RU2119686C1 - Method and device for reading optical disks - Google Patents

Abstract

FIELD: equipment for reading optical disks. SUBSTANCE: device has systems for reading CD and DVD formats which have different synchronization signals. System for reading CD format has synchronization detector and analyzes detection of CD synchronization signal at output of CD synchronization signal detector. CD reading system is triggered for operations in CD reading mode only if CD signal has been detected or if DVD signal has not been detected for some time. DVD reading system is triggered only if CD signal has not been detected for some time or if DVD signal has been detected. Device may have double-focus optical reading head for CD and DVD disks respectively. Claims of invention describes device design variants and method for reading optical disks. EFFECT: automatic detection of disk type. 10 cl, 15 dwg

Description

 The invention relates to a device for a method of reproducing discs, in particular, to a device and method for automatically determining the type of disc installed in a device for reproducing several types of discs.

 In a general aspect, an example of an optical disc from which a laser beam can be contactlessly read is a compact disc (hereinafter referred to as a CD). However, devices for recording / playing discs require an ever higher speed, the ability to dub and increase the recording density (amount of information). The most widely used technique for digital video compression is the MPEG (Group of Experts in the Field of Moving Images) standard. Therefore, in the future, as the main medium for storing multimedia information, a disk carrier for digital moving images such as a digital video disc (DVD format disc) will be developed.

 In FIG. 1 is a structural diagram of a DVD player. The disc 20 is a high density optical disc, in particular, in this case, it may be a DVD format disc. The reproducing head 111 is a short-wavelength optical head. In this case, a numerical aperture of 0.6 and the light wavelength of the infrared semiconductor laser are used. The signal amplifier 112 amplifies the light signal at the output of the reproducing head 111 after converting it to an electrical signal. The demodulator / decoder ECC (error correction code) 113 demodulates the modulated output signal of the signal amplifier 112 and corrects errors that occur during playback. The servo controller 114 receives the output signal (focus and beam tracking error signal) of the signal amplifier 112 and the output signal (constant linear speed control signal) of the demodulator / decoder ECC 113 to control the playback head 111. The system decoder 116 decodes the output data stream of the DVD format from the demodulator / decoder ECC 113, while this stream is divided into a (elementary) stream of video data and a (elementary) stream of audio data. Video decoder 117 decodes the video output stream of the system decoder 116, converting it into the form of reproduced video data. Encoder 118 encodes the video output of decoder 117 in the corresponding video display standard (NTSC or PAL), and then displays them. The audio decoder 119 converts the encoded audio data stream and the output signal of the system decoder 116 into the original (original) data. DAC 120 converts the output of audio decoder 119 into an analog audio signal. In FIG. 1 is not shown a system controller that controls the entire operation of the device for playing discs.

 In a DVD player with the design described above, the modulation, error correction and encoding of the signals are different from those used in conventional CD players, so the signals are processed in completely different ways. The pit size and pitch of the recording tracks on DVD and CD format discs are different, the laser light wavelength and the numerical aperture of the lens in the playback head 111 also differ. To achieve a higher density in the DVD recorder / player, it is important to reduce the size of the focal spot. To this end, firstly, they reduce the laser light wavelength, secondly, increase the numerical aperture of the lens, and thirdly, use modulation with highly efficient coding. The laser light wavelength is 650-635 nm for the infrared semiconductor laser, the numerical aperture of the lens is 0.6, and EFM modulation is used (conversion of the 8-bit code to 14-bit).

 To reproduce information from a high density optical disc, the reproducing head 111 must be able to form a small focal spot. The diameter of the focal spot is proportional to the light wavelength λ and inversely proportional to the numerical aperture of the lens, as shown in FIG. 2. At present, the minimum wavelength limit of a semiconductor laser is about 635 nm, as indicated above. Basically, for DVDs, a standard laser wavelength of 650 nm is used, while for conventional compact discs (CDs) it is 780 nm. The numerical aperture for DVD is 0.6, for CD 0.45, so the diameter of the focal spot for DVD is about 60% of the same parameter for CD. Therefore, a DVD playback signal equal to a CD playback signal can be obtained at a recording density of 2.6 times the recording density on a CD. The waveform of a playback disc of a DVD format is improved due to the actual circuit processing, therefore, its recording density is 4.2 higher than the recording density on a CD.

 The characteristics of DVD and CD are presented in the table.

 As can be seen from the table, CDs and DVDs of the same diameter have a number of differences. However, their compatibility is of the utmost importance, since CDs contain huge software resources. The main problem of DVD and CD compatibility is the use of a separate optical head. In other words, to reproduce information from a disc, part of the optical system is performed in accordance with the thickness of the disc. For this reason, the lens is designed according to the thickness of the disc. If the disk thickness deviates from the design value, spherical aberration occurs and the reduction of the optical focus rays decreases. In particular, a DVD has a thickness of 0.6 mm and a CD has a thickness of 1.2 mm, and therefore these two types of discs cannot be played with the same head. For their compatibility, separate optical heads must be used.

