DE2200937C3 - Bistable relay toggle switch - Google Patents

Description

The subject of the application is a bistable relay trigger circuit, which is preferably used as a stage binary counting circuit is used.

In the magazine "Elektronik", 1962, issue 3, p. 85,

draws that the input of a stage via a 40 86 is a digital counting circuit from Relaisketien Capacitor (38) described with a point between Thy-. Each counting level of this relay level exists of two connected via a holding contact

ristor (11) and relay (15) of the previous stage is coupled.

7. Binary counter according to claim 6, characterized in that one in the coupling circuit Zener diode (39) is arranged.

8. Binary counter according to claim 6 and 7, characterized in that the relay (15) is a Reed relay is.

9. Binary counter according to claim 8, characterized in that the winding of the relay (15) is connected in parallel to a resistor (25).

10. Binary counter according to claim 9, characterized in that in parallel with the resistor (25) a diode (23) is arranged.

11. Binary counter after one or more of claims 6 to 10, characterized in that it contains a reset device by a reset pulse via isolating diodes (53, 54) to the bases of the transistors (13, 14) is cash.

Relays that have a first pulse contact for counting up and a second pulse contact controlled for counting down with square-wave pulses will. The edges of the square-wave pulses are switched off via control functions when there is a concern the leading edge energizes a first relay, when the trailing edge is present, both relays are energized.

With this circuit, therefore, an increased technical effort is necessary in order to produce square-wave pulses with a defined shape. The counting stage is activated by activating both pulse contacts at the same time into an undefined switching state or is destroyed. The number of counting levels is just as high like the maximum number of pulses to be displayed.

The DT-AS 1176 210 has a four-stroke circuit described, which consist of a relay with one excitation switching winding, a relay with two excitation windings, consists of two diodes and a resistor. The arrival

12. Binary counter according to one or more controls is done via a pulse contact.

of claims 6 to 11, characterized in that in this circuit too, the

that it contains a setting device through which one of the edges and through the trailing edges of the pulses Set pulse exercised simultaneously 65 switching functions via isolating diodes (62, 63). There is a

A technically complex pulse generator is necessary on the control electrodes of the thyristors (11, 12),

is switchable. which delivers pulses with a defined rectangular shape. the

13. Binary counter according to claim 12, characterized in that the switching cycle comprises three relay functions. At a

22 OO 937 3 4

Chain connection of a plurality of such four clock circuits, resistors 32, 33 and the low input resistance _w ill, therefore, the pulse repetition frequency considerably reduced state of the base-emitter circuit of transistor üert. 13 is dampened. About a millisecond after the

The DT-OS 14 87 874 describes a circuit thyristor blocks and the counting pulse has stopped arrangement for telecommunications systems with bistable Re- 5, the reed relay 15 drops out and contact 15/1 opens, let. The reed relay 15 lasts for a long time via the thyristor To apply rectangular pulses. The pulse duration may be 13, until the counting pulse stops, in this case not be longer than the switching time. The second stage is as in FIG. 1 shown,

of the bistable relay, built up in the same way as the first stage during the time interval. They are one-two successive pulses must be longer. io other ver-Bei via capacitor 38 and Zener diode 39 Chain connection of several bistable relays, their connection with the positive Versoreinem binary counter is the changeover contact of each supply terminal 19 via resistor 40 in connection Stage with the second excitation winding that precedes. The capacitor is marked with point 41 resp. going level connected. connected to the thyristor anode of the first stage, and

A complement formation in the counter by equal 15 the Zener diode is the two-stage with the entry point Control of all stages is not possible because the stage is connected.

Both excitation windings of a bistable relay When the thyristor of the first stage conducts, loads

can be controlled at the same time. capacitor 38 on the supply voltage

As a result, the counter gets into an undefined state via resistors 40 and thyristor 11. If the Switching status or will be destroyed. Furthermore it is 20 thyristor blocks and relay 15 drops, the span light rises possible to set all stages at the same time or to reset the thyristor anode to the positive supply. supply voltage 19, and since the capacitor to the

The object of the present invention is to ensure that a supply voltage has been charged, increases seme Build up bistable relay toggle circuit that briefly increases the voltage to double the voltage No defined square-wave pulses are required, for example at 40 V. This is sufficient to generate a current and for use in a digital counting pulse via the 20 V Zener diode 39, which is used as circuit for setting, resetting and for complete counting pulse at the input of the second stage, which mentation is controllable. works in the same way.

This object is achieved in that the bista- The second stage receives impulses only from the ΚΛηαεη-

Bile relay flip-flop a parallel connection of 30 sator 38, if the first stage switches off, d. H. at Contains thvristor and transistor that are in series with every other input pulse. The second mute a relay is switched, which works with the base of the therefore at half the frequency of the first Relay contact connected to the transistor via the stage.

a voltage divider with the control electrode of the Es can provide any number of such mutes.

