DE4223906A1 - Signal processor for audio reproduction, e.g. for CD player - has detector to identify pre-emphasis based on 4 bit code to control de-emphasiser coupled to amplifier gain control - Google Patents

Abstract

The audio processor has a variable gain amplifier (1) that is adjusted dependent upon the input from a CD player. The amplifier acts as a compressor for the output stage. The input signal is received by a de-emphasiser stage (3) in the form of a filter that attenuates the signal above a cut-off frequency. An emphasis detector (5) receives a 4 bit input (Q) that indicates whether pre-emphasis is applied to either 2 or 4 channel signals. When emphasis is present the de-emphasiser generates an output to an input signal level detector (4), to control the amplifier gain. USE/ADVANTAGE - Car radio, tape player, radio etc. Amplifies quiet music sections without affecting louder ones.

Description

The invention relates to a signal processing circuit for Audio devices according to the preamble of claim 1.

The invention relates to a signal processing scarf tion such as pressers, limiters and stretchers (Dyna mikdehner), in which an output signal of a predetermined Signal processing according to the input signal level below lies.

The hearing characteristics or reproduction characteristics of a conventional audio equipment such as CD Players, digital audio tape recorders (DAT recorders), cas set players, radio tuners are very different speaking the sound sources (classical music, jazz, folk music, Conversation etc.) and according to the surroundings of the re  gift (e.g. in a room, on the train, in the car).

It is difficult to have quieter or quieter passages of an position or a melody heard in a noise full environment such as in cars and trains, ge be played. Increasing the volume of the reproduced weak signal to an audible level may sound too loud for relatively louder parts of the melody or piece of music cause. On the other hand, the volume cannot be too high be raised when playing or listening to a very quiet place takes place, which makes it difficult to ru details perceive higher parts.

To overcome the difficulties mentioned above, are common audio devices with different signal processing the circuits like a presser where the output signal is compressed in the dynamic range, a limiter with which limits the maximum level of the output signal, or an extender that covers the dynamic range of the out signals expand, provided.

Fig. 7 shows a presser used in a conventional audio system. In this figure, a variable gain amplifier 72 is inserted into a signal line 71 . The gain of the amplifier 72 is controlled to vary according to the input signal level detected by an input level detector 73 , as shown in Fig. 8 by a full line.

The input level detector 23 detects the input signal to control the gain of the amplifier 72 in accordance with the input signal level to vary, so that the compression or compression of the dynamic range of the output signal is effected.

In this way, the volume of quieter parts of a Me  lodie increases while the volume of the louder parts increases Is reduced for the purpose of pleasant hearing. Some signa oils that are to be reproduced have been pre-processed distortion or preemphasis recorded that applied there was where high frequencies are amplified. These signals un are subject to de-emphasis during playback, so that the Dy ranges of the reproduced signals are stretched. With the conventional signal processing described above tion circuit, the input signal level is simply detected and the gain of the amplifier correspond in a controlled manner changed according to the detected signal level regardless of whether the input signal has been subject to emphasis. In order to the compression effect will vary depending on whether a signal of such a signal processing circuit was previously subjected to pre-emphasis surgery or not. Similar problems arise in other signal converters working circuits such as limiters and strainers.

The invention has for its object a signal processing to create circuit in which an input signal is processed according to the signal level before the Si gnal of the emphasis surgery is suspended.

This object is achieved by the features in drawing part of claim 1 solved.

Further refinements of the invention result from the Subclaims.

The invention provides a signal processing circuit for an audio device with an emphasis detector and a deempha section. The emphasis detector generates an emphasis signal, that indicates that an input audio signal has a frequency response with preemphasis applied. The deemphasis section be has a deemphasis or equalization with regard to the on gangsaudiosignals and generates an audio signal with this  Lich applied de-emphasis when the emphasis signal or on Lift signal was supplied for this. The signal processing circuit can still have an input signal level detector have the output level of the de-emphasis section summarizes to give a control signal. The control signal controls in turn the amplification of an amplifier with variable Gain, which amplifies the input signal. The Ver stronger with variable gain can be trained be that it is a limiter, presser or stretcher.

