CN111313534A - Control method, system, storage medium and device for storage battery power supply mode - Google Patents

Abstract

The invention relates to a storage battery power supply mode control technology, and particularly discloses a storage battery power supply mode control method, a storage battery power supply mode control system, a storage medium and a storage device. The invention ensures the normal and safe operation of the equipment by controlling the power supply mode of the storage battery, controls the discharge time of the storage battery, relieves the power supply pressure of the storage battery, reduces the energy consumption of the storage battery, fully utilizes the storage battery, improves the utilization efficiency of the storage battery, prolongs the service life of the storage battery and plays the most role; finally achieving the purposes of reducing cost and improving efficiency.

Description

Control method, system, storage medium and device for storage battery power supply mode

Technical Field

The present invention relates to a battery power supply method control technology, and more particularly, to a method, a system, a storage medium, and an apparatus for controlling a battery power supply method.

Background

At present, the development of data services is changing day by day, and how to ensure the safe and stable operation of a network, which is a load-bearing medium of the data services, is particularly important. It can be seen from a large amount of network operation data that the operation capability of the base station power supply greatly affects the network operation condition. The storage battery is used as a direct current backup power supply when the power supply system has an alternating current power failure, and is responsible for providing uninterrupted power supply for various equipment and direct current operating mechanisms in the power failure and fault states. The invention is mainly applied to the field of communication base stations, in a communication system, after the mains supply is interrupted, the storage battery supplies power to the whole communication base station equipment, the requirement on the battery endurance time is high, the data traffic of a base station coverage area is small or no data traffic exists at night, the battery is used for supplying power, a large amount of energy consumption is wasted, the life cycle of the storage battery is greatly shortened, and a great optimization space exists. The invention aims to solve the problems of improving the utilization rate of the storage battery, prolonging the service life of the storage battery, fully utilizing the storage battery resources and realizing cost reduction and efficiency improvement.

Disclosure of Invention

The invention aims to provide a method, a system, a storage medium and a device for controlling a storage battery power supply mode, and solves the problems of high storage battery power supply pressure, high loss, low utilization rate and the like.

The invention provides a control method of a storage battery power supply mode, which is used for controlling the power supply mode of a storage battery by collecting commercial power supply information.

As preferred scheme, through gathering exchanging commercial power supply information and the real-time voltage data of battery, the power supply mode of control battery includes: when the base station equipment works, the power supply cabinet supplies power; collecting power supply information in the power supply process of the power supply cabinet; determining whether the power supply information belongs to the setting information; if the power supply information does not belong to the set information, continuing to control the power supply of the power supply cabinet; and if the power supply information belongs to the set information, changing the power supply mode into the storage battery power supply mode.

As a preferred scheme, the power supply information comprises at least one of power failure information, incoming call information and real-time power supply information of the power supply cabinet; and/or the setting information comprises at least one of commercial power supply real-time voltage value information, commercial power failure information, commercial power planned power failure information, commercial power incoming information, commercial power planned power failure delay information, commercial power planned incoming delay information, commercial power planned power failure early information, commercial power planned incoming early information and base station data traffic information.

Preferably, the battery power supply mode includes:

if the acquired power supply information is mains supply power failure information, controlling the power supply cabinet to switch to a storage battery power supply mode, simultaneously monitoring the voltage value of the storage battery in real time, and when the voltage value of the storage battery reaches a set threshold value 1, executing a 'one-time power-off' instruction by the control system, disconnecting the first control device, stopping power supply of the base station main equipment, and ensuring the power supply time of the transmission equipment; when the voltage value of the storage battery reaches a set threshold value 2, the control system executes a secondary power-off command, the second control device is disconnected, the power supply of the base station main equipment and the transmission equipment is stopped, and the storage battery is prevented from being excessively discharged to cause irreversible damage to the storage battery;

if the collected power supply information is the incoming call information of the mains supply, the power supply mode of the power supply cabinet is recovered, the voltage value of the storage battery is monitored, and when the real-time voltage value of the storage battery is lower than a set threshold value, the storage battery is charged;

if the collected power supply information is the planned power failure information of the commercial power, the power supply cabinet is controlled to be switched to the storage battery for supplying power at regular time, and if the planned power failure delay information of the commercial power or the planned power failure early information of the commercial power is collected, the power supply cabinet is controlled to change the timing time;

if the collected power supply information is the commercial power planned incoming call information, the power supply cabinet is controlled to be switched to a set power supply mode for power supply and storage battery charging at regular time, and if the commercial power planned incoming call delay information or the commercial power planned incoming call advance information is collected, the power supply cabinet is controlled to change the timing time.