 To solve this problem, a two-focus optical unit for CD and DVD formats is proposed. In the optical head shown in FIG. 4, the optical focus for DVD and the optical focus for CD are formed spaced apart by a certain distance along the optical axis. Thus, the problem of different thicknesses of the disks is solved. The principle of the bifocal optical head shown in FIG. 4, lies in the fact that the work of two types of lenses is combined through the use of a hologram. The numerical aperture of the optical head lens is 0.6 according to DVD standards, and the hologram diffracts the central part of the light, as if it were refracted by the lens. Light that is not diffracted by the hologram is reduced by a 0.6 numerical aperture lens to thereby form the optical focus for the DVD format. The diffracted light forms a hologram suitable for a numerical aperture of 0.4 hologram and lens and for a 1.2 mm thick CD disc.

 When using the optical head shown in FIG. 4, the optical focus for the CD format is formed further than the focus for the DVD format. In this case, the photodetector is positioned in such a way that a reflected image of the optical focus brought together on the disk is formed on it. If a DVD is being played back, its optical focus is reduced to the disc, and the optical focus for the CD format is deflected so that the image becomes blurry. The optical focus image for the DVD format is formed on the photodetector, and the reflected light in the optical focus of the CD format is widely scattered so as not to affect the playback of the DVD format. When playing a CD, the reverse operation is performed.

 If the system has a head configured to play DVDs and CDs, or heads that separately play DVDs and CDs, it should work in the appropriate mode, determining the type of disc inserted. Recognition of CD and DVD discs can be implemented in different ways: by comparing the size of the signals for determining focal errors reproduced by the optical head, or by comparing the parameters of the RF signals in accordance with the size of the pit.

 However, the aforementioned method has drawbacks in that it takes a long time to recognize the difference between CDs or DVDs, and also in that the recognition accuracy is reduced.

 SUMMARY OF THE INVENTION

 The invention solves the problem of overcoming the disadvantages of a known level by creating a device and method for automatically determining the type of disc installed in the system for playing several types of discs.

 The purpose of the invention is to provide a device and method for determining and analyzing the sync combination of an installed disc after the CD mode was initially set in the system for playing DVD and CD discs to determine the type of installed disc and automatically execute the corresponding disc playback mode depending on the recognition result .

 The next objective of the invention is to create a device and method for determining and analyzing the sync combination of an installed disc after the DVD mode is initially set in the system for playing DVD and CD discs to determine the type of the installed disc and automatically execute the corresponding disc playback mode depending on the recognition result.

 Another objective of the invention is to provide a device and method for determining and analyzing the synchronization of an installed disc in a disc reproduction system having synchrodetectors CD and DVD, in order to determine the appearance of the installed disc and automatically execute the corresponding disc reproduction mode depending on the recognition result.

 To achieve these objectives of the invention, there is provided a device for reproducing optical discs comprising CD and DVD disc reproduction systems having corresponding clock signals, wherein CD and DVD reproduction systems have corresponding clock detectors and analyzing clock sync detector output signals when determining an installed disc, a CD reproduction system is selectively started for CD playback mode if a CD sync signal is detected and the DVD playback system selectively starts will be used to execute DVD playback if a DVD sync signal is detected.

 According to another aspect of the invention, there is provided an optical disc reproducing apparatus comprising CD and DVD disc reproduction systems having corresponding clock signals, the CD reproduction system having a CD sync detector and analyzing whether a CD clock signal is detected at the output of a CD sync detector when determining a mounted disc, and a system the CD playback selectively starts to execute the CD playback mode if a CD sync is detected and the DVD playback system selectively starts I perform the DVD playback mode, if the clock signal CD has not been detected for a predetermined time.

 According to another aspect of the invention, there is provided an optical disc reproducing apparatus comprising CD and DVD disc reproduction systems having corresponding clock signals, the DVD reproduction system having a DVD sync detector and analyzing whether a DVD sync signal is detected at the output of the DVD sync detector when determining a mounted disc, and the DVD playback system selectively starts to execute a DVD playback mode if a DVD sync signal is detected, and the CD playback system selectively starts etsya to perform the CD playback mode, if the DVD sync signal is not detected for a predetermined time.

Brief Description of the Drawings
The invention is further explained in the description of specific options for its implementation with reference to the accompanying drawings, in which:
FIG. 1 is a block diagram of a digital video disc reproducing apparatus;
FIG. 2 is a diagram explaining the relationship between the light wavelength, the numerical aperture of the lens, and the diameter of the optical focus in the digital reproducing device;
FIG. 3 is a diagram explaining the relationship between a pet and an optical focus for a video disc and a CD;
FIG. 4 is a diagram explaining the principle of operation of a two-focus optical head;
FIG. 5 is a block diagram of an apparatus for determining a type of disc installed in a disc player according to a first embodiment of the invention;
FIG. 6A-6E are CD frame sync determination characteristics for determining a disc type according to a first embodiment of the invention;
FIG. 7 is a block diagram of an apparatus for determining a frame sync signal CD according to this embodiment of the invention;
FIG. 8 is an algorithm explaining an operation for determining a type of disc installed in a disc player;
FIG. 9 is a block diagram of an apparatus for determining a type of disc installed in a disc player according to a second embodiment of the invention;
FIG. 10 is an exemplary sync DVD format;
FIG. 11A-11C are CD frame sync determination characteristics for determining a disc appearance according to a second embodiment of the invention;
FIG. 12 is a flowchart explaining an operation for determining a type of disc installed in a disc player according to a second embodiment of the invention;
FIG. 13 is a block diagram of an apparatus for determining a type of disc installed in a disc player according to a third embodiment of the invention, and
FIG. 14A and 14B are an algorithm explaining an operation of determining a type of disc installed in the disc player according to the second embodiment of the invention.

