JP4285974B2 - Video signal processing device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention, image acquisition equipment cameras and tuner for acquiring image information about the video signal processing equipment detachable.
[0002]
[Prior art]
Conventionally, the camera is configured to be removable from the main body of the recording / reproducing apparatus, and the main body of the recording / reproducing apparatus can be connected to a tuner, detects which of the camera and the tuner is connected, and detects that the camera is connected. In this case, a luminance signal and a color signal from the camera are input to the video signal processing unit of the apparatus main body, and an audio signal from the microphone is input to the audio signal processing unit, while detecting that the tuner is connected. In such a case, a recording / reproducing apparatus is known in which the composite signal from the tuner is input to the video signal processing unit of the apparatus body, and the audio signal from the tuner is input to the audio signal processing unit ( For example, see Patent Document 1.)
[0003]
Also, in a camera system that combines accessories that can be attached to and detached from the camera body, in order to limit the shooting function when the accessories are used improperly, predetermined information is read from the connected accessories, and the accessories are A configuration in which means for recognizing whether or not there is provided is known (for example, see Patent Document 2).
[0004]
[Patent Document 1]
JP-A-8-294079 (page 3)
[Patent Document 2]
JP 2001-16498 A (4th and 5th pages)
[0005]
[Problems to be solved by the invention]
However, for example, in the technique described in Patent Document 1, the camera body and the tuner connected to the main body are discriminated from each other, and the input signal input to the signal block of the main body of the apparatus is switched by a switch. Since the camera or tuner was separated from the main unit, the power to the camera or tuner would not be supplied, so the setting information set before separation disappeared from the camera or tuner. The same setting information input operation is required again, and a complicated operation is required.
[0006]
Also, for example, the technique described in Patent Document 2 merely identifies that an accessory is legitimate, and therefore distinguishes when another accessory that is configured differently with the same accessory is connected. There is a bug that cannot be done.
[0007]
Further, when adding a timer recording function to the tuner, it is necessary to provide a clock means in the tuner and to store timer setting information (for example, when recording a certain time zone every day or every week). There is a problem that a constant backup power source is required.
[0008]
The present invention has been made to solve the above-mentioned problems, and is set even when the video acquisition device is detached from the video signal processing device body and attached again or when it is connected to a different video acquisition device. and to provide a detachable video processing equipment of good image acquisition device convenient without the complicated work of re-enter such conditions.
[0009]
[Means for Solving the Problems]
In the present invention, in order to achieve the above object, in the video signal processing apparatus in which the video acquisition device is detachable, when the video acquisition device is connected to the video signal processing device and setting information is set, the video acquisition device is The unique information to be identified and the setting information are stored in the storage unit. When a video acquisition device is connected, the unique information is read from the video acquisition device and registered (stored) in the storage unit. Comparing with the information, if registered, the setting information related to (corresponding to) the unique information is automatically read out from the storage unit, thereby avoiding complicated operations such as inputting the setting information again. The video includes an image.
[0010]
In addition, by assigning unique information to each video acquisition device, even if there are two or more identical video acquisition devices, setting information set for each can be read and set.
[0011]
In addition, by presenting the read setting information to the display unit on the display unit, the setting contents can be confirmed even when there are two or more identical video acquisition devices, so that the function of the wrong setting contents can be prevented from being executed, It is possible to easily perform fine adjustment or change of setting contents.
[0012]
In addition, by providing clock means on the video signal processing device side and transmitting setting information together with time information to the video acquisition device, time information such as a reservation function can be obtained without providing clock means or its power source on the video acquisition device side. Necessary functions can be executed at the time of reconnection, so it is possible to secure a reservation function and the like by avoiding an increase in the size of the video acquisition device.
[0013]
In addition, when the execution content of the setting information is execution of a function in which the video acquisition device does not use the display unit, the power consumption during timer recording can be reduced by controlling the power source of the display unit to the power saving power mode. .
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 shows a plan view (a) and a front view (b) of a camera unit detachable recording / reproducing apparatus in which a video acquisition unit (camera unit or tuner unit) and a video signal processing device main body are connected.
[0015]
As shown in FIG. 1, the camera unit detachable recording / reproducing apparatus includes a video signal processing device main body 1 having a display unit 5 and a video acquisition unit 3 detachably provided on the video signal processing device main body 1. ing.
