JP2725396B2 - Still image pickup device - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to improving the image quality of a still image capturing apparatus that captures and records a still image.

2. Description of the Related Art FIG. 12 shows a conventional example of an electronic still camera that captures and records a still image. At the time of photographing the subject, the system control circuit 12 instructs a photographing operation in response to a command from an operation unit (not shown), and the subject image is guided to the image sensor 1 by the lens 17, the shutter 18, and the aperture 19 in FIG. Is converted into an electric signal. The electric signal is amplified by the preamplifier 3 and then converted into a digital signal by the A / D conversion circuit 4 and guided to the signal processing circuit 43. The signal from the signal processing circuit 43 is further converted into a signal suitable for recording by the recording circuit 10. And the image is recorded on the recording medium 11, and the photographing of one still image is completed. The amount of light from the subject image guided to the image sensor 1 during photographing is controlled by the shutter / aperture drive circuit 21 such that the shutter speed of the shutter 18 and the opening area of the diaphragm 19 are controlled in accordance with the brightness of the subject detected by the light amount detection circuit 20. By doing so, the value is always kept at a substantially appropriate value each time a picture is taken. Further, the signal processing circuit 43 can convert a signal from the imaging device 1 driven by the device driving circuit 2 into a general color video signal (for example, a luminance signal, an RY signal, and a BY signal). It is a basic function and has other functions such as a function of amplifying the signal level by a certain level and a white balance control function.
The white balance control is a control for reproducing a white object under various illumination light into white in the electric color video signal. For example, in the RY signal and the BY signal, the respective values become zero. Thus, the signal levels of the R signal and the B signal are controlled. In order to perform this control, it is basically necessary to know the light primary color (color temperature) of the illumination light. In this conventional example, the light primary color detection circuit 15 detects the color temperature of the illumination light and obtains this information. , The signal processing circuit 43 is controlled by the white balance control circuit 22.

Problems to be Solved by the Invention The conventional electronic still camera configured as described above has the following problems.

The first problem is that a control error occurs because the white balance control in the signal processing circuit 43 is performed based on a detection signal from the light primary color detection circuit 15 independent of the image sensor 1. That is, for example, considering a situation in which an indoor room illuminated by a fluorescent lamp is photographed from the room illuminated by sunlight, the illumination guided to the image sensor 1 is sunlight illumination, and the illumination guided to the light primary color detection circuit 15 is fluorescent light. The illumination is a lamp illumination, and the illumination guided to the image sensor 1 and the illumination guided to the light primary color detection circuit 15 are different, so that the white balance control in the signal processing circuit 43 is basically not correctly performed.

The second problem is that if the amount of light from the subject guided to the image sensor 1 varies, the signal level of the signal guided to the recording circuit 10 varies, and if the signal level greatly deviates from the recordable signal level. However, a signal of an appropriate level cannot be recorded only by the conventional fixed amplification function. In other words, even if the amount of light emitted from the subject, that is, the amount of light from the subject is always constant, a detection error occurs due to the independence of the light amount detection circuit 20 and the imaging device 1, and a control error in controlling the shutter speed and the aperture opening area. Outbreak,
Due to an error such as an error caused by a time change of the shutter 18 or the like, there is always a variation in the amount of light of the subject guided to the image sensor 1. In order to reduce this variation to some extent, there is a method of improving the accuracy of the light amount detection circuit 20, the shutter 18, and the aperture 19, but the cost increase is large and impractical, and the light amount detection circuit 20 and the imaging device 1 are independent. The resulting error always occurs due to the luminance distribution of the subject.

Means for Solving the Problems The present invention, in order to solve the above problems, an image sensor,
A buffer memory having a capacity of at least one screen for temporarily storing an image signal read from the image sensor,
A signal processing circuit that processes an output signal of the image sensor or an output signal of the buffer memory; and a video state detection circuit that detects a state of an image signal temporarily stored in the buffer memory or an image signal output from the signal processing circuit. And a control circuit for controlling the signal processing circuit based on the output of the video state detection circuit, wherein the signal processing circuit in a state controlled by the control circuit processes the image signal temporarily stored in the buffer memory. It is configured as follows.

