DE4033993A1 - Digital audio recording medium - has auxiliary code used for automatic sound field control during playback of recorded audio signals - Google Patents

Abstract

The recording medium allows an auxiliary code to be recorded alongside the main code for the digital audio signals. The auxiliary code provides a sound field control command code for setting up the sound field used for playback of the recorded audio signals. - The audio signals are the sound field control command code are extracted from the recorded audio disc, with the audio signals processed under control of the sound field control command code, before feeding them to a D/A converter.

Description

The present invention relates to a recording medium for digital information signals with main code and auxiliary code of digital audio signals and a suitable playback contraption.

As a recording medium for recording digital information tion signals including digital audio signals the so-called compact disc (hereinafter referred to as "CD" net) and the digital audio tape (DAT) are now in practical use sentence.

With CD, the digital audio signal data is corresponding the format, the so-called CD format, synchronization pattern, Tax data and parity data added to the so-called to form the th frame, and this frame becomes sequential recorded by a CLV format. The named control code consists of 8-bit data channels P to W and also becomes auxiliary co called de. It contains track information for the P channel and Address time code for the Q channel. The channels R, S, T, U, V and W of this auxiliary code are also called "user bits".

The data capacity of the "user bits" is approximately 44.1 KB / s, and it is permitted to use different tax data. For example, the Japanese laid-open specification describes 63-13 168 a method by which user bits of the auxiliary code for level information signals are used to control the on drawing level to indicate when an output audio signal from CD player on a recording medium such as a magnet tape is recorded.

On the other hand, the so-called stereo system is included CD player with sound quality control means for sound quality of the reproduced sound, such as equalizer, super bass and loudness control, etc. Such sound quality control Determine is characterized in that it is by the user  zer can be controlled freely, and the user can Adjust sound quality control means while playing len a CD listens to the reproduced sound.

A so-called digital signal has also recently become popular processor (DSP) that not only develops the sound quality controls, but also so-called pseudo signals, such as after adds reverb or echo signals. The property settings This DSP is also entrusted to the user.

However, it has been shown that there can be advantages if the sound quality and sound field setting from the start one, according to the CD manufacturer's assessment, instead is entrusted to the user.

It is therefore an object of the present invention to provide a solution drawing medium for information to create the command or control information for sound field control (including control only related to the sound quality) and reflects the intention of the manufacturer, and also an Ab Game device for such an information record creating medium.

The recording medium according to the invention contains one Sound field control command code in the auxiliary code signal, and the Player for the recording medium separates the Sound field control code from that of the recording medium read signal and pulls it out, and then controls the sound field control means based on this code.

According to this arrangement described, it is possible the sound field control commands from the outset due to the Ab view of the manufacturer on the recording medium nen and these sound field control commands from the signals of the Auxiliary codes received from the recording medium during playback  separate the recording medium, and the automatic Compliance with signals by the sound field control property to achieve the sound field control means.

The invention is described below with reference to the drawing exemplified in more detail; in this shows.

Fig. 1 is a circuit diagram of an embodiment of the invention;

Fig. 2 (a) and (b) the Hilfskodeformat already known; and

Fig. 3 shows an embodiment of the auxiliary code arrangement according to the invention using the already known auxiliary code format.

The circuit diagram in Fig. 1 shows circuit details of a CD player. The recorded on a trie is surrounded by a spindle motor 20 and rotated plate 21 information is read by an optical pickup 22nd On this participant 22 contains a laser diode, an objective lens, a focus actuator, a track actuator, a photodetector, etc. The output signal from the transducer 22 is passed on to a reproduction clock generating circuit which has a focus servo circuit 23 , a track servo circuit 24 and contains an RF amplifier.

In the focus servo circuit 23 , a focus error signal is generated by an astigmatism process, and the focus actuator in the sensor 22 is controlled in accordance with this error signal. As a result, the laser beam emitted by the laser diode through the objective lens is focused on the recording surface of the plate 21 as an optical spot of about 1.6 µm in diameter. In the tracking servo circuit 24 , a tracking error signal is generated, for example, by the three-beam process, and this tracking error signal is applied to the track actuators in the sensor 22 and to the slide servo circuit 26 . The output signal of the carriage servo circuit 26 is passed on to a motor M which drives a carriage (not shown) on which the sensor 22 sits, and the sensor 22 is thus pushed ver in the radial direction of the plate 21 .

