DE1258767B - Circuit arrangement for storing an illuminated display in a display tube - Google Patents

Description

Circuit arrangement for storing an illuminated display in a display tube The invention relates to a circuit arrangement for storing an illuminated display in a display tube, e.g. B. a glow light digit display tube.

For illuminated display of measured or counted values (digital voltmeter, Digital counters), glow-light numeric display tubes are mainly used. These Display tubes can save the displayed value by means of suitable circuits, to z. B. to get a calm digit image and to enable easy reading.

With digital voltmeters the measuring voltage is in several stages like this transformed that the number of - for example supplied by an oscillator -Impulse gives a measure of the amplitude of the measuring voltage. These impulses will be supplied as counting pulses to a counting decade. The storage of the display value requires a further decade of counting, which by pulse control the value of the first (actual) Counting decade is supplied. The second counting decade triggers the corresponding display at the glow light numeric display tube and holds this display until it is deleted fixed.

The disadvantage of this circuit is that for storing the display value the same expenditure on circuit elements is required as for the counting. In addition, additional Coupling elements are switched because of the high ignition voltage for the glow light indicator tube cannot be raised by the counting decade. It is the same with such Switching is not possible without additional impedance conversion, larger outputs too switch. Apart from these drawbacks, of course, all are additional circuits and switching elements are also additional sources of error, and the additional space required quite considerable.

A coupling circuit has already been proposed that once the high ignition voltage for the glow-light digit display tube delivers and at the same time causes a certain storage of the display value. The coupling is done here causes a transistor blocked by a bias voltage in the unswitched state. In the output circuit of the transistor there is a winding of a transformer, and in the circuit the discharge path to be ignited is the second winding of this transformer; the Windings are connected to one another at one end and to one in the circuit The resistor switched on in the discharge path is connected in series. The circuit is dimensioned so that the display tube by reducing the inductance of the The winding located in the discharge circuit ignites when the transistor becomes conductive and the now flowing discharge current of the display tube across the resistor a voltage generated, which is fed into the output circuit of the transistor, the reverse bias overcompensated at the transistor and thereby the self-retention of the transistor in his conductive state and the storage of the triggered glow light display causes. This circuit, which has proven itself as a coupling circuit in practice, As a memory circuit, however, it is not found in all glow light digit display tubes easy to use because they are not independent of mains voltage fluctuations and requires a very precise measurement of the resistance (German patent application G 35142 VIII c / 21 f).

The invention creates a very simple circuit, which does not adhere to the disadvantages indicated. This is achieved in that as bistable switching elements working thyristors with their cathode via a transistor for the ignition release are connected to the counting decade, while their anodes are connected directly connected to the cathodes of the display tubes, at the anode of which a transistor is connected for the deletion of the saved advertisement.

The invention is shown below on the basis of an exemplary embodiment explained in more detail with glow light digit display tubes and shown in the drawing. Other display tubes can also be used in place of the glow-light digit display tubes will.

F i g. 1 shows a basic circuit diagram; F i g. 2 shows a practical one Embodiment for a counting circuit with glow light digit display tube.

The same components are provided with the same reference symbols in both figures. In the idle state, the thyristor 1 (FIG. 1) used as a bistable switching element is blocked and the associated discharge path of the display tube 2 is deleted. The anode voltage UA is fed to the anode 2a via a transistor 3 which is open in the idle state. Due to the voltage conditions, it is advantageous to use an npn transistor here. A positive pulse or a positive DC voltage at the input 4 of the thyristor 1 controls this into the conductive state; The associated cathode 2b of the display tube 2 is thus - based on the anode 2 - at the required ignition voltage; the discharge section 2b, a 2 ignites and outputs the corresponding indicator. Due to its special properties, the thyristor 1 remains conductive even if the triggering pulse is no longer present at 4; so that the discharge path 2 b, 2 a remains ignited. The illuminated display is saved until the display is cleared. This is done by a negative pulse, an extinguishing pulse UL at the input 5 of the transistor 3.This causes the transistor 3 to be blocked for a short time, the voltage at the anode 2a drops below the arc voltage and is no longer sufficient to cut the discharge path 2b, 2a in the ignited Hold state: the display goes out. This also blocks the thyristor 1 again. To bring it back into the conductive state and to display a display. To get the same discharge path, a new trigger pulse, z. B. a counting pulse at input 4 of the thyristor 1 is required.

In the case of the one shown in FIG. 2 is only example of a counting circuit the circuit for the thyristor of the number 0 is carried out. The circuits for the Numbers 1 to 9 have exactly the same structure and for the sake of clarity in each case shown only as block 8.

Exactly as with the basic circuit according to FIG. 1 becomes the anode voltage UA the anode 2 a of the display tube 2 via the transistor, which is conductive in the idle state 3 supplied. The bias voltage UV is applied to the cathode of the thyristor 1. This bias UV is after. Voltage division through the resistors 9 and 10 at the collector of a further - blocked in the idle state - transistor 6 removed. The ones at the entrances 4 (E, to E9) standing voltage is divided down by the resistors 11 and 12 so that that their maximum value can not ignite the thyristor 1. The inputs 4 are with the corresponding points of a counting decade. The display of a counter result takes place in such a way that a positive pulse UZ (or a positive DC voltage) reaches the input 7 of the transistor 6 and opens it; this is the preload UV short-circuited at the cathode of thyristor 1, and the voltage at the input 4 is now able to ignite the thyristor 1. It is with the invention Circuit possible, either (as described) a DC voltage to input 4 to give and to open the transistor 6 with a pulse or vice versa.

When the thyristor 1 is triggered, the corresponding digit becomes the Display tube 2 lit up. This indicator light remains as long as when the thyristor is triggered. If the counting process is finished in the counting decade, a negative erase pulse, UL applied to input 5 of transistor 3. The deletion takes place in the for F i g. 1 described way. The transistor 3 for the erasure and the transistor 6 for releasing the ignition can be used in the inventive Circuit operate a plurality of display tubes 2. In the case of a meter with several Glow-light numeric display tubes are therefore only one quenching transistor and one Transistor required to enable ignition.

The invention also offers the possibility of parallel to each Thyristor 1 to arrange a circuit that - when the thyristor ignites - z. B. a Brings relay to respond and thus a further work process or the like. Switches on. The power required for such a parallel connection is provided by the thyristors upset here without further ado.

Claims (5)

Claims: 1. Circuit arrangement for storage of a luminous display in a display tube, e.g. B. a glow light digit display tube, characterized in that thyristors (1) operating as bistable switching elements are connected to the counting decade with their cathode via a transistor (6) for the ignition release, while their anodes are connected directly to the cathodes (2b) of the display tubes ( 2) are connected to the anode (2a) of which there is a transistor (3) for deleting the stored display. 2. Circuit arrangement according to claim 1, characterized in that the ignition of the thyristors (1) by a pulse and the release of the ignition by direct voltage. 3. Circuit arrangement according to claim 1, characterized in that that the ignition is released by a pulse and the ignition by DC voltage. 4. Circuit arrangement according to claim 1 to 3, characterized in that for any many display tubes (2) one common transistor (3) for deletion and one common transistor (6) is provided for enabling the ignition. 5. Circuit arrangement according to claims 1 to 4, characterized in that each thyristor (1) has circuits to operate a relay or the like. Are connected in parallel.