DE831272C - Circuit for receivers that contain two channels for receiving two different, modulated high-frequency oscillations, with a super-regenerative detector being provided in each channel - Google Patents

Description

The invention relates to a circuit for receivers that have two channels for receiving two, contain various, modulated high frequency oscillations, especially for television receivers with a picture and a sound channel.

A simplification of such a: Receiver type can be achieved by using the an. known each other Principle of this super regenerative reception can be achieved.

“It is known per se, in only one channel containing! Recipient to use a super regenerative detector in this channel.

In the case of a receiver with two channels, one should have a super-regenerative detector in each of them record, one encounters the difficulty that these detectors' interfere with one another; on the other hand leads to the use of a common supergenerative detector for the two channels very strong decrease in sensitivity, in particular when the audio signal is transmitted by frequency modulation), which is the case with television often applies.

It has already been proposed to include a super regenerative detector in each channel and these detectors by means of a common To suppress pendulum oscillator. As a result, the mutual interference between the two is true Detectors: practically eliminated, but makes the use of the necessary pendulum oscillator the circuit more intricate.

The circuit according to the invention, in which also a super-regenerative detector in each channel

is included, avoids this disadvantage and has the feature that these detectors are self-suppressing and are designed to synchronize with one another

In the circuit according to the invention, the mutual interference between the two is also eliminated Oscillators. ' avoided, and in addition no separate Pendielc? szilla.tor needs to be used, which naturally results in a simpler circuit.

ίο One of the detectors is vibrated «- at the beginning a voltage is taken, which is fed to the other detector and there the oscillation brings about and vice versa.

An embodiment of the circuit according to the invention is based on a drawing, for example explained in more detail.

The circuit contains two discharge tubes 1 and 2, each in a known manner in a Super regenerative detector circuit are included. Each tube forms part of an oscillator circuit the Hartleyart. For this purpose, e.g. in the case of tube 1, the oscillation circuit 3 is high-frequency connected between the anode and the control grid of the tube 1, an anas tapping of the coil 4 from the circuit 3 to the cathode the tube 1 leads.

In the control grid circuit of tube 1 are the leakage resistance 5 and the grid capacitor 6 added, with the help of which in a known manner the self-suppression of the generation of oscillations is achieved.

The cathode line of the tube 1 contains the self-induction coil 8 bridged by a capacitor 7.

The discharge tube 2 is included in a correspondingly trained circuit, in which the corresponding Parts are provided with the same numbers, which are distinguished by comma.

The two included in the cathode leads Self-induction coils 8 and 8 'are coupled to one another, specifically dlerart that at one Voltage change at the cathode of one of the discharge tubes, at the cathode of the other discharge tube a voltage change of opposite polarity and of the same magnitude occurs.

The coils 4 and 4 'are in a manner not shown, each with a receiving antenna for the two coupled to the received modulated oscillations.

In a television receiver, for. B. the coils with the receiving antenna for the audio signal and the coil 4 'with the antenna for the one with the image signal coupled to modulated vibrations.

However, it is not necessary to use separate antennas; in this case the two are Coils coupled to the common antenna.

In the anode circuit of tubes 1 and 2 are Filters 9 and 10 added to filter out the modulated signals.

In the case of a television receiver, the output terminals of the filter 9 the demodulated audio signal and the output terminals of this filter 10 the demodulating image signal can be taken.

Wenni at one of the super regenerative detectors When the oscillation begins, the coil in the cathode line of the discharge tube concerned occurs a voltage generated across the coupling of the coils in the cathode lead of the tube of the other Detector is made effective, whereby the oscillation is initiated here as well. To this The two super-regenerative circuits are synchronized.

In connection with the largest frequency band of the modulating image signal, which extends up to a width of about 5 MHz, it seems appropriate to set the suppression frequency of the two circuits to choose above 5 MHz; this frequency is with respect to the audio channel very high.

But it turned out that also excellent Results are obtained when the suppression frequency is chosen in the frame rate band will, e.g. B. about 2.5 MHz. This has the advantage that, as a result, the sensitivity of the sound channel is considerably larger than when the aforementioned value of 5 MHz is chosen.

Claims (2)

Patent claims: 1. Circuit for receivers, the two channels for receiving two different, modulated Contain high frequency vibrations, with a super regenerative detector in each channel i'st provided, in particular for television receivers with a picture and a sound channel, thereby characterized in that these super-regenerative detectors are self-suppressing and each other are designed to be synchronizing. 2. A circuit according to claim 1, wherein each super-regenerative detector includes a discharge tube, characterized in that in the cathode lead of each discharge tube a self-induction coil is accommodated, the coil coupled to one another, and are oppositely wound. ¹ 1 sheet of drawings 1 3058 1.