 0.1 percent resolution. (5) The haze meter shall be calibrated before and after each day’s use following procedures specified in ASTM D 1003, Standard Test Method for Haze and Luminous Transmittance of Transparent Plastics. 8.7.5.2 The set‐up specimen shall be placed cover side up in the test apparatus specimen holder. The specimen holder shall be configured with a flat surface under the lens or with an inner radius support. 8.7.5.3 The pad holder shall consist of a cylinder 9.5 mm (0.4 in.) high and 25 mm (1 in.) in diameter with a radius of curvature equal to the radius of curvature of the outside of the lens in the viewing area ±0.25 diopter. This cylinder shall be rigidly affixed to the stroking arm by a #10‐32 UNF threaded rod. 8.7.5.4 The pad shall be a Blue Streak M306M wool felt polishing pad 23 mm (0.9 in.) in diameter. 8.7.5.5 The abrasive disc shall be made from 3M Part Number 7415, Wood Finishing Pad. A disc 23 mm (0.9 in.) in diameter shall be cut from the abrasive sheet. The marked side of the disc shall be placed against the pad. Care shall be exercised to maintain this orientation for each abrasive disc throughout the testing. 8.7.5.6 The pad holder, pad, and abrasive disc shall be installed on the stroking arm. The stroking arm shall be leveled to ±3 degrees by adjusting the threaded pin. The pin shall be secured to prevent rotation of the pad holder. The axis of curvature of the pad holder shall be coincident with the axis of curvature of the lens. 8.7.5.7 The stroking arm shall be counterbalanced with the pad holder, pad, and abrasive disc in place. 8.7.5.8 The set‐up specimen shall be replaced with one of the three specimens to be tested. 8.7.5.9 A 1000 g ± 5 g (2.7 lb ± 0.16 oz.) test weight shall be installed on the pin above the test sample. 8.7.5.10 The test shall be run for 200 cycles ± 1 cycle. One cycle shall consist of a complete revolution of the eccentric wheel. 8.7.5.11 The length of stroke shall be 14mm (1⁄2 in.), producing a pa ern 38 mm (11⁄2 in.) long. The frequency of the stroke shall be 60 cycles per minute ± 1 cycle per minute. The center of the stroke shall be within ±2 mm (±0.08 in.) of the center of the specimen. 8.7.5.12 The specimen shall be removed and cleaned following the test procedure. The abrasive disc shall be discarded.

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8.7.5.13 The haze of the sample shall be measured following the test procedure. 8.7.5.14 The delta haze shall be calculated by subtracting the initial haze from the final haze. 8.7.5.15 The testing steps specified in 8.7.5.8 through 8.7.5.14 shall be repeated five times with a new sample and abrasive disc. 8.7.6 Report. The three delta haze values shall be averaged, recorded, and reported. 8.7.7 Interpretation. The average delta haze shall be evaluated to determine pass or fail. 8.8 High Temperature Functionality Test. 8.8.1 Application. This test method shall apply to all devices. 8.8.2 Samples. Samples shall be complete devices. 8.8.2.1 Samples shall be conditioned as specified in 8.1.2. 8.8.3 Specimens. 8.8.3.1 Specimens for testing shall be complete devices. 8.8.3.2 A minimum of three specimens shall be tested. 8.8.3.3 Samples shall be conditioned as specified in 8.1.2. 8.8.3.4 Specimens shall be tested within 5 minutes after removal from conditioning. 8.8.4 Apparatus. The test oven shall be as specified in ISO 17493, Clothing and equipment for protection against heat — Test method for convective heat resistance using a hot air circulating oven. 8.8.5 Procedure. 8.8.5.1 Testing shall be performed in accordance with ISO 17493, Clothing and equipment for protection against heat — Test method for convective heat resistance using a hot air circulating oven, using the following parameters: (1) A test fixture capable of accommodating the device being tested shall be used. (2) The test temperature shall be 260°C, +6/−0°C (500°F, +10/−0°F).

