4. APTA SS-PS-004-99, Rev. 1 Standard for Low-Location Exit Path ...

APTA SS-PS-004-99, Rev. 1 

Edited 4-1-04 

4. APTA SS-PS-004-99, Rev. 1 

Standard for Low-Location Exit Path 

Marking 

Originally Approved May 21, 1999 

Revised October 30, 2002 

APTA PRESS Task Force 

Originally Authorized October 9, 1999 

Revision 1 Authorized January 11, 2003 

APTA Commuter Rail Executive Committee 

Abstract: This standard contains minimum requirements for an emergency low-location 

exit path marking system (LLEPM) for new, remanufactured, and existing rail passenger 

cars using passive (non-electrically illuminated) and/or active (electrically illuminated) 

means of marking the exit path(s) to safety. 

Keywords: emergency exit, exit path, low-location exit path marking system (LLEPM) 

Copyright © 2002 by 

The American Public Transportation Association 

1666 K Street, N. W. 

Washington, DC, 20006, USA 

No part of this publication may be reproduced in any form, in an electronic retrieval 

system or otherwise, without the prior written permission of 

The American Public Transportation Association. 

4.0 

Volume VI - Passenger System

Introduction 



Edited 4-1-04 

(This introduction is not a part of APTA SS-PS-004-99, Rev. 1, Standard for Low- 

Location Exit Path Marking.) 

Review of past passenger rail accidents involving passenger and train crew emergency 

evacuation has indicated that both passengers and emergency responders lacked 

sufficient information necessary for expedient emergency egress and access due to the 

absence of clear markings and instructions. The lack of adequate signage in conjunction 

with lighting system failures and/or low levels of illumination during these accidents 

were cited as a cause for confusion and as a contributing factor to the injuries and 

casualties that resulted. 

The National Transportation Safety Board (NTSB) made the following recommendation 

to the Federal Railroad Administration (FRA) in National Transportation Safety Board 

Recommendation to Federal Railroad Administration, FRA R-97-17 after investigation of 

a recent passenger train accident: 

“Issue interim standards for the use of luminescent material, retroreflective 

material, or both to mark all interior and exterior emergency exits in all passenger 

cars as soon as possible and incorporate the interim standards into minimum car 

standards.” 

FRA issued a final rule revising existing glazing standards contained in 49 CFR, Part 223 

and established minimum standards for emergency preparedness (see 49 CFR, Part 239). 

The FRA regulations require that minimum levels of emergency lighting be provided near 

doors and along the aisles be for new cars. In addition, for both new and existing cars, the 

interior location of each passenger car door used for emergency egress must be marked 

and be conspicuously visible by the use of lighting and/or luminescent marking. Each 

door control release mechanism must be marked on the interior and exterior with clearly 

visible and legible instructions. The interior location of emergency exit windows must 

also be clearly visible by the use of luminescent material and instructions for their use 

must be also be provided. If exterior window access points are provided to emergency 

responders, clear and conspicuous markings and instructions must be provided. 

This standard establishes requirements for LLEPM which will provide visual guidance 

for emergency rail car evacuation when smoke conditions obscure overhead emergency 

lighting or when failure of the emergency lighting system has occurred 

This standard, taken together with the American Public Transportation Association 

(APTA) APTA SS-E-013-99, Standard for Emergency Lighting System Design for 

Passenger Cars, and APTA SS PS-002-98, Rev 2, Standard for Emergency Signage for 

Egress/Access of Passenger Rail Equipment 1 , provides a systems approach to locate, 

reach, and operate emergency exits to ensure the safe evacuation of passengers and 

crewmembers in the event of an emergency. Railroads and car builders should carefully 

consider the options available to meet emergency evacuation requirements presented in 

these three standards. 

1 For references in Italics, see Section 2 of this Standard. 



Edited 4-1-04 

This revision of the Standard contains a reorganized section 1 (to include scope); 

renumbered Reference section (now 2) and addition of 49 CFR regulations, and ASTM 

and UL standards as references. One definition (marking) was added and abbreviations 

and acronyms are now included in Section 3. Section 6 headings were revised, material 

safety is now a separate section 7, and the remaining sections are renumbered. 

In addition, the bibliography was moved to Annex A, and the information formerly 

contained in Annex A was expanded upon (now included in Annex D), and two new 

annexes were added to provide railroads with extensive guidance for ensuring that the 

passive LLEPM material required by this standard provides the minimum brightness 

specified herein. 



Participants 



Edited 4-1-04 

The American Public Transportation Association (APTA) greatly appreciates the 

contributions of the following individual(s), who provided the primary effort in the 

drafting of the Standard for Low-Location Exit Path Marking: 

Doug Karan 

In addition, APTA would like to thank the following members from the Volpe Center for 

their extensive technical research and assistance in the preparation of this document, 

specifically: 

Stephanie Markos J.K. Pollard 

At the time that this standard was completed, the Passenger Rail Equipment Safety 

Standards (PRESS) Passenger Systems Committee included the following members: 

Dave Brooks 

Ralph Dolinger 

Robert Gagne 

Bret A. George 

Doug Karan 

John Kopke 

Eric Kosty 

Billy Lopez 

Bill Lydon, Chair 

Susan Madigan 

Stephanie Markos 

Jim Michel 

Brenda Moscoso 

Scott Ornstein 

J. K. Pollard 

Al Pucci 

Jack Reidy 


Contents 



Edited 4-1-04 

1. Overview...................................................................................................................... 4.5 