Thvristors connected signal input is switchable. 35 can be seen, which are coupled in the same way. A circuit arrangement according to the invention is shown in FIG. Further refinements show the thyristor anodes can only be complementary to FIGS. 2 to 6. According to FIG. 1, the counter contains outputs that can be tapped, since a high positive two stages each with a thyristor 11 (12) par input results in a low output allele to a transistor 13 (14). These are in 40. In this form of a counter, the series of requirements with a reed relay 15 (16) between misses to the counting pulse is greatly increased. The _inforgungsklemmen 19 and 20. Parallel to the relay zigen requirements are that the pulse during the lets the diode 23 (24), to switch peaks to under- pulse period has a sufficient voltage, press Oa, and a resistor 25 (26) to the Current with the thyristor can be ignited, and I that ^ e through the relay 15 (16) to increase so that thyristor 45 pulse height decreases before the reed relay its 11 (12) safely remain in the conductive state ^^^ _eck ^^ _called ^ _ynstoKn ^ _gQ .

Sn pulse counter input 30 is less sensitive via resistor 31 (control current 1 ^ W mJOffl

and voltage divider 32, 33 with the negative choice. (E.g. the ^ J ^ Oto is suitable

supply terminal 20 connected. The connection of the 50 International Rectifier ·.) Die-Verstartauagen der Tran

Soannunesteilers 32, 33 is on the control electrode sistors only need to be about 30 to 50, as one

STtSSStM. In parallel with Lm voltage divider there is stabilization via resistor33 and so on. «Yjj

de? Contact 15/1 of relay 15 and resistor 34, men will. Instead of R ^eed -R ^elai ^ ^k ° ⁿ _r ^ne _a ⁿ _r S _e ^h _t

whose connection to the base of transistor 13 other relays are used The payer arbei et

£ PosUWe counting pulses are emitted via resistor ₅₅ at a frequency of 200 hearts ^ Ben *

San di control electrode of the first thyristor 11 switched on are the ™ .y " ^stor " ^^

supplies. On the first pulse thyristor conducts 11, and th state, so that none of ^a ^ ^c _s ^ _a ^ f ™ ^

Relay 15 responds Approximately one millisecond later is necessary. By simply switching it off, you can do so

Keiais ta spnuu <m. ci ™ . .. _Ό ■ _Aa £ _ra " " _lir u _P : _np r>; ^ VctMiiinovnropnmmen become,

closes relay contact 15/1, and the base of the tran- also one

is2? ar

Ä ^{because otherwise the arrangement in} ts ^^^ t ^^^

Srzggp comes connected via contact. The diodes 561 and SjT verhmderr,

22 OO 937 \ 5 6

The thyristors go out because the current is reduced by the thyristor anode of the previous stage to which the is disconnected by the coil of the relay.

flows and which is not sufficient to conduct the thyristor. An arrangement with complementary pulses can

tend to hold. can be used to determine the number of two

A direct control pulse input 60 can be compared via the following pulse trains without being connected to a stand 61 with each thyristor control electrode via the normal output and complementary output 62, 63 , etc. A connected to terminal 60 .

applied pulse brings all thyristors, which not Fig. 6 shows a similar structure as Fig. 5,

conduct, in the conductive state. The diodes 65, 66 where two numbers are compared by Vorusw. lie in the connections of counting impulses counting upwards starting from 0, through the subsequent input of each stage to the thyristor control electrode, that introduces the complementary input pulse and prevents control pulses from influencing the transistor by further counting up from the complement when the assigned relay is activated out.

has spoken and his contact is closed. The complementary outputs of all stages are with

Fig. 3 shows an arrangement which has a north 15 the inputs of a multiple AND gate verbunmalen output 72 in addition to the complementary. The thyristor anode of each stage is possessed via the DI output 41 . The complementary output 41, barren 95 ", 95 * ... 95" having a common Ausdie anode of the thyristor 11 'is gear via resistor 73 96, respectively. The cathodes of the diodes are connected to the base of transistor 74 which is connected to so that a signal is present at the common output terminal 20 via resistor 75 at input 96 as long as one of the thyristors is closed. The collector of transistor 74 is not conductive the positive terminal 19 indicates that all the thyristors conduct or that the counter, and is used as a normal output. If the maximum number has been reached. If this point locks erThyristor 11, passes transistor 74, so that high enough, after feeding a number, Introducing the voltage at the thyristor anode results in a low voltage as the complementary number and feeding in a further voltage at the collector of the transistor, or at number, it indicates that the second number is equal to the first Spe rrung an output with high voltage. The number is.