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(3) Specimens shall be mounted in the “as worn” position on a test fixture and shall not touch any oven surface. (4) The test fixture shall not degrade the oven recovery time. (5) The test fixture shall be designed to allow the specimens to be attached in the same configuration as the specimens’ mounting assembly attaches to the specimens. 8.8.5.2 The test fixture with the specimen attached shall be placed in the test oven perpendicular with the front surface facing perpendicular to the airflow of the oven. 8.8.5.3 The specimen shall be set to the “on” mode. 8.8.5.4 There shall be no obstructions between the specimen and the airflow. The test fixture shall position the specimen equidistant from all interior oven surfaces. 8.8.5.5 The test oven door shall not remain open more than 15 seconds. The air circulation shall be shut off while the door is open and turned on when the door is closed. 8.8.5.6 The total test oven recovery time shall not exceed 30 seconds. The thermocouple reading shall remain at 260°C, +6/−0°C (500°F, +10/−0°F) for the duration of the test. 8.8.5.7 The test specimen, mounted as specified, shall be exposed in the test oven for 5 minutes, +15/−0 seconds. The test exposure me shall begin when the test thermocouple recovers to 260°C, +6/−0°C (500°F, +10/−0°F). 8.8.5.8 The PESQ measurement shall be conducted as specified in 8.2 to determine the pass or fail performance. 8.8.5.9 Following the PESQ measurement, the specimen shall be operated to the manufacturer’s instructions as specified in 6.2 thru 6.7 to determine the proper functioning to determine the pass or fail performance. 8.8.5.10 Specimens shall be operated according to the manufacturer’s instructions to determine the proper functioning for data logging as specified in 6.16 to determine pass or fail performance. 8.8.6 Report. 8.8.6.1 The PESQ Value measured after Heat Resistance shall be recorded and reported. 8.8.6.2 The functioning of the specimens shall be recorded and reported. 8.8.7 Interpretation.

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8.8.7.1 Pass or Fail performance shall be determined for each specimen. 8.8.7.2 Failing performance of one or more specimens shall constitute failing performance for this test. 8.9 Heat and Flame Test. 8.9.1 Application. This test method shall apply to all devices. 8.9.2 Samples. Samples shall be complete devices. 8.9.3 Specimens. 8.9.3.1 Specimens for testing shall be complete devices. 8.9.3.2 A minimum of three specimens shall be tested. 8.9.3.3 Samples shall be conditioned as specified in 8.1.2. 8.9.3.4 Specimens shall be tested within 5 minutes after removal from conditioning. 8.9.4 Apparatus. 8.9.4.1 Specimens shall be attached to the front or rear of the test mannequin by the retention system, in accordance with the manufacturer’s instructions, by means of a loop, belt, SCBA strap, or other means, on the outside or over the mannequin protective clothing. 8.9.4.2 The specimens shall be attached to the mannequin in accordance with the manufacturer’s instructions in specified area of mannequin. FIGURE 8.9.4.2(a) Mounted Device for Heat and Flame Test. FIGURE 8.9.4.2(b) Device Mounting Armature. 8.9.4.3 The heat and flame test apparatus shall be as specified in Figure 8.9.4.4. The heat and flame test apparatus shall not be supplied by the device manufacturer. 8.9.4.4 The test oven shall be a horizontal forced circulating air oven with an internal velocity of 61 m/min (200 ft/min) ± 15 m/min. The test oven shall have minimum dimensions of 915 mm depth × 915 mm width × 1220 mm (36 in. × 36 in. × 48 in.) height. 8.9.5 Procedure.

