DE1014605B - Circuit for preventing the transfer of an oscillation within a predetermined frequency range from the output circuit of an amplifier to its input circuit - Google Patents

Description

GERMAN

The invention relates to a circuit for preventing the transmission of a vibration within a predetermined range Frequency range from the output circuit of an amplifier with at least one cathode Control grid, a screen grid and an anode containing amplifier tube in the input circuit of the Amplifier. The problem to be solved with the invention occurs in particular in the case of radio receivers, and the invention will therefore be explained in the following in this context, albeit theirs Use is not limited to this case.

It is known that in the case of radio heterodyne receivers, the oscillator oscillation is often radiated in a disruptive manner takes place through the receiving antenna. This disadvantage is particularly evident with recipients Noticeable for frequency-modulated transmissions, since such receivers mostly work with additive mixing. Man has already tried to overcome this disadvantage by connecting a high-frequency amplifier stage in front of the mixer stage to eliminate the recipient, however, this measure has not proven to be very effective, especially for receivers for frequency-modulated transmissions, because with the high carrier and oscillator frequencies used here, those in the anode circuit of the high-frequency amplifier tube introduced oscillator oscillation via the interelectrode capacitances of the high-frequency amplifier tube but got into the input circuit of this tube and on to the antenna. The well-known Method in a superimposed stage that works with multiplicative modulation, the broadcast one to the second Control grid to prevent supplied oscillator oscillation by giving the anode of the tube an oppositely directed Neutralization voltage is supplied, cannot be used for a high-frequency amplifier stage because in this case the vibration to be blocked is fed directly to the anode and an opposite voltage is not accessible. One can see the unwanted radiation of the oscillator oscillation also do not prevent neutralization by other known methods, as the high-frequency amplifier does not contain an adjustable tuning capacitor that is directly grounded.

The subject of the invention is a neutralization circuit which is also suitable for high-frequency amplifiers of the aforementioned type. According to the invention, a capacitor is connected to the cathode of the amplifier tube, which forms a branch of a bridge circuit, the three other branches of which are formed by three interelectrode capacitances of the tube, the input circuit being connected to one diagonal and the output circuit to the other diagonal of the bridge , and the capacitor is dimensioned so that the circuit flowing through the diagonal containing the input circuit to prevent
the transfer of a vibration

within a predetermined

Frequency range of the output circuit

of an amplifier into its input circuit

Applicant:

Hazeltine Corporation,
Washington, DC (V. St. A.)

Representative: Dipl.-Ing. W. Mouths, patent attorney,
Frankfurt / M., Börsenstr. 17th

Claimed priority:
V. St. v. America 19 August 1955

Dudley Edwards Foster, Clendale, Calif.,

and George Ray Gieseke, Van Nuys, Calif. (V. St. Α.),

have been named as inventors

Current assumes a minimum value of the frequency present at the output circuit.

The invention is explained in more detail with reference to its embodiment shown in the drawing. In Of the drawings, Fig. 1 shows the circuit diagram of a heterodyne receiver provided with a high-frequency amplifier for receiving frequency-modulated transmissions, and FIG. 2 is that for the oscillator oscillation Applicable equivalent circuit diagram of the high-frequency amplifier.

In the receiver according to FIG. 1, the frequency-modulated carrier wave received with the antenna 10, 11 arrives Via the high-frequency amplifier 12 to the control grid 14 «of the mixing tube 14 of the superimposed stage 13, which is also supplied with the oscillation generated by the oscillator 15 of the receiver. In the mixing tube 14 is the intermediate frequency is generated by rectification, which is then transmitted via an intermediate frequency amplifier-16 and an amplitude limiter 17 is fed to a frequency demodulator 18 to which a low frequency amplifier 19 and a speaker 20 is connected. The recipient is voted on by means of a tuning capacitor 15 ″ belonging to the oscillator 15 and a tuning capacitor belonging to the high-frequency amplifier 39; these two capacitors

709 659/305

Claims (1)

