DE1005125B - Circuit arrangement for equalizing different signal levels in a receiving device for signals according to the frequency code system - Google Patents

Description

GERMAN

The invention relates to a circuit arrangement for equalizing different signal levels in one Receiving device for signals according to the frequency code system, in which the individual frequencies are filtered through separately and each supplied to one of a plurality 5 of receiving switching means, which Includes cold cathode gas discharge tubes with ignition electrodes. Such receiving devices find in particular in remote selection, signaling and remote control systems for the transmission of signals and switching orders Use.

In known systems of this type, the system parts are connected by lines that normally can be used for other purposes and only if necessary by a central switching measure separated from their previous association and connected to a new network. Such Lines of lines composed of different line sections point to the incoming line End different and fluctuating signal levels, which can easily cause interference in the Reception facilities give cause. If the reception level is too high, the blocking attenuation of the filter switching means is sufficient no longer off, so that receiving switching means do not receive their associated individual frequency will be operated by adjacent individual frequencies. This can be remedied through increases the blocking attenuation of the filter switching means can be created, which, however, is a considerable increase in the Due to the effort. On the other hand, it is known in communications engineering to use level fluctuations of regulating tubes by changing their gain factor in such a way that in the end constant signal voltage occurs in the control amplifier. However, such a regulation is also required a great deal of effort, since only small amounts are required to generate a true image of the input voltage Control distortions are permissible.

The endeavor is now to the receiving device with as little effort as possible from to make fluctuating signal level independent. The invention achieves this in that the ignition path of each gas discharge tube the output voltage of the associated one, to one of the individual frequencies Matched filter switching means is applied and common to the ignition paths of all gas discharge tubes a fixed bias and a variable bias depending on the signal level in this way are applied that, in the event of fluctuations in the signal level, the response threshold value is only applied to those ignition paths is exceeded, the filter switching means are charged with the associated individual frequencies. According to a further embodiment of the invention, the variable upstream circuit is dependent on the signal level arrangement

to compensate for different signal levels in a receiving device for signals according to the frequency code system

Applicant:

Standard Elektrik Aktiengesellschaft,

Stuttgart-Zuffenhausen,

Hellmuth-Hirth-Str. 42

Georg Vogel, Stuttgart-Stammheim,
has been named as the inventor

voltage obtained by rectifying the voltage of the entire signal channel. The won The control effect can be achieved by switching on a voltage-dependent resistor in the direct current circuit still to be increased.

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

The incoming signal channel is connected to winding 1, 2 of the input transformer either directly or with the interposition of system components not shown (e.g. a power amplifier). The winding 3, 4 feeds the series-connected primary windings of the transformers Ü 1 to Ün, which are tuned to an individual frequency / 1 to fn on their secondary sides by means of capacitors C1 to Cn. The secondary sides of these transformers are on the one hand each connected to the ignition electrode of the associated cold cathode gas discharge tube Röl to Ron . On the other hand, the secondary windings of the transformers Ül to Ün are jointly supplied with a bias voltage which is composed of two parts. One part is constant and is determined by the voltage £ 73 tapped on a potentiometer (not shown). The other part is variable and is formed by the charging voltage generated by the rectifier Gr 1 at the element RC, possibly with the interposition of a voltage-dependent resistor. This charging voltage rises rapidly with the signal level appearing at the terminals 5, 6 of the input transformer Tr and, when a signal occurs, causes the direct voltage prevailing at the ignition electrodes to shift towards negative values. On the potentiometer, not shown, the rest bias is

609 866/294

Claims (2)

voltage t / 3 is set with an appropriate safety margin from the ignition voltage of the tube. The alternating voltage tapped at the winding 5, 6 generates such a voltage shift at the element RC that when individual frequencies pass through filter switching means that are not matched to them, e.g. B. the frequency / 1 through Ü2, C 2, the response threshold of the connected ignition path, z. B. Rö2 is not reached. IO PATENT CLAIMS: 1. Circuit arrangement for balancing different signal levels in a receiving device for signals according to the frequency code system, in which the individual frequencies are separated by filter means and each supplied to one of a plurality of receiving switching means, which Contain cold cathode gas discharge tubes with ignition electrodes, characterized in that an the ignition gap of each gas discharge tube is the output voltage of the associated filter switching means, tuned to one of the individual frequencies, is applied and to the ignition paths of all gas discharge tubes together a fixed bias voltage and a variable one depending on the signal level Bias are applied in such a way that only fluctuations in the signal level the response threshold value is exceeded at those ignition paths whose filter switching means be charged with the associated individual frequencies. 2. Circuit arrangement according to claim 1, characterized in that the signal level dependent variable bias voltage by rectifying the voltage of the entire signal channel is won. 1 sheet of drawings © 609 866/294 3.