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Description  |
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BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to an electronic still camera, and more
particularly, to an electronic still camera that digitizes the
photographed picture and records it to a recording medium, such as a
memory card.
2. Description of Related Art
With an electronic still camera, photographed picture data is recorded onto
a recording medium such as a memory card after it has been digitized.
Because the recording medium will have to be larger if the picture data is
recorded in its current state, some type of compression is usually
performed to record the picture data in compressed form.
However, a moderate difference appears in the size of the compressed data,
according to the compression method, in cases in which the photographed
picture is monotonous or in which it is detailed and complex. Because of
this, unlike a normal camera that uses silver chloride film, with an
electronic still camera, it is difficult to determine how many frames may
be recorded onto the recording medium. Conventionally, the number of
frames is displayed only at the completion of photography, or a guess is
made as to the recording capacity at frame 1, and the available capacity
on the recording medium is divided by the assumed recording capacity at
frame 1 to calculate the number of frames remaining that can be
photographed, and only the estimated number of frames can be displayed.
However, even if only the number of the frames at the completion of
photography is displayed, the photographer cannot know how many frames may
still be photographed, since the number of frames that may be recorded
onto the recording medium has not been accurately set. Particularly, it is
difficult to try to accurately guess the number of frames that may be
recorded, because the available recording capacity in the recording medium
sometimes differs.
Also, when the number of frames remaining that can be photographed is
calculated and only that value is displayed, the calculated value will be
no more than an approximation, because the recording capacity required for
the first frame will vary according the picture being photographed, as
described above. Thus, for example, if the recording capacity required for
photographing the object being photographed is known in advance, it is
sometimes more desirable to indicate the available capacity in the
recording medium than to indicate the number of frames remaining that can
be photographed.
Whichever method is used, it is still difficult, using conventional
electronic still cameras, to indicate to the photographer how many more
frames may be photographed. Hence, information is required that is more
easily understood.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide an electronic still
camera that indicates the available capacity in the recording medium or
the number of frames remaining that can be photographed, as well as
warning by stages in at least two forms, based on a value correlated to
the available capacity.
This and other objects of the invention are achieved by providing a
photographic device that photographs the object being photographed and
outputs the picture data; a detector that detects the available capacity
of the recording medium and is applied to an electronic still camera
equipped with a recording device that digitizes the picture data and
records the picture onto the recording medium; and warning indicators that
indicate the available capacity, as well as provide warnings by stages in
at least two forms, based on values correlated to the available
capacities.
The warning indicators indicate the available capacity as well as a first
warning if the value correlated to the available capacity is less than the
first standard value, and they indicate the available capacity as well as
a second warning if the value correlated to the available capacity is
greater than or equal to the first standard value but less than the second
standard value.
In another aspect of the invention, the camera includes a frame number
calculator that calculates the remaining number of frames that can be
photographed, based on the available capacity. The warning indicators can
indicate the number of frames remaining that may be photographed as well
as provide a first warning if the value correlated with the available
capacity is less than the first standard value, and can indicate the
number of frames remaining that may be photographed as well as provide a
second warning if the value correlated with the available capacity is
greater than or equal to the first standard value but less than the second
standard value.
The available capacity of the recording medium can be detected by the
detector, and the warning indicators indicate the remaining number of
frames that may be photographed, as well as provide warnings by stages in
at least two forms, based on values correlated with the available
capacities (available capacity as a percentage or number of frames
remaining that can be photographed).
In the above description of the present invention reference is made to a
drawing of the preferred embodiment in order to facilitate understanding
of the present invention; however, the present invention is not meant to
be limited to the preferred embodiment described below.