1.1 Scope...................................................................................................................... 4.5 

1.2 Purpose................................................................................................................... 4.5 

2. References.................................................................................................................... 4.6 

3. Definitions, abbreviations, and acronyms.................................................................... 4.6 

3.1 Definitions ............................................................................................................. 4.6 

3.2 Abbreviations and acronyms ................................................................................. 4.8 

4. General system requirements....................................................................................... 4.8 

5. System design requirements ........................................................................................ 4.9 

5.1 Passive marking method (HPPL)........................................................................... 4.9 

5.2 Active marking methods...................................................................................... 4.10 

5.3 LLEPM exit door markings ................................................................................. 4.12 

5.4 LLEPM exit door sign ......................................................................................... 4.12 

6. Material safety ........................................................................................................... 4.12 

7. System reliability ...................................................................................................... 4.12 

8. Operating conditions................................................................................................. 4.12 

9. Maintenance.............................................................................................................. 4.13 

Annex A (informative) Bibliography ............................................................................ 4.14 

Annex B (informative) Passive LLEPM luminance lab test and criteria ...................... 4.16 

Annex C (informative) Test laboratories ....................................................................... 4.17 

C.1 ASTM............................................................................................................. 4.17 

C.2 Underwriters’ Laboratories (UL) ................................................................... 4.18 

C.3 Deutche industrie norm (DIN) ....................................................................... 4.18 

Annex D (informative) Passive LLEPM field test and criteria ..................................... 4.19 

D.1 Technical Considerations............................................................................... 4.19 

D.2 Verification of compliance options................................................................ 4.20 

D.3 Alternatives to increase light output .............................................................. 4.22 



Edited 4-1-04 


Standard for Low-Location Exit Path Marking 

1. Overview 

Historically, passenger rail car accidents and incidents have occurred resulting in fire 

and/or smoke-filled car/compartment conditions. In the presence of these conditions, the 

difficulty of evacuating passengers and/or crewmembers may increase substantially. 

Because smoke generally rises, illumination from conventional emergency lighting 

fixtures, operating as intended, may be obscured. Additionally, in the event of an 

accident/incident, failure of the main back-up power system may occur. In these 

situations, the most viable escape path is most visible at or near the floor. 

This standard requires that each rail passenger car shall have a low-location emergency 

exit path marking system, visible in the area from the floor to a plane 4 feet (1.22 m) 

above the aisle of the rail car. This low-location exit path marking system (LLEPM), 

located in the relatively clear air near the rail car floor, shall enable passengers and 

crewmembers to visually identify the path to exit the rail car in an emergency. 

If an alternate means of achieving compliance with this standard are sought to be 

employed, a hearing must be requested from an equivalency review committee (ERC) 

and the alternative method must be documented, demonstrated and determined to be 

sufficient to meet the equivalency criteria established by the ERC. 

1.1 Scope 

This standard shall apply to all new and remanufactured passenger and crew carrying 

equipment placed in service after January 1, 2000. All existing equipment must be in 

compliance with this standard by January 1, 2006. Cars in procurement as of the effective 

date of this standard shall be considered existing equipment. 

EXCEPTION--Equipment that fails to meet minimum emergency lighting levels 

established in APTA SS-E-013-99, Standard for the General Emergency Lighting System 

Design for Passenger Cars 2 , shall be in compliance by July 1, 2002. 

1.2 Purpose 

This standard establishes requirements for LLEPM which will provide visual guidance 

for emergency rail car evacuation when smoke conditions obscure overhead emergency 

lighting or when failure of the emergency lighting system has occurred. 

2 For references in Italics, see Section 2. 



2. References 



Edited 4-1-04 

This standard shall be used in conjunction with the following publications. When the 

following publications are superceded by an approved revision the revision shall apply. 

APTA SS-C&S-012-02, Standard for Passenger Car Door Systems for New and Rebuilt 

Passenger Cars. 

APTA SS-E-013-99, Standard for Emergency Lighting System Design for Passenger 

Cars. 

APTA SS-I&M-005-98, Rev. 2, Passenger Compartment Periodic Inspection and 

Maintenance. 

APTA SS-I&M-008-98, Rev. 1, Electrical Periodic Inspection and Maintenance. 

APTA SS-PS-002-98, Rev. 2, Standard for Emergency Signage for Egress/Access of 

Passenger Rail Equipment. 

ASTM E 2073-02, Standard Test Method for Photopic Luminance of Photoluminescent 

(Phosphorescent) Markings. 

49 CFR, Part 223, Glazing. 

49 CFR, Part 238, Passenger Equipment Safety Standards. 

49 CFR, Part 239, Passenger Equipment Train Emergency Preparedness 

3. Definitions, abbreviations, and acronyms 

3.1 Definitions 

For the purposes of this standard, the following terms and definitions apply: 

3.1.1 active illumination: Illumination, which is generated by electrical energy. 

3.1.2 aisle: A path through a vehicle that is not bordered by walls, such as the path 

through the center of a coach car with rows of seats on each side. 

3.1.3 candela: unit of luminous intensity in both SI and English measurement systems. 