 Detailed description of a preferred embodiment of the invention.

 First option.

 In FIG. 5 shows a configuration of a first embodiment of a device for automatically determining the appearance of an installed disc in a disc recording / reproducing system configured to play CDs and DVDs. In this case, the optical reproducing head 111 is an optical head capable of reproducing CD and DVD format discs. The RF receiver 512 amplifies the weak light signal reproduced by the optical head 111. The RF signal at the output of the RF receiver 512 is a signal reproduced from a CD or DVD.

 First, in the DVD reproduction system, the DVD corrector 516 filters the DVD frequency band of the received RF signal and corrects it. In this case, the DVD frequency band becomes a wide band including the CD frequency band. A DVD signal processor (digital signal processor) 517 receives the DVD frequency band of the DVD corrector output data stream 516 to demodulate the modulated data and correct errors that have occurred during the above procedure. The DVD 517 signal processor corresponds to the demodulator / corrector ECC 113 shown in FIG. 1. A / V decoder 518 divides the output of the DVD signal processor 517 into video and audio data and processes these signals. An A / V decoder 518 corresponds to a system decoder 116, a video decoder 117, and an audio decoder 119.

 Then, in the CD reproduction system, the CD corrector 513 filters the CD frequency band of the output RF signal of the RF receiver 512 and corrects it. A CD signal processor (digital signal processor) 514 demodulates the modulated output data stream of the CD corrector 513 and corrects errors that occurred during the above procedure. The audio signal processor 515 processes the output of the signal processor CD 514.

 This embodiment of a disc reproducing apparatus has CD and DVD disc reproduction systems. The optical reproducing head 111 is configured to play discs of these two formats. After placing the disc in the device for playing discs, it is necessary to determine which disc is installed - a CD or DVD, and then selectively actuate the appropriate playback system. To this end, a CD 521 synchrodetector is integrated in the CD 514 signal processor. The controller 511 determines which type of disc is installed and selectively drives the appropriate reproduction system depending on whether or not a frame sync CD is detected at the output of the CD 521 synchrodetector.

As a frame sync CD, a combination not obtained from the modulated data is used. This ensures reliable synchronization, if there are no errors in the bits. For data recorded on a CD, EFM modulation is used. With EFM modulation, eight data bits are converted to 14 bits and it is possible to obtain a combination of at least three 3T bits and a maximum of 11 11E bits. The combination “1000000000010000000000100 _B ” (11T + 11T + 2T), not used as data and shown as 6a in FIG. 6. Such a sync combination of CDs is recorded on a CD format CD in the form 6b or 6c shown in FIG. 6.

 The format of the data recorded on the CD is shown as 6d in FIG. 6. The synchrodetector 521 is performed as shown in FIG. 7. The input data stream is fed into input register 71 and shifted. Base register 72 stores the frame sync CD shown as 6a in FIG. 6. The comparator 73 compares the portions of the parallel output bit data of the input register 71 and the portions of the parallel output bit data of the base register 72 and outputs the resulting comparison signal in bits. The clock detector 74 logically combines the output bit data of the comparator 73 and generates a signal for deciding whether or not the clock CD is detected. For this, the clock detector 74 uses a logic circuit. If during synchrodetection all the signals output from the comparator 73 are HIGH logic signals, the clock detector 74 uses logic I. If the CD frame format corresponds to the format shown as 6d in FIG. 6, the sync detector 521 detects the CD clock in the sync cycle shown as 6e in FIG. 6. This clock is generated in a cycle of 13.3 ms. The output signal of the synchrodetector CD 521, made in accordance with FIG. 7 is supplied to the controller 511.

 Upon detection of the fact of the installation of the disk controller 511 sets the CD mode as the original. At the moment of switching on the constant linear velocity (CLV) servo system of the CD mode, the frame sync signal of the playback system is generated in a cycle of 13.3 ms. Moreover, if the data and their sync combinations are recorded on a CD format disc as 6d in FIG. 6, a frame sync signal is detected in a 13.3 ms loop during playback, as described above. Frame sync is generated from all CDs and VCs. In this case, the CLV servo system is used for the 11T RF signal standard.

 When the controller 511 sets the CD mode as the initial operating mode, the sync combination of the CD can be detected normally if the installed disc is a CD format disc. However, if a DVD format disc is inserted in CD mode, the frame sync signal cannot be detected while using the CLV servo system. According to this embodiment, after applying the CLV servo system, when the disc is inserted and the initial CD driving mode is determined, whether or not the reproduced clock signal is detected to decide whether the current mode is a CD or DVD mode. Depending on the result of this decision, the CD or DVD playback mode selectively starts.

 In FIG. Figure 8 shows the procedure for selectively starting the corresponding playback mode by the controller 511, which determines the appearance of the installed disc. As shown in this drawing, in this embodiment, it is determined whether or not the frame sync signal CD is detected after setting the CD mode as the initial mode when installing the disc. If, as a result of this determination, this clock signal is detected, a decision is made that a CD format disc is installed and the CD playback system is selectively activated. If the clock signal is not detected within a predetermined time, a decision is made that a DVD format disc is installed and the DVD playback system is selectively activated.

