DE1089857B - Circuit arrangement for the automatic clockwise supply of one or more consumers - Google Patents

Description

GERMAN

The invention relates to a circuit arrangement for automatic clockwise feeding one or more consumers, with several parallel to each other connected to the poles of a DC voltage source horizontal series connections each consisting of a transistor and a resistor or consumer are connected.

In a known arrangement for a relay control by means of astable trigger circuit for a polarized Relay with two opposing windings, each of the windings is in one series circuit connected between the poles of the DC voltage source, which also has a ohmic resistance and the emitter-collector path of an npn transistor. The basis of every the transistors is also via an ohmic resistor with the positive pole or, based on the transistor, with the collector-side pole of the voltage source and a capacitance with a Collector of the other transistor connected.

In such a circuit, the peak value of the charging current of the respective capacitor, which is above the emitter-base path of the respective transistor flows, only through the one from the series connection of the ohmic resistance and the resistance of the relay winding existing load resistance of the respective determined by another transistor, and the ohmic resistance in the base circuit of each transistor is limited only the discharge current of the respective capacitor of the circuit.

In contrast, such a circuit arrangement specified at the outset is such according to the invention constructed so that a valve is connected in parallel to the emitter-base path of each transistor, which is stressed in reverse direction when the transistor on the other emitter-collector path is permeable, and the base of each transistor through the series combination of a resistor and a capacitor is connected to the collector electrode of another of the transistors.

Such a circuit arrangement has the advantage over the known one that both the charging current as well as the discharge current of the respective capacitor through the resistor in the base circuit be limited. Furthermore, since the base current is used as the control current, only a fraction of the Collector current of the transistor needs to be, the base peak current is limited to that value necessary to control the transistor. -

An arrangement according to the invention also has the advantage of one over the known arrangement significantly smaller overlap of the currents flowing through the loads in the branches of the circuit, Circuit arrangement

for automatic clock-wise feeding

one or more consumers

Applicant:

Siemens-Schuckertwerke

Aktiengesellschaft,

Berlin and Erlangen,

Erlangen, Werner-von-Siemens-Str. 50

Otto Werner, Berlin-Siemensstadt,
has been named as the inventor

because in the known arrangement flows after blocking the transistor on the in series with the The burden on the collector of this transistor is initially the charging current of the capacitor. This one has in the first Momentary the same value as the normal load current, because the charging current of the capacitor is at this version is only determined by the size of the load resistance.

In contrast, the subject of the invention is the peak value of the charging current of the capacitor apart from the load resistance, the special one connected to the base of the transistor Resistance is limited, and when the respective transistor is blocked, the current through the Burden immediately reduced accordingly, so that the two burdens each other in their current conduction peel off faster.

In the subject matter of the invention, this also ensures the formation of the discharge circuit the valve involved in the respective capacitor to limit the maximum on the grid-base distance of the transistor occurring reverse voltage to the forward voltage of the valve. With the known arrangement on the other hand occurs with the opening or becoming permeable of one transistor on the Base-emitter path of the other npn transistor on the full supply voltage as reverse voltage. the voltage stress on the emitter-base path of each transistor is therefore in an inventive Arrangement a much smaller one. That means a special advantage, because the one mentioned Normally, the stretch of each transistor cannot be tolerated

009 609/327

a reverse voltage as high as the base-collector path.

A circuit according to the invention can also be developed to the effect that in a known manner a any number of consumers replace each other in a cyclical sequential circuit, whereby in the Effect sequence of each transistor depends on the voltage at the emitter-collector path or the Voltage at the consumer resistor of the effective preceding series circuit is controlled.

In connection with a basic circuit according to the invention, as indicated above has been, at least one additional transistor stage can be used, which is only Serves amplification purposes and in turn only directly or indirectly the supply of the consumer controls.

Exemplary embodiments for the application of the invention illustrate the circuits according to FIG Figures of the drawing.

