SU1656673A2 - Method of formation of current pulses - Google Patents

Abstract

The invention relates to methods for generating current pulses, on the basis of which current pulse drivers can be created, for example, to control multiple connectors of quasi-electronic PBXs. The aim of the invention is to reduce energy consumption by providing flow through the windings of the throttles or recharge current (charge) of the storage capacitor, or its charge current. The goal is achieved by generating current pulses by charging the storage capacitor in an oscillating mode from the DC source, using only the first half-wave of the oscillatory process, an additional periodic charge through the charge choke from the pulsed source, while control the voltage on the storage capacitor and, when it exceeds a predetermined value, turn off the switching power supply, and when lowered, the switching power supply is switched on after a time equal to the total charging and discharging time of the storage capacitor 1 or fe

Description

The invention relates to methods for generating current pulses, on the basis of which current pulse drivers can be created, for example, to control multiple connectors of quasi-electronic PBXs.

The aim of the invention is to reduce electric power consumption by ensuring the flow through the windings of the throttles, or the recharge current (charge) of the storage capacitor, or its charge current.

The drawing shows a device that implements the proposed method.

The device contains a storage capacitor 1, charge choke 2. diode

3, a thyristor 4 in the discharge capacitor 1 discharge circuit, the output transformer 5, the secondary winding of which is connected to the load 6, a pulsed power supply 7 Parallel to the storage capacitor, a series-connected zener diode 8, an additional diode 9 and a parallel-connected resistor p 10 and an additional capacitor 11 in parallel with which are connected the input of the field-effect transistor 12 is turned on. moreover, with the capacitor capacitor plate 1. connected through diode 3 and inductor 2 to the positive pole of the power source E. Zener diode 8 is connected to the cathode, and an additional diode 9 is connected to the anode of Zener diode 8 by the anode Output

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field-effect transistor 12 is connected to the control input of the switching power supply 7.

The implementation of the proposed method by the device shown in the drawing is that the formation of current pulses is carried out by performing the following operations. The storage capacitor 1 is charged in an oscillatory mode from a constant voltage source E through a charging choke 2 using only the first half-wave of oscillation (due to the presence of diode 3). Then, the storage capacitor 1 is discharged in an oscillatory mode through the load (through the primary winding of the transformer 5) also using only the first half-wave of the oscillation (due to the valve property of the thyristor 4). The storage capacitor 1 is periodically charged through a charging choke 2 from a pulsed power supply 7. Control the voltage on the storage capacitor 1 (a chain of series-connected Zener diode 8, diode 9 and resistor 10). The switching power supply 7 is switched off when the voltage on the storage capacitor 1 reaches a predetermined value (this value is determined by the voltage value of the breakdown of the Zener diode 8). When lowering the voltage on the storage capacitor 1 of this predetermined value (the value of the breakdown voltage of the Zener diode 8, the switching-on power supply 7 is switched on after a time equal to the total charge and discharge time

the capacitor 1 (the on-delay of the pulsed power source 7 is ensured by the presence of an additional capacitor 11 in the device).

Claims (1)

Invention Formula The method of forming current pulses auth. St. No. 945954, characterized in that, in order to reduce power consumption, the voltage is controlled to storage capacitor and when it exceeds a predetermined value, turn off the pulsed power source, and when the voltage drops below this predetermined value, the pulsed power supply after a time equal to the total charge and discharge time of the storage capacitor. L 4 4AJI P / 2 ± 11 0 WELL V