 As shown in FIG. 8, the controller 511 checks to see if any disk is installed. First of all, the controller 511 checks the status of the input part 510 to determine if the tray is in the ON / OFF state (open / closed). This determines the controller 511 in steps 811 and 813, after which it decides that the disk is installed. Then, at step 815, the controller 511 instructs a servo controller (not shown) to focus the optical head 111. In this case, the optical head 111 is a block adapted for use with CD and DVD formats. Therefore, the servo controller drives the optical head 111 as a CD playback head. The controller 511 raises or lowers the focus of the optical head 111 in step 815, and checks in step 817 whether the focus is locked. If the focus is not fixed, the controller 511 perceives this situation at step 817 and decides at step 819 that the disk is not installed. This means that the user has set the tray to ON / OFF, but the disc is not installed.

 If the focus was locked in step 817, this means that the disk is installed in the tray. In this case, the controller 511 instructs the servo controller in steps 821-825 to start the rotation of the installed disk and turn on the tracking and CLV servo systems. To rotate the disk, the servo controller drives the spindle motor under the control of the controller 511. In addition, the servo tracking system ensures that the optical head 111 accurately follows the tracks. After automatic tracking adjustment is completed, the disk rotation speed is adjusted by manipulating the spindle motor in the CD playback CLV mode. This means that when a disc is inserted, the CD playback CLV mode is set and the CD frame sync detection operation is in preparation.

 When the CLV CD servo system is turned on, the controller 511 receives the output of the CD sync detector 514 in step 827 and checks if a CD frame sync signal is detected. In this case, the CD 521 synchrodetector receives the filtered data stream and corrects it in the CD strip, and the input data stream is compared with the previously stored CD frame sync, and the CD frame sync stored in the base register 72 is a special combination having a format different from the data recorded on a CD format disc. The CD 521 sync detector compares the sync pattern with the received data stream and a combination having the same value outputs the CD frame sync signal.

 If the installed disc is a CD format disc, the output clock signal of the CD detector 521, having the form 6e in FIG. 6 in a cycle of 13.3 ms. At step 827, the controller 511 determines that a frame sync signal CD has been detected. This clock is determined until a predetermined number is obtained in steps 829 and 831. The number of detected CD frame clocks is set to a value sufficient to decide that the installed disc is a CD format disc. If the frame sync signal CD is detected a predetermined number of times, the controller 511 sets the optical head 111 to the CD in step 833 and sets the CLV servo system to play the CD. Then, at step 835, the DVD signal processor and the A / V decoder 518 are instructed to block the DVD reproduction system, and the CD signal processor 514 and the sound processor 515 are instructed to power the CD reproduction system, after which the CD format is played.

 However, if the frame sync signal CD is not detected in step 827, the controller 511 checks in step 837 whether a predetermined time has passed. This means that CD frame sync detection is performed for the set time even if a DVD format disc is inserted. Controller 511 waits for the detection of the CD frame clock for a set time after turning on the CLV CD servo system. If during this time this clock signal is not detected, a decision is made that a DVD format disc is installed. The set time is the period during which several CD frame sync signals can be detected. If the frame sync signal CD has not been received within this set time, the controller 511 determines this state in step 837 and makes a decision in step 839 that the installed disc is a DVD format disc. At step 841, the optical head 111 is mounted on the DVD and the DVD CLV servo system is turned on. If the CLV is then latched, the controller 511 senses this at block 843, and at block 845, the CD signal processor 514 and audio processor 515 are turned off, disabling the CD playback system. The DVD signal processor 517 and the A / V decoder 518 are turned on to start the DVD playback system and execute the DVD playback mode.

 In the first embodiment described above, the CD format playback mode is executed first after inserting the disc into a disc reproducing system configured to play CD and DVD format discs, thereby thereby checking whether the CD frame sync signal is on that disc. If a CD frame sync signal is detected, the installed disc is a CD format disc and the CD playback system is started to implement the CD disc playback mode. Otherwise, it is determined that a DVD format disc is inserted, and the DVD reproduction system is started to execute the reproduction mode of the DVD disc.

 The second option.

 In FIG. 9 shows a configuration of a second embodiment of a device for automatically determining the appearance of an installed disc in a disc recording / reproducing system configured to play CDs and DVDs. It is understood that the optical head 111 is capable of reproducing CD and DVD discs. The RF receiver 512 amplifies a weak light signal reproduced by the optical head 111. In this case, the output RF signal of the receiver 512 is a signal reproduced from a CD or DVD.

 First, in the CD reproduction system, the CD corrector 513 filters the CD frequency band of the received RF signal of the receiver 512 and corrects it. The signal processor CD 514 demodulates the modulated data stream and the output signal of the corrector CD 513 and corrects errors that occurred during the above procedure. The sound processor 515 processes the output of the signal processor CD 514.

 Then, in the DVD reproduction system, the DVD corrector 516 filters the DVD frequency band of the received RF signal and corrects it. In this case, the DVD frequency band becomes a wide band including the CD band. The DVD 517 signal processor receives the DVD bandwidth of the DVD 516 equalizer output data stream to demodulate the modulated data and correct errors that occurred during the above procedure. The DVD 517 signal processor corresponds to the demodulator / ECC corrector 113 shown in FIG. 1. A / V decoder 518 divides the output of the DVD signal processor 517 into video and audio data and processes these signals. An A / V decoder 518 corresponds to a system decoder 116, a video decoder 117, and an audio decoder 119.

