JP4269121B2 - Imaging recording apparatus and imaging recording / reproducing apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an imaging recording apparatus and an imaging recording / reproducing apparatus.
[0002]
[Prior art]
Some VTRs with an integrated video camera can perform fade processing such as fade-in and fade-out during recording. That is, when fading in, the whole screen is gradually switched from a white or black screen to the target screen, and when fading out, the whole screen is switched from the current screen to a white or black screen. In addition, when a screen (video) is recorded on the tape, there is also a VTR that can perform an overlap process (cross-fade process) that gradually switches from the recorded screen to the screen being imaged.
[0003]
[Problems to be solved by the invention]
However, in the case of the above fade processing, the screen that can be used for the fade processing is a white screen, a black screen, or a screen recorded on a tape, and is limited to a screen prepared in advance in the VTR. Will be. For example, even if a user creates a unique opening screen by using a personal computer, the user cannot fade in the main screen from this opening screen.
[0004]
The present invention is intended to solve such problems.
[0005]
[Means for Solving the Problems]
In this invention,
An imaging unit;
A recording circuit for converting an input video signal into a predetermined recording signal and recording the recording signal on a recording medium;
A detachable memory unit , a connector to which a memory unit having a non-volatile memory in which image data to be a screen used for fade-in or fade-out is stored is mounted;
A fader circuit that performs fade processing by gradually changing the video signal to be output from one of the first video signal and the second video signal to the other;
When the first recording mode is set, the video signal obtained by the imaging unit is supplied to the recording circuit without being processed by the fader circuit, and is recorded on the recording medium.
When the second recording mode is set with the memory unit attached to the connector, the image data stored in the memory unit is supplied to the fader circuit as the first video signal. By supplying the video signal obtained by the imaging unit to the fader circuit as the second video signal, the video signal of the image stored in the memory unit from the fader circuit and the imaging unit Take out the video signal faded with the video signal obtained,
The extracted video signal is supplied to the recording circuit and recorded on the recording medium.
The imaging and recording apparatus configured as described above is provided.
Therefore, the fade process is executed using the video signal of the image prepared in the memory unit.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
〔Constitution〕
In FIG. 1, reference numeral 10 indicates an example in which the present invention is applied to a DV type video camera integrated VTR. The VTR 10 includes an imaging unit 11, a recording / reproducing circuit 12, and a rotating magnetic head 14.
[0007]
In this case, the imaging unit 11 includes, for example, an imaging lens, a CCD imaging device, an A / D converter circuit, a color signal processing circuit, and the like. The video signal S11 is output.
[0008]
The recording / reproducing circuit 12 converts the video signal S11 and the like into a DV recording signal at the time of recording, and extracts the original video signal from the reproduced signal at the time of reproduction. Therefore, the recording / reproducing circuit 12 includes a data compression circuit, a recording error correction circuit and modulation circuit, a reproduction demodulation circuit and error correction circuit, a data expansion circuit, and the like, and a frame memory 13.
[0009]
Further, a magnetic tape 15 as a recording medium is slanted over a predetermined range on the rotating circumferential surface of the rotating magnetic head 14, and the tape 15 is run at a predetermined speed during recording and reproduction. Is recorded or reproduced.
[0010]
The VTR 10 includes a display circuit 16 and an encoder circuit 18, and also includes, for example, a color LCD panel 17 as a display device or a viewfinder. The display circuit 16 converts a video signal during recording or reproduction into a display signal corresponding to the LCD panel 17 and supplies the display signal to the LCD panel 17. The encoder circuit 18 converts the video signal S11 picked up by the image pickup unit 11 and the video signal reproduced from the tape 15 into a color composite signal of a standard method, for example, an NTSC method, and outputs it to the terminal 19.
[0011]
Furthermore, the VTR 10 is provided with a special effect circuit 21 and a fader circuit 22. In this case, the special effect circuit 21 performs special effect processing such as solarization, mosaic, and sepia on the video signal S11 and the like. The fader circuit 22 is a circuit for realizing a fade process by gradually changing the first video signal to the second video signal and outputting the second video signal, and a field memory 23 is connected to the fader circuit 22.