One candela is one lumen per steradian (lm/sr). It is almost exactly equal to the obsolete 

unit called the candle. 

3.1.4 electroluminescent (EL): Luminescence resulting from the application of an 

alternating electrical current to phosphor. 

3.1.5 equivalency review committee (ERC): An adjudicatory committee comprised of 

representatives from APTA and appropriate industry subject matter experts to evaluate 



Edited 4-1-04 

the equivalent attainment of Passenger Rail Equipment Safety Standards (PRESS) 

promulgated standards through alternative methods. 

3.1.6 exit path: The path or corridor through a rail car that provides the preferred path of 

evacuation from the car. 

3.1.7 externally illuminated: The light source is located outside of the device, legend, 

or path to be illuminated. The light source is typically fluorescent, incandescent or a 

dedicated fluorescent or incandescent source. 

3.1.8 high performance photoluminescent material (HPPL): A material that is 

capable of emitting fluorescent and/or phosphorescent light at a high rate and for an 

extended period of time after absorption of light radiation from an external source by the 

process of photon excitation. 

NOTE--These materials shall be charged at 5 foot-candles (fc) for 1 hour. The measured value 

shall be a minimum of not less that 7.5 mcd/m 2 (milli-candela per square meter) after 1.5 hours. 

(See Annexes B-D) 

3.1.9 illuminance: The amount of light (luminous flux) falling on a specific area or 

surface. English units are foot-candles (fc) or lumens per sq. foot (Lm/ft 2 ). International 

(SI) units are lumen per sq. meter (Lm/m 2 ) or lux (lx). 

3.1.10 internally illuminated: The light source is contained inside the device or legend 

that is illuminated. The light source is typically incandescent, fluorescent, 

electroluminescent, light-emitting diode (LED), or self-illuminating. 

3.1.11 low-location: Area of the rail car defined by a volume whose horizontal plane 

includes the entire area of the floor and extending upwards a distance of four (4) feet 

(1.22 m). 

3.1.12 luminance: The amount of light reflected from an area or surface or the amount 

of light emitted from a surface, e.g., electroluminescent or light-emitting diode (LED) 

material. English units are foot-lamberts (fl). International (SI) units are candela per 

square meter (cd/ m 2 ) and milli-candella per square meter (mcd/m 2 ). (1 fl = 3.426 cd/m 2 

or 3426 mcd/ m 2 .) 

3.1.13 luminescence: The emission of light other than incandescent, as in 

phosphorescence or fluorescence by processes that derive energy from essentially nonthermal 

sources through excitation by radiation. 

3.1.14 marking: A visible notice, sign, symbol, line or trace. 

3.1.15 passageway: A path through a vehicle that is bordered by walls to allow a 

passenger or crew the ability to move from one place to another. 

3.1.16 Passive illumination: Illumination that is generated without the use of electrical 

energy. 




Edited 4-1-04 

3.1.17 photoluminescent (PL): Having the property of emitting light that continues for 

a length of time after excitation by visible or invisible light has been removed (i.e., selfilluminating.) 

3.1.18 primary exit: The normal (preferred) exit point of passengers and crewmembers 

from the affected car in an emergency to an adjacent car located at either end of the 

affected car. 

3.2 Abbreviations and acronyms 

CFR Code of Federal Regulations 

DIN Deutsche Industrie Norm 

EL electroluminescent 

ERC equivalency review committee 

FAA Federal Aviation Administration 

HPPL high performance photoluminescent material 

IMO International Marine Organization 

LED light-emitting diode 

LLEPM low-location exit path marking 

PL photoluminescent 

PRESS Passenger Rail Equipment Safety Standards 

4. General system requirements 

The LLEPM system must provide evacuation guidance for passengers and crewmembers 

when normal and emergency sources of illumination are obscured or inoperative. It must 

be active, or become active, immediately and automatically upon loss of normal and 

emergency lighting power. Low-location markings must be visible within a volume as 

defined in Section 3.1.10. The system must enable passengers to visually identify the 

escape path to all primary exits in at least two directions. In cars with only one available 

primary exit (e.g., when end doors are locked or secured), additional measures shall be 

taken to direct passengers to an alternative door exit or provide emergency door opening 

instructions for the secured primary exit. 

The low-location marking system shall be composed of three elements: 

– Exit path marking materials/fixtures 

– Exit door marking materials 

– Exit door signage marking materials/fixtures 

The LLEPM system must be independent of the rail car’s normal and emergency lighting 

systems and must become immediately visible when the car’s normal and emergency 

electrical power ceases to operate. This system shall clearly outline the path to the rail 

car’s primary exits, which shall be marked in accordance with APTA SS-PS-002-98, Rev. 

2, Standard for Emergency Signage for Egress/Access of Rail Passenger Equipment. 

LLEPM system requirements are as follows: 




Edited 4-1-04 

a) Shall be visible and provide emergency evacuation guidance for passengers under 

all operating conditions for a period of 1.5 hours after all normal and emergency 

lighting has ceased operation; 

b) Shall provide an easily distinguishable path along the floor from all aisle seating 

and compartment locations in the rail car to all of the car’s primary exits; 

c) Shall include exit signs at each primary exit visible from a low-location (as 

defined in 3.1.10) and from a horizontal distance of 6 feet (1.93 m) from the exit 

along the exit path; 

d) Shall provide readily distinguishable markings along the perimeter of the door or 

door frame visible from a low-location (as defined in 3.1.10) and from a 

horizontal distance of 6 feet (1.93 m) from the exit along the exit path; 

e) Shall provide readily distinguishable markings on or around the door’s operating 

handle. 

