JP3642613B2 - Camera with built-in flash - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a camera with a built-in strobe that can shoot with an appropriate exposure amount by causing the strobe to emit light.
[0002]
[Prior art]
When shooting a person or the like, even if the face is dark or not backlit when the subject is backlit, for example, when the sun is directly above, a shadow will appear on the face, creating a photo atmosphere. There is a problem of being damaged.
[0003]
Therefore, in conventional cameras, strobe light is added to exposure by external light by always causing the strobe to emit light even during the daytime when the external light brightness is high, in order to eliminate the shadow of the subject. Cameras that employ a constant light emission method are known.
[0004]
Therefore, although shooting is performed in a so-called overexposed state, when a negative color film having a wide latitude with respect to overexposure is used, this always light-emitting camera is preferred.
[0005]
Japanese Unexamined Patent Publication No. 56-149022 is known as a specific example of a conventional flash built-in camera using such a constant light emission method. The conventional camera with a built-in strobe described in this document includes a photosensitive element that measures the amount of external light (referred to as ambient light) around the subject, and controls the amount of light emitted from the strobe based on the amount of light measured by the photosensitive element. ing.
[0006]
More specifically, as shown in FIG. 10, when the ratio of external light to the appropriate exposure (hereinafter referred to as exposure contribution ratio) is 0%, in other words, when the amount of external light is 0%. Control is performed so as to irradiate the stroboscopic light with an exposure contribution rate of 100% so that the film can be sufficiently exposed only by the stroboscopic light.
[0007]
Further, when the amount of external light increases and the exposure contribution ratio is between 0% and 75%, the light quantity of strobe light is gradually decreased within the range of 100% to 35% of the exposure contribution ratio. The total exposure contribution ratio of light and strobe light is controlled to be almost 100%.
[0008]
Furthermore, when the exposure contribution rate due to the amount of external light exceeds 75%, the aperture in the camera is automatically adjusted to forcibly hold the exposure contribution rate of external light at 75%, and at the same time, the amount of strobe light. Is automatically adjusted so that the exposure contribution ratio of the strobe light is maintained at 35%. That is, when the exposure contribution ratio due to the amount of external light exceeds 75%, the total of the exposure contribution ratio of the external light and the exposure contribution ratio of the strobe light is almost equal. 100% It is controlled to become.
[0009]
Therefore, in this conventional camera with a built-in strobe, the total of the exposure contribution ratio of external light and the exposure contribution ratio of strobe light is controlled to be in a range of approximately 100%.
[0010]
[Problems to be solved by the invention]
However, the above-mentioned conventional camera with a built-in strobe maintains the light amount of the strobe light at an exposure contribution rate of 35% even when the brightness of the external light is high. This strobe light increases the amount of light on the subject surface. On the other hand, there is a case where the light quantity ratio of the background is relatively lowered, and there is a problem that the atmosphere as a photograph is impaired because the background is felt dark.
[0011]
In addition, since the exposure contribution ratio of the strobe light is maintained at 35% regardless of the distance to the subject, the area occupied by the subject with respect to the background increases when shooting at close distances such as close-up photography. As a result, the amount of light on the subject surface due to the strobe light is greatly increased, resulting in a problem that the subject appears white.
