Emergency and Egress Lighting

Revision 1 · SynC Standards Team — Specifier, SynC (SynC Platform Team / Platform Standards) ✓ Official · Jun 12, 2026 +798 −0

Initial publication

Showing changes from Initial revision to Rev 1 in Emergency and Egress Lighting.

+---

+title: Emergency and Egress Lighting

+category: Electrical / Lighting

+toc_depth: 3

+description: >

+ When to use: Means-of-egress illumination, emergency lighting, and exit signs

+ for new construction and renovation of commercial, institutional, assembly,

+ and multi-occupancy buildings; covers self-contained unit equipment, integral

+ battery packs, emergency transfer devices, central inverter systems, and exit

+ signage with 90-minute duration to NFPA 101, IBC Chapter 10, and NEC Article 700.

+ Not intended for: The normal architectural lighting design (see

+ [[syncs/lighting-fixtures]]), normal lighting controls (see

+ [[syncs/lighting-controls]]), the on-site generator and its transfer scheme as

+ a system (see [[syncs/generators]] and [[syncs/emergency-and-standby-power]]),

+ or fire alarm notification appliances (see [[syncs/fire-alarm-systems]]).

+---

+# Scope {toc}

+## This standard covers the design, performance, equipment, and installation of emergency lighting, egress-path illumination, and exit signage for the means of egress. {note}

+## Emergency and egress lighting exists to keep the path to a public way visible and usable when normal power is lost, so occupants can evacuate without the building's primary lighting. {note}

+## The means of egress comprises three connected parts: the exit access (the path from any occupied point to an exit), the exit (the protected route such as an enclosed stair), and the exit discharge (the path from the exit to a public way, including the exterior). {note}

+## The Work includes emergency luminaires, exit signs, integral and remote battery equipment, emergency transfer devices, central inverter systems where specified, photometric demonstration of egress illumination, and connection to the emergency power source.

+## The illumination performance levels, the 90-minute duration, the 40:1 uniformity limit, and the equipment listing requirements in this standard are common to NFPA 101 and the International Building Code; where an Authority Having Jurisdiction adopts a different edition, the more stringent provision governs. {note}

+## Related Work {toc}

+### The normal architectural lighting layout, fixture types, and finishes are specified in [[syncs/lighting-fixtures]]; this standard governs only the emergency function added to or independent of those fixtures. {note}

+### Normal and automatic lighting controls, including occupancy sensing and daylight dimming, are specified in [[syncs/lighting-controls]]; emergency lighting shall override controls to full output on loss of normal power. {note}

+### The on-site generator, its fuel system, and its transfer scheme as an emergency power source are specified in [[syncs/generators]] and [[syncs/emergency-and-standby-power]]; this standard governs only the lighting load and the bridging equipment at the luminaire. {note}

+### Fire alarm notification appliances and the fire alarm control panel are specified in [[syncs/fire-alarm-systems]]; this standard governs only the supervised interface between emergency lighting and that panel. {note}

+# Referenced Standards {toc}

+## The publications listed below are referenced in this standard; the edition adopted by the Authority Having Jurisdiction governs, and where editions conflict the more stringent provision applies. {note}

+| Standard | Title |

+|----------|-------|

+| NFPA 101 (2021) | Life Safety Code (Sections 7.8 Illumination of Means of Egress and 7.9 Emergency Lighting) |

+| NFPA 70 (2023) | National Electrical Code (Article 700, Emergency Systems) |

+| NFPA 110 (2022) | Standard for Emergency and Standby Power Systems |

+| IBC (2021) | International Building Code, Chapter 10 Means of Egress (Sections 1008 Means of Egress Illumination and 1013 Exit Signs) |

+| UL 924 | Standard for Emergency Lighting and Power Equipment |

+| UL 1994 | Standard for Luminous Egress Path Marking Systems |

+| UL 508A | Standard for Industrial Control Panels (central inverter and battery control cabinets) |

+| IES LM-79 | IES Approved Method for the Electrical and Photometric Measurements of Solid-State Lighting Products (manufacturer's IES photometric files for egress-path compliance) |

+# Definitions {toc}

+## The following terms are used in this standard: {note}

+- **Emergency luminaire:** a luminaire energized by the emergency power source that provides egress-path illumination when normal power is lost.

