DE1290974B - Control circuit for an electroluminescent display element - Google Patents

Description

The invention relates to a circuit for controlling a means an alternating voltage can be excited electroluminescent display element by an optionally Write-in signal that occurs more briefly than the desired display duration.

In a known circuit of this type, one of the two Connection lines between the two connections of the AC voltage source and of the display element, the series circuit fed by a DC voltage source .the switching current path of a block that can be blocked by a display delete signal, otherwise closed switching transistor provided with such a thyristor circuit, the alternating when the write signal occurs and in the same direction as the The polarity of the switching current path is direct current permeable and as a result of its storage effect possibly beyond the duration of the write-in signal up to the point in time the blocking of the switching transistor caused by the next display clear signal remains permeable.

F i g. 1 shows such a known circuit. In Fig. 1 is with 1 denotes an electroluminescent display element, which is produced by a generator 2 output alternating voltage can be excited. In one of the two connecting lines between the two connections of the alternating voltage source 2 and the display element 1 is the series circuit from the switching current path, which is fed by a DC voltage source 3 a switching transistor 4, the anode-cathode paths of two thyristors 5 and 6 and an ohmic resistor 7 are provided. The thyristor 6 is via its gate-cathode route (where, here and in the following, the gate designates the control electrode of a thyristor is) by the direct current from the direct current source 3 both in terms of alternating current with regard to its anode-cathode as well as its anode-gate route kept open, the direct current serving as the holding current for the thyristor 5 and the alternating current internal resistance .the DC voltage source - as usual - assumed to be negligibly small is. It is assumed that the switching transistor 4 by applying a corresponding Potential at its control input 8 and then to the gate 9 of the thyristor 5 an ignition signal has been given as a write-in signal. The size of the resistance 7 is chosen so that under these conditions by the DC circuit of the generator 3, the holding current of the thyristor 5 flows.

The writing of information and thus the excitation of the electroluminescent display element 1 is done by applying a write signal to the gate 9 of the thyristor 5, the deletion of the display by preferably brief (extinguishing pulse) interruption of the holding current by supplying a display clear signal to the control input 8 of the transistor 4, whereby the latter is blocked.

The circuit according to FIG. 1 is used particularly advantageously when using electroluminescent display elements in a massed manner, for example for multi-digit fields. Here it is often particularly important to have an electroluminescent display extend in time far beyond the duration of the respective write-in signal to be able to.

The transistor 4 is of course by other technical equivalents replaceable, for example by an electromechanical relay. Is preferred Circuit according to FIG. 1, however, is used in the semiconductor version shown.

The invention is based on the object of providing a circuit according to Art the in F i g. 1 shown without affecting their technical applicability to simplify with regard to their required economic effort.

According to the invention, this object is achieved in that the two thyristors 5 and 6 of the circuit according to FIG. 1 through a single thyristor which acts as both a switch and a memory and this with its anode-cathode path in series with the switching current path of the switching transistor is connected with the same polarity and whose gates the write signals can be supplied are. The DC voltage source is here according to a further feature of the invention to the series connection of the single thyristor and the switching transistor an isolating diode connected in the same direction as the thyristor and the switching transistor is polarized.

In principle, in the circuit according to the invention, the switching transistor 4 or a switching element equivalent to it is omitted, provided that one used with appropriate dimensioning of the circuit and choice of appropriate Bias and supply voltage levels such a thyristor of a known type as the only thyristor that, by briefly applying a blocking signal (extinguishing pulse) can be locked to its gate. With the current state of thyristor technology, the circuit according to the invention with the specified use of a switching transistor however, it is even more reliable.

F i g. 2 shows an exemplary embodiment of the invention in more detail Explanation. Circuit elements similar to those in the circuit according to FIG. 1 used match are shown in FIG. 2 with the same reference numerals as in FIG. 1 Mistake.

In the circuit according to FIG. 2 is a diode 10 in the DC circuit of the generator 3 is provided, which acts as an isolating diode and the DC and AC voltage paths separates from each other. The ohmic resistance is in the exemplary embodiment of the invention according to FIG. 2 between generator 3 and diode 10 and is in F i g. 2 denoted by 11. The write-in signal is used in the circuit according to F i G. 2 fed to the gate 12 of the thyristor 13, whereupon a direct current flows, which, if the size of the resistor 11 is dimensioned accordingly, the thyristor 13 holds in the holding area, provided that the switching transistor 4 is closed. via the anode-cathode route of the thyristor 13 can, as long as its holding current flows, then an alternating current flow, which excites the electroluminescent display element 1. The display clear signals are in the circuit according to FIG. 2 is fed to the control input 8 of the switching transistor 4. In this case, the display element 1, which mainly represents a capacitance, charges via .the diode 10 and the resistor 11 within a few periods of the alternating current source 2 approximates the peak value of the alternating voltage so that it remains dark, since then no more current flows through the display element 1.

Claims (1)

Claim: Circuit for controlling a by means of an alternating voltage stimulable electroluminescence -Indicator element through a possibly write-in signal that occurs more briefly than the desired display duration, at the one in one of the two connecting lines between the two connections the AC power source and the display element by a DC voltage source Series connection of the switching current path fed by a display clear signal lockable, otherwise closed switching transistor with such a thyristor circuit is provided, which alternate and in the same way when the write-in signal occurs Direction of how the polarity of the switching current path becomes direct current permeable and as a result of their memory effect, possibly also over the duration of the write-in signal addition up to the point in time caused by the next display-clear signal Blocking the switching transistor remains permeable, d a -characterized in that the thyristor circuit contains only a single thyristor (13) which both as Switch acts as a memory and for this purpose with its anode-cathode line in series with the switching current path of the switching transistor (4) with the same polarity is connected and the gates (12) of which the write signals can be supplied, and that the DC voltage source (3) to the series connection of the thyristor and the Switching transistor via an isolating diode (10) is connected to the thyristor and the switching transistor is polarized in the same direction.