DE863092C - Circuit arrangement for displaying impermissible changes in the anode current of amplifier or rectifier tubes - Google Patents

Description

Circuit arrangement for displaying impermissible changes in the anode current of amplifier or rectifier tubes in amplifiers and other circuits, contain the tubes, it is necessary in the interests of operational safety to not allow them Constantly monitor changes in the anode direct current. From the monitoring equipment It must be demanded that this is possible without interfering with the operating circuit leave it switched on and the normal function of the circuit to be monitored not affect :. The latter requirement requires that the circuit to be monitored only a very small amount of energy may be withdrawn.

Among other things, glow lamps have become known for monitoring the anode current, which are ignited when the potential changes in the anode circuit and when they light up or by the current flow in a relay connected in series with the glow lamps cause the display. According to the invention there is an improvement of the known glow lamp monitoring circuits brought about that a glow lamp flip-flop circuit so between a point fixed potential and a change in its potential when this anode current changes Point of the anode circuit is turned on that. Tilting vibrations arise as soon as the potential of the connection point in the anode circuit exceeds or exceeds a specified limit value falls below. The use of glow lamp flip-flops has compared to the known Glow lamp monitoring circuits have the advantage that due to the memory effect of the capacitor belonging to the flip-flop circuit, the connection of the flip-flop circuit to the one to be monitored Circuit can be made very high resistance. There is therefore very little energy in the tube circuit. withdrawn. Other advantages are explained in more detail with reference to the exemplary embodiments illustrated in FIGS.

The flip-flop circuit consisting of the glow lamp Gl and the capacitor C. is: switched on between the two points A and B. The point B has solid Potential that is determined by the two voltage divider resistors W1 and W2. The point A lies in the anode circle of the tube V to be monitored between its anode and the anode resistance Ra. If the anode current drops, the voltage drop continues at the anode resistor Ra, and the potential of point A rises. The voltage at point B is set and the ignition voltage of the glow lamp selected so that if the anode current limit falls below the specified anode current limit, the glow lamp circuit breakdown oscillations executes. As a result of the already mentioned storage effect of the capacitor C can Coupling resistance Where extremely high resistance is made. Others to be monitored As indicated at point D, tube circles can be connected to the same in multiple circuits Fixed potential (point B).

In the exemplary embodiment shown, the impermissible drop in the anode current is only recognized by the fact that the glow discharge is visible in the glow tube. However, it is easily possible to switch on a relay R between points D and B, as shown in FIG. This relay is activated and its armature r moves in the rhythm of the breakover oscillations. The delayed dropping relay H then closes its contact 1z and brings the indicator lamp L and the alarm clock W to respond. The relay R is provided jointly for all monitoring circuits that are switched in multiple ways. Which tube circuit is disturbed can be recognized by the lighting up of the glow lamp assigned to the relevant circuit.

If for some reason the fuse Si blows or becomes the If the anode current is interrupted in another way, point A is practically given earth potential. With a suitable choice of glow lamp ignition voltage and the potential at point B speaks In this case too, the glow lamp voltage is on, and the current flows into reverse direction from B to A. Ignition of the glow lamp with reverse polarity shows a different distribution of the luminous effect than with normal polarity, so that from this conclusions can be drawn about the type of disruption. The invention sees continue before, by suitable design of the electrodes, the glow lamp for this ensure that the difference in the formation of the glow phenomenon is particularly great emerges.

The storage capacitor C ensures that voltages which can be traced back to speech peaks do not have any influence on the signaling, since these voltages are compensated by the capacitance. This fact and the option mentioned at the beginning of choosing the resistance Wo very high ohmic allow the connection of the glow lamp tips to the anode, so that the relatively large voltage drops across the anode resistance Ra or a transformer switched on instead can be used for signaling. The use of a large voltage drop has the advantage that the demands on the accuracy of the ignition voltage of the glow lamp are not too great.

If the glow lamp belonging to an anode circuit has ignited, then would in the known circuits with permanently ignited in the response state. Glow lamps. the voltage drop at the relay R the response of further glow lamps un favorable influence. This disadvantage is reduced in the arrangement according to the invention, because as a result of the tilting effect, there is no permanent current flowing through the relay.

Another advantage of using a toggle switch is caused is as follows. The size of the ignition voltage of a glow lamp is known to depend on the ionization state of the gas in the glow lamp; since the state of ionization changes over time, changes in the Response value and may result in incorrect displays. As a result of the Due to the tilting effect of the extinguishing that occurs again immediately, this may result in a false indication but only for a short time. After ignition has taken place, the ionization state is normal immediately restored so that in case the changed ionization is too early Response resulted in no additional ignitions.

In order to prevent that at the moment of switching on the tubes, the If the trigger circuit responds, the time constant of the trigger circuit increases chosen as the time it takes for the anode current to rise from zero to its INTormal value is necessary.

Claims (2)

PATENT CLAIMS: i. Circuit arrangement for displaying impermissible Changes in the anode current of amplifier or rectifier tubes with the help of glow lamps with only two electrodes, characterized in that a glow lamp flip-flop circuit so between a point of fixed potential and a point of change in the anode current its potential changing point of the anode circuit is switched on, that relaxation oscillations arise in the event of an impermissible change in the potential in the anode circuit. 2. Circuit arrangement according to claim i, characterized in that the glow lamp flip-flop circuit between a point of fixed potential of a voltage divider and the anode of the one to be monitored Tube is switched on. 3. Circuit arrangement according to claim i or 2, characterized in that between the glow lamp flip-flop circuit and its At the connection point to the anode circuit, a high-ohmic resistor is switched on. q .. Circuit arrangement according to one of the preceding. Claims, characterized in that that a relay is switched on between the glow lamp and the point of fixed potential is. 5. Circuit arrangement according to claim q., Characterized in that: the Relay is assigned to several glow lamp tilt circuits and between the connection point of the flip-flops and the point commonly assigned to these flip-flops fixed potential. 6. Circuit arrangement according to claim or 5, characterized; characterized, @ That the armature of the relay controls the circuit of a delayed releasing relay. 7. Circuit arrangement according to claim 6, characterized in that the delayed falling relays the display circuit (for optical and / or acoustic display) controls. B. Circuit arrangement according to one of the preceding claims, characterized characterized in that the ignition voltage and the fixed potential of the circuit are chosen are that the flip-flop also responds when, for example, as a result of an interruption of the anode current, the anode potential drops sharply. 9 ,. Circuit arrangement according to Claim 8, characterized in that the glow lamp is designed so that: that in the case of excitation with reversed polarity, the strongest possible differentiation of the Luminous image of the glow lamp compared to the one present when ignition with normal polarity Illuminated image occurs. ok Circuit arrangement according to one of the preceding claims, characterized in that the time constant for the response of the flip-flop greater than the time for the anode current to rise from zero to normal is chosen.