[0016]
The display unit 5 is a video or image taken from the video acquisition unit 3 or read from a storage medium in the video signal processing device body 1 (hereinafter abbreviated as “video”, and “video” includes “image”). Display screen, which can display an image, such as a liquid crystal display, a plasma display, an organic EL (electroluminescence), or the like.
[0017]
The video acquisition unit 3 is an imaging device that acquires a video to be displayed on the display unit 5. For example, the video acquisition unit 3 is an imaging device such as a moving image camera or a still image camera, or a TV tuner that is a tuning selection device for a required channel from a broadcast radio wave. Etc.
[0018]
The video acquisition unit 3 includes a setting input unit 7 such as operation buttons used for the user to input, change, and delete setting information (data, conditions) when executing the functions of each device. Yes.
[0019]
FIG. 2 is a schematic block diagram showing the configuration of the video signal processing apparatus main body 1 of the camera unit detachable recording / reproducing apparatus.
As shown in FIG. 2, the video signal processing apparatus main body 1 includes a bus line BL, a CPU 101, a storage circuit (memory) 107, a clock 109, a lithium battery 111, a display unit power control line 113, a video signal line AL, an audio input / audio A / D converter / audio signal processor 115, audio output line 117, video signal processor 119, video signal line VL1, video input / A / D converter 121, camera unit video signal line VL2, camera signal processor 123 , A display unit 5, an encoding compression / decompression unit 125, a recording medium 127, and a connection unit CONa.
[0020]
The video signal processing device main body 1 is connected to the video acquisition unit 3 via the connection unit CONa. The connection unit CONa has connection terminals for a bus line BL, a video signal line AL, a video signal line VL1, and a camera unit video signal line VL2, and is connected to each line on the video acquisition unit 3 side.
[0021]
The bus line BL is electrically connected to the CPU 101 and the storage circuit 107 (hereinafter, the electrical connection may be abbreviated as “connection”), and is included in the video acquisition unit 3 illustrated in FIGS. 3 and 4. CPUs 211 and 309 are also connected.
[0022]
The CPU 101 has specific information control (detection / comparison) means 103 and setting information control means 105, which will be described later, and accesses the storage circuit 107 via the bus line BL (information writing, reading, erasing, etc.). It is possible.
[0023]
Further, the CPU 101 controls various reservation functions based on time information from the clock unit 109 driven by the lithium battery 111. For example, in a TV program recording mode in which a tuner is connected to the video signal processing device main body 1 and video information does not need to be displayed on the display unit 5, the CPU 101 supplies power to a drive circuit (not shown) that drives the display unit 5. The power consumption can be reduced by reducing or cutting off the power supply to the display unit power control line 113 to darken or blacken the display screen.
[0024]
The unique information control means 103 manages unique information of the video acquisition unit 3 connected to the video signal processing apparatus main body 1.
[0025]
The unique information is identification information given to each video acquisition unit 3 that can be connected to the video signal processing apparatus main body 1, and refers to model information, and more specifically, machine information of the video acquisition unit itself.
[0026]
For example, the unique information control unit 103 writes the unique information in the storage circuit 107 or stores it in the unique information storage units 211 and 309 (FIGS. 2 and 3) of the video acquisition unit 3 connected to the video signal processing apparatus body 1. The detected unique information is detected, and it is determined whether it can be used, whether the detected unique information is already recorded in the storage circuit 107 (whether it has been connected in the past), or the like. Manage.
[0027]
The setting information control means 105 stores the setting information (setting conditions, data) set by the connected video acquisition unit 3 in the storage circuit 107 in association with (corresponding to) the unique information of the video acquisition unit 3, Management such as reading from the storage circuit 107 and displaying on the display unit 5 is performed.
[0028]
For example, if the video acquisition unit 3 is a tuner, the setting information (setting conditions and data) is reserved information for executing a reserved recording function (reserved mode such as reserved recording / playback, reserved channel, reserved time schedule). (Including the reservation time)) and the like, and if the video acquisition unit 3 is an imaging device, setting conditions for shooting, for example, mode selection such as portrait shooting mode and sports shooting mode, and each shooting mode Iris, shutter speed, and white balance settings.
[0029]
As described above, the storage circuit 107 stores the unique information for each device connected as the video acquisition unit 3 and the setting information corresponding to the unique information in association with each other.
[0030]
The audio input / A / D conversion unit / audio signal processing unit 115 is a processing unit that performs processing for outputting audio data by an audio output unit such as a speaker (not shown), and includes an imaging device (FIG. 3) and a tuner (FIG. 4) A / D conversion is performed on the audio signal transmitted via the audio signal line AL, and delay processing is performed to synchronize with the video display described later, and a speaker or the like is transmitted via the audio output line 117. Send to.
