SU1238207A1 - Device for charging reservoir capacitor - Google Patents

Abstract

The invention relates to a pulse technique. Can be used to charge capacitive energy storage devices. The purpose of the invention is to increase the reliability of the device, achieved by the fact that the choke 2 is made with a tap connected to the second output of the intermediate capacitive energy storage 5. The drawing also shows a constant voltage source 1, a thyristor 3, a storage capacitor 4. In the second embodiment of the device for charging the storage capacitor, the drawing of which is given in the description of the invention, the intermediate capacitive energy storage device is in the form of a battery. In this embodiment, if the battery energy consumption is greater than the capacitor 4 energy consumption, the oscillating process of charging the capacitor from the battery will continue until the throttles 2 are saturated. Then the source 1 is opened and the charging process, which is exponential, continues from the source. 1 h. n f-ly, 2il. (L: ± 4 (rig.1

Description

The invention relates to a pulse technique, namely, devices for charging capacitive energy storage devices.

The aim of the invention is to increase the reliability of the device for charging the storage capacitor.

Fig. 1 shows the functional electrical circuit of the device for charging the storage capacitor, the first embodiment; Fig 2 - the same, the second option ...

The device for charging the storage capacitor contains a constant voltage source 1, a series-connected choke 2, a thyristor 3 with a control unit (not shown) and a storage capacitor 4, one of whose terminals is connected to the connection point of the negative pole of the source 1 constant voltage. with the first output of the intermediate capacitive storage, 5 energy, while the choke 2 is made with a tap connected to the second output of the intermediate capacitive energy storage 5, the cathode of the thyristor 3 under It is connected to another output of the storage capacitor 4, and its anode is connected via a choke 2 to a half-pole by a source pole 1 of constant voltage. In addition, the intermediate capacitive energy storage device 5 can be made in the form of a battery 6, the positive pole of which is the first output of the energy storage device 5, and the negative flow is the second output.

The device for charging the storage capacitor operates as follows.

Of the source 1, through the first part of the winding of the chokes, the intermediate energy storage 5 is charged to a voltage equal to the output voltage of the source 1. Then the signal from the control unit is turned on the thyristor 3, as a result of which the oscillating charging of the storage capacitor 4 energy storage device 5 through the second part of the winding, drossel 2. At this time, source 1 is locked at the output by the total voltage on both parts of the winding of throttles 2, which gradually decreases as one vibrational charge-current. At the same time, the voltage on the storage capacitor 4 increases.

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The total voltage on both parts of the winding of the chokes 2 and the storage capacitor 4 to the output voltage of the source t is opened, and the storage capacitor 4 is exponentially charged through the active resistance of the chokes 2, which at that time is in a saturated state. At the same time, dose dispensation occurs. The power supply 5 is not completely discharged to the capacitor 4. The degree of its discharge depends on the ratio of the number of turns of parts

Drossel windings 2. When using a battery as an intermediate energy storage device, the following cases are possible: the power consumption of the battery 6 is greater than the power consumption of the capacitor 4; battery power consumption -:; This means that the oscillatory process of charging the capacitor from the battery continues to saturate the throttle 2, after which the source is opened. 1, and the charge process, which is exponential in nature, continues from source 1. In the second case, the device operates in the same way as the device in the first embodiment.

Claims (2)

1. A dp charging accumulator capacitor device containing a constant voltage source, a series-connected choke, a tristor with a control unit and a storage capacitor, one of whose terminals is connected to the junction point of the negative pole of the dc source with capacitive energy storage device, characterized in that, in order to increase reliability, the choke is made with a tap connected to the second output of the intermediate energy storage device, the cathode of the thyristor It is connected to another output of the storage capacitor, and the thyristor anode is connected to the positive side via the choke. pole of the constant voltage source. 2. The device according to claim 1, wherein the intermediate capacitive energy storage device is made in the form of a battery, the positive pole of which is the first output of the intermediate energy storage device, and the negative pole is the second one. 0 0 five 0 five ZD . Editor L.Povkhan Compiled by V.Tkachev Tehred M.Hbdanich Proofreader T. Kolb Order 3302/56 Circulation 816 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35 ,. Raushsk nab. 4/5 Production and printing company, Uzhgorod, Projecto st., 4 P FIG. 2