DD229523A1 - CIRCUIT ARRANGEMENT FOR THE AUTOMATIC GENERATION OF A TEST - Google Patents

Abstract

The invention relates to a circuit arrangement for the automatic generation of a tone sequence, preferably for use as a call generator or signal generator. The object of the invention is to develop a circuit arrangement that allows the low-interference generation of an easy-to-change tone sequence with little circuit complexity. According to the invention, this is achieved by using a circuit which switches an output assigned to the value of the applied input voltage to the reference potential, this circuit being driven by a linearly increasing or decreasing input voltage and the outputs of the circuit which are open collector outputs with the Partial points of a resistor chain, which determines the frequency of a tone generator and their Einzelwiderstaende are dimensioned so that when connecting the sub-points of the resistor chain to the reference potential sound frequencies corresponding to the scale result, be connected in the order of the tone sequence to be generated. Fig. 1

Description

Field of application of the invention

The invention relates to a circuit arrangement for automatically generating a tone sequence, preferably for use as a call generator, for example as a replacement for the conventional doorbell, or as a signal generator for announcing an announcement.

Characteristic of the known technical solutions

It is already known that sound sequences can be generated automatically by electronic means by a tone generator is driven by a counting chain. In this solution, a clock generator provides the pulses for counting the counting chain. There are also known circuit variants in which instead of the counting chain, a shift register, which is also driven by a clock generator, use (DD-PS 136556). Other, more powerful and more complex solutions use programmable memory circuits.

A disadvantage of the known solutions is that the counters or shift registers are in an undefined state when applying the operating voltage, after a short-term failure of the same or after glitches. If then the triggering of the melody generator, it is possible that the tone sequence is not completely reproduced. Such circuits therefore require devices which put the counters or shift registers in the initial state before calling up the tone sequence.

Another disadvantage of known solutions is that each output of the counting chain or the shift register is assigned a tunable frequency-determining component. For a change of the tone sequence, it is therefore necessary to match each sound to be changed to the new frequency. In known solutions also a decoupling diode is also necessary for the connection of these frequency-determining components.

Object of the invention

The object of the invention is to obviate the disadvantages described and to provide a melody generator which does not require a clock generator and decoupling diodes, is insensitive to disturbances and whose sequence of tones to be reproduced can be easily changed.

Explanation of the essence of the invention

The invention has for its object to develop a special circuit arrangement for automatically generating a tone sequence, with which the above objective is met.

According to the invention the object is achieved in that a circuit is used, which switches a value assigned to the applied input voltage output to the reference potential, for example, a circuit for driving quasianalogen LED displays, said circuit is driven by a linearly rising or falling input voltage and the outputs of the circuit, which are open collector outputs, with the sub-points of a resistor chain, which determines the frequency of a tone generator and the individual resistors are dimensioned so that when connecting the partial points of the resistor chain to the reference potential sound frequencies corresponding to the Tonleiter follow, in the order of the generated Sound sequence can be connected.

embodiment

The invention will be explained below using an exemplary embodiment. Fig. 1 shows a circuit arrangement according to the invention for the generation of a tone sequence.

When the button S is closed, the operating voltage UB reaches the circuit. Thus, the transistor VT passes through resistor R1, thereby attracting relay K. The normally open contact K01 causes the operating voltage UB to be applied to the circuit even after the button S has been opened. With the application of the operating voltage UB, the capacitor C1 is charged via a current source circuit 10, whereby at the input 0 of the circuit VI, a linearly increasing input voltage US is present. In order to turn the outputs 1 ... 11 of the circuit VI in turn against the reference potential UO. The tone generator TG oscillates when connecting the sub-points C ... C 'of the resistance chain RK formed from the resistors R2 ... R9 to the reference potential UO on correspondingly assigned frequencies of the pitch conductors. If the outputs 1... 10 of the circuit VI are connected to the corresponding sub-points C... C 'of the resistor chain RK in the correct order, the tone sequence thus set can be coupled out by the tone generator TG and e.g. be played through a speaker. The tone sequence in C major shown in Fig. 1 is e.g. c, e, g, c ', a, g, a, h, c', c '. If the input voltage US controls the output 11 of the circuit VI, the transistor VT blocks and the relay K drops out. Due to the closed normally open contact K02, the capacitor C1 is discharged via the resistor R10, whereby the circuit arrangement is again in the ground state.