Providing the above conditions are met, the LLEPM system may consist of either passive 

(HPPL) marking materials, active (electrical) marking fixtures, or a combination of these 

two systems. 

5. System design requirements 

The LLEPM shall identify an easy-to-follow exit path from all aisle and compartment 

seating positions to the primary exits through the cars center aisle, side aisle, 

passageway, and stairs. The LLEPM system shall consist of either passive (HPPL) 

marking materials, active (electrical) marking fixtures, or a combination of these two 

systems. 

5.1 Passive marking method (HPPL) 

When using HPPL marking materials as exit path marking material in rail cars, an 

ambient light source must be available, (either natural and/or artificial), to provide a 

sufficient charge to the HPPL system prior to the loss of the main lighting power and 

emergency power systems. Annexes B and D provide the lab and field tests necessary to 

demonstrate that the LLEPM meets the criteria for light output of 7.5 mcd/m 2 after 1.5 

hours. 

HPPL marking material may be applied on the floor or upon seat pedestals/components at 

a height of not more than 18 inches (45.7 cm) from the floor on both sides, (unless 

applied as a continuous strip on the floor, in which case, the LLEPM material need only 

be applied to one side or down the middle of the aisle/passageway). The marking material 

shall be oriented to insure that it is easily visible to passengers and crewmembers 

negotiating the aisle/passageway and adequately exposed to the charging light fixtures 

and/or natural light source. 

The width of each marking strip shall not be less than 1 inch (2.54 cm) and may be 

applied either as a continuous or intermittent strip with no uncovered interval exceeding 




Edited 4-1-04 

36 inches (91 cm) in length. The marking material must be positioned to be readily 

recognized as a continuous path from any seat or compartment in the car to all of the 

primary exits. 

The spacing between the corner of a change in direction of the exit path and the marking 

material shall not exceed 4 inches (10 cm). 

EXCEPTION--The maximum spacing of the marking materials may exceed 36 inches 

(91 cm) if the marking system is determined to provide equivalent visual delineation of 

the exit path. 

In all stairways HPPL marking material shall be applied either as a continuous strip 

applied on the partitions of both sides of the stairs or as intermittent strips applied to the 

treads and risers of each step. 

When the HPPL marking material is applied to the stairway partitions the marking shall 

be applied as a continuous strip extending from the lowest to the highest step. Each strip 

shall be a minimum of 1 inch (2.54 cm) wide and be located no higher on the partition 

than 18 inches (45.7 cm) above the stair nosing. 

When the HPPL marking material is applied to the stairway treads and risers a 1 inch 

(2.54 cm) wide strip of material shall extend across the full width of each tread and riser 

near the step nosing. 

5.2 Active marking methods 

5.2.1 Strip marking materials 

In lieu of, or in addition to, HPPL materials, incandescent electroluminescent (EL), and 

LED marking material/fixtures may be employed as LLEPM material. The luminance 

value of the incandescent, EL, or LED marking material/fixtures as measured at the 

active areas shall be not less than 1000 mcd/m 2 . The incandescent, EL, or LED marking 

system shall be independent of the car’s normal and emergency lighting systems and be 

operational for a period of 1.5 hours after all normal and emergency lighting has ceased 

operating. Incandescent, EL, or LED marking material/fixtures may be applied on the 

floor or upon seat pedestals/components at a height that is no more than 18 inches (45.7 

cm) from the floor on at least one side of the aisle/passageway. The marking material 

shall be oriented to insure that it is easily visible to passengers and crewmembers 

negotiating the aisle/passageway. 

The marking material/fixtures may be applied either as a continuous or intermittent strip 

with no uncovered interval exceeding 36 inches (91 cm) in length. The marking 

material/fixtures must be positioned so as to be readily recognizable as a continuous path 

from any seat or compartment in the car to all of the primary exits. 


material/fixture shall not exceed 4 inches (10 cm). 




Edited 4-1-04 




In stairways incandescent, EL, or LED marking material shall be applied either as a 

continuous strip applied on the partitions of at least one side of the stairs or as 

intermittent strips applied to the treads of each step. 

When the marking material is applied to the stairway partitions, the marking shall be 

applied as a continuous strip extending from the lowest to the highest step. The strip shall 

be located no higher on the partition than 18 inches (45.7 cm) above the plane of the stair 

nosing. 

When the marking material is applied to the stairway treads it shall extend across the full 

width of each tread near the step nosing. 

5.2.2 Other active marking methods 

In lieu of, or in addition to, HPPL materials, electrically illuminated marking methods 

using lighting fixtures may be employed as LLEPM material on all cars. Fixtures may be 

mounted on partitions or seat pedestals. These marking systems may include 

incandescent or fluorescent lighting fixtures. The lighting fixtures must be independent of 

the car’s normal and emergency lighting system and be operational for a period of 1.5 

hours after all normal and emergency lighting has ceased operating. 

