DE857208C - Telephone equipment - Google Patents

Description

Telephone equipment The subject of the invention is a telephone equipment with a microphone with a transmission reference attenuation less than + i Neper, in particular a microphone. The aim of the invention is to dimension the telephone equipment so that that in the position of use the microphone to lie at one point of the sound field comes to which the use of little damped ,, d. h .. sensitive microphones is possible without special precautions against distortion.

A favorable sound utilization and a relatively low directional dependency can be achieved in a telephone system if a sensitive microphone, ie a microphone with low Sen@debezu.gsdampening close to the mouth is discussed. The implementation of this requirement, when using sensitive microphones discussed at close range, is opposed to the difficulty that distortions occur as a result of overloading and, in order to reduce this, the microphone must be made less sensitive again so that the desired sound field utilization and directional insensitivity are not achieved. It is known for its use. of handsets in noisy rooms this should be dimensioned so that in the normal position of use of the handset, d. H. When the device is held in such a way that the earpiece is fully centered on the ear and the surface of the microphone diaphragm intersects the incision plane of the mouth, the microphone comes to lie laterally in the immediate vicinity of the mouth and its diaphragm surface is parallel to the direction of speech, with one for For this transmission purpose a particularly attenuated, ie bounce-free microphone with straight frequency characteristics is used. This arrangement is intended to avoid distortions in spite of the close discussion through which the speech is raised above the interference level. A microphone suitable for speaking in noise with a straight frequency characteristic has a higher transmission reference damping and thus a lower useful sound transmission capability urjd greater directional sensitivity than a conventional one, e.g. B. a post microphone, so that the known device is not suitable for the purposes here.

But it has now been shown that the sound field of language areas has different working conditions for microphones, of which a certain Use normal or sensitive microphones near the Mouth without special precautions to minimize distortion. This new knowledge is based on the invention by the telephone device is dimensioned so that the microphone is used in: an area of the sound field is on the mouth, which is due to the optimum between the greatest possible sound pressure and 'The smallest possible mean constant pressure peaks of the language are given. At this The places of the sound field are those resulting from the consonant sounds of the language impulse, like constant pressure components already so small that they are a noticeable disturbance can no longer evoke. Those essentially derived from the vowels Alternating pressure components at this point are larger than in an area of the Sound field into which z. B. in the known post microphones to lie the microphone comes.

Relatively undamped, direction-insensitive ones can therefore also be used at this point and microphones that make good use of the sound field, d. H. those with a low stimulus threshold, be used. In addition, this area is also in terms of percentages Precipitation of moisture particularly favorable.

Appropriately, the telephone equipment can be dimensioned in such a way that that the microphone is in use on the side of the center of the mouth near the mouth opening on the one The point of the sound field is at which .the mean constant pressure peaks of the Language at most as large as the mean alternating pressure peaks at this point are. With the microphone in this position, the handset is short and the sound is applied The microphone -I membrane is particularly cheap considering the bouncing phenomena.

In an embodiment of the invention, the telephone device can be used as a microphone be constructed so that the one closest to the mouth in the position of use Point of the microphone from the axis of the critical one extending in the direction of speech Equal pressure area at least around the radius of this area and from the center of the mouth at most by three times the radius and the plane of the membrane or the The microphone is inclined to the direction of speech by more than i5 °. Through this the entire microphone is certainly outside the range of the disturbing However, to be equal pressure components remains close enough to the mouth and is so close to it Direction of speech that a good utilization of the sound field is guaranteed.

The information regarding the position of the microphone in relation to the user's mouth relate to that determined by the known series examinations Average head size.

In the following the subject matter of the invention is described and in the Drawing shown. It means Fig. I a diagram for the, course of the equal and Alternating pressure spikes as a function of the distance between the mouths, FIG. 2 shows a diagram for the Percentage of moisture precipitation: as a function of the distance between the mouths, Fig. 3 a diagram for the optimal distribution of the alternating pressure peaks and the humidity, 4 shows a handset according to the invention. In Fig. I, the ordinate is the Sound pressure in, u-bar and on the abscissa the distance (in the incision plane of the mouth) of the microphone from the center of the mouth in centimeters. The simple one Solid curve a shows the course of the mean constant pressure peaks as a function from the distance of the microphone in the direction perpendicular to the mouth opening. The simple one Solid curve b shows the course of the mean constant pressure peaks as a function from the position of the microphone laterally to the center of the mouth. The double curve c represents the Change in the scatter range of the mean alternating pressure peak when shifting of the microphone perpendicular to the mouth opening and the double curve d the change in this Scatter area when the microphone is shifted sideways to the center of the mouth. Like from the As can be seen in the diagram, the values for the constant pressure peaks decrease with increasing distance when moving the microphone sideways from the center of the mouth much faster than when moving the microphone perpendicular to the mouth opening, while in the distance area from 1 to 5 cm the drop in the scatter range for the alternating pressure peaks when shifting of the microphone perpendicular to the mouth opening is only slightly larger than when it was moved laterally to the middle of the mouth. This means that the microphone is also a little attenuated can be discussed close to the mouth, if only enough laterally from the center of the mouth, where it is outside of the dangerous for the distortion The area of the constant pressure peaks. But there is the lateral shift to keep the microphone small in order to utilize the sound field as much as possible or the mean alternating pressure peaks. At about 1 cm distance vertically from the: wound opening and 1.5 cm to the side from the center of the mouth is the The constant pressure peak value has fallen to the alternating pressure peak value.

