DE2344891A1 - Electronic relay - trips switching processes without feed-back by means of light current signals - Google Patents

Abstract

It uses a luminescent and a photosensitive component. A thyristor operates load circuit is controlled by a low voltage optical coupler, and an intermediate circuit is inserted between these two; the intermediate circuit consists of a first transistor whose output is connected through a collector resistor to the load circuit positive and negative terminals; a high potential is applied through a second resistor to its base, to which the signal from the optical coupler is applied; a second transistor receives the signal from the first, and its output is connected through a collector resistor to the thyristor control electrode; the above first transistor is a low voltage transistor, and the second is a high voltage transistor; or a thyristor is used instead of the second transistor.

Description

DIPL-INC. A. PANTENBURC 753 pforzheim

WESTERN 24

PATENT ADVOCATE PO Box u6o

TELEPHONE (07231) 12400

Wolfgang Hoffmann.
6142 Bensheira-Auerbach
Schoenbergerstrasse 30th

Electronic Selais "

The present invention relates to the field of electrical Schalttechniiik "and in particular an electronic relay,. which allow the switching of loads in the energy range and ::; it can control very small outputs in the low-voltage range is.

Lin known Proble ..: the Ilalbleiter-ochalttechnik is the xo ^ ^ exi iaitrennung between S ^ except circuit and load circuit aur LIR ^ ^ ielun back ^T; irkun £; 3rreier shifts..

The new xdings promise an interesting solution to this problem to bring the well-known Photo-Zoppler, the ira essentially from the arrangement of a Lura incense diode and one light-sensitive transistors, which are combined in a closed sana. The application such:. However, until recently, switching was limited to low-voltage switching technology.

'.7ie only recently known and for example in "Electronics" runs; 4, page 123, it should now be possible to develop light-controllable thyristors and convert them into

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23U891

include the mentioned photο couplers. That made it Theoretically possible, switching operations in the energy area are non-reactive to be controlled from low-performance IT low-voltage circuits. However, there is a significant disadvantage to this technique first of all, that such photothyristors are not yet ready for production and therefore not yet commercially available. You have too low a reverse voltage. Your applicability will also limited to years for price reasons.

The object of the invention is an electronic relay with the Properties of a photothyristor coupler, which however does not include a photothyristor.

Further details of the invention will now be given with reference to a preferred one Design and with reference to the enclosed ^ 'c Drawing should be explained.

A first assembly of the Belais according to the invention is a conventional photo coupler 10, which consists of a luninescence diode 11 and a light-sensitive Έ1 edervolt transistor 12.

At the output of the known low-voltage coupler 10 is "a" Transfer circuit 20 connected, which in turn acts on the actual load circuit 30, which in the usual 1 / eice auc a thyristor 31, a 2-input rectifier 32 and a load 33 can exist.

The one between the coupler 10 and the load circuit 30 transmission circle 20 is an essential heritage of the Erfinc-un; In the embodiment shown here, the transmission circuit consists of a first ITiedervoIttransistor 26, a:.; second low-voltage transistor 27 and a Ilochvoltransistor 25. The base of the first xliedervolttransictors 26 is about a Resistor 21 connected to the positive pole of the pulsating DC voltage from load circuit 30, while its emitter is connected to de:.; The negative pole of the pulsating DC voltage is connected. Between The base and emitter of the transistor 26 is the output dea Photo coupler 10 placed.

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The collector of transistor 26 is. with the base of the high-voltage transistor 28 and connected via a resistor 22 to the positive pole of the load circuit. The collector of the transistor 28 is connected to the positive pole of the load circuit via a resistor 2A- connected, while its emitter is connected to the control electrode of the thyristor 31 <les load circuit '30. Instead of of the Kochvolt transistor 28, a thyristor with a sensitive control electrode can also be used.

The mode of operation of the arrangement is now as follows: If the Luminesensdiode 11 in the coupler 10 does not emit any light, the transistor 12 is non-conductive or high-resistance. This allows the base of transistor 26 to draw enough current to to keep transistor 26 on, causing the base of the High-voltage transistor 28 is essentially set to negative potential and the transistor 28 becomes non-conductive. The control electrode of the thyristor 31 of the load circuit 30 can therefore not draw any current, which is why the load 33 also remains de-energized.

As soon as the Luiaine sz ensdiode 11 of the Eoppler 10 is activated and emits light, the transistor 12 becomes conductive and applies the base potential of the transistor 26 substantially to the liinuspotential of the load circuit 30. This opens the transistor 26, whereupon the base of the high-voltage transistor 28 draws current through the resistor 22. At this moment you can the control electrode of the thyristor 31 also draws current via the resistor 24 and the transistor 28 which is switched through the thyristor 31 ignites and the load 33 switches on.

As also shown in the drawing, the transistor is on the output side, a transistor 27 is connected in parallel, the base of which is connected to the connection point of a voltage divider which consists of resistors 25 and 23. The outer end of the resistor 25 is connected to the positive pole of the load circuit connected, while the outer end of the resistor 23 is connected to the kinematic pole of the load circuit. The ones from the elements 27, 25 and 23 existing circuit prevents the ignition of the

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Thyristor in a phase range in which the voltage of the sine wave is above a certain value. These Circuit measure known per se serves to suppress interference to avoid radio or television interference.

As one can see from what has been said above, known and available ones are grounded Semiconductor elements for low and high voltage technology summarized in such a way that the overall circuit has the properties of the coupler described above, equipped with a light-sensitive thyristor. Indeed However, the technologically not yet fully developed and therefore unavailable photothyristor is avoided.

BADOR ₁ GlNAt ⁵⁰⁹⁸¹² ' ⁰⁹¹¹

Claims (3)

Claims; % £ My electronic relay for reaction-free triggering of Switching processes in the energy range through low-voltage signals using one luminescent and one photosensitive Component, characterized in that a "known, thyristor-operated load circuit (30) via a known per se, with a light-sensitive transistor working IT low-voltage photocoupler (10) controlled and between this a transmission circuit (20) is connected. 2. Relay according to claim 1, characterized in that the transmission circuit (20) consists of a first transistor (26), the output of which via a collector resistor (22) between the plus and the outward path of the load circuit is laid and whose, 3asis raised via a series resistor (21) Output signal of the photocoupler (10) receives, and a second transistor (28) whose base the signal of the first Receives transistor (26) and its output via a collector resistor (24) placed between the collector and control electrode of the thyristor (31) of the downstream load circuit (30) is. 3. Relay according to claim 2, characterized in that the first transistor (26) of the transmission circuit (20) is a high-voltage and the second transistor (28) of the transmission circuit is a high-voltage transistor t. 4 ·. Relay according to claim 3 »characterized in that in the Transmission circuit (20) instead of the second transistor (28) a thyristor is used. 5- relay according to one of claims 1 to A-, characterized in that that the first transistor (26) of the transmission circuit (20) has a further transistor (27) connected in parallel on the output side is whose base with the entanglement point is a Voltage divider (23.25) is connected between the plus and minus paths of the load circuit. (30) is laid. 509812/0911 Blank page