DE1095881B - Electrical switching arrangement which only supplies a specific output voltage when the level of a control voltage supplied is within a specified range - Google Patents

Description

GERMAN

Subject of the main patent application S 52704 VIII a / 21 a! is an electrical circuit arrangement, which only then supplies an output voltage, namely at a certain level, if the level of a supplied Control voltage is in a specified range. In this switching device Switches with two input electrodes and one output electrode are used, in which the output electrode supplies a switch voltage when the voltage between the input electrodes is a has such value that they are in a working position. The switching arrangement specified in the main patent application is constructed in such a way that the control voltage is a first input electrode of two Switches are fed jointly to the output electrodes of which a third switch is connected, which is influenced in a suitable manner via these output electrodes. If the first two Switches are in the same operating position, there is such a voltage at their output electrodes, that the third switch provides the specific output voltage of the switching arrangement causes. Here, the first two switches are used as a pair of limit switches with overlapping Area used for the same operating location. The switches used act as limit switches, because they go from their one operating state to their other operating state when the supplied input voltage exceeds certain limit voltages, which are permanently applied to the switch are. A limit voltage is applied to the second input electrode of the first of the two switches Voltage equal to the upper limit of the range and at the second input electrode of the second of the two Switches a voltage equal to the lower range limit.

In the switching arrangement specified in the main patent application, the first two switches the working position as the same operating position, namely when the control voltage is applied to one of the two Switch below the upper range limit and on the other of the two switches above the lower range limit lies. The input electrodes of the third switch are each au an output electrode of the first two switches connected.

In the embodiment specified in the main patent application for such a switching arrangement when the first two switches are in the working position, there is one on the input electrodes of the third switch Voltage of such polarity that it comes into its working position and at the same time its switch voltage as that supplies certain output voltage of the switch arrangement.

The present subject matter of the invention forms a

Electrical circuit arrangement,

which only then a certain

Output voltage supplies when the

The level of a supplied control voltage lies in a specified range

Addition to patent application S 52704 VIII a / 21 a * (Auslegesdmft 1 074 646)

Applicant:

Siemens & Halske Aktiengesellschaft,

Berlin and Munich, Munich 2, Wittelsbacherplatz 2

Dipl.-Ing. Peter Gerke, Munich-Solln, has been named as the inventor

Another exemplary embodiment for the one specified in the main patent application and identified as above electrical circuit arrangement. This switching arrangement specified here is characterized by that here in the working position of the first two switches on the input electrodes of the third Switch has such a high voltage, regardless of polarity, that it is in its working position comes. This causes the specific output voltage of the switch arrangement to be supplied.

Fig. 1 shows an embodiment for a

such switching arrangement. The three switches Sl, S2 and S3 are available here. The variable control voltage is fed to the input electrodes £ 11 and £ 21 of the two switches S1 and S2 together. In this embodiment, the voltages applied to the respective other input electrodes, i.e. here the input electrodes £ 12 and £ 22, are used as the switch voltages, so that the switches can be designed in such a way that in the working position they connect their output electrode A1 or A2 to the Connect through the relevant input electrode £ 12 or £ 22. The switch 5 * 3 also works in this way here. Here, too, the output electrodes could switch through to other voltage sources with suitable voltages. The output electrodes Al and A2 of the switches Sl and S2 are electrodes, each with one of the input and £ 31 £ 32

009 680/364

Claims (5)