If you discuss an ordinary coal semolina, microphone, e.g. B. at temperatures below + 18 ° C, at a short distance from the mouth, one becomes as a result of the influence Due to the moisture deposited on the coal grit, you can expect malfunctions have to. These malfunctions are relatively minor if the microphone is arranged in the aforementioned area. This is evident from FIG. 2. There is relative to the ordinate of the moisture precipitation plotted as a percentage at a distance of 1 cm from the center of the mouth and the distance from the microphone on the abscissa from the center of the mouth. The curve e represents the decrease in the percentage of moisture precipitation with increasing distance when the microphone moves perpendicular to the mouth opening will. The curve f represents the decrease in the percentage of moisture precipitation when the microphone is moved sideways towards the center of the mouth, both movements be made in the incision plane of the mouth.

From Fig. 2 it can be seen that when the microphone is shifted to the side from the middle of the mouth the expected moisture precipitation decreases faster than with movements perpendicular to the mouth opening.

This results in an optimal area for the microphone in the sound field of the languages both with regard to the best possible sound utilization and the lowest possible Override as well as with reference to the lowest possible moisture precipitation.

The optimal range is shown in Fig. 3. On the ordinate is here the distance of the microphone perpendicular to the mouth opening and on the abscissa of the The distance between the microphone and the center of the mouth is entered in centimeters. In that way The resulting field is the punctiform distribution of alternating pressure peaks and moisture precipitation entered in the mouth incision level in percentage values. That hatched Field indicates the critical constant pressure peak area. The sloping, Strong solid line g Limits the area in front of the mouth, which is for normal Telephone microphones, d. H. Little muffled microphones, with consideration of the overload; efahr should not be used. The optimal area for the meeting more sensitive Telephone microphones, d. H. of microphones of less than + i Nel) er transmission reference loss, is bounded by the stepped line lc. Is z. B. a microphone perpendicular to the The mouth opening is arranged at a distance of 2 cm, so that the alternating pressure peaks are used P of 46% and a moisture precipitation F of 70%. The microphone would be in: Area of the dangerous constant pressure peaks. At a distance of i cm vertically to the mouth opening and 2 cm to the side of the mouth opening results in utilization of the Alternating pressure peaks P of 96% and moisture precipitation F of 25%. This However, the area is still endangered by the constant pressure peaks. One arranges on the other hand, the microphone at a distance of about 2 cm vertically from the center of the mouth and roughly A distance of 2 cm laterally from the center of the mouth results in a 40% utilization the alternating pressure peaks and only one i80 / own moisture precipitation. One but even better utilization of the pressure peaks results in the field which at a distance of 1 cm perpendicular to the mouth opening and at a distance of 3 cm laterally from the center of the mouth is where a 45% utilization of the alternating pressure peaks is possible and only with one 14% moisture precipitation is to be expected and where the microphone is with certainty is out of the area of the dangerous constant pressure peaks.

If the telephone device is designed as a handset, then these are best sized as shown in FIG. 4. In Fig. 4 are the normal through which known series measurements recorded head sizes obtained, namely the distance A from the middle of the ear 2 to the middle of the mouth M with 135 mm and the angle a between this connecting line to the plane of the ear at 24 °. The line C is the boundary edge of one through the middle of the ear and head cut through the middle of the mouth. The width of the mouth is included indicated by the line D. The microphone i is designed so that l; ei more normal Position of use, d. H. with the receiver 3 fully seated in the center and cutting the incision plane of the mouth through the membrane surface of microphone 5, point 4 of microphone 5, which is closest to the center of the mouth M in the position of use, a distance B from the axis of the critical constant pressure area, which is in the direction of speech S extends, which is larger than the radius R of this constant pressure area and from the center of the mouth M by at most three times the radius R of the critical one Equal pressure area is removed. The range given by the two sizes is indicated in Figure 4 by hatching. The plane of the membrane is or the speech of the microphone to the direction of speech S by an angle ß of more than .15 ° inclined.

In this version. when the handset is short, it uses the microphone the sound field emitted by the mouth is good and is close to the outside of the mouth the dangerous constant pressure peak area. Special precautions against distortion due to the constant pressure peaks are not necessary, i. H. that even with this short one Handset no special microphone with high transmission reference attenuation has to be used. The relatively low transmission reference loss of the Microphone results with the location close to the mouth a favorable use of the sound field.

Claims (1)

PATENT CLAIMS: i. Telephone device with a microphone with a transmission reference attenuation smaller than i Neper, in particular a microphone, characterized in that the microphone is in use in an area of the sound field on the mouth, which is given by the optimum between the greatest possible sound pressure and the smallest possible mean constant pressure peaks of speech: z. Telephone device according to Claim i, characterized in that the microphone, when in use, is to the side of the center of the mouth near the mouth opening at that point of the sound field at which the mean constant pressure peaks of speech are at most as large as the mean alternating pressure peaks at this point. 3. Telephone device according to claim z, characterized in that the point (d) of the microphone (5) closest to the mouth in the position of use from the axis of the critical constant pressure area extending in the direction of speech (S) by at least the radius (R ) of this area and from the center of the mouth (M) is at most three times the radius (R) and the plane of the membrane or the microphone (5) is inclined to the direction of speech (S) by more than 15 °.