SU712877A1 - Device for element-by-element discharge of storage battery - Google Patents

Description

The pa stops as these currents are directed oppositely and mutually compensate.

The aim of the invention is to reduce the voltage on a rechargeable battery.

The goal is achieved by introducing an intermediate amplifier with two soils of galvanically developed n outputs, connected respectively to the control inputs of the switching elements of even and two, to a device containing p-shunting branches with switching elements connected to the corresponding batteries and an alternating voltage generator. odd detuning branches, and a current amplifier, the output of the alternating voltage generator being connected to the input of the intermediate amplifier, the control input of the current amplifier, Inonii to the potential terminal of the secondary battery, the output of the current amplifier is connected to an intermediate terminal of the power amplifier, and the power terminals of the generator voltage and variable current amplifier are coupled and integrated during operation of the device to the service source nitann.

The drawing shows a block diagram of a device for the element-by-element addition of a battery.

The device contains l shunt branches 1, a generator of nonvailable voltage, the output of which is connected to the input of intermediate amplifier 3, and two groups of galvanically developed and n outputs of intermediate amplifier 3 are connected respectively to the control inputs of even and odd shunt branches 1, current amplifier 4, the control input of which is connected to the potential terminal of the battery (f / ao), and the output to the power terminal of the intermediate amplifier 3, and the power terminals of the alternating voltage generator 2 and the current amplifier 4 when the device is disconnected from the source of service supply, then the output of the alternating voltage generator 2, and hence the n outputs of the intermediate amplifier 3, is zero. The transistor switches of the shunt branches 1 turn out to be closed, since the emitter-base junctions are shunted by the output windings of the intermediate amplifier 3.

When the device is connected to a source of service power, the voltage from the output of the alternating voltage generator 2 is fed to the input of intermediate amplifier 3, and from two groups of outputs of the intermediate amplifier - respectively to the control inputs of even and odd shunt branches 1 so that, for example, first half of the alternating voltage period open transistors 712877

The keys of the Even shunt branches, and in the second half of the period, the transistor keys of the odd shunt branches are open, which excludes the formation of additional circuits for discharge, leading to a replay of individual batteries.

In the process of additional charging, a decrease in the density of the battery Ud.b takes place on the whole battery. This fault enters the Directing input of the amplifier 4 current, therefore, its output voltage, which is the supply voltage of the inter-amplifier A 3, will also decrease. This will lead to the fact that the amplitudes of the alternating voltage of the amplifiers of the amplifier 3 will also decrease, and consequently, the base current and voltage drop at the emitter-ba0 transitions behind the transistor switches of the shunt branches will decrease. The degree of saturation of the transistor switches in this case varies throughout the entire voltage range on the battery, and, however,

5 reduction of the voltage drop at the transition emitter-base of transistor switches, the equality of the currents emitter-collector and the base-collector will occur with a much smaller drop of ia emitter-

0 the collector, therefore, the additional battery capacity will be deeper.

The use of a current amplifier 4 in unit-by-element delivery of the amplifiers is due to the fact that

5 when connecting an intermediate amplifier 3 to the battery terminals, the current consumed by the intermediate amplifier may result in a re-polarization of individual batteries.

0 The proposed device allows for additional battery discharge in a battery up to a voltage of 0.025-0.03 V per each battery. This makes it possible to restore the electrochemical structure and power consumption of the battery, and the service life of the battery and power supply system increases significantly.

Claims (1)

Invention Formula 0 A device for the element-by-battery addition of a battery consisting of n series-connected batteries, containing 5 shunt branches with switching elements connected to the corresponding batteries, and an alternating voltage generator, characterized in that in order to reduce the voltages on additional batteries, interim 0 an amplifier with two groups of galvanically isolated p outputs connected respectively to the control inputs of the switching elements of the even and odd shunt branches, and a current amplifier, At the output of the alternating voltage generator is connected to the input of the intermediate amplifier, the control input of the current amplifier is connected to the terminal of the battery, the output of the current amplifier connected to the power supply terminal of the intermediate amplifier, and the power supply terminals of the alternator and current amplifier are combined.