Preferably, the method further comprises the following steps: when the collected power supply information is set information, sending a reminding message, and/or displaying the set information type and/or the set information content and/or the equipment position; the reminding message comprises: at least one of short message reminding, voice reminding and sending reminding information to the client unit; wherein the client unit comprises: at least one of a computer, a mobile phone and a tablet computer.

In accordance with the above method, another aspect of the present invention provides a control system for a storage battery, including:

the storage battery is used for supplying power to the equipment when the power supply information belongs to the set information;

the power supply cabinet comprises a control unit, a collection unit and a transmission unit; the control unit is used for controlling the power supply cabinet to supply power according to a set power supply mode and adjusting the first control device and the second control device to be switched on or switched off; the acquisition unit is used for acquiring power supply information, switch line state information and storage battery real-time voltage information of each line of the power supply cabinet in real time; the transmission unit is used for transmitting power supply information and receiving control information;

and the cloud platform is used for acquiring, analyzing and monitoring power supply information and transmitting the information.

The client unit is used for receiving the reminding message, receiving the power supply information and controlling the control unit;

the database is used for at least storing the opening/closing records of the control device, commercial power failure information, commercial power voltage information, power supply mode information of the power cabinet, power supply real-time data information, storage battery capacity information, storage battery voltage information and storage battery cruising ability information;

the base station main equipment is used for modulation and demodulation and radio frequency amplification of communication signals of the base station and is not directly related to other base stations;

base station transmission equipment, which is used for amplifying and transmitting optical signals between the base stations;

the first control device is used for controlling the power supply or power off state of the main equipment to realize a 'one-time power off' instruction;

the second control device is used for controlling the power supply or power off state of the storage battery to realize a secondary power-off command;

in addition, the control unit and the cloud platform are further used for determining whether the power supply information belongs to set information;

the control unit is also used for changing the power supply mode of the power cabinet.

As a preferred scheme, the power supply information acquired by the acquisition unit further includes mains supply power failure information, mains supply incoming call information, mains supply real-time voltage value information, and base station data traffic information; the power supply information collected by the cloud platform comprises power supply information, commercial power planned power failure information, commercial power planned incoming call information, commercial power planned power failure delay information, commercial power planned incoming call delay information, commercial power planned power failure early information and commercial power planned incoming call early information which are collected by a collection unit.

In accordance with the above method, a further aspect of the present invention provides a storage medium storing a plurality of instructions for loading and executing the battery control method according to any one of claims 1 to 5 by a processor.

In accordance with the above method, a further aspect of the present invention provides a storage battery control apparatus, including: a processor for executing a plurality of instructions; a memory to store a plurality of instructions; wherein the instructions are stored by the memory and loaded and executed by the processor to perform the battery control method of any of claims 1-5.

The invention has the following beneficial effects:

according to the scheme, the power supply information of the power cabinet of the base station equipment is collected, the automatic switching of the power supply mode is realized, and under the condition that the normal operation of the communication base station is ensured, the charging/discharging state and the discharging time of the storage battery are remotely monitored and controlled, so that a large amount of labor investment is avoided, the maintenance cost is reduced, and the management efficiency is improved; more importantly, the standby power loss of the storage battery is reduced, the utilization rate of the storage battery is improved, the service life of the storage battery is prolonged, and the effects of cost reduction and efficiency improvement are finally achieved.

Drawings

Fig. 1 is a flowchart of a battery control method according to a preferred embodiment of the present invention;

fig. 2 is a schematic structural diagram of a control system of a storage battery according to a preferred embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, a preferred embodiment of the present invention provides a storage battery control method, which controls a power supply state of a storage battery by collecting power supply information.

In a preferred embodiment of the present invention, the controlling the power supply mode of the storage battery by collecting the ac mains power supply information and the real-time voltage data of the storage battery includes: when the base station equipment works, the power supply cabinet supplies power; collecting power supply information in the power supply process of the power supply cabinet; determining whether the power supply information belongs to the setting information; if the power supply information does not belong to the set information, continuing to control the power supply of the power supply cabinet; and if the power supply information belongs to the set information, changing the power supply mode into the storage battery power supply mode.

In a preferred embodiment of the present invention, the power supply information includes at least one of power failure information, incoming call information, and real-time power supply information of the power supply cabinet; and/or the setting information comprises at least one of commercial power supply real-time voltage value information, commercial power failure information, commercial power planned power failure information, commercial power incoming information, commercial power planned power failure delay information, commercial power planned incoming delay information, commercial power planned power failure early information, commercial power planned incoming early information and base station data traffic information.

