DE821219C - Directional microphone or loudspeaker arrangement - Google Patents

Description

Directional microphone or loudspeaker arrangement They are directional Microphone arrangements for the voice or music frequency band have been proposed, in which several vibrating elements lying in a row, e.g. B. membranes, form a receiver group in the manner of the straight radiator group, the length of which is at least is equal to half a wavelength of the lowest tones to be transmitted. In certain In some cases, however, the sound recording is still unsatisfactory.

The invention is based on the knowledge that linear frequency band distortions are used for this are responsible, which occur in particular when the sound source, z. B. a speaker moved close to the microphones. The sound source acts in in this case essentially only in the area of a single microphone and is from of the entire radiator group only imperfectly recorded. This occurs to a greater extent at the higher frequencies only because of their directional property get to the closest microphone, while naturally less sharply directed low frequencies are recorded jointly by all microphones and consequently be received more intensely. The higher frequencies are thus disadvantaged.

Corresponding loudspeaker arrangements have also been proposed, which consist of several loudspeakers in a row, which according to Art the straight radiator group work together. The invention relates in an analogous manner In this way too, because there were similar shortcomings as with the microphone arrangements observed.

According to the invention, the microphone or loudspeaker arrangement designed so that the low frequencies below a certain frequency, e.g. B. 8oo Ez, through the microphones interacting as a receiver or radiator group or speakers are recorded or radiated together and the higher Frequencies above the specific frequency - only from at least one single microphone or a loudspeaker, acted on by the means that the higher frequencies compared to the deep Frequencies at least approximately on the same Amplify the amount to which the low frequencies are generated by the interaction of the microphones or loudspeakers in the receiver or radiator group are amplified.

In this way, all frequencies of the voice or music frequency band can be used evenly picked up or even from sound sources in close proximity. be emitted accordingly in the loudspeaker group.

The amount of height gain for a single microphone or loudspeaker expediently depends on the number of microphones or loudspeakers in the Receiver or emitter group. When using a number of n microphones or According to the invention, loudspeakers are those on the individual microphone or on the loudspeaker acting means therefore expediently designed so that the higher frequencies acoustically amplified to n times the amount compared to the low frequencies will. In the case of the recipient or Radiator group are the low frequencies in the Main direction also reinforced n-fold. In a preferred embodiment of the invention, the means provided the single microphone or the loudspeaker, e.g. B. by using a funnel or mirror with an appropriately selected lower Cutoff frequency, with a directional effect, due to it being above the certain frequency the high frequencies in the main reception direction are amplified compared to the low frequencies will.

In certain cases it may be useful to use an electrical Only deviate the low frequencies from those that work together as a receiver or radiator group To let through microphones or loudspeakers to the common transmission channel and from the individual microphone or loudspeaker provided with the means for height amplification only the higher frequencies. The horizontal and / or the vertical directional characteristic of the single microphone or loudspeaker for the higher frequencies designed so that they are at least approximately with the corresponding Directional characteristics of the receiver or radiator group at the low frequencies to match.

The invention and related details are illustrated in Fig. i to 6, for example, explained for this case the use of microphone arrangements. The arrangement is analogous for loudspeaker arrangements.

In Fig.ia the arrangement is shown viewed from the front and in Fig. Ib from the side. On an acoustically ineffective carrier i, z. B. a rod or lath, are several, z. B. seven microphones 2 ... 8 arranged in a row one above the other. The single microphone 5 in the middle is provided with a funnel which is open on the sides and consists of a convex half-shell 9 located above and below the microphone 5. The microphones 2 ... 4 located above and the microphones 6 ... 8 below are in phase, e.g. B. parallel, interconnected in the manner of the straight radiator group and form the receiver group for recording the low frequencies below a certain frequency, e.g. B. 8oo Hz. The higher frequencies above 8oo Hz are only received by the single microphone 5, the funnel is dimensioned according to the invention so that its lower limit frequency is about Soo Hz. In the group of receivers with six microphones, the receiving voltage in the main receiving direction is increased to six times the amount compared to a single microphone, especially for the low frequencies. The funnel on the individual microphone 5 is correspondingly dimensioned so that it acoustically amplifies the higher frequencies in the main receiving direction to six times the amount compared to the lower frequencies. The frequency curve of the arrangement is then straight. In order to prevent the microphones belonging to the receiver group and intended for the low frequencies from also picking up the higher frequencies, an electrical crossover consisting of the capacitor C and the inductance L is provided for the frequency separation, the separation frequency of which is around 8oo Hz. The microphones 2 .. .4 and 6 ... 8 are connected to the crossover in such a way that only the low frequencies below 8oo Hz can get into the transmission channel or to the amplifier io. The individual microphone 5, on the other hand, is switched in such a way that it only transmits the higher frequencies above 800 Hz. The directional characteristic of the? N-likrophones connected to form the receiver group is club-shaped in the vertical plane and its maximum is perpendicular to the support i. The horizontal directional characteristic is wider, e.g. B. kidney-shaped. The funnel on the microphone 5 causes the same or approximately the same directional characteristics as in the group for the higher frequencies in the vertical and / or in the horizontal plane. The funnel shape shown with open sides from the two half-shells 9 is particularly suitable for this, since the sound is crowded together from above and below, while the recording is relatively uniform in width. Instead of the funnel, a correspondingly designed concave mirror can be used for microphone 5 or a narrow funnel as shown in Fig. 2 with a vertical opening. The microphones 2 ... 8 are optionally directed unilaterally, z. B. on the type of microphones with kidney-shaped characteristics, which have two membranes and work on the electrostatic principle.

