DE1239729B - Multi-input transistor circuitry for selecting the largest of several direct current signals - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

H03k

German class: 21 al-36/18

Number: 1239 729

File number: M 65064 VIII a / 21 al

Filing date: April 29, 1965

Open date: May 3, 1967

The invention relates to a transistor switching arrangement having a plurality of inputs for selection of the largest of several variable direct current signals, each applied to the different Inputs are present, with a group of transistors whose collectors are each over one another separate resistors are applied to a reference voltage.

From the German Auslegeschrift 1163 377 is a device for comparing electrical Span- ίο It has become known that it contains two transistors of the same type, their emitter-collector circuits are parallel to each other and have a common emitter load resistance. Everyone is there associated with the two transistors a positive feedback device through which energy can be fed back from the collector circuit into the emitter circuit. The feedback device requires an auxiliary group.

The aforementioned known device only provides an indication of the input voltage on greatest is.

In contrast, the object of the invention is to provide a transistor switching arrangement with a plurality of To provide inputs that will pass the largest input signal essentially unchanged and all of them blocks or intercepts other input signals.

To solve this problem, a transistor switching arrangement Proposed of the type mentioned above that the individual inputs are each fed to the emitter of one of the transistors, while the bases of all transistors have a common resistance at a fixed potential lie.

In this way it is achieved that when different voltages are applied to the inputs of the Circuit only that of the transistors, the emitter of which has the greatest input signal applied to it is, is put into the conductive state and thereby a signal from its input to the collector circuit transmits.

The switching arrangement according to the invention has the significant advantage over a device according to German Auslegeschrift 1163 377 that it is effective with relatively simple components without interruption and responds directly to fluctuations in the level of the input signal. Above all, in comparison to the known circuit mentioned, there is no auxiliary circuit to which a pulse has to be fed. In addition, in contrast to the known circuit, the arrangement according to the invention does not require a back transistor switching arrangement with several
Inputs to choose the largest of
multiple DC signals

Applicant:

Minister of Aviation in Her Britannic Majesty's
Government of the United Kingdom of
Great Britain and Northern Ireland, London

Representative:

Dipl.-Ing. R. Beetz and Dipl.-Ing. K. Lamprecht,

Patent Attorneys, Munich 22, Steinsdorfstr. 10

Named as inventor:

John Noel Shearme,

Chesham Bois, Buckinghamshire

(Great Britain)

Claimed priority:

Great Britain 30 April 1964 (17 986)

coupling transformers with one of the positive feedback device specially adapted Tertiary development.

In a further development of the invention, it is proposed that the transistor switching arrangement according to the invention designed so that it changed all input signals with the exception of substantially lets through the largest input signal. For this purpose it is provided that the switching arrangement additionally contains a group of gates, each with its normal input terminal the emitter of each transistor of the first group of transistors and with a blocking input pole connected to the collector of the same transistor.

Each gate circuit preferably contains a transistor, the emitter of which is connected to the emitter of one of the Transistors of the first transistor group connected

709 578/290

3 4

den and whose base is with the collector of the input signal, an emitter current flows into the

same transistor of the relevant transistor transistor Γ 2 and as a result

group is in connection _a ) an output signal occurs at the output Ol

There are two exemplary embodiments below _{to the egg} ° ° ° _{ga gssignal at the} input

the invention described, which corresponds to clamp 5/2 in the drawing, and

are illustrative; it shows, s, ,,. ., ". ","

Fig. 1 is a circuit diagram of a transistor switching b) the base potential of the transistor T2 increases

arrangement with several entrances, which are in such a way- ™ ^db . ^EFFECTIVE ~ ^{because it is too} . ^on the basis of the

is placed that only the largest of several one-transistor Tl is transmitted - a blocking

output signals is passed through, io ^this f transistor which the output _Ig nal

F i g. 2 is a circuit diagram of an extension of the switching point ^{at which Aus} S is »cut off« ^at S ° ^1,
The arrangement according to FIG. 1, which is designed such that in this way the largest input signal receives all input signals except for the largest of these signals from one of the input terminals at which it passes input signals. occurs to the corresponding output terminal

Fig. 1 shows three pnp transistors from a 15 forwarded while all other input signals

Group of several transistors Tl, TZ. . . Tn. Or inputs are blocked and the

The emitters of these transistors are not connected to the corresponding output

one of the input connections II, 12 ... In appear connected.

The prerequisite is that the largest input-separated resistors Rl, R2 ... Rn each with 20 signal is noticeably larger than the other input / return line or ground connections El, E2 .. .En signals. If, however, all input signals are connected, the bases of all transistors are approximately the same size and are therefore connected to one end of a single, common input terminal / 1 ... In in the essential base resistance R b . The other lent the same voltage occurs, the emp end of the common base resistance is connected to the most finite transistor in the conductive state of a return or ground terminal £ δ. The blocking effect will eventually become incomplete. The collectors of the transistors Tl, T2 ... Tn dig when all the input signals are consistent with each other ihrereseits to a respective output terminal of oil, and thereby prevented two or more transistors connected O2 .. .On. at the same time are at least partially conductive; this

The operation of the switching arrangement according to FIG. 1 30 occurs, for example, when all inputs are now explained: Signals in the form of variable output signals are interrupted, so that the acoustic signals positive DC voltages are only given to the noise of the input lines at input terminals II, 12 ... In . First speaks.

