SU41590A1 - Amplifier - Google Patents

Description

Sw: 1 separate stages in low frequency amplifiers are usually carried out through transition capacitors and resistances, by means of which the amplified alternating voltage in the anode circuit of one stage is transmitted to the grid of the lamp of the subsequent stage. Such amplifiers make it impossible to amplify the constant currents, as well as the currents of very low frequencies, due to the presence of the aforementioned transition capacitor. Elimination of the latter requires the inclusion in the grid circuit of a subsequent cascade of a special counter-battery, which serves, as is well known, in order to eliminate the effect of a constant anode voltage.

The amplifier proposed in accordance with the invention does not contain transition capacitors and batteries, which is achieved by the special inclusion of anode resistances; It is these resistances that are connected between the cathodes of the amplifying lamps and the minus of the anode voltage source, and the grid of the subsequent lamp is attached to the cathode of the previous one.

The invention provides for the use of kenotrons as anode resistances.

In the amplifier shown in the drawing, each stage consists of a slider (419)

a telescopic lamp ((or 4), a kenotron 2 (or 5), and a constant resistance for grid bias 1 and; in this case, the kenotron is connected between the cathodes and the minus of the anode voltage source. The current of the kenotron is set so that the anode current of the amplifying lamp brings the kenotron to saturation. At the same time, there is some constant voltage on the latter, generally small, and with special kenotrons it can be very insignificant. With respect to alternating or pulsating currents, resistance

dE kenotron-7 -: - oo, ± ak as at saturation dia 0.

Under these conditions, it is easy to obtain a sufficiently large constant voltage at the anode of the amplifying lamp, since the drop at the cenotron is not large.

If the filament current of the kenotron 3 of the second or any next cascade is set so that the drop of the constant anode voltage on this kenotron is equal to the drop of the constant anode voltage on the kenotron 2 of the first (previous) cascade, then with the direct connection of the grid 4 of the second cascade ; the cathode of the lamp / first stage, between the grid and the cathode of the lamp 4 there will be an alternating voltage equal to the drop

pa11 |) from the alternating amplified current at the kenotron, and otpchchts / I) constant voltage, shattering the fall of the anodic one at constant resistance 5. Thus, all the conditions necessary for the normal operation of the amplifier device will take place. Since the mentioned adjustment of the heating of the kenotron is not difficult, especially if the device is equipped with measuring devices, it is clear that the amplifier does not need separation capacitors and therefore can serve to amplify the constant currents.

When using amplifying lamps with a heated cathode, they can all

powered by a common heat source.

The subject matter of the invention.

Claims (2)

1. An amplifier with co111P1I, characterized in that in order to eliminate the separation capacitors and b; 1t, in the grid circuits, anode connections are connected between the cathodes of the amplifying lamps and the minus of the anode voltage source, and the grid of the subsequent lamp is connected to the cathode of the previous lamp. 2. At the amplifier according to claim 1, use kenotrons as anode resistances. L, 4.