SU391714A1 - : -CO1OZNAYA - Google Patents

Description

one

The invention relates to the field of power supplies of high-power pulse discharge devices, in particular, to devices for stabilizing accumulation with deviations of system parameters from their nominal values.

A device for charging a storage capacitor is known, comprising a rectifier, a switching element, a switching element control device and a comparison circuit. However, in the known device, the accuracy of maintaining the storage energy at a predetermined level can be achieved only with an ideal stabilization of the voltage across the capacitor.

The aim of the invention is to stabilize the energy stored in the storage capacitor. For this, a charging current sensor is integrated into the control unit of the switching element, integrating a capacitor and a multiplying device, one input of which is connected to a storage capacitor through a divider and the other connected to a charging current sensor, and an integrating capacitor is connected to the output of a storage device.

The drawing shows a diagram of the proposed device.

The device contains a bridge-type rectifier J, a multiplying device 2, which uses a pulse-width modulator, a filter 3 with an integrating capacitor 4, a measuring unit 5 made at the zener diode 6, a switching element (thyristor) 7, dimming 8 and shunt 9 thyristors and storage capacitor 10.

The pulse width modulator contains transistors 11 and 12, a transformer 13 and a high-frequency generator 14 of rectangular pulses with a stable ground voltage at the output. One input of the pulse-width modulator is connected to the divider 15, and the other to the charge current sensor 16.

When the main thyristor 7 is turned on, the storage capacitor 10 is connected to the output voltage of the rectifier / and the charging process begins. The current in the charge circuit rises at first, then decreases, and the voltage at the copdenesator increases during the entire charge process. Since one input of the pulse-width modulator is connected to the current sensor 16, and the other to the voltage sensor (divider 15), the width of the output voltage of the pulse-width modulator is proportional to the magnitude of the charging current, and the amplitude is

condenser. The output pulses of the pulse-width modulator are smoothed by filter 3. In this case, the average value of the voltage on the integrating capacitor 4 is proportional to the charge energy of the storage capacitor 10.

When the voltage on the integrating capacitor 4 reaches the set value, the Zener diode 6 of the measuring organ 5 is activated. This turns on the extinguishing thyristor 8, which turns off the main thyristor 7 and turns on the bypass thyristor 9. Thus, the energy on the storage capacitor is fixed at a predetermined level, and the integrating the capacitor discharges to zero and prepares for the next charge cycle.

4 Subject of the invention

A device for charging the storage capacitor, comprising a rectifier, a switching element, a control device for the switching element and a comparison circuit, characterized in that, in order to stabilize the energy stored in the storage capacitor, a charging current sensor is integrated into the control element of the switching element, integrating a capacitor and a multiplying device, one input of which through a divider is connected to a storage capacitor, and the other is connected to a charging current sensor, and to An integrating capacitor is connected to the output of the multiplying device.