According to the configuration described above, the image signal obtained by shooting is temporarily stored in the buffer memory, and the image signal temporarily stored in the buffer memory or the state of the image signal obtained by shooting at the output of the signal processing circuit is displayed as an image. The state detection circuit detects the signal, controls the signal processing circuit based on the detection signal, and processes the video signal temporarily stored in the buffer memory by the signal processing circuit in this state, thereby obtaining a video signal of a correct signal level. And a color video signal whose white balance is correctly controlled can be obtained.

Embodiment 1 Hereinafter, a first embodiment of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a block diagram showing the basic configuration of the present invention, and the same parts as in FIG. 12 of the prior art are denoted by the same reference numerals. The subject image guided to the image sensor 1 is converted into an electric signal, amplified by the preamplifier 3, converted into a digital signal by the A / D converter 4, guided to the signal processing circuit 5 and processed, and then processed by the buffer memory 6. Is temporarily stored. In addition,
At this time, the amplification degree and white balance control of the signal processing circuit 5 are controlled in the same state as the conventional example or in a fixed state. Therefore, the buffer memory 6 is temporarily
The signal level and the white balance state of the video signal stored in the image signal include variations and errors as in the conventional example. Next, the video signal temporarily stored in the buffer memory 6 is read out to detect the state, and the state is detected by the image state detection circuit 8. Then, a control signal corresponding to the detected video state is generated, and the control circuit 9 controls the signal processing circuit 5. Next, the video signal temporarily stored in the buffer memory 6 is read out and guided to the signal processing circuit 5 controlled in this way, and the process is performed again. The reprocessed signal is sent to a recording medium 11 via a recording circuit 10.
Will be recorded.

As described above, according to the present embodiment, the video state detection circuit 8
And the control circuit 9 controls according to the state of the video signal stored in the buffer memory 6, that is, when the amplitude of the signal is large, the amplitude is reduced to return it to an appropriate level. Subject R-
When the Y signal is not zero, control is performed to make it zero, so that a recorded video signal can have a significantly smaller error in signal amplitude and white balance as compared with the conventional example, and a good video can be obtained. In FIG. 1, the image sensor 1 is driven by an element driving circuit 2, and the buffer memory 6 is controlled in writing and reading by a memory control circuit 7. The system control circuit 12 controls the entire system.

Next, a second embodiment of the present invention will be described with reference to the drawings.

FIG. 2 is a block diagram of a second embodiment of the present invention. The difference from FIG. 1 is that when a signal obtained by the image sensor 1 is temporarily stored in a buffer memory 6, a signal processing circuit 5 is used. The configuration is such that the output of the A / D conversion circuit 4 is directly stored in the buffer memory 6 without passing through the buffer memory 6, and the present invention can be achieved even with such a configuration. The operation and performance are basically the same as those in FIG.

Next, a third embodiment of the present invention will be described with reference to the drawings.

FIG. 3 is a block diagram of a third embodiment of the present invention. The difference from FIG. 1 is that the video signal reprocessed by the signal processing circuit 5 is temporarily stored in the buffer memory 6 again, and Is read out and recorded via the recording circuit 10.
It is clear that the present invention can be achieved even with such a configuration. Further, when the processing speed of the signal processing circuit 5 and the recording speed on the recording medium 11 are different from each other, the present invention can be used for speed conversion. There is an advantage that it is not necessary to have a separate buffer memory.

Next, a fourth embodiment of the present invention will be described with reference to the drawings.

FIG. 4 is a block diagram of a fourth embodiment of the present invention. The difference from FIG. 1 is that the detection of the video state is not performed by reading out the signal temporarily stored in the buffer memory, but by performing the imaging. Signal from element 1 is preamplifier 3, A / D conversion circuit
(4) It is performed at the same timing as writing to the buffer memory 6 via the signal processing circuit 5. With such a configuration, there is an advantage that the processing time of one photographing record can be shortened.

It should be noted that the fourth embodiment is combined with the second embodiment, and the signal obtained by the image sensor 1 is converted to a signal processing circuit 5.
The signals from the image sensor 1 are stored in the preamplifier 3 and the A / D converter circuit 4 while the output from the A / D conversion circuit 4 is directly stored in the buffer memory 6 (at the same timing) without passing through the signal from the image sensor 1. It is clear that the present invention can be achieved even if the video state is detected via the conversion circuit 4 and the signal processing circuit 5, and the processing time of one image recording is shortened similarly to the fourth embodiment. There are advantages that can be.

