RU2625456C1 - Lithium-ion battery operation system in floating charge mode - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: lithium-ion battery operation system in the floating charge mode includes a device connected to the load, a lithium-ion battery connected to the load via a power switch and a power semiconductor device. The power semiconductor device and the power switch are paralleled, the power switch control system.

EFFECT: simplified operation and increased efficiency of the lithium-ion battery usage.

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Description

The technical solution relates to battery charging schemes, and in particular to systems or methods for operating lithium-ion batteries, and is a system for operating a lithium-ion battery in a charge-supporting mode.

Unpatented traditional systems for operating a battery in a support charge mode are widely known from the prior art, including: a charger connected to a load, a battery connected to a load in parallel with the charger.

Common features of the proposed solution and the given traditional system are:

- a charger connected to the load;

- a rechargeable battery connected to the load in parallel with the charger.

Distinctive features of the proposed solution from the given traditional system are:

- a power switch connected to the output of a lithium-ion battery;

- power semiconductor element connected to the output of the lithium-ion battery in parallel with the power switch;

- a control system that controls the power switch.

The patent of the Russian Federation for invention No. 2496189 “Method for the operation of a lithium-ion battery” is known from the existing level of technology. The specified invention describes a method of operating a lithium-ion secondary battery, which consists in monitoring the voltage of the batteries, conducting charges, discharges, periodically balancing the batteries by voltage, charging and storing in the recharged state.

Common features of the proposed solution and the above system are:

- a charger connected to the load;

- a lithium-ion battery connected to the load;

- A control system that monitors the status of the battery.

Distinctive features of the proposed solution from the above system are:

- a power switch connected to the output of a lithium-ion battery;

- power semiconductor element connected to the output of the lithium-ion battery in parallel with the power switch;

- a charger connected to the load continuously (maintenance charge mode).

US Pat. No. 5,493,197A, Advanced Battery System, is known in the art, which includes: a lithium-ion battery, a charger for charging the battery system, a load, a control system that monitors the state of the battery and limits the charge current by connecting to the battery of an additional shunt resistor. The system works in such a way that when the battery is charged to a certain degree of charge, the charger simply turns off.

Common features of the proposed solution and the above system are:

- lithium-ion battery,

- a charger for charging the battery system,

- load

- control system.

Different features of the proposed technical solution and the proposed method are:

- a power switch connected to the output of a lithium-ion battery;

- power semiconductor element connected to the output of the lithium-ion battery in parallel with the power switch;

- a charger connected to the load continuously (maintenance charge mode).

The technical result of the proposed system of operation of a lithium-ion battery in the mode of supporting charge is to ensure maximum life of the lithium-ion battery. The increase in the life of the lithium-ion battery in the claimed technical solution is due to the limitation of its degree of charge.

The technical result is achieved due to the fact that the operation system of the lithium-ion battery in the support charge mode includes a charger connected to the load, a lithium-ion battery connected to the load through the power switch and the power semiconductor element, and the power semiconductor element and a power switch are connected in parallel, a power switch control system.

Rechargeable Li-ion Battery - A rechargeable battery consisting of several lithium-ion batteries connected in series.

Maintenance charge mode (buffer mode) - a charge mode in which the battery is constantly connected to the charger and to the load. If there is voltage in the electric network, then the charger is supplied with the load, at the same time it compensates for the self-discharge current of the battery. In the event of a power outage in the electrical network, the battery is discharged to the connected load without any interruption in power supply.

Power switch - a switching device designed to connect an electrical load.

Power semiconductor element - a device that provides the transfer of electrical energy in only one direction.

The control system is a system that ensures the operation of the battery and power switch in accordance with specified algorithms.

The control system in the claimed technical solution turns off the power switch in accordance with a predetermined algorithm, thereby interrupting the battery charge, while the battery remains connected to the load at any time.

Battery storage mode - a mode in which it does not charge or discharge.

Current pause - a break in the power supply of the load.

Emergency mode - the mode of discharging the battery to the load in the absence of voltage at the output of the charger.

This system allows the use of lithium-ion batteries in uninterruptible power supplies (including on-line UPS) and in direct current systems (SOPT), designed to provide uninterrupted (without current pause in the event of a power outage) power supply for critical consumers . In this case, the battery is operated in the so-called support charge mode (buffer mode), in which the consumers are powered from the chargers, and the battery is always connected to the load in parallel with the charger. The charger (charger) at the same time compensates for the self-discharge currents of the battery.

The battery requires long periods of its operation - from 15 years and above. The latter requirement is decisive when choosing equipment used in substations or power plants. To ensure the required operating life of lithium-ion batteries, it is unacceptable for a long time to be in a fully charged state. Lithium-ion batteries, unlike lead-acid or nickel-cadmium batteries, cannot be operated in a state of 100% charge. During operation of lithium-ion batteries in this state, their accelerated degradation occurs due to the launch of spurious electrochemical reactions. The claimed technical solution provides long-term operation of the lithium-ion battery in the mode of supporting charge, providing the desired battery charge of not more than 95%, while leaving the battery permanently connected to the load (therefore, to the output of the charger) without any shutdown, as suggested traditional methods of limiting the charge, in which the charger is disconnected, and the battery is also disconnected from the load.

The scheme of the operation system of a lithium-ion battery in the mode of supporting charge is presented in the figure, where:

1 - charger;

2 - load;

3 - lithium-ion battery;

4 - power switch;

5 - power semiconductor element;

6 - control system.