Claims (3)

-2- 700 Invention claims: 1. Circuit arrangement for the automatic generation of a tone sequence, characterized in that a circuit (Vl) is used which switches an output (1 ... 11) associated with the value of the applied input voltage (US) to the reference potential (UO), this circuit ( Vl) is driven by a linearly rising or falling input voltage (US) and the outputs (1 ... 10) of the circuit (Vl) are connected to a tone generator (TG) whose frequency is determined by a resistor which is connected to the reference potential (UO) is connected. 2. Circuit arrangement according to item 1, characterized in that the frequency-determining resistor consists of several series-connected resistors (R2 ... R9) of a resistor chain (RK) whose values are such that the tone generator (TG.) When connecting the Teilpunkte (C. .. C) of the resistance chain (RK) to the reference potential (UO) at frequencies corresponding to those of the scale. 3. Circuit arrangement according to item 1 and 2, characterized in that the outputs (1 ... 11) of the circuit (Vl) are open collector outputs and the setting of the desired tone sequence by connecting the outputs (1 ... 10) of the circuit ( Vl) with the sub-points (C ... C) of the resistor chain (RK) in the correct order. • * For this 1 page drawing Field of application of the invention The invention relates to a circuit arrangement for automatically generating a tone sequence, preferably for use as a call generator, for example as a replacement for the conventional doorbell, or as a signal generator for announcing an announcement. Characteristic of the known technical solutions It is already known that sound sequences can be generated automatically by electronic means by a tone generator is driven by a counting chain. In this solution, a clock generator provides the pulses for counting the counting chain. Circuit variants are also known in which a shift register, which is also driven by a clock generator, is used at the location of the counting chain (DD-PS 136556). Other, more powerful and more complex solutions use programmable memory circuits. A disadvantage of the known solutions is that the counters or shift registers are in an undefined state when applying the operating voltage, after a short-term failure of the same or after glitches. If then the triggering of the melody generator, it is possible that the tone sequence is not completely reproduced. Such circuits therefore require devices which put the counters or shift registers in the initial state before calling up the tone sequence. Another disadvantage of known solutions is that each output of the counting chain or the shift register is assigned a tunable frequency-determining component. For a change of the tone sequence, it is therefore necessary to match each sound to be changed to the new frequency. In known solutions also a decoupling diode is also necessary for the connection of these frequency-determining components. Object of the invention The object of the invention is to obviate the disadvantages described and to provide a melody generator which does not require a clock generator and decoupling diodes, is insensitive to disturbances and whose sequence of tones to be reproduced can be easily changed. Explanation of the essence of the invention The invention has for its object to develop a special circuit arrangement for automatically generating a tone sequence, with which the above objective is met. According to the invention the object is achieved in that a circuit is used, which switches a value assigned to the applied input voltage output to the reference potential, for example, a circuit for driving quasianalogen LED displays, said circuit is driven by a linearly rising or falling input voltage and the outputs of the circuit which are open collector outputs, with sub-points of a resistor string which determines the frequency of a tone generator and whose individual resistances are dimensioned so that when the sub-points of the resistor string are connected to the reference potential, tone frequencies corresponding to the scale result, in order be connected to the generated sound sequence. embodiment The invention will be explained below using an exemplary embodiment. Fig. 1 shows a circuit arrangement according to the invention for the generation of a tone sequence. When the button S is closed, the operating voltage UB reaches the circuit. Thus, the transistor VT passes through resistor R1, thereby attracting relay K. The normally open contact K01 causes the operating voltage UB to be applied to the circuit even after the button S has been opened. With the application of the operating voltage UB, the capacitor C1 is charged via a current source circuit 10, whereby at the input 0 of the circuit Vl a linearly increasing input voltage US is present. Thus, the outputs 1 ... 11 of the circuit Vl switch in sequence against the reference potential UO. The tone generator TG oscillates when connecting the sub-points C ... C of the resistance chain RK formed from the resistors R 2 ... R 9 with the reference potential UO on correspondingly assigned frequencies of the scale. If the outputs 1 ... 10 of the circuit Vl connected to the corresponding sub-points C ... C of the resistor chain RK in the correct order, the tone sequence set with it can be coupled out of the tone generator TG and z. B. be played over a speaker. The sequence shown in Fig. 1 in C major is z. C, e, g, c ', a, g, a, h, c', c '. If the input voltage US controls the output 11 of the circuit V1, the transistor VT blocks and the relay K drops out. Due to the closed normally open contact K02, the capacitor C1 is discharged via the resistor R10, whereby the circuit arrangement is again in the ground state.