DE631784C - Series connection of a plurality of microphones with a common consumer - Google Patents

Description

The invention relates to electrical transmission arrangements in which a number of microphones and a common consumer are provided.
It is often desirable in such transmission arrangements to regulate the amount of electrical energy supplied by the individual microphones to the common consumer independently of one another.

An arrangement has already become known in which the amount of a single Recording device to a consumer device supplied with electrical energy With the help of an adjustable potentiometer can be regulated, which transversely to the receiving device lies. The consumer is also at right angles to an insertable part of the Potentiometer switched. It has also been suggested in such an arrangement to connect a resistor in series with the consumer, the value of which changes automatically, as soon as the tapping point of the potentiometer undergoes a change, so the impedance ratios of the circuits remain unchanged when the tapping point is changed.

An arrangement is also proposed in which a single microphone is connected to a number of consumers is. An adjustable potentiometer is also used here, which is positioned across the microphone lies. The consumers are also in series with resistors across the adjustable ones Parts of the potentiometer switched. The one in line with every consumer Resistance is set to the particular tap point of the potentiometer that is currently is connected to the relevant consumer, so that the impedance relationships of the arrangement do not change even if the tapping points of the potentiometer make a change Experienced.

The invention has set itself the task of creating an arrangement in which a consumer can be excited by a number of microphones, and the amount of energy coming from each microphone as desired can be changed without affecting the energy levels of the other microphones can be influenced in their nature or size.

The invention relates to a series connection of a plurality of microphones with a common consumer with a voltage divider parallel to each microphone, its sliding contact with the sliding contact of one meter of the common line for each microphone provided series resistor electrically

and is mechanically connected and in which the resistance ratios are chosen so that the power delivered to the consumer. individual microphones can be regulated independently of one another with an approximate constant value of the output resistance of the individual microphones and the total resistance of the series-connected microphones ^. switched output circuits of the microphones.

Two embodiments of the invention are ίο shown in the drawing as examples.

Fig. Ι shows schematically a circuit according to the invention in connection with multiple condenser microphones.

Fig. 2 schematically shows a circuit according to the invention in connection with a plurality of ^v carbon microphones.

According to Fig. 1, the potentiometers 8, 9 and 10 control the output volume of the amplifiers 12, 13 and 14. The input terminals of these amplifiers are connected to the condenser microphones 16, 17 and 18. The condenser microphone amplifier assembly can be of any known type. For example, an arrangement can be used in which the Amplifier in close proximity to the microphones is arranged to avoid losses and line capacitance to reduce. An arrangement of this type is known. The resistors 20, 21 and 22 serve as a substitute for the output impedances of the amplifiers when using the different microphones are switched off. The output terminals 23, 24 can be connected to various devices, for example with an amplifier or with a transmission line running in the direction of seen from the potentiometer circuit should have a certain impedance. The switches 26, 27 and 28 are sequential switches that connect resistors 20, 21 and 22 to the potentiometer switch before they interrupt the amplifier circuits and close these circuits, before they switch off the resistors. This causes annoying noises in the output circuit avoided. Those parts of the system are regarded as output circuit 4-5, between terminals 23 and 24 in series with potentiometers 8, 9 and 10. The potentiometers 8, 9 and 10 consist of two fixed resistance elements 30, 31 and 32, 33 or 34, 35 and sliding contacts 36, 37 and 38.

In Fig. 2, the parts that are also present in Fig. 1 are given the same reference numerals provided, as in the latter figure. This circuit is particularly suitable for carbon microphones 41, 42 and 43 of the double button type, which are powered by a battery 44. The ones in the microphones The currents generated are passed through the transformers 47, 48 and 49 to the potentiometer circuit fed with the transformers to establish the correct impedance relationships serve between the microphones and the output circuit. The HSJ holders 50, 51 and 52 essentially correspond to §§!; Fj | ien the one shown in Fig. 1, but point S || ä'er an additional contact, by means of eat the energy supply circuit can be opened and closed. These switches are set up in such a way that between the closure of the last-mentioned contact and the actuation of the part of the device shown in Fig. 1 (and vice versa) a Time delay occurs so that the current in the microphone circuits can build up, before connecting the output circuit. This prevents the transmission is disturbed by noises caused by switching operations and variable equalizing currents. The between the switch contacts arranged capacitors 55, 56 and 57 prevent the Grains caking in the microphones during switching operations. Changeable Resistors 58, 59 and 60 limit the microphone current, while inductors 61, 62 and 63 prevent the alternating currents of one microphone circuit from affecting the neighboring circuits influence. These devices do not form part of the invention and are only described to explain how the circuits work.

