SU451176A1 - Pulse modulator - Google Patents

Description

(54) PULSE MODULATOR

The invention relates to the pulse technique, in particular to modulators with a resonant charge of a storage element. A pulsed modulator is known that contains a power source, is connected via a charging device to the input of a storage cell, in series with which the load is connected, and between the connection point of the charging device with the storage cell ((switching element is connected to the modulator zero bus) The generator of the trigger pulses is connected in series, and the amplifier is connected to the generator output through the blocking device of the control circuit of the switching element. However, the known device does not provide a sufficiently reliable blocking of the control circuit when the power source is turned on and at the beginning of the charging cycle. The aim of the invention is to ensure the reliability of the control blocking when the power source is turned on and at the beginning of the charging cycle. The device is made in the form of two diode keys connected in series to the control circuit of the switching element, and the control circuit of the first key is connected between the com- power supply busbar, and the second diode switch is made with two control circuits, one short circuit of which is connected between the output of the charger and the zero thickness of the modulator, and the other between the connection point of the diode switch and the modulator input zero . The drawing shows a diagram of the modulator. The pulse modulator contains a power source 1, a charging device consisting of choke switches 2 and a diode 3, a storage element 4, a load 5 connected in series. The storage element 4 is discharged to the load 5 via the switching element 6, which are also connected in series. A sequential blocking device, made in the form of diode switches 8, 9, and an amplifier-former 1O, are connected between the control electrode of the switching element 6 and the trigger pulse generator 7, and the switches 8 and 9 are connected respectively to the power supply 1 and the storage element 4, the second key 9 being configured with two control circuits. The modulator operates as follows. When the power source 1 turns on, the single key 8 is locked, the starting pep is broken, since the charging current of the capacitor 11 flowing through resistors 12 and 13 causes a voltage drop across the resistor 13 of the locking diode 14. As a result, the generator 7 pulses when the voltage on the cumulative element 4 becomes equal to the voltage at point A, the key 8 closes and the key 9 opens, since the diode 14 opens even after the capacitor's current 15 resistors 13 and 16 and diode 14 causes the voltage drop across the resistor 13, the locking diode 17. By the time the charge element 4 finishes, the potential at point B drops to the value at which diode 17 is unlocked, i.e. key 9 is closed. The triggering pulses from the generator 7 through the amplifier 10 are supplied to the control electrode of the element 6, and the element 4 is discharged to the load 5. At the same time as the discharge of the element 4, the capacitor 15 is discharged along a circuit consisting of resistors 16, 18, diode 17, a capacitor 19 connected in parallel to the resistor 20 and the element b. In this case, the capacitor 19 is charged and a negative potential is created at point B, blocking the diode 17, i.e. the key 9 is open and remains in the open state for a time equal to 1/3 - 1/4 of the charging period until the capacitor 19 is discharged through the resistor 20. This eliminates the unprotected area at the moment the element 4 starts to charge, when the voltage at points A and B has not yet reached the value required for locking diode 17. Thus, in the proposed modulator, the locking device is not included in the charging circuit, but is connected in parallel with the power supply and charging circuit. In this case, a current flows through the elements of the blocking device that is many times lower than the charging current. Sequential switching on and operation of keys 8, 9 does not allow the start-up pulses to pass to the control electrode of the switching element at the moment the power source is turned on, eliminates the unprotected area and significantly affects the reliability of the modulator. The subject of the invention A pulse modulator containing a power source connected through a charging device to the input of a storage element, in series with which the load is connected, and between the connection point of the charging device with a storage element and zero modulator thickness, a switching electrode is connected to the control electrode the generator of the driving pulses is sequentially switched on, and an amplifier-f is connected to the generator output triggering puller, characterized in that, in order to ensure reliable control circuit blocking when the power source is switched on and at the beginning of the charging cycle, the blocking device is made in the form of two diode switches connected in series to the control circuit of the switching element, wherein the control circuit of the first switch is connected between the potential and zero voltages of the power source, and the second diode switch is made with two control circuits, one of which is connected between the output of the charger and the zero bus of the modulator, and the other between the point of connection of the diode switch with the input of the amplifier and the zero bus of the modulator.

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