Everything about Light Meter totally explained
A
light meter is a device used to measure the amount of
light. In
photography, a light meter is often used to determine the proper
exposure for a photograph. Typically a light meter will include a computer, either digital or analogue, which allows the photographer to determine which
shutter speed and
f-number should be selected for an optimum exposure, given a certain lighting situation and
film speed.
Light meters are also used in the fields of
cinematography and
scenic design, in order to determine the optimum light level for a scene. They are used in the general field of
lighting, where they can help to reduce the amount of waste light used in the home,
light pollution outdoors, and plant growing to ensure proper light levels.
Use in photography
The earliest type of light meters were called
extinction meters and contained a numbered or lettered row of
neutral density filters of increasing density. The photographer would position the meter in front of their subject and note the filter with the greatest density that still allowed incident light to pass through. The letter or number corresponding to the filter was used as an index into a chart of appropriate aperture and shutter speed combinations for a given
film speed.
Extinction meters suffered from the problem that they depended on the
light sensitivity of the human eye (which can vary from person to person) and subjective interpretation.
Later meters removed the human element and relied on technologies incorporating
selenium,
CdS, and
silicon photodetectors.
Selenium and silicon light meters use sensors that are
photovoltaic. These sensors generate a voltage proportional to light exposure. Selenium sensors generate enough voltage for direct connection to a meter. Silicon sensors need an amplification circuit and require a power source such as
batteries to operate. CdS light meters use a sensor based on
photoresistance. These also require a battery to operate. Most modern light meters use silicon or CdS sensors. They indicate the exposure either with a needle
galvanometer or on an
LCD screen.
Many modern consumer still and video
cameras include a built-in meter that measures a scene-wide light level and are able to make an approximate measure of appropriate exposure based on that. Photographers working with controlled lighting and
cinematographers use handheld light meters to precisely measure the light falling on various parts of their subjects and use suitable lighting to produce the desired exposure levels.
There are two general types of light meters: reflected-light and incident-light. Reflected-light meters measure the light reflected by the scene to be photographed. All in-camera meters are reflected-light meters. Reflected-light meters are calibrated to show the appropriate exposure for “average” scenes. An unusual scene with a preponderance of light colors or specular highlights would have a higher reflectance; a reflected-light meter taking a reading would incorrectly compensate for the difference in
reflectance and lead to underexposure.
This pitfall is avoided by incident-light meters which measure the amount of light falling on the subject using an integrating sphere (usually, a translucent hemispherical plastic dome is used to approximate this). Because the incident-light reading is independent of the subject's reflectance, it's less likely to lead to incorrect exposures for subjects with unusual average reflectance. Taking an incident-light reading requires placing the meter at the subject's position and pointing it in the general direction of the camera, something not always achievable in practice, for example, in landscape photography where the subject is at infinity.
Another way to avoid under- or over-exposure for subjects with unusual reflectance is to use a spot meter: a reflected-light meter that measures light in a very tight cone, typically with a one degree angle. An experienced photographer can take multiple readings over the shadows, midrange and highlights of the scene to determine optimal exposure, using systems like the
Zone System. Many modern cameras include sophisticated
multi-segment metering systems that measure the
luminance of different parts of the scene to determine the optimal exposure.
When using a film whose spectral sensitivity isn't a good match to that of the light meter, for example
orthochromatic black-and-white or infrared film, the meter may require special filters and re-calibration to match the sensitivity of the film.
There are other types of specialized photographic light meters. Flash meters are used in flash photography to verify correct exposure. Color meters are used where high fidelity in color reproduction is required.
Densitometers are used in photographic reproduction.
Exposure meter calibration
In most cases, an incident-light meter will cause a medium tone to be
recorded as a medium tone, and a reflected-light meter will cause
whatever is metered to be recorded as a medium tone. What
constitutes a “medium tone” depends on meter calibration and
several other factors, including film processing or digital image conversion.
Meter calibration establishes the relationship between subject lighting and
recommended camera settings. The calibration of photographic light meters is
covered by .
Exposure equations
For reflected-light meters, camera settings are related to ISO speed and
subject luminance by the reflected-light exposure equation:
»
where “effective scene illuminance” is that measured by a meter
with a hemispherical receptor.
calls for reflected-light calibration
to be measured by
aiming the receptor at a transilluminated diffuse surface, and for
incident-light calibration to be measured by aiming the receptor at a point
source in a darkened room. For a perfectly diffusing test card and
perfectly diffusing flat receptor, the comparison between a reflected-light
measurement and an incident-light measurement is valid for any position of
the light source. However, the response of a hemispherical receptor to an
off-axis light source is approximately that of a
cardioid rather than a
cosine, so the 12% “reflectance” determined for an
incident-light meter with a hemispherical receptor is valid only when the
light source is on the receptor axis.
Cameras with internal meters
Calibration of cameras with internal meters is covered by
;
nonetheless, many manufacturers specify (though seldom state) exposure
calibration in terms of
, and many calibration instruments
(for example, Kyoritsu-Arrowin multi-function camera testers ) use the specified
to set the test parameters.
Exposure determination with a neutral test card
If a scene differs considerably from a statistically average scene, a
wide-angle averaging reflected-light measurement may not indicate the
correct exposure. To simulate an average scene, a substitute measurement
sometimes is made of a neutral test card, or
gray card.
At best, a flat card is an approximation to a three-dimensional scene,
and measurement of a test card may lead to underexposure unless adjustment
is made. The instructions for a Kodak neutral test card recommend that
the indicated exposure be increased by ½ step for a frontlighted scene in
sunlight. The instructions also recommend that the test card be held
vertically and faced in a direction midway between the Sun and the camera;
similar directions are also given in the
Kodak Professional Photoguide.
The combination of exposure increase and the card orientation gives
recommended exposures that are reasonably close to those given by an
incident-light meter with a hemispherical receptor when metering with an
off-axis light source.
In practice, additional complications may arise. Many neutral test cards
are far from perfectly diffuse reflectors, and specular reflections can
cause increased reflected-light meter readings that, if followed, would
result in underexposure. It is possible that the neutral test card
instructions include a correction for specular reflections.
Use in illumination
Light meters or light detectors are also used in
illumination. Their purpose is to measure the illumination level in the interior and to switch off or reduce the output level of
luminaires. This can greatly reduce the energy burden of the building by significantly increasing the efficiency of its lighting system. It is known that 20 to 60 percent of all electrical power in a building is consumed by illumination. It is therefore recommended to use light meters in lighting systems, especially in rooms where one can't expect users to pay attention to manually switching off the lights. Examples include hallways, stairs, and big halls.
There are, however, significant obstacles to overcome in order to achieve a successful implementation of light meters in lighting systems, of which user acceptance is by far the most formidable. Unexpected or too frequent switching and too bright or too dark rooms are very annoying and disturbing for users of the rooms. Therefore, different switching algorithms have been developed:
difference algorithm, where light switch on lower light level than they switch off, thus taking care that the difference between the light level of the 'on' state and 'off' state isn't too big
time delay algorithms:
- certain amount of time must pass since the last switch
- certain amount of time of sufficient illumination.
Further Information
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