The partition or pedestal-mounted internally illuminated lighting fixtures may be applied 

at a height of up to 18 inches (45.7 cm) above the floor on at least one side of the 

aisle/passageway and shall be applied at intervals not to exceed 36 inches (91 cm) 

between fixtures. 

In stairways, partition-mounted lighting fixtures shall be installed on at least one side of 

the stairway. A lighting fixture shall be installed at each step tread and be located no 

more than 18 inches (45.7 cm) above the tread. 

The illuminance value of the lighting fixtures shall provide an average illumination value 

of at least 0.1 fc measured and averaged at intervals of 30 inches (76 cm) or less along 

the center of the aisle, passageway, or stairs. The measurements shall be taken 1.5 hours 

after normal lighting has ceased operating with all ambient light obscured. 


material/fixture shall not exceed 4 inches (10 cm). 






5.3 LLEPM exit door markings 



Edited 4-1-04 

All primary exit doors shall be clearly delineated with HPPL marking material. A 

minimum of 1-inch (2.54 cm) wide strips shall be applied to both sides of the exit doors 

or door frames and shall extend from the floor to a minimum height of 12 inches (30 cm) 

above the floor. 

Additionally each door handle, latch, or operating button shall be identified using one of 

the following two methods: 

1) Each door handle, latch, or operating button shall be identifiable using 1 inch 

(2.54 cm) wide outline stripping around the perimeter of the opening device. 

2) Each door handle, latch, or operating button shall be identifiable using an area 

wide pad that is no less than 6 square inches (39 sq. cm) applied to the door or 

door frame directly behind the handle or latch. 

5.4 LLEPM exit door sign 

All primary exit doors shall be clearly marked with an exit sign located on or 

immediately adjacent to each door that is no more than 18 inches (45.7 cm) above the 

floor as measured from the floor to the top of the sign. The LLEPM door exit sign may be 

HPPL material, incandescent, fluorescent, EL, or LED fixtures. The text and color 

requirements shall be in compliance with APTA SS-PS-002-98, Rev. 2 3 relative to exit 

door markings. 

6. Material safety 

Materials used in the manufacture of LLEPM products shall not contain radioactive or 

toxic materials. 

7. System reliability 

All LLEPM systems shall be designed so that the exit path shall not be rendered 

indistinguishable due to the failure of any single HPPL material segment, lighting strip, 

light fixture, or battery. 

8. Operating conditions 

All LLEPM systems shall be designed to operate without failure under the conditions 

typically found in passenger rail equipment. These conditions shall include expected 

mechanical vibrations and shock, electromagnetic interference, and other criteria as 

identified in 49 CFR, Part 238, Passenger Equipment Safety Standards. 



9. Maintenance 



Edited 4-1-04 

All LLEPM systems shall be visually inspected during the daily inspection to determine 

that the system is intact. If broken or missing components of the LLEPM system are 

detected, that shall be noted in accordance with railroad and Federal Railroad 

Administration (FRA) defect reporting procedures. 

A periodic inspection shall be made of the LLEPM system in compliance with the 

requirements in APTA SS-I&M-005-98, Rev. 2, Rail Passenger Car Periodic Inspection 

and Maintenance, for passive marking systems and with APTA SS-I&M-008-98, Rev. 1, 

Electrical Periodic Inspection and Maintenance. Record keeping shall be in accordance 

with railroad and FRA defect reporting procedures. 

The luminance, or illuminance, as appropriate, of all LLEPM system components shall be 

tested at least once every five years, testing a representative sampling of rail passenger 

cars of the same age and design to achieve a 95% confidence level. Components shall be 

replaced if the tested values are less than the minimum values stated herein. 

Record keeping shall be in accordance with federal and railroad defect reporting 

requirements. 


Annex A (informative) 

Bibliography 



Edited 4-1-04 

[B1] ANSI-ASQCZ 1.4, Sampling Procedures and Tables for Inspection by Attributes, 

1993. 

[B2] APTA SS-E-012-99, Recommended Practice for Normal Lighting System Design 

for Passenger Cars. 

[B3] ASTM E 2072-02, Standard Specification for Photoluminescent (Phosphorescent) 

Safety Markings. 

[B4] ASTM E 2030-02, Guide for Recommended Uses of Photoluminescent Safety 

Markings. 

[B5] Chesterfield, B.P., Rasmussen, P.G., and Dillon, R.D. Emergency Cabin Lighting 

Installations: An Analysis of Ceiling- Vs Lower Cabin-Mounted Lighting During 

Evacuation Trials. Federal Aviation Administration. Office of Aviation Medicine. Final 

Report. No. FAA –AM-81-7. 

[B6] Demaree, J. “Examination of Aircraft Interior Emergency Lighting in a Postcrash 

Fire Environment.” Federal Aviation Administration, FAA Technical Center, Final 

Report. No. FAA-DOT/FAA/ct-82/55. 

[B7] Deutsche Industrie Norm (DIN) 67 510, Parts 1-4, German Standard: 

Phosphorescent Pigments and Products, January 1992. 

[B8] Federal Aviation Administration Advisory Circular 25-812-1A, Floor Proximity 

Emergency Escape Path Marking, 5/22/89. 

[B9] Federal Aviation Administration Advisory Circular 25-812-2, Floor Proximity 

Emergency Escape Path Marking Systems Incorporating Photoluminescent Elements, 

7/24/97. 

