RU2038671C1 - Device for boost charging of storage batteries by unbalanced current - Google Patents

Abstract

FIELD: storage batteries and cells. SUBSTANCE: device has rectifier, ripple reactor, two electronic switches controlled by current transducer through amplifier, discharging unit, and spring-pulse generator incorporating storage capacitor, thyristor, and control resistor. During storage capacitor charging thyristor switches are open. During battery charging from capacitor, switches close on signal from current transducer. EFFECT: provision for setting unbalanced current frequency between 0.1 and 18 000 Hz depending on type of storage battery. 1 dwg

Description

 The invention relates to electrical engineering and can be used in devices designed for forced charging of batteries and regeneration of galvanic cells.

A device containing a half-wave rectifier with the accumulation of energy of the reverse pulse in inductive and capacitive elements [1]
However, this device requires a long battery charge time (AB).

Closest to the proposed technical essence of the device containing a rectifier, a smoothing reactor, the first and second electronic keys [2]
The disadvantage of this device is the comparative complexity in its technical implementation. There is no way to change the parameters of the asymmetric current over a wide range.

 The purpose of the invention is to reduce the charge time of the battery and the regeneration of galvanic cells by an asymmetric high-frequency current, with varying parameters of the charging current, depending on the type of chemical current source (CIT).

 The goal is achieved by the fact that an amplifier, a discharge unit, a pointed pulse generator, consisting of a storage capacitor, a thyristor, a control resistance, a current sensor, are introduced into the device for charging the battery with an asymmetric current, containing a rectifier, a smoothing reactor, first and second electronic keys a rectifier through a smoothing reactor is connected to the input of the first electronic key, the output of the electronic key is connected to the input of a pointed pulse generator, the output of the generator through a current sensor connected to a chemical current source and the output of the second electronic key, the output of the discharge unit is connected to the input of the second electronic key, the output of the current sensor is connected to the input of the amplifier, and the output of the amplifier is connected to the control inputs of the first and second electronic keys.

 The drawing shows a block diagram of a device.

 The device comprises a rectifier 1, the output of which through a smoothing reactor 2 is connected to the input of the first electronic key 3, the output of the electronic key 3 is connected to the input of the pointed pulse generator 4, the output of the generator 4 is connected to a chemical current source 6, and connected to the output of the second electronic key 7 , the input of the key 7 is connected to the output of the discharge unit 8, the output of the current sensor 9 is connected to the input of the amplifier 5, the output of the amplifier 5 is connected to the control inputs of the electronic keys 3 and 7.

 The device operates as follows.

 When the supply voltage is turned on, the electronic keys 3 and 7 are in the on state, the storage capacitor 10 is charged and the chemical current source 6 is discharged through the key 7 to the discharge unit 8. When the voltage across the capacitor 10 reaches a predetermined value, the current through the control resistance 12 becomes sufficient to open of the thyristor 11, the capacitor 10 is discharged to a chemical current source 6, at the time of the discharge, a signal from the current sensor 9 is fed to amplifier 5, a signal from amplifier 5 is supplied to the control inputs tronic keys 3 and 7, and they are opened. As a result of this, the discharge current through the discharge unit 8 is interrupted, the charge of the capacitor 10 is stopped and the thyristor 11 is closed after the discharge of the capacitor 10, the signal disappears from the current sensor 9, the keys 3 and 7 are closed, and the process resumes. Discreetly, the frequency varies with a capacity of 10 within 0.1-18000 Hz smoothly controlling resistance 12 and key 3.

Claims (1)

 DEVICE FORCED CHARGING THE BATTERY ASYMMETRIC CURRENT, containing a rectifier, a smoothing reactor, the first and second electronic keys, characterized in that an amplifier, a discharge unit, a pointed pulse generator, consisting of a storage capacitor, a thyristor and a current resistance, are introduced into it moreover, a rectifier through a smoothing reactor is connected to the input of the first electronic key, the output of the electronic key is connected to the input of the spiky pulse generator, the output of the generator is black Without the current sensor connected to the battery and the output of the second electronic key, to the input of which the output of the discharge unit is connected, the output of the current sensor is connected to the input of the amplifier, the output of which is connected to the control inputs of the first and second electronic keys.

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