DE709470C - Radio training system - Google Patents

Description

Radio training system The invention relates to a radio training system with of a training course for wireless telegraphy and speech communication in suitable Way can be done. Radio training devices are: as so-called Morse training devices already known. The known Morse exercise devices work with low frequency and In terms of their entire structure, they are not suitable for the participants to be trained with all of them to familiarize yourself with problems that arise in practice.

It has therefore already been proposed to use a radio control system create for the transmission or generation of the telegraphic and / or telephonic signs high-frequency alternating currents (alternating currents in the wireless Traffic usual frequency) serve and with the transmitter and receiver at one static shielded, emitting practically no radiant energy or absorbing it from the outside Conductors are connected.

The radio training system, consisting of a plurality of .eine shielded transmission line connected subscriber sets using high frequency alternating currents; according to the invention is characterized in that each subscriber set can be tuned to different high-frequency carrier waves Sending and receiving parts, each of which has a voltage divider circuit is connected to the transmission line. By those in the field of messaging known per se Voltage divider circuits result in a line loss, which is to be rated here as an advantage of the arrangement, because it is also at the same time the charisma becomes less'. The shielding is thus in a certain sense supports. The voltage divider circuit shows special attention when it comes to parallel operation of the individual subscriber devices. Through these means it is possible that the individual Subscriber devices can be switched on or off smoothly. At the same time will so that the necessary high degree of selectivity is achieved. The send and Receiving part of each subscriber set together with a Netzanschlul5 part in one housed common portable housing.

The transmission part of each subscriber set consists of a high-frequency transmission device, an audio frequency modulation device and a conference device, which can be combined with one another through the various switch positions of a selector switch in such a way that different modes of operation of the transmission part result. Any carrier frequency can be assigned to each participant during operation. In a frequency range from 300 to 1 zoo kHz, for example, 60 different carrier frequencies can be accommodated at intervals of 1 5 kHz. With such a choice of carrier frequencies, sufficient freedom from interference between the individual participants is achieved. Shielding the devices and the transmission line prevents unwanted radiation.

In the various positions of the selector switch, an electron tube either rendered ineffective or acts as a generator tube for the sound transmitter or works as a voice amplifier for the meeting facility. At the same time will through the selector switch a telegraph key parallel to a resistor in the cathode circuit the high-frequency generator tube or in parallel with a resistor in the cathode circuit the electron tube working as a generator tube for the sound transmitter or made ineffective. The carrier frequency can therefore optionally with telegraphic characters or modulated with speech or also non-audible keyed. The recipient works accordingly as a Richtaudion or Sch @ vingandion. There can be several Transmitter can be keyed together by hand or by a suitable transmitter.

Further details of the invention are given with reference to FIGS explained. The Fig.- i shows a shielded Fuaikübun gsanlag @ e. it consists of the subscriber sets I to VIII and the transmission line L to which the subscriber sets are switched on in parallel. The subscriber sets and the line L are shielded, w: e is indicated by the dashed border s. t-`" -, in Fig. 2 is the Circuit of a partial; ' imerstation shown. The required operating voltages are generated in a Netzaaschlußtcil N. The mains voltage of, for example 220 volts is fed to a rectifier tube i via a transformer lli. on the primary side of the transformer is a switch S, with which the mains voltage can be switched on or off. The transformer has more on the secondary side Windings that supply the heating voltage for the rectifier tube and the other tubes of the subscriber set. The output of the power supply unit is via a from the 'capacitors Cl and the choke Dl existing screen arrangement to the receiver and fed to the transmitter part. The cathodes of the tubes used are at E on the Shielding connected or grounded.

In the high-frequency transmission part H is the tube 2 and as a vibrating tube Amplifier tube tube 3 uses. The tube 2 works as a feedback generator. With the switch S, two different frequency ranges can optionally be switched on will. The fine tuning is done by the variable capacitor C13, which is a calibrated Scale. possesses for each frequency range.

There is an ammeter I in the anode circuit of the high-frequency amplifier. It shows maximum deflection when the connected to the output transformer AÜ Resonant circuit, which consists of the coil L3 and the capacitor C, 9, with the transmission frequency is in resonance. For all frequencies except the tuned resistance is of the resonance circuit is small, so the output transformer is practically short-circuited, so that the harmonics of the transmitter are suppressed.