BRIEF DESCRIPTION OF THE DRAWINGS
The invention will be described in detail with reference to the following
drawings in which like reference numerals refer to like elements and
wherein:
FIG. 1 is a block diagram of the first embodiment of an electronic still
camera, according to the present invention;
FIG. 2 is a drawing showing the indicator device display of the finder
component;
FIG. 3 is a detailed view of the indicator device display shown in FIG. 2;
FIG. 4 is a flow chart that shows the operation of the electronic still
camera shown in FIG. 1;
FIGS. 5 and 5A illustrate a flow chart that shows the indication process
from the CPU to the indicator device in a first embodiment;
FIG. 6 is a drawing that illustrates the indication process of the
indicator device in the first embodiment, and that shows the indicator
device and its display on the body indicator component;
FIGS. 7 and 7A illustrate a flow chart that shows the indication process
from the CPU to the indicator device in a second embodiment;
FIG. 8 is a drawing that illustrates the indication process of the
indicator device in the second embodiment, and that shows the indicator
device and its display on the body indicator component;
FIGS. 9 and 9A illustrate a flow chart that shows the indication process
from the CPU to the indicator device in a third embodiment;
FIG. 10 is a drawing that illustrates the indication process of the
indicator device in the third embodiment, and that shows the indicator
device and its display on the body indicator component;
FIGS. 11 and 11A illustrate a flow chart that shows the indication process
from the CPU to the indicator device in a fourth embodiment; and
FIG. 12 is a drawing that illustrates the indication process of the
indicator device in the fourth embodiment, and that shows the indicator
device and its display on the body indicator component.
DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS
First Embodiment
FIG. 1 is a block diagram of a first embodiment of an electronic still
camera (referred to hereafter also as "camera"), according to this
invention.
Beams of light from the object being photographed (not shown) are conducted
through a photo lens 1 to a mirror 2. The light beams that have passed the
photo lens 1 form the image, and a signal charge accumulates according to
the brightness of the object being photographed. A signal executing
circuit 4 digitizes by means of an A/D converter 5 after it performs a
prescribed compensation in accordance with the picture data output from a
photo element, such as a CCD 3 and is housed in a buffer memory 6. A
compression circuit 7 performs compression on the picture data housed in
the buffer memory 6 through instructions from the CPU 8 (described below)
and houses the result in the memory card 9. The CPU 8 regulates the
indicator device 10 that indicates various photographic information and
the body component 12, as well as regulating the CCD 3, signal executing
circuit 4, and compression circuit 7.
The indicator device 10 is arranged below the finder field of vision frame
11. On the indicator device 10, there are four liquid crystal indicator
parts. In a preferred arrangement, from the left, there is a photographic
mode indicating component 101, a shutter second time indicating component
102, a stop value indicating component 103, and a remaining capacity/frame
number indicating component 104. Within the photographic mode indicating
component 101 one of the letters P (program mode), S (shutter preference
mode), A (stop preference mode), and M (manual mode) will be indicated,
and within the remaining capacity/frame number indicating component 104
will be indicated the remaining capacity of the recording medium and the
number of frames that can be photographed.
FIG. 2 shows an example of the indicator device 10, wherein the
photographic mode is A (stop preference mode), the shutter second time is
1/250 of a second, the stop value is 5.6, and the available capacity of
the recording medium is 100%.
FIG. 3 illustrates a detailed view of the display of the capacity/frame
number indicating component 104. The display is divided into two levels.
The characters "REM" on the top level show that this display provides the
available capacity and the remaining number of frames. On the bottom level
is displayed either the available capacity or the remaining number of
frames. The "%" on the right edge shows that the available capacity is
currently displayed. The bottom level display is turned slowly on and off
when the available capacity of the recording medium drops below a fixed
value, and the display is turned rapidly on and off when the available
capacity is almost gone.
Also, in a fixed place on the camera body is formed a body display
component 12 comprised of liquid crystal. As in FIG. 3, the characters
"REM" and either the available capacity of the recording medium or the
remaining number of frames are displayed.
FIG. 4 is a flow chart that shows the operation of the first embodiment
shown in FIG. 1. This flow chart begins when the battery switch of a
camera (not shown) is turned on.
In step S1, the indicator device 10 performs the prescribed display in the
photographic mode indicating component 101, the shutter second time
indicating component 102, the stop value indicating component 103, and the
remaining capacity/frame number indicating component 104 through the
instructions from the CPU 8. The content of each of these displays is
changed by the state of a selection switch (not shown) and the available
capacity of the memory card.
When a release button (not shown) is depressed (S2), the mirror 2 is caused
to retreat, and the light that has passed through the photo lens 1 is
caused to form an image of (expose) the object on top of the CCD 3. The
exposed object that is being photographed is transformed into an electric
signal, and the signal is sent to the signal executing circuit 4, where
prescribed corrections are carried out. In step S3, the corrected data is
digitized by an A/D converter 5, and the digital data is housed in the
buffer memory 6 (S4). In step S5, the data housed in the buffer memory 6
is compressed according to a prescribed compression method by the
compression circuit 7, after which the compressed data is written into the
memory card 9 in step S6.