[0012]
The present invention has been made in view of the problems of the prior art, and an object of the present invention is to provide a camera with a built-in strobe that automatically controls a strobe light so that a subject can be photographed with an appropriate exposure amount. And
[0013]
[Means for Solving the Problems]
In order to achieve such an object, a camera with a built-in strobe of the present invention includes an aperture blade combined shutter provided in an imaging optical system, a photometry unit that measures the brightness of external light in a photographing field, and the photographing field. A distance measuring unit that measures the distance to the subject and the brightness of the external light that provides the optimum exposure during the predetermined shutter opening period of the shutter that also serves as the aperture blade is set as the reference external light brightness, and the non-reference light brightness is obtained. When the exposure amount in the state is set as the standard exposure amount, and shooting is performed under the external light with the luminance exceeding the reference non-light luminance, Only by outside light An automatic exposure mechanism that controls opening and closing of the diaphragm blade combined shutter so that the standard exposure amount is obtained;
Further, the non-reference light luminance is set as the switching luminance, or the predetermined luminance that is lower by a predetermined value or higher than the non-reference light luminance by the predetermined value, and the photographing field of view measured by the photometry unit. When the brightness of external light inside is lower than the switching brightness, the distance measurement is performed during the opening / closing operation of the shutter for both diaphragm blades so that the exposure amount added by the predetermined strobe light is substantially equal to the standard exposure amount. The strobe light is emitted at a timing corresponding to the distance measured by the distance measurement unit, or the strobe light is emitted at a light emission amount corresponding to the distance measured by the distance measurement unit. When the luminance is equal to or higher than the switching luminance, the exposure amount added by the strobe light is not more than the standard exposure amount. Exposure amount that exceeds the standard exposure amount due to external light and total In addition, the strobe light is emitted at a timing corresponding to the distance measured by the distance measuring unit during the opening / closing operation of the diaphragm blade shutter so that the luminance in the photographing field of view decreases stepwise as the luminance increases. A strobe light control unit configured to emit light or emit the strobe light with a light emission amount corresponding to the distance measured by the distance measuring unit.
that's all
[0014]
Furthermore, the strobe light control unit increases the amount of decrease in the exposure amount due to the strobe light that decreases stepwise as the distance to the subject measured by the distance measuring unit decreases. It was.
[0015]
[Action]
According to the camera with a built-in strobe of the present invention, when the brightness in the shooting field of view measured by the photometry unit is lower than the predetermined switching brightness, the exposure amount by the strobe light is optimal for shooting by the strobe light control unit. Control is performed so that the exposure amount (that is, the standard exposure amount) is obtained. Furthermore, by controlling the amount of exposure using the strobe light according to the distance to the subject measured by the distance measuring unit, overexposure (excessive overexposure) can be prevented even when the distance to the subject is short. However, underexposure (excessive underexposure) is prevented even when the subject is far away.
[0016]
That is, when the brightness measured by the photometry unit is lower than the switching brightness, in other words, when a sufficient exposure amount cannot be obtained only with outside light, a standard exposure amount by strobe light is added to the amount of outside light. Thus, it is possible to photograph the subject with an appropriate exposure amount.
[0017]
Further, when the luminance in the photographing field measured by the photometry unit is equal to or higher than the switching luminance, the exposure amount by the strobe light is decreased stepwise as the luminance in the photographing field becomes higher than the standard exposure amount. To control. The control in this case is also performed according to the distance to the subject measured by the distance measuring unit.
[0018]
That is, by controlling so that the exposure amount by the strobe light gradually decreases as the luminance in the shooting field of view increases, even if the luminance in the shooting field of view is high, the light quantity ratio of the background to the subject is Eliminate the problem of lowering relatively. As a result, even when shooting under high brightness, the problem of the prior art that the background becomes dark and the atmosphere as a photograph is impaired is solved.
[0019]
In other words, in the conventional control, when a sufficient exposure amount can be obtained only with outside light, the amount of light added by the strobe light is kept constant, so the ratio of the background light amount to the subject is relatively However, according to the control according to the present invention, the exposure amount to be added by the strobe light is increased as the luminance in the photographing field increases. This eliminates the problem that the light intensity ratio of the background relative to the subject is relatively low, even when the luminance within the field of view is high, and the background becomes darker and the atmosphere as a photograph is impaired. Is solved.
[0020]
Furthermore, according to the conventional technique, when photographing a subject at a short distance such as close-up, the area occupied by the subject is larger than the background, so the balance between the light amount of the subject surface and the background is lost, and the subject appears white. However, in the present invention, as described above, when the luminance in the field of view is high when shooting at a short distance, the exposure amount due to the strobe light irradiation is very small. Therefore, the balance between the amount of light on the subject surface and the background is maintained, and the subject does not appear white.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to FIGS. FIG. 1 is a perspective view showing an appearance of a camera with a built-in strobe according to an embodiment. As shown in this figure, this camera with built-in flash has a shutter button 11 disposed at the upper end of a substantially rectangular parallelepiped camera body 10 and a lens barrel 13 with a lens 12 incorporated in the center of the front surface of the camera body 10. . A projector 14, a finder 15, a light receiver 16, and a strobe 17 are arranged on the upper front of the camera body 10 from the left in the drawing.