[0031]
The video signal processing unit 119 performs processing for displaying a video signal on the display unit 5, and is a video for A / D converting the video signal transmitted from the tuner (FIG. 4) via the video signal line VL1. The input / A / D conversion unit 121 is connected to the camera signal processing unit 123 that processes a video signal transmitted from the imaging device (FIG. 3) via the video signal line VL2, and the video input / A / D A video signal is selectively input from either the conversion unit 121 or the camera signal processing unit 123.
[0032]
The encoding compression / decompression unit 125 encodes and compresses the video signal and the audio signal in order to efficiently store the video signal and the audio signal in the storage medium 127, and displays the encoded compression signal recorded on the recording medium 127 on the display unit 5, a speaker, and the like. The video signal is decompressed to be output from the audio signal, and is connected to the audio input / A / D conversion unit / audio signal processing unit 115 and the video signal processing unit 119.
[0033]
The video and audio signals recorded in the storage medium 127 are not limited to signals recorded using the video acquisition unit 3 of the camera unit detachable recording / playback device, but may be signals recorded by other recording devices.
[0034]
FIG. 3 is a schematic block diagram illustrating a configuration of a still image camera as an example of an imaging device used as the video acquisition unit 3, and includes a microphone 201, an audio signal line AL, a lens group 203, and a CCD (Charge Coupled Device). ) 205, CDS (Correlated Double Sampling) / A / D (Analog / Digital) conversion unit 207, TG (Timing Generator: timing generator) 209, CPU / specific information storage unit 211, setting means 7a, The bus line BL and the connection part CONb are included.
[0035]
The imaging device is connected via the connection part CONa and the connection part CONb of the video signal processing unit 1 shown in FIG. 2, and the connected wirings are denoted by the same names and the same reference numerals, and the description thereof is omitted.
[0036]
The audio signal is transmitted to the audio input / A / D converter / audio signal processor 115 (FIG. 2) via the microphone 201 and the audio signal line AL.
[0037]
Imaging of receiving a subject image via the lens group 203 is transmitted as a video signal to the camera signal processing unit 123 (FIG. 2) via the CCD 205, the CDS / A / D conversion unit 207, and the video signal line VL2.
[0038]
That is, the received image pickup is performed by the CCD 205 that converts the image pickup into an electrical signal. The horizontal drive signal and the vertical drive signal generated by the TG 209 based on the horizontal reset signal and the vertical reset signal output from the CPU / unique information storage unit 211. Is read out and converted into an electrical signal, and the CDS / A / D conversion unit 207 performs so-called correlated double sampling, A / D conversion, etc. on the image pickup signal to obtain a video signal as a camera signal processing unit 123 (FIG. 2). Is transmitted.
[0039]
The CPU / unique information storage unit 211 has a storage unit that stores unique information such as model identification information and machine identification information of the still image camera.
[0040]
The setting unit 7a corresponds to the setting input unit 7 of the still image camera. Setting conditions for shooting, for example, mode selection such as portrait shooting mode and sports shooting mode, iris in each shooting mode, shutter speed, and White balance settings can be set.
[0041]
The setting condition input from the setting means 7a is input to the CPU / unique information storage unit 211, and the setting of the still image camera is executed, and is transmitted to the CPU 101 of the video signal processing apparatus body 1 together with the unique information for storage. Recorded in the circuit 107.
[0042]
FIG. 4 is a schematic block diagram showing a configuration of a tuner unit used as the video acquisition unit 3, and includes a channel selection unit 301, an intermediate frequency amplification unit / detection unit 303, a video signal output unit 305, a video signal line VL1, and an audio signal output. A section 307, an audio signal line AL, a CPU / channel selection synthesizer 309, a setting means 7b, a bus line BL, and a connection section CONc.
[0043]
The tuner unit is connected via the connection unit CONa and the connection unit CONc of the video signal processing unit 1 shown in FIG. 2, and the connected wirings have the same names and the same reference numerals, and the description thereof is omitted.
[0044]
The channel selection unit 301 selects a desired channel based on a control signal from the CPU / channel selection synthesizer 309, generates a video intermediate frequency signal, and the intermediate frequency amplification unit / detection unit 303 amplifies the intermediate frequency signal, Further, the original broadcast signal is reproduced from the modulated wave. The video signal reproduced by the intermediate frequency amplification / detection unit 303 is transmitted from the video signal output unit 305 to the video input / A / D conversion unit 121 (FIG. 2) via the video signal line VL1, and is reproduced. The audio signal is transmitted from the audio signal output unit 307 to the audio input / A / D conversion unit / audio signal processing unit 115 (FIG. 2) via the video signal line AL.