FIGS. 5 and 5A illustrate a flow chart that shows the display process of
the indicator component 10 of the first embodiment. This flow chart shows
the operation of the CPU 8 in step S1 of FIG. 4, and when it reaches the
"return" step, it moves to step S2 of FIG. 4.
In step S101, information is read in (protection information) from the
memory card 9 concerning whether or not the memory card 9 may be written
onto. In step S102, a determination is made as to whether or not the
memory card 9 may be written onto. If it is not possible to write onto it,
the process proceeds to step S103, and the instructions "not able to
record" will flash on and off on the indicator device 10 at the bottom of
the finder and on the body indicator device 12 at a prescribed place. On
the other hand, if it is possible to write onto the memory card 9, the
process proceeds to S104. The gross capacity of the memory card 9 and the
capacity already written onto the card are read in from the memory card 9,
and from those values it is determined whether or not there is any
available capacity. If it is determined that there is available capacity,
the process proceeds to step S105, and if the available capacity is
determined to be greater than prescribed amount 1, the process proceeds to
step S106. Prescribed amount 1 is preferably about 10 %. If the available
capacity is determined to be greater than prescribed amount 2, the process
proceeds to step S107. Prescribed amount 2 is preferably about 20%. By
dividing the available capacity by the inferred capacity, used as the
capacity of the first photographic frame, the number of frames that can be
photographed is calculated, and the process proceeds to step S108.
Furthermore, the inferred capacity at the first frame is inferred upon the
basis of the capacity required in cases in which the object being
photographed is detailed and complex, in order to avoid the circumstance
of the number of frames that can be photographed actually becoming too
small.
In step S108, the number of frames that can be photographed is displayed on
the remaining capacity/frame number indicating component 104 and on the
body indicator component 12, and the process proceeds to the "return"
step. Furthermore, in step S108, the display (referred to hereafter as
"lamp display") does not blink on and off because the available capacity
has sufficient space available.
In step S106, if the available capacity is determined to be less than
prescribed amount 2, the process proceeds to step S109, in which the
remaining number of frames that can be photographed is calculated by
dividing the available capacity by the inferred capacity from the first
frame. The process then proceeds to step S110, in which the number of
frames that can be photographed is displayed on the remaining
capacity/frame number indicating component 104 and on the body indicator
component 12, and the display is slowly flashed on and off, showing that
the remaining number of frames is small. The process then proceeds to
"return."
In step S105, if it is determined that the available capacity is below
prescribed amount 1, the process proceeds to step S111 in which the
remaining number of frames is calculated by dividing the available
capacity by the inferred capacity at the first frame. The process then
proceeds to step S112.
In step S112, the number of frames that can be photographed is displayed on
the remaining capacity/frame number indicating component 104 and on the
body indicator component 12, and the display flashes quickly, signifying
that the frames remaining are almost gone. The process then proceeds to
"return."
In step 104, if there is no available capacity, the process proceeds to
step 113, and "0%" is displayed on the remaining capacity/frame number
indicating component 104 and on the body indicator component 12,
indicating that there is no available capacity.
In the flow chart of FIG. 5, the prescribed amounts 1 and 2 are assumed to
be 10% and 20%, respectively, of the gross capacity, but these values of
the prescribed amounts 1 and 2 are not meant to be limited thereto.
It is also acceptable to set the frame number to the prescribed amounts 1
and 2 and make it compare to the remaining number of frames, instead of
comparing the available capacities. In other words, it is acceptable to
once calculate the number of frames remaining that may be photographed
and, for example, set 5 frames for prescribed amount 1 and 10 frames for
prescribed amount 2 after the available capacity has been calculated in
step S104, thus comparing frame numbers.
FIG. 6 illustrates how the display of the indicator device 10 changes as
photography progresses and shows the progression of the display of both
the indicator device 10 and the body indicator component 12. Furthermore,
FIG. 6 shows photographic mode indicating component A (the stop preference
mode), the shutter second time at 1/250 of a second, and the stop value at
5.6.
