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ADAAG Manual

Note: This document, portion of document or referenced document was published prior to the 2010 ADA Standards, and all or part of this information may only apply to Safe Harbored elements.

Alarms [4.28]

Scoping [4.1.3(14)]

ADAAG requires both audible and visual alarms in facilities that have emergency warning systems whether building-wide systems or self-contained units are provided. Unlike most building or life safety codes, ADAAG does not require an emergency system but requires compliance where one is provided. In alterations, this requirement applies where a new alarm system is installed or an existing system is replaced or upgraded; the degree of compliance is determined by the scope of work and technical feasibility.

Medical Care Facilities

Requirements for alarms may be modified in medical care settings according to standard industry practice. In many health care facilities, personnel responsible for ensuring the safety of patients respond to intercom messages or other signals not intended to alert or alarm patients incapable of independent evacuation. Under industry practices, a supervised emergency response plan is essential and generally does not include installation of alarms in patient rooms and wards.

Audible Alarms [4.28.2]

Sound levels are specified in this section to benefit people who have a hearing impairment. The sound of the alarm must be able to be distinguished above and apart from the prevailing sound level within the space. Recommendation: Alarms with a periodic element to the signal, such as single stroke bells, hi-low, and fast whoop, are considered more effective than those with continuous or reverberating tones. Consider a signal with a sound characterized by three or four pure tones without much "noise" in between.

Visual Alarms [4.28.3]

In general, it is not sufficient to install visual signals only at audible alarm locations. Audible alarms installed in corridors and lobbies can be heard in adjacent rooms but a visual signal can be observed only within the space it occupies. Visual alarms are required in hallways, lobbies, restrooms, and any other general usage and common use areas, such as meeting and conference rooms, classrooms, cafeterias, employee break rooms, dressing rooms, examination rooms and similar spaces. Visual alarms are not required in areas used solely as employee work areas or in mechanical, electrical, or telephone closets, janitor's closets, or similar non-occupiable spaces. The technical requirements apply to single-station and building-wide alarm systems and are based in part on research sponsored by the Access Board as well as Underwriters Laboratories (UL). The requirements do not preclude use of zoned or coded alarm systems.

Strobe Type and Color

Research indicates high-intensity xenon strobe lamps to be the most effective and white light the most discernible. Colored lamps, particularly red, were found to be ineffective even at very high intensities.

Intensity

To be effective, a visual signal (or its reflection from adjacent walls and ceiling) must be of an intensity that will raise the overall light level sharply, but not be so intense as to be unsafe for direct viewing when installed at a specified mounting height. Lamp intensity is given in effective candela (cd), measured in use at the source. In research testing, 90% of subjects were alerted by a 75 cd signal mounted 50 feet away on the wall directly behind them.

Pulse Duration and Flash Rate

Visual alarm strobes produce a repetitive burst of high-intensity light. The repetition of this pulse at a regular interval is the flash rate. Pulse duration is the interval of the flash between signal build-up and decay and is limited as specified so that the signal is not temporarily blinding. A flash rate cycle between one to three Hz (flashes per second) is required based on research results.

Recommendation: Flash synchronization is an important consideration. Multiple strobes within a space, if not synchronized, can produce a composite flash rate in excess of 3 Hz. For example, two strobes set at 3 Hz in a room could generate a combined flash rate of 6 Hz. Flash rates above 5 Hz may trigger seizures in people with certain forms of epilepsy. This is a particular concern in schools, since children frequently are more affected by photosensitivity than are adults. In spaces with multiple strobes, composite flash rates above 5 Hz should be avoided by synchronizing or decreasing the flash rate. It may also be possible to decrease the number of strobes or increase the spacing between them by increasing their intensity.

Mounting Height

ADAAG specifies a signal height 80 inches above the highest floor level within the space or 6 inches below the ceiling, whichever is lower. (This can be measured to the centerline or to the bottom edge of the appliance). The 80 inch height is based on research indicating it to be the most effective for a 75 cd lamp. It is also consistent with the minimum headroom clearance required for protruding objects. However, photometric calculations of lamp intensity for mounting heights of 80 and 96 inches show only nominal differences and can be practically considered to be equivalent. In multi-purpose facilities where bleacher seating, athletic equipment, backdrops, or other moveable elements may at times be deployed or in libraries, convention centers and other building types where devices would not be visible when installed at the specified height, optimal signal placement may require study and the development of alternative intensity and placement calculations as an "equivalent facilitation" which permits departures from ADAAG specifications if equal or greater access is provided. What is most important is that strobes, whether projecting from walls or suspended from ceilings, be at least 6 inches below the ceiling plane to minimize smoke obscuration.

Location and Spacing

Rooms with an area than can be circumscribed by a circle 50 feet in radius can be covered by a single centrally located strobe of 75 cd. For very small rooms, such as examination, toilet, and dressing rooms, a single strobe of lesser intensity may well be sufficient as an equivalent facilitation.

Diagrams showing signal from a single strobe versus multiple strobes

Recommendations: In general, it is recommended that lamp intensity and spacing be maximized to allow the minimum number of fixtures within a room or space. Large high-ceilinged spaces may be best served by suspended flash tubes of very high intensity. (Lamps up to 1000 cd are available for such applications). Specifiers may be motivated to standardize on a minimum-candela fixture because they are less expensive to purchase and connect, more available, and simplify inventorying. This can lead to close spacing of low-intensity lamps, which is discouraged because of the effect of composite flashes on people with photosensitivity. It may be possible to serve some large rooms or corridor sections with a single appliance located on a perimeter wall or suspended below the ceiling so that the signal can spread throughout the space without obstruction by furnishings, equipment, or room geometry.

Provisions for the spacing of visual alarms in hallways and corridors generally require one fixture every 100 feet. Recommendations: In long corridors, such as in shopping malls and airport terminals, appliances should be spaced to minimize their number and the effect of a composite flash rate. Alternate placement between opposing corridor walls is recommended in minimizing the number of signals in a field of view. Particular care should be taken in locating lamps along window or storefront glazing that may intensify the flash rate due to reflection.

Diagrams showing corridors with strobe's fifty-foot radius

Auxiliary Alarms [4.28.4]

A portion of sleeping units in transient lodging facilities, including those required to be accessible to persons who use wheelchairs, must have a visual alarm connected to the building alarm system or have an outlet for a portable device. Portable devices must be capable of being triggered by the building emergency alarm system. Appliances connected to the building system, where permitted by code, can be monitored by the building fire alarm system. Portable units have to be activated by a signal from the central alarm control system transmitted to a receiver plugged into an electrical outlet. Note that there are operational considerations in making portable appliances available on an as-needed basis. Where portable devices are used, it is important that the appliance be checked to make sure it is functioning properly, and that correct and appropriate connections and placement are made, a responsibility which should not be left solely to guests or tenants who need the device. Because guest rooms sizes are not large, it is required only that the signal, which is intended to alert persons who are awake, be visible in all areas of the room or unit.

A visual signal is also important for single or multiple-station smoke detectors where provided in sleeping rooms or suites. A single appliance can be used to provide notification of the building system alarm and the room smoke detector alarm so long as the activation of the room's smoke detector does not activate the building alarm system.

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