[0045]
The CPU / channel selection synthesizer 309 has a unique information storage unit that stores unique information such as model identification information and machine identification information of the tuner.
[0046]
The setting unit 7b corresponds to the setting input unit 7 of the tuner. For example, setting information for executing a reserved playback / recording function, for example, a reservation mode such as reserved recording / playback, a reservation channel, a reservation time schedule (including a reservation time) )) Etc. can be set.
[0047]
The setting condition input from the setting means 7 b is input to the CPU / channel selection synthesizer 309, the setting to this tuner is executed, and it is transmitted together with the specific information to the CPU 101 of the video signal processing unit 1, and to the storage circuit 107. To be recorded.
[0048]
FIG. 5 is a flowchart of signal processing when the video acquisition unit 3 is connected to the video signal processing unit 1 according to the embodiment of the present invention.
[0049]
When the video acquisition unit 3 is connected to the video signal processing apparatus body 1, the unique information control means 103 of the video signal processing apparatus body 1 detects the unique information (first unique information) of the video acquisition unit 3 (step S1). . If it cannot be detected, it is determined that the video signal processing unit 1 is incompatible with the video signal processing unit 1, and the process ends.
[0050]
In order to check whether or not the unique information detected in step S1 has been connected in the past, the unique information control means 103 reads the unique information (second unique information) to be recorded from the storage circuit 107 (step S2). ) And the unique information detected in step S1 (step S3).
[0051]
If the unique information identical to the unique information detected in step S 1 is not registered in the storage circuit 107 in step S 3, the unique information control unit 103 registers the detected unique information in the storage circuit 107.
[0052]
If the same unique information as that detected in step S1 has already been registered in the storage circuit 107, the setting information control unit 105 sets the setting information (setting condition) corresponding to the second unique information from the storage circuit 107. Is read (steps S4 and S5), and the read setting information is displayed on the display unit 5 (step S6).
[0053]
When the user looks at the contents of the setting information displayed on the display unit 5 and changes the setting information, the user performs a setting change operation using the operation unit 7 (7a, 7b) of the connected video acquisition unit 3. The changed setting information is transmitted from the CPU (211 309) of the video acquisition unit 3 to the setting information control unit 105, and the setting information control unit 105 rewrites and updates the setting information in the storage circuit 107 (step S6). .
[0054]
After the user confirms that the setting information is correct on the display unit 5 (the setting information is not changed), the video signal processing device main body 1 and the video acquisition unit 3 are controlled and operated with the setting information (step S7). For example, when the video acquisition unit 3 is a tuner unit and executes an operation during timer recording (step S7), the timer recording condition is executed and the video signal processing apparatus body 1 controls the power supply of the display unit 5. As a result, the power consumption of the apparatus can be reduced.
[0055]
Note that the user may rewrite and update the setting information in the storage circuit 107 after confirming that the setting information is correct on the display unit 5.
[0056]
In addition, since the clock unit 109 backed up by the lithium battery 111 is connected to the CPU 101, even if the power source (battery) for driving the video signal processing unit is removed from the video signal processing unit, the clock unit 109 described above is used. Can inherit time.
[0057]
In addition, the storage circuit 107 uses a nonvolatile memory such as a flash memory, so that the memory is not lost even when the power source (battery) is removed from the video signal processing unit.
[0058]
With the above configuration, the video signal processing device main body 1 stores the unique information and setting information of each video acquisition unit 3 connected to the video signal processing device main body 1, for example, a tuner unit that can be timer-recorded by the connected device. When the timer recording time set by the tuner unit is repeatedly recorded every day or weekly at the set time, the tuner unit is detached from the video signal processing device body 1 and used by using an imaging unit which is another device. However, if the tuner unit is attached to the video signal processing device main body 1 again, setting information such as timer recording time set in the past is displayed, the contents of the setting information can be confirmed, and the video signal processing device main body 1 is displayed. Timer recording can be executed based on the current time of the clock unit 109 included in the timer.
