SU505059A1 - Device for charging battery with asymmetric current - Google Patents

Description

one

This invention relates to electrical engineering, in particular to devices for charging batteries with an asymmetric current.

A device for charging an battery with an asymmetric current is known, comprising a charging day comprising a thyristor interrupter connected in series with the battery, a discharge circuit with a second thyristor interrupter and an adjusting resistor and a control unit for the interrupters.

The purpose of the invention is to reduce the weight and size characteristics.

This is achieved by the fact that the device is equipped with a non-converting capacitor connected in parallel with the thyristor chopper of the charging circuit.

The drawing shows a diagram of the proposed device.

The device consists of a single-phase full-wave rectifier 1, a recharged capacitor 2, a thyristor interrupters 3 and 4, an adjusting resistor 3, a transistor blocking generator 6 and 7, a multivibrator 8, two differentiating chains, one of which is made on a resistor 9 and a capacitor 10, other - on the resistor 11 and the capacitor 12, and the block 13 rectifiers.

The battery 14 with an asymmetric current is supplied by alternately turning on the breakers 3 and 4, i.e., when the breaker 3 is turned on, a charge current flows through the battery, and when the breaker 3 is turned off and the breaker 4 is turned on, the battery discharges briefly for an adjusting rheostat 5. The control pulses to the thyristors of both interrupters come from the corresponding cells of the secondary windings of the transformers of the blocking generators 6 and 7:

to power thyristor 15 and auxiliary thyristor 16 - from terminals a - b and e - d blocking generator 6 and to power thyristor 17 and auxiliary thyristor 18 from terminals b - in i - d blocking generator 7.

Such a cross-connection of the thyristor electrodes to the output terminals of the blocking generators ensures the synchronous switching on of one and the switching off of the other chopper. For example, when a blocking generator 6 is triggered, the control voltage pulses are applied to the thyristor electrodes 15 and 16, as a result of which the interrupter 4 is turned on. And vice versa, when the blocking generator 7 is activated, the control pulses

the voltages are applied to the thyristors 17 and 18. The breaker 3 is turned on and the breaker 4 is turned off.

Blocking generators 6 and 7 are alternately triggered by pulses of discharge current of capacitors 10 and 12 when opening transistors 19 and 20 of multivibrator 8, such as coHT, and trader 19 is closed, capacitor 10 is charged before the multivibrator is powered. When opening the transistor 19, the capacitor 10 is quickly discharged along the circuit: resistor 9, emitter-collector junction of the open transistor 19, diode 21, emitter-base junction of the composite transistor 22. Composite transistor 22 opens, at the output windings a - b, e - d a voltage pulse is generated to start up the thyristors 15 and 16. When transistor 19 is closed and transistor 20 opens, capacitor 12 is discharged through the emitter-base transition of the composite transistor blocking oscillator 7. Blocking oscillator 7 is also triggered from the output terminals b - c and d - d the control voltage pulse is applied to thyristors 18 and 17.

Multivibrator 8 is made according to the classical scheme. Its peculiarity is that variable resistors 23, 24 are included in the basic circuits of transistors 19, 20 to change the duration of the open (closed) state of the transistors and, ultimately, to change the duration of the open (closed) state of the interrupters 3 and 4. In order to ensure the normal operation of the interrupters with the settlement of the displaced anti-emf. in the form of a battery, special measures must be taken to recharge the switching capacitor 25 to the polarity necessary to turn off the power thyristor 15 when the thyristor 18 is turned on. In the proposed device for this purpose, a rechargeable capacitor 2 and a power source are connected to the input of the breaker 3, made as a single-phase full-wave rectifier 1.

When the thyristor 15 is closed, the capacitor 2 is charged to the amplitude of the voltage of the secondary winding of the transformer, which is approximately 1.57 times the average value of the rectified voltage. When opening the thyristor 15, the capacitor 2, discharging, creates a large initial surge of current through the power part of the winding of the throttles of the chopper 3 and the battery 14, resulting in the secondary part of the windings of the chokes of the chopper 3 being induced by the emf. the voltage that is needed to turn off the power thyristor 15. After that, the voltage on the capacitor 2 is reduced to a certain value and maintains the necessary charging current of the battery 14.

Thus, the capacitor 2 in combination with the rectifier 1 eliminates, firstly, the required nervous voltage at the input of the interrupter 3 to recharge the switching capacitor 25, secondly, it maintains the minimum current through the power thyristor 15 in that part of the half-period when The voltage on the output windings of the transformer is rectified 1 below the emf. battery 14, thirdly, makes it possible to reduce the power of a single-phase rectifier compared to a three-phase one. In a single-phase rectifier, the voltage across the capacitor 2 in the science between the charging current pulses rises to the required value due to the large variable component of the rectified voltage, and then under the action of the charging current decreases to the required level determined by the required average value of this current.

Claims (1)

Invention Formula A device for charging a battery with an asymmetric current, containing a charging circuit including a thyristor breaker connected in series with the battery, a discharge circuit with A second thyristor interrupter and an adjusting resistor and an interrupter control unit, characterized in that, in order to reduce the weight and size characteristics, it is equipped with a rechargeable capacitor connected in parallel with the thyristor interrupter of the charging circuit.