[0022]
Here, the projector 14 and the light receiver 16 constitute a distance measuring unit that measures the distance to the subject based on the principle of triangulation, for example.
[0023]
In addition, on the right side of the lens barrel 13 on the front surface of the camera body 10, a photometry unit 18 for measuring the external light luminance in the photographing field of view is incorporated. The photometry unit 18 includes an incident window 18a formed on the surface of the camera body 10, a lens 18b disposed inside the incident window 18a, and a light receiving element 18c having a light receiving surface disposed in the vicinity of the imaging position of the lens 18b. And.
[0024]
Since the light receiving surface of the light receiving element 18c is shifted from the imaging position of the lens 18b, a complete subject image is not formed on the light receiving surface of the light receiving element 18c, and the entire photographing field including the subject is not formed. The average outside light quantity is detected by the light receiving element 18c.
[0025]
Further, an aperture blade / shutter 19 for providing an exposure amount necessary for the film is incorporated on the optical axis of the lens 12 in the camera body 10.
[0026]
The strobe 17 is controlled to automatically emit strobe light in conjunction with the opening timing of the shutter 19. More specifically, the exposure amount on the object surface is adjusted by slightly shifting the light emission timing of the strobe 17 with respect to the opening timing of the shutter 19 in terms of time.
[0027]
This adjustment algorithm will be described with reference to the time chart of FIG. This time chart shows how much exposure is obtained when the strobe 17 is emitted at what timing after the shutter 19 is started.
[0028]
From the figure, the time t t ₁ When the strobe light is irradiated at the elapsed timing, the opening area of the shutter 19 is still small, and the luminous flux for exposing the film is also small. For this reason, the exposure amount is reduced. On the other hand, the time t t ₂ When the strobe light is irradiated at the elapsed timing, the opening area of the shutter 19 is maximized, so that the light flux for exposing the film becomes large. For this reason, time t ₂ Exposure amount at time t ₁ It is almost twice as much as the exposure amount at. In this way, by adjusting the time phase of the light emission timing of the strobe 17 with respect to the opening timing of the shutter 19, the exposure amount of the strobe 17 can be arbitrarily adjusted while keeping the light emission amount of the strobe 17 constant. Can do.
[0029]
Furthermore, a specific configuration of a strobe light control unit for controlling the light emission timing of the strobe 17 is shown in the block diagram of FIG. This strobe light control unit obtains an optimum exposure for photographing based on the distance to the subject measured by the projector 14 and the light receiver 16 and the external light luminance in the photographing field measured by the photometry unit 18. Controls the timing of flash light emission. The strobe light control unit is realized by so-called program control in which the CPU 20 executes a control program 21 a written in the ROM 21.
[0030]
The CPU 20 is given a half-press signal and a full-press signal from the shutter button 11. Upon receiving the half-press signal from the shutter button 11, the CPU 20 gives a control signal for measuring the distance to the subject to the projector 14, and measures the external light luminance in the photographing field for the photometric unit 18. Give a control signal. In response to these control signals, the projector 14 (and the light receiver 16) and the photometry unit 18 perform distance measurement and photometry, and give these measurement results to the CPU 20.
[0031]
The CPU 20 that has received the full-press signal from the shutter button 11 gives a control signal for performing strobe light emission to the strobe 17 and gives a control signal for opening and closing the shutter 19.
[0032]
Next, the flow of light emission timing control processing performed by the CPU 20 based on the control program 21a will be described with reference to the flowchart of FIG.
[0033]
First, when the power switch is turned on, initial processing such as clearing the memory built in the CPU 20 and setting an I / O port is performed (step 100). Then, the process waits until any switch is activated (step 102). In addition to the shutter button 11, the switch includes a self-timer switch and a zoom switch. When any switch is activated (step 104), it is detected which switch is activated (step 106). When the switch is other than the shutter button 11, processing for each switch is performed (step 108).
