SU493013A1 - Pulse modulator - Google Patents

Description

(54) PULSE MODULATOR

one

I The invention relates to pulse modulators that charge a storage device from an alternating voltage source, and can be used in the development of pulsed power systems in the technique of accelerating charged particles, in radiolocation, in radio communication technology, etc.

A pulsed modulator with a charge of a storage device from an alternating voltage source is known, which contains a charging choke connected to the input of a storage device made as a forming artificial line and connected via a load to a zero 111 Ω core, a switching element connected by an anode to a common the point of charge throttle and accumulator, an additional switching element, a generator of trigger pulses, the output of which is connected to the control electrodes of the switching elements, auxiliary to opitelnuyu circuit comprising series-connected capacitor and a diode.

The purpose of the invention is to increase the amplitude of the output pulse while decreasing

relative stress between artificial line and load.

This is achieved by the fact that the cathode of the auxiliary storage circuit is connected to the common point of the charge droplet and one of the poles of the alternating voltage source, and the anode is connected to

the connection point of the cathode of the discharge switching element to one of the capacitor plates of the auxiliary accumulation circuit, the other side of which is connected to the zero width of the modulator, and the output of the artificial forming line is shunted by an additional switching element (its anode to the connection point of this line with the load.

FIG. 1 is a schematic diagram of a modulator. The circuit contains accumulator 1 (artificial formative jm), connected through a charging choke 2 with a source 3 of alternating voltage. The anode of the discharge switching element, made on the thyratron 4, is connected to the output of accumulator 1, and the cathode to capacitor 5 and the anode of diode 6. Collator 5 and diode 6 connected by second leads to source 3 form an auxiliary accumulating circuit. The other conclusion is accumulate 1 connected to the load; 7, and the drive is shunted by an additional switching element on the tiratron 8. ... -., FIG. 2 shows time diagrams of voltages on the main circuit elements, where I is the source voltage 3, and is the voltage on accumulator 1, and FLs is the voltage on capacitor 5, And is the voltage pulse on the load 7. By the time t - where W. The intrinsic frequency of the charge resonant circuit L other. C,, line 1 is charged to voltage +3, where Ufn is the voltage of the power source, and capacitor 5 is charged to discharge the discharge thyratron .4 closing the series circuit before voltage. capacitor 5 - line 1 - load 7. When matching resistance Loading the I to P wave resistance (R - F) for direct voltage, a load equal to:. 3Un, -Uni -. ,:.: ОН g% и., - t The capacitance of the capacitor 5 is chosen several times greater than the total capacity of the artificial line C., so that over a time equal to the duration of the pulse it is discharged slightly. After the pulse has been formed, the line is recharged to the voltage on the capacitor 5, equal to i, which will ensure reliable locking of the thyratron 4 Next, an additional thyratron 8 is ignited, providing a wave recharge of the line to the voltage + U This voltage will add up to the voltage The line on the next cycle And the moment of the second commutation of the line, the voltage on it will be equal, the load on the load from the second pulse - k - iUffl ± Lk - about RH H - 2 2. DSTP In the future, the processes in the scheme are repeated. Thus, a sequence of pulses is formed on the load, in which the amplitude of the first pulse is 2Uj & a and all subsequent 2.5U. The specified voltage increase is achieved for the line; calculated for a maximum voltage of 4 and j. , while the ratio of the voltage on the line to the voltage on the load is equal to r, 6. Uniform acquisition unit form Pulse modulator with accumulator charge from an alternating voltage source, containing a charging choke connected to the input of the accumulator, made in the form of a forming artificial line and connected via a load to the zero bus of the modulator, commuting the discharge element connected the anode to the common point of the charge droplet and the storage device, an additional switching element, a generator of trigger pulses, the output of which is connected to the control electrodes of the switching elements, auxiliary a storage circuit including a series-connected capacitor and a diode, in order to increase the output amplitude amplitude while decreasing the relative voltage between the artificial line and the load, the cathode of the auxiliary storage circuit connected to the common point of the charge drop and one of the poles of the alternating voltage source, and the anode is connected to the connection point of the cathode of the discharge switching element with one of the plates of the auxiliary circuit capacitor, another The cable of which is connected to the zero modulator, and the output of the artificial fsmming line is shunted by an additional switching element connected by its anode to the point of connection of this line with the load.

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