DE3520918A1 - Digital audio system - Google Patents

Abstract

The present invention relates to a digital audio playback system, in which distortions caused by mechanical or electronic switches for selecting a playback operating mode are eliminated. According to the invention, digital data which is received by a data reading device is processed to achieve the desired playback operating mode before the digital data is converted to analogue form. This avoids the necessity of switches in the analogue signal path.

Description

description

The present invention relates to a digital audio system, that reproduces audio data from two or more time division multiplexed channels.

Digital audio systems reproduce audio data in multiple channels in a time-based multiplex mode using pulse-code modulation (PCM) are recorded. In a common digital audio system, there are switches and similar devices used to reproduce the audio signals for the respective Select channels and choose from various playback modes such as the stereo mode in which the signals are played back are fed from multiple channels to corresponding channel amplifier circuits, and the monaural mode in which the reproduced audio signals from the plurality of Channels are combined with each other before they are amplified. These switches can mechanical switches, such as rotary switches, or electronic switches, such as transistor devices.

However, such systems have many problems that are listed below other non-linear distortions caused by contact resistance expensive switches with gold-plated contacts and loss of sound quality due to crosstalk effects due to long signal lines between the switches and the Circuit boards as well as loss of sound quality, which over time reason from contact wear occur, include. Even when using electronic Switches are also degraded in sound quality due to the electronic switches inherent non-linearities are inevitable.

Accordingly, it is an object of the present invention to provide a digital To create an audio system in which the playback mode can be selected without a reduction in sound quality occurring.

In accordance with this and other objects, the present invention provides a digital audio system having means for controlling the playback mode by digitally processing digital data including audio data for several time-division multiplexed channels, which allows playback mode without affecting the Sound quality is controlled as it inevitably is when played back Audio signals are switched.

Below, with reference to the accompanying drawings preferred embodiments of the present invention explained in more detail. Show it: Fig. 1 is a block diagram of a first, preferred embodiment of one according to the invention digital audio system; Fig. 2 shows a time representation of the mode of operation of the data generation unit in the system shown in Figure 1; Fig. 3 is a block diagram of another embodiment of the present invention; Fig. 4 is a timing illustration of the mode of operation a data generator of the system shown in Figure 3; Figure 5 is a block diagram of a another embodiment of the present invention; and Fig. 6 is a timing diagram the operation of the data generator in the system shown in FIG.

In Fig. 1, reference numeral 1 denotes a data reader which, for example Reads signals that have an eight-to-fourteen modulation, EFM) are recorded on a disk, and the output signal supplies digital data words which each have a coding with a of n bits and which correspond to the audio data of the time-divided multiplex channels L and R, where a clock signal b is synchronized with the bits of the digital data words a, and wherein there is further provided a channel which generates the signal c which those Denotes channels to which the respective bits of the digital data words a belong. The digital data output words a of the data reader 1 become a reproduction mode control circuit 2 supplied. In the reproduction mode control circuit 2, the digital Data words one after the other bit by bit to an input terminal of a switchover circuit 3 and also to the series input terminal of a shift register 4 with n bits fed. The clock signal b becomes the shift clock input terminal of the shift register LI supplied. In synchronization with the clock signal b, the digital data stored bit by bit in the shift register 4. The serial output signal of the Shift register 4 is transferred to the other input output terminal of the switching circuit 3 created. A mode control signal d is applied to the control input terminal of the switching circuit 3 is applied, this mode control signal as an output of a mode control signal generating circuit 5 appears. The channel designating signal c is sent to the mode control signal generating circuit 5 fed from the data reader 1 from. A mode command signal indicating the working state a mode command switch (not shown) in the processing section is also supplied to the mode control signal generating circuit 5. When inputting one indicating the stereo mode or the reverse mode Control signal changes the output of the mode control signal generating circuit 5 between a high and a low level, with a being the L-channel mode or R-channel mode designating command signal for switching the output signal of the mode control signal generation circuit 5 against the state of the Channel denoting signal c leads.

The Umsohaltsohaltung 3 generates the data at its output terminal, which are fed to one or the other of its two input terminals, namely the input data or the output data of the shift register 4 as a function the state of the mode control signal d. Output data from the switching circuit 3 are fed to a digital-to-analog converter 6 (D / A). The D / A converter 6 becomes likewise with the clock signal b and the channel designating signal c from the data reader 1 supplied. The D / A converter 6 contains a shift register that receives the serial Converts data into parallel data in synchronization with the clock signal b, a Demultiplexer, which divides the received audio data into time-separated, multiplex channels L and R in response to the signal indicating the channel, as well as one Low-pass filter to remove unwanted components that therefore of the audio signal band. The output side L and R channel playback audio signals of the D / A converter 6 are connected to an audio output terminal # 1 and an audio output terminal 02 of the data reproduction unit 9 is applied via amplifiers 7 and 8. The audio signals the audio output terminals # 1 and 02 are fed to a line amplifier 10.

