DE1252747B - - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. CI .:

H04b

German class: 21 a2 -16/01

Number: 1252 747

File number: S 98295 VIII a / 21 a2

Registration date: 19 July 196 5

Opening day: October 26, 1967

The invention relates to an electroacoustic transmission system containing a microphone and loudspeaker with feedback reduction through frequency shifting.

It is known that in an electroacoustic transmission system the acoustic feedback always starts when the sound coming from the loudspeaker determines the location of the microphone Conditions regarding frequency, phase and volume met. If these conditions are met, so the system begins to vibrate. Countermeasures against this acoustic feedback must therefore extend to influencing the system in such a way that the conditions just described are at least not met at the same time at the location of the microphone.

The simplest countermeasure is to decrease the volume. However, this also largely limits the use of the system, ao

It has therefore already become known to influence not the volume but the pitch or the phase in such a way that the start of the oscillation is postponed by feedback. In a known method, this is achieved in that all frequencies of the audio frequency band, that is to say of the signal to be transmitted, are raised by a certain small amount Δ f , so that the pitch is changed somewhat. One can also interpret this in such a way that the phase positions of the individual frequencies are in the rhythm of this small one. Rotate the frequency value continuously and thereby bring any triggered feedback to a standstill again and again. To generate this frequency conversion, relatively extensive devices are required, which can be constructed in the manner of carrier frequency devices. One could also think of using a rotary transformer that continuously rotates the phase to the rhythm of the low frequency Λ /. When using a rotary transformer of this type, it must primarily be fed two signals phase-shifted by 90 °, while on its secondary side the signal, which changes in frequency by the amount of the slip frequency Δf when the rotor is continuously rotated, is picked up with an amplitude that has remained constant.

Since the generation of two audio frequency bands offset from one another by 90 ° from the Signal is difficult, there is a need for an electroacoustic transmission system with Reduction of feedback through frequency control. Electroacoustic transmission system with feedback reduction through frequency shifting

Applicant:

Siemens Aktiengesellschaft, Berlin and Munich, Munich 2, Wittelsbacherplatz 2

Named as inventor:
DipL-Ing. Karl-Georg Schwarz, Oberweier via Karlsruhe

Displacement that does not require such a complicated facility.

To solve this problem, the invention proposes a transmission system with the identifier that to the microphone several channels, each with a loudspeaker and a multiplicative working modulator are connected and the modulators as modulation frequency alternating voltages with a frequency that is lower than the frequency of the signal to be transmitted mutual phase position are supplied that the sound field radiated jointly by the loudspeakers moves like a rotating field with the modulation frequency. . ·

In the invention, several speakers are combined into a speaker unit, the sound in the form of a. The rotating field. The number of revolutions of this rotating field replaces the frequency shift Δ j in the method described above. While in this method the frequency shift only takes place in one direction, in the invention the frequency / 1 to be transmitted is shifted both in the direction of higher and in the direction of lower frequencies. The frequency / 1 results in two new frequencies / 1 + Af and / 1 - Af. If only one cable, for example of a three-phase system, were considered, these two frequencies would result in a beat with A f. But there too. other channels of the transmission system have beats in the same way, there is a resultant

709 679/409

Sound field for all loudspeakers in the system, which has a constant amplitude.

The number of phases, i.e. H. the number of channels in the system, but not necessarily used up three to be limited. In principle, the invention can be with two channels and accordingly two Carry out correspondingly offset alternating voltages of low frequency. Also a larger number of channels can be used.

It is important, however, that the modulators work in the manner of a multiplicative mixture so that the modulated signal in the individual channels from a positive value via zero to a negative Value and vice versa.

The modulators can be implemented in various forms i, manner. For example, they can contain Hall generators known per se, whose Hall elements are supplied with the signal to be transmitted, whose magnetic field-generating coils are supplied with AC voltages and whose Hall a elements are used to pick up the multiplicatively modulated signals that form the input signals of the loudspeakers.

However, it is also possible to use continuously rotated goniometers or induction motors as modulators to use. In the latter case, the stator windings of the motor are connected to the input each connected to one of the speakers.

A particularly elegant solution provides for the use of electrodynamic loudspeakers, which at the same time in such a way that the modulators form that the voice coils of all loudspeakers together with the signal to be transmitted, on the other hand the excitation coils of the loudspeakers connected in a star or delta are fed separately with the alternating voltages of low frequency. So this is the Use of additional devices for the formation of the modulators superfluous.

The frequency of the alternating voltages should be as low as possible so that the frequency change occurs of the transmitted signal, if possible, is not noticeable physiologically. A frequency of a few Hertz, for example 3 to 5 Hz, be suitable for the alternating voltages.

The invention is explained in more detail below with reference to a few exemplary embodiments. It shows

F i g. 1 the principle of the transmission system according to the invention, while

2 shows a modulator containing a Hall generator,

F i g. 3 a system with an induction motor as a modulator and finally

• Fig. 4 shows a system with electrodynamic loudspeakers that also form the modulators is equipped.