[B10] Illuminating Engineering Society (IES), Lighting Handbook Reference and 

Applications, Chapter 29: Emergency, Safety and Security Lighting, 9 th Edition, 2000. 

[B11] International Marine Organization (IMO) Resolution A.752 (18), Nov. 4, 1993, 

Guidelines for the Evaluation, Testing and Application of Low-Location Lighting of 

Passenger Ships. 

[B12] McLean, G.A., and C.B. Chittum. Performance Demonstration of Zinc Sulfide 

and Strontium Aluminate Photoluminescent Floor Proximity Escape Path Marking 

Systems. Federal Aviation Administration. Office of Aviation Medicine. Final Report. 

No. DOT/FAA/AM-92/2. 

[B13] National Fire Protection Association (NFPA) 101 Life Safety Code, 2000. 



Edited 4-1-04 

[B14] Rasmussen, P.G, Chesterfield, B.P., and D.L Lowrey. Readability of Self- 

Luminated Signs Obscured by Black Fuel-Fire Smoke, Federal Aviation Administration, 

Office of Aviation Medicine, Final Report. No. FAA-AM-80-13. 

[B15] Rasmussen, P.G., Garner, J.D., Blethrow, J.G., and D.L Lowrey. Readability of 

Self-Luminated Signs in a Smoke Obscured Environment, Federal Aviation 

Administration, Office of Aviation Medicine, Final Report No. FAA-AM-79-108. 

[B16] UL 1994 Standard for Safety for Low Level Path marking and Lighting Systems, 

Second Edition, dated January 28, 1997, including revision as of July 11, 2001. 

[B17] 14 CFR, Part 25, Airworthiness Standards, Transport Category Airplanes: Subpart 

D, Design and Construction, Subsection 25.812(e), Emergency Lighting. 

[B18] 14 CFR, Part 121, (Special Federal Aviation Regulations) Operating 

Requirements: Domestic, Flag, and Supplemental Operations, Subpart K, Instrument and 

Equipment Requirements, Subsection 121.310, Additional Emergency Equipment. 

[B19] 49 CFR, Part 223, Safety Glazing Standards—Locomotives, Passenger Cars and 

Cabooses, Subpart B, Specific Requirements, Subsection 223.9 (d), Requirements for 

New or Rebuilt Equipment–Marking. 



Annex B (informative) 

Passive LLEPM luminance lab test and criteria 



Edited 4-1-04 

The manufacturer/supplier shall provide test reports that the passive HPPL material used 

for LLEPM, in the configuration to be used in the railcar, including any protective 

covering or layer to be used in actual installation meets the luminance level of 7.5 

mcd/m 2 , 1.5 hours after removal of normal and emergency power, when tested according 

to the provisions of ASTM E 2073-00, Standard Test Method for Photopic Luminance of 

Photoluminescent (Phosphorescent) Markings 4 (www.astm.org) with the following three 

modifications: 

f) Section 8.3—Activation: Activate the HPPL material with a fluorescent lamp of 

40W or less and a color temperature of 4100K that provides 5 fc of illumination 

as measured on the material surface. The activation period will be for 60 minutes. 

g) Section 8.4—Luminance: Measure the photopic luminance of all specimens of the 

HPPL material with a luminance meter as described in 5.2 after 1.5 hours +10 s. 

h) Section 9.1.12—The test report will include a luminance measurement after 1.5 

hours. 

At present, the only instruments known to be satisfactory for such measurements and 

commercially available are: 

– DR-2000, Gamma Scientific (see www.gamma-sci.com); 

– B510 photometer, LMT of Berlin (see www.lmt-berlin.de); 

– ERP-105, Hagner Instruments AB (see www.hagnerphotoins.u-net.com); 

– P-9710 Plus Contact Luminance Detector (under development), Gigahertz Optik 

(see www.gigahertz-optik.de/en/). 

NOTE--Other manufacturers may be developing appropriate instruments. 



Annex C (informative) 

Test laboratories 

C.1 ASTM 



Edited 4-1-04 

The following test laboratories can perform the ASTM E 2073 test as modified in Annex 

B: 

Hoffman Engineering Corporation 

8 Riverbend Drive 

P.O. Box 4430 

Stamford, CT 06907-0430 

Tel: 203-425-8900 

Fax: 203-425-8910 

Contact: Jim Delancy 

www.HoffmanEngineering.com 

Gamma Scientific 

8581 Aero Drive 

San Diego, CA 92123 

Tel 858-279-8034 

Fax 858-576-9286 

Contact: Eric Nelson 

www.gamma-sci.com 

Gigahertz Optik 

5 Perry Way 

Newburyport, MA 01950-4009 

Tel: 978-462-1818 

Fax: 978-462-3677 

www.gigahertz-optik.com 

Maritime Associates Inc. 

PO Box 1788 

Crystal Bay, NV 89402 

Tel: 775-832-2422 

Fax: 775-832-2424 

Contact: Mr. John Allen 

www.marinesigns.com 


C.2 Underwriters’ Laboratories (UL) 



Edited 4-1-04 

Underwriters’ Laboratories (UL) has issued UL 1994, Standard for the Safety of 

Emergency Lighting and Power Equipment [B18] 5 . UL 1994 includes requirements for 

photoluminescent and externally powered systems for installation on floors or on wall (at 

or near the floor) to provide a visual delineation of the path of egress during emergency 

situations. 