The signal curve (A) according to FIG. 2 shows for the one described above System digital data words with n bits for the L and R channels which alternate bit by bit appear as output signals. The clock signal b is given by the signal curve (B.) shown in FIG. As also shown as a signal curve (D) according to FIG. 2 is, the output data from the shift register 4 by a period of n Bits delayed, i.e. by one data word period with respect to the digital data, the appear as the output signal of the data reader 1.

As shown by the signal curve (C) according to FIG. 2, this has The channel designating signal c has a low level when the L-channel data passes through the data reader 1 is generated and goes high when the R-channel data can be generated on the output side. When generating an L-channel operating mode signal, the mode control signal d, as shown by the waveform (E) of FIG is reversed in phase with respect to the channel designating signal c. as As a result of this, only L-channel data are fed to the D / A converter 6, such as this is shown by the waveform (F) of Fig. 2, the playback mode is set in the switching circuit 3 to the L-channel mode when the Output data from the shift register 4 of the circuit 3 when the level of the circuit 3 is low Operating mode control signal d are supplied, with input data from the shift register 4 as the output signal of the switching device 3 can be generated if the Mode control signal has a high level. When the R-channel operating mode signal is present according to the signal curve (G) according to FIG. 2, the operating mode control signal d becomes phase-wise identical to the signal c indicating the channel. Accordingly, how to do this by the waveform (H) of FIG. 2 is shown, only R-channel data to the D / A converter 6, with only R-channel data being converted into analog form, amplified and fed to the speakers.

When the stereo mode or the reverse mode again is present, the mode control signal d between the high and the low Level switches, the input data and the output data of the shift register 4 alternately supplied to the D / A converter 6.

Accordingly, in stereo mode, the analog audio signal of the L- and R-channel applied to the corresponding terminals Oi and 02. If on the other hand the reverse mode is selected, those from the L and R channels become received L- and R-channel audio signals to the output terminals O2 and # 1an applied, i.e. reversed compared to stereo mode.

The above description relates to an embodiment example which controls the operating mode by processing the digital data bit by bit will. Fig. 3 shows another embodiment in which the mode control by processing all bits of each digital data word at the same time is carried out.

Referring to Fig. 3, the data reader 1 is the mode control circuit 2, the D / A converter 6, the amplifiers 7 and 8 and the power amplifier 10 constructed the same way and linked together in the same way as it is the case with the system according to FIG. However, is at the embodiment according to FIG. 3, the data reader 1 with a serial-parallel converter circuit which has an n-bit shift register and the like.

The data reader 1 sets all n bits of each data word simultaneously to the mode control circuit 2.

In the mode control circuit 2, each digital data word a with n bits is applied to the data input terminal of a hold circuit 11 with n bits. An output pulse signal e of the mode control signal generating circuit is turned on the clock input terminal of the holding circuit 11 is applied. In the one shown in FIG The device is the operating mode control signal generation circuit 5 with the output channel bezeicen3en signal c of the data reader 1 is supplied, the one indicating the operating mode Signal has a state which the respective operating state of the mode switch (not shown) in the processing circuit.

In addition to the elements of the system shown in FIG. 1, the Mode control signal generation latch 5 of the present embodiment provided with an additional circuit that generates a positive pulse e in cynchronization both with the leading edge as well as with the following edge of the channel indicative signal c is generated when a stereo mode signal or a pulse mode signal is applied. Furthermore, the additional circuit generates optionally in synchronization with the leading edge or with the following edge of the channel designating Signal c a positive pulse if the L-channel operating mode or if the R-channel operating mode is present.

The mode control signal generation circuit 5 generates an output mode control signal d, which is reversed in phase with the channel command signal c when the reversed Operating mode is selected. In any other operating mode, the output signal is of the mode control signal generating circuit 5, a control signal d, which with to the signal c indicating the channel is synchronized.

Output data of the holding circuit 9 and the operating mode control signal c are fed to the D / A converter 6. Required in the present embodiment the D / A converter circuit 6 does not have a serial-parallel converter shift register as in FIG the system described with reference to FIG. Also with the present Embodiment, the operating mode control signal c used to the L-channel data and separate the R-channel data from each other.

As by the waveform (A) of FIG. 3 for the above circuit is shown, digital data words with n bits are alternately for the L-channel and received for the R channel, with n bits occurring simultaneously.

The signal c indicating the channel is represented by the signal curve (B) shown in FIG.

In the stereo operating mode, the pulse signal e contains positive pulses in synchronization with the leading or the following edges of the signal identifying the channel e, as shown by the signal curve (C) according to FIG. 3. The waveform (A) of Fig. 3 shows that the mode signal d with that indicating the channel Signal c is synchronized. When the hold circuit 11 receives the input data at the holding the leading edge of the pulse e, the holding circuit generates the a data with a delay of one pulse width of the signal e.

