SU671027A1 - Pulse modulator - Google Patents

Description

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The present invention relates to radio engineering and can be used in transmitting devices with LI-M modulators | M1I, which requires a foot front of the modulating pulse.

When developing high-power high-voltage pulse modulators, high current stability is often required. For this purpose, as a switch 1I: ozolz; cosiness trio With a protective net with an clearly pronounced pentod character of the snapshot.

The operating point is selected on the horizontal learning curve and it is designed to obtain a stable load current due to possible changes in resistance by 1 GF-K | I and the voltage on the storage capacitor. In such a mode, the modulus of a torn lam.la has a large internal resistance (3-f 5 kΩ). Usually, high-power modulators have a large, and-anti-capacitance capacitance. The large resistance of the modulator lamp and the large parchitis capacitance make it difficult to obtain a short front of the modulating pulse.

The duration of the front depends on the ereme or the charge of the parasitic capacitance. The more current it charges, the faster it is

will charge and thereby the front of the pulse will become shorter.

A pulse modulator is known that contains a series-connected power source, a charging device, a drive and a load, a switch connected to the output of the drive, and an additional drive and an additional switch.

A disadvantage of the known device is low reliability.

The invention invention is a higher and more reliable one.

To achieve this goal, a pulse modulator containing successively included a power source, a charger, a drive and a load, a switch connected to the drive input, and an additional drive,

it is connected in series with an additional storage element through a transformer, a voltage divider, a differentiating circuit and a pulse generator are introduced, the output of the differentiating circuit is connected to the control input of the switch, and the additional storage is connected to the output of the charger. The scheme of the pulse modulator is shown in the drawing.

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The impulse modulator of the SOS1RG | IT Hicchik of power supply 1, which is connected through the device 2 and the storage device 3 to the drug 4. To the output of the drive 3 P1odkeyi KO: MiMiyTa: TOip 5. To the output of the charging device | trans1spro) p1mato1p 7. Secondary winding 8 T | pa1H € for p | M1ator 7 "fuse divider wall 9, the output of which is connected to the input of the differentiating circuit 10. And the output difs}) e (rbnts (converting circuit 10 is connected to the control by the IBXO house of the switch, to which the generator of 11 pulses is also connected.

The scheme works as follows.

In П1р01межутках between the pulses of drive 3 and the additional drive 6, they are open until the voltage of the power source is 1H | I 1. The switch is closed by negative bias. When a positive pulse is applied, switch 5 is opened (it is broken. Discharger 3 is discharged through switch 5 to load 4. At the same Brem, additional 1 H1 is discharged through switch 5 and on the secondary side of transformer 7, the positive pulse of the same duration is added , as the generator pulse 11. The pulse amplitude at the output of the divider 8 is greater than the amplitude of the generator pulses 11. From the output of the divider 9, the impulses are received) At the input of the differential circuit PI 10, where two short P1M1 pulses of different fields p1 are differentiated O1ST1I but with a steep fronts received at a control input k10MMutatO1ra 5 wherein skladzzayuts with pulse generator 11.

Bbii6ipoc probing am1PLI11udy drastically reduces the internal resistance of the switch 5 and allows you to get a large a M Plyuda current, which is charged for a paraSIT1 of the capacitance. Then the pulse A. amplitude decreases sharply, which leads to an increase in current. This current corresponds to the load current. The amplitude of the pulses coming from the output of the differentiating circuit 10 depends on the charge current of the para-zip capacitance, i.e., the duration of the front of the modulating pulse. Amplitude differential4

The I1M tsulows are determined from the volt1a1m1perny characteristics of the lamp, based on the required current, which the lamp must provide for the charge of the parasitic

capacity. The amplitude of the differentiated pulses is controlled by changing their parameters in the voltage divider 9. The duration of the differential pulses is adjusted by changing the parameters of the differentiating circuit. Negative impulse closes the lamp more quickly and contributes to some increase in efficiency.

The modulator circuit in comparison with the known one allows to obtain a short

modulating and multiplex frant, excluding from the prototype circuit a high-voltage thyratron, the presence of which leads to a decrease in the reliability and complexity of the circuit. This is achieved due to the fact that at the moment of the formation of the output impulse of the control impulse, which enters the input of the switch Ia 5, a short impulse is applied, which is formed by the differentiating circuit 10 at the discharge

on her additional storage 6.

F o r: M l l invention

An impulse modulator containing

power supply connected in series, for | p dd | device, storage and loading, com (mutato (p connected to input | Ode 1 storage and additional storage drive, characterized in that

The aim is to increase the reliability of the work of the device, and to it, in series with an additional accumulator element, a voltage divider is introduced through the transformer. The differentiating circuit and the pulse generator, with the output of the differentiating circuit connected to the control input of the switch, and an additional drive connected to the output of the charging device.

Sources .Infor: Mats, taken into account in the examination

1. Authorship certificate L 338993, cl. H 03 K 3/55, 1967.