Line P121 shows a state in which the capacity written from the inserted
memory card is read out, and the calculated number of frames that can be
photographed (20 frames) is displayed on the lamp indicators of the
remaining capacity/frame number indicating component 104 and on the body
indicator component 12. When a one frame portion has been photographed
(line P122), the number of frames that can be photographed (19 frames) is
displayed on the lamp indicators of the remaining capacity/frame number
indicating component 104 and on the body indicator component 12, as in
line P123. Below, on lines P124 and P125, a prescribed number of frames
are photographed, and when the available capacity becomes 20%, the display
showing the remaining number of frames (10 frames) on the remaining
capacity/frame number indicating component 104 and on the body indicator
component 12, as on line P126, slowly flashes on and off, signalling that
the remaining number of frames is small. On lines P127 and P128, a
prescribed number of frames are photographed, and when the available
capacity becomes 10%, the display showing the remaining number of frames
(5 frames) on the remaining capacity/frame number indicating component 104
and on the body indicator component 12, as on line P129, quickly flashes
on and off, signalling that the remaining number of frames is extremely
small. After that, the display showing the number of frames remaining that
can be photographed flashes quickly on and off in the same way until the
number of frames remaining that can be photographed has disappeared
completely, thereby sufficiently warning the photographer.
In this manner the first embodiment calculates the number of frames
remaining that can be photographed from the available capacity of the
memory card 9, and because it varies the speed of flashing according to
the number of frames remaining when the available capacity becomes small,
it alerts the photographer so that he or she can easily know how many more
frames can be photographed.
Second Embodiment
With the first embodiment, the number of frames remaining that can be
photographed is calculated from the available capacity of the memory card
9, but as described above, since the capacity required for the first frame
differs according to the object being photographed by an electronic still
camera, it is impossible accurately know the remaining number of frames
because the calculated number of frames that can be photographed is
ultimately no more than an approximation. Hence, the second embodiment of
the invention is a device that warns the photographer by indicating the
available capacity on the memory card 9.
The construction of the second embodiment is identical to that of the first
embodiment shown in FIG. 1, so a description of it is omitted.
FIGS. 7 and 7A illustrate a flow chart that shows the display organization
of the indicator device 10 in the second embodiment. The operation of
steps S201-S208 and S210 is the same as in FIG. 5, and only the steps that
are different will be explained.
In step S206, if the available capacity is determined to be greater than
prescribed value 2, the process proceeds to step S207, in which the
available capacity is displayed on the remaining capacity/frame number
indicating component 104 and on the body indicator component 12 as a
percentage. For example, if the recording medium is empty, the display is
100%, and if there is no available capacity in the recording medium, the
display reads 0%, and the converted value is displayed in the lamp
indicator, and the process proceeds to "return." In step S206, if the
available capacity is determined to be less than prescribed value 2, the
process proceeds to step S208, in which the available capacity is
displayed on the remaining capacity/frame number indicating component 104
and on the body indicator component 12. In addition, the display is slowly
flashed, indicating that the amount of available capacity is small, and
the process proceeds to "return." In step S205, if the available capacity
is determined to be less than prescribed value 1, the process proceeds to
step S209, in which the available capacity is displayed on the remaining
capacity/frame number indicating component 104 and on the body indicator
component 12 as a percentage. In addition, the display is rapidly flashed,
indicating that the amount of available capacity is extremely small, and
the process proceeds to "return."
FIG. 8 shows how the display of the indicator device 10 changes as
photography progresses and shows the progression of the display of both
the indicator device 10 and the body indicator component 12.
Line P221 shows a state in which the capacity written from the inserted
memory card is read out, and the calculated available capacity (100%) is
displayed on the lamp indicators of the remaining capacity/frame number
indicating component 104 and on the body indicator component 12. When a
one frame portion has been photographed (line P222), the available
capacity (90%) is displayed on the lamp indicators of the remaining
capacity/frame number indicating component 104 and on the body indicator
component 12, as in line P223. In lines P224 and P225, a prescribed number
of frames are photographed, and when the available capacity becomes 20%,
the display showing the available capacity (20%) on the remaining
capacity/frame number indicating component 104 and on the body indicator
component 12, as on line P226, slowly flashes on and off, signalling that
the available capacity is small. In lines P227 and P228 a prescribed
number of frames are photographed, and when the available capacity becomes
10%, the display showing the available capacity (10%) on the remaining
capacity/frame number indicating component 104 and on the body indicator
component 12, as on line P229, quickly flashes on and off, signalling that
the remaining number of frames is extremely small. After that, the display
showing the available capacity flashes quickly on and off in the same way
until the available capacity has diminished completely.