+- **Unit equipment:** a self-contained device with an integral rechargeable battery, charger, and one or more lamp heads that operates independently of any central battery or generator.

+- **Integral emergency battery pack (IEBP):** a battery and control module installed within or adjacent to a standard architectural luminaire that drives that luminaire's light source on loss of normal power.

+- **Emergency transfer device (ETD), also called an automatic load control relay (ALCR):** a listed line-voltage device that keeps a normally-ON luminaire on its normal circuit and transfers it to a battery or inverter source on power loss, so the luminaire stays continuously illuminated.

+- **Central inverter system:** a centralized static inverter and battery plant that feeds dedicated emergency branch circuits serving multiple luminaires from a single maintained source.

+- **Exit sign:** a listed sign marking the location of, and direction to, an exit, illuminated internally or by passive photoluminescence.

+- **Duration:** the time the emergency source sustains the required illumination after loss of normal power; the code baseline is 90 minutes.

+# Performance Requirements {toc}

+## Illumination Levels {toc}

+### Emergency illumination is specified at the floor along the egress path, not at a work plane, because occupants navigate the floor and obstructions during evacuation. {note}

+### NFPA 101 permits the illumination to decline over the duration as the battery discharges; the standard therefore specifies both an initial and an end-of-duration level. {note}

+### The emergency lighting system shall provide an average of not less than 1 fc and a minimum at any point of not less than 0.1 fc, measured at the floor along the entire egress path, at the start of the 90-minute duration.

+### The emergency lighting system shall provide an average of not less than 0.6 fc and a minimum at any point of not less than 0.06 fc, measured at the floor along the entire egress path, at the end of the 90-minute duration.

+### Illumination of the means of egress shall be continuous during the time the building is occupied under normal power, at not less than 1 fc at the floor.

+### Stairways that are part of the means of egress shall be illuminated to not less than 10 fc at the walking surface while in use.

+```datasheet

+label: Egress-path emergency illumination (initial, at floor)

+type: range

+unit: fc

+min: 1.0

+max: 5.0

+step: 0.5

+setpoints: [1.0]

+default: 1.0

+note: NFPA 101 / IBC minimum average. Increase only where the AHJ or occupancy requires higher levels.

+```

+```datasheet

+label: Minimum point illumination (initial, at floor)

+type: range

+unit: fc

+min: 0.1

+max: 1.0

+step: 0.1

+setpoints: [0.1]

+default: 0.1

+```

+## Uniformity {toc}

+### A uniform path prevents both dark pockets that hide hazards and bright spots that constrict the pupil and leave adjacent areas effectively dark. {note}

+### Checking only the average illumination is a common error; widely spaced or high-output fixtures near exits with low output at corridor midpoints can satisfy the average yet exceed the uniformity limit and fail inspection. {note}

+### The ratio of maximum to minimum illumination along any portion of the egress path shall not exceed 40 to 1.

+```datasheet

+label: Maximum-to-minimum uniformity ratio (limit)

+type: range

+unit: ratio (max:min)

+min: 10

+max: 40

+step: 5

+setpoints: [40]

+default: 40

+note: 40:1 is the code ceiling. A tighter ratio improves spacing margin in long corridors and stairs.

+```

+## Duration {toc}

+### The 90-minute duration covers the time required to evacuate and for responders to operate; equipment rated for shorter durations does not meet the code. {note}

+### Sixty-minute equipment is sold and is sometimes substituted, but it does not satisfy NFPA 101 or IBC for egress and shall not be accepted; the duration is therefore stated explicitly. {note}

+### Emergency luminaires and exit signs shall provide the required illumination for a minimum of 90 minutes after loss of normal power.

+```datasheet

+label: Minimum emergency duration

+type: select

+unit: minutes

+options:

+ - 90

+ - 120

+ - 180

+default: 90

+note: 90 minutes is the code minimum. 60-minute equipment is non-compliant for egress and is not an option.

+```

+## Photometric Demonstration {toc}

+### Because the consequence of an under-illuminated egress path is concealed during normal operation and only revealed in an emergency, compliance shall be demonstrated by calculation rather than assumed from fixture count. {note}

+### The Contractor shall submit point-by-point photometric calculations, using the manufacturer's published IES files, demonstrating the required initial and end-of-duration illumination and the uniformity limit along the entire egress path.

