SU479241A1 - Pulse modulator - Google Patents

Description

one

This invention relates to radio engineering and can be used in transmitters.

A pulsed modulator containing a power source is known, to the positive pole of which, through a charging device and the primary winding of saturation throttles, is connected a drive input, the output of which is connected via a load to the zero bus of the modulator, controlled from the generator of trigger pulses, the thyristor connected between the point of connection of the output of the charging device with the saturation throttle and the zero bus of the modulator.

However, the known device has a low CDP.

The aim of the invention is to increase the efficiency of the modulator.

For this purpose, the saturation choke contains an additional winding, one output of which is connected to the zero bus of the modulator through a linear inductance and the other through to the anode of the discharge thyristor.

The drawing shows the principle electrical schematic of the modulator.

A pulse modulator contains a power source (not shown), a charging device consisting of droplets 1 and a diode 2 through which a series circuit of the primary winding 3 droplets of saturation 4, accumulator 5 and load 6 is connected to the positive pole of the power source. The discharge thyristor 7 is connected between the connection point of the output of the charger (cathode of diode 2) with the primary winding 3 saturation drops 4 and the zero bus of the modulator. One output of the additional winding 8 droplets 4 is connected via a linear inductance 9 to the zero bus of the modulator, and the other through a diode 10 to the anode of the discharge thyristor 7.

Pulse modulator works as follows.

In the intervals between pulses, the drive 5 is charged from the source through the charging choke 1 and the charging diode 2. When the triggering pulse arrives at the control electrode of the thyristor 7, the latter opens, and on the primary winding 3 of the saturation drops 4, the entire voltage of the drive 5, which is transmitted to the additional winding 8 with an amplitude greater than the possible voltage drop on the thyristor 7. This voltage is applied to the thyristor

7 through linear inductance 9 and diode iU. In this case, the linear inductance 9 is chosen such that the current through the thyristor 7 during the switching delay time of saturation 4 throttles varies linearly from zero to the nominal value

3

load current b at a speed determined by the allowable value for a given thyristor 7. The structure of the thyristor 7 is fully saturated and is prepared to pass a load current pulse 6.

At a certain time the choke 4 is saturated, the voltage on its additional winding 8 becomes equal to zero, and the accumulator 5 is discharged to the load b, on which a pulse of the required shape and amplitude is released. With a saturated choke 4 having a high transmission coefficient, the value of the inductance is converted to the primary winding 3 as a large resistance, as a result of which a small portion of the energy is removed from the accumulator 5 during the delay of saturation 4. Since at the moment of switching the throttles 4 the operating point of the thyristor 7 is determined by the amplitude of the load current 6, the voltage drop on the thyristor 7 when the load current 6 passes through is minimal, resulting in a decrease in its

warming up, increased efficiency and reliability.

Diode 10 is required for uncoupling the source when the thyristor is locked 7.

Subject invention

A pulse modulator containing a power source, to the positive pole of which through a charger and a primary

the throttle winding of saturation is connected to the accumulator input, the output of which through the load is connected to the zero bus of the modulator, controlled by - from the output of the generator of trigger pulses the discharge thyristor switched on

between the connection point of the output of the charging device with the saturation throttle and the zero bus of the modulator, characterized in that, in order to increase the efficiency, the saturation throttle contains an additional winding,

one output of which is connected via a linear inductance to the zero bus of the modulator, and the other through a diode to the anode of the discharge thyristor.