[0034]
When it is detected in step 106 that the shutter switch 11 is half-pressed, the remaining amount of the power battery is checked (step 110). Next, a signal from the CPU 20 is given to the photometry unit 18, and the photometry unit 18 measures the brightness of external light within the field of view (step 112). Further, a signal from the CPU 20 is given to the projector 14, and the distance to the subject is measured by the projector 14 and the light receiver 16 (step 114). This measurement is performed based on the principle of triangulation, for example. Then, the exposure value EV which is the control value of the shutter 19 is calculated by substituting the apex value (BV) of the external light luminance and the apex value (SV) of the film sensitivity obtained in step 112 into the following equation (1) ( Step 116).
[0035]
EV = SV + BV (1)
The combination of the shutter speed and the aperture value for obtaining the exposure amount necessary for shooting is determined by the calculation of the EV value, and at the time of shooting in step 126 described later, the aperture blade is also used based on the shutter speed and the aperture value. The opening / closing drive of the shutter is controlled.
[0036]
Next, an AV value for determining the timing for causing the flash 17 to emit light is calculated (step 118). The AV value is a value corresponding to the opening area of the shutter 19 when the strobe 17 is caused to emit light. In other words, if the AV value is obtained, it can be determined which area the opening area that gradually increases after the shutter 19 is started, and the shutter 19 should emit light, so that the light emission timing of the strobe 17 can be determined from the AV value. Can be sought. In the calculation of the AV value, first, the distance (D) to the subject obtained in step 107 is substituted into the following formula (2), and the guide number (GNo.) In ISO 100 is substituted into the formula (3). The GV value is obtained.
[0037]
DV = -2log ₂ D… ▲ 2 ▼
GV = 2log ₂ GNo. … ▲ 3 ▼
Next, an OFS value, which is a correction value, is obtained from the correction table 21 b written in the ROM 21. As shown in the example of FIG. 5, the correction table 21b is a table that uses the external light luminance in the field of view and the distance to the subject as parameters. In this example, the external light luminance in the field of view is divided into four stages (0 to B1, B1 to B2, B2 to B3, and B3), and the distance to the subject is set to (closest to D1, D1 to D2, D2 to D2). D3 and D3) (B1 <B2 <B3, D1 <D2 <D3). In this embodiment, the closest distance is 0.35 m, the distance D1 is 1.3 m, the distance D2 is 3.0 m, and the distance D3 is 8.9 m.
[0038]
Then, the OFS value can be obtained from the external light luminance in the photographing field measured in step 112 and the distance to the subject measured in step 114. For example, if the distance is between D1 and D2 and the luminance is between B2 and B3, OFS = 1/4. When the distance is D3 or more and the luminance is between B1 and B2, OFS = 1. By substituting this OFS value into the following equation (4), the FL value is obtained.
[0039]
FL = log ₂ OFS… ▲ 4 ▼
The AV value is obtained by substituting the DV value, GV value, FL value and film sensitivity (SV) thus obtained into the following equation (5) (step 118).
[0040]
AV = GV + SV + DV−FL−5 (5)
Next, the process waits until the shutter button 11 is further pressed from the half-pressed state to the fully-pressed state (steps 120 and 122), and the finger is released from the shutter button 11 without being fully pressed. If the process returns, the process returns to the process of step 102. When the shutter button 11 is fully pressed, the photographing optical system including the lens barrel 13 and the like is set in a focused state (step 124), and then the shutter 19 is opened and closed to take a picture.
[0041]
The opening / closing control of the shutter 19 is performed based on the shutter speed and the aperture value determined based on the EV value calculated in step 116. Then, at the timing when the opening area of the shutter 19 becomes the AV value calculated in step 118, the strobe 17 is emitted (step 126). The light emitted from the strobe 17 provides sufficient exposure for photographing.
