DE877619C - Audio frequency signal receiver - Google Patents

Description

Audio frequency signal receiver The invention relates to a signal receiver for receiving and transmitting several different signals by means of several pulses different sound frequencies at which the prevention of responding to others as the specific signal frequencies, especially on speech vibrations, using by resonance circuits and relays influenced by them.

Signal receivers that respond to a specific signal frequency and their blocking against responding to speech vibrations with the help of resonance circles caused are known. Proposals have also been made for signal receivers, which respond to several specific signal frequencies and their response to speech vibrations is prevented with the help of resonance circuits and relays influenced by them. The difficulties that arise in the construction and use of such signal receivers oppose, lie in compliance with the two main requirements, once after the greatest possible selectivity in order to prevent them from responding to language, another time in the demand for the greatest possible simplicity in order to achieve the necessary Operational security.

The invention is used to prevent responsiveness to others when the certain signal frequencies also influenced several resonance circuits via these Relays, but in a different, more advantageous way, such that they are in series with the secondary winding of the one in the anode circuit of a single-stage amplifier Coupling transformer several, each on a specific signal frequency tuned and only these permeable current resonance circuits and several, depending on one of the signal frequencies tuned, all other frequencies against it pass; Voltage resonance circuits connected in parallel with each other and parallel to the Current resonance circuits each the winding of a sensitive, on the associated signal frequency responsive relay and one on all frequencies, responsive relay and in parallel to the voltage resonance claws a winding of said relay is arranged and that the windings of the relay are switched so that the receiver only on the one or the other of the specific signal frequencies responds but not to speech.

An advantage of the invention, especially compared to an older proposal, in which an additional voice-sensitive relay via an additional transformer winding is excited, the elimination of this additional relay and the transformer winding. Furthermore, the resonance circuits as well as the relays are in a common one Electric circuit, are therefore of all incoming frequencies at the same time immediately directly influences and controls the relays assigned to them. At, this overall arrangement It is also not necessary to take an additional locking measure through separation the series connection of the resonance circuits through the contacts of a relay as with the the latter proposal to provide what is to be regarded as an advantage i.:st.- as contacts as well as mechanically moving parts in these signal receivers if possible are to be avoided in the interest of proper function and operational safety. The receiving relays are particularly sensitive and noteworthy for their function Relays requiring currents: through their. Use it is made possible with only a receiving tube, cd. H. get by with a single-stage receiver amplifier.

The invention is shown in one of the drawings Embodiment briefly explained. The receiver speaks on two specific signal frequencies, assumed 600 and 75o Hz, which individually, i.e. H. each for themselves or both in Combination, to be sent out. Accordingly, the recipient can have three different Receiving and transmitting signals: a signal with the frequency 6oo. Hz, a signal with a frequency of 750 Hz and another signal with a communication of 6oo plus 75o Hz. A fourth signal can be caused by speech when the relay Spr will.

Corresponding to the requirement for high selectivity are in the receiver several resonance circuits provided, namely two current resonance circuits .R i and R 2, the former e.g. B. for the signal frequency 6oo and the second for 75o H2. These When the signal frequencies occur, resonance circles only let them through while they block all other frequencies. Furthermore, with the Stromreson.anzkresen in Lying in a row, two voltage resonance circuits R connected in parallel 3 and R 4 are provided, each of which is matched to one of the aforementioned signal frequencies are; which, however, act as trap circuits for the latter, on the other hand all other frequencies let through to the relay windings. The resonance circuits are with a secondary winding of the coupling transformer Uen located in the anode circuit of the receiving tube in series switched. They are therefore influenced by all incoming frequencies at the same time and directly control the receiving relays connected in parallel to them. Latter are sensitive, polarized relays.

Relay T z is assigned to current resonance circuit R i, relay T2 to circuit R2; these relays only respond when the associated resonance circuit is excited. The voltage resonance circuits R3 and R 4, which are connected in parallel with one another and which are in series with the current resonance circuits; eats the relay Spr assigned; it responds when the circles R3 and R4 are excited. In addition, the current resonance circuits Rz and R2 are each assigned one winding of the relay Spr and the voltage resonance circuits R 3 and R 4: one winding each of the relays T i and 1 2. The windings assigned to the individual resonance circuits are connected in series in a bridge in a rectifier circuit Gl i to G13: the latter are connected in series, parallel to the output of the amplifier like the. Resonance circles. By means of the contacts of the relays, which are in local electrical circuits, the respective switching process that is desired or required (by transmitting the relevant frequency) occurs. The language itself can be used to bring about another switching process when the relay Spr is triggered. The relays T i or T 2 only respond when the signal frequencies 600 or 750 Hz or both arrive at the receiver III the relays T i and T 2 through their opposite connection the response of these relays. The located in local electric circuits windings III of the relays Ji and 1 2 and the winding IV of the relay Spr keep the armature of the relay in ider position as long as no signal currents are transmitted or return the relays to their rest position after receiving a signal.

Claims (3)

PATENT CLAIMS: i. Audio frequency signal receiver for receiving and transmitting several different signals .by pulses of several specific, different frequencies, in which the response to other than the specific signal frequencies is prevented by means of resonance circuits and relays influenced by these, characterized in that in series with the secondary winding there in the anode circuit of a single-stage amplifier (Vst) lying coupling transformer (Uen) several, each to a certain signal frequency, z. B. 600,750 Hz; tuned current resonance circuits (R i, R2) that are only allowed to pass through and several voltage resonance circuits (R3, R q.) connected in parallel with one another (R3, R q.) and parallel to the current resonance circuits (R i , R: 2) each winding (J i I, J2I, SprI, SprII) of a sensitive relay (Ji, J2) that is matched to the associated signal frequency and of a relay (Spr) that responds to all frequencies and a winding parallel to the voltage resonance circuits of said relays (J i, J2, Spr) are arranged. 2. Audio frequency signal receiver according to claim i, characterized in that the windings II of the relays assigned to the current resonance circuits (J i, J 2) are connected in opposite directions to the windings I thereof. 3. Tonfrequen.zsignalempfänger according to claim i, characterized. marked, d, aB the relays (J i, J2, Spr) have holding windings in local circuits!