Next, a fifth embodiment of the present invention will be described with reference to the drawings.

FIG. 5 is a block diagram of a fifth embodiment of the present invention. Specifically, the video state detection circuit 8 and the control circuit 9 in FIG. 1 are replaced by a white balance detection circuit 13 and a white balance control circuit 14, respectively. It is a structural example. That is, the state of the white balance of the video signal temporarily stored in the buffer memory 6 is detected by the white balance detection circuit 13, and the white balance control circuit 14
Controls the signal processing circuit 5, and the video signal temporarily stored in the buffer memory 6 is processed and recorded by the signal processing circuit 5 in the controlled state. It is clear that this specific configuration example can also be applied to the embodiment shown in FIGS.

Next, a sixth embodiment of the present invention will be described with reference to the drawings.

FIG. 6 is a block diagram of a sixth embodiment of the present invention. The image state detection circuit 8 and the control circuit 9 of FIG. 3 are replaced by a white balance detection circuit 13 and a white balance control circuit 16, respectively. This is an example in which a light primary color detection circuit 15 independent of 1 is provided.

The subject image of approximately appropriate light quantity guided to the image sensor 1 is converted into an electric signal, amplified by the preamplifier 3, then converted into a digital signal by the A / D converter 4, guided to the signal processing circuit 5, and processed. Later, it is temporarily stored in the buffer memory 6. At this time, the amplification degree of the signal processing circuit 5 is controlled in a fixed state as in the conventional example, and the white balance is controlled by the white balance control circuit 16 based on the signal detected by the light source color detection circuit 15. Have been. Therefore, the white balance state of the video signal temporarily stored in the buffer memory 6 includes an error as in the conventional example. Next, the video signal temporarily stored in the buffer memory 6 is read out to detect the white balance state, the state is detected by the white balance detection circuit 13, and the white balance state is detected according to the detected white balance state. A control signal is generated, and the signal processing circuit 5 is controlled by the white balance control circuit 16. Next, the video signal temporarily stored in the buffer memory 6 is read out and guided to the signal processing circuit 5 controlled as described above, and the white balance control process is performed again. Then, the reprocessed signal is temporarily stored in the buffer memory 6 and then recorded on the recording medium 11 via the recording circuit 10. The recorded video signal has much less white balance error compared to the conventional example, and a good image can be obtained as in the previous embodiments. It is apparent that this specific configuration example can be applied to the embodiments shown in FIGS. 1, 2 and 4.

Next, a seventh embodiment of the present invention will be described with reference to the drawings.

FIG. 7 is a block diagram of a seventh embodiment of the present invention, wherein the video state detection circuit 8 and the control circuit 9 of FIG. 3 are replaced by a video level detection circuit 23 and a gain control circuit 24, respectively.
FIG. 12 shows an example applied to the conventional electronic still camera shown in FIG. When photographing the subject, the operation unit (not shown)
, The system control circuit 12 instructs a photographing operation, and the subject image is guided to the image sensor 1 by the lens 17, the shutter 18, and the aperture 19, and is converted into an electric signal.
The electric signal is amplified by the preamplifier 3, converted into a digital signal by the A / D conversion circuit 4, guided to the signal processing circuit 5, processed, and temporarily stored in the buffer memory 6. The amount of light from the subject image guided to the image sensor 1 at the time of shooting depends on the shutter speed of the shutter 18 and the aperture in accordance with the brightness of the subject detected by the light amount detection circuit 20.
The opening area of the shutter 19 is controlled by the shutter / aperture drive circuit 21, so that the aperture area is maintained at a substantially appropriate value each time shooting is performed. At this time, the amplification degree of the signal processing circuit 5 is controlled in a fixed state as in the conventional example, and the white balance is controlled by the white balance control circuit 16 based on the signal detected by the light primary color detection circuit 15. Is controlled by
Therefore, the signal level of the video signal temporarily stored in the buffer memory 6 includes an error as in the conventional example. Next, the video signal temporarily stored in the buffer memory 6 is read out to detect the video level, the state is detected by the video level detection circuit 23, and the control signal corresponding to the detected video level is detected. Is generated, and the signal processing circuit 5 is controlled by the gain control circuit 24. Next, the video signal temporarily stored in the buffer memory 6 is read and guided to the signal processing circuit 5 controlled as described above, and the gain control process is performed again. Then, the reprocessed signal is temporarily stored in the buffer memory 6 and then recorded on the recording medium 11 via the recording circuit 10. As in the third embodiment shown in FIG. 3, it is possible to obtain a good image in which the error of the image level of the recorded video signal is much smaller than that of the conventional example. In addition,
It is clear that this specific configuration example can be applied to the embodiments shown in FIGS. 1, 2 and 4.