The system of operating lithium-ion batteries in the support charge mode, as part of online direct current systems or on-line uninterruptible power supply (UPS), is implemented in such a way that the lithium-ion battery - 3 is connected to the output of the charger - 1 through the power switch - 4, providing interruption of the charge circuit at the command of the control system - 6, in the case of charging a lithium-ion battery - 3 to a certain value (usually not more than 95%). The battery charge - 3 is calculated either by calculating the charging current (determination of the Coulomb integral), or by determining the received current when a certain voltage is applied to the battery - 3, or by any other known method. Thus, the battery - 3 at the right time is disconnected from the output of the charger - 1 and then does not charge. And while the lithium-ion battery - 3 remains connected to the load - 2 through the power semiconductor element - 5 (for example, a power diode), connected in parallel with the power switch - 4, so that it does not allow the lithium-ion battery to be charged - 3, but allows the lithium-ion battery - 3 to power the load - 2, in case of power failure at the output of the charger - 1 without a current pause, as a result of which the battery - 3 does not charge above the set value and, therefore, both the long periods of its operation are sintered, and the battery discharge compensation is due to the control system - 6, which, according to a special algorithm, ensures that the power switch - 4 is turned on at the right time, thereby maintaining the battery charge - 3 at the right level.

The control system - 6 includes a power switch - 4, providing battery power - 3 from the charger - 1 in the following cases:

- after the disappearance of the alternating voltage at the input of the charger - 1 for a set amount of time and its subsequent (voltage) recovery (as a rule, a value of 10 minutes is taken);

- when the battery is discharged - 3 by the set value of the charge, determined through measuring the voltage on the battery - 3 or otherwise;

- periodically once in a set period of time (for example, once a month) - to compensate for the self-discharge current of the battery - 3;

- in any other case, at the command of the control system - 6, according to the specified program.

This mode provides the battery - 3, in which it:

- does not charge above a certain value;

- does not discharge below a set value;

- ready to power the load without a current pause at any time without a current pause due to the inclusion of a power switch - 4;

- actually operated in storage mode - the most sparing mode for batteries.

The following are the main states of a lithium-ion battery operation system in charge-supporting mode.

In charge mode:

The power switch - 4 is turned on, the voltage at the output of the charger - 1 corresponds to the set charge voltage for this type of battery - 3, the battery - 3 is charged in normal mode, usually in the "constant current" / "constant voltage value" mode.

In charge support mode:

The power switch - 4 is disconnected, the voltage at the output of the charger - 1 does not change, the battery charge - 3 does not occur, since the battery - 3 is connected to the output of the charger - 1 through a closed transition of the power semiconductor element - 5. In case of transition to emergency the mode, the voltage at the output of the charger - 1 decreases (or disappears altogether), and the battery - 3 through the open junction of the power semiconductor element - 5 begins to power the load - 2 without a current pause. In this case, if there is no voltage of the power supply network for a set time, the power switch - 4 is turned on, and the load - 2 is powered by the battery - 3 directly, bypassing the power semiconductor element - 5. In this mode, the battery slowly slows down - 3 due to self-discharge currents and power supply of its elements of the control system - 6. At the same time, the current consumed from the battery - 3 is from units to tens of milliamps.

In the emergency charge discharge mode (in case of disappearance of the auxiliary voltage):

The power switch - 4 is on, the battery - 3 supplies the load - 2.

These logical states are described in table 1.

Table 1

Battery Mode - 3 Power Switch Position - 4 The battery status is 3. Current, A Charge ON Battery - 3 is charging. The current is determined by the charger setting. Support charge Off Battery - 3 discharges self-discharge current. Current ~ 10-50 mA. Emergency discharge ON Battery - 3 is discharged. The current is determined by the magnitude of the load - 2

Condition for inclusion by the control system - 6 power switch - 4:

1. The power supply voltage disappeared for 10 seconds or more (parameter is customizable). The signal to turn on the power switch - 4 is supplied by the control system - 6;

2. The control system - 6 recorded a decrease in the degree of charge of the battery - 3 by more than 10% (decrease in the level of battery voltage - 3). The signal to turn on the power switch - 4 is given by the battery control system - 3;

3. Control systems - 6 gives a signal to turn on the power switch - 4 according to a given program.

Table 2. Power Switch State Diagram - 4

Control Signal - 6 Power Switch Position - 4 The priority of the control system is 6 Power supply voltage disappeared for the set time (adjustable parameter) ON one Reduced battery charge - 3 by 10% (custom parameter) ON 3 According to the specified control system program - 6 ON four Decrease in battery charge current - 3 when charging with a fixed voltage at the output of the charger - 1 (adjustable parameter) Off 2

It should be noted that for the implementation of the claimed technical solution there are no additional requirements for the charging device, which allows without significant modifications to use the standard equipment used for the operation of lead-acid batteries.

The use of the invention with a combination of all the essential features makes it possible to implement a lithium-ion battery operation system in a support charge mode that ensures maximum battery life.

Claims (1)

A maintenance system for a lithium-ion secondary battery in a support charge mode including a charger connected to a load, a lithium-ion secondary battery connected to a load through a power switch and a power semiconductor element, wherein the power semiconductor element and the power switch are connected in parallel, the power control system switchboard.

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