Accordingly, when the L channel data is applied to the D / A converter 6, the mode control signal d falls to a low level, being at a rises high when R-channel data is present. It follows that L- and R channel audio signals are obtained after converting the L and R channel data and can be applied to the corresponding output terminals O1 and 02, with playback in stereo mode.

In the reverse operating mode, indicated by the signal curve (G) according to As shown in Fig. 3, the mode control signal d reverses that indicating the channel Re-phase signal c so that the L and R channel audio signals correspond to the respective Output terminals 02 and 01 are fed reversely with respect to the stereo mode. In the L-channel operating mode, which is represented by the signal curve (D) according to FIG. 3 is, the pulse signal e consists of positive pulses with the following edge of the signal c indicating the channel are synchronized. As a result, how this by the signal curve (H) according to FIG.

3, only L-channel data through the hold circuit 11 held and fed to the D / A converter 6. It follows that only L-channel audio signals amplified and applied to the speakers.

If furthermore the R-channel mode is selected, as indicated by the signal curve (E) according to FIG. 3 is shown, the pulse signal e contains positive Pulse in synchronization with the leading edge of the channel designating signals e. As a result, as indicated by the signal curve (i) according to Fig. 3, only R channel data is held in the hold circuit 11 and the D / A converter 6 supplied. It follows that only R-channel audio signals are amplified and applied to the loudspeaker.

FIG. 5 is a block diagram of another embodiment of FIG present invention. The system of Fig. 5 includes the data reader 1, the mode control circuit 2, the D / A converter 6, the amplifiers 7 and 8 and the power amplifier 10, the are interconnected as in the system of FIG. However, in the present Embodiment the control circuit 2 in addition to that in the system according to Fig. 1 components used an adder 12, which is used to bit by bit the input and output data of the shift register sters add 4, also a shift register 13 for successively storing the output data bit by bit the adder 12 and to shift this data bit by bit in the direction of the least significant Bit to halve the data value, as well as a switching circuit 14 which on the output side, data from the shift register 13 and data from the switchover circuit 3 generated. The mode control signal generation circuit 5 of the present embodiment contains, in addition to the elements of the system of FIG. 1, a circuit which a pulse of a changeover command signal f is generated when the mono mode is selected is. The switching command signal f becomes the control input terminal of the switching circuit 14 supplied.

In the above circuit structure, when the switching circuit 14 has the optionally causes output data to be generated from the shift register 13 as soon as a pulse of the switching command signal f is generated at the point in time at which the Input and output data of the shift register 4 have the first state, namely the slgnâl formulas t r; E according to Fig. 6, then the input and output H = ter.

of the shift register 4 are added to one another by the adder 12 and halved by the shift register 13, the resulting data being the Have signal form (C) according to FIG. 6, the D / A converter 6 are fed. As a result the output signals applied to output terminals # 1 and 02 become the signal obtained by halving the level of the signal that in turn is obtained by adding and synthesizing the L- and R-channel audio signals. on this creates the monaural mode.

In the above embodiment, the mode control circuit is 2 is provided in the data reproducing device 9. However, the mode control circuit 2 also be provided in the power amplifier 10, wherein digital data can be used to transmit between these two devices.

Claims (3)

Digital audio system Patent claims Digital audio system, g e k e n n z e i c h -net by a digital-to-analog converter device (6), the several time-division multiplexed digital data including audio data supplied from multiple channels will; and reproduction mode control means (3-5) for controlling a Playback mode by processing the plural digital data before supplying it to the digital-to-analog converter device (6). 2. Digital audio system according to claim 1, d a -d u r c h g e k e It should be noted that the reproduction mode control means (3-5) do the following characteristics comprises: a device (4) for successively storing one at a time Bit at a point in time, and at the subsequent successive output Generate one bit at a time, with a predetermined number of bits represents a data word of the plurality of digital data; and a device (3) for Optional generation of either the input data or the output data on the output side the first memory device (4) according to a specific playback mode. 3. Digital audio system according to claim 1 or 2, d a d u r c h g e k e n n n n e t that the playback mode control device (3 - 5) has the following features: a device (11) for storing a predetermined Number of bits that make up one word of the plurality of digital data in response to a predetermined command, and means (5) for generating the command in such a way, that the second storage means (11) digital data for one by the playback mode specific channel from the multiple digital data stores. Digital audio system according to one of Claims 1 to 3, d a d u r Note that the playback mode controller (3 - 5) has the following features: a memory device (4) to initially store a Bits per point in time of a sequence of a predetermined number of bits that make up a word which represent multiple digital data, to save and around it then to create an exit; an arithmetic calculator (12,13) for adding input data and output data of the memory device (4) and to divide the addition result by two; and means (3) for optionally On the output side, generation of either the input data or the output data of the Storage device (4) corresponding to the playback mode.