[0012]
Further, a conversion circuit 31, an interface circuit 32, and a connector 33 are provided in order to realize fade processing using a screen prepared by a personal computer or the like. In this case, the conversion circuit 31 converts one field of the video signal S11 into, for example, JPEG format image data D31, and converts the JPEG format image data D31 into a video signal S31 having the same format as the video signal S11. is there. The interface circuit 32 is connected between the conversion circuit 31 and the connector 33.
[0013]
The memory unit 60 is connected to the connector 33. The memory unit 60 includes a non-volatile memory such as a flash memory 61 and an interface circuit 62 in a predetermined container or case, and is detachable from the VTR 10. When the user attaches the memory unit 60 to the VTR 10, the memory 61 is connected to the connector 33 through the interface circuit 62. Examples of the memory unit 60 include a PCMCIA card standard memory card and a Memory Stick (registered trademark).
[0014]
Further, a microcomputer 40 is provided for system control. In response to the operation of the operation button (operation switch) 41, each circuit described above is controlled by the microcomputer 40, and switching of the switch circuits 51 to 56 is controlled. Is done.
[0015]
[Operation]
In the video camera-integrated VTR 10 shown in FIG. 1, each operation mode is realized as follows. It is assumed that the switch circuits 51 to 56 are switched to necessary contact positions in the respective operation modes by the microcomputer 40.
[0016]
(1) Recording mode (when fade processing is not executed)
In this case, the video signal S11 from the imaging unit 11 is supplied to the fader circuit 22 through the signal line of the switch circuit 51 → the switch circuit 53 → the switch circuit 55.
[0017]
Now, since the fade process is not executed, the video signal S11 supplied to the fader circuit 22 is extracted from the fader circuit 22 as it is as the video signal S22. Subsequently, the extracted video signal S22 (= S11) is supplied to the recording / reproducing circuit 12, converted into a recording signal, and this recording signal is supplied to the head 14. Therefore, the images captured by the imaging unit 11 are sequentially recorded on the tape 15.
[0018]
At this time, the video signal S22 taken out from the fader circuit 22 is supplied to the display circuit 16 and converted into a display signal. The display signal is displayed on the LCD panel 17, and the image captured by the imaging unit 11 is displayed on the LCD. Displayed on the panel 17. Further, the video signal S22 output from the fader circuit 22 is converted into, for example, an NTSC color composite signal by the encoder circuit 18, and is taken out to the connector 19 as an external output.
[0019]
(2) Recording mode (when executing fade process)
In this case, a screen used for fading processing is prepared in advance in the memory 61 of the memory unit 60 in the state of JPEG image data D31. For example, an image used for fading processing is created by a personal computer, and JPEG image data D31 of the image is transferred from the personal computer to the memory 61 of the memory unit 60. Then, such a memory unit 60 is attached to the VTR 10.
[0020]
Then, the image data D31 written in the memory 61 is supplied to the conversion circuit 31 through the signal line of the interface circuit 62 → the connector 33 → the interface circuit 32. In the conversion circuit 31, the video signal having the same format as the video signal S11 is supplied. Converted to S31. The video signal S31 is stored in the field memory 23 through the signal line of the switch circuit 53 → the switch circuit 55 → the fader circuit 22.
[0021]
The video signal S11 output from the imaging unit 11 is supplied to the fader circuit 22 through the signal line of the switch circuit 51 → the switch circuit 53 → the switch circuit 55.
[0022]
At this time, in the fader circuit 22, the video signal S 31 stored in the field memory 23 (the signal S 31 transferred from the memory unit 60) and the video signal S 11 sent from the imaging unit 11 through the switch circuit 55. And the faded video signal S22 is output from the fader circuit 22.
[0023]
For example, when the screen imaged by the imaging unit 11 fades in, the video signal S22 is initially the video signal S31 read from the memory 23, and the video signal S11 is mixed with the video signal S31. The ratio of the video signal S11 is gradually increased. Finally, the video signal S22 does not include the video signal S31, and S22 = S11.
