DE2223002C3 - Microphone feed circuit for telephones with their own power supply - Google Patents

Description

The invention relates to a microphone circuit for telephones with an own power supply, which is switched on by means of the talk button on a handset and in which the speech circuit through the series connection of a capacitor and a high AC resistance from the supply circuit is separated.

In telephones with their own power supply, the handset contains a push-to-talk button for switching on of the microphone stream that must be actuated when speaking. This creates in the resting state no power consumption and, at the same time, unwanted eavesdropping is prevented. The feed circuit for the microphone in the handset can consist of a choke coil and a condenser To separate the direct current supply from the alternating speech currents. The capacitor charges in the idle state a voltage that can differ greatly from that in the operating state when the push-to-talk button is pressed. The switch coupled with the talk button triggers a recharging process that briefly generates a high current through the microphone. This current impulse is generated by the interlocutor and also by the speaker in the Listener perceived as a strong cracking annoying. In addition, excessive power surge can damage the microphone to damage.

If other transmission channels are superimposed in terms of frequency on the speech channel, then the necessary ones must Low-pass filters are designed to be more complex.

The invention is based on the object of the switching on of the microphone flow To reduce gear click with little effort so far that it no longer has a disruptive effect.

This object is achieved according to the invention. that the capacitor in the speech circuit is over the tap of a voltage divider is connected to part of the DC supply voltage and that the microphone feed direct current via the series connection of the emitter-collector path of a transistor and an emitter resistor is fed, the base of which is connected to the tap of a via the push-to-talk button to the DC supply voltage connectable voltage divider connected.

To increase the charging of the capacitor via the voltage divider at the base of the transistor can prevent, according to a further embodiment of the invention, a reverse-biased diode in the Circuit to be switched on.

The advantages achieved by the invention are in particular that the voltage across the capacitor regardless of the speech button position is always approximately the same size and that the speech circuit over a high alternating current is decoupled from the microphone circuit.

Further details of the invention are explained in more detail using an exemplary embodiment.

In Fig. 1 is a microphone feed circuit for handsets with push-to-talk button without switching click suppression shown.

The F i j. 2 shows a .Schaltbeispiel with the inventive Gear click suppression.

In the idle state of the circuit according to FIG. I, no microphone current can flow because of the open .Sprechtaste St in the handset H. The full battery voltage Ub is applied to the capacitor C. As soon as the talk button Si is pressed, the capacitor discharges through the microphone M and the primary winding of the transformer Ll. A relatively high peak current flows briefly, which, limited only by the microphone resistance, overrides the transformer Ü. A high impulse occurs on the secondary winding, which the other participant perceives as an annoying crackling noise. In general, the transformer Ü is designed as a hybrid circuit, so that the cracking occurs in the receiver's own receiver, since the sideline reference attenuation is usually not great. With an battery voltage of, for example, 12 V and a microphone resistance of around 150 Ω, the short-term current peak is 80 mA and thus exceeds the permissible value of 50 mA. This can result in the coals sticking together.

After the switch-on processes have ended, the microphone current flows in the operating state from the positive pole of the battery via the resistor R, choke coil D, microphone M and push-to-talk button Si to the negative pole. The feed current can be adjusted with the resistor R. The alternating speech currents emitted by the microphone pass through the capacitor C to the output transformer Ü. The alternating current resistance of the choke coil should be as large as possible so that the alternating speech currents are not attenuated. The capacitor C keeps the supply current from the transformer.

In the exemplary embodiment according to FIG. 2, the capacitor C is no longer connected to the full battery voltage Ub but, via the voltage divider R \ R5, to the part of the battery voltage that drops across the resistor Λ4. The ratio of the resistors /? 4 to /? 5 is chosen so that the voltage on the capacitor C is always approximately the same in the idle state with the push-button contact open and in the operating state with the push-button contact closed. As a result, practically no glitches can occur when the push-to-talk button is pressed, because the capacitor is charged

not happened. The resistors / 74 and # 5 can do so be high resistance that only a very small cross current flows, which compared to the rest of the power consumption of the Gerütes is negligible.

Instead of the inductor Dr in FIG. I, there is a transistor circuit which has a low DC! um- and has a high AC resistance and which also prevents the charging of the capacitor C to the full battery voltage when the push-button contact is open.

This circuit consists of a transistor Tv in a collector circuit with a working resistance Ri in the emitter line. The collector is connected to the connection line from the microphone and the capacitor C, and the free end of the resistor Ri to the positive pole of the battery. The base of the transistor 7ϊ is connected to the tap of a voltage divider /? 2, Λ3, which is not connected via the contact of the talk button Si in the handset //. When the talk button St is pressed, a base current can flow, so that the circuit for the microphone current is closed via the resistor W1 and the collector-collector currents of the transistor. At the same time, the high resistance of the transistor circuit is effective.

Between the microphone M and the collector connection of the opposing country Ts , a diode CIr is switched on with such a forward direction that it prevents the charging of the capacitor C in the idle state via a microphone.

1 sheet of drawings

Claims (3)

Patent claims: 1. Microphone supply circuit for telephones with their own power supply, which is switched on by means of the talk button of a handset and in which the speech circuit is separated from the supply circuit by the series connection of a capacitor and a high AC resistance, characterized in that the capacitor (C) in the speech circuit via the tap of a Voltage divider (/? 4, RS) is connected to part of the DC supply voltage (Ub) and that the microphone feed level current is fed via the series connection of the emitter-collector path of a transistor (Ts) and an emitter resistor (Ri) , the base of which is connected to the tap of a the push-to-talk button (St) is connected to the DC supply voltage (Ub ) which can be connected to a voltage divider (R2, R3). » 2. Microphone feed circuit according to claim 1, characterized in that the charging of the capacitor (C) via the voltage divider (R2, R3) for the base current of the transistor (Ts) and via the microphone (M) is connected by a reverse-biased diode fGrJuntcrbunden. 3. Microphone supply hall according to claim I or 2, characterized in that the voltage divider (Λ4, R5) for the partial charging of the capacitor (C) is designed with a high resistance.