+### The photometric calculation shall include the exit discharge, including the exterior path from the exit door to the public way.

+### The calculation shall account for the lumen depreciation of the battery-supplied source at the end of the 90-minute duration, not only the initial output.

+# Emergency Power Source {toc}

+## Selecting the Source {toc}

+### The emergency power source determines the wiring, transfer, and maintenance approach for the entire system and is therefore the first decision in the design. {note}

+### Three sources are recognized: self-contained unit equipment and integral battery packs at each luminaire, a central battery or inverter plant feeding dedicated emergency branch circuits, and an on-site generator feeding emergency branch circuits through an automatic transfer switch. {note}

+### Unit equipment distributes the battery to each device for simple installation and graceful partial failure but multiplies the number of batteries to maintain; a central system concentrates maintenance at one plant but introduces a single point of failure and dedicated emergency feeders. {note}

+### The emergency power source for each area shall be as scheduled. [[drawing: emergency power source by area on the electrical drawings]]

+```datasheet

+label: Emergency power source

+type: select

+options:

+ - Self-contained unit equipment (integral battery per device)

+ - Integral emergency battery packs in architectural luminaires

+ - Central inverter system on dedicated emergency branch circuits

+ - On-site generator with automatic transfer switch

+default: Self-contained unit equipment (integral battery per device)

+```

+## Self-Contained Unit Equipment {toc}

+### Self-contained unit equipment is the most common solution for corridors, stairs, and discrete egress points because each unit is independent and needs no dedicated emergency feeder. {note}

+### Unit equipment shall be UL 924 listed.

+### Unit equipment shall accept a dual-voltage input of 120 V and 277 V, or a universal MVOLT input spanning 120 V through 277 V, to suit the available branch circuit.

+### Unit equipment shall include an integral charger that automatically recharges the battery to full capacity within 24 hours after a full 90-minute discharge.

+### Unit equipment shall include a visible charge-status indicator and a manual test means accessible from the floor or by standard means.

+### Unit equipment located in damp or wet locations shall be listed for the location and shall be housed in a die-cast or corrosion-resistant enclosure.

+```datasheet

+label: Unit equipment input voltage

+type: select

+unit: V

+options:

+ - "120/277 dual-voltage"

+ - "MVOLT (120 through 277)"

+ - "347 (where served by 347 V system)"

+default: "MVOLT (120 through 277)"

+```

+```datasheet

+label: Unit equipment enclosure / location rating

+type: select

+options:

+ - Thermoplastic, dry/indoor location

+ - Die-cast aluminum, damp location

+ - Die-cast aluminum, wet location listed

+default: Thermoplastic, dry/indoor location

+```

+```datasheet

+label: Remote lamp heads per unit

+type: select

+unit: heads

+options:

+ - 2

+ - 4

+ - 6

+default: 2

+note: Head count and aiming are confirmed against the photometric layout.

+```

+## Battery {toc}

+### Battery chemistry sets the temperature tolerance, the maintenance life, and the disposal handling of every unit, so it is specified rather than left to the supplier. {note}

+### Nickel-cadmium cells tolerate wide temperature ranges but contain cadmium that some jurisdictions restrict at disposal; nickel-metal-hydride cells are cadmium-free; sealed lead-acid is typical only for larger central plants. {note}

+### The battery shall be rated to deliver the full 90-minute duration at the lowest ambient temperature of its installed location.

+### The battery and its housing shall be rated for the ambient temperature of the installed location, and battery rooms or cabinets shall be maintained within the manufacturer's rated range.

+```datasheet

+label: Battery chemistry

+type: select

+options:

+ - Nickel-cadmium (NiCd)

+ - Nickel-metal-hydride (NiMH)

+ - Sealed lead-acid (SLA, central systems)

+default: Nickel-metal-hydride (NiMH)

+note: NiMH avoids cadmium disposal restrictions. SLA is typical only for central inverter plants.

+```

+```datasheet

+label: Minimum battery ambient temperature rating

+type: range

+unit: °C

+min: -30

+max: 10

+step: 5

+setpoints: [0]

+default: 0

+note: Set to the coldest expected ambient at the device (unconditioned stairs, vestibules, exterior).