In a preferred embodiment of the present invention, the battery mode power supply includes:

if the acquired power supply information is mains supply power failure information, controlling the power supply cabinet to switch to a storage battery power supply mode, simultaneously monitoring the voltage value of the storage battery in real time, and when the voltage value of the storage battery reaches a set threshold value 1, executing a 'one-time power-off' instruction by the control system, disconnecting the first control device, stopping power supply of the base station main equipment, and ensuring the power supply time of the transmission equipment; when the voltage value of the storage battery reaches a set threshold value 2, the control system executes a secondary power-off command, the second control device is disconnected, the power supply of the base station main equipment and the transmission equipment is stopped, and the storage battery is prevented from being excessively discharged to cause irreversible damage to the storage battery;

if the collected power supply information is the incoming call information of the mains supply, the power supply mode of the power supply cabinet is recovered, the voltage value of the storage battery is monitored, and when the real-time voltage value of the storage battery is lower than a set threshold value, the storage battery is charged;

if the collected power supply information is the planned power failure information of the commercial power, the power supply cabinet is controlled to be switched to the storage battery for supplying power at regular time, and if the planned power failure delay information of the commercial power or the planned power failure early information of the commercial power is collected, the power supply cabinet is controlled to change the timing time;

if the collected power supply information is the commercial power planned incoming call information, the power supply cabinet is controlled to be switched to a set power supply mode for power supply and storage battery charging at regular time, and if the commercial power planned incoming call delay information or the commercial power planned incoming call advance information is collected, the power supply cabinet is controlled to change the timing time.

For example: when power failure occurs suddenly, namely mains supply power failure, after the mains supply power failure information is acquired, the power supply cabinet is controlled to be switched to a storage battery power supply mode, when the discharge of the storage battery reaches a threshold value 1, the power supply of the main equipment is cut off, namely the storage battery only supplies power to the transmission equipment, so that the normal operation of the transmission equipment is guaranteed, other stations are not affected by the power failure of the station, and the cruising ability of the storage battery is guaranteed; when the discharge of the storage battery reaches a threshold value 2, the storage battery stops supplying power to the main equipment and the transmission equipment so as to ensure that the storage battery is not damaged due to excessive discharge.

When a sudden incoming call, namely a mains supply incoming call, acquires mains supply incoming call information, the power supply cabinet is controlled to switch back to a set mode for supplying power, the voltage value of the storage battery is monitored, and when the voltage value is lower than the average charging value, the storage battery is charged, so that the energy storage of the storage battery is ensured, the personnel operation is reduced, and the manual maintenance cost is reduced;

when a power supply bureau issues a planned power failure message, namely the planned power failure information of the commercial power, and after the planned power failure message is acquired, the power supply cabinet is controlled to be switched to the storage battery for power supply at regular time and/or part of lines are disconnected for power supply, so that the power supply cabinet can timely deal with the upcoming power failure, the normal operation of communication base station equipment is ensured, and the manual maintenance cost is reduced; if the power supply bureau issues the commercial power plan to delay or power off information in advance, the timing time is changed after the acquisition, and the flexible response is realized.

When the power supply bureau issues the message of the planned incoming call, namely the planned incoming call information of the commercial power, the power supply bureau is controlled to switch to the original set power supply mode for power supply at regular time after acquiring the message, and the preparation work is done in advance to ensure the normal operation of the base station equipment.

The method comprises the steps that power supply information is collected automatically, the mode for controlling a power supply cabinet comprises an automatic setting control mode and a manual control mode, and the automatic setting control mode is automatically set according to the type and the content of a power supply message; the manual control mode is set in advance or temporarily by an operator according to the power supply information.

In a preferred embodiment of the present invention, the battery power supply mode further includes: the method comprises the steps of taking a certain time interval as an interval, controlling the power supply quantity of a storage battery in different time intervals, providing rated power supply in the peak working period of equipment, disconnecting part of lines for power supply in the peak working period of equipment, and disconnecting the storage battery for power supply when the equipment does not need to work at night.

For example: the communication base station arranged on the mountain has less data traffic, particularly at night, a fixed time interval (such as 02:00-06:00) can be set, and the first control device and/or the second control device are in an off state, so that the utilization rate of electric energy is improved, and the standby power loss of a storage battery is reduced.

In a preferred embodiment of the present invention, further comprising: when the collected power supply information is set information, sending a reminding message, and/or displaying the set information type and/or the set information content and/or the storage battery position; the reminding message comprises: at least one of short message reminding, voice reminding and sending reminding information to the client unit; wherein the client unit comprises: at least one of a computer, a mobile phone and a tablet computer.