[0042]
After the shutter 19 is closed, the lens for which the in-focus state has been set is moved to the initial position to stand by (step 128), the film is further fed (step 130), and the strobe 17 is then charged (step 130). 132). Then, the process waits while the shutter button 11 is half-pressed (step 134). After the finger is released from the shutter button 11 and the shutter button 11 returns to the original state, the process returns to step 102.
[0043]
The feature of this embodiment is that when calculating the AV value in step 118, the exposure amount by the strobe 17 is adjusted based on the correction table 21b.
[0044]
As shown in FIG. 5, the correction table 21b divides the distance to the subject and the brightness of the external light in the field of view into four stages, and finely assigns the OFS value, which is the correction value of the exposure amount by the strobe 17, for each stage. Basically, when the external light luminance is low B1 or less, the exposure amount is insufficient only with the external light luminance. Therefore, the correction value OFS = 1 (FL = 0EV) is assigned so that the exposure amount by the strobe 17 does not decrease. Yes. When the external light luminance is B1 or more, a correction value OFS = 1/2 to 1/8 (FL = −1EV to −3EV) for decreasing the exposure amount by the strobe 17 is assigned. The amount of decrease at this time is adjusted to increase when the distance is short.
[0045]
The relationship between the exposure amount by the strobe 17 corrected by the correction table 21b and the exposure amount by the external light in the photographing field will be described with reference to the graphs of FIGS. These graphs are for the case where the film sensitivity is ISO 100 (SV = 5), and correspond to each distance (closest to D1, D1 to D2, D2 to D3, D3) in the correction table 21b. . In each figure, the horizontal axis indicates the external light luminance (apex value), and the vertical axis indicates the external light luminance at which the optimum exposure amount is obtained during the predetermined opening period of the aperture blade / shutter 19 as the reference external light luminance. At the same time, the exposure amount in a state where the reference extraneous light luminance is obtained is defined as a standard exposure amount, and the respective light quantity ratios (referred to as exposure contribution amounts) to which the external light and the flash light contribute to the standard exposure amount (100%). Show.
[0046]
Further, the external light brightness B1 is set to a value equal to the above-described reference non-light brightness, or a value lower than the reference non-light brightness by a predetermined brightness, or a predetermined brightness lower than the non-reference light brightness. It is set to a high value and is called switching brightness.
[0047]
First, based on FIG. 6, the relationship between the exposure amount by the strobe 17 and the exposure amount by external light when the distance to the subject is D1 or less will be described. From the graph of FIG. 6, when the external light luminance is BV1 or less, the time during which the shutter 19 is opened is the camera shake prevention limit and is constant, so that it is not possible to obtain 100% exposure necessary for photographing only with external light. . For this reason, the amount of exposure by external light continues to increase until the external light luminance reaches BV1. When the external light luminance becomes BV1 or more, the shutter 19 is controlled and adjusted so that the exposure amount by the external light is maintained at 100%. For this reason, the exposure amount by external light becomes constant when the external light luminance is BV1 or more.
[0048]
On the other hand, when the external light luminance is B1 or less, the exposure amount by the strobe 17 is 100% necessary for photographing, and when the external light luminance increases to B1, B2, and B3, the exposure amount is 1 respectively. Decreases by 2 This is because when the distance to the subject is less than D1, OFS = 1 (FL = 0EV) and OFS = 1/0 for the external light luminances of 0 to B1, B1 to B2, B2 to B3, and B3, respectively. This is because 2 (FL = -1EV), OFS = 1/4 (FL = -2EV), OFS = 1/8 (FL = -3EV) are allocated to the correction table 21b.
[0049]
Thus, when the distance to the subject is as short as D1 or less, the exposure amount by the strobe 17 decreases stepwise as the external light luminance increases. If the amount of exposure by the strobe 17 is constant when the external light luminance is high, the ratio of the amount of background light to the subject is lowered, and a photograph that makes the background feel dark is taken. In the present embodiment, as the external light luminance increases, the exposure amount by the strobe 17 decreases stepwise, so even if the external light luminance is high, the background light amount ratio to the subject does not decrease. For this reason, a photograph in which the background does not become dark even under high luminance is taken, and the atmosphere as a photograph is not impaired. As will be described later, even when the distance to the subject is equal to or greater than D1, the exposure amount by the strobe 17 is adjusted to decrease stepwise as the external light brightness increases, so the distance to the subject is long. Even if it becomes, the same effect is acquired.