Next, an eighth embodiment of the present invention will be described with reference to the drawings.

FIG. 8 is a block diagram of an eighth embodiment of the present invention, in which the gain control circuit 24 shown in FIG.
Reference numeral 44 denotes an example in which the input / output nonlinearity characteristic of the signal processing circuit 5 is controlled according to the video level of the video signal temporarily stored in the buffer memory 6. That is, the video signal temporarily stored in the buffer memory 6 is transmitted to the signal processing circuit 5 whose input / output nonlinearity characteristic is controlled in accordance with the video level of the video signal temporarily stored in the buffer memory 6. The readout and guidance are performed, and the input / output nonlinearity characteristic control process is performed again. The control of the input / output non-linear characteristic is such that when the video level of the video signal temporarily stored in the buffer memory 6 is high, the suppression characteristic is strengthened to reduce the signal amplitude at the time of output (input / output non-linearity control). If the circuit 44 is a gamma circuit, the gamma value is controlled to be small), so that the recorded video signal has much less error in the video level as compared with the conventional example, and a good video can be obtained. This is the same as the seventh embodiment in FIG.
It is apparent that this specific configuration example can be applied to the embodiments shown in FIGS. 1, 2 and 4. Also, by combining the eighth embodiment with the seventh embodiment, the video state detection circuit 8 of the third embodiment in FIG. 3 is used as a video level detection circuit, and the control circuit 9 is used as a gain control circuit. Obviously, the present invention can be configured as two circuits, that is, the input / output nonlinearity control circuit 44 and the input / output nonlinearity control circuit 44.

Next, a ninth embodiment of the present invention will be described with reference to the drawings.

FIG. 9 is a block diagram of a ninth embodiment of the present invention. The image state detection circuit 8 in FIG. 3 is a white balance detection circuit 13 and an image level detection circuit 23, and the control circuit 9 is a white balance control circuit. 16 and the gain control circuit 24
This is an example applied to the conventional electronic still camera shown in FIG.
The subject image of approximately appropriate light quantity guided to the image sensor 1 is converted into an electric signal, amplified by the preamplifier 3, then converted into a digital signal by the A / D converter 4, guided to the signal processing circuit 5, and processed. Later, it is temporarily stored in the buffer memory 6. The amount of light from the subject image guided to the image sensor 1 during photographing is determined by the shutter / aperture drive circuit 21 according to the shutter speed of the shutter 18 and the aperture area of the diaphragm 19 according to the subject luminance detected by the light amount detection circuit 20. By being controlled, it is maintained at a substantially appropriate value each time an image is taken. At this time, the amplification degree of the signal processing circuit 5 is controlled in a fixed state as in the conventional example, and the white balance is controlled by the white balance control circuit 16 based on the signal detected by the light primary color detection circuit 15. Is controlled by Therefore, the white balance state and the signal level of the video signal temporarily stored in the buffer memory 6 include an error as in the conventional example. Next, the video signal temporarily stored in the buffer memory 6 is read out to detect its white balance state and video level, and the white balance state is detected by the white balance detection circuit 13 and the video level is detected by the video level detection circuit 23. Each level is detected, and a control signal corresponding to the detected white balance state and video level is generated, and the signal processing circuit 5 is controlled by the white balance control circuit 16 and the gain control circuit 24. Next, the video signal temporarily stored in the buffer memory 6 is read out and guided to the signal processing circuit 55 controlled as described above, and the white balance control and the gain control process are performed again. Then, the reprocessed signal is temporarily stored in the buffer memory 6 and then recorded on the recording medium 11 via the recording circuit 10.
As in the previous embodiments, it is possible to obtain a good image with a significantly reduced error in the white balance and signal amplitude level of the recorded video signal as compared with the conventional example. It is apparent that this specific configuration example can be applied to the embodiments shown in FIGS. 1, 2 and 4.