As shown in Fig. 2, the output current flows through the transformer 65 to the input terminals of a tube amplifier 66. This can of course be replaced by circuits of a different type. When the microphones 41, 42 and 43 are switched off, the Secondary windings of transformers 47, 48 and 49 through resistors 20, 21 and 22 (Fig. 2) replaced.

The operation of the circuits shown in Figs. 1 and 2 will now be described. The sliding contact 36 of the potentiometer 8 moves like the usual potentiometers along a resistance element and changes the voltage in the output circuit. With the resistance element 31 alone, the impedance and the voltage impressed on the output circuit can be changed between zero and a maximum value. Simultaneously with the movement across the resistor 31, the sliding contact of the resistor 30 is moved 36 along so that the impedances be kept constant in the home & circuit ₅ substantially. The potentiometers and 10 act accordingly; the output terminals of all potentiometers are connected in series.

To make the potentiometer more effective clarify, a numerical example should be given. It is assumed that the impedance of the

Secondary windings of transformers 47, 48 and 49 (Fig. 2) is 50 ohms and that the resistors 20, 21 and 22, which are switched on instead of the secondary windings, have the same value. For example, if the transformer 65 has an input impedance 'of 200 ohms, it is desirable to design the potentiometer circuit so that he receives at least approximately this value.

For this purpose, the resistors 31, 33 and 35 are dimensioned such that each one Value of 190 ohms, while each of the resistors 30, 32 and 34 has a total resistance of 95 ohms. The taps 71, 72 and 73 are arranged in such a way that that the resistance of the left part 35 ohms and the resistance of the right part 60 ohms amounts to. The relative positions of the contacts on the resistor pairs 30-31, 32-33 and 34-35 are such that when the sliding contacts 36, 37 and 38 are at the taps 71, 72 and 73 are located, the resistance of 31, 33 and 35 on the left side of the sliding contacts 70 ohms and on the right side is 120 ohms.

If the parts of the assembly are sized as indicated above, the maximum is Change for all three potentiometers together 45 ohms, i.e. H. the impedance changes from 180 ohms up to 225 ohms while changing each output circuit is between 60 and 75 ohms. This change takes place when all three Potentiometer can be brought from 0 to 190 ohms at the same time. If a single potentiometer is operated and the others are held in the zero position or in the 190 ohm position the total change is only 15 ohms, which in any case reduces the impedance is kept within such limits,

. that a good transmission is assured.

If decreasing or stepped resistors are used, the output impedance can be kept constant. However, the present example is one used in practice Taken from the system, in which the resistor sections are made from relatively cheap, evenly wound wirewound resistors.

When calculating the impedance for a specific position of the sliding contacts, for example in the event that the potentiometer is in the 120 ohm position of sections 31, 33 and 35 are located, the resistance can be 30,

32 and 34 can be neglected, since the sliding contacts are located in the tapping points 71, 72 and 73 are located. The only impedance in series with the primary winding of transformer 65 is then from the 120 ohms of the resistors 31,

33 and 35 are formed, and in shunted to this, the remaining 70 ohms of these sections are in Series with the 50 ohm impedances of the secondary windings of transformers 47, 48 and 49.

This makes 60 ohms for each potentiometer or 180 ohms for the total impedance. the Impedance of the circuit with the sliders in other positions can be in a can be determined in a similar manner.

Claims (1)

Claim: Series connection of a plurality of microphones with a common consumer, characterized in that parallel to each microphone is a voltage divider, the sliding contact of which with the Electrical and mechanical sliding contact of a series resistor provided in the common line for each microphone is connected, and that the resistance ratios are chosen so that the power delivered to the consumer of the individual microphones can be controlled independently of one another while keeping the output resistance approximately constant the individual and thus the total resistance of the output circuits connected in series the microphones, 1 sheet of drawings