NL9300185A - Audio device with a remote control unit provided with a microphone, and a remote control unit for use in the audio device - Google Patents

Abstract

Audio device provided with an acoustic reproduction device for conversion of an electrical sound signal into sound, a base unit to generate the sound signal and to set parameters of the sound in response to control signals, a remote-control system for remote operation of the base unit, comprising a remote-control unit. The remote-control unit is provided with a microphone device to convert the sound into an electrical microphone signal, and the remote-control system is provided with a control-signal generator to process at least one control signal from the control signals in response to the microphone signal. The microphone device in the remote- control unit offers the facility to measure one or more parameters of the sound, such as the volume, balance and frequency characteristic, at the listener's location and to return the results of this measurement to the base unit, where it can be corrected for possible parameter modifications.

Description

Audio device with a remote control unit provided with a microphone, as well as a remote control unit for use in the audio device

The invention relates to an audio device comprising: an acoustic display device for converting an electrical sound signal into sound, a basic unit for generating the sound signal and for setting parameters of the sound in response to control signals, a remote control system for remote control of the base unit, comprising a remote control unit.

The invention also relates to a remote control unit for use in the audio device.

Such an audio device is generally used in, inter alia, audio, video and HiFi systems. The acoustic display direction generally consists of one or more loudspeakers that are fixedly arranged. The base unit provides' the speakers with sound signals which are converted into sound by the speakers.

In the base unit, the parameters of the sound can be set using the control signals that can be varied on the base unit and / or with the remote control system. Parameters here are understood to be a complex of quantities that influence the sound perception by the listener of the sound. Such parameters are for example: volume, loudness, balance, stereo width, frequency response and reverberation. In the known systems, usually only part of the parameters mentioned can be influenced, for example only volume, balance and frequency characteristic. In other systems, only part of the parameters can be controlled with the remote control system, for example, only volume, while the remaining parameters can be set on the base unit. Anyway, after the listener sets everything to his liking, he takes a seat somewhere and listens to the sound. Should he now sit a little further away from the speakers, the sound will be softer and the listener will correct for this by increasing the volume with an appropriate button on the remote control unit. To the extent that there are buttons on the remote control, the listener can correct for changes in his perception of sound without moving. If this is not the case, for example with a base unit with an extensive tone control with many settings (equalizer), the listener will have to walk towards the base unit each time to correct the sound. However, the listener is not currently in the position where the sound should sound to your liking. With complex settings, such as frequency response and reverberation, the listener has to walk back and forth several times to find the desired settings. However, having to intervene is also annoying with changes in the sound perception that are relatively easy to correct on the remote control unit, such as, for example, the volume setting. This is the case, for example, when switching radio or television stations with different sound volumes. Every time the listener has to correct the volume to maintain the desired volume.

The object of the invention is to provide an audio device in which the sound perception of the listener changes less due to changing circumstances.

According to the invention, an audio device of the type mentioned in the opening paragraph is characterized for this purpose in that the remote control unit is provided with a microphone device for converting the sound into an electric microphone signal, and in that the remote control system is provided with a control signal generator generating at least one control signal of the control signals in response to the microphone signal.

By installing the microphone device it is possible to measure the sound as experienced at the listening position of the listener. After all, the listener has placed the remote control unit in his hands or close to him. The measured sound can be used to intervene in the parameters settings in the base unit. To this end, one or more control signals are derived from the microphone signal in the control signal generator and supplied to the base unit; For example, if the listener now switches from one station to another, or if the listener changes the listening position, the new sound volume is measured by the microphone device and the control signal generator then generates a control signal that is a measure of the new volume. This makes it possible to change the volume until the new volume is equal to the desired volume again. All parameter settings that are present in the base unit can basically be influenced in this way.

A first embodiment of an audio device according to the invention is characterized in that the control signal generator is included in the base unit, the remote control unit is provided with a transmitter for transmitting the microphone signal to the base unit, and the base unit is provided with a receiver for receiving the microphone signal sent by the transmitter.

The microphone signal is sent from the remote control unit to the base unit. Further processing of the microphone signal takes place in the base unit. This allows the remote control unit to remain simple.