Let us consider a point in time at which the largest of the Fig. 2 shows the expanded form of the input signals just applied to the input terminal / 1. 35 described switching arrangement, which is intended to then flow current from the emitter of the transistor, a complementary function compared to Tl through the base resistor Rb, so that the po- to fulfill the function of the circuit of FIG. 1, potential of the base of the transistor Π approximately to elements that show the same effects, in which the level of the voltage at the input terminal / 1 Fig. 2 with the same reference numerals as in Fig. 1 increases. The signal voltages indicated by the other 40. The switching arrangement according to FIG. 2 has ren input terminals 12 ... In the emitters of the input terminals II, 12 ... In , furthermore pnp transistors T2. . . Tn are supplied, there are transistors T1, T2. . . Tn and resistances Rl, below this level, and the bases of all R2. . . Rn and Rb, which are connected as in Fig. 1 transistors Tl. . . Tn are directly with one another; In addition, another group of pnpander is connected. The rise in potential at the base 45 transistors Tl, T'2. . . Tn provided. This of Tl consequently has the effect that the base span transistors Tl, T'2 ... Tn are with their emits of the transistors T2. . . Tn to one of the input terminals II, 12 via the clamps. . . voltages at their emitters to increase (or at least connected to, while their collectors these voltages are each about the same). As a result, with one of the outputs O'l, O'2. . . O'n these transistors Γ2 ... Tn are connected in their 50 den and their bases to one of the collectors of the blocking state, so that no significant transistors Tl, T2 ... Tn are connected via them. Collector current can flow while the transistor. Their bases are also connected to one of the resistors Tl , which is connected from its positions Rl, R 2 ... R ».
Emitter current depends. The resistors Rl to Rn that part of the switching arrangement, which includes the Traninclusive and Rb, must expediently 55 sistors Tl ... Tn and the resistors Al ... Λ η be designed that the transistor Tl (or as well as Rb , works in the As any other of the transistors T2 ... Tn) has been explained above for FIG. So if that carries its saturation current, when it has the largest input signal at the input terminal 71, the highest input voltage; and this collector occurs, it is fed to the base of the corresponding gate current is essentially independent of the 60 transistor T 1, while the input signals are collector voltage. It follows from this that the transistors T'2 .., Tn corresponding to the lower level do not reach the bases of the other output signal at the input terminal / 1. Each of the ons of the signal occurs at the output Ol , but at the output signals one of the emitters of the transistor outputs 02 ... On does not generate an output signal T1, T'2. ,. Tn supplied. The biggest one. The output signal appears at the same time on the emitter

If the signal voltage at the input terminal and the base of the transistor Tl. As a result / 2 now rises above the value of the signal voltage at the, this transistor does not receive a driving emitter input terminal / 1 and thus the greatest base voltage, and it therefore has no emitter voltage.

current; the transistor Tl thus remains non-conductive, and no output signal occurs at the output O'l. In contrast to this, the other input signals are only sent to the emitters of the transistors T2 assigned to them. . . Tn led. Since these signals generate emitter currents and thus trigger the flow of collector currents, corresponding signals appear at the outputs O'l ... O'η . The result is that the largest input signal is blocked or blocked, while the input signals of lower height are allowed to pass through to the outputs assigned to them. The transistors Tl, T'2. . . Tn behave like gates in this circuit, each of which has a normal input (the emitter), an inhibit signal input (the base), and an output (the collector).

It should be clear that the exemplary embodiments described above are only to be assessed as examples serving to explain the invention, since any person skilled in the art can make several modifications to these arrangements. For example, one or more of the connections Eb, El, E2. . . En should be connected to a negative voltage source and not be connected to ground or grounded. The examples described above are designed for working with positive input signals; by replacing the pnp transistors with npn transistors, the same circuit arrangements can be built which work with negative input signals. In this case the largest input signal would of course be one of the input signals that has the maximum negative voltage value. One or more of the connections Eb, El, E2 ... Eη can then be connected to a positive voltage source instead of ground or earth. Since the mentioned circuit arrangements respond to the instantaneous voltage level of the input signals applied to them, they can be designed so that they react very quickly; they can therefore be used in the case of input signals that change very quickly, for example signals such as occur in a speech sound analyzer.

The expanded form of the invention according to FIG. 2 can also be designed so that the transistors T1, T2. . . Tn can be replaced by suitable gates of a different form.

Claims (3)

Patent claims: 1. Transistor switching arrangement with several inputs for selecting the largest of several variable direct current signals, which are each applied to the different inputs, with a group of transistors, the collectors of which are each applied to a reference voltage via separate resistors, characterized in that the individual Inputs (11 ... In) are each fed to the emitter of one of the transistors (Tl ... Tn) , while the bases of all transistors are connected to a fixed potential (Eb) via a common resistor (Rb) . 2. transistor switching arrangement according to claim 1, characterized in that it contains a group of gate circuits, each of which with its normal input pole to the emitter of a transistor of the first group of transistors (Tl .. .Tn) and with a blocking Input pole is connected to the collector of the same transistor. 3. transistor switching arrangement according to claim 1 or 2, characterized in that it contains a second group of transistors (Tl ... Tn ) , each of which has its emitter to the emitter of a transistor of the first transistor group (Tl ... Tn ) and its base is connected to the collector of the same transistor of the first group of transistors. Considered publications:
German interpretative document No. 1163 377. 1 sheet of drawings 709 578/290 4.67 © Bundesdruckerei Berlin