Next, the internal configuration of the signal processing circuit 5 used in the present invention will be described in detail focusing on the white balance control unit and the gain control unit.

FIG. 10 shows an example of a suitable signal processing circuit 5 when the form of the output video signal is an R, G, B signal.

Hereinafter, the operation in the case where the signal processing circuit 5 having the configuration of FIG. 9 is applied to the signal processing circuit 5 of FIG. 9 will be described.

The signal of the image sensor 1 guided from the A / D conversion circuit 4 is input to an input terminal 25 and converted into R, G, B signals by a color separation circuit 30. The switching circuit 32 receives a control signal from the system control circuit 12 at its switching control terminal 29, and first stores the signal from the image sensor 1 in the buffer memory 6 first. R, G, and B signals are selected. The amplitudes of the R and B signals among the R, G and B signals are controlled by gain control amplifiers 33 and 34, respectively, for white balance control.
R ₁ and B ₁ are set. As a result, the output terminals 35-1, 35-2, 35-3
Output R ₁ , G, B ₁ signals, respectively, and these signals are temporarily stored in the buffer memory 6. At this time, the respective control signal input terminals 28-1 of the gain control amplifiers 33 and 34
And the control signal from the white balance control circuit 16 to the control signal 28-2 is based on the signal detected by the light primary color detection circuit 15. Next, when the signals stored in the buffer memory 6 are read out and reprocessed by the signal processing circuit 5, R ₁ , G, B signals from the buffer memory 6 are supplied to the input terminals 26-1, 26-2, 26-3, respectively. ₁ signal is input and gain control amplifier 3
At 1, each signal is amplified with the same gain and is set to R ₂ , G ₁ , and B ₂ . This amplification degree is controlled by the video signal level of the signal stored in the buffer memory 6 as described above. The control signal is supplied from the gain control circuit 24 to the control signal input terminal 27. At this time, the switching circuit 32 is controlled to select the output signals of these gain control amplifiers 31. Among the R ₂ , G ₁ , and B ₂ signals, the amplitudes of the R ₂ and B ₂ signals are controlled by gain control amplifiers 33 and 34 for white balance control, respectively.
R ₃ and B ₃ . As a result, the output terminals 35-1, 35-2, 35-3
Output R ₃ , G ₁ , and B ₃ signals, respectively, and these signals are temporarily stored in the buffer memory 6. At this time, the control signal input terminals 28-
The control signals given to 1 and 28-2 are based on the white balance detection signal of the signal stored in the buffer memory 6 as described above. When R, G, and B signals are used as output video signal forms as in this example, the video level detection circuit 23 uses the amplitude of the G signal, and the white balance detection circuit 13 uses the R ₁ -G, B ₁ -G signal. It is configured to detect a signal level.

FIG. 11 shows an example of a suitable signal processing circuit 5 when the form of the output video signal is a Y, RY, BY signal.

Hereinafter, the operation in the case where the signal processing circuit 5 having the configuration of FIG. 9 is applied to the signal processing circuit 5 of FIG. 9 will be described.