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8.9.5.1 For calibration prior to the heat and flame test, the calibration mannequin shown in Figure 8.7.4.4 shall be exposed to direct flame contact for 10 seconds using the heat and flame test apparatus. 8.9.5.2 All peak temperature readings shall be within a temperature range of 815°C to 1150°C (1500°F to 2102°F). 8.9.5.3 The average mean of all peak temperature readings shall not be higher than 950°C (1742°F). 8.9.5.4 The test oven recovery time, after the door is closed, shall not exceed 60 seconds. 8.9.5.5 Specimens mounted on the test fixture shall first be placed in the test oven, which has been preheated to 95°C ± 2°C (203°F ± 5°F), for 15 minutes, +15/−0 seconds. The test exposure time of 15 minutes shall begin after the door is closed and the oven temperature recovers to 95°C (203°F). FIGURE 8.9.4.4 Heat and Flame Test Apparatus. 8.9.5.6 At the completion of the 15‐minute exposure at 95°C ± 2°C (203°F ± 5°F), the oven door shall be opened, and the specimen mounted on the test fixture shall be moved out of the oven and into the center of the burner array. 8.9.5.7 The product shall then be exposed to direct flame contact for 10 seconds, +1⁄4/−0 seconds. This exposure shall begin within 20 seconds of the product being removed from the test oven. 8.9.5.8 The PESQ measurement shall be conducted as specified in 8.2 to determine the pass or fail performance. 8.9.5.9 Following the PESQ measurement, the specimen shall be operated to the manufacturer’s instructions to determine the proper functioning to determine the pass or fail performance. 8.9.6 Report. 8.9.6.1 Any afterflame of the test specimen exceeding 2.2 seconds shall be recorded and reported. 8.9.6.2 Anything falling from the test specimen shall be recorded and reported. 8.9.6.3 Any test specimen falling from the mounted position shall be recorded and reported.

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8.9.6.4 The PESQ Value measured after Heat and Flame Resistance shall be recorded and reported. 8.9.6.5 The functioning of the specimens as specified in 6.2 thru 6.7 shall be recorded and reported. 8.9.7 Interpretation. 8.9.7.1 Pass or Fail performance shall be determined for each specimen. 8.9.7.2 Failing performance of one or more specimens shall constitute failing performance for this test. 8.9.7.3 Any test specimen exceeding 2.2 seconds of afterflame shall constitute failing performance. 8.9.7.4 Any test specimen having parts or other items falling off shall constitute failing performance. 8.9.7.5 Any test specimen falling from its mounted position shall constitute failing performance. 8.9.7.6 Specimens shall be operated according to the manufacturer’s instructions to determine the proper functioning for data logging as specified in 6.16 to determine pass or fail performance. 8.10 Product Label Durability Test. 8.10.1 Application. This test method shall apply to all product labels. 8.10.2 Samples. Samples shall be complete devices. 8.10.3 Specimens. 8.10.3.1 Specimens for testing shall be complete devices with product labels attached. 8.10.3.2 A minimum of three specimens shall be tested. 8.10.3.3 Samples shall be conditioned as specified in 8.1.2. 8.10.4 Procedure.

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8.10.4.1 Specimens with all product labels attached shall be subjected to the tests specified in Section 8.6, Corrosion Resistance; Section 8.8, Heat Resistance Test; and Section 8.14, Durability Test. 8.10.4.2 After each test, the specimen product labels shall be examined at a distance of 305 mm (12 in.) +25/−0 mm by the unaided eye with 20/20 vision or vision corrected to 20/20. 8.10.4.3 The product labels shall be permitted to be wiped clean with an untreated cloth prior to being examined. 8.10.5 Report. The legibility of each product label shall be recorded and reported. 8.10.6 Interpretation. Any specimen failing the test shall constitute failing performance. 8.11 Cable Pullout Test. 8.11.1 Application. This test method shall apply to devices and any associated assemblies with interconnecting wiring. 8.11.2 Samples. Samples shall be complete devices. 8.11.3 Specimens. 8.11.3.1 Specimens for testing shall be complete devices with any associated assemblies with interconnecting wiring. 8.11.3.2 A minimum of three specimens shall be tested. 8.11.3.3 Samples shall be conditioned as specified in 8.1.2. 8.11.4 Apparatus. A mass of known weight with the means for attachment to wiring shall be provided. 8.11.5 Procedure. 8.11.5.1 Samples shall be conditioned as specified in 8.1.4. 8.11.5.2 A force of 156 N +9/‐0 N (35 lbf +2/‐0 lbf) shall be applied gradually, in an axial direction to the wiring of the specimen tested. 8.11.5.3 The functioning of the specimens shall be recorded and reported.