The audio frequency transmission part NF contains a tube q .. This tube works in the illustrated position of the switch S3 as a vibration generator for audio frequency. In the anode circuit of the tube there is a variable oscillation circuit Cy, L; which allows the generated sound frequency to be changed within a certain range. A telegraph key T is arranged parallel to the resistor R2.4 in the cathode circuit of the tube 4. When the button is pressed, this resistor is short-circuited and the generator begins to oscillate. When the key is open, the operating point of the tube is shifted so far into the area of negative grid voltage that no oscillations occur. In this type of operation, the modulation frequency is keyed. The output of the audio frequency generator modulates the carrier frequency transmitted without interruption.

By switching the selector switch S3 to position b, the The tone transmitter is switched off and the T key is parallel to the resistor Rlo in the cathode circuit the high frequency generator tube 2 wired. Pressing the button will now the joy felt. This is also done by shifting the operating point. - By switching the selector switch S3 to position c, the tube q. as an amplifier tube for the speech vibrations coming from the speech device M switched. In the grid circle of the tube is the potentiometer R12, to which the Capacitor C20 the speech device is switched on. By setting the tap The degree of modulation can be set with this potentiometer. The anode circle the tube q working as an amplifier. is the high-frequency transmission part via a transformer Ü2 and modulates the carrier frequency in the rhythm of the speech vibrations.

In the receiver part E , a tube 5 connected as an audion is used. The frequency range can be switched using a switch S2. The fine tuning is carried out with the capacitor C2, which shows a calibrated scale for both frequency ranges. In the feedback circuit, the degree of feedback is set by a further variable capacitor C3. The rectified voltage is picked up at F by means of headphones or the like.

The receiver is connected to the transmission line via its voltage divider, that of the resistors R1, R2 and the primary windings of the input transformer E0 exists, connected. In this way, the necessary selectivity is achieved. The resistance of the resonant circuit is large compared to the tuned frequency the resistance of the upstream resistors. So there is almost all of the tension at the entrance. For all other frequencies, however, is the resistance of the resonant circuits small, and @ there is only a small fraction of the voltage at the input. It will thus a good selectivity of the recipient is achieved in this way.

By connecting the receiver via a voltage divider it is also achieved that: It can be switched on and off without any reaction. For this reason, the transmitting part is also connected via a voltage divider, which consists of the resistors R22, R33 and the secondary winding of the output transformer, AÜ. With 60 subscriber sets: if the output resistance of a transmitter and the input resistance of a receiver are each 10 kΩ, for example, a total load of This load is distributed over the individual taps, so that they are a rough approximation of the wave resistance. of the cable (- = 8o9). Such a dimensioning achieves sufficient reflection attenuation.

Through the 'illustrated arrangement of the transmitter-side output achieves that the output resistance of the transmitter, seen from the cable, is high. This can also be done by means of a tunable series resonance circuit according to FIG can be achieved; and that the output resistance is small for the sent Frequency, but large for all other frequencies. This training can under certain circumstances be more appropriate because it still has the advantage of lower energy consumption.

Claims (3)

PATENT CLAIMS: i. Radio training system, consisting of a plurality from subscriber sets connected by a shielded transmission line Use of high-frequency alternating currents, characterized in that each subscriber apparatus Sending and receiving parts that can be tuned to various high-frequency carrier waves each of which is connected to the transmission line via a voltage divider circuit connected. 2. Radio training system according to claim i, characterized in that that in the transmitter and / or in the receiver part of each subscriber set means for switching the waveband are provided. 3. radio training system according to claim i and 2, characterized in that that the same variable capacitors are used for fine tuning for all wave ranges provided with differently calibrated scales for the different wave ranges are. q .. radio training system according to the preceding claims, characterized in that that the transmission part of each subscriber set consists of a high-frequency transmission device, an audio frequency modulation device and a meeting device and that these can be combined with one another by means of a selector switch, that there are different modes of operation in different positions of the selector switch of the transmission part. Sound transmitter switched to working electron tube or rendered ineffective. 7. radio training system according to the preceding claims, characterized in that the output resistance of this transmitter is seen from the cable is small for the transmitted frequency and large for all other frequencies. B. radio training system according to the preceding claims, characterized in that the input and the output impedance of the subscriber * devices is dimensioned so that the total load corresponds approximately to the characteristic impedance of the transmission line. 5. radio training system according to claim q., Characterized in that in the various Positions of the selector switch an electron tube is made ineffective either or acts as a generator tube for the sound transmitter or as a voice amplifier for the Meeting facility is working. 6. radio training system according to claim q. and 5, thereby characterized in that a telegraph key parallel to one through the selector switch Resistance in the cathode circuit of the high frequency generator tube or in parallel with one Resistance in the cathode circuit used as a generator tube for the