[0050]
When the distance to the subject is as short as D1 or less, the exposure amount by the strobe 17 when the external light luminance is B3 or more is extremely small. When shooting a subject at a short distance, the area occupied by the subject is larger than that of the background. Therefore, the balance between the amount of light on the subject surface and the background is lost, and the subject tends to appear white. In this embodiment, when the outside light luminance is high at a short distance, the exposure amount by the strobe light irradiation is controlled to be very small, so that the balance between the light amount of the subject surface and the background is maintained, and the subject Will not be a white photo.
[0051]
Next, the relationship between the exposure amount by the strobe 17 and the exposure amount by external light when the distance to the subject is between D1 and D2 will be described with reference to FIG. From the graph of FIG. 6, the exposure amount by external light is the same as the graph of FIG. On the other hand, when the external light luminance is B1 or less, the exposure amount by the strobe 17 is 100% necessary for photographing. When the external light luminance increases to B1 and B2, the exposure amount is 1/2. It is decreasing gradually. A difference from the graph of FIG. 6 is that the exposure amount by the strobe 17 is not reduced to ½ even when the external light luminance becomes B3. In this graph, since the distance to the subject is as long as D1 or more, even if the external light luminance is as high as B3 or more, there is a problem that the balance between the amount of light on the subject surface and the background is lost as described above. Absent. For this reason, when the external light luminance is B3, detailed processing such as reducing the exposure amount by the strobe 17 to ½ is not performed.
[0052]
Next, the relationship between the exposure amount by the strobe 17 and the exposure amount by external light when the distance to the subject is between D2 and D3 will be described with reference to FIG. The graph of FIG. 7 differs from the graph of FIG. 7 in that the exposure amount by the strobe 17 is not reduced to ½ even when the external light luminance becomes B1. For this reason, the amount of exposure by the strobe 17 whose external light luminance is B1 is twice that of the graph of FIG. However, since the distance to the subject is D2 or more, which is longer than the graph of FIG. 7, the above-described problem that the balance between the amount of light on the subject surface and the background is not lost.
[0053]
Next, the relationship between the exposure amount by the strobe 17 and the exposure amount by external light when the distance to the subject is D3 or more will be described with reference to FIG. In the graph of the figure, the exposure amount by the strobe 17 is set to 100% until the external light brightness reaches B2, and the flash 17 is controlled to stop emitting light when the external light brightness is B2 or more. As described above, the strobe emission is stopped at an external light luminance of B2 or higher when the distance to the subject is as long as D3 or longer, the strobe light is difficult to reach, and when the external light luminance is high as B2 or higher, This is because even if the light emission is stopped, there is almost no effect on photography.
[0054]
The film sensitivity ISO 100 has been described above, but the same effect can be obtained by sliding the BV value for other sensitivities.
[0055]
The present invention is not limited to the embodiment described above, and various modifications can be made. For example, in this embodiment, as shown in FIG. 2, the exposure amount is adjusted by slightly shifting the light emission timing of the strobe 15 from the shutter timing (shifting the phase in time). The exposure amount may be adjusted by making the light emission timing constant and variably controlling the light emission amount of the strobe 15 itself.
[0056]
The measurement of the distance to the subject is performed by the active method using the projector 14 and the light receiver 16, but a passive method may be used.
[0057]
【The invention's effect】
As described above in detail, the camera with a built-in strobe of the present invention has a photometry unit that measures the luminance within the photographing field, a distance measuring unit that measures the distance to the subject, and the luminance within the photographing field measured by the photometric unit. If the brightness is lower than the switching brightness, control the strobe light so that the exposure amount by the strobe light becomes the standard exposure.If the brightness in the shooting field of view is equal to or higher than the switching brightness, the exposure is increased as the brightness in the shooting field increases. And a strobe light control unit that controls the strobe light so that the amount decreases stepwise.
