SU541281A1 - Pulse modulator - Google Patents

Description

one

This invention relates to radio engineering and can be used in pulsed transmitting devices.

A pulsed modulator 1 is known, which contains a device for stabilizing the amplitude of output pulses, whose operation is based on controlling the duration of the resonant charge of the forming line, carried out through a charging choke and a diode from a constant voltage power source. This pulse modulator is complex and has a relatively low efficiency.

The closest technical solution to the present invention is a pulse modulator 2 containing a power source with a filter capacitor, with a positive pole through a series-connected charging choke with an additional winding, charging diode, energy storage, load connected to the common extender of the modulator, control A switched bit switching element, connected between the input of the energy storage device and the common bus of the modulator and shunted by a resistive voltage divider, whose average output is black of the threshold element is connected to the control electrode of the regulating thyristor, the anode of which is connected to one end of the additional winding

2

charge throttle, storage capacitor.

This pulse modulator also has a relatively low efficiency.

The purpose of the invention is to increase the efficiency and IM of the pulse modulator.

For this, in the proposed pulse modulator, a storage capacitor is connected between the common bus of the modulator and the middle output of the additional winding of the charge throttle, the second end of which is connected to the cathode of the additional thyristor, the control electrode of which is connected to the control electrode of the thyristor through the delay electrode The charge diode is connected to the cathode of an additional diode, the anode of which is connected to the common busbar of the modulator.

Pa the drawing shows a circuit diagram of the proposed modulator.

A pulsation modulator contains a power source 1 with a filter capacitor 2, with a positive pole through a series-connected charging choke 3 with an additional winding 4, a charging diode 5, an energy store 6 and a load 7 connected to a common bus modulator. A controlled discharge switching element 8 is connected between the input of energy storage 6 and the common bus of the modulator and is bridged by a resistive voltage divider 9, the middle output of which is connected to the control electrode of the thyristor I through the threshold element 10, the anode of which is connected to one of the ends of the additional windings 4 charge throttles 3.

A storage capacitor 12 is connected between the common bus of the modulator and the middle output of the additional winding 4 of the charge throttle 3, the second end of which is connected to the cathode of the additional thyristor 13, the control electrode of which is connected to the control electrode of the thyristor 11 via the delay electrode 14. One diode 5 is connected to the cathode of an additional diode 15, the anode of which is connected to the common bus of the modulator.

Pulse modulator works as follows.

The resonant charge of the energy storage device 6 from the power source 1 is made through the charging choke 3 and diode 5. As soon as the voltage on the energy storage device 6 reaches a predetermined level somewhat lower than twice the voltage of the power source 1, threshold element 10 is triggered, sends a trigger pulse to the regulating thyristor 11. In this case, the diode 5 is locked, and the excess energy accumulated in the inductance of the throttle 3 by the time the thyristor 11 is triggered, is transmitted through the winding 4 to the storage capacitor 12.

The voltage on the energy ion source 6 when the supply voltage fluctuates in this way is fixed at a constant level, less than twice the supply voltage. The duration of the charge cycle is less than its maximum value, which corresponds to the moment when the charge current vanishes. The interval between pulses is equal to the time interval between the start of the controllable switching element 8.

Applying start pulses to element 8 causes a discharge of energy storage 6 and the formation of output pulses on load 7.

Since the voltage in the storage device 6 is stabilized in the circuit, thus the amplitude of the pulses in the load 7 is stabilized.

Energy is transferred from storage capacitor 12 charged to negative voltage to power source 1 after starting an additional thyristor 13. A start pulse is supplied with a delay sufficient to terminate the process of transferring energy from the inductance of droplets 3 to storage capacitor 12. The delay specified is provided by the device delays 14. A discharge current pulse flows through an additional winding 4 and causes the appearance of a voltage impulse greater than the supply voltage, on the basis of the other winding. The ass 3. This voltage, the MIIUS of which is applied to DP 15, causes it to unlock. As a result, the transfer of e-ergy from condenser 12 to source 2 filter

nutrition 1.

Charger choke 3 in the proposed modulator, thus, performs an additional function, being an element of the return chain of excess energy.

Claims (2)

1. US Patent No. 3139585, cl. 328-65,1666. 2. US patent number 3333120, cl. 307-106, 1967. Jl x