DE1012965B - Control circuit for regulating the frequency of a tube generator - Google Patents

Description

The invention relates to a control circuit for controlling the frequency of a tube generator by means of a changing DC voltage that is fed to the tube generator via an amplifier will.

Such circuits are z. B. to synchronize a tube generator by a synchronization frequency used, the control DC voltage by phase comparison between the generator frequency and the synchronization frequency is obtained.

The circuits that have become known for this, however, have the disadvantages that the control steepness is small and the generator is out of range even if there are only minor deviations of a few percent from the target frequency Kick falls.

It is already known to remedy the first-mentioned disadvantage, a direct current amplification of the Carry out control voltage to increase the control steepness.

It is also already known between the discriminator, in which the control voltage is obtained by phase comparison, and the frequency controlled Generator tube to arrange a cathode follower as a separator tube with no gain the control voltage can be obtained.

In order to remedy the disadvantages indicated above, it is proposed according to the invention for a control circuit for regulating a tube merator by means of a changing control voltage, which is fed to the generator via an amplifier, which at a resistor that determines the frequency of the tube generator voltage in the Way to change that the resistor is placed in the cathode circuit of an amplifier tube and the control voltage is fed to the amplifier tube between grid and cathode.

The circuit according to the invention meets first in a particularly simple manner the requirement that the Control of the oscillation generator through the phase comparison voltage generated by a DC voltage amplifier demands. Second, the circuit allows a high gain of the amplifier tube and thus achieve a large control steepness, in contrast to a cathode amplifier, its gain cannot exceed the value one. The arrangement according to the invention also fulfills a third condition for an operationally reliable automatic frequency control circuit that is contained therein there is that when the vibration generator is stepped out or when it is switched on, the synchronism will be produced. For this it is necessary that the frequency of the vibration generator at least in the interim; in the capture range of the on-control circuit for regulating the frequency of a tube generator

Applicant:

TV GmbH, Darmstadt,
At the old train station 6

Dipl.-Ing. Herbert Bähring, Darmstadt,
has been named as the inventor

Order is coming. This is done in the arrangement according to the invention in that between the incoming Synchronization signal and the signal supplied by the vibration generator when the frequency is the same a beat frequency arises, which reaches the frequency-determining resistor of the vibration generator and its frequency in rhythm the beating wobbles. Within the beat period times then occur in which the generator frequency and the frequency of the synchronization signal are the same and almost in phase. In one At such a point in time, the oscillation generator is taken along with the correct phase by the synchronizing pulse and jumps into synchronism. The deviation of the generator frequency from the synchronization frequency can be greater, the greater the Wobbeis voltage supplied to the generator. This task is now in addition to the transmission of an amplified direct current value for the phase comparison solved by the arrangement according to the invention in the simplest manner in that the wobble frequency on the cathode resistance of the amplifier tube and thus on the frequency-matching resistance of the generator occurs more often.

In an advantageous development of the circuit, the amplifier tube is parallel to that in the cathode circuit lying resistor is a series circuit of a capacitor and a resistor that is small opposite the cathode resistance is to be arranged.

The circuit according to the invention can advantageously

for a phase comparison between the frequency of the tube generator and a synchronization frequency to be used.

In the drawing, an embodiment of the circuit according to the invention is shown in which the Phase of the voltage generated by the generator with an externally applied one: (here sawtooth-shaped Voltage) is compared.

709 590/246

The generator contains a tube 5 which is fed back between the second and first grid and operates as a blocking oscillator, in the anode lead of which there is an ohmic resistor 6 from which the generated pulses are picked up. The resistor 7 of the time constant element 7, 8, 9) 10 in the grid circle of this tube is also the cathode resistance of the direct current amplifier tube 2. The resistor 11 is used to decouple the time constant element and the control voltage generator 3. The operation in detail is as follows: Via terminal 12, the Switching arrangement a sawzabnf iform comparison voltage a is supplied, which acts in phase on the two rectifiers 13 and 14 of the discriminator bridge. Via a transformer 17, these voltages are each superimposed with a gegetiphase pulse b from the generator. If the pulse b is in the middle of the steep edge of the sawtooth voltage α, then the. from the resistors 15, 16 and the rectifiers 13, 14 existing bridge in voltage equilibrium, and the regulated tube 2 receives the grid bias 0. If the phase position of the pulse voltage shifts with respect to the sawtooth voltage, so is; Set a negative or positive grid voltage depending on the type of shift. The changing tube current of the regulated tube 2 generates an increased control voltage at the cathode resistor 7, which at the same time influences the grid voltage of the generator tube 5 and thus also its frequency.

The control steepness achieved with the control circuit is very large. While with the known circuits worked with a control gradient of 100 to 300 Hz / volt was achieved with the invention those of 3 kHz / volt. Even with one with an impedance tube controlled sine wave generator, the control slope was only 1.3 kHz / volt.

When using a pentode instead of a triode as a control tube, even greater control slopes are possible. For this purpose, control slopes of 6 kHz / volt were measured. The connected in parallel to the cathode resistor 7 Series combination of a resistor 8 and capacitor 9 is used to suppress Control oscillations, the ohmic value of the resistor 8 must be smaller than that of the cathode resistor 7th

The invention is not restricted to the exemplary embodiment described, but can be modified experienced, which are within the scope of the professional ability.

Claims (4)

Patent claims: 1.' Control circuit for regulating the frequency of a tube generator by means of a changing control voltage that is fed to the tube generator an amplifier is fed, characterized in that the occurring at a resistor, the voltage determining the frequency of the tube generator is changed in such a way that the Resistance is arranged in the cathode circuit of an amplifier tube and the control voltage of the Amplifier tube is fed between the grid and cathode. 2. Control circuit according to claim 1, for controlling the frequency of a tube generator, its Frequency can be influenced by the grid voltage, characterized by an amplifier tube (2); the control voltage supplied by a phase comparison circuit (3) between grid and cathode and a resistor: (7) used as the grid leakage resistor of the oscillator tube (5) and as the working resistance of the amplifier tube (2) is effective, so that at this resistance the control voltage amplified by the tube (2): steps and controls the frequency of the tube generator. 3. Control circuit according to claim 1 and 2, characterized in that parallel to the cathode resistor (7) of the amplifier tube (2) the series connection of a capacitor (9) and a resistor (8) is arranged, the resistor (8) small compared to the cathode resistance • (7) is. _: ; 4. Control circuit according to claim 1, characterized in that the circuit for a phase comparison between the frequency of the tube bell and a synchronizing frequency _; is used ". Publications considered: Funk, 1936, H. 14, p. 431; German Patent Nos. 718 278, 886 025, 316; U.S. Patent No. 2,178,985. 1 sheet of drawings