DEL0016862MA - - Google Patents

Description

L 16862 VIIIal21a ⁴

The control grid is at risk for amplifier stages with higher power in a grid-based circuit, if for some reason there is no anode voltage.

The illustration serves to explain this behavior.

In the case of an amplifier tube V ₁ , the grid G _{1 is} grounded. The secondary winding L _{1 of} a transformer is located between the cathode K ₁ and the grid G ₁

mators, the primary side L _{2 of which is} in the output circuit of the pre-tube V ₂ . The output circuit of the tube V ₁ consists in the usual way of a capacitor C ₃ and an inductance L ₃ , which can be thought of as a load in the form of a resistor R _{3 connected in parallel.} The anode DC voltage A ₁ is fed in via the choke D , while a resistor R ₂ is also located between the negative pole of the anode voltage source and the grounded control grid. A resistor R ₁ , which is bridged by a capacitor C ₁ , is also connected in series with the winding L _1.

The anode resistance R ₂ is also in the grid circuit of the preliminary stage V ₂ , specifically in series with the cathode resistance R _{i of} this stage. C ₂ and L ₂ are the capacitance and inductance of the circuit of the preliminary stage. The anode voltage A ₂ is fed to the preliminary stage via these elements, while the negative terminal of the voltage source for both stages is on the non-earthed side of the resistor R ₂ .

When the anode voltage A _{1 is} suspended, the alternating control voltage between the cathode K ₁ and the grid G ₁ can assume such values that the control grid is overloaded.

It is known to automatically protect a high-frequency amplifier tube from overloads Provide working switching devices in which disconnections by means of relays or contactors - Such systems usually require a special voltage source for the operation of the switching devices, require a high expenditure of switching material and thus increase the cost and space requirements of the system.

. According to the invention, these disadvantages inherent in the known circuits are avoided in that the resistor R ₂ in the anode circuit of the amplifier tube to be protected is simultaneously in the grid circuit of the preliminary stage and that the voltage occurring across it is used as a bias voltage for the preliminary stage in such a way that when the anode current drops of the stage to be protected, the control voltage amplitude of the preliminary stage becomes small. The alternating voltage at the coil L ₂ is thus also small, as a result of which the grid load on the tube V _{1 also} remains within harmless limits.

As the anode current of stage V ₁ increases, the AC output voltage of preliminary stage V ₂ rises, which also increases the control amplitude of stage V ₁ . When the anode current drops, the bias voltage of the preliminary stage V _{2 is} increased, so that the cathode of stage V ₁ only receives an output that is not dangerous for the load on the grid. A bias voltage is generated at resistor R ₁ , which becomes more negative when the current to the cathode of tube V ₂ rises, while the voltage generated by the cathode current of tube V ₁ at resistor R ₂ corresponds to the voltage at resistor i? ₄ counteracts this, ie when the current increases, it acts more positively than bias voltage on the tube V _2.

The circuit must be dimensioned in such a way that the preamplifier works overstretched after reaching the full anode current of the amplifier tube V _1. so that a stable state is achieved ".

The tube V ₂ need not be connected immediately before the tube V ₁ . There can also be one or more intermediate stages between these tubes. It is also not necessary that ' V _{1 is} a final amplifier stage.

Claims (3)

PATENT CLAIMS: 1. Circuit arrangement for protecting the control grid against overloads in an amplifier stage Higher power with a grid base circuit, which is controlled by a pre-stage is, characterized in that both in the grid DC circuit of the preliminary stage as well as in Anode DC circuit of the stage to be protected is a common resistance and that the voltage appearing at this resistor as a bias of the preliminary stage in such a way is used that when the anode sinks. current of the stage to be protected is the anode alternating voltage amplitude the preliminary stage and thus the expensive voltage of the stage to be protected becomes small. 2. Circuit arrangement according to claim 1, characterized in that both stages so are set that the preliminary stage when the full anode current of the to be protected is reached The amplifier stage works overstretched and thus its modulation is limited. 3. Circuit arrangement according to claim 1 or 2, characterized in that between the stage to be protected and the pre-stage affected, one or more intermediate stages are switched are. no 1 sheet of drawings © 609 576/344 7.56