[0024]
Or, conversely, when the screen imaged by the imaging unit 11 fades out, the video signal S22 is initially the video signal S11 imaged by the imaging unit 11, but this signal S11 is read from the memory 23. As the video signal S31 is mixed, the percentage of the video signal S31 is gradually increased. Finally, the video signal S22 does not include the video signal S11, and S22 = S31.
[0025]
The video signal S22 is supplied to the recording / reproducing circuit 12 and converted into a recording signal. The recording signal is supplied to the head 14. Therefore, the images picked up by the image pickup unit 11 are faded by the images prepared in the memory unit 60 and sequentially recorded on the tape 15.
[0026]
Also in this case, the video signal S22 taken out from the fader circuit 22 is supplied to the display circuit 16, and the image picked up by the image pickup unit 11 is displayed on the LCD panel 17, and the fade is performed during the fade process. The screen being processed is displayed on the LCD panel 17. Further, the NTSC color composite signal is taken out to the connector 19.
[0027]
(3) Playback mode (when fade processing is not executed)
In this case, the signal recorded on the tape 15 is reproduced by the head 14, and the original video signal S22 is taken out even if the reproduced signal is supplied to the recording / reproducing circuit 12. The video signal S22 is supplied to the fader circuit 22 through the signal line of the switch circuit 56 → the switch circuit 51 → the switch circuit 53 → the switch circuit 55.
[0028]
Now, since the fade process is not executed, the video signal S22 supplied to the fader circuit 22 is extracted as it is from the fader circuit 22, and the extracted video signal S22 is supplied to the display circuit 16 to be displayed. This display signal is converted to an LCD panel 17 after being converted. Accordingly, a playback screen from the tape 15 is displayed on the LCD panel 17.
[0029]
Further, the video signal S22 output from the fader circuit 22 is converted into an NTSC color composite signal by the encoder circuit 18 and taken out to the connector 19 as an external output.
[0030]
Therefore, the tape 15 can be reproduced, and the reproduced image can be viewed on the LCD panel 17 and the reproduced signal can be taken out to the connector 19.
[0031]
(4) Playback mode (when executing fade process)
In this case, for example, a screen used for the fade process is prepared in the memory 61 of the memory unit 60 in the state of the image data D31 in the JPEG format in the same manner as in the case of (2).
[0032]
Then, the image data D31 written in the memory 61 is supplied to the conversion circuit 31 through the signal line of the interface circuit 62 → the connector 33 → the interface circuit 32. In the conversion circuit 31, the video signal having the same format as the video signal S11 is supplied. Converted to S31. The video signal S31 is stored in the field memory 23 through the signal line of the switch circuit 53 → the switch circuit 55 → the fader circuit 22.
[0033]
Similarly to the case of (3), the signal recorded on the tape 15 is reproduced by the head 14 and the recording / reproducing circuit 12, and the video signal S22 is taken out. The video signal S22 is changed from the switch circuit 56 to the switch. The signal is supplied to the fader circuit 22 through the signal line of the circuit 51 → the switch circuit 53 → the switch circuit 55.
[0034]
At this time, in the fader circuit 22, the video signal S 31 stored in the field memory 23 (the signal S 31 transferred from the memory unit 60) and the video signal sent from the recording / reproducing circuit 12 through the switch circuit 55. A fade process is executed with S22, and the faded video signal S22 is output from the fader circuit 22.
[0035]
Also in this case, the video signal S22 taken out from the fader circuit 22 is supplied to the display circuit 16, and the screen reproduced from the tape 15 is displayed on the LCD panel 17, and the fade process is performed during the fade process. Is displayed on the LCD panel 17. Further, the NTSC color composite signal is taken out to the connector 19.
[0036]
Therefore, the screen reproduced from the tape 15 can be viewed on the LCD panel 17 and the reproduced signal can be taken out to the connector 19. At that time, fade processing can be performed on the playback screen and the playback signal using an image prepared in the memory unit 60.
[0037]
(5) Saving the recording screen and the playback screen in the memory unit In the recording mode (1), the video signal S11 from the imaging unit 11 is supplied to the conversion circuit 31 through the switch circuit 52, and 1 of the video signal S11 is supplied. The field is converted into image data D31 in JPEG format. The image data D31 is written into the memory 61 through the signal line of the interface circuit 32 → connector 33 → interface circuit 62. Therefore, the screen imaged by the imaging unit 11 can be stored in the memory unit 60.
