DE4103973A1 - Compact disc recording and playback method - using decoder to identify data loss with increased speed transfer into buffer as correction - Google Patents

Abstract

The output from the head (AT) is transferred to a decoder (D) coupled to both a buffer memory (Z) and a control circuit (K). In normal operation when data are read and transferred without error the buffer is continuously full. When the decoder generates a signal (E2) indicating an error, e.g. loss of data due to vibration, the data reading is repeated at double normal speed to eliminate any vacant sections in the memory and so corrects the contents. A similar process is used for writing data onto the disc. ADVANTAGE - Corrects for data loss in reading or writing process.

Description

The invention relates to a method for reproducing digita len data from a record carrier and a method for Recording of digital data on a record carrier.

With a CD player, the data playback z. B. by Krat zer or dirt on the plate, the so-called compact disc, be interrupted audibly. Also by an impact from the outside the CD player, as z. B. often turned into a car built CD players can occur when a road with deep When driving in potholes, data playback can be heard be broken because the light beam scanning the data in follow the bumps from the data track to be scanned and because focus may also be lost.  

When the impact of the impact wears off, the beam of light becomes too track control loop back to the data track to be scanned steered; by means of the focus control loop, it is exactly open again the plate is focused. With the reading of the data becomes approximate continued at the point where the beam of light due to the impact left the trail. Therefore, there is no significant Da loss, but an audible interruption of the data recovery gabe significantly interferes with the operator's listening pleasure.

Likewise, z. B. in data recording with a magneto optical recording and playback device error on the ma gneto-optical disk can be recorded or even data un be lost again if e.g. B. during the recording the light beam temporarily due to a shock from the Or if the focus is lost.

It is therefore an object of the invention, a safe reproduction and Record data without interruption and without data loss to ensure with a recording and / or playback device.

With a playback device, this object is achieved by that the data of the record carrier via a buffer be read out that in the event of a fault, no more data be read into the clipboard while continuing Data are read from the buffer memory that according to Ablin the data at a higher speed due to the disturbance the buffer are read in as they are read out to the buffer to a predetermined extent or fill up completely.

With a recording device, this object is achieved by that the data to be recorded is first stored in a buffer be read from where they got onto the record carrier conditions that during a malfunction of the recording device ne data are read from the buffer while continue to read data into the buffer that  after the disturbance has subsided, the data at a higher speed are read from the buffer as they are entered be read so that the buffer does not overflow that the data from the clipboard at the same speed be read out as they are read in, if one before specifiable number of storage locations in the buffer is available as empty buffer locations.

Show it

Fig. 1 shows the reproduction of data according to the invention in a CD player

Fig. 2 shows the recording of data according to the invention in a magneto-optical device.

The reproduction of data in a CD player will now be explained with reference to FIG. 1.

The data of a disk CD driven by a motor M are read by an optical scanning device AT which supplies the data to a decoder D. From the decoder D, the decoded data reaches a buffer memory Z, the clock input of which is connected to the first clock output A 1 and whose overflow output is connected to the first input E 1 of a control circuit K. A second clock output A 2 of the control unit K is connected to the clock input of the decoder D. A control output A 3 of the control circuit K is connected to the motor M of the disk drive. The error output of the decoder D is connected to the error input E 2 of the control circuit K.

During the data playback, the data read out of the Decoder D to buffer Z. The signal at the error output  of the decoder D indicates to the control circuit K whether the data flow between the disc CD and the decoder D is disturbed.

Is the data flow to the buffer Z z. B. by a disturbance tion on the disc CD, in the scanner AT or im Decoder D disturbed, so will continue to be in between memory Z data read out to interrupt the data such to avoid this, but no more data in the inter memory Z read. Only when the fault has subsided what the signal at the error output of the decoder D of the control unit K indicates data is again in the buffer Z read, but now at a faster rate than her be read from the buffer memory Z so that it is open again is filled. For this purpose, the control unit K increases the speed of the motor M, so that the disc CD with a higher rotation number rotates.

If the buffer Z of the control unit K indicates that al If its storage locations are occupied, the data will be restored into buffer Z at the same speed read as they are read from it. Therefore no kei occur annoying interruptions in data playback when the storage capacity of the buffer store Z is sufficient for the To be able to bridge the duration of a fault.

