DE1138099B - Arrangement with settable, magnetic components on bistable trigger circuits - Google Patents

Description

So-called memory elements are used to store control commands, for example a bistable semiconductor flip-flop. This bistable multivibrator is activated by a short-term Control command tilts and then gives a corresponding signal at the output for any length of time away.

In the case of multivibrators of this type, disturbances can occur after failure of the supply voltages occur in that the circuit remains in a wrong working position after voltage recovery. The state assumed after voltage recovery is caused by even minor circuit asymmetries conditional. This circuit asymmetry can, for example, also depend on the ambient temperature be dependent. A toggle switch that assumes a certain working position by means of a control command can thus after the supply voltages return after a power failure receive either the original or a different working situation in an uncontrollable manner. Especially when using such memory elements in industrial controls or data processing Machines, the storage elements must be designed so that they each have the location, the remembered them before the power failure, and remembered them too resume when the supply voltages are switched on again.

To solve this problem, a device has already become known in which the two working current branches the trigger circuit through a saturable transformer with opposite winding polarity are coupled. This transformer is used in relation to the collector currents in both Circuits achieved an asymmetry in favor of the circuit that was last energized before the power failure. It has been shown that in a bistable multivibrator built up from semiconductor elements after When the supply voltage returns, both elements will initially draw current. Only after After a certain time, the circuit flips into one or the other position. Due to the inductive coupling however, the collector circuit acting in the opposite direction on the transformer is with respect to the State of magnetization of the transformer between the two opposing collector currents there is an immediate mutual dependency in an undesirable sense, which often leads to incorrect switching Cause. The influence of the collector current in a branch on the state of magnetization of the magnetic component acts

Arrangement with saturable, magnetic components on bistable trigger circuits

Applicant:

Licentia Patent-Verwaltungs-G. mb H.,
Frankfurt / M., Theodor-Stern-Kai 1

Dipl.-Ing. FeKx Lentze, Darmstadt,

and Dipl.-Ing. Tronje v. Briesen, Frankfurt / M.,

have been named as inventors

Influence of the collector current in the other branch directly counteracts it. Minor circuit asymmetries or unselected core material can therefore cause the recurring Voltage forces the flip-flop into the undesired position.

The arrangement according to the invention avoids the disadvantages of the known circuit. this will achieved according to the invention in that the two switching elements of the trigger stage each have a saturable Magnetic core is assigned with two windings each, one winding (working current winding) each is in the working circuit of the associated switching element and its other winding (Auxiliary current winding) then in each case from one to the one in the open state through the working current winding of the core in question flowing working current oppositely magnetizing auxiliary current is flowed through when the assigned switching element is blocked.

In the normal case, the magnetic core assigned to the opened switching element is thus replaced by the latter Working current, the core of the other closed switching element from one opposite to that in the open state flowing working current flows through opposite magnetizing auxiliary current. If the supply voltage comes back after a failure, the operating currents of the switching elements find their way a highly asymmetrical circuit in two different cores in favor of the pre-failure Current-carrying switching element before, because the magnetic core assigned to this switching element is the relevant working current no noteworthy

209 677/211

Offers resistance, while the magnetic core assigned to the switching element which was closed before the voltage failure would have to be magnetized by the working current. By dividing it into two magnetic cores however, there is no direct counteracting mutual influence of the two Collector currents take place as in the known circuit. The cores become independent during the start-up process influenced by each other. The division gives

In addition to this known bistable multivibrator, the invention provides a saturable magnetic core RiI, RH for each transistor TrI, Tr 2 , which can be designed as a toroidal core, for example, and two auxiliary circuits. In this exemplary embodiment, each magnetic core has two co-directional windings Wl, W 2, the winding Wl each in the collector circuit (working circuit) of the transistors and the winding W 2

clear the way for each collector current. Which is placed in the auxiliary circuit for the io. Appropriate