While this APTA LLEPM standard contains requirements consistent with the general 

concepts of UL 1994, the UL tests and performance criteria are not appropriate to 

evaluate rail passenger car LLEPM. 

UL staff have indicated their interest in developing a testing and listing protocol to 

evaluate active and passive LLEPM systems used in rail passenger cars, based on the 

provisions contained in Annexes B and C of this APTA standard. 

C.3 Deutsche Industrie Norm (DIN) 

DIN 67510, German Standard: Phosphorescent Pigments and Products [B9] is currently 

being revised to allow for extrapolation of luminance values for any time period, e.g. 90 

minutes, based on data collected at only 10, 30 and 60 minutes (values subject to 

change). Extrapolation reduces testing time and costs. Future instruments may be offered 

for sale with the extrapolation function built in and provide the advantage of conducting 

measurements in less time at less cost. Accordingly, ASTM E 2073-00 (see Annex B), 

which is based on DIN 67510, may be revised. The procedures detailed in Annex D.2.2 

above may also be revised. 

5 The numbers in brackets correspond to those of the bibliography in Annex A 


Annex D (informative) 

Passive LLEPM field test and criteria 

D.1 Technical considerations 

There are three variables that affect the visibility of the LLEPM signs: 

a) Illuminance charging levels provided by ambient light 

b) Amount of time that the sign is exposed to light 

c) Type of activating light source 



Edited 4-1-04 

An illumination level of 5 foot-candles (fc) has been shown to provide adequate charging 

light for LLEPM material to meet the criterion of 7.5 mcd/m 2 in rail passenger cars, 1.5 

hours after normal power is removed. Adequate light for HPPL charging to meet the 7.5 

mcd/m 2 criterion is generally available at all locations, except directly under the seats or 

if there are overhangs or other obstructions that block light from reaching the LLEPM. 

Another variable is the available HPPL charging time. To meet the 7.5 mcd/m 2 criterion, 

the adequate charging time at 5 fc would be at least 30 minutes from dark storage to 

departure. Most HPPL materials reach saturation at about 30 minutes. The standard time 

for the test procedure is set at 60 minutes to make certain that all samples have reached 

saturation and to make the results less sensitive to small errors in the timing of 

measurements. While 5 fc provides adequate charging light with cool-white fluorescent 

lighting, warm-white fluorescent or incandescent lights are less effective at charging. If 

warm-white fluorescent or incandescent fixtures are used, the minimum actual charging 

level may need to be increased 20 to 50 per cent respectively to ensure that the charging 

level and time for LLEPM products is adequate. 

As a general rule, if the value of the ambient illuminance level (fc) at the location where 

the product is installed, multiplied by the number of minutes of exposure to a light source 

(natural or artificial), exceeds 150, then the charge is adequate. 

In addition, some samples of HPPL material may be more efficient than others at 

absorbing an ambient light charge, thus actual charging times may differ. However, It 

should also be noted that for the same charging time (but in locations where the 

illuminance on the surface of the HPPL signs is higher for the same amount of time; e.g., 

20 fc for 60 minutes), the sign luminance may be only be increased by 25%. 

Finally, proper placement must avoid damage from cleaning. 


D.2 Verification of compliance options 



Edited 4-1-04 

Compliance with this standard is ultimately the responsibility of the railroad. One of the 

two options described below shall be followed by the railroad and HPPL material 

manufacturer/supplier to verify that the LLEPM products, as installed in their final 

configuration and location, meet the minimum luminance criterion of 7.5 mcd/m 2 , after 

1.5 hours from the removal of normal and emergency lighting, 

D.2.1 Illuminance 

To confirm that the HPPL material is installed in locations that receive adequate 

charging, illuminance measurements shall be taken on the surface of the material as 

installed in all locations (including any protective layer or cover), with an illuminance 

meter. Two suggested instruments that can be used to conduct the measurements are the 

Minolta T-10 or the Extech 401036. (Others are available from Hagner Instruments, 

Gigahertz Optik, and LMT-Berlin). All offer serial data outputs for logging 

measurements directly to a computer. The charging source shall consist of the actual light 

fixtures used in the car. If light diffusers are used on the fluorescent light fixtures, the 

measurements shall be made with the light diffusers in place. The minimum illuminance 

value measured directly on the surface of the LLEPM material shall be 5 fc. 

D.2.2 Luminance 

It is not expected that railroads will themselves conduct luminance measurements of the 

HPPL material used for LLEPM products installed in their cars due to the technical 

complexity of measuring the luminance performance. However, this option may be used 

by the LLEPM manufacturer/supplier, in cooperation with the railroad, to confirm that 

HPPL materials, as installed in their final configuration and location, meet the minimum 

7.5 mcd/m 2 , 1.5 hours after normal and emergency power is removed (instead of the 

option described in D.2.1). 

When a car to be tested arrives: 

a) When a railcar to be tested arrives, immediately place strips of gaffer’s tape or other 

opaque tape (duct tape cannot be used because it transmits too much light) on each 

installed LLEPM strip. These tape strips must prevent any ambient light from 

charging the signage. 

b) Wait at least 48 hours to begin testing (see Items D.2.2.l and D.2.2.m for correction 

factors). 

c) Prior to testing, the temperature of the railcar interior must be stabilized in the normal 

operating range, 77 +/- 5°F. (Cars stored outside in cold weather are likely to show 

seriously degraded performance, if they are tested before being warmed to normal 

temperatures). 



