DE1103411B - Switchable radio warning call receiver - Google Patents

Description

Switchable radio warning call receiver The invention relates to a Switchable radio alarm call receiver with switch controlled by the alarm call receiver.

Combined radio and warning call receivers are used for quick Informing the population of an area or of widely dispersed residents Population groups or individuals about any acute emergency, be it for example a dam breach in a dam or the outbreak of a large fire.

In the case of a combined radio warning call receiver, one can part of the components and circuits for both purposes. On such a device a changeover switch is then required, which automatically switches the device from radio switches to receiving a warning call as soon as it receives a switching criterion from the warning call transmitter receives.

In the well-known switchable radio and warning call receivers the switch by receiving two specific modulations of the carrier frequency. of the alarm transmitter operated. Therefore, these receivers each have a separate high frequency and intermediate frequency level for radio and warning call reception and only have the Low frequency stage in common. The circuit that forms the control part of the switch is in these devices at the output of the intermediate frequency stage of the warning call receiver connected.

The invention is based on the structure of a switchable To simplify radio warning call receiver even more and if possible further stages to be used together for radio and warning call reception.

Such a simplification according to the invention is achieved by that the control part of the switch in one on the carrier frequency of the alarm call transmitter tuned high-frequency circuit of the radio receiver.

This has the consequence that when transmitting, the warning transmitter frequency of the Changeover switch responds immediately, remains permanently switched for the transmission duration and automatically returns to the idle position at the end of the transmission.

The switch located in the high-frequency circuit allows a great deal simple construction of the combined radio alarm call receiver. According to further training the invention can be through the switch contacts in the tuning circuits of the radio receiver Switch on additional capacitors, which then switch the tuning circuits to the carrier frequency of the alert transmitter.

The details of the invention in connection with various exemplary embodiments are explained in more detail with reference to the drawing. 1 shows the circuit diagram of part of a conventional superheterodyne receiver, which has been modified in detail for use as a warning call receiver according to the invention, FIG. 2 shows the circuit diagram of an amplifier tuned to a certain frequency with a switching relay, FIG. 3 shows a circuit diagram of a conventional superheterodyne receiver , in which the high-frequency circuit belonging to the switch is coupled to the high-frequency stage of the radio receiver, 5 is a block diagram for controlling an additional relay for the switching work of the relay according to FIG. 2 and 3, FIG. 6 shows a block diagram of another embodiment of the invention, the on and off switch of the receiver being used to tune the individual circuits to the carrier frequency of the warning call transmitter.

In the circuit diagram according to FIG. 1, the reproduced part consists of a conventional one Superheterodyne receiver from a high frequency amplifier stage with the pentode 1 and a mixer stage coupled to it with the mixer intermediate frequency amplifier tube 2, which is coupled to the second, a pentode 3 containing detector stage. With the exception of the changes according to the invention, the details of these persist Equipment made up of elements known to those skilled in the art and will therefore be described in detail not dealt with below. The changes and the conversion the normal receiving part according to FIG. 1 in a warning call receiver comprise the additional capacities 4, 5 and 6 in the high-frequency stage or the mixer oscillator stage and the additional; Relay operated switches 7, 8, - 9 and 10 ih of the high frequency mixer oscillator and second detector stage. Usually in the high-frequency or 11-way oscillator stage of the usual radio receiver are already available capacities 11, 12 and 13 connected to terminals 14, 15 and 16 of relay operated switches 7, 8 and 9, respectively. The additional capacities 4, 5 and 6 are connected to the connections 17, 18 and 19 of the relay-operated switches 7, 8 or 9 connected. If you have several warning transmitters want to receive, the capacities 4, 5 and 6 are made variable. If you want against it If you only receive a single warning transmitter, then these capacities can be worth fixed, its capacitance value being determined by the inductance of the resonance circuit determined in each high-frequency mixer and oscillator stage. The relay operated switch 10 is connected to the volume control 20. He turns on full volume when it is connected to terminal 21.