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8.11.5.4 A maximum separation force of 445N+9/‐0 N (100 lbf +2/‐0 lbf) shall be applied gradually, in an axial direction to the wiring of the specimen tested to ensure separation. 8.11.5.4 The functioning of the specimens as specified in 6.2 thru 6.7 shall be recorded and reported. 8.11.6 Report. 8.11.6.1 Observations of the non‐separation and separation of interconnecting wiring shall be recorded and reported. 8.11.6.2 The PESQ measurement shall be conducted as specified in 8.2 to determine the pass or fail performance. 8.11.6.3 Following the PESQ measurement, the specimen shall be operated to the manufacturer’s instructions as specified in 6.2 thru 6.7 to determine the proper functioning to determine the pass or fail performance. 8.11.7 Interpretation. 8.11.7.1 Separation of interconnecting wiring of any specimen shall constitute failing performance. 8.11.7.2 Pass or Fail performance shall be determined for each specimen. 8.12 Case Integrity Test. 8.12.1 Application. This test method shall apply to all devices. 8.12.2 Samples. 8.12.2.1 Samples shall be complete devices. 8.12.2.2 Samples shall be conditioned as specified in 8.1.2. 8.12.3 Specimens. 8.12.3.1 Specimens for testing shall be complete devices. 8.12.4 Procedure. 8.12.4.1 Specimens shall be subjected to a test weight of 200 kg + 2/−0 kg (442 lb +4.4/−0 lb).

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8.12.4.2 The test weight shall be placed on each surface of the specimen case, housing, or enclosure. 8.12.4.3 The test weight shall be placed so as to avoid impact loading. 8.12.4.4 The test weight shall remain on each surface of the specimen case for 1 minute +15/−0 seconds. 8.12.4.5 After removal of the test weight, each surface of the specimen case, housing, and enclosure shall be examined for damage. 8.12.5 The PESQ measurement shall be conducted as specified in 8.2 to determine the pass or fail performance. 8.12.6 Following the PESQ measurement, the specimen shall be operated to the manufacturer’s instructions as specified in 6.2 thru 6.7 to determine the proper functioning to determine the pass or fail performance. 8.12.7 Specimens shall be operated according to the manufacturer’s instructions to determine the proper functioning for data logging as specified in 6.16 to determine pass or fail performance. 8.12.8 Report. 8.12.8.1 The PESQ Value measured after Case Integrity shall be recorded and reported. 8.12.8.2 The functioning of the specimens shall be recorded and reported. 8.12.9 Interpretation. 8.12.9.1 Pass or Fail performance shall be determined for each specimen. 8.12.9.2 Failing performance of one or more specimens shall constitute failing performance for this test. 8.13 Water Drainage Test. 8.13.1 Application. This test method shall apply to all devices. 8.13.2 Samples. 8.13.2.1 Samples shall be complete devices. 8.13.2.2 Samples shall be conditioned as specified in 8.1.2.

