SU855856A1 - Charging system - Google Patents

Description

(54) CHARGE SYSTEM

I

The invention relates to electrical engineering, in particular, to devices for forming during production of batteries (AB) and for their charging (charging) during operation, and can be used in power supply systems of stationary and mobile objects with AB forced charge devices asymmetrical current (.AP.

A device for charging an AB with an asymmetric current is known, using the energy of a discharge pulse from one battery to charge another. This device charges two batteries included in the various branches of the bridge rectifier. OZDOn However, this device is quite complicated, it has a large number of cells, which reduces its operational reliability.

The closest to the invention to the technical essence is a device for charging AB asymmetrically

AC current containing an alternating current source with two leads, two ABs, the positive leads of which are connected to each other through a discharge current limiter-regulator, made mainly as a linear throttle and negative ones with rectifier valve anodes, for example, thyristors whose cathodes through the winding of the linear throttle are connected to the positive terminals of the battery, the negative terminal of one of which is connected to one terminal of the alternating current source, and the control unit for battery voltage and charge control 2.

Claims (2)

A disadvantage of this device for charging an AB is its low specific energy performance due to the power loss from the DC component of the charging current. In addition, during the formation of a discharge pulse AB, the efficiency of the device in pulses does not mean, pre1. is 0.5, since t is where and. battery voltage; U is the source voltage. This leads to incomplete leads to the recovery of the energy of the discharge pulses of AB. The purpose of the invention is to improve the specific energy performance of the device. This goal is achieved by the fact that in a device for charging batteries with an asymmetric current containing an alternating current source with two outputs, two batteries, the positive short torch wires are connected to each other through a limiter-regulator of the discharge current, made in the form of a linear kernels, and negative ones with anodes of rectifier valves, for example, thyristors, the cathodes of which are connected to the positive terminals of the batteries through the winding of the linear throttle, Which is connected to one of the alternating current source, and the battery voltage and charge control unit, its linear choke. it is equipped with an additional winding that is connected between the other output of the AC source and the negative terminal of the other battery, with both windings connected through this battery sequentially. This makes it possible, by reducing unproductive energy losses of the rake pulsed pulse, to increase the efficiency of the device when it generates a discharge-charged pulse, i.e. the variable component of AT, in addition, is unified. A limiter of a discharge current regulator with a resistance that limits the charge current of the AB directly from the source allows the device to be simplified and to further increase its efficiency when generating a constant component of the sassimetric current. The drawing shows a circuit diagram of devices. In the device, batteries 1 and 2 are charged from the source of alternating current through a limiter-regulator, made in the form of a linear throttle with two windings. One winding 4 of this throttle is connected between the positive terminals of batteries 1 and 2 and the second winding 5 at one end of the socket and with the output of source 3, forming with it a series of chains, the free ends of which are connected to the negative outputs of the batteries. In addition, negative results. The same batteries are connected to the anodes of the valves, for example, thyristors 6 and 7, the cathodes of which are connected to the positive terminals of the adjacent batteries. The winding of 4 throttles has the number of turns exceeding the number of turns of the winding of 5 same chokes. The device works as follows. In the half-period of the source voltage variation, when its positive potential through the winding 5 throttle is applied to the anode of the valve 7, the current of the source flows through two chains 3-5-7-2-3 - direct (charging current; 3-5-1 -4-2-3 - reverse (fractional current. In the next half-period, the polarity of the source voltage is reversed. In these half-periods, the direct current flows along the target 3-6-1-5-3, and the reverse flow - 3-2-4-1-5-3 circuit. Direct current proportional to the difference of the voltage of the source and the charged battery 2 (i) and inversely proportional to the resistance of the winding of the thrusters 5, it charges the battery 2 (l) directly from the source. The reverse subcurrent is the discharge current 1 (2). Thus, the battery is charged by the total current - the current of the source through the winding 3 and the current of the other battery that flows through windings 4 and 5 of this throttle. Increasing the voltage of the battery during its charging entails a reduction in the time of flow of the direct current, and a corresponding decrease in the average value of the charging current - CM-TsAB winding resistance 5 Since the number of turns in the reverse circuit current significantly 1aet number of turns in the direct current circuit, the reactance of the return current path is much larger than resistance to flow circuit forward current. Since both windings of the linear throttle are connected in series-according and covered by a single magnetic flux, the voltage on the winding 4 is equal to .- U, where and is the voltage on the winding of 5 throttle, due to the fact that both windings are covered by a single magnetic by the current, and the number of turns in the winding 4 exceeds the number of turns in the winding 3, the voltage on the winding 4 exceeds the voltage on the winding 5. Since there is an autotransformer connection between these windings, the energy of the individual pulses of one battery is transferred to another electrically, and also elect by magnetic paths, which reduces the loss of bulkiness during energy recovery under discharge pulses. This, in turn, leads to an increase in the QDT of the charging device during the formation of the variable component AT. Increasing the efficiency, as well as a certain simplification of the device circuit, is achieved without an increase in its mass. This makes it possible to improve the specific energy performance of the device. Claims of the Invention A charge system containing an alternating current source with two terminals, two batteries, the positive terminals of which are connected to each other via a limiting regulator of the discharge current, made in the form of linear throttles, and negative ones - with valve anodes rectifier, for example, thyristors, the cathodes of which are connected through the winding of the linear throttle to the positive viewports of the battery baures, the negative lead of one of which is connected to one lead of the alternating current source, and the unit battery voltage monitoring and charge control, characterized in that, in order to improve specific energy performance, the line choke is provided with an additional winding that is connected between the other output of the AC source and the negative terminal of the other battery, and both windings are connected through this battery consistently according to. Sources of information taken into account in the examination. USSR author's certificate 481955, cl. H 02 J 7/02, 1975. 2. USSR author's certificate No. 519823, cl. H 02 J 7/10, 1976.