The switches 7, 8, 9 and 10 are activated by an in the output of the high frequency amplifier stage according to Fig. 2 connected relay 23 actuated. In this circle are a loop antenna 24 and a capacitor 25 tuned to the carrier frequency of the Z @ jarnrufsender. The coupled, parallel resonance circuits 26 and 27 are also at the carrier frequency Voted. The output of the high frequency stage is provided by the crystal diode 28 and a capacitor 29 rectified and filtered and energizes the relay 23, which then actuates switches 7, 8, 9 and 10 in the circuit of FIG.

The circuits of Figures 1 and 2 can be used as a single device of the Be accommodated in a housing for the sake of convenience. When using the circuit according to Fig. 1 as a radio receiver with capacitors 11, 12 and 13, the Main tuning capacitors are in the associated parts of the radio receiver, the high-frequency circuit of FIG. 2 remains switched on. Even if the device itself is switched off, the circuit of FIG. 2 or the signal control receiver part remain switched on to record the frequency to be monitored. later will be described later how the circuit for the relay 23 for reclosing of the receiver of FIG. 1 upon receipt of the monitoring frequency by the circuit according to Fi: g.2 can be provided. The high frequency circuit of Fig.2 can through a common selenium rectifier or independently from another power source be fed. You can also feed it from the usual 110 V AC network, since the output of the circuit of FIG. 2 is through the crystal diode 28 and the capacitor 29 is rectified and filtered.

The circuit of Fig. 3 combines the functions of the circuits in Fig. 2 and 1 and allows the use of only one high frequency stage for both Recipient. In this modification, the high-frequency amplifier stage works with one Pentode 30 and the mixer stage with a multipurpose tube 31 and an oscillator circuit, these circles in one of the modification of these stages in the usual superheterodial receiver are changed according to Fig.l corresponding way. In Fig. 3 are the high frequency mixing and Oscillator stage supplemented by capacities 32, 33 and 34. These capacities can either fixed in value for tuning to a single, specific carrier frequency or be variable to tune on multiple carrier frequencies. At this Modification is necessary as in the circuit according to FIG. 1, the main tuning capacitors 35, 36 and 37 in the high-frequency amplifier mixer and oscillator stage with the connections 38, 39 and 40 of switches 41, 42 and 43, respectively. The capacities 32, 33 and 34 are connected to terminals 44, 45 and 46 of switches 41, 42 and 43, respectively. Corresponding Fig. 1 is also a switch 47 is provided that the volume control 48 in the second Detector stage bridged. When using the device as a normal radio receiver the volume control 48 is in a known manner 1111 receiving circuit via the terminal 49 of the switch 47 is connected. In this version, the high-frequency stage is located with loop antenna 51 and capacitance 52 in series with loop antenna 53 and Capacity 54 in the high frequency stage of the radio receiver. The loop antenna 51 and capacitance 52 are sharply tuned to the carrier frequency, as are the parallel ones Resonance circuits 55 and 56 in control circuit 57 of relay 60. To this control circuit 57 also includes a crystal diode 58 and a filter capacitor 59. Upon receipt the carrier frequency through the loop antenna 51 and the capacitor 52 becomes the relay 60 actuated by its control circuit 57 in the anode line of the pentode 30 and causes switches 41, 42 and 43 to connect capacitors 32, 33 and 34 and thus for switching the device to receive the through the fixed values of the capacities 32, 33 and 34 or those set for variable capacities Capacities specific frequency. As long as the part following the high-frequency stage of the usual receiver is not switched on, the high-frequency stage is switched off a separate anode voltage source via the switch 63. At the reception the carrier frequency is then also the power supply by actuating the relay 60 of the deactivated stages switched on.

If the sensitive relays 23 and 60 de switch for conversion of the device according to the teaching of the invention can not operate, shows the Schaltun 5 shows a solution in which a second relay 64 is activated as a function of the response of the relay 65 is excitable. Contact 68 of relay 65 closes the circuit for the relay 64, through which then the associated and generally designated 67 Switches in the high-frequency mixer and oscillator stage, in the volume control and operated in the separate power supply for the high-frequency stage. In Fig. 4 switches the excitation of the relay 71 the usual receiver, which accordingly Fig. 1 is tuned to a certain frequency, to warning call reception and closes AC power source through contact 70 if this is part of the device has been switched off.