In the reproduction clock generating circuit 25 , the reproduction clock signal for demodulation is generated and a spindle servo circuit 27 is supplied. In the spindle servo circuit 27 , a control signal is generated which corresponds to the phase difference between the playback clock and the standard clock from a clock circuit (not shown). A spindle motor 20 is controlled on and influenced so that it keeps the track linear speed on the plate 21 at a constant level. The output signal of the RF amplifier in the reproduction clock generating circuit 25 is passed on to the EFM demodulator circuit 28 , which contains a reproduction clock and a frame synchronization circuit. The demodulation output signal of the EFM demodulator circuit 28 is passed on to the data processing circuit 29 . After a deinterleaving processing, the output signal of the EFM demodulator circuit 28 is processed by an error correction and divided into main code and auxiliary code data as sound signal data.

The main code and auxiliary code data separated by the data processing circuit 29 are supplied to the main code decoder 30 and the auxiliary code decoder 31, respectively. The digital output signal from the main code decoder 30 is fed to the (now referred to as "DSP") digital signal processor 32 . The DSP 32 not only performs a sound quality control, but also the so-called sound field control in accordance with the control information which the auxiliary code decoder 31 has subtracted from the digital sound input signal in accordance with the parameter information as set by the user interface 34 . The user interface 34 controls the sound quality and sound field control level as the user desires. The sound quality control includes, for example, an equalizer constant setting, a loudness constant setting, a sound control, a disant control, and a bass control. The output signal of the DSP 32 is converted by the D / A converter 33 into an analog signal and fed to an amplifier of the next stage (not shown). In the sound field control by the DSP 32 , not only is a sound quality control of the original sound, but also an additional level and delay adjustment of the pseudo sound is carried out, e.g. B. Hall or echo sound, and the sound field control of the Hor room is carried out so that a musical sound event is generated, which corresponds to the actual recording room. Such a sound field control is already known per se, and need not be described here.

When it is detected in the auxiliary code decoder 31 that the auxiliary code is in the user mode and that the data is data for sound quality control, bits are extracted in the data area from R to W bits as command data set in a predetermined format. Sound quality control data corresponding to the command data drawn out are searched for and applied to the input terminal of the DSP 32 .

Fig. 2 (a) and (b) show a known subcode Aufzeich voltage format for CD. A format with 24 symbols is formed as a single package in the CD auxiliary code recording format. As shown in Fig. 2 (b), assuming that 6 bits of the first symbol are high-level bits and low-level bits in this format, the upper three digits for mode identification and the lower three digits for Identification used within the respective mode.

In the present invention, the sound quality and / or sound field control information for the reproduction of the sound signal expressed in the main code is given in the auxiliary code. As an example, the user mode is used as determined by the data format of FIG. 3.

Fig. 3 shows an embodiment of a format with sound quality control command information in the auxiliary code. The content of the 0th symbol is 111000, and this represents user mode. Bits n ₀ to n _{5 of} the first symbol represent the mode. The second and third symbols and the 20th and 23rd symbols are parity bits. The 4th and 19th symbols are divided into blocks B 1 to B 12 of 8 bits each, ie 1 byte. In the present embodiment, the information is given for equalizer constant determination, loudness constant determination, tone determination, treble determination and bass determination in the data area.

The data areas are formed in the same way as in the MIDI mode, and each block B 1 to B 12 each denotes the constant in the corresponding mode. If, for example, such a number is not required to determine the equalizer constant, it is of course possible to assign fewer bits for each controller. The data arrangement is also not limited to the illustrated embodiment.