In this manner, the secondary embodiment calculates the available capacity
from the available capacity of the memory card 9, and because it changes
the speed of flashing according to the available capacity, it alerts the
photographer so that he or she can easily know how much more recording
capacity is available. Also, when the capacity is displayed by the
flashing display, the photographer can avoid photographing complex
objects, or insert a new memory card.
Third Embodiment
The available capacity on the memory card 9 can be easily investigated by
reading the capacity from the memory card 9 after recording; but the
number of frames remaining that may be photographed increases the burden
on the CPU 8 because it must be calculated using an inferred capacity from
the first photographic frame. Also, when there is a surplus of available
capacity in the recording medium, it is almost meaningless to indicate the
remaining number of frames. Hence, in the third embodiment, when the
available capacity is larger than a prescribed amount, it displays the
available capacity, and when the available capacity is smaller than a
prescribed amount, the remaining number of frames that can be photographed
is displayed.
The construction of the third embodiment is identical to that of the first
embodiment shown in FIG. 1, so its description has been omitted.
FIGS. 9 and 9A illustrate a flow chart that shows the display organization
of the indicator device 10 on the second embodiment. The operation of
steps S301-S306 and S311 is the same as in FIG. 5, so only the steps that
are different will be explained hereafter.
In step S306, if the available capacity is determined to be greater than
prescribed value 2, the process proceeds to step S307 in which the
available capacity is displayed as a percentage on the lamp indicator on
the remaining capacity/frame number indicating component 104 and on the
body indicator component 12. The process then proceeds to "return." In
step S306, if the available capacity is determined to be less than
prescribed value 2, the process proceeds to step S308, in which the
available capacity is displayed on the remaining capacity/frame number
indicating component 104 and on the body indicator component 12. In
addition, the display is slowly flashed, indicating that the amount of
available capacity is small, and the process proceeds to "return." In step
S305, if the available capacity is determined to be less than prescribed
value 1, the process proceeds to step S309 in which the number of frames
remaining that can be photographed is calculated by dividing the available
capacity by the inferred capacity at photographic frame 1. The process
proceeds to step S310 in which the number of frames remaining that can be
photographed is displayed on the remaining capacity/frame number
indicating component 104 and on the body indicator component 12. In
addition, the display is quickly flashed, indicating that the amount of
available capacity is extremely small, and the process proceeds to
"return."
FIG. 10 shows how the display of the indicator device 10 changes as
photography progresses and shows the progression of the display of both
the indicator device 10 and the body indicator component 12.
Lines P321-P328 are identical to FIG. 8, so only those that are different
will be described.
When the available capacity becomes 10%, the number of frames remaining
that can be photographed (for example, 5 frames) is displayed on the
remaining capacity/frame number indicating component 104 and on the body
indicator component 12, as in line P329. The display is rapidly flashed,
indicating that the amount of available capacity is extremely small. The
display of the number of frames remaining that can be photographed
continues to flash rapidly until the remaining frames have been used.
In this manner, the third embodiment enables an indication of the available
capacity while there is a surplus in the available capacity of the memory
card 9 in order to reduce the burden on the CPU 8. When the available
capacity is nearly gone, the remaining frames are indicated, and the
photographer can easily see how many frames remain.
Fourth Embodiment
As described above, the first and third embodiments calculate the number of
frames remaining that can be photographed by using an inferred capacity of
the first photographic frame. This type of remaining frame display is easy
for the photographer to understand, but there is a possibility that the
frame portion may not be able to be photographed because the displayed
value is an approximate value. Particularly, the concern increases when
the display shows one frame left.
On the other hand, as with the second embodiment, when the available
capacity is indicated there is the advantage that an accurate available
capacity can be indicated, even though it is not easy to guess from that
capacity whether or not a picture may be taken. Hence, when there is a
surplus in the available capacity, the fourth embodiment described below
enables an indication of the number of frames remaining that can be
photographed, which provides information to the photographer concerning
how many more frames can be photographed, and once the available capacity
surplus has disappeared, it indicates the available capacity. This
cautions the photographer to take pictures of objects based on the
available capacity.
Because the construction of the fourth embodiment is identical to that of
the first embodiment shown in FIG. 1, a description of it is omitted.
FIGS. 11 and 11A illustrate a flow chart that shows the display
organization of the indicator device 10 on the fourth embodiment. The
operation of steps S401-S406 and S412 is the same as in FIG. 5, so only
the steps that are different will be explained.