+```

+## Integral Emergency Battery Packs {toc}

+### An integral battery pack turns a standard architectural luminaire into an emergency luminaire, avoiding a separate emergency fixture and keeping the ceiling appearance uniform. {note}

+### Not every LED driver is compatible with every battery pack; specifying a pack without confirming the driver pairing produces a field substitution or a request for information, so a factory-matched or tested combination is required. {note}

+### Integral emergency battery packs shall be UL 924 listed.

+### The battery pack and the host luminaire's LED driver shall be a factory-matched or manufacturer-tested combination, confirmed in the submittal.

+### The battery pack shall drive the host luminaire to a constant emergency lumen output sufficient to satisfy the egress illumination requirement, and that output shall be stated in the submittal.

+```datasheet

+label: Integral battery pack emergency output

+type: range

+unit: lm

+min: 500

+max: 1500

+step: 100

+setpoints: [1100]

+default: 1100

+note: Emergency lumens delivered by the host luminaire on battery; confirm against the photometric layout.

+```

+## Emergency Transfer Device (ETD / ALCR) {toc}

+### Where a luminaire is normally on and switched by lighting controls, an emergency transfer device keeps it lit through a power loss without the visible flicker of a dark-to-bright transfer. {note}

+### Because lighting controls may switch a circuit off during normal occupancy, the transfer device monitors the upstream normal supply, not the local switch leg, so loss of normal power forces full output regardless of control state. {note}

+### Emergency transfer devices shall be UL 924 listed.

+### The emergency transfer device shall sense the normal line voltage ahead of any local control or dimming and shall force the connected luminaire to full output on loss of that normal supply.

+### The emergency transfer device shall restore the luminaire to normal control automatically when normal power is restored.

+# Exit Signs {toc}

+## Exit sign type, color, and legend are coordinated with the Authority Having Jurisdiction because requirements vary by jurisdiction and occupancy. Most United States jurisdictions require red letters; some adopt green, and some municipalities require a bilingual legend, so the color and legend are confirmed before procurement. {note}

+## Type and Listing {toc}

+### Internally illuminated LED exit signs are the common solution; edge-lit and photoluminescent types serve specific aesthetic or maintenance goals. {note}

+### A passive photoluminescent sign above a door is code-recognized only when it is UL 924 listed; UL 1994 listed products are egress path markings and are not recognized as exit signs, and Authorities routinely reject UL 1994-only signs at door positions. {note}

+### A photoluminescent exit sign requires continuous ambient illumination to charge; in zones where controls dim the ambient lighting below the charging threshold, the sign will not sustain its glow and shall not be used. {note}

+### Exit signs shall be UL 924 listed.

+### Internally illuminated exit signs shall use LED light sources.

+### Battery-backed exit signs shall sustain the legend illumination for a minimum of 90 minutes after loss of normal power.

+### Photoluminescent exit signs, where used, shall receive not less than 5 fc of continuous ambient illumination at the sign face during occupied hours to maintain the listed 90-minute glow performance.

+### Photoluminescent exit signs shall not be used in zones where lighting controls reduce the ambient illumination below 5 fc at the sign face.

+```datasheet

+label: Exit sign type

+type: select

+options:

+ - LED internally illuminated, AC with integral 90-minute battery

+ - LED internally illuminated, AC only on emergency/inverter circuit

+ - LED edge-lit, AC with integral 90-minute battery

+ - Photoluminescent, UL 924 listed (passive)

+default: LED internally illuminated, AC with integral 90-minute battery

+```

+## Color and Legend {toc}

+### Exit sign letter color shall be as required by the Authority Having Jurisdiction.

+### The legend and any additional language shall be as required by the Authority Having Jurisdiction.

+```datasheet

+label: Exit sign letter color

+type: select

+options:

+ - Red

+ - Green

+default: Red

+note: Confirm with the AHJ. Red is the predominant US requirement; some jurisdictions require green.

