DE1934683C3 - Structure-borne noise microphone - Google Patents

Description

to make the same amount according to the amount. For this purpose, the compensation converter system 7 is dimensioned so that that it delivers a larger interference voltage amplitude than the electroacoustic transducer systemi. In this Fall can be the magnetic flux through the air gap, for example can be reduced by a magnetic shunt 7.5 so far that the amplitudes are equal to the interference voltage supplied by the systems.

Figure 3 shows a plan view of the compensation converter system7, after its membrane has been removed. The core pole shoe is at 73, the Air gap with 7.2, the ring pole shoe with 7.4. The oscillating pallet 7.1 hangs on the two supports 6, which, as described, are also used as electrical connection lines. In the area of between the supports is with ferromagnetic material 7.5, which is around the pivot point 7.6 is pivotable, a magnetic shunt between the ring pole piece 7.4 and the core pole piece 7.3 produced With it the magnetic flux in the air gap can then be set so that the interference voltage supplied by the system 7 corresponds to the value of the interference voltage of system 1 corresponds. This setting option is one of many. For example, the Magnetic flux in the air gap is also regulated by an additionally adjustable magnetic series resistor or it is possible to use the connection lines between the systems 1 and 7 to place a variable resistor 10, as shown in Figure 4. The other names of these Figures correspond to A b b. 2.

1 sheet of drawings

Claims (2)

1 2 sequence, and the microphone provides a very large interference claims; voltage, in order to eliminate this disadvantage, one must either use a mechanical steaming 1. Dynamic microphone with an in one link dampen the resonance frequency or it very much Holding device, for example a microphone, well below the deepest of the microphone housing to be recorded, such an elastically fastened electro- mous usable frequency. For both cases are bisacoustic Converter that this is known in the direction of the only unsatisfactory solutions that Verticals resilient to the membrane plane are also very expensive to manufacture. the able to carry out movements, thereby- Invention is based on the object to characterize this ScVvie, that a second dynamic io skills in microphones of the type mentioned Converter system (7) as a compensation converter system to be eliminated with relatively little effort is provided on which the relative movements. between the electroacoustic transducer This task is performed by the patent application and the holding device act in that claim 1 specified invention is solved, its coil (7JL) with the electroacoustic 15 are expedient embodiments of the invention Converter system (1) and see permanent magnet with the dependent claims, the microphone housing (3) or vice versa. The A b b. 1 to 4 are intended to explain the invention, are mechanically connected, and that the coil (7.1) Fig. 1 shows schematically the A '.; fbaii of a this second transducer system in the way in microphones. With 1 a dynamic converter is sym- Series izes the vvn the membrane driven ao. His membrane is labeled 1.1, his Coil (1.2) is connected that the ReIa voice coil with 1. 2. This converter system forms tive movements in both dynamic transducers - with the volume 2 a mechanical unit. This systems generated interference voltages grain unit is resiliently suspended in the converter housing 3, retire. The suspension is symbolized by the spring spider 4 2. Dynamic microphone according to claim 1, »5 siert. The guide ring 5 is used to guide the media marked that the coil of the mechanical unit 1 and 2 in the housing 3. It is a compensation converter system with a capacity (9), for example, at the same time as mechanical damping is bridged. the mechanical resonance frequency uses this 3. Dynamic microphone according to claim 1 is defined by the masses 1 and 2 as well as the Fe or 2, characterized in that the second 30 derkraft of 4. The transducer system is a pressure gradient dynamic transducer system (7) through its converter. The front and the back of the permanent magnet system and / or ute Spulenwick- membrane of the transducer system is dimensioned so via the openings 3.1, that} ei the relative gehäuses3 in a known manner to the sound field anbewegungen of elektröakustischen converter overall coupled Thereby the Volumes of the magnet opposite the holding device of this wall system and the volume 2 and the free volume lersysicm supplied Sicrspamning is greater than from 3 used in a known manner for phase rotation using the electroacoustic transducer (1) supplied. The spider 4 is present with the mechanical unit interference voltage and the setting means (7.5; 10) connected to 1 and 2 by at least two idols 6, dynamic transducer system (7). In the example shown, these are the ones, for example a magnetic secondary 40 voice coil 7 of the compensation transducer system 7. scbluß (7.5) to the air gap, a magnetic friction The supports 6 also serve as an electrical series resistance in the magnetic circuit, a voltage circuit for the voice coil 7.1. The voltage divider or a series resistor (10) in the voice coil 7.1 is freely movable in a known manner in the air gap of the coil of this system around the 7.2. The air gap is covered by the second dynamic transducer system 45 core pole piece 7.3 and the ring pole piece 7.4 to the amount that is bordered by the electro-acoustic. At the lower end of the microphone housing, the interference voltage supplied by the converter is reduced to reduce the plug part for the microphone connection lines 8. indicated. The connecting lines 8 are in the example shown between the compensation 50 wafdlersystem 7 and the inner wall of the microphone - Housing 3 guided through the spider 4 into the volume 2. In it, the voice coil 1.2 of the electroacoustic transducer 1 and the voice coil 7.1 The invention relates to a dynamic microphone of the compensation converter system 7 in the manner • lit one interconnected in a holding device, for example 35, that the vibrating coil in a microphone housing, so elastrically attached len of the two transducer systems generated interference • Electroacoustic transducers that compensate each other in the direction of the voltages. The Fig. 2 shows the circuit principle. The GE-. able to carry out. Mutual polarity of the voice coils is known from the electroacoustic transducer 60 symbols + and - indicated. Since the voice coil I microphones resiliently in the microphone housing 1.2 additionally the low frequency of the electroaku _w . In order to make it insensitive to the inclusion of static transducers, it is expedient to make the riLbodyerschail. Such an arrangement voice coil 7.1 of the compensation converter 7 is bridged with a capacitance 9 in the area above the mechanical resostems 7, in order to reduce the low frequency which occurs on the frequency of the resilient suspension. to reduce frequency losses,
stimulated by a shock, it oscillates