In step S406, if the available capacity is determined to be greater than
prescribed value 2, the process proceeds to step S407. The number of
frames remaining that can be photographed is calculated by dividing the
available capacity by the inferred capacity of the first photographic
frame. Proceeding to step S408, the number of frames remaining that can be
photographed is displayed on the remaining capacity/frame number
indicating component 104 and on the body indicator component 12 by
indicator lamps, and the process proceeds to "return." Furthermore, since
in this case there is a surplus of available capacity, the indicator lamps
are not flashing on and off.
In step S406, if the available capacity is determined to be less than
prescribed value 2, the process proceeds to step S409 where the number of
frames remaining that can be photographed is calculated by dividing the
available capacity by the inferred capacity of the first photographic
frame. In step S410, the number of frames remaining that can be
photographed is displayed on the remaining capacity/frame number
indicating component 104 and on the body indicator component 12. In
addition, the display flashes slowly on off, indicating that the available
capacity is small. Finally, the process proceeds to "return."
In step S405, if the available capacity is determined to be less than
prescribed value 1, the process proceeds to step S411 where the available
capacity is displayed on the remaining capacity/frame number indicating
component 104 and on the body indicator component 12 as a percentage. In
addition, the display flashes rapidly on and off, indicating that the
available capacity is nearly gone. Finally, the process proceeds to
"return."
FIG. 12 shows how the display of the indicator device 10 changes as
photography progresses and shows the progression of the display of both
the indicator device 10 and the body indicator component 12.
Lines P421-P428 of FIG. 12 are identical to FIG. 6, so only those that are
different will be described.
When the available capacity becomes 10%, the available capacity (10%) is
displayed on the remaining capacity/frame number indicating component 104
and on the body indicator component 12, as on line P429. The display is
rapidly flashed, indicating that the amount of available capacity is
extremely small. The display of the number of frames remaining that can be
photographed continues to flash rapidly until there is no available
capacity left.
In this way, in the fourth embodiment, the photographer can see about how
many more frames he or she can photograph because the remaining number of
frames is shown until the available capacity disappears. On the other
hand, when the available capacity is almost all gone, the photographer can
avoid the inconvenience of not being able to photograph even though there
is available capacity by taking a picture of an object according to the
available capacity (such as photographing a monotonous object), because
the available capacity is displayed as a percentage.
With embodiments 1-4 as described above, the flashing speed switches to two
levels in accordance with the remaining capacity in the recording medium,
but the flashing speed may also be varied in greater detail. In this
respect, the photographer can know with greater precision how much
capacity remains.
Also, instead of varying the speed of flashing, for example, a warning
alarm may sound when the remaining capacity of the recording medium gets
small, or LED lamps may be installed into the remaining capacity/frame
number indicating component 104 and into the body indicator component 12,
and as the available capacity of the recording medium decreased, their
brightness would gradually dim, or the color of the LED display may even
be made to change.
Furthermore, in embodiments 1-4 described above, one or the other of the
recording medium's available capacity and the remaining frames that can be
photographed is displayed, but they may also be simultaneously displayed
or toggled back and forth by a separately installed switch.
Furthermore, in embodiments 1-4 described above, the indicator device 10 is
arranged at the bottom of the finder, but it is not limited to this
location. Moreover, various types of display devices such as meter
displays, fluorescent tube displays, etc. may be substituted in place of
the liquid crystal display.
With the embodiments constructed as described, the CCD 3 corresponds to the
photographic means; the signal executing circuit 4, the A/D transformer 5,
the buffer memory 6, and the compression circuit 7 correspond to the
recording means; the CPU 8 corresponds to the detecting means and also to
the frame number calculating means; and the indicator device 10 and the
body indicator component 12 correspond to the warning device.
As described in detail above, when photographing with an electronic still
camera according to the present invention, the photographer can easily
know how much surplus there is in the recording medium through both a
warning and a display. This is because the camera indicates how much
available capacity there is and how many frames remain that can be
photographed, while it warns by stages in at least two forms.
While this invention has been described in conjunction with specific
embodiments thereof, it is evident that many alternatives, modifications
and variations will be apparent to those skilled in the art. Accordingly,
the preferred embodiments of the invention as set forth herein are
intended to be illustrative, not limiting. Various changes may be made
without departing from the spirit and scope of the invention as defined in
the following claims.
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