A second embodiment of an audio device according to the invention is characterized in that the control signal generator is included in the remote control unit, the remote control unit is provided with a transmitter for transmitting the at least one control signal to the base unit, and the base unit is provided with a receiver for reception of at least one control signal sent by the transmitter.

In this second embodiment, one or more control signals are sent from the remote control unit to the base unit. A further simplification and / or saving of parts can be obtained with a third embodiment of an audio device according to the invention, characterized in that the transmitter is the same as a transmitter already present in the remote control unit for remote control of the base unit or because the receiver is the same as a receiver already present in the base unit for remote operation of the base unit.

This is particularly advantageous in the aforementioned second embodiment. The control signals can then be sent to the base unit via the same transmission channel and with the same encoding method as those used for the existing remote control unit settings.

The extent to and the way in which the parameter settings present in the base unit can be influenced depend on the capabilities of the base unit and / or the remote control system. A multifunctional and flexible influence is possible with a fourth embodiment of an audio device according to the invention, characterized in that the audio device is provided with a control signal processor for processing the at least one control signal of the control signals and for supplying a set processed control signals, each of which is a function of at least one of the control signals. The plurality of control signals generated by the control signal generator in response to the microphone signal are supplied to a control signal processor which performs complex processing on the control signals and generates a set of processed control signals which are a function of one or more control signals. The processed control signals then change the volume, balance, frequency response, reverb, and the like, until the listener's perception of sound is equal to the desired one again. It is thus possible, for example, to keep the loudness of the sound constant at the listening position of the listener. The loudness depends not only on the volume, but also on the frequency of the sound. Thus, loudness control is a combined control of volume and frequency characteristic performed by the control signal processor.

A remote control unit for use in an audio device with a remote control system for remote control of the audio device is characterized according to the invention, in that the remote control unit is provided with a microphone device for converting sound into an electric microphone signal, which microphone signal is means of the remote control system is operatively coupled to an input of the control signal generator, which in response to the microphone signal generates a control signal for setting a parameter of the sound.

This achieves better light sensitivity in the microphone device of the remote control unit. Sounds that do not come directly from the acoustic display are then less disturbing in maintaining and / or adjusting the desired sound perception of the listener.

These and other aspects of the invention will be described and explained with reference to the accompanying drawing, in which figure 1 shows an audio device according to the invention, figures 2A, 2B and 2C show alternative embodiments of a remote control unit for use in an audio device according to the invention, figure 3 shows a block diagram of a basic unit for use in an audio device according to the invention, figure 4 shows a circuit for use in an audio device according to the invention, figure 5 shows a block diagram of a part of an embodiment of an audio device according to the invention and figure 6 shows an embodiment of a remote control unit for use in an audio device according to the invention.

In these figures, parts or elements with the same function or meaning have like reference characters.

Figure 1 shows an audio device according to the invention. The device comprises an acoustic display device, which for example consists of two loudspeakers 10, a base unit 12 which supplies the loudspeakers 10 with an electric sound signal SS and a remote control system with a remote control unit 14 provided with a transmitter 16, with which commands are sent. can be sent to the base unit 12 and with a receiver 18 on the base unit 12 to receive the commands. The listener 20 can thus operate a number of functions remotely, such as signal source selection, volume, balance, tone control, etc. with buttons of a command unit 22. The transmission from the transmitter 16 to the receiver 18 takes place wirelessly with infrared light, but any other transmission system can also be used. The device can be part of any other audio or video system that produces sound. The remote control unit 14 includes a microphone device 24 that receives the sound from the speakers 10 and converts it into an electrical microphone signal MS, as shown in Figure 2A. The microphone signal MS is transmitted with a transmitter 26 to a receiver 28 located on the base unit 12.

