Transcript Lighting

LIGHTING
3rd attribute: Intensity
LIGHTING
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Light intensity (quantity) is measured in foot-candles (candela) in the United States, or in
lux in most other countries. Even in the United States lux seems to be replacing footcandles. As we've noted, a foot-candle equals about 10.74 lux (or, for a rough conversion,
multiply foot-candles by 10 to get lux).
POINTS OF REFERENCE:
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sunlight on an average day ranges from 32,000 to 100,000 lux
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TV studios are lit at about 1,000 lux
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a bright office has about 400 lux
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moonlight represents about 1 lux
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starlight measures a mere 0.00005 lux
LIGHT METERS
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Light meters are used to measure light intensity. As we will see, being able to establish
rather exact intensities for the various lights is important for professional video work.
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Uneven light around a scene will cause variations in video levels and even dark or
washed out skin tones.
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It's possible to walk around a set with an incident light meter and quickly find dark or "hot"
areas where lighting needs to be adjusted.
STUDIO AND FIELD LIGHT LEVELS
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Although most TV cameras need at least 1000 lux (about 90 FC) of light to produce good
quality video in the middle of the lens f-stop range, many can produce acceptable pictures
under a few foot-candles of light.
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When color was first introduced in TV studios, 300 foot-candles (more than 3,000 lux) of
light were required. As newer color cameras were introduced, this level kept dropping.
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Today, many on-location shoots are done with as little as 30 foot-candles (about 300 lux)
of light. The latest generation of professional video cameras can produce good quality
video under less than one foot-candle (less than 10 lux) of light.
SELECTIVE FOCUS
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Part of the motivation for using less light on locations lies in limiting depth of field and
creating a "film look" by using wide f-stops. Some DPs (directors of photography) keep
their on-location camera lenses near their widest f-stop to maximize this effect.
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Whereas in the studio you may want to use a mid-range f-stop to keep foregrounds and
backgrounds in focus, on location and in dramatic production a selective focus effect is
often preferred — especially in close-ups and medium close-ups.
SELECTIVE FOCUS
This maximizes selective focus and eliminates the "everything in focus"
effect that some people object to in video.
LIGHT METERS
•
Light meters are used to measure light intensity. As we will see, being able to establish
rather exact intensities for the various lights is important for professional video work.
•
Uneven light around a scene will cause variations in video levels and even dark or
washed out skin tones.
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Because the eye is a rather unreliable judge in setting up lighting, you need to use either
a light meter or a keen eye coupled with a high-quality color monitor. Although the latter is
preferred for making final adjustments, when lights are first being put into place it's much
faster to use a light meter.
LIGHT METERS
Reflected and Incident Light Meters
REFLECTED LIGHT METERS
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A reflected light meter measures the amount of light being reflected from (off of) subject
matter. This is the type of built-in light measurement system used in most still cameras.
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Because a reflected light meter assumes that all subject matter reflects 18-percent of the
light falling on it — a so-called average scene — it can be easily fooled by nonstandard
subject matter. This is why the auto-iris or auto-exposure devices in video cameras can
get you into trouble.
INCIDENT LIGHT METERS
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Whereas a reflected light meter is valuable in determining contrast (brightness) ratios in a
scene, an incident light meter (shown here) can tell you how bright the light is that's falling
on a scene.
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Thus, instead of measuring the amount of light reflected from subject matter, incident
meters measure the amount of light directed on the scene.
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To get an accurate reading in the studio with this type of meter you must point it directly at
the light you are measuring while standing in the position of the talent.
CONTROLLING LIGHT INTENSITY
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As the distance between a light source and the subject increases, the light is spread out
over a larger area and the intensity decreases.
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For example, when a light is 3 meters (10 feet) away from a subject you find that there's
4000 lux of light on your subject. If you then double the light-to-subject distance to 6
meters (20 feet), you will end up with only about 1/4 the original light, or 1000 lux.
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This distance-intensity concept proves particularly useful in setting up lights on locations.
In these situations altering light intensities becomes a matter of just moving the lighting
stands closer or farther away from subjects.
CONTROLLING LIGHT INTENSITY
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Scrims
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Focusing lights
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Dimmers
SCRIMS
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Another way to control the intensity of light is with scrims, which resemble a frame of
finely woven screen wire.
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By using a single or double thickness scrim over a light, the light's intensity can be cut
30- to 60-percent
FOCUSING LIGHTS
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By using a lever or a crank, the beam of these lights can be pinned down and
concentrated over a narrow area, or flooded out to cover a larger area.
DIMMERS
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Lastly, brightness can be reduced in incandescent lights by reducing the voltage to the
lamps with dimmers. Unfortunately, this also affects color temperature.
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A rough rule of thumb is that for every one-volt drop in the voltage to an incandescent
light, the color temperature drops by 10K.
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Since the human eye can detect a 200K color shift in the 2,000-4,000K range, this means
that a studio light can only be dimmed by about 20 percent (in relation to the other lights)
without being noticed.