[0058]
As described above, since the exposure amount by the strobe light is controlled to decrease stepwise as the luminance in the photographing field increases, the light amount ratio of the background to the subject decreases even when the luminance in the photographing field is high. There is nothing. For this reason, a photograph in which the background does not become darker than the subject even under high luminance is taken, and the atmosphere as a photograph is not impaired.
[0059]
In addition, when the brightness in the field of view is high at a short distance, the exposure amount due to the strobe light irradiation is controlled so as to be very small. It will never be a white photo.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an appearance of a camera with a built-in strobe according to an embodiment.
FIG. 2 is a time chart showing the relationship between shutter opening timing and strobe light emission timing.
FIG. 3 is a block diagram showing a specific configuration for performing strobe light emission timing control;
FIG. 4 is a flowchart showing a flow of light emission timing control processing.
FIG. 5 is a diagram showing a correction table.
FIG. 6 is a diagram showing the relationship between the amount of exposure with a strobe when the distance to the subject is D1 or less and the amount of exposure with external light in the field of view.
FIG. 7 is a diagram illustrating a relationship between an exposure amount by a strobe at a distance to a subject of D1 to D2 and an exposure amount by external light in a photographing field of view.
FIG. 8 is a diagram illustrating a relationship between an exposure amount by a strobe at a distance to a subject of D2 to D3 and an exposure amount by external light within a photographing field of view.
FIG. 9 is a diagram showing a relationship between an exposure amount by a strobe at a distance to a subject of D3 or more and an exposure amount by external light in a photographing field of view.
FIG. 10 is a diagram showing a relationship between an exposure amount by external light and an exposure amount by a strobe in a conventional camera with a built-in strobe.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 14 ... Light projector (ranging part), 16 ... Light receiver (ranging part), 18 ... Photometry part, 20 ... CPU (strobe light control part), 21a ... Control program (strobe light control part), 21b ... Correction table ( Strobe light control unit).
Attorney Yoshiki Hasegawa

Claims (2)

An aperture blade combined shutter provided in the imaging optical system;
A metering unit that measures the brightness of external light in the field of view;
A distance measuring unit for measuring the distance to the subject in the field of view;
While the brightness of the external light that can obtain the optimum exposure in the predetermined shutter opening period of the aperture blade combined shutter is set as the standard external light brightness, and the exposure amount in a state in which the standard external light brightness is obtained is set as the standard exposure amount, When shooting under external light with a luminance equal to or higher than the reference external light luminance, an automatic exposure mechanism that controls the opening / closing of the diaphragm blade combined shutter so that the standard exposure amount can be obtained only by external light ,
The non-reference light luminance is set as the switching luminance, or the predetermined luminance that is lower than the non-reference light luminance by a predetermined value or higher than the predetermined value is set as the switching luminance.
When the brightness of the external light in the field of view measured by the photometry unit is lower than the switching brightness, the diaphragm blade combined use so that an exposure amount added by a predetermined strobe light is substantially equal to the standard exposure amount During the opening / closing operation of the shutter, the strobe light is emitted at a timing corresponding to the distance measured by the distance measuring unit, or the strobe light is emitted at a light emission amount corresponding to the distance measured by the distance measuring unit. Let
When the brightness of the external light in the photographing field of view is equal to or higher than the switching brightness, the exposure amount added by the strobe light is equal to or less than the standard exposure amount, and the exposure amount exceeding the standard exposure amount in total with the external light And the strobe light at a timing corresponding to the distance measured by the distance measuring unit during the opening / closing operation of the diaphragm blade shutter so that the brightness in the photographing field of view is reduced stepwise. Or a strobe light control unit that emits the strobe light with a light emission amount corresponding to the distance measured by the distance measuring unit,
A camera with a built-in strobe. The strobe light control unit
2. The strobe according to claim 1, wherein the amount of decrease in the exposure amount due to the strobe light that decreases in steps is increased stepwise as the distance to the subject measured by the distance measuring unit becomes shorter. Built-in camera.

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