DE559080C - Receiving device for wireless telegraphy and telephony with intermediate frequency amplifier - Google Patents

Description

Receiving device for wireless telegraphy and telephony with intermediate frequency amplifier It has already been proposed in wireless telegraphy receiving circuits and telephony a piezoelectric frequency standard to increase selectivity to use. The piezoelectric crystal receives a natural wave that is called the Receiving wave is the same. The disadvantage of such a device is that the selective action of the crystal can only be used for a single wave.

The invention now provides means as in receiving circuits for wireless telegraphy and telephony with a single fixed piezoelectric Frequency normal an entire wave range can be bridged. And that is after According to the present invention, a receiving circuit with an intermediate frequency amplifier applied, in which a piezoelectric coupling to increase the selectivity is provided. In this way it is possible to use a single fixed piezoelectric Frequency standard that is tuned to the intermediate frequency, an entire wave range to bridge. The piezoelectric frequency standard is expediently used as a coupling element between the tube rectifying the combined frequency and the intermediate frequency amplifier arranged.

As is well known, one achieves a special one with transpose receivers good gain and selectivity by choosing the wavelength to be received superimposed at the receiving point with a second wavelength, so that a new one Wavelength arises whose frequency is either equal to the difference between the two wavelengths (Superheterodyne) or equal to the sum of the two frequencies (Infradyne). These intermediate frequency formed thereby, which in the case of the superheterodyne principle in general a wavelength of 2,000 to 10,000 m, but with the infradyneprinciple one Wavelength corresponding to an order of magnitude of about 100 m is now on in a amplifies this wavelength precisely matched amplifier. With particularly cheap Choice of couplings and particularly low attenuation of the coupling circuits of this intermediate frequency amplifier it is possible, as is known, to achieve a particularly high selectivity of the receiving apparatus.

Leaving this intermediate frequency up in accordance with the present invention act a piezoelectric crystal, the natural frequency of which is equal to the intermediate frequency is, you can achieve a good selectivity for a large wave range. It is only necessary to change the reception frequency that of the auxiliary transmitter to change so that the sum or difference of both frequencies is retained.

In this case, the switching arrangement in which the intermediate frequency occurs the frequency normal acts, be different. You only have that Keep in mind the substitute scheme of a piezoelectric resonator. These Frequency resonators correspond approximately to a series connection of a large self-induction and a small capacitance and therefore form for a frequency which is exactly the natural frequency of the quartz resonator corresponds approximately to a short circuit.

Like this mode of operation according to the invention in a transposition receiver is used, is explained on some exemplary embodiments. In the switching arrangement of Fig. i, the received energy from the frame circuit i via a blocking capacitor 3 and a bleeder resistor a is fed to the grid of the tube 5. In the grid circle In this tube there is also a coil, which is the coupling with the superimposer 4 manufactures. In the tube 5 the intermediate frequency is generated by rectification, which is given, for example, by the sum of the reception and superimposition frequencies is. The oscillating circuit in the anode circuit of this tube is at this frequency 6 matched. The alternating anode voltages occurring in the oscillating circuit are through the OuarzresonatOr 7 on the grid of the preferably resistance-coupled Intermediate frequency amplifier tube 8 transmitted. Occurring grid charges are derived through the resistor 9. The intermediate frequency amplified in the tube 8 is rectified by the tube connected as an audion and sent to the telephone ii transferred. In Fig. 2 it is shown that the oscillating circuit 6, for example through a resistor 1q. can be replaced.

In both examples it is possible to use a large part of this to enclose the tubes and switching elements used in a common tube system. It can be z. B. in Fig. I the tubes 5, Kund io, the block capacitor 3, the two resistors 2 and g as well as the coupling elements between the tubes 8 and Mount io and the quartz resonator 7 together and in a common vacuum vessel lock in.

In this case, the oscillation circuit 6 would expediently be outside this multiple tube are arranged, wherein the anode of the tube 5 with a special contact clamp can be provided, for example, on the base of the tube. When applied that in Fig. 2. The circuit shown, the anode resistance is also expedient included in the vacuum vessel.

It has proven to be particularly useful as a coupling between two tubes to apply a piezoelectric device in which an occupancy of a piezocrystal with the anode of one tube and the other covering of the piezocrystal connected to the grid of the other tube. This arrangement is of course not Can only be used for transposition receivers, but also for ordinary receivers with a fixed wave (economic, press, time signal receivers, etc.). By the way, the piezoelectric coupling not only increases the resonance width kept small, but also a separation of different frequencies easy thereby achieves that the resonance current assumes very high values.

Claims (7)

PATENT CLAIMS i. Receiving device for wireless telegraphy and Telephony with intermediate frequency amplifier, characterized in that the anode circuit the tube rectifying the combined frequency and the grid circle of the following Tube are coupled to one another by a piezoelectric frequency standard. 2. Receiving device according to Claim i, characterized in that in the anode circuit the tube rectifying the combined frequency to the intermediate frequency tunable oscillation circuit is switched on. 3. Receiving device according to claim i, characterized in that in the anode circuit the rectifying the combined frequency Tube a high-ohmic resistor is arranged as an anode resistor. q .. Receiving device according to one or more of the preceding claims, characterized in that some of the formwork elements and discharge systems are arranged in a common vessel is. 5. Receiving device according to one of the preceding claims, characterized by applying the Infradyneprinciple. 6. Receiving device according to one of the preceding claims, in particular claims i to q., characterized by the Application of the Ultradynep principle. 7. Receiving device according to one of the preceding Claims, characterized by a resistance-coupled intermediate frequency amplifier. B. Receiving device for - wireless telegraphy and telephony for fixed-line telephony Waves, in particular according to claim i or one of claims i to 7, characterized in that that the anode circle of one tube with the grid circle of the following tube through one Two plate quartz is coupled.