+```

+```datasheet

+label: Exit sign legend

+type: select

+options:

+ - EXIT

+ - EXIT / SORTIE (bilingual)

+default: EXIT

+```

+## Mounting and Direction {toc}

+### Single-face, double-face, and combination configurations and the directional chevrons are determined by the sign's position in the egress path. {note}

+### Exit signs shall be single-face or double-face as required by the visibility of the sign from the approach directions. [[drawing: single/double face by location on the exit sign plan]]

+### Directional chevrons shall be provided and oriented to indicate the direction of egress travel where the direction is not obvious. [[drawing: chevron direction by location on the exit sign plan]]

+### The mounting position of each exit sign shall be as indicated. [[drawing: ceiling, wall, or end-mount by location on the exit sign plan]]

+```datasheet

+label: Exit sign faces

+type: select

+options:

+ - Single-face

+ - Double-face

+default: Single-face

+```

+```datasheet

+label: Exit sign mounting

+type: select

+options:

+ - Ceiling-mounted

+ - Wall-mounted

+ - End-mounted (perpendicular to wall)

+default: Wall-mounted

+```

+## Combination Exit / Emergency Units {toc}

+### A combination unit houses an exit sign and emergency lamp heads in one enclosure, reducing the fixture count at exit doors where both functions are needed. {note}

+### Combination exit and emergency units, where used, shall be UL 924 listed and shall meet both the exit sign and the emergency luminaire requirements of this standard.

+```datasheet

+label: Combination exit/emergency unit

+type: checkbox

+options:

+ - Provide combination exit/emergency unit at designated doors

+default: []

+```

+# Photoluminescent Egress Path Marking {toc}

+## Floor-proximity path markings supplement exit signs in stairs and along egress paths; smoke accumulates at head height, so markings near the floor remain visible when overhead signs do not. {note}

+## These markings are a supplement and never a substitute for UL 924 listed exit signs; their separate listing standard reflects a different, supplemental role. {note}

+## Photoluminescent egress path marking, where provided, shall be UL 1994 listed.

+## Photoluminescent path markings shall not be substituted for UL 924 listed exit signs at door positions.

+## Photoluminescent path markings shall receive the continuous ambient charging illumination required by their listing to maintain the rated glow duration.

+## Path marking locations shall be as indicated. [[drawing: floor strip, stair nosing, and handrail marker locations on the egress marking plan]]

+```datasheet

+label: Photoluminescent path marking components

+type: checkbox

+options:

+ - Floor-proximity strips

+ - Stairway nosing markers

+ - Handrail markers

+default: []

+```

+# Central Inverter Systems {toc}

+## A central inverter feeds many emergency luminaires from one maintained battery plant, concentrating maintenance and testing at a single location at the cost of dedicated emergency feeders and a single point of failure. {note}

+## Sizing the inverter only to the steady connected wattage ignores LED driver inrush on transfer, the power factor of the load, and future expansion, and produces nuisance tripping or an undersized plant; a design margin is therefore required. {note}

+## Where specified, the central inverter system shall be UL 924 listed; custom or field-assembled control cabinets shall additionally be UL 508A listed.

+## The inverter shall be sized to not less than 125% of the connected emergency lighting load, accounting for LED driver inrush and power factor.

+## The inverter output voltage shall match the served luminaire driver input voltage.

+## The inverter shall transfer to battery and maintain output within the interval required to keep the connected luminaires continuously illuminated, with no perceptible interruption.

+```datasheet

+label: Central inverter output voltage

+type: select

+unit: V

+options:

+ - 120

+ - 277

+ - 347

+default: 277

+```

+```datasheet

+label: Inverter design margin over connected load

+type: range

+unit: "%"

+min: 125

+max: 200

+step: 25

+setpoints: [125]

+default: 125

+note: 125% is the minimum. Increase where future expansion or high driver inrush is expected.

+```

+```datasheet

+label: Inverter battery technology

+type: select

+options:

+ - Sealed lead-acid (SLA)

+ - Nickel-cadmium (NiCd)

+default: Sealed lead-acid (SLA)

+```

+# Generator-Fed Emergency Lighting {toc}

+## Where the emergency power source is an on-site generator, normal architectural luminaires on dedicated emergency panels become the egress lighting, transferred by an automatic transfer switch. {note}

+## A generator is not instantaneous; the transfer switch and the generator start introduce a delay that battery equipment at critical points must bridge so the egress path is never dark during the transfer. {note}

+## The transfer switch for an emergency system has stricter listing requirements than a standby switch; a switch listed only for optional standby use does not qualify. {note}

+## The automatic transfer switch serving emergency lighting shall be listed for emergency system use per NEC 700.5(C), and shall be electrically operated and mechanically held.

