DE2161523C3 - - Google Patents

Description

The invention is to provide a safe and properly working device for the supply of multiple amplifiers, ^ »f ^ X '; _ke , _in ^ ä

The invention relates to an anode power supply circuit for several tube amplifiers operated in a grid basis circuit, especially power amplifiers, with a single anode chip, each arranged between the anode and cathode of the tubes Lattice

rpru'g ^ Tbenmig'el According to the invention, which This task becomes its anode power supply circuit of the type mentioned at the beginning solved in that one or between the cathode several "'tubes and the negative pole of the anode-V) Snnungsquelle one or more voltage thresholds are switched on and that the G.ttervorspannungsqueS "between the cathode of one of the tubes and ground is turned on. Through this circuit arrangement the possibility is created to set the Arbe.tspunki "Con two or more tubes separately, Ze that a mutual influence by d.e There is anode currents from the individual tubes

A 7ener diode can advantageously be used as the voltage threshold. one in terms of their between emitter and , o Collector reverse voltage continuously increasing adjustable transistor circuit or your own Source of connection, e.g. B. an electronically controlled Use power supply unit.

Further details and advantages of the invention are illustrated with reference to in drawings Circuit examples explained in more detail. .,. · ,,

Fig. 1 shows a power supply circuit diagram with mutually dependent setting of the operating point of two operated in a basic grid circuit

ROph ^ and ^ _{5 power supply} .schaltungbeispiele according to the invention without mutual influence by the anode current of the other two tubes operated in a grid base circuit, ss In F ie 1, a power supply circuit composed of two tubes 1 and 2 operated in a grid base circuit is shown . The two tubes 1 and 2 are connected in parallel at the anode, grid and cathode. An anode voltage source Ui 60 is between the anodes and the cathodes and a grid bias voltage source U2 is between the grids and the cathodes. The grids are both grounded. The positive pole of the anode voltage source U i > is connected to the two anodes and the negative pole of the grid voltage source U 2 is connected to ground. This circuit does not allow 711 to set the operating point of the two tubes U i and i / 2 separately. F i g. 2 and 3 show circuits in which the two

Tubes 1 and 2 can also be operated in a basic grid circuit, ie with grids connected to ground. The tube 2 is fed with a higher bias voltage between the grid and cathode than the tube I, which is achieved by switching on a Zenerdiorie 3 in the example according to FIG. according to FIG. 3 is achieved between points α and b . When using a Zener diode 3 as in FIG. 2, the bias of the tube 2 is dependent on the grid bias U1 and can only be adjusted in steps. When using the transistor regulator 4 as in FIG. 3, a continuous setting of the grid bias for the working point is made possible and the grid-cathode potential of the tube 2 can be maintained independently of the grid bias LJ 2 .

A small bias voltage to the tube 2 than in the tube 1. Figure 4 is accordingly by introducing an opposite polarity voltage source iV3 between the points a and b are obtained, with the positive at a, the negative terminal is connected at b. This also results in a continuous setting of the grid bias for the operating point, and the grid-cathode potential of the tube 2 can be maintained independently of the grid bias U2 . An electronically regulated power supply unit can expediently be used as the voltage source / 73. In addition, the terminals of the voltage source U3 are advantageously bridged with a diode 5, so that additional operational reliability is achieved. As long as the voltage source UI is absent, the diode 5 for the anode current is in the forward direction, so that the high bias voltage U 2 blocks and protects the tube 2.

5 shows a further circuit variation which consists in connecting the grid bias voltage source U2 directly to the cathode of the tube 1 and inserting a voltage threshold in the connection line to the anode voltage source t / 1 and to the tube 2. In the example, this voltage threshold is given by the Zener voltage of the Zener diode 6. However, an additional voltage source or a transistor regulator according to FIGS. Use 3 and 4. This circuit is advantageous when tube 1 has a lower anode current than tube 2.

1 sheet of drawings

Claims (7)

Claims: 10 1. Anode power supply circuit for several tube amplifiers operated in grid base training, in particular power amplifiers, with a single anode voltage source, each arranged between the anode and cathode of the tubes, the positive pole of which is connected to the anodes of the tube, and a single one between the grids and connected to ground the cathodes lying grid bias, which lies with its negative pole connected to ground, characterized in that between the cathode of one or more tubes (1, 2) and the negative pole of the anode voltage source (U 1) one or a plurality of voltage thresholds (3, 4, UX _- 6) are switched on and that the grid bias voltage source (U2) is switched on between the cathode of one of the tubes (1 or 2) and ground. 2. Anode power supply circuit for two tube amplifiers operated in a grid base circuit according to claim 1, characterized in that the negative pole of the anode voltage source (Ui) and the positive pole of the grid bias voltage source (U2) are directly connected together and the voltage threshold (3, 4, U 3) between this interconnection point ( a) and the cathode (b) is one of the two tubes (1,2). 3. Anode power supply circuit for two tube amplifiers operated in a grid base circuit according to claim 1, characterized in that the grid bias voltage source (U2) between the cathode of one tube (1) and ground and the anode voltage source (UI ) between the anode and the cathode of the other tube (2) ) is switched on and that the voltage threshold (6) lies between the cathodes of the two tubes (1,2). 4. Anode power supply circuit according to one of the preceding claims, characterized in that that the voltage threshold is the Zener voltage of a Zener diode (3,6). 5. Anode power supply circuit according to one of claims 1 to 3, characterized in that as a voltage threshold, a reverse voltage occurring between the emitter and the collector continuously adjustable transistor circuit (4) is provided. 6. anode power supply circuit according to one of claims 1 to 3, characterized in that an additional voltage source (L'3), e.g. an electronically controlled power supply unit, as a voltage threshold, is provided. 7. Anode power supply circuit according to claim 6, characterized in that the additional voltage source (L / 3) is connected in parallel with a non-commissioning of this source (U 3) for the anode current in the forward direction poite diode (5). power source connected to the positive pole on the anodes oh lieet as well as a single each between S e connected grids and the cathodes Sends grid voltage source. the one with her ^ne SienS; st _a Zn ^e Sis _P ie, wise the line pipes from an anode feeder should often be operated. Specifically, in amplifier unequal% but difficulties s in, Grid base circuit and tubes'"just in the ISehsi känstSung. Because usually the lattice of both tubes are connected to ground and stromversorgungsse.tig the anodes and cathodes in the broadest sense parallel / \ iiuucπ in detail later are connected see d, e sp _cathodes . ^beC di en per unavoidable frequency In most cases not