DE704117C - Procedure for shortening the response time with voice-controlled feedback barriers - Google Patents

Description

With voice-operated feedback barriers and similar circuits, it is of great importance, an electron tube blocked by negative bias voltage is very important to unlock quickly or to be able to lock a working tube very quickly. The task consists in creating a whole through a tension that can be changed within certain limits ■ specific, rapid shifting of the working point of a tube from one point on where the anode current is zero, to an operating point on the straight part of the characteristic curve or vice versa. In the case of circuits of the type described, it is particularly important that the potential shift is achieved within a very short time.

In the method according to the invention, the potential shift occurs in and of itself known way with the help of a non-linear switching element. The shortening according to the invention the response time is achieved here by the fact that the displacement voltage is amplified control voltage is changed very quickly, but by the non-linear Switching element is limited to a certain value.

The invention is described in more detail with reference to the drawing.

Fig. Ι shows an example of a voice-controlled Feedback lock,

FIG. 2 shows different, the effect of a circuit according to FIG. 1 illustrative Curves.

Fig. Ι shows a part of a circuit in a system with a loudspeaker subscriber device. Let the input terminals α be connected to the line and the output terminals b to a loudspeaker. The circuit is blocked in the idle state, but is unblocked by signal currents reaching terminals α. This release of the blocking state must be done very quickly so that no part of the incoming signals is lost.

The circuit contains a three-pole tube E whose grid circuit is connected to an input transformer T _x and whose anode circuit is connected to an output transformer T _s . The grid and anode circuits are alternating current via capacitors C ₁ and C _{2, respectively}

closed. The anode voltage supplies a voltage source -j- Va earth. The input side of an amplifier V is connected in parallel to the input terminal α , the output side of which is connected to the points of one diagonal of a rectifier bridge, between the other diagonal points of which there is a resistor R. The pole of the resistor R against which two rectifiers in the bridge are directed, ie the positive pole, is connected to the grid of the tubes E via the secondary winding of the transformer T ₁ . The other pole of the resistor, ie the one from which the two rectifiers are turned away, is connected to a potential - V ₂ . The tubular grid is further connected via the secondary winding of the transformer T ₁ to a bias voltage - V _{1 of} the common direct current source via a rectifier I \ . The bias voltage -V ₂ is chosen so that it blocks the tube E.

Signals of variable amplitude reaching the terminals α are amplified to a greater extent V in the Veras: this works preferably in a known manner in such a way that a relatively constant alternating voltage is produced at its output. This alternating voltage causes a direct voltage drop across the resistor R , which shifts the grid bias of the tube E in a positive direction. If A 'and -V _{1 are} not switched on and - V ₂ is equal to -15 volts, for example, the incoming signal voltage must cause a DC voltage drop across R of at least - 7 to about - [- 10 volts so that the tube E is on the straight line Part of the characteristic is working. Increasing the grid bias from -15 to, for example, -8 volts takes a certain amount of time since the capacitor C _{1 has to be} charged. The voltage of the grid increases according to a curve / in FIG. 2 after the voltage at R has been established. As can be seen from FIG. 2, it takes 5 milliseconds for the grid bias to increase by 7 volts, ie to reach a voltage of -x8 volts, at which the amplifier begins to operate. However, this delay of 5 milliseconds means that the beginning of the signal is not amplified by the tube E , but is blocked; this affects the intelligibility. By switching on the rectifier K i and the bias voltage -V ₁ , which is for example -5 volts, one can allow such a high gain of the amplifier V 'that the voltage at R is considerably above that value (10 volts) which is a suitable one Grid bias of the tube E ■ results, since the grid voltage _{can practically hardly exceed the voltage V 1} , because the resistance of the rectifier in the direction away from the grid is very small. ⁶ S power to the gain in V so high that the positive boosted voltage to R -J- is, for example 60 volts, the bias rises after a curve k in Fig. 2. In this case one obtains a positive displacement 7 »bung 7 Volt, ie a grid bias of -SVoIt, already after 0.5 milliseconds, ie after a tenth of the time that is necessary without rectifier K and bias voltage - V ₁ to make the tube E ^{7 S conductive.} As can be seen from curve K , the bias voltage cannot rise significantly above the value _{corresponding to the grid bias voltage −V 1} , ie a potential shift of 10 volts. This corresponds to a grid bias of -5 volts because the resistance K is very small in the direction away from the grid. By opening the tube E quickly, only very small parts of the incoming signals are cut off; the tube is already able to amplify the signals after 0.5 milliseconds.

A method according to the invention can of course also be used to limit a 9 "potential shift in the negative direction. In this case, the rectifier K is placed in such a way that it has the smallest resistance in the direction towards the point or the terminal whose potential is shifted shall be.

Claims (2)

Patent claims: i. Method for reducing the response time of a voice-operated feedback blocker o. The like. In which the control of the barrier by grid potential shift by means of rectified Speech amplitudes via a non- > ° 5 linear switching element happens, characterized in that the speech amplitudes The DC voltage obtained is significantly greater than the fixed grid bias and due to the non-linear ** o Switching element is limited to a certain value. 2. The method according to claim 1, characterized in that the amplifier (V) supplies a relatively constant voltage in a manner known per se. 1 sheet of drawings