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8.13.3 Specimens. 8.13.3.1 Specimens for testing shall be complete devices. 8.13.3.2 A minimum of three specimens shall be tested. 8.13.4 Procedure. 8.13.4.1 Specimens shall be subjected to three water drainage tests. 8.13.4.1.1 The first test shall have the specimens positioned with the speaker oriented in the position it is intended to be worn, in accordance with the manufacturer’s instructions. 8.13.4.1.2 The second test shall have the specimens positioned with the speaker oriented horizontally and facing up. 8.13.4.1.3 A third test shall have the specimen positioned where the speaker is oriented in a position that will retain the greatest volume of water. 8.13.4.2 Water shall be introduced into all openings, indentations, and grilles of the specimens until water overflows from each such opening, indentation, and grille. 8.13.4.3 The filling method shall ensure that no air bubbles remain in any of the openings, indentations, and grilles. 8.13.4.4 The PESQ shall be measured and recorded starting at the 60 second +5/−0 seconds, mark to determine device’s pass or fail performance. 8.13.5 Report. 8.13.5.1 The PESQ Value measured after the Water Drainage Resistance Test shall be recorded and reported. 8.13.5.2 The functioning of the specimens as specified in 6.2 thru 6.7 shall be recorded and reported. 8.13.6 Interpretation. 8.13.6.1 Pass or Fail performance shall be determined for each specimen. 8.13.6.2 Failing performance of one or more specimens shall constitute failing performance for this test.

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8.14 Durability Test. 8.14.1 Application. This test method shall apply to all devices. 8.14.2 Samples. Samples shall be complete devices. 8.14.2.1 Samples shall be conditioned as specified in 8.1.2. 8.14.3 Specimens. 8.14.3.1 Specimens for testing shall be complete devices. Where the device is equipped with a retention device, the retention device shall be permitted to be removed prior to testing. 8.14.3.2 A minimum of three specimens shall be tested. 8.14.3.4 Specimens shall be tested within 5 minutes after removal from conditioning. 8.14.4 Apparatus. 8.14.4.1 An environmental conditioning test chamber shall be capable of accepting complete specimen devices. 8.14.4.2 The environmental conditioning test chamber shall be capable of maintaining and continuously monitoring the required conditions throughout the envelope of air surrounding the complete devices. 8.14.4.3 A water dunk container capable of covering and maintaining the uppermost point of the specimen devices with a depth of 1 m ± 0.1 m (40 in. ± 4 in.), of de‐ionized water shall be used. 8.14.4.4 The water temperature in the water dunk container shall be 22°C ± 3°C (72°F ± 5°F). The water temperature shall not change more than 3°C (5°F) for the duration of the test. 8.14.4.5 A tumble test apparatus shall be as specified in Figure 8.14.4.5. FIGURE 8.14.4.5 Tumble Test Apparatus. 8.14.5 Procedure 1. 8.14.5.1 Samples shall be conditioned as specified in 8.1.4.

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8.14.5.2 The test specimen shall be removed following the conditioning specified in 8.14.5.2, and within 30 seconds the specimens shall be immersed in the water dunk container containing the de‐ionized water for 30 minutes, +5/−0 minutes. 8.14.5.2.1 The test specimens shall be removed from the water dunk container, wiped dry, and placed in the environmental conditioning test chamber that has been stabilized at as specified in 8.1.3 and maintained for a minimum of 4 hours. 8.14.5.2.2 Following the 4‐hour conditioning of the test specimen as specified in 8.1.3, the test specimen shall be removed from the environmental conditioning test chamber and within 30 seconds shall be re‐immersed in the water dunk container for 30 minutes, +5/−0 minutes. 8.14.5.8 The test specimens shall be removed from the water dunk container, wiped dry, and placed in the tumble test apparatus. Only one specimen shall be tested in the tumble test apparatus at a time. All specimens shall be unrestrained. 8.14.5.8.1 The tumble test apparatus shall be run at a speed of 15 rpm ± 1 rpm. 8.14.5.8.2 The test shall be run for 30 minutes, +5/−0 minutes. 8.14.5.8.3 Upon completion of the test duration, the specimens shall be immersed in the water dunk container for 30 minutes, +5/−0 minutes. 8.14.5.8.4 The test specimens shall be blown dry with clean compressed air or nitrogen until the free from all moisture. Evaluation of the three specimens shall begin within 5 minutes of completion of drying. 8.14.5.9 The PESQ measurement shall be conducted as specified in 8.2 to determine the pass or fail performance. 8.14.5.10 Following the PESQ measurement, the specimen shall be operated to the manufacturer’s instructions as specified in 6.2 thru 6.7 to determine the proper functioning to determine the pass or fail performance. 8.14.5.11 Specimens shall be operated according to the manufacturer’s instructions to determine the proper functioning for data logging as specified in 6.16 to determine pass or fail performance. 8.14.6 Procedure 2. 8.14.6.1 One test specimen shall be selected at random from the remaining specimens submitted for testing to this section.