In order to carry out the super bass constant setting operation in the manner described, the DSP 32 should be provided with a bandpass filter to extract a bass tone in an audio signal in the main code and with the function of emphasizing the bass tone by amplifying the extracted bass tone and superimposing the amplified one Signal to the original audio signal. It is thus possible to regulate the channel Q of the bandpass filter mentioned and to set the gain of the undersized bass tone by means of the constant-setting commands obtained from the superbass obtained from the auxiliary code.

It is also possible to control the super bass with fast Start without delay according to the intent of the creator by software such as a piece of music.

With the equalizer constant control, the properties ten of the equalizer are changed over time, and this can result in a sound effect that has not yet been achieved be.

As far as sound field control is concerned, the control da ten included in the auxiliary code, which corresponds to the level of the reverb and change the sound of the pseudo sound or the delay Set the delivery time to a living sound or to output a dead sound by changing the level of the on catch reflection tones over time. This can have the effect the sound field control can be changed for each melody by selecting the prescribed mode, such as Stadium mode, hall mode, etc., or it can also defined a new, previously unknown operating mode will.

It is well known that the frequency characteristics by the sound field control function of the DSP compared to the original sound in the so-called high-frequency cut-off characteristic (high cut, noise reduction) or in a BPF characteristic (Bandpass filter) can be converted. By setting such frequency characteristics, it is possible the signals from a frequency range of audio signals through demo master code were obtained, and also the so-called noise reduction effect aim. We continue with the noise reduction effect even control data inserted into the subcode to cut off  to determine the defrequency for each melody.

The recording medium with the auxiliary code can have parameters information in the auxiliary code area synchronized with or to be given slightly different from the main signal to get a noise reduction effect. On the other hand can control the setting of the parameter information processor according to the changes in the parameters information itself can be changed again.

Such an arrangement is because of its simplicity in the United States advantageous to conventional systems, and works because of the default setting without any time delays tion. This results in a system with effective noise rejection reduction.

For example, the information can also be like a level band the signals in the main track are given in the auxiliary code. If the signal level is high in such an arrangement, there is no band limitation because the noise is above is covered. When the signal level is low, the band Pass filter pass frequency characteristics changed, or it can have a frequency characteristic like a low pass filter tion can be used.

In the example given, the already known format is used for the sound field control data to be set in the auxiliary code, while it is also possible to use the data arrangement with a 6-bit symbol as a unit, as in FIG. 3 shown. It is assumed that the automatic mode selection command is given when the content of the 5th or 6th symbol is 100001, the stadium mode when the content of the 7th symbol is 000101, and the hall mode when the content of the 7th symbol Is 000110. A new mode command is also given when the content of the 5th or 6th symbol is 100011, and coefficient data and program data are placed in the areas of the 8th and 20th symbols in this case.

Next is a CD disk as a recording medium written, but it can also be a CDV or trade an LDD disk. CDV is an optical disc, at the analog video signals in the predetermined range are recorded, while CD information in the other Be are richly recorded. LDD is an optical disc, at of the EFM signals containing CD format signals in the low frequency range and analog video signals in high frequency are richly recorded by frequency multiplexing. If Sound field control command information into the CD component an LDD plate can be inserted, sound field control simultaneously with the display of the LD component lead, and so there is a new effect.

As follows from the previous description in the recording medium for information signals finally digital audio signals of the type according to the invention sound field control information in advance in the auxiliary code inserted, and when playing a sound field control according to the one recognized when reading the auxiliary code Sound field control information to be executed. It is the half possible to get an automatic sound field control by correcting the information according to the int ten of a music software creator on the plate becomes.

Claims (2)

1. Recording medium containing the digital information signal with an auxiliary code in addition to the main code for the digital audio signal, characterized in that the auxiliary code contributes a sound field control command code for use when setting a sound field created by the reproduction of the digital audio signal. 2. Playback device for an information recording medium with digital audio signals as the main code and a sound field control command code as the auxiliary code, characterized in that
that separating and extracting means for separating and extracting the digital audio signals and the sound field control command codes are provided from a signal read out from the information recording medium;
that it contains sound field control processing means for performing sound field control processing for digital audio signals according to the sound field control command; and
that D / A converter means are provided for converting the digital audio signal into analog signals after processing by the sound field control processing means.