DE1234789B - Standard module for performing logical functions with a relay - Google Patents

Description

Standard module for performing logical functions with a relay The invention relates to a unit module for performing logical functions with a relay, in particular a protective tube contact relay.

It is already known to build basic circuits for performing logic functions with relays. The OR link is released by connecting the contacts of the relays controlled by the individual input signals in parallel, while the AND link is released by connecting the relevant contacts in series. This method of connection has JE but the disadvantage that a relay is required for each input variable, and that only one of these links can be carried out in each case because of the fixed wiring of the contacts. Of course, this disadvantage could be remedied by multi-contact relays, the contacts of which form an OR circuit on the one hand and an AND circuit on the other hand, but this requires a great deal of effort. In addition, no negation or inhibition circuit can be formed with this last-mentioned solution; this would require relays with normally closed contacts.

All of these possibilities listed above to form various Logical combination circuits, however, do not allow the construction of a unitary module to, with which a variety of different links are possible without the effort involved in additional components that are not used for every link would have to be increased.

The invention is therefore based on the object of proposing a unitary module that requires only a single relay and a few other components. The unit module according to the invention is characterized in that the first connection of the relay winding is connected to one pole of the operating voltage via a series resistor, that a relay contact is connected between the output and a first input, that the second and first connection of the relay winding are each connected via a decoupling rectifier are connected to a second and a third input and that the inputs are optionally to be connected to the other pole of the operating voltage.

This unit block can be used without changing the internal wiring and without essential parts not being used, as an AND circuit, intermediate relay, Negation circuit or inhibition circuit are used.

Since only one contact is required for the link and this only one Contact is preferably a working contact, the component according to the invention is in particular suitable for protective tube contact relays with only one normally open contact.

By leading out the second terminal of the relay winding to one additional input, it is possible from the standard building block through an external one Coupling between this additional input and the output a circuit arrangement with storage property.

Further details of the invention emerge from the following description of the figures. It shows F i g. 1 shows the circuit diagram of the unit module according to the invention, FIG . 2 shows the pulse diagram of the module without memory property, FIG. 3 the pulse diagram of the module with memory property.

The one shown in FIG. 1 consists of a protective tube contact relay with a winding Rel, which is connected to the negative pole - Ub of the operating voltage via a series resistor R 1. The input e 1 is connected to the output a via the contact K. Both terminals of the winding Rel are each connected via a diode D 1 and D 2 with further inputs of e 2 and e. 3

If positive potential is applied to e2, the Re-Ials attracts, and the ContactK connects el to a. The relay can be attracted by a positive potential can be prevented on e3. If the input e2 is firmly at positive potential, it can relays attracted by this are also thrown off by a positive potential at input e3 will.

In order to avoid high switch-off voltage peaks, the relay winding Rel is bridged by a diode D 3. This diode leads to a drop-out delay, but this is desirable in most cases if it is of the order of magnitude of the drop-out delay, so that a symmetry of the pick-up and drop-out behavior is achieved in this way.

When linking the signals at the inputs el, e2 and e3, it should be noted that the control signals at the inputs e 2 and e 3 must have a certain minimum amplitude in order to make the relay respond or throw it off, while the amplitude of el doesn't matter. In addition, input el is in no way bound to potential. The signals e2 and e3 come to the response or. The relay release time is delayed to take effect, while the input signal el appears immediately at the output when the relay is energized.

The logical connection, which with the in the F i g. 1 (without the diode D 4 and the resistor R 2), is: a = e 1 - e 2 - _e3. If certain inputs e are not connected (e = 0) or connected to positive potential (e = 1), the following links can be made: AND circuit: e3 = 0 a = el-e2 Intermediate relay: el = 1 a = e2 e3 = 0 Negation circuit. el = 1 a = e e2 = 1 Inhibition el = 1 a = e2- «i3 However, if the signal appearing at output a is fed back to the additional input e4 (e4 = a) and the input el is connected to positive potential (el = 1) via the combination shown in dashed lines with the diode D 4 and the resistor R 2, so a circuit arrangement is created with memory behavior. The resistor R 2 is dimensioned so that the relay Rel is safely held straight. The timing diagram of FIG . 3 shows this function in detail. Bistable multivibrator: el = 1 a = 0 (after switching on) e4 = aa = 1 (if e2 = 1 for a short time) a = 0 (if e3 = 1 for a short time) It is also possible to delete the state (a = 1) if the positive potential at e 1 is removed for a short time. Less energy is required for this than if input e3 is marked, especially if several steps are to be deleted.

Claims (2)

Claims: 1. Unit module for performing logical functions with a relay, in particular a protective tube contact relay, characterized in that the first connection of the relay winding (Rep via a series resistor (R1) with one pole of the operating voltage (- Ub) connects the output (a) and a first input is connected, that a relay contact (K) intermediate (el) is connected, that the second and the first terminal of relay winding (Rep via a respective decoupling rectifier (D 1 and D 2) with a second and a third Input (e2 or e3) are connected and that the inputs can optionally be connected to the other pole of the operating voltage. 2. Unit module according to claim 1, characterized in that the relay (Re4 has a normally open contact (K). 3. Unit module according to claim 1 or 2, characterized in that the second terminal of the relay winding (Re4) leads out to an additional input (e4) 4. Unit module according to one or more of the preceding claims, characterized in that a spark suppressor, preferably a rectifier (D3), is connected in parallel with the relay winding (Rep).