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8.14.6.2 The random specimen shall be re‐immersed in the water dunk container for 5 minutes. The power source compartment(s) shall be open, and the power source shall not be installed. 8.14.6.3 After the 5 minutes, +1/−0 minutes, the random specimen shall be removed from the water dunk container and shall be wiped dry. 8.14.6.4 The PESQ measurement shall be conducted as specified in 8.2 to determine the pass or fail performance. 8.14.6.5 Following the PESQ measurement, the specimen shall be operated to the manufacturer’s instructions as specified in 6.2 thru 6.7 to determine the proper functioning to determine the pass or fail performance. 8.14.6.6 Specimens shall be operated according to the manufacturer’s instructions to determine the proper functioning for data logging as specified in 6.16 to determine pass or fail performance. 8.14.7 Procedure 3. 8.14.7.1 The remaining test specimen shall be submitted for testing in accordance with Procedure 3. 8.14.7.2 The third random test specimen shall be activated and then immersed in the water dunk container for 5 minutes. After 5 minutes, +1/−0 minutes, the specimen shall be removed from the test water container and shall be wiped dry. 8.14.7.3 The PESQ measurement shall be conducted as specified in 8.2 to determine the pass or fail performance. 8.14.7.4 Following the PESQ measurement, the specimen shall be operated to the manufacturer’s instructions as specified in 6.2 thru 6.7 to determine the proper functioning to determine the pass or fail performance. 8.14.7.5 Specimens shall be operated according to the manufacturer’s instructions to determine the proper functioning for data logging as specified in 6.16 to determine pass or fail performance. 8.14.7.6 The third random test specimen shall be deactivated and the power supply compartment(s) and external power supplies shall be opened and inspected for water leakage. 8.14.8 Reports for Procedures 1, 2, and 3.

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8.14.8.1 The PESQ Value measured after Durability Test shall be recorded and reported. 8.14.8.2 Any water leakage into any electronic compartment(s) shall be recorded and reported. 8.14.8.3 In Procedure 3, any water leakage into any power supply compartment(s) or external power supply shall be recorded and reported. 8.14.9 Interpretation. 8.14.10 Pass or Fail performance shall be determined for each specimen. 8.14.11 Failing performance of one or more specimens shall constitute failing performance for this test. 8.15 TIA Transmit Power Note: if the following are to be requirements, they have to be rewritten as “shall” statement.

Carrier Output Power 2.2.1(Analog) – TIA‐603‐D

RF Power Output 2.2.1(Digital) – TIA‐102.CCAA‐D

8.16 TIA Frequency Drift

Carrier Frequency Stability 2.2.2(Analog) – TIA‐603‐D

Operating Frequency Accuracy 2.2.2(Digital) – TIA‐102.CCAA‐D

8.17 TIA Receiver Sensitivity

Reference Sensitivity 2.1.4(Analog) – TIA‐603‐D

Reference Sensitivity 2.1.4(Digital) – TIA‐102.CCAA‐D

Annex A Explanatory Material A.1.3.4 Emergency response organizations are cautioned that accessories are not part of the certified product but could be attached to a certified product by means not engineered, manufactured, or authorized by the certified product manufacturer.