[0038]
In the reproduction mode (3), the video signal S22 output from the recording / reproduction circuit 12 is supplied to the conversion circuit 31 through the signal line from the switch circuit 56 to the switch circuit 52, and one field of the video signal S22 is supplied. Is converted into image data D31 in JPEG format.
[0039]
The image data D31 is written into the memory 61 through the signal line of the interface circuit 32 → connector 33 → interface circuit 62. Accordingly, the screen reproduced from the tape 15 can be stored in the memory unit 60.
[0040]
(6) The image data D31 written in the reproduction memory 61 from the memory unit is supplied to the conversion circuit 31 through the signal line of the interface circuit 62 → the connector 33 → the interface circuit 32, and in this conversion circuit 31, the video signal S11 is supplied. Is converted into a video signal S31 having a format equal to.
[0041]
The video signal S31 is supplied to the display circuit 16 and the encoder circuit 18 through the signal line of the switch circuit 53 → the switch circuit 55 → the fader circuit 22. Therefore, the screen stored in the memory unit 60 can be viewed by the LCD panel 17 and the video signal S22 can be taken out from the connector 19. In addition, from this, a plurality of screens can be stored in the memory unit 60, and an arbitrary screen can be selected and used for fading processing.
[0042]
(7) Addition of special effects In the recording modes (1) and (2), the video signal S11 taken out from the switch circuit 53 is supplied to the special effect circuit 21 through the switch circuit 54, and the special effect circuit 21 Is supplied to the fader circuit 22 through the switch circuit 55. Therefore, in the recording mode, special effects such as solarization, mosaic, and sepia can be applied to the screen imaged by the imaging unit 11.
[0043]
In the reproduction modes (3) and (4), the video signal S22 output from the recording / reproducing circuit 12 is supplied to the special effect circuit 21 through the switch circuit 54 and output from the special effect circuit 21. The video signal is supplied to the fader circuit 22 through the switch circuit 55. Accordingly, various special effects can be applied to the screen reproduced from the tape 15 in the reproduction mode.
[0044]
Further, at the time of reproduction from the memory unit 60 in (6), the image data D31 written in the memory 61 is converted by the conversion circuit 31 into a video signal S31 having the same format as the video signal S11. S31 is supplied to the special effect circuit 21 through the signal line of the switch circuit 53 → the switch circuit 54.
[0045]
The video signal output from the special effect circuit 21 is supplied to the fader circuit 22 through the switch circuit 55. Therefore, a screen on which various special effects are applied to the screen stored in the memory unit 60 can be viewed on the LCD panel 17 and the video signal S22 can be taken out from the connector 19.
[0046]
[Summary]
According to the video camera integrated VTR 10 shown in FIG. 1, fade processing can be performed using a screen prepared in the memory unit 60, and the memory unit 60 is detachable from the VTR 10. . Therefore, since the screen used for the fade process can be freely prepared by a personal computer or the like, the screen during the fade process can be made unique to the user or various.
[0047]
The memory unit 60 can also store a screen imaged by the imaging unit 11 and a screen recorded on the tape 15.
[0048]
In the above description, the fade process performed by the fader circuit 22 is a process of gradually changing the mixing ratio between the video signal of the screen before the fade process and the video signal of the screen after the fade process. This process may be a process of gradually changing the screen and the screen after the fade process by a wipe process or the like.
[0049]
In the case of a DV type VTR, the magnetic tape 15 is housed in a tape cassette. However, when the nonvolatile tape is built in the tape cassette, the information of the image data D31 of the image used for the fading process. For example, by writing the file name together with the recording position on the tape 15 in a nonvolatile memory built in the tape cassette, it can be used as data when searching for an image on the tape 15.
