DE1163380B - Circuit arrangement for displaying the ordinal number of a glowing cathode of a multi-cathode counter tube. - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY GERMAN 4057 ¥ W PATENTAMT Internat. Class: H 03 k

EDITORIAL

German KL: 21 al -36/22

Number: 1 163 380

File number: B 58631 VIII a / 21 al

Filing date: July 16, 1960

Opened on: February 20, 1964

In the main patent, a circuit arrangement is described which is used to display the ordinal number of a The glowing cathode of a multi-cathode counter tube is intended to be used. The multi-cathode counter tube is with everyone their cathodes are connected to the ignition electrode of a gas-filled trigger tube, which in turn with their anode-cathode route in the lead to a corresponding cathode of a cold cathode display tube lies.

To explain the problem underlying the invention, the following are characteristic Properties of the circuit arrangements considered according to the main patent.

The lengths of lead from the anodes of the trigger tubes to the cathodes of the display tube, inclusive the anodes and cathodes mentioned do not have any galvanic connection the remaining parts of the circuit and can therefore be affected by dark currents in the display tube Charge the potential of the anode of the display tube. It then occurs between the anodes and the Cathodes of the trigger tubes the total voltage difference between the potentials of the positive Terminal of the anode voltage source in the anode lead of the display tube and the negative one Clamp this voltage source in the cathode leads of the trigger tubes. The trigger tubes may not ignite at this voltage, but may only ignite when the Ignition electrode of the trigger tube in question is transmitted from a cathode of the counting tube Ignition voltage occurs, which indicates that said cathode of the counter tube is glowing. The one mentioned Voltage difference must therefore be below in the circuit arrangement according to the main patent the normal ignition voltage of each trigger tube.

One becomes independent of this condition if one ensures according to the invention that at each The cathode of the display tube is provided with circuitry that controls the potential of the anode of the relevant trigger tube below the value at which the trigger tube without ionization the ignition electrode gap ignites.

Each cathode of the display tube can be connected through a separate resistor to a voltage source which preferably supplies an alternating current component and a direct current component. In this case, the anode of the display tube should also be connected to a voltage source which has a direct current component and one in phase with the Weehselstromkom circuit arrangement for displaying the
Atomic number of a glowing cathode of a
Multi-cathode counter tube

Addendum to the patent: 1 132 591

Applicant:

Bell Punch Company Limited, London

Representative:

Dr.-Ing. E. Sommerfeld

and Dr. D. v. Bezold, patent attorneys,

Munich 23, Dunantstr. 6th

Named as inventor:
Norbert Kitz,
Hugh Lyon Mansford,
John George Kloyd, London

Claimed priority:
Great Britain 11 August 1959
(No. 27 433)

component AC voltage component located in the cathode lead supplies.

In another embodiment of the invention, each cathode of the display tube is connected to a separate one Rectifier connected to a voltage source.

In yet another embodiment of the invention, each cathode is overlaid on the display tube a gas discharge tube with a cold cathode connected to a voltage source.

Three exemplary embodiments of the invention will now be described with reference to the drawings will.

In the embodiment of Fig. 1, a multi-cathode counter tube 1 is connected to a cold cathode display tube 2 in such a way that when a discharge takes place between the anode 30 and one of the cathodes 31 of the meter tube, a discharge also occurs between the anode 32 and the corresponding one Cathode 33 of the cold cathode display tube passes.

The anode of the counter tube 1 is connected to a positive voltage V 2 via a resistor 3.

409 509BTl

Each cathode of the counting tube 1 is connected to the corresponding cathode of the display tube 2 by a circuit as shown for the cathodes 1 and 2 of the counting tube and the display tube. The first cathode of the counter tube 1 is connected to a positive voltage V1 via S a resistor 4, and the second cathode of the counter tube is also connected to this positive voltage Vl via a resistor. The remaining cathodes of the counter tube are also connected to this voltage via corresponding resistors.

