DE2908970A1 - Control circuit for acoustic signalling device - includes oscillator connected by flip=flop to RC branch and Schmitt trigger - Google Patents

Abstract

The acoustic signalling device, eg. vehicle hooter, is operated by a circuit with an oscillator (3) operating at a basic frequency to provide pulses which control the output of a flip-flop (4). This is followed by an amplifier stage with a drive transistor (5) and load transistor (6) which apply the voltage to the hooter (7). This also charges a resistance/capacity branch. Under a given load condition the flip-flop does not operate until the next pulse due to the action of a Schmitt trigger (11) between the flip-flp and the RC branch. A transistor (12) controls the power supply to the flip-flop, the trigger and the oscillator.

Description

The invention relates to a circuit for an electrical, contactless acoustic signal transmitter with at least an approximately constant power supply.

In addition to the customary horns known for motor vehicles, other acoustic signal generators for ships or railways are already known which emit a horn-like sound. These signal transmitters are operated either with a Wagner hammer or electrically contactless, i.e. without a mechanical breaker. The disadvantage of these signal generators is that they can only ever be built for a narrow range of the operating voltage. The range of auxiliary voltages from which the signal generators are usually fed extends from 6 volts to 120 volts with a large number of gradations, so that separate signal generators must be manufactured for each auxiliary voltage and, if necessary, kept in stock.

The German patent .. (P 28 37 951.3) already has a circuit for an electrical, contactless, acoustic signal transmitter to the subject, in which the signal is applied to the signal transmitter in pulses, the pulse width being inversely proportional to the voltage supplied to the signal transmitter with the same power is held on the signal transmitter.

The object of the present invention is to provide a signal transmitter according to the main patent, which can be built as inexpensively as possible and can be operated with little energy consumption.

The object of the invention is a circuit for an electrical, contactless, acoustic signal transmitter in which the signal is applied to the signal transmitter in pulses, the pulse width being kept inversely proportional to the voltage supplied to the signal transmitter with the same power at the signal transmitter, according to patent (P 28 37 951.3).

The invention is seen in the fact that there is an oscillator with a predetermined frequency which emits the basic frequency for the signal generator and whose frequency is differentiated so that the pulses of one polarity create a flip-flop circuit
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which the anste via an amplifier circuit
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Signal generator sets and that this voltage contains an RC element which, with a given charge state, the flip-flop circuit via a Schmitt trigger until the arrival of the next pulse from the difference
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leading.

Advantage of the present invention is based on the in the figure
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schematically reproduced example of a circuit according to the invention.

As soon as voltage is present at inputs 1 and 2, the oscillator 3 is excited and, with one half-wave of the frequency it generates, makes the flip-flop circuit 4 conductive. As a result, the signal generator 7 is applied to the input via an amplifier stage consisting of the driver transistor 5 and the power transistor 6, the upstream resistors 8 serving to adjust the operating volume. At the same time, the RC element consisting of the resistor combination 9 and the capacitor 10 is charged. As soon as the RC element has reached a predetermined state of charge, it sets the flip-flop circuit 4 non-conductive via the Schmitt trigger 11 until it is switched conductive again from the differentiation of the next half-wave of the oscillator 3. The level of the voltage present at the RC elements 9 and 10 and thus at the signal generator 7 is decisive for how long the flip-flop circuit 4 is switched on, in the sense that the lower the voltage at the input 1, 2, the longer the time in which the flip-flop circuit is on.

The particular advantage is that, through the use of inexpensive components, both the frequency is generated and the switch-on control is carried out independently of one another.

In a further development of the invention, it is advantageous to supply the oscillator, the flip-flop circuit and the Schmitt trigger with power via a transistor which, when a sufficiently high, rectified and smoothed voltage is present from the signal generator at the transistor's emitter, does not turn it into a conductive state. This is also explained with reference to the figure.

When the voltage is present at the input 1, 2, the transistor 12 is first switched on until the voltage of the Zener diode 16 is mapped to the emitter by the transistor 12, so that the oscillator and the flip-flop circuit 4 and the Schmitt trigger 6 switch on , the operating voltage, which is rectified via the diode 13 and smoothed via the resistor 14 and the capacitance 15, is also applied to the emitter of the transistor 12 and the voltage is fed in via the transit gate 6 under conduction control, while the transistor 12 switches to the blocking phase and switches off as soon as the regulated voltage value is reached. This has the advantage that the transistor 12 can be dimensioned smaller and for a lower power loss.

The circuit according to the invention is suitable for all cases for the operating systems mentioned at the beginning of the description with a voltage range between 6 and 120 volts.

Claims (2)

1. Circuit for an electrical, contactless, acoustic signal transmitter, in which the signal is applied to the signal transmitter in pulses, the pulse width being kept inversely proportional to the voltage supplied to the signal transmitter at the same power at the signal transmitter, according to patent. (P 28 37 951.3) , characterized in that an oscillator (3) with a predetermined frequency is present, which emits the basic frequency for the signal generator (7) and whose frequency is differentiated so that the pulses of one polarity make a flip-flop circuit (4) conductive, which via an amplifier circuit (5, 6) applies the pending voltage to the signal generator (7) and that this voltage charges an RC element which, at a given state of charge, switches off the flip-flop circuit (4) via a Schmitt trigger (11) until the next pulse arrives differentiation does not lead. 2. Circuit according to claim 1, characterized in that the energy supply of the oscillator (3), the flip-flop circuit (4) and the Schmitt trigger (11) takes place via a transistor (12) which, when a sufficiently high, rectified and smoothed Voltage from the signal generator (7) at the emitter of the transistor (12) does not turn it on.