DE1000058B - Crystal controlled electron tube oscillator for the optional generation of two different frequencies - Google Patents

Description

GERMAN

The invention relates to an electron tube oscillator and especially one made with the help of a tube and two different control crystals optionally two essentially different frequencies generated.

It is known to use two crystals in the control circuit of such an oscillator or transmitter can be switched on alternately at will in the circuit by means of a switch. The usage however, such a switch has certain disadvantages. For example, it is often desirable if the the two frequency ranges are significantly apart, by almost the same amplitude in each case to achieve to turn the two crystals into the circle in different ways. That's why the quite complicated switch to use, and the connection of the switch to the various Circling cannot be achieved without undesired switching operations between the supply lines.

There are already known oscillators in which two crystals lying on different electrodes alternatively generate one or the other frequency without switching on the crystals themselves is required. The crystals are connected between the control grid and the anode or auxiliary grid, and switching from one frequency to another is done by changing the anode voltage and / or the auxiliary grid voltage.

It is a so-called Dynatron oscillator, the effect of which is based on that with well-known, now obsolete screen grid tubes, a secondary emission takes place from the anode. Through this the circuit is given an anode current-anode voltage characteristic under certain circumstances and in a limited area with negative resistance. The setting of the anode and screen grid voltages is very critical, What is more, it is difficult to find an approximately equal amplitude for the two frequencies to ensure.

The present invention aims to provide a simplified oscillator compatible with those mentioned above Disadvantages is not afflicted, and to generate two in each 'their frequency range lying ,, crystal controlled frequencies is suitable.

Another purpose of the invention is to manufacture an oscillator which can be used for small transmitters, e.g. B. Emergency transmitter for vehicles, is suitable.

According to the invention, the object is achieved in that the oscillator is a combination of two oscillators, for one frequency with a tuned anode circuit and with a control crystal operating between the control grid and cathode of the electron tube and for the other a free-crystal controlled electron tube oscillator for optional generation
two different frequencies

Applicant: Elektromekano AS,
Copenhagen

Representative: Dr. F. Zumstein, patent attorney,
Mündhen 2, Bräuhausstr. 4th

Claimed priority:
Great Britain 10 March 1953

Jens Bay Beenfeldt, Copenhagen
has been named as the inventor

sequence with aperiodic anode circuit and with between Control grid and anode of the tube working control crystal, the ones lying in series with one another Anode circles and the coupling of the control crystals are designed so that only the Anode-side crystal corresponding frequency is generated as long as both anode circuits are effective and only the other frequency arises when the aperiodic anode circuit is rendered ineffective will.

In this way, a considerable simplification is achieved for oscillators of the type mentioned above, and by the fact that the two crystals are always switched on in the relevant circle, with only for a switching device is required for the anode circuit.

A particularly useful embodiment of the invention is characterized in that the tuned parallel resonance circuit between the aperiodic circuit and the anode, and that the Connection point of the two circles connected to the cathode circuit of the tube via a switch is which switch, when closed, makes the aperiodic anode circuit ineffective.

The invention is explained in more detail below with reference to the drawing, which schematically shows the Control circuit of an oscillator according to the invention shows.

In the drawing, 10 denotes an electron tube with cathode 12, control grid 14 and anode 16.

. There is a resistor between the control grid and the cathode 20 switched on, over which a shortwave

crystal 22 with a relatively high frequency, z. B. 8 MHz, is switched on in parallel.

In the anode circuit of the tube is a parallel resonance circuit, consisting of a coil 26 and a variable capacitor 28 switched on for tuning in resonance with crystal 22.

This part of the circle is called a typical short wave oscillator known.

The feature of the invention is that in combination with this per se known circle Another circuit is used, which is known per se in long-wave oscillators. To this end a second crystal 30 is connected between the anode 16 of the tube 10 and the control grid 14, which has a relatively low oscillation frequency, e.g. B. about 500 kHz, and further is in Series with the resonance circuit 26, 28 an aperiodic coil 32 switched on, with a frequency range, in which the oscillation frequency of the crystal 30 lies. ao

From the above it will be understood that crystal 30 will readily operate in the long wave range, namely with the aperiodic circle. This circuit is a typical long wave oscillator circuit. Accordingly, the crystal 22 in conjunction with the tuned anode circuit provides a typical one Shortwave oscillator. When this shortwave oscillator is switched on, the gain in the Electron tube 10 exploited, so that the output voltage is also satisfactory in the short-wave range becomes, and mainly, the same as with the aperiodic oscillator circuit in the long wave range. '

A capacitor 34 is located between the lower end of the coil 32 and the cathode of the tube 10 Series with a switch 36. When this switch is open, the aperiodic coil 32 suppresses the vibrations of the short wave crystal 22 so that the oscillator works as a long wave oscillator with the crystal 30.

When the switch 36 is closed, the coil 32 is switched off and the oscillator operates in the short-wave range with the crystal 22 as the control crystal.

In circuits of the type mentioned, one normally becomes a capacitor in the short wave range Use at the place of the crystal 30 and in the long wave range a capacitor at the place of the crystal 22 use.

If the two crystals are constantly switched on in the same circuit, the self-capacitance of the two becomes Crystals can possibly take over the function of these capacitors.

Claims (2)

Patent claims: i. Electron tube oscillator that operates with the help of a. Tube and two different control crystals optionally two significantly different Frequencies generated, characterized in that the oscillator is a combination of two oscillators represents, for a frequency with a matched anode circuit and between Control grid and cathode of the electron tube working control crystal and for the other frequency with aperiodic anode circuit and working between the control grid and the anode of the tube Control crystal, and that the anode circuits lying in series with one another and the coupling of the control crystals are designed such that only those corresponding to the anode-side crystal Frequency is generated as long as both anode circuits are effective, and only the other Frequency arises when the aperiodic anode circuit is made ineffective. 2. Electron tube oscillator according to claim. 1, characterized in that the tuned parallel resonance circuit between the aperiodic. Circle and the anode, and that the connection point of the two circles is connected to the cathode circuit of the tube via a switch, which switch, when it is closed, makes the aperiodic anode circuit inoperative. Considered publications:
U.S. Patent No. 2448188;
British Patent No. 402 637. 1 sheet of drawings © 609 73J 12.56