3 4 of switch S3 connected. When the two switches emitter the voltage is Uu. At the collectors S1 and S2 are in the working position, between their transistors T1 and T2 , the relay R is output electrodes, a voltage of such a level is closed. It has a make contact r, which are that the connected there switch S3 is in a side to the output electrode of Al of the transitory operating position and its output electrode A 3 is connected 5 stors Tl and turns on the other side to one of its input electrode, the output electrode A3 of switch S3 forms here to the input electrode £ 31. So that the two and leads to the output ^ of the switching arrangement. If switches S1 and S2 are at the same time in the working position, the relay is made to respond, if the level of the control voltage between the output electrode A 3 and the input electrode £ 31 is the lower and the upper range limit, then io is connected. The output electrode A3 could also be switched through the second input electrode £ 12 of the switch S1 to another voltage source with a suitable voltage Uo at the level of the upper range limit voltage.
The switches S1, S2 and S3 could be replaced even if the existing at the input electrode £ 11 is understandably also by other electrical component voltage Ue 11 less than the voltage Uo, and 15 elements if they The second input electrode £ 22 of the switch S2 can be used in such a way that they act as switches which operate a voltage Uu equal to the lower range in the required function.
limit is supplied and a switch is used which switches the operation of the switching through when the order at the input electrode according to FIG. 2 is described. The control voltage £ 21 existing voltage Ue21 greater than the 20 voltage is fed to input £. When the voltage is Uu . It is thereby achieved that the control voltage of the transistor switch Sl is below the at the emitter of the lower limit of variation of the Tl lying voltage Uo, this control voltage could be up to the upper range limit in transistor carry current, since it is of the PNP conductivity type working position and Switch S2 is of the and its base potential is below its lower emitter range limit to the upper variation potential. When the tension is above the limit in the working position. Between the lower emitter of the transistor T2 lying voltage Uu and the upper range limit are therefore located, the transistor T2 could conduct current, since measured, as required, both of them in the working position, and it is of the npn conductivity type and its base potential is Switch 3 turns on and thereby causes it to be above its emitter potential. Both transi can interfere with the delivery of the specific output voltage 30 so at the same time conduct current if 'that of the switching arrangement. In this exemplary embodiment control voltage within the prescribed range, the switch S3 supplies its switch voltage to the control range, that is to say between the voltage Uu and the same as the output voltage of the entire switching voltage Uo . In this case, arrangement also flows. Here it is equal to the voltage Uo. One really a current flows through the two transistors Tl can S3 of connecting a resistor R33 and 35 T2, from the input electrode 12 £ switch in addition to the Ausganselektrode A3, the z with the voltage Uo of the transistor Tl on this. B. at a suitable pole of a voltage source, transistor to its output electrode A 1, via the here z. B. ground, and is accordingly like the relay R and from there via the collector-base resistors i? 31 and i? 32 of Fig. 1 of the main-emitter path of the transistor 72 is sufficiently large for its single patent application. 40 gang electrode £ 22 fluctuates with the voltage Uu. Due to the current at output A when the switch is switched, the relay R is placed in its working position S3 between that of the relevant voltage, and it actuates its working contact r, the pole of the voltage source and the voltage Uo. whereby the output A of the switching arrangement Between the collector voltage of the transistor Tl, which is temporarily under voltage, as an output Input electrodes £ 31 and £ 32 of switch S3 45 voltage of the switching arrangement occurs, is a resistance, which is shown in Fig. 1 by the When the relay R is in the rest position and Resistance R3 is shown. Therefore, if the switch has its contact r open, it acts on S3 because of the output A at its input electrodes of the switching arrangement that at its end lying voltage is in the working position, the resistor R33 flows out of the ground potential. a certain current through its resistance. Man 50 This voltage state of the output terminal A of the can now the switching arrangement present in the switching arrangement can also be used here as an identifier Switch S3 can be used by a relay and the switch Sl that the S expensive voltage and S2 through two transistors. You are outside the specified area, To limit the base-emitter current, patent claims must be made
of the transistors provide base resistors and 55 Select transistors of such a conductivity type that 1. Electrical circuitry, which only the required switch conditions are then met a certain output voltage, namely can. The output voltage of the switch Sl in a certain amount, delivers when the amount of a and S2 is at the collector of the relevant Tran- supplied control voltage in a fixed sistors delivered. With these means, the switching range can be 60, using switches with arrangement can be realized in a simple manner. two input electrodes and one output In Fig. 2 is a circuit arrangement of this type electrode, in which the output electrodes using two transistors and one to provide a switch voltage when the voltage Relay shown. The switch Sl is one of those between the input electrodes PNP transistor T 1 with the base series resistor Rl 65 has the value that they are in the working position, and realized, the base series resistor Al at the one of which two first switches depending on gear £ of the switching arrangement is connected. At the level of the applied control voltage its emitter is the voltage Uo. Correspondingly, come into work at the same time if the is the switch S2 through the npn transistor T2 control voltage to a switch below the top replaced with the basic series resistor R2 . At its 70 range limit and the other switch above that lower range limit, with a third switch connected to it causing the delivery of the specific output voltage of the switching arrangement, according to patent application S 52704 VIII / 21a ¹ , characterized in that at 5 working positions of the first two switches (S1, S2) at the input electrodes (£ 31, £ 32) of the third switch (S3) a voltage of such a level with any polarity that it comes into its working position and thereby causes the delivery of the specific output voltage of the switching arrangement. 2. Electrical switching arrangement according to claim 1, characterized in that for delivery of the Switch voltage the output electrode of the relevant switch to an input electrode is switched through. 3. Electrical switching arrangement according to claim 2, characterized in that in the working position the output electrodes (A1, A2) of the two first switches (Sl, S2) are switched through to the respective second input electrode (£ 12, £ 22). 4. Electrical switching arrangement according to claim 3, characterized in that the first two switches (Sl, S2) are transistors (Tl, T2) in emitter circuit with base resistors (Rl, R2) , the collectors simulating the relevant output electrodes (Al, A2), and that a relay (R) with a normally open contact (r) is used as the third switch, through whose winding the collector current of the transistors flows. 5. Electrical switching arrangement according to one of the preceding claims, characterized in that the output electrode (A3) of the third switch (5 * 1, R) works via a sufficiently large resistor (R33) on a pole (ground or + U) of the voltage source . 1 sheet of drawings © 009 680/364 12.60