In further embodiments of the invention, a predetermined one is not used Single microphone for recording the higher frequencies, but depending on the location of the Sound source a different microphone of the receiving group in each case. For this is the Arrangement according to the invention designed so that several, preferably all microphones the group, possibly with their mirrors or funnels, tnit their maxima symmetrical to the center fan-like at different angles of inclination are arranged. The microphones of one half of the group preferably show on one side and the other half on the opposite side. In this case, all the microphones are equipped with means for generating an ovarian stimulus the higher frequencies provided.

According to the invention, the same effect can also be achieved by that the microphones fan-like at different angles of inclination in a common cylindrical concave mirror, with their maxima pointing to itineti, are arranged.

Corresponding examples are shown in Fig. 3 and 4.

In Fig. 3 are on the carrier i several, z. B. seven concave mirrors ii attached, within which the microphones 2 ... 8 are arranged with their = maxima pointing inward. Their outputs are preferably connected in phase without the interposition of a switch and form a receiver group. The group directional effect occurs primarily only for the low frequencies, while other conditions exist to a certain extent for the higher frequencies due to their directional properties. According to the invention, the concave mirror ii are dimensioned so that they the microphones above the certain frequency, z. B. 8oo I-Iz, straighten more sharply than the deep. In the case of a single microphone, the high tones are amplified compared to the low tones in the maximum direction. The lower limit frequency of the mirrors is also here at around 8oo Hz.

The treble gain for a single microphone is roughly the same as that which is caused by the interaction of all microphones in the group for the low frequencies. The sound duels, even if they are close to the arrangement, are detected in their higher frequency range by the individual microphone that is particularly directed there. The rest: microphones do not pick up the higher frequencies. The mirror increases the height by about seven times the normal sensitivity of the microphone without a mirror. The low frequencies below 800 Hz are picked up by all microphones in the group due to their low directional properties and, in accordance with the group directional effect, are also amplified to seven times the amount compared to a single microphone. The frequency curve is thus straight in the entire frequency band. The low frequencies below the limit frequency of the mirror are not amplified with the single microphone, but only in the radiator group. In order to achieve the broad effect also for the higher frequencies in a suitable manner, the microphones 2 ... 8 with their mirrors ii are arranged symmetrically to the center, ie to an imaginary central plane running longitudinally through the carrier i, in a fan-like manner at different angles of inclination. The maximum microphone 5 in the middle points vertically forwards, while the microphones above the bar are rotated with an outward increasing angle to one side and those below the bar are rotated to the other side. Funnels can also be used in place of the mirror ii.

In the embodiment according to Fig. 4 -.> T a common cylindrical concave mirror 12 is used for all microphones 2 ... 8, within which the microphones are arranged in an analogous manner in a fan-like manner at different angles of inclination with their maxima pointing inwards. The partition walls are conveniently located in between. 13, which preferably serve as a support for the microphone holder 14. The concave mirror 12 is dimensioned so that it has a directivity in the microphones above the certain frequency of z. B. 8oo Hz generated and accordingly caused a gain in treble.

The invention is also applicable to more than two subdivisions of the audio frequency band and forwarding over separate electrical transmission channels applicable. An arrangement this type of triple subdivision is shown in Fig. 5, for example. On the outside of the carrier i on each side z. B. three microphones 15 each, which are interconnected to form a group for the bass channel. Inside lie on each side z. B. three microphones 16, a group for the middle channel of the frequency band, and in the middle the single microphone 17 with the funnel or mirror 18 for the high frequency channel. All three receiver systems are via electrical Switches interconnected. The dimensions of the elements are dynamic insofar as they are Microphones are used, expediently chosen so that the at the output terminals measured total internal resistance Z of the arrangement roughly equal to that of a single microphone is. It is then the connection to common amplifiers and transmission systems possible. The directivity in the three frequency bands is according to the rules of the invention set up. Provided that the microphone arrangement work essentially in the distance should, a straight carrier i is expediently used. When applied for close to it located sound sources, the carrier i is advantageously curved, z. B. circular arc or approximately circular, so that the outer and the middle Microphones in contrast to the straight group at least approximately the same distance from the sound source.

