(113)
llimator. The col-
the apparent per-
ie collimator relat-
upil of the camera
c.
m by illuminating
le collimator tube.
ffects of veiling
of veiling glare
>n of glare cor-
, from measure-
wer can be cal
lable by camera
:ms desirable to
it exceeds per-
;enerally used in
,t a sufficient num-
>aration of reliable
to the limit of the
. Other focus set-
on of a camera (or
; sufficient to ensure
best average reso-
is shall be establish-
iringe focus for the
f the photographic
al minimum fringe
of an opaque edge
of transition from
il image through a
ally be mounted so
i camera is parallel
entation used shall
1.8 Filter.
If a filter correcting for vignetting and cos 4 effect is normally used
on the camera it shall be in place during the test. The use of any other
operational filter on the camera during test is optional. Any filter
which is used shall be fully described in the report. Preferably its
transmission curve should be given.
1.9 Apertures.
Tests shall be made at full aperture and at any other apertures for
which data are desired. The apertures used shall be specified in the
report. For full characterization of a type of camera (or lens) tests
shall be made at three or more apertures.
1.10 Emulsion.
The camera (or lens) shall be tested with the same emulsion as is
used in actual practice, or one which is closely equivalent. If it is neces
sary that the usual test emulsion differ slightly from the service emul
sion, typical tests shall be made with both emulsions and all reports
shall indicate the magnitude of the error introduced by the emulsion
change. The emulsion or emulsions involved shall be specified in the
report.
1.11 Exposure.
The same exposure (object luminance and time) shall be used at
all field angles. It shall be that exposure which gives best average
resolving power.
1.12 Development.
Development shall be a well controlled equivalent of the average
found in actual practice. The gamma shall be 1.25 ± 0.20. The devel
opment procedure shall be stated in the report.
1.13 Reading.
1.13.1 When reading the target images, magnification and illumination
shall be adjusted to obtain maximum resolving power values. A low
power stereoscopic microscope will be found suitable for most reading.
1.13.2 Resolving power shall be stated in lines per millimeter relative to
a flat distortion-free image. When the ratio of the camera and colli
mator focal lengths is being used to compute the resolving power at
the image which corresponds to a certain size of test object, correction
off-axis shall be made only for the “cos” and “cos 2 ” factors affecting
resolving power values on radial and tangential lines. No allowance
shall be made for image size changes due to the use of a curved focal
surface or the introduction of large amounts of distortion.
note: If a lens is deliberately designed with large negative dis
tortion to improve field of view or image illumination the
resolving power values which can be obtained by actual measure
ment of line separations in “compressed” areas on the film are
misleadingly large. These areas have to be expanded before use to
give a distortion-free image as is obtained in conventional
systems. This expansion reduces the resolving power.