Below will be made with reference to the drawings preferred embodiments of the invention explained. Show it:

Fig. 1 shows a first embodiment of a Signalverarbei processing circuit for an audio system according to the invention,

Fig. 2A shows an example of the de-emphasis characteristic,

Fig. 2B is an example of a pre-emphasis characteristic,

Figure 3 sis. An example of the frequency response after a Deempha,

Fig. 4 shows a second embodiment of a Signalverarbei processing circuit according to the invention,

Figure 5 shows a third embodiment of a processing circuit Signalverarbei.,

Fig. 6 shows a fourth embodiment of a processing circuit Signalverarbei,

Fig. 7 shows a known signal processing circuit in the form of a presser,

Fig. 8 shows an example of an input / output characteristic of a presser,

Fig. 9 shows an example of an input / output characteristic of a limiter, and

Fig. 10 shows an example an input / output characteristic of an expander.

A first embodiment of a preferred signal processing circuit according to the invention for use in an audio system is described below with reference to the drawings. Referring to FIG. 1 there is a variable gain amplifier 1 in a signal line 2 for a CD-signal which is reproduced from an optical disk unit. The amplifier 1 operates as a press with an input / output characteristic as shown in FIG. 8. A de-emphasis section 3 is in the form of a filter with a de-emphasis characteristic as shown in FIG. 2A, which is opposite to the pre-emphasis characteristic of FIG. 2B. The de-emphasis section 3 effects the de-emphasis on an input signal which is supplied to it when an emphasis signal is supplied to the section 3 from an emphasis detector 5 . An output signal level detector 4 detects the level of the output signal of the deemphasis section 3 in order to apply a control signal to the amplifier 1 , which is indicative of the signal level. The emphasis detector 5 receives e.g. B. four control bits of a Q channel, which represents a subcode in the reproduced CD signal and checks the logical states of the control bits to decide whether the input signal was subjected to a pre-hash operation. The logical states of the control bits represent the present states.

0000: Two-channel audio signal without pre-emphasis
1000: Four-channel audio signal without pre-emphasis
0001: Two-channel audio signal with pre-emphasis
1001: Four-channel audio signal with pre-emphasis

The input signal of the amplifier 1 according to Fig. 1 is a CD signal in the form of a digital signal, ie, an audio data signal in in the reproduced CD signal. All circuits according to FIG. 1 thus operate in a digital manner. The circuits of FIG. 1 may be executed by using hardware or may take the form of software using a DSP (Digital Signal Processor) have.

Operation of the first embodiment

The operation of the first embodiment is as follows explains:

The reproduced CD signal, which is fed to the presser 1 according to FIG. 1, is directly fed to both the amplifier 1 with variable amplification and the deemphasis section 3 . In the meantime, the four control bits in the Q-channel (Q-track) are fed to the emphasis detector 5 , in which the logic states of the four control bits are checked to determine whether the CD signal has been subjected to a pre-emphasis operation.

If the logic states of the control bits are 0001, ie if the input signal represents a two-channel audio signal with pre-emphasis, the emphasis detector 5 generates the emphasis signal, which indicates that the input signal has a pre-emphasis. Upon receipt of the emphasis signal from detector 5 , the de-emphasis section de-emphasizes with a frequency response as shown in FIG. 2A with respect to the input signal. Thus, the output signal of the deemphasis section 3 has a flat frequency response, as shown in FIG. 3, before it is passed to the input signal level detector 4 . If the control bits are 0000, ie the input signal is a two-channel (two-track) audio signal without pre-emphasis, then detector 5 generates the emphasis signal, which indicates that the input signal is without pre-emphasis, and section 3 does not call a de-base with respect to that Input signal.

The input signal level detector 4 detects the signal level of the output signal of the section 3 and then sends a control signal to the amplifier 1 with variable gain, which is indicative of the signal level. The control signal controls the gain of the amplifier 1 so that the input CD signal with preemphasis on line 2 is compressed in accordance with the characteristic of FIG. 8 before it is supplied to the circuit below. It should be noted that the pressing is effected on the basis of the signal level with a flat frequency response even if the input signal has a frequency behavior with pre-emphasis.