In Fig. 6 is the frequency response in the individual transmission channels shown that in cooperation the entire audio frequency band as a very good one Single microphone transmitted. T is the frequency curve of the low frequency group with the microphones 15, M that of the mid-range group with the microphones 16 and H of the tweeter microphone 17 with the funnel or mirror 18. With f, is the crossover frequency the crossover between the bass and treble groups. It is around 8oo to iooo Hz. The application of the invention to loudspeaker arrangements take the place of the appropriately trained microphones in the figures Speaker. The switches are then correspondingly at the amplifier output.

Claims (7)

PATENT CLAIMS: i. Directional microphone or loudspeaker arrangement in which several vibratory elements lying in a row, e.g. B. membranes of microphones or speakers, a receiver or radiator group form the type of straight radiator group, characterized by such a design that the low frequencies below a certain frequency, z. B. 8oo Hz, through the microphones or loudspeakers (2 ... 8) cooperating as a receiver or radiator group are recorded or emitted together and the higher frequencies above the certain frequency are only picked up by at least one individual microphone (5) or a leaf speaker act on the means that amplify the higher frequencies compared to the low at least approximately to the same amount to which the low frequencies are amplified by the interaction of all microphones or loudspeakers in the receiver or radiator group. 2. Arrangement according to claim i, characterized in that when using a number of n-microphones' or Loudspeakers (2 ... 8) in the receiver or radiator group, the means acting on the individual microphone or the loudspeaker amplify the higher frequencies to n times the amount compared to the lower frequencies. 3. Arrangement according to claim i or 2, characterized in that the means are the single microphone or the loudspeaker, z. B. by using a funnel or mirror, provided with a directional effect, which is designed in such a way that the higher frequencies above the certain frequency are amplified in the main reception direction compared to the low frequencies. 4th Arrangement according to one of Claims 1 to 3, characterized by one for the division of the audio frequency band on at least two electrical transmission channels electrical switch (L, C) between parts of the receiver or radiator group and the single microphone (5) or the loudspeaker and the output or input terminals. 5. Arrangement according to claim 4, characterized in that the electrical switch (L, C) only the low frequencies from or to the cooperating as a receiver or radiator group microphones (2 ... 4 and 6 ... 8) or Loudspeakers to or from the common amplifier channel lets through and at least one single microphone (5) or to the loudspeaker only the higher frequencies. 6. Arrangement according to one of the Claims i to 5, characterized in that the horizontal and / or vertical Directional characteristics of the single microphone or loudspeaker at higher frequencies, z. B. due to a suitable design of the mirror or funnel, at least approximately with the directional characteristics of the receiver or radiator group at low resp. match the middle frequencies. 7. Arrangement according to claim 6, characterized in that the funnel is open on the sides and consists of a convex half-shell (9) located above and below the individual microphone or the loudspeaker. B. Arrangement according to claim 6, characterized by a narrow funnel with an opening lying in the longitudinal direction of the receiver or radiator group. 9. Arrangement according to one of claims 3 to 8, characterized in that only the single microphone (5) or the loudspeaker located in the middle of the receiver or radiator group is provided with a funnel or mirror. ok Arrangement according to one of claims 3 to 6, characterized in that several, preferably all microphones (2 ... 8) or loudspeakers of the receiver or radiator group, optionally with their mirrors (ii) or funnels, with their maxima symmetrical to the Arranged in the middle like a fan at different angles of inclination, the microphones (2 ... 4) or loudspeakers of one half of the receiver or radiator group preferably to one side and the microphones (6 ... 8) or loudspeakers of the other half pointing to the opposite side. i i. Arrangement according to one of Claims i to io, characterized in that the microphones or loudspeakers are arranged on a curved support (i). 12. Arrangement according to one of claims 3 to 6, characterized in that several, preferably all microphones (2 ... 8) or loudspeakers of the receiver or radiator group are arranged in a fan-like manner at different angles of inclination in a common cylindrical concave mirror (12) . 13. The arrangement according to claim 12, characterized in that in the common concave mirror (12) between the microphones or loudspeakers partitions (13) are provided, which preferably serve as a carrier for the microphone or loudspeaker holder (14).