In Fig. 1, 1 and 2 designate the two terminals to which a DC voltage source is applied. Between the lines 3 and 4 connected to these terminals, the transistor 5, e.g. B. of the pnp type, in series with the resistor 6 or the transistor 7, also z. B. of the pnp type, connected in series with the consumer 8, which can be formed, for example, by a lamp. Parallel to the emitter-base path 5 a-5 b of the transistor 5 is the valve 9, parallel to the emitter-base path 7a-7b of the transistor 7, the valve 10 between the base 5b of the transistor 5 and the collector of transistor 7, the series circuit made up of the resistor 11 and the capacitor 12 is switched on, and the series circuit made up of the resistor 13 and the capacitor 14 between the base 7b of the transistor 7 and the collector 5c of the transistor 5.

The operation of the circuit is as follows. If the DC voltage source connected to terminals 1 and 2 is switched on, a current flows from positive terminal 1 via line 3, emitter-base path 5a-5b of transistor 5, resistor 11 and capacitor 12 as well as consumer 8 Line 4 and thus back to negative terminal 2 of the voltage source. This current flows 4-5 until the capacitor 12 is charged. While the flow of this current, the transistor 5 at its emitter-collector path 5a-5c permeable, so that a corresponding current from the positive terminal 1 of the voltage source through the emitter-collector path 5 a-5 c of the transistor 5 and the resistance 6 flows back to terminal 2 of the voltage source. When the transistor 5 is open or permeable, only such a small voltage arises at its emitter-collector path 5 a-5 c , which is not sufficient to allow a control current to flow through the emitter-base path of the transistor 7, so that it starts its emitter-collector path becomes permeable. As soon as the charging of the capacitor 12 ends, the control current also ceases to flow via the path 5a-5b of the transistor 5. This transistor 5 is therefore blocked or impermeable at its emitter-collector path 5 a-5 c , so that the emitter-collector voltage at transistor 5 is high. A control current now flows from the positive terminal 1 of the voltage source via the emitter-base path 7 a-7 b of the transistor 7, the resistor 13, the capacitor 14 and the resistor 6, until the capacitor 14 is full is charged. However, as long as a control current flows through the emitter-base path of the transistor 7, this transistor is permeable at its emitter-collector path 7 a-7 c , and the supply of the consumer 8 is switched on. The permeability of the transistor 7 at its emitter-collector path 7 a-7 c also has the consequence that a discharge circuit is created for the capacitor 12, which is from the upper layer of the capacitor 12 via the resistor 11, the valve 9, the line 3, the emitter-collector path 7 a-7 c of the transistor 7 runs back to the lower layer of the capacitor 12. As soon as the capacitor 14 has been fully charged, the control current ceases to flow via the emitter-base path of the transistor 7. The transistor 7 is then blocked again at its emitter-collector path 7 a-7 c , and the supply of the consumer 8 has been interrupted. As soon as the emitter-collector voltage at the transistor 7 exceeds a certain lower value, the control current begins to flow again via the control path 5a-5b of the transistor 5, whereby the transistor 5 at its emitter-collector path 5a-5 c is reopened or permeable. But if this emitter-collector path of 5 has become permeable, a discharge circuit for the capacitor 14 is created in this way. This circuit runs from the lower layer of the capacitor 14 via the resistor 13, the valve 10, the line 3 and the emitter-collector path 5 a-5 c of the transistor 5 back to the upper layer of the capacitor 14. This is now also the Supply of the control circuit of the transistor 7 again prepared so that the capacitor 14 can be charged again as soon as the transistor 5 is blocked again and a correspondingly high voltage arises at its emitter-collector path 5 a-5 c , which is used as the control voltage for the Transistor 7 is sufficient.

In Fig. 1, a resistor 6 is shown in series with the transistor 5. Instead of this as an auxiliary device the circuit used resistor 6 can also be an effective consumer, z. Legs second lamp, step. In this case, the two lamps, namely lamp 8 and 8, light up the lamp switched on at point 6, alternately clockwise.

