DE2837951A1 - CIRCUIT FOR AN ELECTRICAL, CONTACTLESS, ACOUSTIC SIGNALER - Google Patents

Description

SCHALTBAU Gesellschaft mbH.

Munich SB 184

August 29, 1978

Circuit for an electrical, contactless, acoustic signal transmitter

The invention relates to a circuit for a signal generator with at least approximately constant power supply.

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

The invention is based on the object of a contactless signal transmitter indicate the over a wide range of auxiliary voltages without switching can be used.

030011/0232

The circuit for an electrical, contactless, acoustic signal transmitter according to the invention differs from the previously known in that the acoustic signal is given to the signal generator in pulses The pulse width is kept inversely proportional to the voltage supplied to the signal transmitter with the same power on the signal transmitter.

In the preferred embodiment, it is one with a predetermined frequency oscillating oscillator is provided, which emits the fundamental frequency of the acoustic signal as a square wave and as a sawtooth voltage, the sawtooth voltage is compared via a comparator with a voltage that is inversely proportional to the power supplied to the signal generator, and thus the Duty cycle for supplying the square-wave signal to a switching amplifier operating the signal generator via an AND element in the sense of a constant power supply to the signal generator is regulated.

The figure shows an exemplary embodiment in a partially schematic representation a circuit according to the teaching of the invention. The operating voltage applied at 1 and 2 is fed to a DC voltage converter 3, the the voltage required for the oscillator 4 is generated. The oscillator 4 is the basic frequency of the acoustic signal via the line 5 as Square wave and via line 6 as a sawtooth wave. In an operational amplifier 7, the operating voltage present at the voltage divider 8 is compared with a reference voltage that is in a DC voltage regulator 9 is generated and tapped via the voltage divider 10. The current supplied to the signal generator 12 via the switching amplifier 11 generates a voltage drop across the resistor 13, which the operational amplifier 14 is supplied. The operational amplifiers 7 and 14 work as inverting amplifiers and lead the comparator 15 to a voltage that at the same power is inversely proportional to the operating voltage supplied to the signal generator 12. Furthermore, the comparator 15 is over the line 5 the fundamental frequency is supplied as a sawtooth voltage. If and as long as the comparator 15 from the operational amplifiers 7 and 14 supplied Voltage is higher than the instantaneous value of the sawtooth voltage, the Comparator 15 a voltage to the AND element 16, at which already the same Square-wave voltage from the oscillator 4 is present, so that it is fed to the switching amplifier 11 and the signal generator 12 is actuated.

030011/0232

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Claims (2)

SCHALTBAU Gesellschaft mbH. Munich SB 184 August 29, 1978 Claims \. 1./Schaltung for an electrical, contactless, acoustic signal generator, characterized in that the signal is pulsed to the
Signal transmitter (12) is given, the pulse width being kept inversely proportional to the voltage supplied to the signal transmitter with the same power on the signal transmitter. 2. A circuit according to claim 1, characterized in that an oscillator (4) oscillating at a predetermined frequency emits the fundamental frequency of the acoustic signal as a square-wave and as a sawtooth voltage,
wherein the sawtooth voltage is compared via a comparator (15) with a voltage that is inversely proportional to the power supplied to the signal transmitter (12) and thus the duty cycle for the supply of the square-wave signal to a switching amplifier (11) operating the signal transmitter via an AND element (16. ) in the sense of a constant
■ Power supply to the signal generator (12) is regulated. 030011/0232