A signal of the image sensor 1 guided from the A / D conversion circuit 4 is input to an input terminal 25 and is Y, RY, BY by a color separation circuit 36.
Converted to a signal. The switching circuit 32 has a switching control terminal 29 to which a control signal is given from the system control circuit 12. When the signal from the image pickup device 1 is first temporarily stored in the buffer memory 6, the switching circuit 32 uses this color separation circuit 36. From the Y, RY, and BY signals. The RY and BY signals of the Y, RY, and BY signals are
For white balance control, addition circuits 40 and 41 add the Y signal of which the amplitude and polarity are controlled by the gain control amplifiers 38 and 39 to obtain (RY) ₁ and (BY) ₁ . As a result, the output terminals 42-1, 42-2, and 42-3 are connected to Y, (R-
Y) ₁ and (BY) ₁ signals are output, and these signals are temporarily stored in the buffer memory 6. Gain control amplifier at this time
Control signal input terminals 28-1 and 28- of 38 and 39, respectively.
The control signal from the white balance control circuit 16 to be given to 2 is based on the signal detected by the light primary color detection circuit 15. Next, when the signal stored in the buffer memory 6 is read out and reprocessed by the signal processing circuit 5, T, (RY) ₁ from the buffer memory 6 is applied to the input terminals 26-1,26-2,26-3 respectively. , (BY) ₁ signal is input and gain control amplifier
At 37, each signal is amplified with the same gain, and Y ₁ , (R-
Y) ₂ and (BY) ₂ . This amplification degree is controlled by the video signal level of the signal stored in the buffer memory 6 as described above. The control signal is supplied from the gain control circuit 24 to the control signal input terminal 27. At this time, the switching circuit 32 is controlled to select the output signals of these gain control amplifiers 37. And this Y ₁ ,
The (RY) ₂ and (BY) ₂ signals of the (RY) ₂ and (BY) ₂ signals are added to an adder circuit 40 and a
At 41, the signal is added to the Y signal of which the amplitude and the polarity are controlled by the gain control amplifiers 38 and 39 to obtain (RY) ₃ and (BY) ₃ . As a result, Y ₁ and (R-
Y) ₃ and (BY) ₃ signals are output, and these signals are temporarily stored in the buffer memory 6. Gain control amplifier at this time
Control signal input terminals 28-1 and 28- of 38 and 39, respectively.
2 is based on the white balance detection signal of the signal stored in the buffer memory 6 as described above. When handling the Y, RY, and BY signals as the form of the output video signal as in this example, the video level detection circuit 23 determines the amplitude of the Y signal, and the white balance detection circuit 13 determines (RY) ₁ , (BY) It is configured to detect the level of _one signal.

In all the embodiments of the present invention described above, the color separation circuit 35 (36) for separating the signal from the image sensor 1 is used.
And each of the gain control amplifiers 31, 33, 34 (37, 38, 39) for controlling the gain of the signal temporarily stored in the buffer memory 6 as one signal processing circuit 5, which is switched and used. However, it is not necessary to limit to this configuration, and it is apparent that separate signal processing circuits may be provided for the outputs of the color separation circuits 35 (36).

In all the embodiments of the present invention described above, the signal processing circuit 5 is described as processing the signal converted into the digital signal by the A / D conversion circuit 4. However, the present invention is not limited to this configuration. Obviously, the present invention can be configured to process signals. At this time,
A / D conversion circuit 4 provided at the output stage of preamplifier 3
An A / D conversion circuit may be provided at the input stage of the buffer memory 6 and a D / A conversion circuit may be provided at the output stage for signal conversion.

As described above, according to the present invention, when capturing and recording a still image, a signal obtained by capturing is once stored in a buffer memory, the state of this signal is detected, and Accordingly, the signal stored in the buffer memory is processed and then recorded, so that the error in the white balance and the signal amplitude of the recorded signal from a predetermined level is reduced, and a high-quality still image capturing apparatus can be obtained. it can.

Furthermore, the signal obtained by shooting is temporarily stored in the buffer memory, the state of the signal is detected, and the signal stored in the buffer memory is processed and recorded according to the detected signal. The error of the white balance and the signal amplitude of the recorded signal from a predetermined level is reduced without significantly increasing the processing time of the photographing and recording of a sheet, and a high-quality still image capturing apparatus can be obtained.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a first embodiment of the still image pickup apparatus of the present invention, FIG. 2 is a block diagram showing a second embodiment of the still image pickup apparatus of the present invention, and FIG. FIG. 4 is a block diagram showing a still image pickup apparatus according to a third embodiment of the present invention, FIG. 4 is a block diagram showing a fourth embodiment of the still image pickup apparatus of the present invention, and FIG. FIG. 6 is a block diagram showing a fifth embodiment of the present invention, FIG. 6 is a block diagram showing a sixth embodiment of the still image pickup apparatus of the present invention, and FIG. 7 is a seventh embodiment of the still image pickup apparatus of the present invention. FIG. 8 is a block diagram showing an eighth embodiment of the still image pickup apparatus of the present invention, and FIG.
FIG. 10 is a block diagram showing a ninth embodiment of the still image pickup device of the present invention. FIGS. 10 and 11 are block diagrams showing a specific internal configuration example of the signal processing circuit 5 used in the present invention. Is a block diagram of a conventional still image pickup device. DESCRIPTION OF SYMBOLS 1 ... Image sensor, 2 ... Element drive circuit, 3 ... Preamplifier, 4
... A / D conversion circuit, 5 ... signal processing circuit, 6 ... buffer memory, 7 ... memory control circuit, 8 ... video state detection circuit, 9 ...
Control circuit, 10: recording circuit, 11: recording medium, 12: system control circuit.