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Emergency response organizations are cautioned that if an accessory or its means of attachment causes the structural integrity of the certified product to be compromised, the certified product might not be compliant with the standard with which it was originally certified as compliant. Additionally, if an accessory or the accessory’s means of attachment are not designed and manufactured from suitable materials for the hazardous environments of emergency incidents, the failure of the accessory or means of attachment could cause injury to the emergency responder. Because the aftermarket for accessories is so broad, emergency response organizations are advised to contact both the accessory manufacturer and the manufacturer of the certified product and verify that the accessory and its means of attachment are suitable for use in the intended emergency response environment. Emergency response organizations should seek and receive written documentation from the accessory manufacturer to validate the following assurances: (1) Accessories for a certified product and the means of attachment will not degrade the designed protection or performance of the certified product below the requirements of the standard to which it was designed, manufactured, tested, and certified. (2) The accessory, when properly attached to the certified product, will not interfere with form, fit, or function of any of the certified product or with the form, fit, and function of any of the certified product’s component parts. Users are also cautioned that the means of attachment for accessories that fail to safely and securely attach the accessory to a certified product could allow the accessory to become inadvertently dislodged from the certified product, possibly posing a risk to emergency response personnel in the vicinity.

A.3.2.1 Approved. The National Fire Protection Association does not approve, inspect, or certify any installations, procedures, equipment, or materials; nor does it approve or evaluate testing laboratories. In determining the acceptability of installations, procedures, equipment, or materials, the authority having jurisdiction may base acceptance on compliance with NFPA or other appropriate standards. In the absence of such standards, said authority may require evidence of proper installation, procedure, or use. The authority having jurisdiction may also refer to the listings or labeling practices of an organization that is concerned with product evaluations and is thus in a position to determine compliance with appropriate standards for the current production of listed items. A.3.2.2 Authority Having Jurisdiction (AHJ). The phrase “authority having jurisdiction,” or its acronym AHJ, is used in NFPA documents in a broad manner, since jurisdictions and approval agencies vary, as do their responsibilities. Where public safety is primary, the authority having jurisdiction may be a federal, state, local, or other regional department or individual such as a fire chief; fire marshal; chief of a fire prevention bureau, labor department, or health department; building official; electrical inspector;

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or others having statutory authority. For insurance purposes, an insurance inspection department, rating bureau, or other insurance company representative may be the authority having jurisdiction. In many circumstances, the property owner or his or her designated agent assumes the role of the authority having jurisdiction; at government installations, the commanding officer or departmental official may be the authority having jurisdiction.

A.3.2.4 Listed. The means for identifying listed equipment may vary for each organization concerned with product evaluation; some organizations do not recognize equipment as listed unless it is also labeled. The authority having jurisdiction should utilize the system employed by the listing organization to identify a listed product. A.3.3.42 Hazard Zone. These activities include but are not limited to fire suppression, both interior and exterior structural, wildland and hazardous materials mitigation and interior technical rescue.

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A.5.2.3 Information and materials regarding pre‐operational use (a user’s manual) provides the user with information about the operation of the portable voice communications device, its care and maintenance. The organization of the user’s manual is not specified. The following checklist can help assure that the supplied documentation addresses all requirements. The column labeled “Page no. /Paragraph” should identify the page and paragraph number where the requirement in the column labeled “Description” is addressed. This will ensure that all requirements have been met and manufacturers may provide the table to the certification organization with their user’s manual to assist with the verification of their compliance with the standard. Including this checklist, or some form of it, as part of the user’s manual will also assist users in becoming familiar with the device.

A.6.4.1.7* Text to be provided. A.6.5.5 This Annex text should explain the reasons why there is no section for deactivation. A.6.5.6.4.1 The AHJ can select the protocol or protocols appropriate for operational/infrastructure requirements, as required. AHJ selectable options for the mandatory function:

a. Remain on selected channels, talk groups or talk paths for EID transmission. b. Channels, talk groups or talk paths revert to a pre‐programmed EID

transmission channel, talk group or talk path. After the radio transmits the radio ID the AHJ may select one of the following options:

a. Remain on the selected channel, talk group or talk path or b. Revert to a pre‐programmed channels, talk groups or talk paths for

transmission of voice traffic. A.6.7.8 The AHJ may program this option button for various purposes as it deems fit, to enhance emergency services personnel safety, and to enhance operations in jurisdictions where the radio’s controls are not easily accessible because the radio is by SOP/SOG or practice worn under the turnout coat or in the turnout coat pocket, under hazmat protective clothing, or is otherwise inaccessible. Some of the uses for which this button might be programmed for could include, but not be limited to:

