DE507647C - Arrangement for the amplification of modulated high frequency carrier oscillations - Google Patents

Description

Arrangement for amplifying modulated high-frequency carrier oscillations The invention relates to high-frequency amplifiers. It is known that when the selectivity of a radio frequency amplifier for amplifying wireless telephony signals is made sufficiently strong to reject unwanted signals, the amplification at frequencies on both sides: the carrier frequency is lower than the carrier frequency itself and decreases rapidly in, Measure of how the distance from the carrier frequency increases. Assuming that ty custody must be transferred well for a good reproduction of music or speech frequencies from 25 to io ooo cycles per second, the high-frequency amplifier all frequencies between N must evenly - io ooo and amplify N -f io ooo cycles per second , where N is the carrier frequency.

If the selectivity of the amplifier is increased, so will the higher audio frequencies are all cut off, and the intermediate frequencies are amplified less than the low frequencies. The result of this is impairment the quality of the reproduced sound.

It is already known between the anode of a tube and the grid of the following tube a resonant circuit tuned to the carrier frequency to be amplified to be arranged in a row. Such an oscillating circuit affects the carrier frequency as a blocking circle. If the damping in this oscillation circuit is strong, it causes he not only an attenuation of the carrier frequency, but also an attenuation of a frequency band lying on both sides of the carrier frequency. As a result, it results a substantial reduction in the amplification of the vibrations.

According to the invention, in addition to the aforementioned, it is connected in series Oscillating circuits a second oscillating circuit tuned to the carrier frequency provided, which lies in the anode circle of the first tube. The damping in the second oscillation circle is greater than that between the anode of one tube and the grid of the oscillation circuit lying next to the tube. In this way it is possible to have a To create amplifiers in which the amplification is over the desired frequency range d is approximately constant, but drops rapidly outside this frequency hanide.

The subject of the invention is on the drawing, for example in Application to a high frequency amplifier shown in which the anode circuit is matched.

The tube hl is a high-frequency amplifier with supply terminals i, which can be connected to the receiving antenna circuit. In the anode circuit the Tube i is a tuned oscillation circuit 2, whose Anode current of the tube through the self-induction coil of the tuned circuit is fed. The anode of the tube L'1 is connected to the grid of a tube V, which can be a detector tube, over. a coil 3 and a capacitor d .. A coil 5 is firmly coupled to the coil 3, and a variable capacitor 6 is connected in parallel to the two coils 3 and 5 connected in series. It It is essential that a certain resistance is provided in the oscillating circuit 3, 5, 6 is, and sometimes it has been found necessary, a small series resistance 7 to add. The attenuation of the circuit 3, 5, 6 must, however, be less than that of circuit 2. It should be noted that circuit 2 is through the with tube connected to it is attenuated.

When receiving «ground the two coordinated oscillation circuits 2 and 3, 5, 6 tuned by means of the variable capacitor so that they are at the frequency of the carrier wave to be received is in resonance; when the values of the components of these circuits are appropriately selected, it is found that the overall gain for any given degree of selectivity within the carrier frequency and the Sideband frequencies comprehensive frequency band is significantly more uniform than it would be the case when the second matched circuit, namely the one between the anode of one tube and the grid of the next, would not be included. the The effect of this tuned circuit is to amplify the frequencies in the vicinity of the carrier frequency versus the gain of the carrier frequency to reduce more distant frequencies.

It should be noted that the invention is not limited to the case which uses a matched anode circuit, but the invention is also applicable to circuits where other types of coupling, e.g. B. High frequency transformer coupling, are used. The control elements of the two capacitors can, if so desired is to be mechanically coupled to ensure that the two are matched Circuits are always tuned to the same frequency. The Arrangement according to the invention also in the intermediate frequency amplifier of a super heterodyne receiver use, with de = in the intermediate frequency fixed and the superimposition frequency changeable is. In such a circuit, the setting of the two capacitors done once and for all, and the selectivity and shape of the gain curve will then remain constant regardless of how large the frequency of the to be received Carrier wave may be.

Claims (2)

PATENT CLAIMS: i. Arrangement for amplifying modulated high-frequency carrier oscillations with an oscillation circuit tuned to the carrier frequency to be amplified, which between the anode circuit of an electron tube and the grid circuit of the following tube, characterized in that a second is on the carrier frequency tuned oscillation circuit is provided, which in the anode circuit of the first Tube lies and the stronger than that between the anode of the one and the grid the tuned circuit lying next to it is damped. 2. Arrangement according to claim i, characterized in that the between the anode of the one and the grid of following tube lying oscillation circuit of two in series, close to each other coupled coils and a capacitor connected in parallel to these coils, and that one of the coils on the one hand with the anode of the preceding and on the other hand connected to the grid of the following tube.