In the exemplary embodiment according to FIG. 2, a circuit arrangement is shown which has a cyclic Sequence circuit with four transistors, each of which has a series resistor or each a consumer is connected to the DC voltage source. The four transistors are with 15 to 18 denotes the consumers or resistors lying in series with them with 19 to 22. The Emitter-base path of each of the transistors 15 to 18 is one of the valves 23 to 26 connected in parallel. The collector electrode of the transistor 15 is connected to the resistor via the series connection of the capacitor 28 27 connected to the base electrode of transistor 16. The collector electrodes are in the same way of the transistor 16 via the series connection of the resistor 29 with the capacitor 30 to the Base of transistor 17, the collector electrode of transistor 17 via the series connection of the resistor 31 with the capacitor 32 to the base of the transistor 18 and the collector electrode of the transistor 18 via the series connection of the resistor 33 with the capacitor 34 to the base electrode of the Transistor 15 connected. Such a circuit operates as a sequential circuit analogous to that shown in FIG and the circuit described above,

whereby in a cyclical sequence of more than two consumer circuits a mutual separation takes place in the control of the supply of the individual consumers. The cycle of the circuit of the Consumers 19, 20, 21, 22 are repeated as long as the arrangement is fed from the DC voltage source takes place.

The embodiment according to FIG. 3 of the drawing shows an arrangement in which, in addition to the two Switching transistors 5 and 7, which in their arxo alternate clockwise, still an additional one Transistor 36 is present, which is derived from the output voltage of one of the two transistors, in this Case of the transistor 7, is fed at its control path, so that the transistor for the supply of the consumer acts as an amplifier. This circuit arrangement corresponds in its essentials Structure and mode of operation of those which have already been shown in FIG. 1 and explained in this context has been. In this case, instead of the consumer 8, there is a resistor 35 in the series circuit used with the second transistor 7. In addition, are for the circuit parts, which to the two transistors 5 and 7 belong, as they were already present in the circuit arrangement according to FIG. 1, For the sake of simplicity, the same reference numerals have been retained. In addition, as indicated, the transistor 36 is present, which is now in series with the consumer 8 '. The transistor

36 is with its control path over the resistor

37 at the emitter-collector path of the transistor 7. Whenever the transistor 7 is in the switching sequence is blocked, the transistor 36 is opened or permeable and thus the supply of the lamp 8 ' switched on.

By the same or different dimensioning of the elements from the respective series connection of capacitors and resistance can be the period of permeability of the associated transistor and set differently according to its blocking and thus also the sequential control of the transistors select with the same or different duration. If a circuit according to the invention with more than two consumers, e.g. B. lamps, selected, such an arrangement can be used for the Purposes of a warning, an advertisement, an information sign or a sign in the transport sector Build light sequence signs. These light sequence characters can e.g. B, in the form of an arrow, a ring shape or a similar figure, in which case the corresponding Lamps light up one after the other in a suitable sequence, possibly with different colors.

Claims (3)

Patent claims: 1.Circuit arrangement for the automatic cyclic supply of one or more consumers, in which several parallel series circuits each consisting of a transistor and a resistor or consumer are connected to the poles of a DC voltage source, in particular for the construction of an illuminated sign for warning purposes, advertising purposes, information purposes, od for the purpose of traffic control. the like., as characterized by, that a valve is connected in parallel to the emitter-base path of each transistor which is claimed in permeable at its emitter-collector path of transistor in reverse, and the base of each Transistor is connected to the collector electrode of another of the transistors via the series connection of a resistor and a capacitor. 2. Circuit arrangement according to claim 1, characterized in that any number of consumers replace each other in a cyclical sequential circuit, with each transistor depending on the voltage in the sequence of action at the emitter-collector path or the voltage at the load resistance of the effective preceding series connection is controlled. 3. Circuit arrangement according to claims 1 and 2, characterized in that in the course the cyclical sequential circuit depending on the emitter-collector voltage or the voltage at the load resistance of one of the series connections as a preliminary stage of an amplifier cascade another transistor for feeding a consumer is controlled or switched. Considered publications:
German interpretation document S 43420 VIIIb / 21c
made known on May 30, 1956); German patent application A16919 VIIIb / 21c (announced on November 25, 1954). For this purpose, 1 sheet of drawings © 009 609/327 9.60