For example, if theSC= 1.5, then for an
8-ft ceiling height,
MH= 8 ft 0 in – 2 ft 6 in to the workplane
= 5 ft 6 in AFFS = 5.5 ft × 1.5 = 8.25 ftThe center-to-center maximum spacing from
the center of one luminaire to the center of
the next is thus 8.25 ft (figure 13.15).
For rectilinear luminaires,SCis expressed
as parallel or perpendicular, indicating the
spacing-to-mounting-height ratio in either the
direction parallel to or perpendicular to the
orientation of the lamps within the luminaire.
To maintain uniformity of light intensity
over a large work area, avoid exceeding the
manufacturer’s recommended maximum
SC. Because of wall surface absorption,
maximum distance from the last row of
luminaires to the wall is usually one-half to
one-third the spacing in the room to prevent
a falloff in illuminance near the walls (figures
13.16 to 13.18).
Even with this reduced spacing, work
surface illuminance near the walls is often
only half that measured in the center of the
room. In critical seeing areas, supplemen-
tary luminaires are added near the wall
(figure 13.19).
Office partitions block some overhead
light from a direct system, preventing it from
reaching work surfaces. Depending on the
location of the downlights, some areas will
be left in shadow (figure 13.20). Well-
designed uplighting, because it produces
even illuminance overhead, softens and
reduces this shadowing.Uplighting (Indirect)
The primary use of uplighting (indirect light-
ing) is to create evenly luminous ceilings that
reduce VDT screen reflections. For uplighting
to be successful, luminance differences on
the ceiling plane must be minimal. If bright
patches of higher luminance occur, they are
reflected in the VDT screen, causing a dis-
tracting background.DESIGNFigure 13.15Spacing-to-mounting-height ratio.