DE1212144B - Circuit arrangement for generating pulses of constant amplitude - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. α .:

H03k

German class: 21 al - 36/02

Number: 1212144

File number: T 26565 VIII a / 21 al

Filing date: July 11, 1964

Opening day: March 10, 1966

The invention relates to a circuit arrangement for generating pulses, in particular radar transmission pulses, constant or varying repetition frequency and constant amplitude by means of one of the Repetition frequency according to the unloadable delay chain.

For example, from the German Auslegeschrift 1 168 953, such a circuit arrangement is known, which is characterized in that in addition to a main discharge device for the transit time chain ίο an auxiliary discharge device is provided which can be triggered by means of a time-selective circuit, the Triggering time by comparing a sawtooth voltage fed to the time-selective circuit and a reference voltage derived from the charging voltage is determined, and that the load resistance the auxiliary discharge device chosen to be large compared to the load resistance of the delay chain is, so that after ignition of the auxiliary discharge device ignition of the main discharge device takes place at a certain predetermined value of the discharge voltage.

F i g. 1 shows a circuit arrangement of this known type. Here, 1 denotes a delay chain, via a diode 2 combined with a decoupling element and a transformer 3 charged from an alternating voltage network and via a thyratron 4 and the load resistor 5 is discharged in a known manner. The load resistor 5 is, for example, the magnetron a radar transmitter whose pulse repetition frequency is controlled by the control means of the thyratron, not shown 4 is determined. To the output pulses of the delay chain 1 with constant amplitude independently of fluctuations in the supply voltage supplied via the transformer 3 is to be generated in the circuit arrangement according to FIG. 1 an additional auxiliary discharge device with the thyratron 6 and its discharge resistor 7 are provided. This auxiliary discharge device is made up of a comparison circuit 8 controlled, whose one input sawtooth-shaped pulses from the generator 9 and the other input of which is one from the charging voltage from the delay chain 1 by means of the voltage divider resistors 10 and 11 derived voltage are supplied. The thyratron 6 is in each case before Ignition of the thyratron 4 ignited. The phase of the pulses generated by the sawtooth generator 9 is relative adjustable to the input signal of transformer 3.

The time-selective triggering of the auxiliary discharge device when generating a constant charging circuit arrangement for generating
Pulses of constant amplitude

Applicant:
Telefunken

Patentverwertungsgesellschaft mb H.,
Ulm / Danube, Elisabethenstr. 3

Named as inventor:

Dipl.-Ing. Helmut Voigt, Ulm / Donau-Wiblingen

level of the delay chain of this known circuit arrangement is relatively difficult in practice feasible with sufficient accuracy, since with this time-selective triggering it has to be sensed when the discharge must take place in order to be defined by the series resistance of the auxiliary discharge device to maintain the desired energy level in the transit time chain as the discharge takes place. This The disadvantage is particularly pronounced when generating a possibly statistically varying pulse repetition frequency by means of the known circuit arrangement in appearance.

In the embodiment of such a circuit arrangement shown in the cited German patent application Thyratrons are provided in the discharge devices; the extinction of the thyratron the auxiliary discharge device requires the overcoming of additional technical difficulties, not shown.

Another fundamental disadvantage of the known circuit arrangement is that energy is destroyed to stabilize an energy level requires that always a higher amount of energy must be destroyed than normally caused by the natural voltage fluctuations in the power supply would be conditional. .

The invention is based on the object of specifying a circuit arrangement that has at least the solves the same tasks as the known circuit arrangement, but avoids its disadvantages.