+## Transfer of the emergency lighting load to the generator shall occur automatically within 10 seconds of loss of normal power, per NEC 700.12.

+## Battery-equipped luminaires or exit signs shall be provided at exit signs, stairs, and other critical egress points to bridge the transfer interval, and shall be specified wherever the generator start time may exceed 10 seconds, such as in cold climates without an engine pre-heat system.

+## The generator set, fuel storage, and testing intervals are governed by NFPA 110-2022 and are specified in [[syncs/generators]]; the transfer time, bridging-battery requirement, and testing provisions shall be coordinated with that specification. {note}

+```datasheet

+label: Transfer switch listing

+type: select

+options:

+ - Listed for emergency system use per NEC 700.5(C)

+default: Listed for emergency system use per NEC 700.5(C)

+note: A switch listed only for optional standby use does not qualify for an emergency system.

+```

+```datasheet

+label: Maximum transfer time to generator

+type: range

+unit: s

+min: 5

+max: 10

+step: 1

+setpoints: [10]

+default: 10

+note: NEC 700.12 ceiling. Battery bridging covers the generator start interval at critical points.

+```

+```datasheet

+label: Battery bridging at critical egress points

+type: checkbox

+options:

+ - Provide battery-backed exit signs and stair lighting to bridge transfer

+default:

+ - Provide battery-backed exit signs and stair lighting to bridge transfer

+```

+# Electrical Installation {toc}

+## Wiring Independence {toc}

+### Emergency wiring is kept entirely separate from normal wiring so a fault on a normal circuit cannot disable the emergency system; inspectors check this separation specifically. {note}

+### Emergency circuit conductors run in the same raceway or box as normal branch-circuit conductors are a code violation, so the separation is documented on the drawings. {note}

+### Emergency system wiring shall be kept entirely independent of normal-system wiring per NEC 700.10, in separate raceways, boxes, cabinets, and panelboards.

+### Emergency panelboards shall be designated with an 'E' prefix on the drawings and labeled in the field. [[drawing: emergency panel designations on the panel schedule]]

+### Emergency wiring shall not be installed in the same raceway, cable, box, or cabinet as normal branch-circuit wiring, except where permitted for transfer equipment by NEC 700.10.

+## Connection of Unit Equipment {toc}

+### Unit equipment and integral battery packs shall be connected ahead of any local switch, to the same branch circuit and unswitched supply that feeds the normal lighting in the area served, per NEC 700.12(I).

+### The branch circuit feeding unit equipment shall not be controlled by any switch other than the system's overcurrent device.

+## Surge Protection {toc}

+### The 2023 NEC added a surge protection requirement for emergency panelboards and switchboards that was not present in the 2020 edition; where the 2023 NEC is adopted this provision applies. {note}

+### A surge protective device shall be provided on emergency system panelboards and switchboards where required by the adopted edition of NEC Article 700.

+## Exterior Exit Discharge {toc}

+### The exit discharge path from the exit door to the public way is part of the means of egress and must be illuminated, yet emergency circuits are frequently placed only inside the building, leaving the exterior path dark. {note}

+### The path of egress from the exit door to the public way shall be illuminated by emergency luminaires on the emergency circuit or by battery-backed luminaires, per NFPA 101 §7.9.1.1.

+### Exit discharge luminaire locations shall be as indicated. [[drawing: exit discharge luminaire locations on the site/egress plan]]

+# Monitoring and Self-Testing {toc}

+## Test Regime {toc}

+### Emergency equipment is tested on a fixed schedule because a battery that has silently failed provides no warning until the moment it is needed. {note}

+### A manual regime requires a 30-second functional test monthly and a full 90-minute discharge test annually; listed self-testing equipment may perform these automatically and is frequently specified to reduce inspection labor. {note}

+### Manually tested equipment shall be subjected to a 30-second functional test monthly and a 90-minute full-duration test annually, with results recorded.

+### Self-testing equipment, where specified, shall be UL 924 listed for self-testing, shall automatically perform the monthly and annual tests, shall record the results, and shall annunciate a failure locally.

