DE1028630B - Circuit arrangement for generating a delayed control voltage - Google Patents

Description

Circuit arrangement for generating a delayed control voltage The invention relates to a circuit arrangement for generating a delayed Control voltage as a function of a high frequency voltage applied to the input the means are provided which cause a steepening of the control characteristic. Such circuit arrangements are preferably used in electrical communications technology needed.

In Fig. 1, a known control circuit for delayed control is shown. In this circuit, the control voltage for the tubes to be controlled is tapped at point P of a voltage divider between -L ', (ground) and TL "Q, formed from resistor R1 and the resistors of the diode circuit. The high frequency is sent to rectifier GI , which is connected to the anode of the diode via charging and filtering means, i.e. at point P of the voltage divider. Only when the voltage divider formed by the resistor R1 and the internal resistance of the rectifier circuit GI including charging and filtering means has a negative potential due to the increase in the high-frequency amplitude at the branch point P, the diode is de-energized and a control voltage reaches the control grids Control characteristic, that is, from a certain value of the high-frequency input voltage a b is a DC control voltage that increases in a defined manner with increasing high-frequency voltage. A DC control voltage therefore only arises when the high-frequency input voltage has exceeded a certain threshold value. This threshold value can be set by suitably dimensioning the circuit. The steepness of the control characteristic, on the other hand, cannot be significantly influenced by different dimensioning of the circuit. However, there is often a desire for much steeper control characteristics.

Diode circuits are often used to achieve steeper control characteristics of the type mentioned used in connection with tube circuits. With these well-known However, circuits is a particular negative for the supply of operating voltages Voltage source required. The effort involved in creating these solid negative Voltage source is usually considerable, especially since this is for increased requirements usually still has to be stabilized.

According to the invention, while avoiding this disadvantage, a Circuit arrangement with little effort and relatively steep control characteristic achieve that one from a series connection of two ohmic resistors and a diode circuit (including charging and filtering means) consisting of a voltage divider, in which the cathode of the diode is directly connected to ground (negative anode voltage) and its Anode are connected to the positive anode voltage via the two resistors and are at which the high frequency over a charging and sieving means with the anode of the diode connected rectifier is applied, so that in a known manner the rectified High frequency after exceeding a certain threshold value at the anode of the Diode causes a negative control voltage, a known tube circuit is added so that the grid is one with the cathode over one preferably adjustable cathode resistance to ground and to the anode at the connection point the two ohmic resistors of the voltage divider lying electron tube the High frequency via a special rectifier and via charging and sieving means in this way is supplied that their grid bias voltage with increasing high frequency voltage is shifted in the positive direction, the operating voltages, in particular the bias voltage, the electron tube are chosen so that with increasing high frequency voltage an anode current sets in when the diode is no longer carrying current.

In order to obtain a particularly steep control characteristic, it is advantageous to to use a pentode as an electron tube and to use those Spantiungteilerwiderstaiid, Over which the pentode receives its anode voltage, to select high resistance. Through suitable Dimensioning of the circuit, in particular through a suitable choice of operating voltages, especially the grid bias, the electron tube can be both the threshold value by beginning Control voltage, i.e. the delay, as well the steepness of the control characteristic can be influenced.

An embodiment of the invention is shown schematically in FIG shown.

2 shows in principle the from the rectifier G1, with associated Charging and filtering means, diode Da and series resistor R1. + R2 existing same control circuit as in FIG. 1, but which essentially consists of a tube Röl and the rectifier G12 existing tube circuit is expanded. The control voltage is at point P1, as indicated by arrow 1, removed. The Röl tube lies with its cathode via the cathode resistor Rk to ground and receives its anode voltage via point P,., And resistor R2. The resistance formed from R1 and R. is like this to dimension ivie the resistor Rl of the known circuit according to FIG. 1, d. that is, it must have a high resistance to the internal resistance of the rectifier circuit G1, including loading and sieving means. Resistor R2 must also be used when using a pentode as Röl should be as high-resistance as possible. The resistor R2 is only allowed to be chosen so large that a sufficiently high anode operating voltage for the tube Röl is secured. The rectifier G12, which is connected to the grid via loading and sieving means the tube Röl is switched on and to which the high frequency is applied is opposite polarized like the rectifier G11, namely - so that with increasing high frequency the grid prestress of the tube Röl is shifted in a positive direction.

Claims (1)

PATENT CLAIM: Circuit arrangement for generating a delayed control voltage as a function of a high-frequency voltage applied to the input, in which means are provided which cause a steepening of the control characteristic, preferably for electrical communication technology, characterized in that one of a series connection of two ohmic resistors (R1, R2) and a diode circuit (D, including charging and filtering means) consisting of a voltage divider, in which the cathode of the diode (D,) is connected directly to ground (negative anode voltage) and its anode is connected to the positive via the two resistors (R ,, R2) Anode voltage lie and at which the high frequency is applied via a rectifier (G11) connected to the anode of the diode (D3) via charging and filtering means, so that the rectified high frequency is applied in a manner known per se after a certain threshold value has been exceeded at the anode of the diode (D,) causes a negative control voltage, a known per se nth tube circuit is added like this. that the grid of an electron tube (Röl) lying with the cathode via a preferably adjustable cathode resistor (Rk) at: ground and with the anode at the connection point of the two ohmic resistors (R1; R2) of the voltage divider the high frequency via a special rectifier (G12) and is supplied via charging and sieving means in such a way that its grid bias is shifted in the positive direction with increasing high-frequency voltage, the operating voltages, in particular the bias, of the electron tube being selected in this way. that with increasing high-frequency voltage, an anode current sets in just when the diode (D3) is no longer carrying current. Documents considered: German Patent No. 672 796; British Patent No. 342,305; U.S. Patent Nos. 2,020,363, 2,093,565, 2,135,942, 2,498,839.