DE757270C - Amplifier - Google Patents

Description

Amplifier For amplifier tube circuits where a Resistance in the cathode lead in connection with a parallel capacitor the bias for the control grid is generated and several in the anode circuit further resistances are at which partial voltages. the whole between anode and cathode prevailing alternating voltage can be taken, consists in many Cases the need to use these partial voltages regardless of the transmitted frequency to keep.

It is already known the impedance of the anode circuit of an amplifier tube to give the same time constant as the impedance of the cathode circuit of the same Tube. In this dimensioning, however, was the result of the series connection of the tube internal resistance Frequency dependence due to cathode impedance not yet taken into account. It is also known that the partial anode resistances do not have a cathode resistance having to be dimensioned amplifier tube circuit for the same time constants.

The invention relates to an amplifier with a tube with frequency-dependent Cathode resistor and an anode resistor, which consists of several series-connected, to decrease frequency-independent partial voltages serving resistors.

According to the invention, all have in such an arrangement Partial anode resistors the. same time constant as the series connection the cathode resistance and the internal resistance of the tube. With such a The partial voltages tapped at the individual resistors are independent of the rating on the frequency of the AC voltage supplied to the control grid.

Fig. I shows the circuit arrangement of such an amplifier in schematic representation; Fig. 2 shows the special application of such an amplifier as the output amplifier of a television receiver.

In Fig. I V are the intensifier tubes, Eo, the voltage between the grid and ground, ZO the switching elements for Gittervorspannungserzeugung, Z1, Z2 ... Zn partial resistors with the associated parallel capacitances or inductances in the anode circuit of the amplifier. This also includes the resistors from which the anode voltage is taken. In Fig. 2, 3 is the amplifier tube. The line 2 carries a constant potential and is appropriately grounded. The resistor Ro and the capacitor Co. serve to generate the grid bias. The partial resistors in the anode circuit are connected to the amplifier output voltage E2, while the voltage Eo is the input voltage of the amplifier. The partial resistances in the anode circuit are denoted by rl, RT and r. "R2. The voltage E2 for the synchronization of the television receiver is picked up at Rl, rl, R2 and r2, while the voltage Ei for the image values is picked up at the resistors R1 and r1 The double bipolar tube 5 with the cathode q. And the anodes 6 and 7, which is connected as an amplitude filter and via the primary windings 8 and 9 of the transformers io and ii with a The resistors r, and r2, in conjunction with the capacitors C1 and C2, also serve to filter or reduce the voltage Resistors R3 and C3 are part of the grid bias generation of this tube in a manner known per se.

Claims (3)

PATENT CLAIMS: i. Amplifier with a tube with frequency dependent Cathode resistor and an anode resistor, which consists of several series-connected, there are resistors serving to decrease frequency-independent partial voltages, characterized in that all anode partial resistances have the same time constant like the series connection of the cathode resistance and the internal resistance the tube. 2. Amplifier arrangement according to claim i, characterized by its use in reception systems for television broadcasts. 3. amplifier arrangement according to claim i, characterized by their use as the final stage of a television receiver amplifier, such that both the synchronizing voltages (E2) and the image content voltages (Ei) are removed (Fig. 2). To delimit the subject matter of the invention From the state of the art, the following publications are considered in the granting procedure been drawn: Funk-Bastler, 1932, p.213; The Wireless Engineer, February 1936, P. 59 f.