DE1143853B - Pulse converter circuit - Google Patents

Description

Pulse converter circuit The invention relates to a pulse converter circuit for generating a pulse with very steep edges. Such pulses are required to control a wide variety of systems, e.g. B. to control a relay that is supposed to pull in and out suddenly.

Pulse converter circuits come in many different variations known. Tube circuits are used for frequency counting in which A pulse is formed from a sine or square-wave voltage for control purposes a counter tube.

Pulse converter circuits are also in the manner of a multivibrator known for frequency division, in which means are provided, the input of the circuit arrangement to lock and unlock again at certain times, which in some frequency divider circuits the division itself is carried out, so that a defined pulse is obtained at the output and receives a pulse train.

Transistors are particularly advantageous in such circuits as a switch, with very short switching times and also very steep edges of the pulse can be obtained.

The invention now shows an advantageous use of transistors in a pulse converter circuit for generating a pulse with very steep tendrils, means for blocking the input of the circuit are provided during the pulse generation and in which the trigger pulse is given by a switch in the input circuit of the first stage is made, using three transistors. The idea according to the invention is characterized in that the emitters of the transistors of the second and third stage of the pulse generator are directly connected to one another at one point and from this point of the circuit an auxiliary DC voltage is fed back directly to the input of the circuit via a rectifier. This voltage feedback ensures that once the pulse formation process has been initiated, it is no longer possible to intervene by pressing switch 1. The relay remains in working condition until the charge in the RC element has drained.

The trigger pulse can either be through a switch with a normally closed contact or given by someone with working contact. In the first case, the switch is located at the positive, in the second case at the negative pole of the voltage source. In both cases however, the mode of action of the inventive idea remains the same.

The term influencing the time constant consists of an ohnic. Resistor and a bipolar capacitor between the first and second stages of the impulse foriner. Ik-r capacitor must be completely for pulse formation reload.

Another feature of the invention is that in the idle state, i. H. When the switch in the input circuit is closed, the transistors in the first and third stage are non-conductive and only the transistor in the second stage carries a low current.

In an exemplary embodiment, the invention is described in more detail using a circuit. In the idle state, switch 1 is closed, transistor 2 is blocked, since positive voltage is applied to the base of transistor 2 via switch 1 and resistors 3 and 4. The bipolar capacitor 5 is charged via the resistors 6 and 7, via the base-emitter path of the transistor 8 and the winding of the relay 9 in the specified polarity. In this case, transistor 8 is conducting, whereas transistor 10 is blocked, since when transistor 8 is carrying current, the voltage drop between its collector and input is not sufficient to open transistor 10.

If the switch 1 is opened, a negative potential passes through the resistor 11 to the base of the transistor 2, so that the latter opens. Now its emitter-collector path is to be regarded as a short circuit, the capacitor is reloaded, whereby the base potential of the transistor 8 is shifted so that it is blocked. This in turn opens transistor 10 , relay 9 picks up and emits a pulse via its normally open contact 13. Diode 12 only has the task of protecting transistors 8 and 10 from voltage peaks that occur when the relay is switched off protection. Since the charge reversal of the capacitor 5 requires a finite time, it must be ensured that the circuit arrangement remains blocked during the pulse generation. If switch 1 were to be closed again immediately, the charge reversal of the capacitor would be prevented, since transistor 2 would be blocked again. The negative potential at the base of the transistor 2 is, however, forced by an auxiliary voltage which this base via the resistor 14 and the diode 15 from the common point 21 of the emitters of the transistors 8 and 10, i. H. directly from the output, is fed back. By suitably dimensioning the circuit, this conductive voltage can be used immediately after transistor 10 has been switched .

In the idle state, a small current flows through the winding of the relay 9, which enables the correct operation to be checked.

The resistors 16, 17, 18, 19 and 20 are only used for power supply. You have an important task in setting the operating point of the transistors.

If the switch 1 is designed as a normally open contact, it is omitted for the flux line and is inserted between the resistor 11 and the negative pole.

Claims (2)

PATENT CLAIMS: 1. Pulse converter circuit for generating a pulse with very steep edges using three transistors in a multivibrator circuit with emitter coupling of the last two stages, the trigger pulse being given by a switch (1) to the input circuit and at the output as a very steep edge pulse a relay (9) is actuated and means are provided for blocking the input of the circuit during the pulse generation, characterized in that the common point (21) of the two emitters of the transistors (8 and 10) via the rectifier (15) and the resistor (14 ) an auxiliary DC voltage is fed back to the input of the circuit, which is dimensioned so that the working state of the relay (9) is maintained until the charge of the RC element (18, 5) has drained, with the proviso that the Switch (1) may contain normally closed and / or normally open contacts. 2. Pulse converter circuit according to claim 1, characterized in that in the closed state of the switch (1) after a process in the pulse converter, the transistors (2, 10) are non-conductive, while the transistor (8) has a, low. Current leads.