Transistor works as an inverter. The counter can be reset to 0 via

F i g. 4 shows the circuit of a forward and backward single additional input counting pulse. To do this up counter with an inverter according to FIG. 3. To indicate deviations, a multiple OR element is provided in accordance with FIG. 3 is the coupling capacitor 38 between the form of a series of diodes 97 ¹ , 97 ² ... 97 ", which see two stages with the previous stage via cathodes with the anode of the thyristor 11, etc. verden two-way contact 82/1 connected, through which it is bound, while their anodes at output 98 either with the normal output 72 (collector of, which leads to the positive terminal 19 via resistor transistor 74) or with the complementary output 35 107 and diodes 108 and 109. Each of these Di - 41 (anode of thyristor 11) is connected. The condensate 97 ¹ , 97 ² ... 97 "conducts, if the corresponding clock 82/1 of the various couplings are so connected, so that, if no signal at the output arranged so that they switch over at the same time. For example, it indicates that no thyristor is conducting or. They are contacts of a single relay 82. that each digit is 0.

If the contacts are in the position that forward 40. With such an arrangement it can be expedient to count, a number will then be from one level to to prevent further counting pulses when transmitted to the next when the first level from 1 to 0 neither the Maximum number or 0 is reached. For this purpose, it switches or if the contacts in the other position according to FIG. 6 the counting input are bridged by treatment, it is counted backwards, and a number is transferred to transistor 101, the base of which is transferred to the voltage divider when a change from 0 to 1 occurs. 45 102/103 , the diode 104 between a F i g. 5 shows an arrangement which has a direct counting impulse prevention input 105 and the negative complementary input so that the positive terminal 20 is connected. In the count of each stage can be changed at the same time. pulse input 30 , the diode 106 is provided to prevent the complementary input 86 from being prevented via one of the diodes, and one of the resistors 88 in each 5 ° sistor 101 .

Stage with the entry point of the counting pulses, namely an application of the comparison described

lent the point 89 of the voltage divider 32, 33 with according to FIG. 6 is connected to an automatic battery contact 15/1 of the relay 15 . A complete charger as described in the German patent application mentärimpuls has the same effect in every stage P 22 00 934.3
like a counting pulse from the previous stage 55. A particular advantage of the counter is that or from the input point 89, that is, the conductive Thy high-power outputs for operating further device ristor 11 is blocked or the blocked thyristor or circuits without special additional on conductive. The diodes 90 and 91 are in the directions. Output couplings of the stages in series with the Zener diode voltages of up to 200 V can be achieved through ge 39 , etc., so that the complementary pulse 60 is suitable for the choice of semiconductor elements.

For this purpose 3 sheets of drawings

Claims (1)

22 OO Patent claims: 1. Bistable relay toggle circuit, preferably for use as a counting stage of a binary counting circuit, characterized in that it contains a parallel connection of thyristor (11) and transistor (13) which are in series with a relay (15) is connected, the relay contact of which is connected to the base of the transistor (13) (15/1) to the via a voltage divider (32/33) with the control electrode of the thyristor (11) connected signal input (30) is switchable. 2. bistable relay trigger circuit according to claim 1, characterized in that the contact (15/1) of the relay (15) is arranged so that the signal input is on when the relay (15) has dropped out the control electrode of the thyristor (11) is located. 3. bistable relay trigger circuit according to claim 2, characterized in that when closed Contact (15/1) the thyristor (11) cannot be controlled. 4. bistable relay switch circuit according to claim 3, characterized in that the input (30) via the contact (15/1) of the relay (15) to the base of transistor (13) and above a voltage divider (32, 33, 34) on a supply voltage and that the tap of the voltage divider is on the control electrode of the thyristor (11). 5. bistable relay trigger circuit according to claim 1, characterized in that the relay (15) has a two-way contact via which the signal input (30) either with the control electrode of thyristor (11) or to the base of transistor (13) is connected. 6. A bistable relay switch connected in a cascade as a binary counter after an or several of claims 1 to 5, characterized in that further diodes (65, 66) are provided which prevent the access of the set pulses to the bases of the transistors (13, 14). 14. Binary counter according to one or more of claims 6 to 13, characterized in that that each stage is provided with a reversing transistor (74), the input of which is parallel to the thyristor (11) of the respective stage and whose collector is connected to the normal output (72) is. 15. Binary counter according to one or more of claims 6 to 14, characterized in that that a switch (82) is provided, via its contacts (82/1) simultaneously the inputs of all levels following the first level from the normal outputs (72) of the previous one Stages to the Xcomplementary outputs (41) and vice versa are switchable. 16. Binary counter according to one of claims 6 to 15, characterized in that it has a control output for formation of complementary elements, which is connected to the signal inputs of all stages via isolating diodes. 17. Binary counter according to claim 16, characterized in that diodes (90, 91) are provided are you; the access of the complementary pulse of a stage to the anode of the thyristor (11) of the previous one Prevent stage.