The first cathode of the display tube 2 is connected to a ground line 20 via the discharge path of a trigger tube 8, and the second cathode of the display tube is also connected to this ground line 20 via a trigger tube 9. The trigger electrode of the trigger tube 8 is connected via a resistor 6 to the first cathode of the counter tube 1 and the trigger electrode of the trigger tube 9 via a resistor 7 to the second cathode of the counter tube. Correspondingly switched trigger tubes are also provided for the other cathodes of the display tube. In addition, the first cathode of the display tube is connected via a resistor 12 to a line denoted by V 5 , and the second cathode of the display tube is also connected to this line via a resistor 13. The line V 5 is connected to one outer terminal of a secondary winding 17 of a transformer, the other secondary winding terminal of which is grounded via a DC voltage source V 4. On the line VS there is therefore an alternating voltage potential which is supplied by the secondary winding 17 and a direct voltage potential which is supplied by the voltage source V 4.

The anode of the display tube 2 is connected via a resistor 14 and a rectifier 16 to one outer terminal of a further secondary winding 18 of the transformer. The other external terminal of this secondary winding is connected to the line VS. The rectifier 16 is not assigned any smoothing means, so that the potential V 7 at the anode of the display tube contains both a direct current component and an alternating current component which is in phase with the alternating voltage on the line V 5.

The bias voltage Vl on the release electrodes of the release tubes 8 and 9 is a little below the normal release voltage of these tubes. When the glow discharge, for example, rests in the counter tube 1 on the second cathode, current flows through the resistor 5, and at this resistor, a voltage is V 3. The voltage at the cathode of the trigger tube 9 is under these circumstances by the sum of the voltages Vl and V 3 given. This total voltage is above the trigger voltage of the tube 9, so that this begins to carry current. The instantaneous value of the anode potential of the tube 9 is primarily determined by the sum of the voltage V 4 and the instantaneous value of the alternating voltage on the transformer winding 17. The voltage V 4 is slightly higher than the nominal anode voltage for the tube 9, and the alternating voltage on the winding 17, which can be sinusoidal, for example, is so high that a peak voltage occurs between the anode and the cathode of each trigger tube, which is still slightly below the normal ignition voltage for these tubes. If it is now assumed that the glow discharge in the counter tube may rest on the second cathode, the trigger tube 9 will ignite as soon as its anode potential is high enough to cause a discharge to the anode when the ignition electrode section is ionized. Thus, current flows through the tube 9 during the positive half-waves at the transformer winding 17, but this current is extinguished during every negative half-wave of the transformer voltage. Since the ignition electrode sections of the other trigger tubes are not ionized, their anodes do not have a sufficient potential for current to pass through these tubes.

During the positive half-waves of the voltage occurring on winding 17, a larger voltage flows Current through resistor 13, although the potential of the second cathode of the display tube through the control action of the trigger tube 9 is kept constant. The voltage drop in resistor 13 represents part of the bias of negative sign between the second cathode and the rest Cathodes of the display tube. With this bias of the cathode 2, the current flows from the Anode 32 of the display tube on the second cathode, which glows accordingly.

The discharge current in the display tube must be modulated in phase with the potential of the line V 5 so that no current flows through the display tube during the negative half-waves of the alternating voltage on the winding 17. Without such a modulation, the glow discharge in the display tube would be transferred to all cathodes, since none of the trigger tubes would be current-permeable and therefore no particular bias voltage would occur on any of these cathodes. The discharge current of the display tube is shown in the circuit arrangement according to FIG. 1 modulated in that the anode voltage is tapped from the secondary winding 18 of the transformer. The rectifier 16 prevents the passage of the negative half-waves present on the secondary winding 18 to the anode of the display tube.

In the foregoing it was assumed that the voltages across the secondary windings 17 and 18 are sinusoidal, but instead of sinusoidal half-waves, square-wave half-waves can also be used or half waves with a different waveform can be used.

Some of the advantages of the FIG. 1 described Circuit are as follows:

1. By using a variable potential on the anodes of the trigger tubes every trigger tube that has ignited is periodically extinguished and thus one Changing the information displayed by the display tube is facilitated.

2. By modulating the anode potential of the display tube in phase with the cathode potential the start of the glow discharge is only ensured on the desired cathode.

