DE923797C - Circuit arrangement for generating high-frequency pulses - Google Patents

Description

The invention relates to a circuit arrangement for generating High-frequency pulses with the help of a pulse-wise keyed on the side of the grid Tube generator.

The proposal has already been made to generate high-frequency pulses very high power of the anode of this generator a keyed in the same rhythm To supply anode voltage.

If a pentode is used in a high-frequency pulse generator, so the required control power is the lower, the higher the to the pentode applied screen grid voltage is selected. The maximum applied in continuous operation However, the screen grid voltage is limited by the voltage that occurs when the voltage is too high Insulation difficulties (risk of rollover).

The invention is based on the knowledge that when using a pulse control with a much higher screen grid voltage can, since the dielectric strength with short-term impulses is about ten times as great than when a constant voltage is applied to the screen grid. The invention proposal is that when a pentode is used in the pulse transmitter, its screen grid is also used a voltage sampled in the same rhythm is supplied.

Practical tests have shown that with a tube at a certain Control power, a pulse power of 5 kW can be achieved if only one grid scanning is provided. This power increases to zo kW when carried out at the same time an anode probing, because significantly higher anode voltages are used can, and on ao kW with additional keying of the screen grid the end pentode, because a higher screen grid voltage is permissible, so that finite the given Control power a much higher electron flow can be controlled.

Embodiments of the inventive concept are shown in the drawing shown.

Fig. I first shows a basic circuit, in. of the oscillating pipe with i, the lattice resonant circuit with 2, the anode resonant circuit with q. are designated. The anode is fed back to the mesh via the coil 3. For sensing of the control grid, the screen grid and the anode is shown in generator 6, which generates a sinusoidal alternating voltage of the desired pulse frequency. These AC voltage is on the one hand a pulse device 5, on the other hand a pulse device 7 supplied. The pulse device 5 generates grid strobe pulses, the pulse device 7 pulses, which should key in both the screen grid and the anode. Since the length of the emitted high-frequency pulses is determined by the transmitted to the grid DC pulses, it is necessary that both the anode and the pulses placed on the screen grid have such a shape that they represent the grid key pulse overlap in time, d. H. Anode and screen grid pulses must be received before the start of the Use the grid key pulse, but may only be used after the grid key pulse has been interrupted stop again. From the pulse device 7 are on the one hand via a transformer 8 the pulses to the anode, on the other hand via a potentiometer 9 the pulses to the Screen grid of tube i supplied.

In Fig. 2 an embodiment is shown in which the same Reference numerals represent the same arrangements as in Fig. I. The difference from Fig. i, however, a high-frequency generator consisting of several stages was shown in Fig. 2 accepted. In stage i, a high frequency is first generated, which in stage io is doubled or reinforced. In the anode circuit of the output stage i i, in which the resonant circuit 12, the desired high-frequency pulses then occur. This takes place, for example in stage i only the keying of the control grid, in output stage ii, however, for Achieving the highest performance simultaneous sampling of anode and screen grid voltage.

Claims (5)

PATENT CLAIMS: i. Circuit arrangement for generating high-frequency pulses with the aid of a tube generator that is pulsed on the side of the grid. through this characterized that when using a pentode its anode in the same rhythm is pulsed, also whose screen grid is sampled at the same rhythm Voltage is supplied. 2. Circuit arrangement according to claim i, characterized in that that when using an externally controlled transmitter the grille of the oscillating tube, on the other hand, the screen grid and anode are keyed for the end pentode. 3. Circuit arrangement according to claim around 2. characterized in that all pulse voltages from the same, a sinusoidal alternating voltage generating generator can be derived. q .. Circuit arrangement according to claim i to 3, characterized in that for feeding the anode and screen grid Pentode a single pulse device is provided. 5. Circuit arrangement according to claim q., characterized in that this pulse device generates pulses which the pulses, that are used for grid scanning overlap in time.