Claims (21)

(57) [Claims] An image sensor, a buffer memory having at least one screen capacity for temporarily storing the image sensor output signal, a signal processing circuit for processing the image sensor output signal or the buffer memory output signal, and the signal A video state detection circuit for detecting a state of an image signal output from the processing circuit;
A control circuit for controlling the signal processing circuit with the output of the video state detection circuit, wherein the image sensor output signal is temporarily stored in the buffer memory without passing through the signal processor. Is detected by the video state detection circuit, and then the image sensor output signal temporarily stored in the buffer memory is read out and the output of the video state detection circuit is detected. Processing by the signal processing circuit in a state controlled by the control circuit in accordance with (i). 2. An image pickup device, a buffer memory having at least one screen capacity for temporarily storing an image signal obtained by processing the image pickup device output signal by a signal processing circuit described later; A signal processing circuit that processes a buffer memory output signal, a video state detection circuit that detects a state of an image signal temporarily stored in the buffer memory, and a control circuit that controls the signal processing circuit based on an output of the video state detection circuit. An image signal obtained by processing the output signal of the image sensor by the signal processing circuit is temporarily stored in the buffer memory, and the image signal temporarily stored in the buffer memory is non-destructively stored. The video signal is read out, the state is detected by the video state detection circuit, and the image signal temporarily stored in the buffer memory is read out to read out the video signal. Still image pickup apparatus, characterized in that for processing by the signal processing circuit in a state of being controlled by the control circuit in accordance with the output of the state detection circuit. 3. An image sensor, a buffer memory having at least one screen capacity for temporarily storing an image signal obtained by processing the image sensor output signal by a signal processing circuit described later, and the image sensor output signal or A signal processing circuit that processes a buffer memory output signal; a video state detection circuit that detects a state of an image signal output from the signal processing circuit; and a control circuit that controls the signal processing circuit with the output of the video state detection circuit. An image signal obtained by processing the output signal of the image sensor by the signal processing circuit, and temporarily storing the image signal in the buffer memory while detecting the state of the image signal by the video state detection circuit; Reading out the image signal temporarily stored in the memory and controlling the signal processing in a state controlled by the control circuit according to the output of the video state detection circuit; Still image pickup apparatus, characterized in that processing in the circuit. 4. An image signal temporarily stored in a buffer memory is read, processed by a signal processing circuit controlled by a control circuit, and temporarily stored in the buffer memory again.
4. The still image pickup apparatus according to claim 1, wherein said image signal is read out and recorded on a recording medium at a processing speed different from a processing speed of said signal processing circuit without passing through said signal processing circuit. 5. An image state detecting circuit detects a white balance state of an image signal, and a control circuit controls a signal processing circuit according to an output of the image state detecting circuit to control a white balance of the image signal. The still image pickup device according to claim 1, wherein: 6. An image state detecting circuit detects a signal level of an image signal, and controls a signal processing circuit by a control circuit according to an output of the image state detecting circuit to control an amplification gain of the image signal. The still image pickup device according to claim 1, wherein: 7. An image state detection circuit detects a signal level of an image signal, and a control circuit controls a signal processing circuit in accordance with an output of the image state detection circuit to control an amplification gain and an input / output characteristic of the image signal. The still image pickup device according to claim 1, wherein the non-linear characteristic is controlled. 8. An image state detection circuit detects a signal level and a white balance of an image signal, and a control circuit controls a signal processing circuit according to an output of the image state detection circuit to control an amplification gain and a white level of the image signal. The still image pickup device according to claim 1, wherein the balance is controlled. 9. An image state detection circuit detects a signal level and a white balance of an image signal, and controls a signal processing circuit by a control circuit in accordance with an output of the image state detection circuit to control an input / output characteristic of the image signal. The still image pickup apparatus according to claim 1, wherein the non-linear characteristic and the white balance are controlled. 10. An image state detection circuit detects a signal level and a white balance of an image signal, and controls a signal processing circuit by a control circuit in accordance with an output of the image state detection circuit to input and output an amplification gain of the image signal. The non-linear characteristic of output characteristics and white balance are controlled.