3. This modulation of the anode current of the display tube extends its service life.

4. By supplying a voltage, which consists of the sum of the constant voltage V 4 and the alternating voltage on the winding 17, via the anode resistors to the anodes of the trigger tubes, a selective bias of the cathodes of the display tube is controlled exactly between those limits,

which between the maximum voltage at the anode of the trigger tube, at which still no discharge starts in this tube, and the minimum voltage on this trigger tube, at which this trigger tube can ignite, exists.

F i g. 2 shows a modification of the circuit according to FIG. 1, in which the resistors 12 and 13 are replaced by rectifiers 21 and 22. In this modification of the circuit, the secondary winding 17 of FIG. 1 is omitted, and the voltage V 4 is applied directly across the rectifiers 21 and 22 to the cathodes of the display tube 2. The voltage V 4 in this case is slightly below the value at which the main discharge in the trigger tubes has not yet ignited, so that only a single trigger tube, the ignition electrode of which is connected to the glowing cathode of the counting tube 1, becomes current-permeable. The diodes 21 and 22 prevent a potential increase at the other trigger tubes above the value at which no main discharge takes place in these trigger tubes, since each of these tubes only becomes current-permeable when the potential at the associated cathode of the display tube is due to the transition of a so-called dark current , which is branched off from the main gas discharge, increases. In the absence of these diodes and the voltage V 4, this dark current would raise the potential of each cathode, with the exception of the potential of the respective glowing cathode, to the anode potential.

The F i g. 3 shows a modification of the one shown in FIG. 2, in which the diodes 21 and 22 are replaced by cold cathode gas discharge tubes 23 and 24. In the circuit according to FIG. 3, a separate bias voltage source V 9 for setting the maximum potential of the cathodes of the tube 2 is present. The voltage source V 4 can be retained or omitted as desired. In the latter case, of course, the lower secondary winding terminal 18 is connected directly to the earth line 20. The magnitude of V 9 is chosen so that the sum of V 9 and the ignition voltage of one of the tubes 23 or 24 is somewhat smaller than the minimum voltage at which the trigger tubes 8 and 9 have a current passage to their anodes. Each of the cathodes of the tube 2, with the exception of the glowing cathode, supplies its so-called dark current via the associated gas discharge tube. The potential of the glowing cathode is reduced to such an extent that the associated gas discharge tube 23 or 24 remains impermeable.

Claims (8)

Patent claims: 1. Circuit arrangement for displaying the ordinal number of a glowing cathode of a Multi-cathode counting tube, which connects each of its cathodes to the ignition electrode of a gas-filled Trigger tube is connected, in turn with its anode-cathode route in the supply line to a corresponding cathode of a cold cathode display tube, according to the patent 1132591, characterized in that on each cathode of the display tube. one Circuitry is provided which increases the potential of the anode of the trigger tube in question below the value at which the trigger tube without ionization of the ignition electrode section ignites. 2. Circuit arrangement according to claim 1, characterized in that each cathode of the Display tube (2) connected to a voltage source via a separate resistor (12, 13) is (Fig. 1). 3. Circuit arrangement according to claim 2, characterized in that this voltage source has an AC component and a DC component (Fig. 1). 4. Circuit arrangement according to claim 3, characterized in that the anode of the display tube is connected to a voltage source which has a direct current component and a in phase with the alternating voltage present at the cathodes of this tube possesses (Fig. 1). 5. Circuit arrangement according to claim 1, characterized in that each cathode of the display tube (2) connected to a voltage source via a separate rectifier (21, 22) is (Fig. 2). 6. Circuit arrangement according to claim 1, characterized in that each cathode of the display tube (2) is connected to a voltage source via a gas discharge tube with a cold cathode (23,24) (Fig. 3). 7. Circuit arrangement according to claim 5 or 6, characterized in that the anode (32) of the display tube (2) is connected to a voltage source which has a direct current component and has an alternating current component (Figs. 1 to 3). 8. Circuit arrangement according to claim 4 or 7, characterized in that the anode (32) of the display tube (2) with the secondary winding (18) of a transformer via a Resistor (14) and a rectifier (16) is connected (Fig. 1 to 3). Considered publications:
German Patent No. 1,007,530;
Elektronik, 1956, No. 12, pp. 329 to 332. 1 sheet of drawings 409 509/377 2. 64 ι Bundesdruckerei Berlin