DE1071130B - Annular splitting with several stages, each containing an amplifier element controllable by different potentials - Google Patents

Description

mo

GERMAN

INTERNAT. KL. "

03

PATENT OFFICE

EDITORIAL NOTICE 1071130

S55379VIIIa / 21a ¹

REGISTRATION DAY: SEPTEMBER 30, 1957

NOTICE Il A ¹ J ] / OO IQl

THE LOG '"T ^ J ^ - ^<£ " - ^' ^ -

ANDOUTPUTE

EDITORIAL: DECEMBER 17, 1959

Ring circuits with amplifier elements that can be controlled by different potentials, are known. Such circuits in which as amplifier elements z. B. tubes, transistors or bistable multivibrators are used, one uses z. B. in communication technology for counting or storing pulses. The impulses are fed to a control line that is connected to * all stages of such a ring circuit.

Usually, circuits for pulse counting are used in the form of a daisy chain. The chains consist of a number of bistable flip-flops, each of which has two elements without storage capacity, z. B. high vacuum tubes contains. Such a chain circuit with bistable multivibrators is mostly operated in the binary counting mode, but there are also known measures with the help of which the named Be able to count derailleurs e.g. decadic. A fundamental shortcoming of such circuits with elements without storage capacity, the effort of two elements per counting level increases see.

But there are already circuits for pulse counting become known, the z. B. according to the tertiary Work by counting and are made up of three levels, with each level being a single controllable element without storage capacity, in particular a high vacuum tube contains. Such a known circuit consists z. B. of three multigrid tubes which are coupled to one another using static and dynamic coupling elements so that each Tube receives a different modulation potential at its control grid. Every tube works with it another working point; in such a way that one tube is almost non-conductive and the second tube is full conductive and the third tube is half conductive. The counting pulses reach all control grids of the tubes coupled to one another and move the various levels of the tube to Tube. This circuit is relatively simple and can be used without any special effort be used to count both positive and negative pulses, i.e. H. this circuit can count forwards and backwards. The advantages mentioned are, however, due to the disadvantage the instability is canceled again, since the known circuit causes natural oscillations due to self-excitation tends. This self-excitation is promoted by the use of dynamic coupling elements.

It has been also tried, the instability of the known ring circuit in spite of maintaining static and dynamic coupling means between the output electrode and the control electrode of successive controllable elements thereby IO

Ring circuit with several stages,

each one through different potentials

controllable amplifier element included

Applicant: Siemens & Halske Aktiengesellschaft,

Berlin and Munich, Munich 2, Witteisbacherplatz 2

Dipl.-Ing. Karl Rutkowski,

Großhesselohe near Munich,

has been named as the inventor

20th

eliminate the fact that the dynamic coupling is interrupted at at least one point on the coupling path or that the dynamic coupling means

art are attenuated so that the ring circuit is prevented from becoming unstable.

This known circuit is self-exciter-free, It has been found, however, that a step can easily be skipped in the course of switching,

which leads to a falsification of the counter result.

In addition, the progression of the individual stable states in this known circuit takes place in in such a way that all stages of the ring circuit form two groups in each operating state, of which the

one only conductive and the other only blocked, z. B. tubes contains. The pulses to be counted now open a tube one after the other and arrange them the group of open elements, while at the same time an open tube is blocked and thus the

Group of locked items is assigned. As a result, a different number for each counting step is conductive or blocked by elements, no immediate result output can be achieved, i.e. h., it an additional conversion is required.

The invention is based on the object described Eliminate deficiencies. .... The invention relates to a ring circuit. with several, in particular with three levels, each of which has a control that can be controlled by "■ different ... potentials

Stronger element without tilting properties, in particular a flat transistor, included and on a common. Control line are on "; which control signals, preferably counting pulses, which each correspond to the only activated level (e.g.

