SU642852A1 - Capacitance-type accumulator - Google Patents

Description

one

The invention relates to oOJiacrTi converter technology, in particular to capacitive energy storage devices charged from a constant voltage source.

A device for charging a capacitive storage device with an adjustable voltage level of the storage device (1, containing a capacitor, charging choke transformer, charging diode, auxiliary thyristor, comparison circuit) is known. In this device, the voltage level is controlled by returning the accumulated energy of the throttles -transformer to the power source through the secondary winding of the transformer throttle and auxiliary thyristor.

The disadvantages of this scheme are low efficiency due to significant losses in the choke transformer and the narrow range of output voltage regulation.

The closest to the proposed technical essence and the achieved effect is a device in which the charge of the storage device is carried out through a diode and a choke, and the control element is connected in the transmission chain to the source in the form of a controlled

resistor 2. The device has a small range of voltage regulation on the drive and low efficiency.

The aim of the invention is to increase the efficiency and expansion of the control range.

This is achieved by the fact that in a storage device containing a charge series circuit of drossels, a diode and a capacitor, the terminals of which serve for

connecting a power source, a voltage sensor connected in parallel with a capacitor and connected to one input of a comparison element, the other input of which is connected to a source of reference voltage, and a regulating element connected in parallel to a section of the charging circuit, an emitter connected as a regulating element and collector counter-parallel to the diode, and the base to the output of the reference element, and

An additional diode is connected between the point of connection between the throttle and the diode and the output of the power supply.

The scheme of the proposed device is shown in the drawing.

The terminals of power supply 1 are connected in series with drossel 2, transistor 3 and diode 4 connected in parallel, capacitor capacitor 5. The output of reference 6 is connected to the base of transistor 3v and a voltage is applied to the inputs of the comparison element 7. Between the point of connection of the throttles 2 and diode 4 and the output of the power supply, an additional diode 8 is connected.

The device works as follows.

From the power source 1, through the choke 2 and the diode 4, the capacitive accumulator 5 is charged to double in the limit of the voltage value of the power source. After charging the capacitive accumulator, it is discharged through the regulating element — the transistor 3, which is in the open state, and the choke 2 to the power source. When the voltage on the capacitive storage unit reaches the value of the reference voltage from the reference element b, a control signal is received to lock the transistor and the discharge process stops. After the accumulator is discharged onto the load (not shown in the diagram), the process is repeated.

Thus, the circuit maintains the storage voltage before discharging to the load at a predetermined level, the value of which is determined by the reference voltage and the parameters of the voltage sensor 7.

The energy stored in the choke 2 during the discharge of the capacitor to the source

power is returned to the source through diode 8.

Claims (2)

Invention Formula A capacitive storage device containing a charging series circuit of droplets, a diode and a capacitor, the findings of which serve to connect a power source, a voltage sensor connected in parallel to a capacitor and connected to one input of a reference element, the other input of which is connected to a voltage source, and a regulating element connected in parallel to the charging circuit section, characterized in that, in order to increase the efficiency and expansion of the control range, the regulating element is A transistor connected by an emitter and a collector is counter-parallel to the indicated diode, and a base connects the output of the reference element, with an additional diode in a non-conductive direction with respect to the power supply connecting the output side of the power supply to the capacitor. Sources of information taken into account in the examination 1, L.A. Meerovchi, et al. Magnetic Pulse Generators, “Soviet Radio, 1968, p. 311. 2. USSR author's certificate number 341153, cl. H 03 K 5/08, 1972.