5. The still image pickup device according to 4. 11. A white balance detection circuit for detecting a white balance state of an image signal temporarily stored in a buffer memory or an image signal output from a signal processing circuit as an image state detection circuit, and detects a color temperature of a subject illumination light source. 5. The still image pickup device according to claim 1, further comprising a color temperature detection circuit for detecting. 12. An output of the image sensor is temporarily stored in a buffer memory via a signal processing circuit controlled by an output of a color temperature detecting circuit, and an image signal of the buffer memory is read nondestructively. The white balance state is detected by a white balance detection circuit, a signal temporarily stored in the buffer memory is read out, and the signal processing circuit is controlled by a control circuit in accordance with an output signal of the white balance detection circuit. 12. The still image capturing apparatus according to claim 11, wherein the processing is performed by: 13. The output of the image sensor is temporarily stored in a buffer memory via a signal processing circuit controlled by the output of a color temperature detection circuit, and the white balance state is detected by a white balance detection circuit. 12. The signal processing circuit according to claim 11, wherein the signal temporarily stored in the buffer memory is read out and processed by the signal processing circuit controlled by a control circuit according to an output signal of the white balance detection circuit. Still image pickup device. 14. The still image pickup apparatus according to claim 6, further comprising exposure control means for controlling an amount of exposure to the image pickup device. 15. An image sensor, and a buffer memory having a capacity for at least one screen for temporarily storing an image signal output from the image sensor or an image signal obtained by processing an output signal from the image sensor by a signal processing circuit described later. A signal processing circuit that processes the image sensor output signal or the buffer memory output signal, and at least one of a white balance state or a signal level of the image signal output from the signal processing circuit or the image signal temporarily stored in the buffer memory. The video state detection circuit to be detected and the output of the video state detection circuit output the white balance or amplification gain of the signal processing circuit or the nonlinear characteristic of amplification gain and input / output characteristics or the nonlinearity of input / output characteristics. And a control circuit for controlling at least one of “characteristics and white balance”. Still image capturing apparatus characterized by processing said signal processing circuit temporarily stored by said image sensor output signal or the image signal in the buffer memory in a controlled state by. 16. A recording circuit for reading an image signal temporarily stored in a buffer memory, processing the image signal by a signal processing circuit controlled by a control circuit, and recording the processed image signal on a recording medium. 16. The still picture imaging device according to 15. 17. An image signal temporarily stored in a buffer memory is read out, processed by a signal processing circuit controlled by a control circuit, temporarily stored again in said buffer memory, and said image signal is stored in said signal processing circuit. 17. The still image pickup device according to claim 15, wherein the still image pickup device reads out the data at a processing speed different from the processing speed of the signal processing circuit and records the readout data on a recording medium without going through. 18. A video state detection circuit comprising a white balance detection circuit for detecting a white balance state of an image signal temporarily stored in a buffer memory or an image signal output from the signal processing circuit, and a color temperature of a subject illumination light source. 18. The still image pickup device according to claim 15, further comprising a color temperature detection circuit for detecting a color temperature. 19. An image sensor output is temporarily stored in a buffer memory via a signal processing circuit controlled by the color temperature detection circuit output, and an image signal of the buffer memory is read nondestructively. The white balance state is detected by a white balance detection circuit, a signal temporarily stored in the buffer memory is read out, and the signal processing circuit in a state controlled by a control circuit according to an output signal of the white balance detection circuit. 19. The still image capturing apparatus according to claim 18, wherein the processing is performed. 20. An image sensor output is temporarily stored in a buffer memory via a signal processing circuit controlled by the color temperature detection circuit output, and the white balance state is detected by a white balance detection circuit. 19. The stationary apparatus according to claim 18, wherein a signal temporarily stored in said buffer memory is read out and processed by said signal processing circuit controlled by a control circuit according to an output signal of said white balance detection circuit. Image pickup device. 21. The still image pickup apparatus according to claim 15, further comprising exposure control means for controlling an amount of exposure to the image pickup device.