SU911667A2 - Device for charging storage battery with asymmetric current - Google Patents

Description

The invention relates to rechargeable batteries m / namely, devices for their rapid charging with an asymmetric current from a single-phase AC source of industrial frequency.

According to the main auth. No. 832648, a device for charging an accumulator battery with an asymmetric current is known, providing stable control of the duration and magnitude of the battery discharge current. batteries throughout the control section containing a pulse converter connected to the output terminals and a converter control unit that connects a controlled switch, a clock generator, a binary counter, a single-phase transformer with two secondary windings, a bridge rectifier, a threshold element, logical elements 2I and NOT and two switching amplifiers iT.

A disadvantage of the known device is the absence of regulating the duration and magnitude of the charging current of batteries.

 The purpose of the invention is to independently control the magnitude of the Hfja, nKTenb charge current.

This goal is achieved by the fact that i control unit introduces a second controlled switch, Two elements 2I and two pulse amplifiers, and the diodes of a pulse converter are replaced by thyristors, while the controlled switch is made on the basis of a controlled multiplexer, address inputs connected to the output of a binary counter and infor- connection inputs connected to

15 is an additional 1st switch, with one secondary winding of the transformer connected with a rectifying bridge, whose BHXOia is connected to the input of the threshold element connected 20 with its one output to the input of the generator and the other output to the input of the binary counter. The counting input of the latter is connected to the output of the generator, and the other secondary to the winding of the transformer is grounded at one end and connected at the other end; with two series-connected elements NOT, the outputs to which are connected to the corresponding elements 2I; Other inputs 30

These are connected to the outputs of each of the controlled multiplexers, and the outputs of these elements are connected through a pulse amplifier to the control inputs of a pulse converter.

The drawing shows the structural scheme of the proposed device.

The device contains a three-winding single-phase transformer 1, one secondary winding of which is connected to the rectifying bridge 2, the output of bridge 2 is connected to the input of the threshold element 3, the output connected to the enable input of the generator 4 clock pulses, and the inverse output of the threshold element is connected to the input of Set. About the binary counter 5. The outputs of the binary counter 5 are connected to the address inputs of the controlled multiplexers 6 and 7, the information inputs of which are connected to the switches 8 and 9. The input of the HE element 10 included in ice- element 11 is associated with the start of the second winding of the transformer 1, the end of which is grounded. The outputs of multiplexers b and 7 are connected to one of the inputs of logic elements 2I 12g15, other inputs connected to the outputs of logical} elements NOT 10 and 11, the outputs of logic elements 2I 12-15 through the corresponding pulse amplifiers 16-19 are connected to the converter 20, and namely, with control electrodes of thyristors 21-24 converter. The device works in the following way.

When a voltage is applied to transformer I, the sinusoidal voltage of one winding is rectified by bridge 2 and fed to the input of threshold element 3. Threshold element 3 converts the rectified sinusoid into a square pulse that starts a generator of 4 synchronizing pulses (the beginning of generation is strictly specified). Simultaneously with the start of the generator 4 clock pulses, the binary counter 5 is set to the zero state (the origin is also fixed).

The outputs of the binary counter are associated with the address inputs of the controlled multiplexers 6 and 7. Depending on which of the information inputs of the multiplexers are connected

through switches 8 and 9 with ground, the corresponding pulses with a frequency of 100 Hz appear. Thus, the switches 8 and 9 shift the impulses, change the angles of the thyristors, and, consequently, the magnitudes of the discharge and input currents of the batteries.

A sinusoidal voltage taken from the second secondary winding is converted by elements 10 and 11 to rectangular and fed to one input of logic elements 2I 12-15, the second inputs of which receive signals from the output of controlled multiplexers 6 and 7, i.e. There is a selection of the output signals of multiplayer for half waves. Thus, with a positive half-wave, thyristors 21 and 22 are unlocked, and with

negative - thyristors 23 to 24.

The proposed device provides a stable regulation of the duration of the magnitude of the discharge and charge currents of batteries in the entire adjustment area and is fully assembled on integrated circuits of the K 155 series.

Claims (1)

1. USSR author's certificate No. 832648, cl. H 02 SG 7/00, 1979.