DE19815808A1 - Video recorder enables data to be recorded without significant need for additional costs of components and control circuits in the video recorder - Google Patents

Abstract

The video recorder has an input/output stage, a video processing stage, a recording and reproduction stage with a video signal storage device, esp. a magnetic tape, a data extraction stage (9) for extracting special data from data transmitted in video signal scanning gaps, a data generation stage (10) for generating display data from the extracted data and internally generated data and a video encoder (12) for converting the display data into reproducible form. Data generation stage output lines are connected to an introduction switch (SW1), which can be controlled so that the data signals can be introduced in synchronism into the lines of the vertical scanning gaps of the video signals fed into the video processing stage.

Description

The invention relates to a video recorder

• an input / output stage for introducing the video video signals (CVBS format) in the recorder VCR and broadcast on a screen a connected external video device Video signals from the video recorder,
• - A video processing stage for the preparation of the led video signals for the purpose of recording and Processing of recorded signals for playback on the Video device screen,
• - A recording and playback stage with a video signal memory, in particular magnetic tape, for which the Video processing stage processed signals,
• - a data extraction stage for extracting special data from data transmitted in blanking intervals of the video signal amounts,  
• - A data generation stage for generating on the image display data to be displayed on the screen from the data Extraction level extracted data or from in the video recorder the generated own data and
• - A video encoder to convert the display data into one display signal to be reproduced on the screen.

As is known, video broadcast by broadcasters signals due to the low available bandwidth of home video recorder processed in the video processing stages so that the video signals within the available bandwidth te can be recorded and played back. It is further known that the broadcasters on certain lines of the vertical blanking interval of the video signals data is transported to be displayed on the screen of a TV are determined. This includes in particular teletext data. The data transfer rate used for the data is generally mean above the available bandwidth of home video recorder change, so that the transported in the vertical blanking gaps Data no longer missing after recording from the VCR can be played freely.

It is already known from the vertical blanking interval amount of data transported to extract certain data it in a required or advantageous for the VCR Play on the screen of the video device or in To be able to process video recorders. Such extracted data are, for example, the clock extracted from the teletext data time, the received station or the like. can this data with im Video recorder data generated by a microcontroller, such as for example, band number, can be combined to, for example to create a library of the recorded programs and on to be able to display on the screen of the video device.

From WO 95/18449 it is already known to have such extra data into the vertical blanking gaps in the video recorder  insert the signal to be recorded and thus record it. This allows useful data such as date, time, volume number, Program title etc. on the screen during playback be dazzled. However, the effort involved for the preparation and synchronization of the vertical Blanking data to be entered significantly. Because of The achievable advantage must not be a significant one in market acceptance require additional effort.

The present invention therefore addresses the problem reason to record data in a VCR enable that without significant additional effort in construction elements and control circuits can be implemented in the video recorder is.

On the basis of this problem, according to the invention Video recorder of the type mentioned above characterized that output lines of the data generation stage with an on are connected switch that is controllable so that data Signals of the data generation level synchronized in lines of the vertical blanking interval of the video processing stage led video signal are insertable.

According to the invention, the data generation level that corresponds to the genera tion of the display data on the screen of the video device, that is in the visible area of the television picture, are used to Data to be recorded in the invisible area of the television image, namely in the vertical blanking interval, to generate the inserted into the video signal passed for recording become. In this way, the recording of data without any significant additional circuitry digits.

The generated by the data generation level and in the verti The blanking gaps inserted data are at a lower Data rate generated, which due to this format change from  VCR easily recorded and played back who the.

In general, the data generation stage has five output lines three of which are for the color value signals (R, G, B) are provided and one for a composite Synchronisa tion signal is provided. Expediently with the one joining switch one of the for transmitting the color value signals the output line provided the video recorder. On another of these output lines can preferably be a Po sitioning signal to a control of the insertion switch be portable. This control is preferably also a Blanking characterizing signal supplied. To this This ensures that the data is only transferred to the Video processing stage inserted video signal inserted if, in the area of the vertical blanking interval, those for the Suitable line segments exist for data insertion.

The corresponding synchronization of the data generation stage follows with the synchronous signals of the supplied to the video recorder Video signal.

Preferably, in the playback mode, that of the recording Level of play and playback from given video to be played signal supplied to the data extraction stage, so that the in the data recorded and reproduced signal can also be displayed on the screen of the video device.  