 This embodiment of a disc reproducing apparatus has CD and DVD disc reproduction systems. The optical reproducing head 111 is configured to play discs of these two formats. After placing the disc in the device for playing discs, it is necessary to determine which disc is installed - a CD or DVD, and then selectively actuate the appropriate playback system. For this, a DVD 522 synchrodetector is integrated in the DVD 517 signal processor. The controller 511 determines which type of disc is installed and selectively drives the corresponding playback system depending on whether or not a frame sync CD is detected at the output of the DVD 522 synchrodetector.

As a frame sync DVD, a combination not obtained from the modulated data is used. This provides reliable synchronization in the absence of errors in the bits. For data recorded on a DVD disc, EFM-plus modulation is used. In a DVD playback system using EFM-plus modulation, the data combination itself is a maximum of 11T (1,000,000,000,000) _B. Therefore, to sync DVDs, a combination that is not used in the actual data is usually used. In this case, such a combination should exceed a minimum of 12T. For the DVD format, several sync combinations are used, combined accordingly. However, they are usually specific combinations that do not use a combination of data. In this embodiment, the total combination used as a sync combination is 14T. This common combination is located on the lower 14 bits of each of the sync combinations.

In FIG. 10 shows an example in which the sync combination of a DVD and a piece of data is stored in a single sector format. The letter S denotes sync combinations, and the letters D1-D indicate the actual data. Designations a1-a2 represent the length of the synchronization, b1-b2 - the length of the data. The designations c1-c2 indicate the length of the sync frame. The letter E indicates the length of two sync frames. Moreover, the data length b is much greater than the sync length a. The letter F shows the number of rows in two frame clocks forming a sector. It should be noted that the size of one DVD sector is
F • E = (C ₁ + C ₂ ) • F = [(a ₁ + b ₁ ) + (a ₂ + b ₂ )] • F
here a ₁ = a ₂ , b ₁ = b ₂
The sector format recorded in the DVD standard is shown in FIG. 10. In this format, a sync pattern is generated as in FIG. 11. In this case, this synchronization is formed by bits a, and the lower bits of the synchronization usually have 14T. The lower 14 bits of several sync combinations used in DVDs have a definite meaning. Their senior ranks have different meanings. Parts 11b and 11c in FIG. 11 show that the data transfer time between the DVD frame sync combinations is 1.2 ms.

 DVD sync detector 522 for detecting DVD frame sync combinations shown in FIG. 10 and 11 may be implemented in the same configuration as the synchrodetector CD 521 shown in FIG. 7. In this case, the reference sync register 82 of the DVD 522 stores parts 14 of the least significant bits of the data having a common value in the DVD frame combinations, as shown in FIG. 11a. The comparator 73 compares the portions of the parallel output stream of reproducible data of the input register 71 and the DVD frame sync combination of the base register 72 and outputs the resulting comparison signal in bits. The clock detector 74 logically combines the output bit data of the comparator 73 and generates a decision signal whether a DVD clock is detected or not.

 If the DVD sector format is as shown in FIG. 10, the DVD sync detector 522 detects the DVD frame sync in the sync cycle shown as 11c in FIG. 11. This clock signal is played in a cycle of 1.2 ms. The DVD 521 sync detector detects the DVD frame sync and transfers it to the controller 511. The controller 511 sets the DVD mode to the original when the disc was inserted. When the constant linear speed (CLV) servo system of the DVD mode is turned on, if a DVD format disc is installed on which data and sync combinations are recorded, as shown in FIG. 10, the controller 511 receives the DVD frame sync in a 1.2 ms cycle.

 When the controller 511 sets the DVD mode to the initial operating mode, the DVD sync combination can be normally detected if the installed disc is a DVD format disc. However, if a CD format disc is inserted in DVD mode, the frame sync signal cannot be detected while using the CLV servo system. In this embodiment, after applying the CLV servo system when installing the disc, if the initial driving mode is a DVD mode, it is determined whether or not a reproduced clock signal is detected to decide whether the current mode is a CD or DVD mode. Depending on the result of this decision, the CD or DVD playback mode selectively starts.

 In FIG. 12 shows a procedure for selectively triggering the corresponding playback mode by the controller 511 determining the appearance of the installed disc according to the second embodiment. As shown in this drawing, in this embodiment, it is determined whether or not a DVD frame sync signal is detected after setting the DVD mode as the initial mode when installing the disc. If a sync signal is detected as a result of this determination, a decision is made that a DVD format disc is installed and the DVD playback system is selectively activated. If the clock signal is not detected within a predetermined time, a decision is made that a CD format disc is installed and the CD playback system is selectively activated.