Figure 3 shows a block diagram of the base unit 12. The speakers 10 receive the audio signal SS from amplifiers 30 which in turn receive signal from an audio signal processor 32. In the audio signal processor 32, the audio signal AS is processed into functional units 34, each of which is a parameter of influence the sound, such as volume, loudness, balance, stereo width, treble, bass, frequency characteristic with splitting into several frequency bands (equalizer), reverb, etc. To make the invention work, a simple audio signal processor 32 with only one functional unit 34 is already sufficient, for example for adjusting the volume. Each of the functional units 34 affects a parameter in response to a processed control signal PCS, which is provided by a control signal processor 36 which receives control signals CS from an interface 38. The interface 38 receives information from controllers on the base unit itself (these are not and / or from the receiver 18. The base unit 12 is further provided with a control signal generator 40 which receives the microphone signal MS from the receiver 28. The control signal generator 40 generates one or more control signals CS in response to the microphone signal MS. A simple control signal generator could consist of a level detector that converts the microphone signal MS into a control signal CS which is a measure of the amplitude of the microphone signal MS.

The reception of the microphone signal MS on the base unit 12 now makes it possible to make a correction to the settings of the parameters of the sound. To this end, the control signals CS produced by the control signal generator 40 are also supplied to the control signal processor 36 and processed in such a way that any parameter change is canceled out. Such a parameter change can for instance again be a volume change at the location of the listener 20. This volume change occurs, for example, when the listener 20 chooses a different listening position, or when the listener 20 switches from one signal source to another. The volume change is reported with the microphone device 24 on the remote control unit 14 to the base unit 12, where correction can be made. In this way it is possible to correct for a complex of parameters, as far as the audio signal processor 32, the control signal processor 36 and the control signal generator 40 allow. For example, a loudness correction requires an interaction between a volume control and a tone control. Acoustics correction requires complex control based on a spectral analysis of the audio signal AS and the microphone signal MS.

Figure 2 shows in Figures 2B and 2C variants of the operating unit 14. In Figure 2B, the control signal generator 40 is accommodated in the remote control unit 14. No microphone signal MS is now sent, but one or more control signals CS to the base unit 12. The control signal unit 40 in the base unit 12 can then be omitted. The transmitters 16 and 26 in the operating unit 14 can, if desired, be combined into one transmitter 16. This is shown in figure 2C. The same is possible with receivers 18 and 28 on the base unit. The configuration of Fig. 2C furthermore makes it possible to combine some or all of the control signals CS of the control signal generator 40 with corresponding signals generated by the command unit 22 already present, for example with volume correction.

Since there may be several listeners with different preferences, each of whom may or will take different listening positions, it is advantageous that the relevant control signals CS generated by the control signal generator 40 in response to the microphone signal MS can be stored and recalled. Figure 4 shows how this can be realized for two preferences for one control signal CS. In a comparator 42, the control signal CS is compared with a reference REF, which is connected with a selector switch 48 to the output of a first memory 44 or of a second memory 46. The control signal CS is read into the memories 44 and 46 with respective sampling switches 50 and 52 for a sampling period to be activated by the listener. The comparator 42 now supplies a control signal such that the actual value of the control signal CS becomes substantially equal to the reference value REF. With more preferences and / or control signals, correspondingly more memories and / or comparators must be used. In this way it becomes possible to save the values of the control signals. The listener is thus able to save and recall one or more presets. These preference settings can refer to settings for different listening positions, different listeners, different types of sound sources (for example, music or speech) or a combination thereof.

Determining the reference values is usually a matter of the listener's personal preference. However, it becomes more difficult if the listener is allowed to vary the frequency response and the reverberation of the listening room. In order to assist the listener 20 in choosing the reference values of the various control signals CS, the device may include a test signal generator 54 housed in the base unit 12. The test signal generator 54 supplies a test sound signal TS to the speakers during the aforementioned sampling period. 10. The test signal TS may optionally be fed directly to the amplifiers 30 or through the audio signal processor 32. Various test signals are usable. Noise bands, white noise, rose noise and impulsive clicks. For example, the audio signal processor 32 can be used to make white noise pink noise or noise bands. During testing, the reference values associated with an ideal sound perception of the test signal at the listening position are recorded. The microphone signal is compared with the test signal and any deviations are corrected in the base unit. The control signal values found thereby are stored and subsequently function as reference values.