[0059]
Even when the video acquisition unit 3 connected to the video signal processing device main body 1 is an imaging unit that captures a still image, setting conditions when capturing with the imaging unit, for example, portrait mode shooting, or sports mode Since the video signal processing unit 1 stores each iris, shutter speed, and WB (white balance) information at the time of shooting, when the video acquisition unit 3 is once removed from the video signal processing device main body 1, it is connected again. Makes it possible to shoot under the previous setting conditions.
[0060]
Further, since the above setting conditions are based on the unique information of the video acquisition unit 3 connected to the video signal processing apparatus main body 1, the setting conditions can be identified even for devices having the same function. That is, the video acquisition unit 3 connected to the video signal processing device main body 1 is an imaging unit, and a plurality of imaging units such as the first imaging unit and the second imaging unit share the video signal processing device main body 1. Video signal processing apparatus main body 1 includes the first imaging unit and the second imaging unit, even if the imaging conditions are set under different conditions for the first imaging unit and the second imaging unit. It is possible to identify the shooting conditions and take a picture with the setting conditions set by the respective imaging units.
[0061]
In addition, when the video acquisition unit 3 connected to the video signal processing device main body 1 is a tuner unit and timer recording is performed, the display unit 5 in the video signal processing device main body 1 can be turned off. There is an effect that power consumption can be reduced.
[0062]
【The invention's effect】
As described above, according to the present invention, in the video signal processing apparatus that enables the video acquisition device to be attached and detached, the unique information for identifying the video acquisition device and the setting information are stored in the storage unit, and the video acquisition is performed. When a device is connected, the unique information is read from the video acquisition device, compared with the unique information registered (stored) in the storage unit, and if registered, the setting information related to the unique information is automatically Thus, it is possible to avoid complicated operations such as inputting setting information again.
[0063]
In addition, by assigning unique information to each video acquisition device, even if there are two or more identical video acquisition devices, setting information set for each can be read and set.
[0064]
In addition, by presenting the read setting information to the display unit on the display unit, the setting contents can be confirmed even when there are two or more identical video acquisition devices, so that the function of the wrong setting contents can be prevented from being executed, It is possible to easily perform fine adjustment or change of setting contents.
[0065]
In addition, by providing clock means on the video signal processing device side and transmitting the setting information together with the time information to the video acquisition device, the time information such as the reservation function can be obtained without providing the clock means or its power source on the video acquisition device side. Necessary functions can be executed at the time of reconnection, so it is possible to secure a reservation function and the like by avoiding an increase in the size of the video acquisition device.
[0066]
In addition, when the execution content of the setting information is execution of a function in which the video acquisition device does not use the display unit, the power consumption during timer recording can be reduced by controlling the power source of the display unit to the power saving power mode. .
[Brief description of the drawings]
FIG. 1 is a schematic plan view (a) and a schematic front view (b) of a recording / reproducing apparatus according to an embodiment of the present invention.
FIG. 2 is a block diagram of the video signal processing apparatus main body 1 according to the embodiment of the present invention.
FIG. 3 is a block diagram of an imaging unit according to the embodiment of the present invention.
FIG. 4 is a block diagram of a tuner according to the embodiment of the present invention.
FIG. 5 is an operation flowchart according to attachment / detachment of the video acquisition unit 3 to / from the video signal processing apparatus main body 1 according to the embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Image | video signal processing apparatus main body 3 Image | video acquisition part 5 Display part CONa, CONb, CONc Connection part 101 CPU
103 unique information control (detection / comparison) means 105 setting information control means 107 storage circuit 109 clock 113 display unit power control line 211 CPU / unique information storage unit 309 CPU / channel selection synthesizer

Claims (3)

In a video signal processing apparatus for recording and / or reproducing a video signal,
A connection unit with a video acquisition device for transmitting the video signal to the video signal reproduction device;
A storage unit for storing unique information assigned to the video acquisition device and capable of identifying the video acquisition device, and setting information for executing a function of the video acquisition device;
A unique information control unit for detecting the unique information from the video acquisition device connected to the connection unit;
A setting information control unit that reads out the setting information corresponding to the unique information from the storage unit based on the unique information detected by the unique information control unit ;
Having a clock means,
The video signal processing device, wherein the setting information control unit transmits time information obtained from the clock means and the setting information read from the storage unit to the connection unit .   The video signal processing apparatus according to claim 1, further comprising a display unit that displays the setting information read by the setting information control unit.   When the execution content of the setting information is execution of a function in which the video acquisition device does not use the display unit, the setting information control unit controls the power source of the display unit to a power saving power mode. The video signal processing apparatus according to claim 2.

Images