The invention is intended to be based on one in the drawing illustrated embodiment are explained in more detail. It demonstrate:

Fig. 1 is a block diagram of a video recorder having an inventive data processing block,

Fig. 2 a schematic diagram of processing blocks for the construction of the data,

Fig. 3 temporal courses of control and data signals.

Fig. 1 shows a schematic structure of a video recorder that exchanges signals with an input / output stage 1 with a connected video device 2 . The connected Videoge advises 2 is usually a television with a television screen. A video signal can be fed to the input / output stage 1 of the video device via the video device 2 . Alternatively, this is possible using a dedicated tuner 3 of the video device. The video signal correspondingly forwarded by the input / output stage arrives via a data processing block 4 in a video processing stage 5 , in which the video signal is processed in the usual way, in a recording and playback stage 6 onto a video signal memory 7 , usually in the form of a magnetic tape, to be able to be recorded.

In playback mode, the signal recorded on the video signal memory 7 is passed from the recording and playback stage 6 to the video processing stage 5 , where it is assembled into a conventional television signal, which advises the data processing block 4 and the input / output stage 1 on the video device 2 is directed.

In particular, the function of the data processing block 4 is controlled by a microcontroller 8 .

The data processing block 4 has a first input IN1 and a first output OUT1 for the video device supplied video signals. A second input IN2 and a second output OUT2 are provided for the forwarding of video signals to be reproduced in the reverse direction.

Fig. 2 illustrates the basic structure of the data processing block 4 .

The video signal fed to the input IN1 passes via a block capacitor C1 to an input L of an insert switch SW1, the fixed contact of which is connected to the output OUT1. In the switch position of the switch SW1 shown in FIG. 2, the input video signal is thus passed on to the output OUT1 practically unchanged. The video signal at input IN1 also reaches an H input of a switch SW2, the output of which is connected to a data extraction stage 9 . The data extraction stage 9 extracts the data contained in the vertical blanking gap of the incoming video signal and forwards it to a data generation stage 10 . In the data generation stage 10 , the extracted data in the data extraction stage 9 corresponding display data is generated and fed via five output lines 11 to a video encoder 12 . Three of the output lines 11 are used for the parallel transmission of color value signals R, G, B, another output line 11 is used for the transmission of a composite synchronous signal CSYNC. The output of the video encoder 12 , on which an encoded OSD signal ENC OSD is passed, passes via a block capacitor C3 to an H input of a further switch SW3, the output of which forms the output OUT2 of the data processing block 4 .

A video signal present at the input IN1 usually contains data information in the vertical blanking interval which is to be reproduced on the screen of the video device 2 . The video signal present at the output of the switch SW2 also serves to synchronize the data extraction stage 9 and the data generation stage 10 . By the data extraction step 9, the data genes rator 10 and the video encoder 12 corresponding OSD symbols via the output OUT2 on the screen of video equipment 2 are as dergegeben.

In playback mode, the signal generated by the recording and playback stage 6 via the video processing stage 5 is placed via the input IN2 to an L input of the switch SW2. When the playback mode is switched on, the switch SW2 is switched to the L input, so that the data processing block 4 is also effective for generating OSD data for the playback signal. In playback mode, the switch SW3 is also connected to its L input, which is connected via a block capacitor C4 to the input IN2 of the data processing block 4 . In playback mode, the signal present at input IN2 is therefore forwarded via switch SW3 directly to output OUT2, that is to video device 2 . An insertion signal BLAN of the data generation stage 10 switches the switch SW3 in a controlled manner to the H input in order to display OSD data on the screen of the video device 2 at the appropriate point.

In order to carry out the brightness of the fade in in the same way as the reproduction of the video signal at the input IN2, the two inputs H, L of the switch SW3 are connected to the same potential by means of a clamping circuit 13 .

According to the invention, the data generation stage 10 generates data which are initiated in particular by the microcontroller 8 of the video device for storage in the video signal to be stored at the input IN1. In the exemplary embodiment shown, the data are conducted on the output line ( 11 ) provided for the color type G (green) and are fed via a block capacitor C2 to an input H of the insertion switch SW1. For the same reasons as with the switch SW3, the two inputs L, H of the insert switch SW1 are clamped to the same DC potential with a clamping circuit 14 .

The insert switch SW1 is controlled by a controller 15 formed here as an AND stage. The two inputs of the AND stage 15 is on the one hand a transmitted on the CSYNC line 11 , characterizing the vertical blanking signal DATA (H) and on the other hand a position signal for the correct position of the data within the lines of the vertical blanking gap intended for data insertion forwarded. In the illustrated embodiment, this position signal is transmitted from the color line B (blue) associated output line 11 of the data generation stage ( 10 ).

