RU2704116C1 - Method of charging lithium-ion accumulator batteries from n series-connected batteries with balancing resistors connected to them through switches - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention relates to electrical engineering, namely to a method of charging lithium-ion accumulator batteries, and can be used in operation of lithium-ion accumulator batteries, mainly as power supply elements of electric vehicles and accumulators of intelligent power supply networks. Method of lithium-ion accumulator charging from n-series-connected cells using passive method of balancing is performed by discharge to ballast resistances, at that, charging process is stopped when one of cells of threshold maximum voltage is reached, range is also set, which determines duration of next discharge of selected accumulators until coincidence of level with current voltage of accumulators, when balancing resistor is disconnected, at that, balancing cycle is completed by disconnection of the last of included balancing resistors. Besides, in the proposed method, the number of balancing cycles is determined by the moment, when the next shutdown of the charge upon achievement of voltages of any of the specified maximum value is not accompanied by connection of a balancing resistor.

EFFECT: high efficiency of using a multi-element series-connected storage battery by reducing the difference between maximum and minimum voltage among all series-connected storage cells after charging, is the technical result of the invention.

1 cl, 1 dwg

Description

The claimed invention relates to the electrical industry and can be used in the development and operation of lithium-ion batteries, mainly in stand-alone power systems of mobile systems.

Known lithium-ion batteries and methods for their charge, consisting in monitoring the voltage of the batteries and limiting the charge by the maximum voltage of the batteries and described in the book A.A. Taganova, Yu.I. Bubnova, S.B. Orlova “Sealed chemical current sources. Elements and batteries. Equipment for testing and operation. " St. Petersburg: Khimizdat, 2005, chapters 5, 7, and also in the Wissemborski Rüdiger (DE) patent, Buhler Gunnar (DE), Markmann Joachim (DE), Kümmet David (DE) “ORTHOPHOSPHATE IRON (III) FOR LITHUANIA -IONIC BATTERIES ”(2C 5849742 UR).

The disadvantage of the described methods is that they do not solve the issue of increasing the efficiency of using a multi-cell lithium-ion battery during long-term operation.

The closest technical solution is the method of charging a lithium-ion battery from n series-connected batteries with balancing resistors connected to them through the switches, which consists in monitoring the voltage of the batteries and disconnecting the charge when any of the batteries reaches the specified maximum value, which differs in that when turned on charge select the battery with the lowest current voltage, and balance resistors are connected to the remaining batteries individual time for each battery and proportional to its voltage unbalance relative to the selected battery with the lowest current voltage (Method of charging a lithium-ion battery from n series-connected batteries with balancing resistors connected to them via switches, RU 2479894 C2, developed by authors Korotkikh Victor Vladimirovich (RU), Nesterishin Mikhail Vladlenovich (RU), Openko Sergey Ivanovich (RU), patent holder: Open Joint Stock Company “Information spu Academician MF nicknames system Reshetnyova ”(RU)).

This method of charging a lithium-ion battery is that the time t _{i of} connecting the resistor to each battery is calculated based on the relation t _i = (1-U _min / U _i ) * k * R, where U _min is the smallest current battery voltage in battery, B; U _i - voltage of the i-th battery from among the remaining, V; k is the conversion factor of the voltage difference of the batteries into the unbalance capacity, A * h / V; R is the resistance of the balancing resistors, Ohm.

This method is adopted as a prototype of the claimed invention.

A disadvantage of the known method of charging a lithium-ion battery is that balancing the batteries according to the proposed algorithm when operating traction lithium-iron-phosphate battery cells will entail significant energy losses and inefficient use of time resources due to the long stage of balancing.

The technical problem of the claimed invention lies in the need to increase the efficiency of use and simplify the operation of the traction lithium-ion battery.

The problem posed is solved by the fact that when carrying out a charge of a lithium-ion battery from n series-connected batteries with balancing resistors connected to them via keys, monitoring the voltage of the batteries and limiting the charge to achieve the voltage of any of the cells of the battery at a predetermined maximum value, when balancing is selected batteries with a current voltage exceeding the minimum voltage among the batteries to the specified setting. Balancing resistors are connected to these batteries until their voltage is within the specified range, i.e. will satisfy the condition:

U _i ≤U _min + ∂,

where U _min - the smallest current battery voltage in the battery, B; U _i - voltage of the i-th battery, V; ∂ - set point, V.

