DE743668C - Circuit to avoid over-limiting with backward regulated amplitude limiters - Google Patents

Description

Circuit to avoid over-limiting with backwards regulated Amplitude limiters With backwards regulated amplitude limiters, sudden If the amplitudes to be transmitted increase, a brief over-limitation may occur. This disruptive effect on the transmission, which can be recognized by the fact that it is the most powerful Sound is followed by a sudden, excessive reduction in the volume level, explains in that due to the delay in the control voltage in the auxiliary circuit In this circuit, a direct current surge corresponding to the amplitude maximum occurs.

It has already been suggested that the Avoid control voltage by using higher time constants. However, this is not a viable solution, because even if the over-limitation is eliminated, instead of this, there is an undesirable delay in the effect of the limiter the higher time constant.

The present invention relates to a reverse circuit regulated amplitude limiters, in which on the one hand the short-term over-limitation is eliminated and, on the other hand, with regard to the correct limiting effect short time constants are maintained. According to the invention, this is thereby achieved achieved that in the auxiliary circuit an auxiliary capacitor via a non-linear Resistor and one to discharge the auxiliary capacitor serving The blocking element is finitely connected in parallel to your filter capacitor and that the characteristic curve of the non-linear resistance is chosen in such a way. that when using the direct current surge the nonlinear resistance is initially impermeable to stroni.g and only after increasing the DC voltage of the auxiliary capacitor switches on as a load on the filter capacitor.

In the drawing, Fig. I illustrates the principle of a backward controlled amplitude limiter, Fig. 2 shows a circuit arrangement according to the invention and FIG. 3 shows a graphic representation of the course of the useful amplitude and the control voltage under the action of the limiter arrangement according to the invention.

The principle of the backward-regulated amplitude limiter is shown in the circuit diagram (Fig. I), where 1-1 denotes the microphone, F a preamplifier and B the control element of the amplitude limiter, the z. B. can consist of regulating tubes or attenuators with non-linear resistances arranged in push-pull or a bridge circuit. The control voltage for the automatic control of the amplitude is generated by rectifying a portion of the output side of the amplitude, derived on the one Nutzamplituden in auxiliary circuit E and fed to the control element B.

The device of the auxiliary circuit E according to the invention is shown in Fig. 2 illustrates. Through a transformer T a part of the utility is amplified a rectifier D and a filter capacitor C1 via a resistor R1. A precharge battery Ba is also provided in the rectifier circuit. According to the invention is an auxiliary capacitor C. via a non-linear resistor R. with your filter capacitor Cl connected in parallel, and also a blocking element S for discharging the auxiliary capacitor connected in parallel with your non-linear resistor R2. The discharge time of the capacitors Cl and C. = is due to the load resistor R3, via which the control voltage is tapped is determined.

The switching element R_, C = provided according to the invention achieves that the control voltage generated in the auxiliary circuit is not directly from your filter capacitor Cl is fed to the control element B (Fig. I), but that si; first from your auxiliary capacitor C_ and the non-linear resistor R2 is influenced so that they are uniform increases to its setpoint.

This effect is illustrated by the curve in Fig.3, -the Represent the course of the useful amplitudes a and the control voltage e derived from them.

A sudden increase in de, aniplitude level z. B. from ao-a, becomes cause a corresponding increase in the control voltage in the auxiliary circuit, which is illustrated by the voltage spike e1 in FIG. 3. This DC surge would. «If no measures were taken (read control element B (Fig. I) like this influence, (let a short-term over-limit, as it is by the curve branch a: = (Fig. 3) illustrates @cird that would occur in the limiter circuit.

By the action of the switching element R_, C 2 provided according to the invention in the auxiliary circuit, the filter capacitor Cl is, however, loaded in such a way that the direct current surge in the auxiliary circuit. caused voltage peak e1 is cut off, so that the control voltage has the course illustrated by the curve branches eo, e, e. This voltage curve is due to the fact that up to a certain voltage e_, the rectilinear resistor R2 acts as a pure shut-off device, so that within the voltage area e.s co-e_ "the filter capacitor C1 is almost not loaded by the auxiliary capacitor C. But if If the control voltage exceeds the value ex, the resistance of the element R = will suddenly decrease, and as a result the auxiliary capacitor C_ will suddenly be switched on as a load on the filter capacitor Cl, whereby the voltage increase across this capacitor ceases, i.e. according to the voltage peak (l is cut off. The effect of the switching element R_, C2 on the course of the useful amplitudes is shown in FIG. 3 by the curve branch a, c, a..t.

Claims (1)

PATENT CLAIM: Circuit arrangement to avoid the over-limitation caused by the backward-regulated. Amplitude limiter in the auxiliary circuit is caused by peak voltages of the useful amplitudes occurring direct current surge and in which the control voltage generated in the auxiliary circuit is smoothed by a capacitor (C1), characterized in that to limit a direct current surge occurring in the auxiliary circuit, an auxiliary capacitor (C2) via a nonlinear resistor (R2) and a blocking element (S) serving to discharge the auxiliary capacitor is connected in parallel with the filter capacitor (C1) and that the characteristic curve of the nonlinear resistor is selected such that when the direct current substance is used, the nonlinear resistor is initially impermeable to current and only after Rise in DC voltage switches on the auxiliary capacitor (C2) as a load on the filter capacitor (Cl) (Fig. 3). To delimit the subject of the application from the state of the art, the following publications were considered in the granting procedure: German patent specification ...... No. 665 322; British patents. . . . - 444598, 478,436 ; Electrical communications engineering r935, H. P. 374 ff., Especially section a, b; f; Electrotechnical magazine VOM 3. 11- 1938, no. 44, p. 1173 ff.