DE672792C - DC amplifier - Google Patents

Description

DC amplifier The amplification of small DC voltages abuts known to be significant difficulties as soon as the tension to be intensified lie under the interference mirror of the amplifier arrangement. Own the tax sources a small internal resistance (small no-load voltages, large short-circuit currents, z. B. hot thermocouples, barrier photocells or carbon microphones), so leave the current surges with galvanometer relays or with mirror galvanometers and photoelectric Relays amplify, but this generally does not result in amplitude-true amplification is possible.

It is known that tubes in braking field circuit for amplifier purposes can be used in such a way that the voltage to be amplified between Brake electrode and cathode supplied and the increased voltage between the grid anode and cathode is removed. Instead, for the purpose of powerless control, the voltage to be amplified in a known manner also an additional, between the grid anode and braking electrode lying auxiliary grid are fed. Without the help of others However, a high sensitivity cannot be achieved with these known circuits with direct current amplification. For braking field tubes acting as high frequency amplifiers it has become known that a feedback from the braking electrode to the grid anode, z. B. via a capacitor, and thereby the sensitivity is essential to increase. However, this circuit is not suitable for direct current amplification.

According to the invention, an extremely large degree of gain can be achieved achieve in a DC amplifier that a brake electrode between and grid anode of an auxiliary grid arranged in a braking field circuit is galvanically coupled to the output circuit in such a way that by its action the current distribution control of the input electrode is increased.

The invention is explained in more detail with reference to the figure. Here .works the anode of the first tube as one of a low-molecular generator Z-controlled electrode, the low-resistance potentiometer R5: sets the operating point a. The voltage fluctuations of the first output circuit arise at R1, they become by galvanic coupling to the power-free controlled grid of the second tube fed. The voltage fluctuations are shown at R2 in the output circuit of the second pipe extracted (output voltage ga). R4 represents the ohmic feedback value , resistance represents, at R; the operating point of the intermediate control grid to adjust. R6 and R7 are heating resistors; R6 regulates the size of the emission current and thus the operating point of the control grid by influencing the current in R1 the second tube.

Claims (1)

PATENT CLAIM: i. DC amplifier in braking field circuit for Control sources with low internal resistance, where the control voltage is between the brake electrode and cathode and the increased voltage between grid anode and cathode is removed, characterized in that to achieve a very high degree of reinforcement an auxiliary grid galvanically arranged between the braking electrode and the grid anode is coupled to the output circuit in such a way that, through its action, the current distribution control the input electrode is enlarged. a. Amplifier according to claim i, characterized in that that there is an ohmic feedback resistor in the cathode circuit of the brake tube, .which does not belong to the input group. 3. Amplifier according to claim i, characterized gekennzeicluzet, that the brake tube working as a resistance transformer is an amplifier tube in normal circuit follows, in such a way that the grid anode of the brake tube galvanically connected to the control grid of the downstream amplifier tube is that, if necessary, the grid anode of the first tube via a resistor (R1) and the anode of the second tube through a resistor (R2) to the positive Pole of a common DC voltage source are connected.