For the embodiment shown in Fig. 3 you need a separate supply for the usual high-frequency stage. This separate supply is shown in Fig. -1. The switch 74 is closed and: the switch 63 is connected to the connection 61 (FIG. 3). The relay 71 (FIG. 4) for actuating the switches (see FIG. 3) present in the various stages of the usual receiver for switching the receiver can be the relay 23 or the relay 65 or the additional relay 64 (FIG. 5). With its contact 70 it connects the alternating current source 75 to the receiver stages following the usual high-frequency amplifier. When the carrier frequency is received, switch 63 (FIG. 3) is connected to terminal 62 and switch 74 (FIG. 4) is opened.

The circuit according to FIG. 6 brings a further modification, the Off-on switch 76- of the usual receiver with a switch 77 in the high-frequency stage, a switch 78 in the mixer stage, a switch 79 in the oscillator stage, a Switch 80 in a separate power supply for the high frequency stage and a Switch 81 for connecting one of the relay circuit 57 in Fi, g. 3 similar relay circuit are coupled to the output of the high-frequency stage. The switches 77, 78 and 79 thereby combine capacities that are fixed or variable in value can, in the high-frequency mixer and oscillator stage, which these circuits on the Tune the carrier frequency. The parallel resonance circuit in the relay circuit must also be set to this carrier frequency. When the carrier frequency is received, it closes the relay circuit 82 contacts 83 and 84 and leads from a separate and not shown Current source the anode heating voltage in the stages following the high frequency stage to, so that the remaining receiver part following this stage pass the warning signal leaves. If you want to use the receiver in the usual way and is the on-off switch inserted, then the capacities in the high-frequency oscillator mixer stage use for reception in normal broadcasting range while the separate power supply for the high frequency stage and the relay circuit is switched off.

With the device according to the invention one can of course use the vacuum tubes also replace them with transistors in various circles to reduce the size of the device.

Claims (9)

PATENT CLAIMS: 1. Switchable radio warning call receiver with a switch controlled by the warning call transmitter, characterized in that the control part of the switch is located in a high-frequency circuit of the radio receiver that is permanently tuned to the carrier frequency of the warning call transmitter. 2. Radio warning call receiver according to Claim 1, characterized by from the changeover switch contacts in the voting circuits of the radio receiver switchable additional capacities that the voting circles on tune the carrier frequency of the alarm transmitter. 3. Radio warning call receiver according to Claims 1 and 2, characterized in that the high-frequency circuit belonging to the switch is coupled to the radio frequency stage of the radio receiver. 4. Radio alert receiver according to claims 1 to 3, characterized in that the switch for switching of the radio receiver's high-frequency circuit is drawn on to its own power supply is. 5. radio warning call receiver according to claim 1 to 4, characterized in that that also the control voltage of the last intermediate frequency stage of the radio receiver is switchable by switch contacts. 6. radio warning call receiver according to claim 1 to 5, characterized in that the high-frequency circuit is a parallel resonance circuit is designed for the carrier frequency of the warning call transmitter. 7. Radio warning call receiver according to claim 1 and 3, characterized in that when the on-off switch of the radio receiver is switched off, the radio frequency stage of the radio receiver is connected to its own power supply, that additional capacities are switched on in the voting circuits of the radio receiver to match the carrier frequency of the warning call transmitter and that the power supply of the intermediate frequency and low frequency stage of the radio receiver can be switched on by the changeover switch contacts. B. Radio alert receiver according to claims 1 to 7, characterized in that as a changeover switch for the tuning circuits and / or the power supply is a relay used. 9. Radio alert receiver according to claim 8, characterized by a relay amplification for actuating the Toggle switch. References considered: U.S. Patent No. 2,330,241.