DE3911525A1 - Circuit for detecting the type of an optical recording carrier - Google Patents

Abstract

The main application relates to a circuit which can distinguish automatically between a CD, an MOD or a combination of the two. The object of the present invention is to provide an automatic switching over of the tracking control signal (Ur). The control signal (Ur) is passed via an inverting amplifier, which is switched over via a field-effect transistor (15) in dependence on a correcting variable characterising the respective type. In particular for a player which is suitable for CDs and MODs. <IMAGE>

Description

The main application is based on a circuit arrangement for recognizing the type of an optical recording medium.

The invention according to the main application has the object reasons to specify a circuit arrangement that automatically recognizes the type of an optical recording medium.

This object is achieved by the invention according to the main application dung solved in that the data signal, which the with Contains data stored in pits via a high pass and a rectifier connected in series to it most input and via a low pass to the second input Nes first comparator is supplied, the output with is connected to a control processor.

The record carrier of the type mentioned contains pre-embossed te grooves each with depressions, also called "groove", and intermediate surveys, also called "land". The information can be in the wells or in the Surveys are recorded. If the same player now optionally different recordings for record carriers type, e.g. for a CD with optical recording in the form of pits or with magnetic recording in Form of magnetized domains or with a combi ned recording from both options, the Depending on the type, information to be read is either in the gen or the surveys. A tracking Control circuit that regulates the scan beam along which causes the track sections containing the information must so either on the elevations or the recesses right can apply. This means that the tracking control circuit must be switched depending on the type of record carrier.  

The invention has for its object a simple Circuit for switching the tracking control circuit at the different types of record carriers create.

This object is achieved by the inven in claim 1 solved. Advantageous developments of the invention are specified in the subclaims.

In the invention, the controller is thus by the inverter gnal switched in polarity depending on what type of record carrier through the circuit is recognized according to the main application. The tracking rule circuit is then replaced by one of the type of the recording medium gers dependent control variable automatically switched so that the scanning beam is regulated on the part of the track, that is either on the wells or the surveys in which the useful signal is stored.

The invention is based on the drawing of an embodiment example explained. Show in it

Fig. 1 is a block diagram of a player for an optical disc with the inventive circuit order of the control voltage,

Fig. 2 shows the relationship between the control voltage and the tracks and

Fig. 3 is a detailed circuit diagram of the circuit according to the invention.

Fig. 1 shows the rotating optical disc 1 , the actuator 2 for the tracking control, the signal scanner 3 , the Si signal amplifier 4 , the amplitude limiter 5 for the abgeta-steady RF signal, the servo circuit 6 controlling the actuator, the driver circuit 7 for the motor and the microprocessor 8 controlling the entire playback circuit. The amplifier 4 delivers the sampled useful signal at terminal 9 . The sampled useful signal HF also arrives at the microprocessor 8 . The type of recording medium 1 is identified therein. Depending on this, the manipulated variable Us is generated, which indicates whether the information is recorded in the wells or surveys. The manipulated variable Us controls the inverter 10 , which switches the control voltage Ur obtained in the amplifier 4 for the servo control 6 in polarity, depending on whether the information is recorded in the depressions or elevations. Inverter 10 is controlled by selectively grounding the non-inverting "+" input. The servo control 6 controls via the actuator 2, the Spurfol ge such that the scanning beam, depending on the type of recording carrier, is guided either along the depressions or along the elevations.

Fig. 2 shows in the form of a track section lying side by side depressions G (groove) and elevations L (land). When the information is recorded in the recesses G , the scanning beam must be guided along the recesses G by the tracking control circuit as shown by the scanning beam. If, however, in another type of record carrier the information is recorded in the bumps L , the scanning beam must follow the bumps L by the tracking control circuit, as indicated by the scanning beam shown in broken lines. The lower part of FIG. 2 shows that the control voltage Ur controlling the track sequence for the control of the symboically indicated scanner 11 either on the recesses gene G or the elevations L have a phase different by 180 °, that is to say switched over in polarity got to. This switchover is carried out by the inverter 10 .

Fig. 3 shows the detailed circuit of the inverter 10. The control voltage Ur to be switched in polarity is applied from the terminal 12 via the resistors R 1 and R 3 to the inverting and the non-inverting input of the differential amplifier 13 . The output 14 of the differential amplifier 13 is connected via the resistor R 2 , which represents a negative feedback, to the inverting input. Between the non-inverting input and earth is the field effect transistor 15 , at the control electrode of which the control variable Us is applied from the terminal 16 . At the terminal 14 , depending on the size of the manipulated variable Us , as the type of the recording medium, the non-inverted or the inverted control voltage Ur for the servo circuit 6 can be removed.

The circuit works as follows: In the first operating mode, for example if the information is contained in the depressions G , the transistor 15 is blocked by Us . The gain effective by the differential amplifier 13 Ur is then V = R 4 / ( R 3 + R 4 ). The control voltage Ur therefore appears unchanged at the output 14 and from there to the servo circuit 6 . In the second operating mode, for example when the information is recorded in the elevations L , the transistor 15 is controlled by Us so that the non-inverting input of the amplifier 13 is grounded. Now only the inverting input is effective, and the gain formed is V = ( R 4 - R 3 × R 2 / R 1 ) / ( R 3 + R 4 ). The control voltage Ur appears inverted at output 14 . If R 1 = R 2 , the amplitude also remains unchanged.

In a practical example, the components according to FIG. 3 had the following values:
R 1: 10 kOhm
R 2 : 3.3 kOhm
R 3 : 10 kOhm
R 4 : 10 kOhm
Differential amplifier 13 : type 1/2 MC1458
Field effect transistor 15 : type BF256C.

Claims (4)

1. Circuit for detecting the type of an optical record carrier, in which the data in depressions ( G ) or elevations ( L ) of a spiral track either optically in the form of pits or magnetically in the form of differently magnetized domains or in a combination of both possibilities are stored and from the signal in a detection circuit a control value indicating the respective storage type is obtained, according to patent application P 38 38 859.6, characterized in that for automatic switching between scanning the recesses ( G ) or elevations ( L ) a tracking control signal ( Ur ) is applied to the two inputs of an inverting amplifier ( 13 ), the output ( 14 ) of which delivers the switched control signal and is connected to the inverting input via a counter coupling path ( R 2 ) and whose non-vertical input is via one by the manipulated variable ( Us ) controlled switch ( 15 ) is grounded. 2. Circuit according to claim 1, characterized in that the negative feedback path consists of a resistor ( R 2 ). 3. A circuit according to claim 1, characterized in that the switch is formed by a field effect transistor ( 15 ) GE. 4. Switch according to claim 3, characterized in that the transistor ( 15 ) has a resistor ( R 4 ) connected in parallel GE.