The core assigned to the last current-carrying circuit is one the number of turns of the winding Wl is always greater and faster in saturation than the other core
in the remagnetized state. Circuit unbalance

trien have thus in an advantageous manner within

make W 2 as the number of turns of the winding. The auxiliary current i _H 2 for the magnetic core Ri 2 assigned to the transistor Tr 2 is before the resistor R 2

relatively wide limits no influence on the radio 15 from the collector current of the other transistor TrI

functional efficiency of the circuit. During the overturning in the previous position takes place in advantageous Way an additional indirect influence of the two collector currents in a supporting sense

branched and flows through the winding W 2 of the core Ri 2 as well as a rectifier Gr 2 and a resistor Rl. The auxiliary current for the magnetic core RiI assigned to the transistor TrI is correspondingly forward

instead, since the 20 at least partially passes through the resistor R 3 from the collector current of the

The magnetic core assigned to the switching element locked before a power failure induces a Voltage has the consequence that is transferred to the previously opened switching element that this still

whose transistor Tr 2 branches off and flows through the winding W2 of the core RiI and a rectifier GrI and also the resistor R1. The auxiliary current i _H 2 can therefore only flow when

co-directional windings in each case opposite to the collector current flowing through the windings Wl.

The windings can also be attached to the core in opposite directions. In this case the current direction is to change. It is essential that for each core of the auxiliary stream the core concerned in one magnetized in the other direction like the assigned one

Core material is provided.

On the basis of an embodiment of the invention shown in the drawing, the invention explained in more detail.

The drawing shows the two semiconductor switching elements TrI, Tr 2 of the bistable multivibrator, for which transistors are provided in this exemplary embodiment. The bistable multivibrator is still known

is further forced to open, which on the other hand conducts the transistor TrI, that is to say, however, due to the way in which the actual Tr 2 functions, the transistor blocks. The polarity of the auxiliary currents is the other in borrowed bistable multivibrator, ie before
Failure of the supply voltages, closed
Switching element is also influenced in the blocking sense. The arrangement 30 according to the invention
one thus has the advantage that after a failure of the supply voltages and after the return of the same, the bistable multivibrator will certainly assume the same position as it was before
Failure of voltages held when circuit 35 working current.

asymmetries are present or no selected The decrease in the auxiliary current for a core of

the collector current of the switching element assigned to the other core is an advantageous embodiment. Basically you can control a direct current source in the working rhythm of the flip-flop so that z. B. the auxiliary current i _n 2 for the core Ri 2 only flows when the transistor Tr2 is blocked, ie transistor TrI is open. The same applies to the auxiliary current i _H 1. Through the rectifier GrI

Way with two inputs El and E2 and galva- 45 and Gr2 one achieves that the auxiliary current provided only by nischer coupling. The rectifier Gr 4, the winding W 2 of the core can flow, whose supply and Gr 5 are decoupling diodes. The orderly transistor circuit is just locked. also contains in a known manner the resistance The function of the circuit is based on the fact that the

stands R 4 to Rl. The rectifier Gr 3 and Gr6 operating points of the two magnetic cores RiI, Ri2 are used to ensure that only pulses of a certain polarity 50 can get through the currents to the bases of the transistors during normal operation. According to the polarity and size in the saturation collectors of the transistors are to be brought about work resistance. If the supply voltage levels R 2, R3 fail, they are set to zero potential. You return the bistable voltage to the remanence point. The flip-flop as such works in such a way that when it is switched on again, the voltages induced in the ring alternating pulses on the two inputs El, 55 cores are given the flip-flop in its E 2 , also alternately transistor old position back.

TrI or transistor Tr 2 conducts current, the circuit First consider the case that the tran-

thus passes from one position to the other and the transistor TrI conducts current, while the transistor Tr 2 is inverted. At the output clamps A1, A 2 which is blocked. The core RiI is thereby changed by the KoI-Tfansistoren, the potential changes according to 60 lektorstrom from transistor TrI over the winding between 0 + 12 volts, measured against OVoIt. Wl clearly brought into saturation. About the

