RU72371U1 - LAMP AMPLIFIER - Google Patents

Abstract

A tube amplifier with a direct connection between the stages, characterized in that the stability of the direct current mode is achieved by using a double triode amplifier in the first stage, one of which is a voltage amplifier, the second is its anode load, and the cathode resistor of the output lamp works in the filter of the anode rectifier while its output from the side of the lamp cathode is grounded by alternating current through the capacitor, and the output from the rectifier side is grounded by direct current through the inductor.

Description

The utility model relates to radio electronics, and more specifically to low-frequency amplifiers and can be used as part of audio complexes, home theaters.

Amplifier circuits with a direct connection between cascades are known, in which the control grid of each subsequent lamp is connected directly to the anode of the previous one without an isolation capacitor, and the cathode is connected to a common wire through a high-resistance resistor, which ensures the optimal operation of all cascades. In parallel to this resistor, a capacitor is turned on to "ground" the cathode with alternating current. (German Patent No. 622693 of December 4, 1935). In this amplifier with cathodic resistors with shunt capacitors, a negative feedback voltage is released, since the anode current of the lamp is closed through them. Another drawback is the large instability of the output lamp due to aging of the previous one: over time, the anode current of the previous lamp decreases, the anode voltage increases, along with it the voltage on the control grid of the subsequent lamp increases, and as a result, the voltage of the anode-cathode of the output lamp decreases. For these two reasons, such schemes are not widespread.

The technical result, the claimed utility model is aimed at achieving, consists in eliminating these drawbacks, namely: eliminating the influence of the cathode RC link on the sound, and preserving the lamp modes in direct current throughout the life of the radio tubes.

To achieve this technical result in an amplifier consisting of two stages with a direct connection, the cathode resistor of the output lamp operates in the smoothing filter of the anode rectifier and the anode current of the output lamp is closed in the circuit: anode - output transformer - rectifier filter capacitor - cathode. The ac component of the anode current does not pass through the cathode capacitor. This capacitor is used to bind the rectifier filter to "ground" by alternating current. To achieve long-term stability of the lamp regimes in direct current, a cascade with a dynamic load on a double triode is used as an input: one triode operates as a voltage amplifier, the other is its anode load. The aging of both triodes occurs almost simultaneously, therefore, the constant voltage at the output of the cascade during the entire service life varies slightly. It also changes slightly when changing lamps. The output resistance of such a cascade is small, since the upper (according to the scheme) triode is a cathode follower for the output lamp. Therefore, the output lamp can work with grid currents.

The drawing shows a schematic diagram of the proposed amplifier. The amplifier contains:

The first cascade on a double triode 2 and 4 with automatic bias resistors 3 and 5, and grid leakage resistance 1. The second cascade on a triode 7 with an output transformer 6. Anode rectifier filter on capacitors 8, 11 and a resistor 10. Anode rectifier 13. Anode transformer 14, Capacitor 9 for "grounding" the anode filter for alternating current. Inductor 12 for "grounding" of the anode rectifier DC.

The amplifier works as follows:

The input signal is fed to the grid of the lamp 4. Lamp 2 is the anode load of the lamp 4 and the cathode follower at the same time, since the signal is removed from the cathode of this lamp. The modes of the DC lamps and the constant voltage at the output of the cascade are determined by resistors 3 and 5. The output of the first stage is connected to the grid of the lamp 7. The constant current of the lamp 7 is determined by the voltage on the grid of this lamp and the value of the resistor 10, since the right terminal of this resistor is connected to ground "through the inductor 12. The alternating component of the anode current of the lamp 7 is closed by the circuit: anode → primary winding of the output transformer 6 → capacitor 8 → cathode. An amplifier load is connected to the secondary winding of transformer 6.

Claims (1)

A tube amplifier with a direct connection between the stages, characterized in that the constant current mode is achieved by using a double triode amplifier in the first stage, one of which is a voltage amplifier, the second is its anode load, and the cathode resistor of the output lamp works in the filter of the anode rectifier while its output from the side of the cathode of the lamp is grounded by alternating current through the capacitor, and the output from the side of the rectifier is grounded by direct current through the inductor.