: · ■■■ 909 689/399

conductive transistor) activate the next stage, which is prepared by the activated stage, and the one before Return the activated stage to the inactive state, whereby the stages are linked to each other via coupling

Coupled with the output electrode of the respective following stage via directional conductors R2, RZ, Rl. Decoupling directional conductors ERl, ER2, ERZ Connect all stages of the ring circuit with the common one

Management lines are connected, via which of the 5 control line SL, to which the counting pulses ZI are applied

activated level starting with the not activated Steps are held in this state and those of the activated step in the step-up direction the following stage is being prepared.

will. The resistors W1, W2, WZ are limiter resistors. The contact k is used to start the circuit. The contact k is assigned to the first stage here, but can be any

Such a ring circuit is according to the invention so that stages are assigned. The emitter of the transi is characterized by the fact that each stage with the interfering T1, T2, TZ are at a fixed potential, the stage via a static coupling line, which is -30V.

preferably each contains a resistor, the circuit according to the invention is now working

is bound, via which from the output of an activated as follows: It is assumed that with the help of stage the input "def" fölgehdeh stage a blocking 15 of the contact k of the transistor Tl is made conductive potential, and that the output was each by its base an im. Compared to the stage with the input of the previous stage via potential at its emitter positive potential is coupled to a polarized directional conductor in such a way that it is guided. As a result of the activation of the transistor Tl of stage I lying at the output of an activated stage, the transistor Tl is conductive, and the directional conductor is permeable and the previous stage 20 appears at the collector of transistor Tl and low-resistance blocks and at the same time one of the previous ones Tap ^ 423 derives the potential of -30 V. going level counting pulse, while the other directional conductors are blocked for the blocking of the transistor T 2, so that the voltage division across the resistors W21, W22, one counting pulse is only on that of the activated stage W 23 between -40V and -30V is decisive. The following stage can prevail, whereupon the transistor T 2 at 25 is blocked in this way via a static coupling to the output of this now activated stage, the resistance of which is large . conductor R1, which in this case is at the forward potential

In the ring circuit according to the invention, which is connected and thus blocks the transistor T 3 of stage III amplifier elements without tilting properties in a low-resistance manner. As a result of this low resistance, a finely static coupling of ho.cliohmigen blocking of the other stage through the stage to stage is carried out to determine a defined continuation of the one stage and the preparatory circuit sequence, whereby the coupling just conductive stage can receive a counting pulse there is still a non-linear characteristic on the elements. As a result, transistor T2 prevails in a defined and switching manner, while the counting pulse is managed in a technically controllable manner so that an activated stage is suppressed with security at the base of the transistor T3, which is blocked with low resistance. The directionally inactivated state holds and at the same time also conductors R2 and RZ are in this state, in which the activated stage remains in this state. the transistor Tl conductive, the transistor T2 before

An exemplary embodiment of the invention is prepared to be blocked on hand 40 and the transistor T3 has a low resistance described in more detail in the drawing. is blocked, at blocking potential and are thus in

The ring circuit according to the invention consists of the blocking direction claimed. Influencing the three levels I, II and III. As a controllable amplifier resistor chain of the activated transistor Tl of element is here in each of these three stages, a transit the other resistor strings is provided forth by the now sistor Tl, T2, and T3 of the npn type. 45 decoupling direction stressed in the reverse direction - If the potential conditions change, conductor ERl can be prevented. The circuit is also using transistors of the complementary type, thus in a stable state, the. Each transistor is connected to its control electrode, If a counting pulse is now sent to the control line ^ L,

here with the base applied to a tap A 11, A 21 and, for example, briefly earth potential, the ^ 431 of an individual resistor chain consisting of four 50 transistor T1s initially remains activated. At the same time, resistors are connected. Stage I includes the but the base of transistor T2 through the counter resistor chain of resistors WIl, W12, impulse raised so far in potential that they WlZ, W1 &, while stage II the resistor chain positive compared to that at the emitter of the transistor T2 from the resistors W21, W22, W2Z and! ^ 24 is potential. With that the transistor is heard. The resistor chain consisting of the resistors 55 T2 is conductive. At this moment the collector WZ1, WZ2, WZZ and WZ4 is part of stage III of the transistor T2 and thus at the tap, 4 33 -30 V, ring circuit. Each resistor chain lies with its low resistance in the ends via the directional conductor R 2 between fixed potentials, here between the resistor chain of the transistor Tl, the -. + 10V and -40 V, each with a resistor art that the transistor Tl as a result the voltage of each chain in the output circuit of the previous 60 division across resistors W 11 and W 12 is between stages. In the output circuit of the first stage, -40 V and -30 V, with its base at blocking potential, is the resistance W TA, which is connected to the chain of resistors. At the same time this affects the KoI-the stage II belongs, while in the output circuit the lektor of the transistor T 2 picked up potential second stage the resistor WZ ^ is, which belongs to the high resistance chain of the stage III via the resistor 1 ^ 33 and so on 65 standing chain of the transistor T3, so that this Tran lies the output electrode of the transistor of the respective sistor remains blocked, but due to the high-resistance stage in the advance direction of blocking for the opening by the next one further tap A 13, ^ 423, ^ 433 the cons - The counting pulse is prepared. The transistor T 2 remains the standing chain of the following stage. The center taps are active until the next counting pulse arrives. A12, A22, AZ2 of all three resistor chains are now fourth, as a control current as a result of the voltage division