Indeed, due to the difference in the internal properties of individual batteries during operation of a multi-cell series-connected battery, some cells will charge faster, reaching a critical maximum voltage, while several batteries will not significantly reach the charged state. When discharging on these several elements, the critical minimum voltage is reached faster, while the voltage on the remaining cells of the drive will be far from the critical minimum voltage. This will lead to underutilization of battery resources. The objective is to reduce the difference between the maximum and minimum voltage among all series-connected battery cells at the end of the charge.

To implement this problem, in the process of charging a multi-cell battery, when any battery cell reaches its maximum critical voltage, it is necessary to start the cell balancing stage. The balancing stage is the connection of the ballast resistance to the cells, the voltage on which exceeds the minimum voltage among the cells for a given range. The balancing process stops after there are no cells with a voltage exceeding the minimum voltage among the cells for a given range. In this case, the charging stage is started. The battery charging process continues until, at the end of the charging stage, the balancing stage starts, due to the absence of cells with a voltage exceeding the minimum voltage among the cells by a predetermined range.

The invention is illustrated in the drawing, which shows a simplified functional diagram explaining the work of the proposed method.

To implement the proposed method, a device is proposed comprising a battery 1, a balancing module 2, a control device 3, a charger 4, a current sensor 5, a power contactor 6.

At the same time, the battery consists of series-connected cells, to which ballasts 2-1 are connected by means of keys 2-2.

In parallel with the battery, a control device 3 and a charger 4 are connected. A current sensor 5 and a power contactor 6 are installed in the charge circuit of the battery.

The control device collects information about the voltages on the cells of the battery 1, the amount of current flowing through the current sensor 5. The control device controls the connection of ballast resistors 2-1 to the cells of the battery 1 by means of keys 2-2, the connection of the charger 4 to the battery 1 by means of a power contactor 6.

The method is as follows. In the process of charging the battery 1, the control device 3 closes the power contactor 6, receives information about the state of the charge parameters from the charger 4 and the current sensor 5, monitors the voltages on the cells of the battery 1. Upon reaching one of the cells of the specified voltage, the control device 3 disconnects the charger device 4 from the battery 1 by means of a power contactor 6 and connects the ballast resistors 2-1 through the appropriate switches 2-2 to the cells, the voltage on which exceeds the minimum voltage among all cells for a given range. Upon completion of the balancing stage, the control device 3 connects the charger 4 to the battery 1 by means of a power contactor 6. The number of batteries with connected balancing resistors is determined in accordance with their voltage level exceeding the value of the sum of the battery voltage with the lowest current voltage and a specified range that determines the duration the subsequent discharge of the selected batteries until this level coincides with the current battery voltage when the balancing resistor is disconnected, the balancing cycle is completed by disconnecting the last of the included balancing resistors. The number of balancing cycles is determined by the moment when, at the next shutdown of the charge, when the voltage of any of them reaches the specified maximum value, no connection of the balancing resistor occurs.

An example of practical implementation with a solution to the problem.

The proposed method of charging a multi-cell lithium-ion battery with a balancing process was used to charge the energy storage device of an electric vehicle with a voltage of 48 V and a capacity of 300 Ah, consisting of 15 battery cells. Application of the development indicates an improvement in the operational characteristics of the drive by an average of 8-10%.

Claims (2)

1. The method of charging lithium-ion batteries from n series-connected batteries with balancing resistors connected to them through the switches, which consists in monitoring the voltage of the batteries and disconnecting the charger when any of them reaches the specified maximum value with further connection of the balancing resistors to the batteries, characterized the fact that the number of batteries with connected balancing resistors is determined in accordance with their voltage level exceeding the value of the sum of the battery voltage with the lowest current voltage and a specified range that determines the duration of the subsequent discharge of the selected batteries until this level coincides with the current battery voltage when the balancing resistor is turned off, while the balancing cycle is completed by disconnecting the last of the included balancing resistors. 2. The method of charging a lithium-ion battery according to claim 1, characterized in that the number of balancing cycles is determined by the moment when no connection of the balancing resistor occurs when the next charge is turned off when any of them reaches the specified maximum value.

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