DE10051557A1 - Track marking procedure for D-VHS recorder, involves using longitudinal track recording of CTL-pulses for marking band positions - Google Patents

Abstract

Method of marking the recorded or to be recorded oblique tracks of digital TV signals in a specified data format with a video-recorder based on the Helicalscan procedure and in particular with a video-recorder using the D-VHS system, in which with the recording of the digital TV-signals a longitudinal track recording of CTL-pulses (2) is provided, and the digital TV-signals are recorded as distributed packet-type digital data on a number of successive oblique tracks (a-f). During recording of digital TV signals, band positions, after which this recording can be over-written in sections and/or to which another recording of digital TV signals can be seamlessly added, are marked by using the longitudinal track recording of CTL-pulses (2), in which a certain CTL-pulse (g) of the respective data packet (3) is marked, with which the beginning of the respective data packet can be detected.

Description

The invention relates to marking to be recorded or recorded tracks on a video recorder the helical scan process, in particular a video recorder according to the D-VHS system standard, which is both the recording and / or playback of analog as well as recording and / or playback of digital television signals by means of Magnetic tape cassettes allowed.

The D-VHS system has the advantage of being compatible to the VHS system, whereby (especially one means Recording of CTL (control) pulses in the corresponding Longitudinal track of the record carrier also for the Recording and playback of digital television signals or corresponding video signals) head drum and Belt drive servo of the device applicable to both systems are. In contrast to the VHS system, however, according to that for the Recording of a full screen, two helical tracks each are provided, a recording of digital data for the recovery of a full image more than two each Include helical tracks.

So z. B. according to the D-VHS system standard, six tracks each combined into a data packet. Such in Playback mode data packet sequence read from the tape in the D- VHS data format is using a so-called Codec IC ' (one essentially designed as an encoder / decoder integrated circuit z. B. type SAA 6700 from the company SIEMENS) into a digital data stream and then for further processing as an MPEG data stream edited. The Godec wins the corresponding, in Recording operation with recorded information about the respective track number from the read data stream, so that the codec downstream components in Signal processing path of the device can tell which  the helical tracks are being processed. Since the Communication within the device via data bus Connections are made, it is inevitable Delays in the transfer of data with the result that Head drum and tape drive servo and still with that Evaluation of a track information can be busy while already reading the next one accordingly Helical track is started.

However, as long as such information is not required will, such as B. during playback operation of the device, is a delay in data exchange for the Image viewer relatively uncritical. But if at Playback does not start with reading out the first Track of a data packet is started, it can become one for very annoying delay of the image viewer Image build come because the codec is only complete Can convert data packets into an MPEG data stream.

However, it is necessary that a "." existing D-VHS recording as well as in the Device operating mode D-VHS "record assembly", in which one Re-recording behind an existing recording written or overwritten with this record head drum and tape drive servo to the existing one Recording is synchronized. The aim is to the tape with reading the sixth track one corresponding data packets of the existing record to stop so that the first track of the corresponding data package of the re-recording started can be, so that the track structure due to old and / or new data packets remain undisturbed or preserved. If namely the synchronization to the existing recording is not done, the tape is likely to stop somewhere between the first and sixth tracks of the corresponding data packets of the existing recording - With the result that this data packet then at the start of  Re-recording is partially overwritten and thus in Playback operation of the device not evaluated by the codec can be. The resulting image disturbance can then be up to 100 msec.

It is therefore an object of the invention to provide such Avoid interference in the playback mode of the device.

This object is achieved by one specified in claim 1 Method and by one specified in claim 4 Video recorder solved.

The invention is based on the idea of using the longitudinal track recording of control pulses (CTL- Pulse) to mark a tape position from which one existing helical trace recording of digital television signals Edited in sections in the D-VHS data format or overwritten - or to which a re-recording such television signals are seamlessly added is to, according to the invention in the recording per Full screen or a specific CTL for each data packet Pulse is marked, on which then the respective one Data packet start can be detected.

Since - as already mentioned - the recovery at D-VHS a full screen consist of six helical tracks each can and for the recovery of a full image each Complete data package consisting of six helical tracks is required, the respective according to the invention takes place Marking of CTL pulses every three CTL pulses while the rest of the CTL pulses - i.e. H. the respective subsequent CTL pulses two and three - remain unchanged. As a marker, advantageously that of VISS (Video Index Search System) and VASS (Video Address Search System) known change in the CTL duty cycle from 60% to  Use 27.7% as for VISS and / or VASS markings The devices provided for the device are also suitable for the Let CTL pulses according to the invention be used.

Further advantages and further training result from the following description and claims.

The invention is illustrated by a drawing explained.