In Fig. 2, the data to be recorded are first read into a buffer Z, which forwards them to an Enco der E, from where they are recorded on the disc CD via a recording device AZ. The first clock output A 1 of a control circuit K is connected to the clock input of the intermediate memory Z, the second clock output A 2 is connected to the clock input of the encoder E. A fault output of the AZ recording device is connected to the fault input E 2 of the control circuit K, the control output A 3 of which is connected to the motor M which drives the disc CD. An output A 4 of the buffer memory Z is connected to an input E 1 of the control circuit K.

If the recording of the data z. B. is disturbed by that the light beam recording the data by an impact is torn from the outside of the data track or that z. B. the Fo kus is lost, this shows the recording device AZ of the control unit K. Thereupon no more data output from the buffer Z to the encoder E. However, who which continues to read data in the buffer memory Z.

If the recording device AZ of the control circuit K indicates that the disturbance has subsided, the speed of the disk CD is increased and the data are read out from the buffer memory Z at a higher rate than they are read. As soon as a predeterminable number of memory locations in the buffer Z is again available as a buffer, which indicates a signal at the output A 4 of the buffer Z of the control unit K, the data are read out again at the same speed as they are read. The speed of the disc CD is reduced back to normal.

By this measure go in case of disturbances in the recording device no longer lost data when the storage capacity the buffer Z is sufficient to control the duration of the fault to bridge.

It is particularly advantageous in a recording and playback uses the same buffer for both the recording and can also be used for playback mode.

The invention is for digital reproduction or recording advisable, e.g. B. CD player, video disc player, DRAW disc Players and magneto-optical devices.

Claims (8)

1. A method for reproducing digital data from a record carrier (CD), characterized in that the data of the record carrier (CD) is read out via a buffer (Z), that in the event of a fault, no more data is read into the buffer (Z) are while data are still being read and that after the disturbance has subsided the data are read into the buffer (Z) at a higher speed than they are being read out in order to fill the buffer (Z) to a predetermined extent or completely. 2. Method of recording digital data on one Record carrier (CD) by means of a record direction (AZ), characterized by net that the data to be recorded first in a Zwi read memory (Z) and from the buffer (Z) get on the record carrier (CD) that at egg ner failure of the recording device (AZ) no data read more from the buffer (Z) while continue reading data in the buffer (Z) that that after the disturbance has subsided the data with a high speed from the buffer (Z) are read as they are read so the intermediate memory (Z) does not overflow that the data with the same Chen speed from the buffer (Z) will be read as if a predefinable Number of storage locations in the buffer (Z) again is available as empty buffer locations.   3. The method according to claim 1, characterized records that the data at the same speed be read in and out when the intermediate memory cher (Z) up to the specified size or completely is filling. 4. The method according to claim 1, characterized records that there is no more data in the clipboard cher (Z) can be read when it reaches the specified level or completely filled, and that only data again to the cache at the higher speed can be read if a predeterminable number of memories spaces in the clipboard (Z) is empty. 5. The method according to claim 1, 3 or 4, characterized characterized in that at a playback advises that reads data from a rotating disk If the fault subsides, the speed of the disc (CD) increases will make the data faster in the cache (Z) can be read. 6. The method according to claim 2, characterized records that in a recorder that Data recorded on a rotating disc (CD), after If the fault subsides, the speed of the disc (CD) increases will make the data faster from the cache (Z) can be read as they are read in order to to create empty buffer storage spaces. 7. Circuit arrangement for performing the method according to claim 5, characterized in that the data read by a scanning device (AT) from the disk (CD) are fed to a decoder (D) which transmits the decoded data to the buffer (Z) That a first clock output (A 1 ) of the control unit (K) is connected to the clock input of the buffer (Z), that the clock input of the decoder (D) is connected to the second clock output (A 2 ) of the control unit (K) that an error output of the decoder (D) is connected to the error input (E 2 ) of the control unit (K), that the overflow output of the buffer (Z) is connected to the overflow input (E 1 ) of the control unit (K), that a control output (A 3 ) of the control unit (K) is connected to the motor (M) which rotates the plate (CD). 8. Circuit arrangement for performing the method according to claim 6, characterized in that the data to be recorded are read into the buffer (Z), the clock input of which is connected to the first clock output (A 1 ) of a control circuit (K), that the data output of the Buffer (Z) is connected to the input of an encoder (E), whose clock input is connected to a second clock output (A 2 ) of the control circuit (K), that the output of the encoder (E) with the recording device (AZ ) is connected that an output of the buffer (Z) is connected to an input (E 1 ) of the control circuit (K), that an error output of the recording device (AZ) is connected to an error input (E 2 ) of the control unit (K) and that a control output (A 3 ) of the control unit (K) is connected to the motor (M) which rotates the disc (CD).