The data is from the data generation level with, for example generated 1.25 MHz, which is within the bandwidth of the VCRs recorded and played back without any problems can be.

Fig. 3 illustrates waveforms that are essential for the function of the illustrated embodiment.

At the input IN1 there is a usual video signal, each of which initiates a signal for a subsequent line 32 with a horizontal synchronizing pulse 31 , at the beginning of which a synchronizing signal 33 (H burst) is present.

Lines 6-22 and 318-335 can be used for the transmission of data and test signals in the PAL / B, G, H, I system. The actual video information is accordingly transmitted in lines 23-310 and 336-623 . OSD data 34 can be generated in these lines, which take up complete lines or also parts of the lines and can be displayed via the switch SW3.

Data to be written into the vertical blanking interval (VBI DATA) are present on the output line G of the data generation stage 10 . The data blocks VBI DATA are limited in time by the position signal on the output line B and the signal DATA (H) which characterizes the vertical blanking interval. Only if these two signals have a positive potential, the data to be recorded (VBI DATA) are inserted into the video signal via the insertion switch SW1, specifically in the lines of the vertical blanking interval provided for this purpose.

The BLAN signal controls the insertion of OSD data into the visible image by switching the switch SW3 on gang H.

According to FIG. 3, only data to be stored (VBI DATA) are present at the output signal OUT1, but no OSD data (OSD DATA). At the output OUT2, however, according to the invention, VBI data (VBI DATA) inserted in the video signal to be reproduced and OSD data (OSD DATA) to be reproduced on the screen are directed to the video device 2 . Both the VBI data and the OSD data that are routed to the video device 2 are usually data that have been initiated by the microcontroller 8 of the video recorder itself in order to store program and auxiliary information for the recorded programs and during playback to be able to make visible on the playback screen of the video device 2 . The identification of the data VBI DATA * and OSD DATA * entered in the last line of FIG. 3 indicates that these data appear at the output OUT2 in FBAS format. The VBI DATA * are actually not required at output OUT2. Since they are in the invisible image area, they do not interfere and therefore do not need to be suppressed.

The present invention enables the storage and replay of this data without significant additional hardware components, since the stages included for the OSD function anyway, such as the data extraction stage 9 and the data generation stage 10 are used for this. The output lines 11 of the data generation stage 10 are used for the insertion of the data to be stored at the times at which they are not required for OSD signals which are only shown in the visible image.

Claims (5)

1. VCR with

• - an input / output stage (1) for introducing the VTR supplied video signals (CVBS for mat) reproduction in the VCR and transmitting on a screen of the connected external video device (2) video signals (CVBS format) of the video recorder,
• a video processing stage ( 5 ) for processing the supplied video signals for the purpose of recording and processing recorded signals for the purpose of playback on the screen of the video device ( 2 ),
• a recording and playback stage ( 6 ) with a video signal memory ( 7 ), in particular magnetic tape, for the signals processed by the video processing stage ( 5 ),
• a data extraction stage ( 9 ) for extracting special data from data quantities transmitted in blanking intervals of the video signal,
• - A data generation stage ( 10 ) for generating display data to be displayed on the screen from the data extracted from the data extraction stage ( 9 ) and / or from data generated in the video recorder and
• - a video encoder ( 12 ) for converting the display data into a display signal to be displayed on the screen,

characterized in that output lines ( 11 ) of the data generation stage ( 10 ) are connected to an insert switch (SW1) which can be controlled in such a way that data signals of the data generation stage ( 10 ) synchronize in lines ( 32 ) of the vertical blanking interval of the video processing stage ( 5 ) supplied video signal can be inserted. 2. Video recorder according to Claim 1, characterized in that one of the output lines ( 11 ) provided for transmitting the color value information (R, G, B) to the video encoder ( 12 ) is connected to the insertion switch (SW1). 3. Video recorder according to claim 2, characterized in that on a further one of the output lines ( 11 ) a posi tion signal to a controller ( 15 ) of the insert switch (SW1) can be transmitted. 4. Video recorder according to claim 3, characterized in that the controller ( 15 ) of the insertion switch (SW1) further a signal characterizing the blanking gap (DATA (H)) can be carried out. 5. Video recorder according to one of claims 1 to 4, characterized in that in the playback mode, the video signal to be reproduced can be fed to the data extraction stage ( 9 ).