1. Revert to a ‘home’ radio channel or talkgroup regardless of the selector knob position on the radio, in case the selector knob on the radio is accidently turned by movement of the user

2. Toggling between two to four channels/talkgroups such as dispatch, fireground A, fireground B, RIT/RIC

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3. Toggling between two or three receive audio levels on the RSM (e.g. the level set by the volume knob on the radio, 6 dB higher than that volume setting, and 6 dB lower than the volume setting.) It should be noted that in radio systems that utilize digital P25, there is an ‘echo’ effect that can be annoying to emergency services personnel in close proximity to one another, such as might happen in interior firefighting on a hose line for example. Being able to toggle the received audio down 6 dB can reduce that echo effect. Conversely, the noise level may go up higher on the fire ground, such as when a vent saw is being used, and it might be important for emergency services personnel to be able to turn their volume up 6 dB from the current setting.

4. This one button might be able to be used for multiple functions, such as toggling volume and toggling channels/talkgroups, by utilizing short presses for one function and long presses for another.

A.6.8.2. Master and slave are well understood telecommunications terms, and implies a polling type of protocol to control the interchange of communications among multiple connected devices. An example of an established standard that uses master/slave polling for a cabled system that provides for polling is the Ethernet protocol IEEE 802.3. Master connotes that and electronic component controls the communications among a group of components by issuing ‘OK to send’ orders to a specific slave component, to avoid simultaneous transmissions from multiple slave components. A slave component cannot transmit on its own without permission from the master component. The master component will periodically poll each slave component in turn to determine if it has data traffic for the master or some other slave component. An established standard that uses master/slave polling for the cabled system that provides for polling etc., such as the Ethernet protocol IEEE 802.3. A.6.13.1 An example of such a system is a P25 trunked system. Some vendors can provide this indication on conventional (non‐trunked) systems. A.6.15.2 (1) RSM will be checked for continuity of connections to microphone and speaker, and for green, red, red/orange indicator continuity. Additionally voice annunciation will ask for user to depress PTT momentarily, and emergency button momentarily, and option button momentarily, to verify operation of both of these vital controls. A.6.15.2 (2) The test will verify that there is continuity between the antenna and the device’s transmitter output stage, and that a reasonable VSWR exists. A disconnected antenna, or a damaged antenna resulting in a high VSWR will create a “failure of antenna” to be recorded and alarmed per 6.15.

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A.6.15.2 (3) If the device’s sensors have any time in past recorded exposure to a temperature of 150 degrees C or above for 5 seconds or more, that event will be recorded in device memory and noted each time a self‐diagnostic test is performed. If the unit has another incidence in time where it is exposed to extreme temperature, the self‐diagnostic test will state that via voice annunciation at the end of the self‐diagnostic test “radio has been exposed X times to extreme temperatures.” The device will only track up to 10 incidents of such exposure, after that the annunciation will state “radio has been exposed over 10 times to extreme temperatures.” This same procedure shall apply to the RSM, and the device memory shall differentiate between extreme temperature exposure to the device and extreme temperature exposure of the RSM. The voice annunciation in this case would be “RSM has been exposed to extreme temperatures” or “RSM has been exposed X times to extreme temperatures.” The reason for maintaining the distinction between the two items is because some AHJ’s may decide to implement a policy of expensive repair or disposal of devices or RSMs that are exposed to extreme temperatures, and knowing which unit has the exposure can be helpful. The device will only track up to 10 incidents of such exposure, after that the annunciation will state “radio has been exposed over 10 times to extreme temperatures.” A.6.16.1 (7) Annex text to be provided.