 As shown in FIG. 12, the controller 511 checks to see if any disk is installed. First of all, the controller 511 checks the status of the input part 510 to determine if the tray is in the ON / OFF state (open / closed). This determines the controller 511 in steps 1211 and 1213, and then decides that the disk is installed. Then, at step 1215, the controller 511 instructs the servo controller (not shown) to focus the optical head 111. In this case, the optical head 111 is a block adapted to be used for CD and DVD formats. Therefore, the servo controller drives the optical head 111 as a CD head. The controller 511 raises or lowers the focus of the optical head 111 in step 1215, and checks in step 1217 whether the focus is locked. If the focus is not fixed, the controller 511 perceives this situation at step 1217 and decides at step 1219 that the disk is not installed. This means that the user brought the tray to the ON / OFF state, but the drive did not install.

 If the focus is locked in step 1217, this means that a disc is placed in the tray. In this case, the controller 511 instructs the servo controller in steps 1221-1225 to start the rotation of the installed disk and turn on the tracking and CLV servo systems. To rotate the disk, the servo controller drives the spindle motor under the control of the controller 511. In addition, the servo tracking system ensures that the optical head 111 accurately follows the tracks. After automatic tracking adjustment is completed, the disc rotation speed is adjusted by manipulating the spindle motor in the DVD playback CLV mode. This means that when the disc is inserted, the DVD playback CLV mode is set and the DVD frame sync detection operation is in preparation.

 When the DVD CLV servo system is turned on, the controller 511 receives the output of the DVD sync detector 522 in step 1227 and checks if a DVD frame sync signal is detected. In this case, the DVD 522 sync detector receives the filtered data stream and corrects it in the DVD strip, and the input data stream is compared with the previously stored DVD frame sync, and the DVD frame sync usually has reference data stored in the base register 72 and is a special combination (14T), in a format other than data recorded on a DVD disc. The DVD 522 sync detector compares the sync with the received data stream, and a combination having the same value outputs as the DVD frame sync.

 If the installed disc is a DVD format disc, an output clock signal of the DVD detector 522, having the form as in FIG. 11c, in a cycle of 1.2 ms. At step 1227, the controller 511 determines that a DVD frame clock has been detected. The sync signal is determined until a predetermined number is obtained in steps 1229 and 1231. The number of DVD frame sync signals detected is set to be sufficient to decide that the installed disc is a DVD format disc.

 If the DVD frame clock is detected a set number of times, the controller 511 sets the optical head 111 to the DVD in step 1233 and sets the CLV servo system to play the DVD. Then, at step 1235, the DVD signal processor 517 and the A / V decoder 518 are instructed to power the DVD reproduction system, and the CD signal processor 514 and the audio processor 515 are instructed to block the CD reproduction system, after which the DVD disc playback mode is performed.

 For example, if the number of detected frame sync signals is set to 3 times, five to five, then the installed disc should be defined as a DVD. However, if the DVD frame sync is not detected in step 1227, the controller 511 checks in step 1237 whether a predetermined time has passed. This means that DVD frame sync detection is performed for the set time even if a CD is inserted. Controller 511 waits for DVD frame sync to be detected for a set time after turning on the CLV DVD servo. If this clock signal is not detected during this time, a decision is made that a CD format disc is installed. The set time is the period for which several DVD frame sync signals can be determined. If the DVD frame sync has not been received within this set time, the controller 511 determines in step 1239 that the installed disc is a CD. At step 1241, the optical head 111 is mounted on the CD and the CD CLV servo system is turned on. If the CLV is then latched, the controller 511 senses this in step 1243, and in step 1245, the CD signal processor 514 and the sound processor 515 are turned on, starting the CD playback system. The DVD signal processor 517 and the A / V decoder 518 are blocked from starting the DVD playback system and are in a CD playback mode.

 In the second embodiment of the invention described above, the DVD playback mode is executed first after installing the disc in a disc playback system configured to play CD and DVD format discs to thereby check whether there is a DVD frame sync signal on that disc. If a DVD frame sync signal is detected, the installed disc is a DVD format disc and the DVD playback system starts to execute the DVD playback mode. Otherwise, it is determined that a CD format disc is inserted, and the CD reproduction system is started to execute the CD reproduction mode.

Third option
In FIG. 13 shows a configuration of a third embodiment of a device for automatically determining the appearance of an installed disc in a disc recording / reproducing system configured to play CDs and DVDs. In this case, the optical reproducing head 111 is an optical head capable of reproducing CD and DVD format discs. The RF receiver 512 amplifies the weak light signal reproduced by the optical head 111. The RF signal at the output of the RF receiver 512 is a signal reproduced from a CD or DVD.

 First, in the CD reproduction system, the CD corrector 513 filters the frequency band of the CD of the RF signal at the output of the RF receiver 512 and corrects it. The signal processor CD 514 demodulates the modulated data stream and the output signal of the corrector CD 513 and corrects errors that occurred during the above procedure. The sound processor 515 processes the output of the signal processor CD 514.

 Then, in the DVD reproduction system, the DVD corrector 516 filters the DVD frequency band of the received RF signal and corrects it. In this case, the DVD frequency band becomes a wide band including the CD frequency band. The DVD 517 signal processor receives the DVD bandwidth of the DVD 516 equalizer output data stream to demodulate the modulated data and correct errors that occurred during the above procedure. The DVD 517 signal processor corresponds to the demodulator / ECC corrector 113 shown in FIG. 1. A / V decoder 518 divides the output of the DVD signal processor 517 into video and audio data and processes these signals. An A / V decoder 518 corresponds to a system decoder 116, a video decoder 117, and an audio decoder 119.