Fig. 4 shows a second embodiment of the invention. In Fig. 4, the deemphasis section 3 is used directly in the signal line 2 . The output of section 3 is fed directly to both amplifier 1 and input signal level detector 4 . The input signal on line 2 is de-emphasized by section 3 . Therefore, the second embodiment eliminates a deemphasis section which is usually placed at the stage following the press.

Fig. 5 is a third embodiment of the invention. In this embodiment, an input signal level detector 6 is seen before, which contains an equalizer. The equalizer only detects the signal level for low-frequency components in the input signal, so that it controls the gain of the amplifier 1 accordingly the signal level of the low-frequency components. This makes the third embodiment a booster that increases or attenuates the level of the low-frequency components of music broadcast through a speaker.

Fig. 6 shows a fourth embodiment of the invention. In the fourth embodiment, the deemphasis section 3 is coupled to the signal line 2 and receives the input signal; thus a signal with deemphasis is fed to an indicator such as a level meter or a spectrum analyzer.

The above embodiments have been explained with respect to a CD signal. The invention can equally be applied to signals reproduced by DATs, cassette players, radio tuners and other audio systems. With regard to DATs, a subcode W1 of the main ID (identification) of the main data area can be used to deliver an emphasis signal. For analog systems such as cassettes, tape players and radio tuners, the reproduced signal does not contain a signal that could be used to decide whether or not the reproduced signal has a pre-emphasis frequency response. Then an emphasis signal can be added, for example, by a microcomputer when analog signals from playback devices or radio devices are converted into digital signals. Replacing the input / output characteristic of the amplifier 1 with that of FIG. 9 makes it possible for the above-described embodiments to be used as a limiter, while by replacing the input / output characteristic of the amplifier 1 with the characteristic after Fig. 1 a stretcher is created. In Figs. 10 and 11, the upward portions illustrate the increase in the gain, while the downward portions indicate a decrease in the gain.

A signal processing circuit for an audio device has a de-emphasis section and an emphasis detector. The Emphasis detector generates an emphasis signal indicating that an audio signal has a frequency response with preemphasis applied Has. The de-emphasis section causes de-emphasis  to an audio input signal and generates an audio signal with Deemphasis used when the emphasis signal is fed to him becomes.

Claims (8)

1. Signal processing circuit for audio equipment, characterized by an emphasis detector ( 5 ) for emitting an emphasis signal, which indicates that a first signal has a frequency response with preemphasis applied, and by a de-emphasis section ( 3 ) for applying the de-emphasis the first signal for outputting a second signal with deemphasis applied with respect to the second signal when the emphasis signal is supplied to it. 2. Signal processing circuit according to claim 1, characterized in that an input level detector ( 4 ) is provided for detecting a level of the second signal in order to emit a control signal which is indicative of the level of the second signal, and that an amplifier ( 1 ) with variable Gain or gain factor is arranged to amplify the first signal, the gain of the amplifier being controlled in accordance with the control signal. 3. Signal processing circuit according to claim 1, characterized in that an input level detector ( 1 ) is provided for detecting the level of the second signal to generate a control signal which is indicative of the level of the second signal, and that an amplifier ( 1 ) with variable gain factor for amplifying the second signal is arranged, the gain of the amplifier ( 1 ) being controlled in accordance with the control signal. 4. Signal processing circuit according to claim 2, characterized in that the input level detector ( 4 ) contains an equalizer. 5. Signal processing circuit according to claim 4, characterized in that the equalizer detects low-frequency components of the output signal of the de-emphasis section ( 3 ). 6. signal processing circuit according to claim 1, characterized in that an indicator for reception and is provided for displaying the second signal. 7. Signal processing circuit according to claim 6, characterized in that the indicator is a level meter ( 7 ) for displaying the level of the second signal. 8. Signal processing circuit according to claim 6, characterized in that the indicator is a spectrum analyzer ( 7 ) to display the spectrum of the second signal.