SU1365243A1 - Arrangement for d.c.supply of load - Google Patents

Description

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The invention relates to electrical engineering, in particular to autonomous DC power supply systems containing chemical current sources.

The purpose of the invention is to reduce the overall dimensions.

The drawing shows a diagram of the device for powering the load.

The device contains a primary power source 1, a rechargeable battery 2 consisting of N series-connected batteries.

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the deviation of the voltage of the i-th battery from the average value of the battery voltage V / N.

Thus, the battery 3.1 with a lower voltage after half a period is charged to an average voltage value. Similarly, if one of the batteries has a voltage greater than the average value, it is not recharged as the remaining batteries, while the discharge current of all the batteries .3.1, ... 3.N (through the load or inverter) is the same , so

It is not at a value equal to the maximum, but at an average value.

When the deviation from the average value of the voltage of several batteries, the device automatically equalizes the voltages of all the batteries.

In order to automatically stop the charge of the batteries and eliminate the self-oscillatory redistribution of energy between the batteries with even and odd numbers, the transformation ratio of the transformer 5 of the inverter 4 is equal to

3.1 ... 3.N, inverter 4 with output-if voltage on batteries with equalizer 5 having (N + 1) output windings 6.1 ... 6. (N + 1) and 7.1 ..t7 diodes. N. Output windings 6.1 ... 6. (N +

+1) connect the anodes and cathodes of diodes 7.1 ... 7.N, respectively, with the negative and positive leads of the batteries 3.1 ... 3.N, and the polarity of the mentioned windings is 6.1 .... 6. ( N + 1), connected to each aktsm to the multiplier 3.1 ... 3.N, is opposite. 25 A load 8 is connected to the terminals of the battery 2.

The device works as follows.

The load 8, turned on at the terminals 30 of the battery 2, is powered either from the primary source 1 when it is on, or from the battery 2 when the source 1 is disconnected.

During operation, the battery 2 is charged to the maximum voltage value "e ,,.

If the voltage on all batteries 7.1 ... 7.N are equal, a voltage equal to each of the batteries (with even numbers in one half period, and with non-summer numbers in the other half period) is applied

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This ensures the absence of currents in the diodes in the entire range of UAKIC from id.mpn to U VK-max PR in the absence of imbalance between the batteries 3.1, ... 3.N batteries 2.

To improve the accuracy of voltage leveling with a deviation of no more than 0.05 V.

40 In the proposed device, when one battery 3.1 is unbalanced, two windings are loaded with current with the best use of a transformer from (N + +1), while in the well-known

UAKK, where and

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voltage on each of the output windings 6.1. ... 6. (N + 1) transformer 5; ,

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Secondary winding voltage 6.1. ... 6. (N + 1) is chosen so that with equal voltages on batteries 3.1 ... 3.N the charge current is minimal.

As soon as the voltage of any battery 3.1 decreases, an equalizing charging current appears in its charging circuit formed by diode 7.1 and two 6.1 and 6. (1 + 1)

the deviation of the voltage of the i-th battery from the average value of the battery voltage V / N.

Thus, the battery 3.1 with a lower voltage after half a period is charged to an average voltage value. Similarly, if one of the batteries has a voltage greater than the average value, it is not recharged as the remaining batteries, while the discharge current of all the batteries .3.1, ... 3.N (through the load or inverter) is the same , so

It is not at a value equal to the maximum, but at an average value.

When the deviation from the average value of the voltage of several batteries, the device automatically equalizes the voltages of all the batteries.

In order to automatically stop the charge of the batteries and eliminate the self-oscillatory redistribution of energy between the batteries with even and odd numbers, the transformation ratio of the transformer 5 of the inverter 4 is equal to

voltage on the battery

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and.

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AKit-little D

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This ensures the absence of current diodes in the entire range of AKIC from id.mpn to U VK-max OL without unbalance between batteries 3.1, ... 3.N batteries 2.

To improve the accuracy of voltage leveling with a deviation of no more than 0.05 V.

In the proposed device, when one battery 3.1 is unbalanced, two windings are loaded with current with the best use of a transformer from (N + +1), while in the well-known

loaded one of the N windings.

The device operates both at charge and discharge, which eliminates the diode isolation and the key element in the battery power circuit, reduces its size and increases its efficiency.

formula of invention

A device for supplying the load with direct current, holding the primary power source, a battery consisting of N series-connected batteries, an inverter with a transformer at the output.

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N diodes, characterized in that, in order to reduce the overall dimensions, the inverter is made uncontrollable and connected directly to the battery terminals, the inverter transformer has (N + 1) output windings, the diodes are connected in series.

their anodes and cathodes through the output windings of the inverter transformer are connected respectively to the negative and positive terminals of the respective battery batteries, and the polarities of the output windings of the transformer, which are connected in pairs to each battery, are mutually opposite.

Claims (1)

A device for supplying the load with direct current, holding the primary power source, a battery consisting of N series-connected batteries, an inverter with a transformer at the output, N diodes, characterized in that, in order to reduce the overall dimensions, the inverter is made uncontrollable and connected directly to the battery terminals, the inverter transformer has (N + 1) output windings, the diodes are connected in series, their anodes and cathodes are through the output windings of the inverter transformer are connected respectively to the negative and positive terminals of the respective battery accumulators, and the polarity of the transformer output windings connected in pairs to each battery is interconnected but opposite.