In the Ubertragungsanlage of FIG. 1 passes coming from the microphone 1 to be transmitted with the frequency / 1 via the amplifier 2 in three channels I, II and III. These channels each lead to a loudspeaker 4, 5 and 6, which together f form a loudspeaker referred to as a rotary field loudspeaker. This notation is justified insofar as modulators 7, 8 and 9 are arranged in the individual channels I, II and II, which are fed by the three-phase generator 10 with phase-shifted alternating currents of the same frequency Δ j. This frequency can be 5 Hz, for example. Since it is a three-phase generator

is, the individual alternating currents are shifted by 120 ° in phase, so that the sound field generated by the loudspeaker arrangement 4, 5, 6 migrates around in the manner of a rotating field. The shift in the signal frequency in the individual channels is F i g. 1 can be found immediately.

The result of these measures is a sound field of constant strength that rotates at the frequency of the alternating voltage output by the generator 10 , d /.

F i g. 2 shows a modulator which is constructed in the manner of a Hall generator. In a known manner, it contains a magnetic circuit 20 which carries the windings 21 and 22 which generate the magnetic field on its central limbs. Furthermore, the Hall element 23 , to which the signal to be transmitted with the frequency / 1 is fed, is arranged in the gap between the central limbs of the magnetic circuit 20. The modulated frequency / 1 · A f is taken from the other terminals of the Hall element 23 , since the magnetic field of the coils 21 and 22 is generated by the alternating current of the frequency Δ f, which is again taken from a suitable generator. Such a Hall generator is provided in each channel.

In the transmission system according to FIG. 3 , the microphone is again designated with 1, the downstream amplifier with 2 and the loudspeakers with 4, 5 and 6 . For all channels I to III - in principle only two or more than three channels can be provided - the induction motor, generally designated 30 , serves as a modulator. The signal to be transmitted with the frequency / 1 is fed to its rotor 31 , and one of the loudspeakers 4, 5 and 6 is connected to each of its stator windings 32, 33 and 34. In this exemplary embodiment, the loudspeakers are star-connected.

F i g. Finally, FIG. 4 shows a further embodiment of the invention in which electrodynamic loudspeakers are used as loudspeakers 40, 41 and 42. The voice coils of all loudspeakers, not shown in detail, are fed jointly via the amplifier 2 from the microphone with the signals of frequency / 1 to be transmitted. In contrast, the excitation coils 43, 44 and 45 of the individual loudspeakers are fed separately via the individual phases of a three-phase three-phase system 46 in this exemplary embodiment. AC voltages of very low frequency, for example 5 Hz, which are phase-shifted by 120 ° with respect to one another, are fed to them. The advantage of the transmission system according to FIG. 4 is that no additional modulators have to be used, but that their task is taken over by the loudspeakers.

With the invention, an electroacoustic transmission system with protection against feedback phenomena is created, which avoids the primary supply of a rotary transformer with two audio frequency bands rotated by 90 ° in phase with one another. The original physiological impression can be maintained one can continue in the inventive Ubertragungsanlage the frequency shift Δ f optionally arbitrarily large or make any small, thereby postponing any feedback or use. The use of filters with steep slopes is also unnecessary.

Claims (6)

Patent claims: 1. Electroacoustic transmission system containing a microphone and loudspeaker with feedback reduction by frequency shift, characterized in that several channels each with a loudspeaker are connected to the microphone and a multiplicative modulator are connected and the modulators as the modulation frequency, alternating voltages with a relative to the frequency of the to the low frequency transmitted signal are fed in such mutual phase relationship, that the sound field radiated jointly by the loudspeakers is like a rotating field with the modulation frequency wanders. 2. Transmission system according to claim 1, characterized in that the modulators contain Hall generators known per se, the Hall elements of which the signal to be transmitted is fed to ao , the magnetic field-generating coils of which the alternating voltages are fed and the Hall elements of which the multiplicative modulo Herten signals are tapped, which form the input signal of the loudspeakers. 3. Transmission system according to claim 1, characterized in that the modulators are continuous are twisted goniometers. 4. Transmission system according to claim 1, characterized in that the modulators are formed by an induction motor, the stator windings with the input respectively one of the speakers are connected. 5. Transmission system according to claim 1, characterized in that electrodynamic Loudspeakers are provided, which at the same time form the modulators in such a way that the voice coils all loudspeakers together with the signal to be transmitted, on the other hand those in the star or Delta-connected excitation coils of the loudspeakers separated from the alternating voltages are fed at a low frequency. 6. Transmission system according to one of claims 1 to 5, characterized in that the Frequency of the alternating voltages is a few Hertz. 1 sheet of drawings 709 679/409 10. 67 © Biindesdruckerei Berlin