+```datasheet

+label: Test method

+type: select

+options:

+ - Manual (monthly 30-second, annual 90-minute)

+ - Listed self-testing / self-diagnostic

+default: Listed self-testing / self-diagnostic

+note: Self-testing units must be paired with a monitoring output, or a failure annunciates only at the device.

+```

+## Monitoring Output {toc}

+### A self-testing unit that fails its test annunciates only at the device unless it is connected to a monitoring system; without a reported output the failure can go unseen, defeating the purpose of self-testing. {note}

+### Self-testing equipment and central inverter systems shall provide a supervised output reporting trouble and test-failure status to the building automation system or fire alarm control panel.

+### The monitoring output protocol shall be as scheduled. [[drawing: monitoring protocol and termination on the controls/FA drawings]]

+### Testing provisions and the supervised interface shall satisfy NEC 700.3.

+```datasheet

+label: Monitoring output protocol

+type: select

+options:

+ - Dry contact (supervised)

+ - RS-485 (Modbus)

+ - BACnet

+ - Proprietary network

+default: Dry contact (supervised)

+```

+```datasheet

+label: Monitoring destination

+type: select

+options:

+ - Building automation system (BAS)

+ - Fire alarm control panel (FACP)

+ - Both BAS and FACP

+default: Building automation system (BAS)

+```

+# Submittals {toc}

+## Action Submittals {toc}

+### The Contractor shall submit the following action submittals for review before procurement:

+- Product data for each emergency luminaire, exit sign, battery pack, transfer device, and inverter, with UL 924 listing identified

+- Point-by-point photometric calculations covering the entire egress path including the exterior exit discharge, at initial and end-of-duration levels

+- Battery data sheets showing chemistry, duration rating, and ambient temperature rating

+- For integral battery packs, documentation of the factory-matched or tested driver-and-pack combination

+- For central inverter systems, sizing calculations showing the 125% minimum design margin and the UL 924 (and UL 508A where applicable) listing

+- Exit sign schedule showing type, color, legend, faces, mounting, and chevron direction by location

+- Monitoring output protocol and the interface to the BAS or fire alarm control panel

+```datasheet

+label: Action submittals

+type: checkbox

+options:

+ - Product data with UL 924 listing

+ - Photometric calculations (egress path + exterior discharge)

+ - Battery data (chemistry, duration, temperature)

+ - Driver-and-pack matched combination documentation

+ - Central inverter sizing and listing

+ - Exit sign schedule

+ - Monitoring output / interface documentation

+default:

+ - Product data with UL 924 listing

+ - Photometric calculations (egress path + exterior discharge)

+ - Exit sign schedule

+```

+## Closeout Submittals {toc}

+### The Contractor shall submit the following closeout submittals before final acceptance:

+- Operation and maintenance manuals for all emergency equipment

+- Record of the initial 90-minute acceptance discharge test for each unit and system

+- Warranty documentation for equipment and batteries

+- Battery replacement schedule and recommended spare quantities

+- Final as-installed exit sign and emergency luminaire locations

+```datasheet

+label: Closeout submittals

+type: checkbox

+options:

+ - Operation and maintenance manuals

+ - Initial 90-minute acceptance test record

+ - Warranty documentation

+ - Battery replacement schedule

+ - As-installed locations

+default:

+ - Operation and maintenance manuals

+ - Initial 90-minute acceptance test record

+ - Warranty documentation

+```

+## Informational Submittals {toc}

+### The Contractor shall submit the following informational submittals:

+- Manufacturer's installation instructions for each product type

+- Certification that all emergency luminaires and exit signs are UL 924 listed

+- Authority Having Jurisdiction confirmation of exit sign color and legend

+- Field test reports for the monthly and annual or self-test verification

+```datasheet

+label: Informational submittals

+type: checkbox

+options:

+ - Installation instructions

+ - UL 924 listing certification

+ - AHJ confirmation of exit sign color/legend

+ - Field test reports

+default:

+ - Installation instructions

+ - UL 924 listing certification

+```

+# Quality Assurance {toc}

+## All emergency luminaires and exit signs shall be UL 924 listed, regardless of technology type; UL 924 is the single required listing that makes the equipment code-recognized by NFPA 101 and the IBC. {note}

+## The installer shall be experienced in emergency lighting and Article 700 wiring separation and shall be able to demonstrate prior projects of comparable scope. {note}

+## All emergency luminaires, exit signs, and power equipment shall bear a UL 924 listing mark.