In principle, it is also possible to use a different structure on winding ^ 2 of the core RiI , only the small, well-known bistable multivibrator can be used, reverse current of the rectifier GrI, which is irrelevant. B. with ÄC coupling, those with an input, device is. At the same time flows via the winding at the successive pulses tilting loading 65 W 2 of the core Ri 2 © in current whose polarity act for, or circuits having an output and so the core Ri 2 opposite to its Wick To construct With the bistable multivibrators, tubes can also be used in addition to the normally flowing collector current W1. is. This means that the core Äz2, which in the working

circle of the blocked transistor is, is premagnetized so that the winding Wl would represent a very high resistance for a collector current. In the event of a supply voltage failure, the following happens in detail:

1. The operating point of Kerni? / 1 has been brought into saturation on its hysteresis curve by the collector current through the winding Wl and goes back to remanence in the event of a supply voltage failure.

2. The working point of core Ri 2 is saturated on its hysteresis curve by an auxiliary current i _H 2 through winding W 2 - the collector current of transistor 2> 2 is 180 ° out of phase and also goes back to remanence in the event of a supply voltage failure .

As a result, both cores are magnetized in opposite directions. Now the supply voltage is back switched on, a distinction must be made between two cases:

1. In the event that the transistor TrI wants to conduct current after switching on, i.e. the desired case, nothing happens that would counteract this, since the core is pre-magnetized in such a way that the collector current of the transistor TrI does not find any resistance in the coil.

2. If the transistor Tr 2 would like to conduct current, the voltages induced in the windings Wl and W 2 of the core Ri 2 prevent this from occurring, and at the same time ensure that the transistor TrI is opened.

In detail, this process proceeds as follows: If Bach wants to carry current when the transistor Tr 2 is switched on, this current would have to remagnetize the core Ri 2. An EMF thus arises on the winding Wl of the core Ri 2 , which is polarized in such a way that the beginning of the winding becomes positive compared to the end of the winding. Via the galvanic connection between the end of the winding and the base of the transistor TrI , the latter is now forced to open and conduct current, as a result of which the tipping over into the desired position takes place. At the same time, the transistor Tr 2 is retroactively blocked by the coupling between the transistors. This essential induction effect, which does not exist in the known circuits, thus significantly increases the circuit symmetry in favor of the transistor TrI.

The memory designed according to the invention is not used for a specific technical one

30th

35

40

45 area restricted. In principle, it can be used wherever semiconductor flip-flops can be used. This is particularly important in addition to the data-processing machines in industrial plants that are idle Controls the case, especially with follow-up or cycle line controls, ζ. B. in the Automotive industry, with counting circuits, control of an oscillating movement (machine tools) Control of vibratory molding machines, press controls, control of filling machines, in conveyor technology (Hoists, elevator controls) etc.

Claims (4)

PATENT CLAIMS: 1. Arrangement with saturable, magnetic components on bistable flip-flops to avoid false commands when the supply voltages return after a previous failure, characterized in that the two switching elements (TrI, Tr 2) of the trigger stage each have a saturable magnetic core (RiI, Ri 2) with each two windings (Wl, W 2) is assigned, one winding (working current winding Wl) of which is in the working circuit of the associated switching element and the other winding (auxiliary current winding W 2) is then in each case by one compared to that in the open state through the winding (Wl) Core flowing working current is traversed oppositely magnetizing auxiliary current when the associated switching element is blocked. 2. Arrangement according to claim 1, characterized in that each auxiliary current assigned to the two switching elements of the flip-flop is branched off in front of the load resistor (R2, R3) of the one switching element and in each case via the auxiliary current winding (W 2) of the magnetic core assigned to the other switching element and one Rectifier (GrI, Gr 2) and a resistor (RiI) common to both auxiliary circuits to the neutral conductor. 3. Arrangement according to claim 1 or 2, characterized in that for both magnetic cores the number of turns of the working current winding (Wl) is greater than the number of turns of the auxiliary current winding (W 2) . 4. Arrangement according to claim 1 or the following, characterized in that all switching elements the flip-flop transistors are used. Considered publications: German Patent Specifications No. 1035 206, 1036 920; German interpretative document No. 1050 376. 1 sheet of drawings © 209 677/211 10.62