at the resistors W 21, W22, W23, W24 of his individual .Widerstandkette, which is now between + 10V and -40 V, can flow into the base of the transistor T 2.

The processes explained using the example of the conductive transistor T1 apply accordingly to the other transistors, ie each transistor that has been activated remains conductive until the arrival of the next control pulse due to the voltage division described on its individual resistor chain. If, for example, the transistor Tl was activated for the first time by closing the contact k , the transistor Tl remains conductive even when the contact k is subsequently opened due to the voltage division at the resistors WIl, W 12, W 13, WU.

The ring circuit according to the invention has been described using an exemplary embodiment with three stages. However, the invention is not restricted to this, as ring circuits with more than three stages using the principle according to the invention, one stage following an activated stage to block high-resistance preparatory, while all other stages are blocked with low resistance, built up can be. The three-stage ring circuit is particularly suitable for counting Pulses in the ternary counting mode.

If necessary, the new ring circuit can also be used to generate pulses. In this case, a fixed potential is applied to the control line, so that the amplifier elements, here the transistors of the individual stages, are sequentially conductive and blocked again and corresponding pulse sequences can be removed from the output electrodes of the transistors T1 to TZ.

35

Claims (2)

PATENT CLAIMS: 1. Ring circuit with several, in particular three stages, each containing an amplifier element controllable by different potentials without flip-flop properties, in particular a flat transistor, and connected to a common control line to which control signals, preferably counting pulses, arrive which are activated on the only one Stage (e.g. conducting transistor) activate the following stage, which is prepared by the activated 4-5 stage, and return the previously activated stage to the inactive state, the stages being connected to one another via coupling lines via which of the activated stage starting from the non-activated stages are kept in this state and the stage following the activated stage in the step-up direction is prepared, characterized in that each stage (I, II, III) with the following stage via a static coupling line, which preferably each has a resistor (W 13, W23, W 33) contains, is connected, via which a blocking potential is fed from the output of an activated stage to the input of the following stage, and that the output of each stage is coupled to the input of the preceding stage via such a polarized directional conductor (R 1, R 2, R 3), that the directional conductor located at the output of an activated stage is permeable and blocks the previous stage with low resistance and at the same time derives a counting pulse fed to the previous stage, while the other directional conductors are blocked, so that a counting pulse can only prevail at the stage following the activated stage, whereupon the directional conductor connected to the output of this now activated stage returns the previously activated stage to the blocking state. . 2. Ring circuit according to claim 1 with three stages, characterized in that each stage (I, II, III) contains a flat transistor (Tl, T2, T3) which has its control electrode at a tap (All, A21, A31) of an individual Resistance chain of four resistors (WIl, W12, W13, WU; W21, W22, W23, W2l ·; W31, W 32, W 33, W 34) is connected, which resistors are between fixed potentials, with one resistor (WU, W2 \, W3fy is in the output circuit of the preceding stage in the step-up direction, in such a way that the output electrode of the transistor of this preceding stage leads to a further tap (^ 13, ^ 423, A33) of the resistor chain, while the center taps 0412, ^ 422, ^ 32 ) of the resistance chains via the directional ladder (J? 1, R2, R3) with the output electrodes of the other levels and via a further decoupling directional ladder (ERl, ER2, ER3) with the control line (SL) common to all levels are connected in such a way that the activated level in d he stepping direction blocks the next stage in its activated state in preparation for modulation, in that the stage that has just been activated feeds the potential applied to its output electrode to the resistor chain of the following stage with high resistance, while the other stages have the same potential via the mentioned directional conductors (Rl, R2, R3) are blocked in that the forward resistance of the aforementioned directional conductor is small in relation to the resistance which is decisive for the preparatory blocking of the stage following an activated stage. Considered publications:
U.S. Patent Nos. 2,591,961, 2,593,452. 1 sheet of drawings © 909 689/399 12.59