SU1663762A1 - Charger for accumulation capacitor - Google Patents

Abstract

The invention relates to a pulse technique and can be used in power supply devices for high-intensity light sources and other devices where energy storage in capacitors is used. The aim of the invention is to improve the weight and size parameters. The device for charging the storage capacitor comprises a power source 1, a first choke 2, a current sensor 3, a first diode 4, an intermediate capacitor 5, a first current chopper 6, a second choke 7, a storage capacitor 8, a first control unit 9, a second current chopper 10, the second diode 11, the voltage sensor 12, the second control unit 13. The serial connection of the parallel and serial breakers, as well as the introduction of a voltage sensor 12 connected to the input of the unit 9 controlling the operation of the first current breaker 6 and the second current breaker 10 controlled by the block 13 from the current sensor 3, reduce the amplitude of the current pulsation source 1 and accordingly improve the weight and size characteristics of the device. 2 Il.

Description

The invention relates to a pulse technique and can be used in lithium devices of high-intensity light sources and in other devices where energy storage in capacitors is used.

The aim of the invention is to improve the weight and size parameters.

Figure 1 is a diagram of the device for charging the storage capacitor; Figs 2, a, b, c, d are diagrams of changes in currents and voltages at various points in the circuit: diagram 2a

shows the dependence of the instantaneous value of the current of the power source on time, and diagram 26 shows the time dependence of the voltage on the intermediate capacitor. in diagram 2c, the dependence of the charge current of the storage capacitor on time; in diagram 2g, the dependence of the voltage of the storage capacitor on time.

The device contains a power source 1, to the plus bus of which the first inductor 2 and the current sensor 3, the first diode 4 are connected in series,

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connected to an intermediate capacitor 5, in parallel with which are connected in series the first current breaker 6, the second choke 7, the storage capacitor 8, the control input of the current breaker 6 is connected to the output of the first control unit 9, the second current breaker 10 connected in series with the diode 11 and connected parallel to the intermediate capacitor and voltage sensor 12, the second control unit 13, the input connected to the current sensor 3, and the output to the control input of the second current interrupter 10,

The device works as follows. At the initial time moment, the voltages on the intermediate capacitor 5 and the storage capacitor 8 are zero. The current in the current sensor 3 and the charge current of the storage capacitor 8 are also zero. The second control unit 13 closes the second current interrupter 10 and the current of the power source 1 begins to increase (see diagram 2a, time interval t0-ti). The first current interrupter 6 is open until the voltage on the intermediate capacitor 5 is below the upper threshold level U + Li (see diagram 26). At time ti (see diagram 2a) the current of power supply 1 reaches the upper threshold level I + D and the second control unit 13 opens the current interrupter 10. The current of power supply 1 decreases and the intermediate capacitor 5 starts charging. At time t2 ( cm, diagram 2a) the current of power supply 1 reaches the lower threshold level I. The current interrupter 10 closes, the current of power supply 1 increases, and the voltage on the intermediate capacitor 5 remains unchanged until the second current interrupter 10 opens again. At the time point ts (see diagram 26), the voltage on intermediate capacitor 5 reaches the upper threshold level U + AU, the first control unit 9 closes the first current interrupter 6 and the charging current 3ap of the storage capacitor 8 increases (see diagram 2c). From this point in time, charging of storage capacitor 8 begins (see diagram 2g). The voltage on the intermediate capacitor 5 decreases and at time A (see diagram 26) reaches the lower threshold level U. The first control unit 9 opens the first current breaker 6, the voltage on the intermediate capacitor 5 increases again, and the charging current of the storage capacitor 8 decreases (see diagram 2c). At time ts

(see diagram 26) the voltage reaches the upper threshold level U + Li and the first current interrupter 6 closes again. Further, the processes in the device are repeated,

FORUMAWLAH AND ISLANDS

A device for charging a storage capacitor, containing a power source, the first bus of which is connected to the first output of the first throttle, the second output of which is connected to the first output of the current sensor, the second bus of the power supply connected to the first output of the first diode connected in the opposite direction, and the first output intermediate

the capacitor, in parallel with which the first current interrupter, the second choke, the storage capacitor, the second lead of the first diode are connected to the connection point of the second choke and the first chopper, the control input of which is connected to the output of the first control unit, characterized in that to improve the weight and size parameters, a second current interrupter, a second diode, a voltage sensor, a second control unit, whose input is connected to the current sensor output, and an output from control l yuschim input of the second chopper current, a first terminal

which is connected to the first output of the second diode, connected in the forward direction, and the second output of the current sensor, the second output of the second diode is connected to the second output of the intermediate capacitor, the first output of which is connected to the second output of the second circuit breaker, the output of the voltage sensor control unit, parallel to the intermediate capacitor, a sensor is connected

voltage, output connected to the input of the first control unit.

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Claims (1)

Claim A device for charging a storage capacitor containing a power source, the first terminal of the first inductor is connected to the first bus, the second terminal of which is connected to the first output of the current sensor, the second bus of the power source is connected to the first output of the first diode, connected in the opposite direction, and the first output of the intermediate a capacitor, in parallel with which the first current chopper, the second inductor, the storage capacitor are connected in series, the second output of the first diode is connected to the point the unity of the second inductor and the first chopper, the control input of which is connected to the output of the first control unit, characterized in that, in order to improve the overall dimensions, a second current chopper, a second diode, a voltage sensor, a second control unit, the input of which is connected to the output, are introduced into it a current sensor, and the output with the control input of the second current chopper, the first output of which is connected to the first output of the second diode, turned on in the forward direction, and the second output of the current sensor, the second output of the second diode By connecting to the second terminal of the intermediate capacitor, a first terminal connected to the second terminal of the second chopper current, voltage sensor output - to an input of the first control unit, a capacitor is connected parallel to the intermediate voltage sensor output coupled to the input of the first control unit. Figure 1