+## Photoluminescent egress path marking shall bear a UL 1994 listing mark.

+## The installation shall comply with the emergency system wiring separation requirements of NEC Article 700.

+# Testing {toc}

+## Acceptance testing confirms that the system delivers its rated duration and illumination as installed, not merely as specified, since installation errors and weak batteries are not visible under normal power. {note}

+## The Contractor shall perform a full 90-minute discharge test of every emergency luminaire, exit sign, and emergency system after installation and shall record the results.

+## During the acceptance discharge test, the illumination along the egress path shall be field-verified to meet the required end-of-duration levels and the uniformity limit.

+## The transfer of generator-fed and inverter-fed systems shall be tested to confirm transfer within the specified interval and continuous illumination of bridged points.

+## Any luminaire, sign, or system that fails to sustain the full 90-minute duration or to meet the required illumination shall be repaired or replaced and retested.

+```datasheet

+label: Acceptance test duration

+type: select

+unit: minutes

+options:

+ - 90

+ - 120

+ - 180

+default: 90

+note: Match to the specified equipment duration rating.

+```

+# Installation {toc}

+## Emergency luminaires shall be located and aimed to achieve the photometric layout, with lamp heads adjusted in the field to eliminate dark pockets along the egress path. [[drawing: emergency luminaire locations on the lighting plan]]

+## Exit signs shall be installed so that no point in the exit access is more than the code-permitted travel distance from a visible sign, and so that a sign is visible from every required direction of approach.

+## Emergency wiring shall be installed in raceways, boxes, and panels kept entirely separate from normal wiring per NEC 700.10.

+## Unit equipment shall be mounted at a height and location that keeps the charge indicator and test means accessible.

+## Photoluminescent exit signs and path markings shall be installed only where the ambient charging illumination meets the listed requirement during occupied hours.

+## Coordination {toc}

+### Emergency luminaire and exit sign locations shall be coordinated with the architectural reflected ceiling plan, structure, and mechanical and fire-suppression equipment to maintain required illumination and visibility. {note}

+### The emergency lighting monitoring interface shall be coordinated with the building automation and fire alarm installers so the supervised output is terminated and verified. {note}

+# Delivery, Storage, and Handling {toc}

+## Batteries lose capacity and can be damaged by prolonged storage at temperature extremes or in a discharged state, so storage conditions are controlled. {note}

+## Equipment shall be delivered in the manufacturer's original packaging with listing marks intact.

+## Battery-containing equipment shall be stored in a dry, conditioned space within the manufacturer's storage temperature range.

+## Batteries shall be charged on installation per the manufacturer's commissioning instructions, and equipment stored beyond the manufacturer's permitted shelf interval shall have batteries verified or replaced before acceptance.

+# Warranty {toc}

+## Emergency lighting equipment shall carry the manufacturer's full warranty for the luminaire, sign, or inverter for a minimum of 5 years from Substantial Completion.

+## Batteries shall carry a warranty for a minimum of 5 years, prorated as permitted by the manufacturer, from Substantial Completion.

+```datasheet

+label: Equipment warranty period

+type: range

+unit: years

+min: 1

+max: 10

+step: 1

+setpoints: [5]

+default: 5

+```

+```datasheet

+label: Battery warranty period

+type: range

+unit: years

+min: 1

+max: 10

+step: 1

+setpoints: [5]

+default: 5

+```

+# Spare Parts {toc}

+## Spare batteries are stocked because they are the wear component most likely to require replacement within the equipment's service life, and a stocked spare avoids egress equipment being out of service awaiting delivery. {note}

+## The Contractor shall furnish spare batteries for the emergency luminaires and exit signs in the quantity scheduled.

+## The Contractor shall furnish spare LED lamp heads for unit equipment where the heads are field-replaceable.

+```datasheet

+label: Spare batteries furnished

+type: range

+unit: "% of installed"

+min: 0

+max: 10

+step: 1

+setpoints: [2]

+default: 2

+note: Percent of total installed battery-containing devices, furnished as attic stock.

+```

+```datasheet

+label: Spare remote lamp heads furnished

+type: range

+unit: "% of installed"

+min: 0

+max: 10

+step: 1

+setpoints: [2]

+default: 2

+```

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