 This embodiment of the device for playing discs has a system for playing discs in CD and DVD format. The optical reproducing head 111 is configured to play discs of these two formats. After placing the disc in the device for playing discs, it is necessary to determine which disc is installed - a CD or DVD, and then selectively actuate the appropriate playback system. To do this, a CD 521 synchrodetector is integrated in the CD 514 signal processor, and a DVD 522 synchrodetector is integrated in the DVD 517 signal processor. The controller 511 decides which type of disc is installed and selectively drives the appropriate playback system depending on whether a frame sync is detected or not. CD or DVD at the output of a CD or DVD 521 or 522 synchrodetector.

 As explained above, CD and DVD formats have different frame sync patterns. For this reason, a disc reproduction system having CD and DVD disc reproduction systems can determine the type of disc by checking the frame sync recorded on the disc. In this case, the characteristics of the frame sync CD correspond to the characteristics of the first embodiment shown in FIG. 6, and the characteristics of the DVD frame sync correspond to the characteristics of the second embodiment shown in FIG. 10 and 11.

 A CD sync detector 521 for determining a CD frame sync and a DVD sync detector 522 for determining a DVD frame sync can be performed as in FIG. 7 in accordance with the first and second embodiments of the invention. In this case, the base sync register 72 of the CD 521 stores the frame sync CD shown as 6a in FIG. 6, and the base sync register 72 of the CD 522 stores the DVD frame sync shown as 11a in FIG. eleven.

 If an installed disc is detected for the first time, the controller 511 sets the initial setting mode as the CD or DVD mode. If the controller 511 sets the initial setting operation mode as the CD mode, the frame sync of the CD can be normally detected if a CD format disc is inserted. But if a DVD format disc is inserted in CD mode, the frame sync signal cannot be detected while the CLV servo system is in use. In this case, the controller 511 changes the initial operating mode to DVD mode so that the DVD sync detector can detect the DVD frame sync.

 Conversely, if the controller 511 sets the initial setting mode to DVD mode, a DVD frame sync may be normally detected if a DVD format disc is installed. But if a CD in DVD mode is inserted, the frame sync cannot be detected while the CLV servo system is in use. In this case, the controller 511 changes the initial operating mode to the CD mode so that the CD sync detector can detect the CD clock.

 In a third embodiment, the initial operating mode is set to CD mode when a disc is inserted, and then it is checked whether or not frame sync CD is detected or not. If it is detected, CD mode continues to play. Otherwise, the current mode is changed to DVD mode to detect DVD frame sync, and then the DVD playback mode continues.

 In FIG. 14a and 14b show an algorithm for selectively triggering the corresponding playback mode by the controller 511, which determines the type of disc when it is installed in accordance with the third embodiment of the invention.

 As shown in FIG. 13, the controller 511 detects the frame sync signal CD in the sequence of operations according to the first embodiment in steps 1411-1435, as shown in FIG. 14a. If a CD frame sync signal is detected, the CD playback system selectively starts to execute the CD playback mode. First, if it is detected that a disc is inserted, the CD playback mode is set as the initial driving mode, and the output signal of the CD 521 sync detector is analyzed. If a frame sync signal CD is detected, a decision is made that a CD format disc is installed and the CD playback mode is executed.

 If the frame sync signal CD has not been received for some set time when setting the drive mode to the CD playback mode, the controller 511 detects this at step 1437 shown in FIG. 14a. Then, at step 1439 in FIG. 14b, the current mode is changed to DVD mode and the optical head 111 is instructed to reproduce information recorded on the DVD format disc. At steps 1449-1467, the DVD frame sync is detected and the DVD playback mode is executed, as in the second embodiment.

 In a third embodiment of the invention, the CD playback mode is first executed to check whether or not the frame sync signal of the CD is detected on the disc when the disc is inserted into a playback system configured to play a CD or DVD. If no CD frame sync is detected, a DVD frame sync is detected.

 According to another aspect of the invention, a DVD playback mode is first executed to check whether or not a DVD frame sync signal is detected on the disc. If DVD frame sync is not detected, CD frame sync can be detected. In this case, if a DVD frame sync signal is detected, the installed disc is recognized as a DVD format disc and the DVD playback system is activated to execute the DVD mode. If the DVD frame sync signal is not detected for some set time, the DVD mode changes to CD mode, and then the CD frame sync signal is detected. The installed disc is recognized as a CD format disc, and a CD playback system is activated to execute the CD mode.

 In the description of the first, second and third embodiments of the invention, a single head was used, configured to play discs of both formats. However, the present invention can be applied to varying degrees in a disc reproduction system having separate heads only for CDs and only for DVDs. With this configuration, the data stream generated by the CD head is analyzed first when a disc is inserted to check if the frame sync signal CD is detected or not. If it is detected, the CD playback mode is executed. If this signal is not detected for some set time, the DVD head is activated to select a DVD playback mode and the DVD playback mode is executed.

 As described above, this invention allows you to automatically determine the type of disc installed in the device for playing several types of discs. In particular, to accurately determine the type of disk, the clock of the installed disk is determined. Depending on the result of the determination, the corresponding disc playback mode is automatically performed.

 The present invention is not limited to the described embodiments, but only to the scope of the attached claims.