Edited 4-1-04 

d) Begin the test by making the railcar interior completely dark. This may be done by 

placing the car in a dark area of the shop (car wash, etc.), working out-of-doors at 

night, or by masking all windows and doors with heavy paper. Close all doors. Make 

sure no other personnel will attempt to enter the car during the test procedure. 

e) Turn on normal interior lighting, make sure all fixtures are operating, and wait 20 

minutes to ensure that all tubes have reached stable operating temperatures. 

f) Start stopwatch and go through car quickly peeling back opaque tape. Leave about 

three inches in place to mark the location of each covered area. 

g) Be sure that emergency lighting circuits are disabled. 

h) Exactly 60 minutes after tape was peeled back, shut off all lighting. 

i) Exactly 90 minutes later (stopwatch reads 2 hours, 30 minutes), begin taking 

luminance readings using a luminance meter as described in Annex B, at each 

location previously covered by the opaque tape immediately adjacent to portion of the 

tape remaining. This procedure requires a two-person team: one to place the detector 

and call out readings, the other to write them down on a data sheet. Both persons 

must be equipped with small, red-filtered flashlights to see what they are doing. (Red 

light does not charge photoluminescent materials.) The measurements should be 

made in the same order that the tape was peeled back so they are all made 2 hours and 

30 minutes (+/-10 seconds), after the moment of peel back. With practice, a dozen 

measurements can be completed in less than three minutes. 

j) If the period that the LLEPM samples were covered by opaque tape was four days or 

longer and the HPPL materials are wider than the detector aperture of 1.38 inches (35 

mm), no adjustments to the data are necessary. Take a simple arithmetic average of 

the samples. If the average exceeds 7.5 mcd/m 2 , the car has passed. If these 

conditions are not satisfied, perform the following corrections before taking the 

average. 

k) If the dimensions of the LLEPM samples to be measured are less than the luminance 

sensor aperture: 1.97 in. (50 mm) or 1.38 inches (35 mm), a special aperture plate 

should be ordered with a diameter slightly less than the width of the strips. The 

luminance meter manufacturer will supply a correction factor for this plate. Each 

reading must be multiplied by this correction factor. 

l) Alternatively, a correction factor can be determined for a standard aperture by 

calculating the ratio of its area to that of the area of HPPL material within the 

aperture. The equation for this trigonometric calculation is found in several standard 

handbooks, and Volpe staff will supply values on request for any given HPPL 

material width. For example, a HPPL sample of 1.3 inch (33 mm) width requires a 

correction factor of 1.016 for a 35 mm aperture. These correction factors assume that 

the detector is precisely centered on the material when the measurements are taken. 

Hence, it is better to order a special aperture plate so that it is easy to center the 

detector on the material. 




Edited 4-1-04 

m) The minimum darkness period to condition the HPPL material is 48 hours. If the 

period during which the samples are covered by opaque tape is less than four days, an 

additional correction is required. Subtract the values in the following table from the 

measured luminance value: 

n) Example: 

Covered period 

48 to 72 hours 0.2 

72 to 96 hours 0.1 

Greater than 96 hours 0 


Correction value 

(mcd/m 2) 

The purpose of this correction is to compensate for the small amount of residual 

charge that may remain in the HPPL material from before the time it was covered 

with opaque gaffer’s tape. 

o) Although luminance meter averages are used to indicate that the LLEPM meet 

minimum criteria of 7.5 mcd/m 2 , if individual HPPL segments are noticeably less 

bright, or any other indication is seen that the LLEPM does not meet the criteria 

described in Section 5 of this standard, gaps exist between segments that are greater 

than 18 inches and alternative corrective actions must be taken to increase light 

output. 

D.3 Alternatives to increase light output 

If during the rail car interior field tests, the performance of the HPPL material fails to 

meet the criteria of illuminance of 5 fc using normal lighting or luminance of 7.5 mcd/m 2 

after normal power is removed for 1.5 hours as measured directly on the material surface, 

there are several alternative actions that can be taken to increase the HPPL light output 

levels: 

a) All of the light fixtures near the LLEPM test samples should be checked to ensure 

proper working order. 

b) Light fixtures must be clean and the diffusers not yellowed with age. Old, dirty 

fixtures have been measured with less than half the light output of clean ones with 

new diffusers. 

c) Fluorescent tubes should be checked to ensure they are not near the ends of their 

service lives, where light output drops significantly. 

d) Incandescent lamps or warm white tubes should be replaced with cool, white 

fluorescent tubes. 

e) Existing fluorescent tubes should be replaced with those of recent design that provide 



Edited 4-1-04 

10-15% more light for the same wattage rating and double the service life. 

f) If the luminance performance criteria cannot be met after taking any of the above 

actions, the field tested HPPL materials must be replaced with HPPL materials that 

demonstrate greater performance than the lab test minimum criteria of 7.5 mcd/m 2 , 

1.5 hours after normal power is removed. Some HPPL materials can meet the

4. APTA SS-PS-004-99, Rev. 1 Standard for Low-Location Exit Path ...

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