[0050]
[List of abbreviations used in this specification]
A / D: Analog to Digital
CCD: Charge Coupled Device; Charge Coupled Device DV: Digital Video
JPEG: Joint Photographic Experts Group
LCD: Liquid Crystal Display; Liquid Crystal Display NTSC: National Television System Committee; US Television System Committee PCMCIA: Personal Computer Memory Card International Association VTR: Video Tape Recorder; Magnetic Recording / Reproducing Device ]
【The invention's effect】
According to the present invention, since the screen used for the fading process can be prepared by a personal computer or the like, the screen used for the fading process can be made unique to the user.
[Brief description of the drawings]
FIG. 1 is a system diagram showing an embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Camera integrated VTR, 11 ... Imaging part, 12 ... Recording / reproducing circuit, 13 ... Frame memory, 14 ... Rotary magnetic head, 15 ... Magnetic tape, 16 ... Display circuit, 17 ... Color LCD panel, 18 ... NTSC encoder circuit , 19 ... Connector, 21 ... Special effect circuit, 22 ... Fader circuit, 23 ... Field memory, 31 ... Conversion circuit, 32 ... Interface circuit, 33 ... Connector, 40 ... Microcomputer, 41 ... Operation buttons, 51-56 ... Switches Circuit 60 ... Memory unit 61 ... Non-volatile memory 62 ... Interface circuit

Claims (2)

An imaging unit;
A recording circuit for converting an input video signal into a predetermined recording signal and recording the recording signal on a recording medium;
A detachable memory unit , a connector to which a memory unit having a non-volatile memory in which image data to be a screen used for fade-in or fade-out is stored is mounted;
A fader circuit that performs fade processing by gradually changing the video signal to be output from one of the first video signal and the second video signal to the other;
When the first recording mode is set, the video signal obtained by the imaging unit is supplied to the recording circuit without being processed by the fader circuit, and is recorded on the recording medium.
When the second recording mode is set with the memory unit attached to the connector, the image data stored in the memory unit is supplied to the fader circuit as the first video signal. By supplying the video signal obtained by the imaging unit to the fader circuit as the second video signal, the video signal of the image stored in the memory unit from the fader circuit and the imaging unit Take out the video signal faded with the video signal obtained,
The extracted video signal is supplied to the recording circuit and recorded on the recording medium.
An imaging recording apparatus as described above. An imaging unit;
A recording / reproducing circuit that converts an input video signal into a predetermined recording signal, records the recording signal on a recording medium, reproduces the recording signal from the recording medium, converts the video signal to the video signal, and outputs the video signal;
A detachable memory unit, a connector to which a memory unit having a non-volatile memory in which image data to be a screen used for fade-in or fade-out is stored is mounted;
A fader circuit that performs fade processing by gradually changing the video signal to be output from one of the first video signal and the second video signal to the other;
An encoder circuit;
Display device and
Have
When the first recording mode is set, the video signal obtained by the imaging unit is supplied to the recording circuit without being processed by the fader circuit, and is recorded on the recording medium.
When the second recording mode is set with the memory unit attached to the connector, the image data stored in the memory unit is supplied to the fader circuit as the first video signal. By supplying the video signal obtained by the imaging unit to the fader circuit as the second video signal, the video signal of the image stored in the memory unit from the fader circuit and the imaging unit Take out the video signal faded with the video signal obtained,
The taken video signal is supplied to the recording / reproducing circuit and recorded on the recording medium,
When the first reproduction mode is set, the video signal is reproduced from the recording medium by the recording / reproducing circuit,
The reproduced video signal is supplied to the display device without being processed by the fader circuit to display a screen based on the reproduced video signal, and is supplied to the encoder circuit to be converted into a standard video signal. Output to the outside,
When the second reproduction mode is set with the memory unit attached to the connector, the video signal is reproduced from the recording medium by the recording / reproducing circuit,
By supplying the image data stored in the memory unit as the first video signal to the fader circuit, and supplying the reproduced video signal as the second video signal to the fader circuit, A video signal faded between the video signal of the image stored in the memory unit and the reproduced video signal is extracted from the fader circuit,
The extracted video signal is supplied to the display device to display a screen based on the reproduced video signal, and supplied to the encoder circuit to be converted into a standard video signal and output to the outside.
An imaging recording / reproducing apparatus as described above.

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