3 4 can be mechanically connected to each other, as it is connected to its input circuit and to the antenna. this is indicated by the dashed line 15 b . hinders. The high-frequency amplifier 12 contains a device. It should be noted in particular that the invention for stronger tube 30 with a cathode 31, a control to achieve this purpose straight from the interstitial 32, a screen grid 33 and an anode 34. The 5 electrode capacitances of the high-frequency amplifier tube Antenna 10, 11 is made use of via an input transformer 35, which is generally only called notan connected to the high-frequency amplifier 12 by considering agile evils and in particular also the primary coil 36 of the input transformer with that for the undesired transfer of the oscillator antenna is connected and the secondary coil 37 oscillates from the output circuit of the intermediate frequency Input transformer between the control grid 32 io amplifier in its input circuit are responsible « and the cathode 31 of the amplifier tube 30 is connected. The switching elements of the high-frequency amplifier can In the output circuit of the high-frequency amplifier, it is advisable to dimension it as follows: a tuning capacitor 39 containing tuned oscillation circuit 38, the one hand via a choke coil 52 10 microhenry Capacitor 40 to anode 34 of amplifier tube 30 15 Capacitor 40 33 picofarads connected and on the other hand earthed. The anode 34 capacitor 41 200 picofarads receives its operating voltage from a voltage source capacitor 49 100 picofarads + B through a terminal 42, a resistor 43 and a capacitor 54 100 picofarads High-frequency choke coil 44. At the connection point resistor 43 4700 ohms of the resistor 43 and the high frequency choke 20 resistor 48 68 ohms. coil 44 is via a line 45 and the screen grid 33 tube 30 pentode part ,, connected to the tube 30, which is connected to a tube 6U8: Oscillator oscillation has a very small resistance capacitor 54 is grounded. ^ _κ * ι To the cathode 31 of the intensifier tube 30, an overall 25 .Patentansprüche :: '<> »■ erdeterNeutralisierungskondensator41 is connected, together with the inter-electrode capacity anode-1 circuit of an amplifier, whose output cathode (Cpjc), anode control grid ( C _gv ) and shield circuit an oscillation is present which forms a different grid control grid (C _{g sc} ) the frequency shown in FIG Prevention of the transfer of the coil 37 of the input transformer 35 and the interelectrode capacitance connected in parallel to the input from the output circuit to the input. Control circuit of the amplifier, which is an amplifier tube with a grid cathode (Q *). The neutralization capacitor 41 can be a fixed capacitor, which is characterized in that it is measured between the earth and the bridge circuit equilibrium 35 cathode (31) of the tube (30) Capacitor (41), but it can also be a variable capacitor connected, which is a branch of a bridge circuit sator, for example a trimmer capacitor, which forms the three other branches of three intermediate ends that it has the advantage of any changes in the intermediate electrode capacitances of the tube are formed, electrode capacitances of the amplifier tube 30, whereby the input circuit (37) can be resembled to the one diagonal. For the purpose of completing the unloading circuit (38) to the other diagonal charge circuit of the amplifier tube 30 is connected to the new bridge and the capacitor 41) tralizing capacitor 41 is a high-frequency choke so that the through the the input circuit; ; Coil 52 connected in parallel, which represents a high resistance for the oscillator-containing diagonal current flowing from the Sm oscillation. Output circuit existing frequency a mini The cathode circuit of the amplifier tube 30 can also assume 45 value. an upstream circuit connected between terminals 47 and 50, 2. circuit according to claim 1, characterized voltage-generating network 46 included, which indicates that the capacitor (41) has a choke the oscillator oscillation has a very small resistance coil (52) with a large AC resistance for represents and from a resistor 48 and a con currents of the frequency present at the output circuit capacitor 49 is formed. . 50 is connected in parallel. As can be seen from Fig. 2, the output circuit of the 3rd circuit according to claim 1, characterized by a high-frequency amplifier, in which the oscillator records that the capacitor (41) has a pre-oscillation occurs at those poles of the bridge voltage-generating network (46) of little Connected circuit, between which there is no Diago AC resistance for currents at the output connection, and as a result, the existing frequency at the cathode can be stimulated suitable choice of the capacitor 41, the bridge is closed. circuit are balanced so that the diagonal connection flowing current of oscillator frequency an Considered publications: Assumes minimum value. Since the input circle of the high German Patent No. 829 908; frequency amplifier located in this diagonal connection, 60 U.S. Patents Nos. 2,131,194, 2,250,206; is in this way the transmission of the oscillator- Radio Mentor 1955, p. 35; oscillation from the output circuit of the high frequency proc. I. R. E. Dec. 1943, p. 663. 1 sheet of drawings © 709 65ä / 305 8.57