SU169880A1 - Method of forming bursts of pulses - Google Patents

Description

There are known methods for generating pulse trains using storage capacitors.

The proposed method differs from the known ones in that the first storage capacitor is charged with positive half-periods of a sinusoidal voltage shifted in phase with respect to the input voltage, and discharged between the pulses, and the second storage capacitor is charged with output impulses removed from the first storage capacitor. The number of impulses accumulated by the first capacitor determines the length of the pause between packs, and the number of pulses accumulated by the second capacitor is the number of impulses in the pack.

This provides for the extension of the limits to the independent control of the number of pulses in a burst and the duration of the pause between the bursts.

The drawing shows one of the possible schemes of the device that implements the proposed method.

The device is made on thyratrons. In the initial state, the thyratrons 1, 2 c 3 are closed by negative voltages Ll, LJ.,. bz respectively.

The protvlenp 5 through dpod 6 and the charge resistance 7 receives voltage pulses L (-, ap, during which time the capacitor 4 is charged, and in the strait ducks between the pulses it is discharged by resistance 8.

For example, Lj on the capacitor 4 increases in steps. The rate of this increase is determined by the cooHomeHneN constant charge and discharge time.

When the resulting voltage on the thyratron grid / U ,, Ll - U becomes equal to the unlocking voltage, the thyratron / will ignite.

Limit L,} Limit at voltage level Ui. since the gap grid is the cathode of the thyratron (serves as a diode to which negative voltage is applied (-H).

With the resulting grid voltage Uf, i O, the thyratron / conducts current into the conductive half-cycles of the input voltage, and the output voltage pulses are formed on the resistance 9. These pulses through a diode 10 and a charge dis with resistance // connect to a capacitor 12. connected to the circuit of the thyratron 2. The latter ignites when the resulting grid voltage on its grid Lg2 U - il becomes equal to the voltage of the switch.

limiting the flow through the thyratron current within acceptable limits. On the resistance 13, during the discharge of the capacitor 4 through the thyratron 2, the voltage Ls applied to the grid Tproi 3 drops. The resulting grid evaporation U ,,,, U, - L- becomes positive, and the thyratron 3 ignites.

Capacitor 12 is discharged through the opening thyratron 5 and the limiting resistance 14.

Thyratrons 2 and 3 are ignited simultaneously, which makes simultaneous discharge of storage capacitors 4 and 12; after that, all the thyratrons are locked and the process is repeated again.

To enable the ignition of the thyratron / at the beginning of the wire n, its voltage half-period, charging pulses 6, ",, supplied to capacitor 4, must be shifted in the direction of advance with respect to the conducting half-periods of the input voltage. This is achieved by charging impulses are formed by single-period alternating voltage U- generation, phase-shifted with respect to the input to the yomoil of the chains: capacitor / 5 - resistance 16, capacitor 17 - resistance 18, capacitor 19 - resistance 5.

Thus, by changing the magnitude of the setting voltages il and LJ, it is possible to change

the number of pulses recharging the capacitors 4 and G2, than to carry out separate and independent adjustment of the number of pulses in the packet and the length of: the pause between the packs.

The proposed method can also be implemented by circuits on semiconductor devices that have their own thyratron properties. - silicon controlled diodes.

PRIORITY AREA

The method of forming imuls packs using storage capacitors, characterized in that, in order to expand the limits of separately independent control of the number of pulses in a pack and the duration of the pause between packs, the first storage capacitor is charged with positive sinus periods of phase sinewed relative to the phase of the input relative to the input phase of the sinusoidal pair, shifted in phase relative to the input wavelength of the phase of the input relative to the input phase of the sinusoidal phase, which is shifted in phase relative to the input wavelength of the sinusoidal pair relative to the phase of the input relative to the input terminal, which is shifted in phase relative to the input voltage of the sinusoidal pair, shifted in phase relative to the input voltage of the sinusoidal phase, shifted in phase relative to the input voltage of the sinusoidal and discharged in the intervals between the pulses, the second storage capacitor is charged by the output voltage pulses taken from the first kopitelnogo capacitor, wherein the number of pulses accumulated first capacitor determines the duration between iauz pachkamp. 1 apoylenic second capacitor - the number of pulses in a pack.

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