The invention is thus based on a circuit arrangement for generating pulses, in particular Radar transmission pulses, constant or varying repetition frequency and constant amplitude by means of a delay chain that can be discharged according to the repetition frequency, with a main discharge device an auxiliary discharge device is provided for the transit time chain and the auxiliary discharge

. -. 609 537/355

device can be triggered by means of a comparison circuit. The solution to the invention is based The object of the proposed circuit arrangement of this type is characterized according to the invention that the auxiliary discharge device as a valve is a controllable high vacuum tube, for example a tetrode or 'pentode, mif "an anode-side Discharge resistor contains that the comparison circuit is one of the instantaneous charging voltage compares the voltage dependent on the delay chain with a stabilized voltage of opposite polarity, for which purpose two series connections are provided in parallel to the main discharge device, one of which one of the high vacuum tubes connected in the same direction as the main discharge device with one the anode-side discharge resistor and the other a reference voltage source with an ah negative pole connected ohmic voltage divider included, and including the connection point of the resistors of the ohmic voltage divider is connected to the control grid of the high vacuum tube, and that the discharge resistor such is dimensioned so that the high vacuum tube draws the full discharge current when it is fully opened.

On the basis of Fi g. 2 is a preferred embodiment of the invention in the following detailed explanation described in detail. The same reference numbers denote in FIG. 2 same Building blocks as in Fig. 1.

At one terminal of the secondary winding of the transformer 3 is in the circuit arrangement according to FIG. 2 instead of the diode 2 (FIG. 1) a rectifier circuit made up of two in parallel on the input side lying, but oppositely polarized rectifiers 2 'and 12 are provided, which are expedient Semiconductor diodes are. As shown in Fig. 2, the thyratron 6 can be seen through a high vacuum tube 13, for example a tetrode or a pentode, the working resistance of which is denoted by 7 '. This high vacuum tube is controlled by a comparison circuit in the sense of an auxiliary discharge, a comparison of the instantaneous charging voltage of the delay chain 1 with a stabilized voltage of opposite polarity, for which purpose - as shown - the resistors 14, 15 and 16, which may optionally be adjustable, and the voltage stabilizer tube 17 as well as the Capacitor 18 are provided.

The resistance?' is expediently dimensioned so that the tube 13 when it opens the full Can draw discharge current of the auxiliary discharge device.

In contrast to the circuit arrangement according to FIG. 1 in the circuit arrangement according to FIG. 2 no longer necessary to effect a time-selective, to a certain extent anticipatory triggering of the auxiliary discharge, so that constant energy levels are generated on the delay chain even with a statistically varying pulse repetition frequency of the generated pulses.
The circuit arrangement according to the invention is suitably dimensioned according to rules known per se in such a way that the desired energy level is still present at the lowest voltage as a result of voltage fluctuations that can occur in the secondary winding of the transformer 3

ίο the runtime chain 1 is available.

The circuit arrangement according to the invention is used particularly advantageously in pulse radar devices with sector keying, where a delay chain modulator is used to generate the transmission pulses is provided and the only predetermined azimuthal angular ranges of their antenna in each case scan the swept area, "which would otherwise cause strong high voltage fluctuations in the Modulator occur which, in a known manner, involve the use of clipper circuits and / or spark gaps to protect the modulator and its magnetron tube.

Claims (1)

Claim: Circuit arrangement for generating pulses, in particular radar transmission pulses, more constant or varying repetition frequency and constant amplitude by means of one of the repetition frequency correspondingly unloadable runtime chain, in addition to a main unloading device for the Time chain an auxiliary discharge device is provided and the auxiliary discharge device by means of a comparison circuit can be triggered, characterized in that the auxiliary discharge device (7 ', 13) a controllable high vacuum tube (13), for example a tetrode, as a valve or pentode, with an anode-side discharge resistor (7 ') that contains the comparison circuit one of the current loading chip .40 voltage dependent on the transit time chain with a stabilized voltage in the opposite direction Comparing polarity, including two series connections parallel to the main discharge device (4) are provided, one of which is connected in the same direction as the main discharge device High vacuum tube with an anode-side discharge resistor (7 ') and the other a reference voltage source (17) with an ohmic voltage divider (15, 16) connected to its negative pole, and for what purpose the Connection point of the resistors of the ohmic voltage divider to the control grid of the high vacuum tube is connected, and that the discharge resistor is dimensioned such that the high vacuum tube when fully opened draws full discharge current. 1 sheet of drawings 609 537/355 3.66 © Bundesdruckerei Berlin