Figure 5 shows an example where a relatively simple control signal generator 40 is housed in the remote control unit 14. The test signal generator 54 generates a test signal TS to the loudspeaker 10 through the amplifier 30. The test signal TS is, for example, white or pink noise. The microphone device 24 converts the received noise into the microphone signal MS, which is analyzed in the control signal generator 40 and converted into the control signal CS. The transmitter 26 sends the control signal CS to the base unit. The control signal unit 40 includes a band filter 56 with adjustable central frequency and a level detector 58. During the test period, the central frequency is changed in steps and the signal level associated with the frequency band is measured in the level detector 58 and sent to the base unit 12. In the base unit 12 functional units 34 (equalizer) corresponding to the received control signals are then adjusted such that the sound received by the microphone device 24 has the same frequency spectrum as the test signal TS.

Figure 6 shows an operating unit 14 in which the microphone device 24 is designed as a system of juxtaposed microphones 24A, 24B, 24C and 24D, the main sensitivity axes of which can be directed to the sound source. With this, a better directivity can be obtained by combining the individual microphone signals. An improvement in directivity can also be achieved with further microphones 24E, 24F and 24G, whose main sensitivity axes are turned away from the sound source.

The operating unit 14 may further comprise a system of transmitters 26A, 26B which together have a better bundled direction characteristic. If desired, a more reliable transmission of the microphone signal MS to the receiver 28 can be achieved with this.

Claims (10)

Audio device comprising: an acoustic display device (10) for converting an electrical sound signal (SS) into sound, a base unit (12) for generating the sound signal (SS) and for setting parameters (34) of the sound in response to control signals (CS), a remote control system for remotely controlling the base unit (12), comprising a remote control unit (14), characterized in that the remote control unit (12) is provided with a conversion microphone (24) of the sound in an electrical microphone signal (MS), and that the remote control system includes a control signal generator (40) for generating at least one control signal (CS) from the control signals (CS) in response to the microphone signal (MS). Audio device according to claim 1, characterized in that the control signal generator (40) is included in the base unit (12), the remote control unit (14) is provided with a transmitter (26) for transmitting the microphone signal (MS) to the base unit (12), and the base unit (12) is provided with a receiver (28) for receiving the microphone signal (MS) transmitted by the transmitter (26). Audio device according to claim 1, characterized in that the control signal generator (40) is included in the remote control unit (14), the remote control unit (14) is provided with a transmitter (26) for transmitting the at least one control signal (CS ) to the base unit (12), and the base unit (12) includes a receiver (28) for receiving the at least one control signal (CS) sent by the transmitter (26). Audio device according to claim 2 or 3, characterized in that the transmitter (26) is the same as a transmitter (16) already present in the remote control unit (14) for remote control of the base unit (12). Audio device according to claim 2 or 3, characterized in that the receiver (28) is the same as a receiver (18) already present in the base unit (12) for remote operation of the base unit (12). Audio device according to claim 1, 2, 3, 4 or 5, characterized in that the audio device is provided with a control signal processor (36) for processing the at least one control signal (CS) of the control signals and for delivery of a set of processed control signals (PCS), each of which is a function of at least one of the control signals (CS). Remote control unit for use in an audio device with a remote control system for remote control of the audio device, characterized in that the remote control unit (12) is provided with a microphone device (24) for converting sound into an electric microphone signal (MS), which microphone signal (MS) is operatively coupled by the remote control system to an input of the control signal generator (40), which in response to the microphone signal (MS) generates a control signal (CS) for the purpose of setting a parameter of the sound. Remote control unit according to claim 7, characterized in that the control signal generator (40) is included in the remote control unit (14) and the remote control unit (14) is provided with a transmitter (26) for transmission of the control signal (CS). Remote control unit according to claim 7 or 8, characterized in that the transmitter (26) is the same as a transmitter (16) already present in the remote control unit (14) for remote control of the audio system. Remote control unit according to claim 7, 8 or 9, characterized in that the microphone device (24) is designed as a system of at least one microphones arranged side by side (24A, 24B, 24C, 24D).