Claims (10)

 1. The device for reproducing optical discs having a system for reproducing discs of a compact disc (CD) format and a digital video disc (DVD) containing their respective clock signals, characterized in that the CD reproduction system has a CD sync detector and analyzes whether a CD clock signal is detected or not on the output of the CD sync detector, when it is determined that a disc is inserted, and the CD playback system selectively starts to execute the CD playback mode if a CD clock signal is detected and the DVD playback system is selectively • Starts to execute the DVD playback mode if the CD sync signal is not detected for some set time.  2. An optical disc reproducing apparatus having an optical reproducing head for CD and DVD discs having different clock signals, and also having CD and DVD reproducing systems, characterized in that the CD reproducing system has a CD sync detector, the optical reproducing head is configured only on CD and the system analyzes whether or not the CD clock signal is detected at the output of the CD sync detector when it is determined that the disc is installed, and the CD system selectively starts to execute the CD playback mode if it is detected The CD sync signal is loaded, the optical playback head is set to DVD only, and the DVD playback system selectively starts to execute the DVD playback mode if the CD sync signal is not detected for some set time.  3. A method of reproducing optical discs by a reproducing apparatus having an optical reproducing head for CDs and DVDs having different clock signals and having CD and DVD reproduction systems, characterized in that the CD reproduction system has a CD sync detector, the optical reproducing head is only configured to The CD and the system analyze whether or not the CD clock signal is detected at the output of the CD sync detector when it is determined that a disc is installed and the CD playback system selectively starts to execute the CD playback mode, if a CD clock signal is detected, the optical playback head is set to DVD only and the DVD playback system selectively starts to execute the DVD playback mode if the CD clock signal is not detected for some set time.  4. Device for reproducing optical discs having a system for reproducing CD and DVD discs containing their respective clock signals, characterized in that the DVD playback system has a DVD sync detector and analyzes whether or not a DVD clock signal is detected at the output of the CD sync detector when it is determined that it is installed a disc, and the DVD system selectively starts to execute a DVD playback mode if a DVD sync signal is detected, and the CD playback system selectively starts to perform a DVD playback mode CD, DVD if the clock is not detected for a predetermined time.  5. An apparatus for reproducing optical discs having a two-focus optical reproducing head for CDs and DVDs having different clock signals, and also having CD and DVD reproduction systems, characterized in that the DVD reproduction system has a DVD sync detector, the optical reproducing head is only set to The DVD and the system analyze whether or not a DVD sync signal is detected at the output of the DVD sync detector when it is determined that a disc is inserted, and the DVD system selectively starts to execute the playback mode eniya DVD, if the detected sync DVD, an optical reproducing head is adjusted only on the CD and the CD playback system is selectively triggered to perform a CD playback mode, if the DVD sync signal is not detected for a predetermined time.  6. A method of reproducing optical discs by a reproducing apparatus having a bifocal optical reproducing head for CDs and DVDs having different clock signals, and also having CD and DVD reproduction systems, characterized in that the DVD reproduction system has a DVD sync detector, the optical reproducing head is configured only on DVD and the system analyzes whether or not a DVD sync signal is detected at the output of the DVD sync detector when it is determined that a disc is installed and the DVD system selectively starts to run neniya DVD playback, if the CD is detected sync signal, the optical reproducing head configured to only CD and CD playback system is selectively triggered to perform a CD playback mode, if the DVD sync signal is not detected for a predetermined time.  7. An apparatus for reproducing optical discs having reproduction systems for CD and DVD discs containing their respective clock signals, characterized in that the CD and DVD reproduction systems have corresponding clock detectors and analyze the output clock signals of the sync detectors when it is determined that the disc is installed and the CD system selectively starts to execute the CD playback mode if a CD clock is detected and the DVD playback system selectively starts to execute the DVD playback mode if a DVD sync signal is detected.  8. An optical disc reproducing apparatus having a two-focus optical reproducing head for CD and DVD discs having different clock signals, and also having CD and DVD reproduction systems, characterized in that the systems have corresponding synchrodetectors, the optical reproducing head is tuned only to CD and systems analyze whether or not the CD clock signal is detected at the output of the CD sync detector when it is determined that a disc is installed and the CD playback system selectively starts to execute the mode CD playback, if a CD clock signal is detected, the optical playback head is set to DVD only, and the DVD playback system selectively starts to execute the DVD playback mode if the CD clock signal is not detected for some set time.  9. An optical disc reproducing apparatus having a two-focus optical reproducing head for CD and DVD discs having different clock signals, and also having CD and DVD reproduction systems, characterized in that the systems have corresponding synchrodetectors, the optical reproducing head is tuned only to DVD and systems analyze whether or not a DVD sync signal is detected at the output of a DVD sync detector when it is determined that a disc is installed and the DVD playback system selectively starts to execute and playback DVD, if the detected sync DVD, an optical reproducing head is adjusted only on the CD and the CD playback system is selectively triggered to perform a CD playback mode if the detected clock CD.  10. An optical disc reproducing apparatus having CD and DVD disc reproduction systems having corresponding clock signals, characterized in that the CD and DVD reproduction systems have corresponding clock detectors and analyzing the clock sync output signals when it is determined that the disc is installed and the CD system is selectively starts to execute the CD playback mode if a CD sync signal is detected, and the DVD playback system selectively starts to execute the DVD playback mode if outward clock DVD.

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