Therein, the single figure schematically shows a recording of a television signal in D-VHS data format in a D-VHS video recorder (not shown) in connection with the simultaneous longitudinal track recording of CTL pulses 2 using a magnetic tape section 1 . The television signal is recorded in accordance with the D-VHS system standard in the form of successive data packets 3 , each comprising six inclined tracks af, each of which is assigned three CTL pulses gi. According to the invention, the first CTL pulse g of the respective data packet 3 identifies the start of the data packet or the first helical track pair a, b of a data packet 3 , the helical tracks af and the CTL pulses 3 of the simpler representation, which are known to be recorded at the so-called X-spacing are shown displaced relative to each other.

The identification of the first CTL pulse g of the respective data packet 3 , which according to the present invention is provided in particular for controlling the tape drive servo for trouble-free editing and / or trouble-free seamless attachment of further or new recordings of digital television signals in a D-VHS video recorder, takes place on the basis of a marking of the respective first CTL pulse g - preferably by a change in the CTL pulse duty factor from 60% to 27.7% already mentioned. However, other markings of the respective first CTL pulse g are also conceivable - such as, for. B. an increase in amplitude of the first CTL pulse g compared to the two subsequent CTL pulses h, i and / or a burst-like formation of the first CTL pulse g.

Such coding patterns of CTL pulses 2 - due to the above-mentioned marking options for the first CTL pulse g of the respective data packet 3 - cannot be used with known CTL pulse codings such as, for. B. VISS and VASS collide. They also have the advantage that they can be implemented with electronic circuit means known per se or that they can be installed in the control and regulating devices (not shown) of a D without any significant additional outlay with the hardware and / or software means known per se - Create and edit VHS video recorders: e.g. B. by means of an internal (or counter to be integrated) in a for the different device sequencers and for the regulation and / or control of head drum and tape drive servo provided microprocessor of the type TMP 90 from Toshiba.

With the help of this counter and the CTL pulse coding according to the invention, the head drum and tape drive servo is provided with the information as to which of the tracks of the respective data packet is being read in so-called real time. The CTL pulse coding takes place in the recording mode of the device. The internal counter is synchronized to the respective first helical track a so that the microprocessor can code the corresponding CTL pulse g. The synchronization of the internal counter begins with the start of recording of the device by the codec, not mentioned at the beginning, being set into the recording mode by a so-called, also not shown "user interface", the codec simultaneously with the output of the corresponding data stream for writing the the first data packet gives a so-called "record on" signal to the head drum and tape drive servo and the tape drive servo, which was still waiting with the tape drive switched off, then starts the tape drive. From now on, the internal counter counts from af or "one" to "six", in accordance with the following data packet sequence, with a coded CTL pulse g being written into the CTL track of magnetic tape 1 with the respective counter reading "one" ,

Claims (7)

1. A method for marking and / or recorded inclined tracks of digital television signals in a data format specified by a system standard in a video recorder according to the helical scan method, in particular in a video recorder according to the D-VHS system standard, with the recording of the digital television signals a longitudinal track recording of CTL pulses ( 2 ) are provided and the digital television signals are recorded as digital data in packets each distributed over a plurality of successive inclined tracks (af), so that more than one CTL pulse ( 2 ) is assigned to such a data packet ( 3 ), and a full image can each extend over a data packet ( 3 ), characterized in that during the recording of digital television signals, tape positions from which this recording can be overwritten in sections and / or to which another recording of digital television signals can be seamlessly added, by use the longitudinal track recording of CTL pulses ( 2 ) are marked by marking a specific CTL pulse (g) of the respective data packet ( 3 ) with which the start of the respective data packet ( 3 ) can be detected. 2. The method according to claim 1, characterized in that the CTL pulse marking by marking the first CTL pulse (g) with respect to the subsequent CTL pulses (h, i) of the respective data packet ( 3 ). 3. The method according to claim 2, characterized in that the CTL pulse marking of the first CTL pulse (g) with respect to the subsequent CTL pulses (h, i) of the respective data packet ( 3 ) is carried out by changing the CTL duty cycle. 4. The method according to claim 3, characterized in that the CTL pulse marking change the CTL Duty cycle from 60% to 27.7%. 5. The method according to claim 2, characterized in that the CTL pulse marking is carried out by increasing the amplitude of the first CTL pulse (g) compared to the subsequent CTL pulses (h, i) of the respective data packet ( 3 ). 6. The method according to claim 2, characterized in that the CTL pulse marking by a burst-like formation of the first CTL pulse (g) with respect to the subsequent CTL pulses (h, 1) of the respective data packet ( 3 ). 7. Device characterized by a method according to claim 1.