For example: when the setting information is collected, the automatic control power supply cabinet sends a reminding message to the client unit after making a strain power supply mode, and the client unit can remotely control the power supply mode to ensure the normal operation of the equipment. The reminding message comprises the geographical position, so that one client unit can conveniently manage a plurality of storage batteries, and the management cost is reduced.

Referring to fig. 2, there is provided a control system of a storage battery according to a preferred embodiment of the present invention, including:

the storage battery is used for supplying power to the equipment when the power supply information belongs to the set information;

the power supply cabinet comprises a control unit, a collection unit and a transmission unit; the control unit is used for controlling the power supply cabinet to supply power according to a set power supply mode and adjusting the first control device and the second control device to be switched on or switched off; the acquisition unit is used for acquiring power supply information, switch line state information and storage battery real-time voltage information of each line of the power supply cabinet in real time; the transmission unit is used for transmitting power supply information and receiving control information;

and the cloud platform is used for acquiring, analyzing and monitoring power supply information and transmitting the information.

The client unit is used for receiving the reminding message, receiving the power supply information and controlling the control unit;

the database is used for at least storing the opening/closing records of the control device, commercial power failure information, commercial power voltage information, power supply mode information of the power cabinet, power supply real-time data information, storage battery capacity information, storage battery voltage information and storage battery cruising ability information;

the base station main equipment is used for modulation and demodulation and radio frequency amplification of communication signals of the base station and is not directly related to other base stations;

base station transmission equipment, which is used for amplifying and transmitting optical signals between the base stations;

the first control device is used for controlling the power supply or power off state of the main equipment to realize a 'one-time power off' instruction;

the second control device is used for controlling the power supply or power off state of the storage battery to realize a secondary power-off command;

in addition, the control unit and the cloud platform are further used for determining whether the power supply information belongs to set information;

the control unit is also used for changing the power supply mode of the power cabinet.

In a preferred embodiment of the present invention, the power supply information collected by the collection switch unit further includes mains supply power failure information, mains supply incoming call information, mains supply real-time voltage value information, and base station data traffic information; the power supply information collected by the cloud platform comprises power supply information, commercial power planned power failure information, commercial power planned incoming call information, commercial power planned power failure delay information, commercial power planned incoming call delay information, commercial power planned power failure early information and commercial power planned incoming call early information which are collected by a collection switch unit.

It should be noted that each communication base station includes a plurality of devices, and the devices include a main device and a transmission device, and the main device has a large overall power consumption and is not directly associated with other sites; the transmission equipment consumes less power, but the working state of the transmission equipment directly influences whether other stations normally operate or not. The power supply cabinet supplies power to a plurality of devices through a plurality of circuits, the acquisition switch unit comprises an internal acquisition switch unit and an external acquisition switch unit, and an internal acquisition switch unit is arranged on each circuit and used for acquiring power supply information of the power supply cabinet and circuits inside the switch in real time; and an external acquisition switch unit is also arranged on an external circuit of the power cabinet and used for acquiring external power supply information. In addition, one control unit can correspond to a plurality of acquisition switch units, so that one control unit can control the plurality of acquisition switch units, and the cost is saved; and one control unit can correspond to one acquisition switch unit, so that single-pair single control is realized, and the control is more accurate.

Specifically, the internal acquisition switch unit directly acquires power supply information of each line, and the external acquisition switch unit acquires external power supply information, namely mains supply power failure information and mains supply incoming call information; the cloud platform collects the collection of the collection switch unit, collects commercial power planned power failure information, commercial power planned incoming call information, commercial power planned power failure delay information, commercial power planned incoming call delay information, commercial power planned power failure early information and commercial power planned incoming call early information through the Internet, transmits the collected commercial power planned power failure information, commercial power planned incoming call information, commercial power planned power failure delay information, commercial power planned incoming call delay information, commercial power planned power failure early information and commercial power planned incoming call early information to the transmission unit, and the transmission unit transmits the information to the control unit.

In a preferred embodiment of the present invention, the transmission unit is an NB-IoT/GPRS communication module.

In the preferred embodiment of the invention, the system also comprises a manual control switch and a reserved expansion port.

The working process is as follows: the control device controls the power supply cabinet to supply power to the equipment according to a set mode, when commercial power is cut off, the power supply cabinet automatically switches to supply power to the storage battery, and when the service data of the communication base station is in a low peak period, the control unit controls the acquisition switch unit to close part of circuits, so that the loss of electric energy is reduced; when the discharge of the storage battery reaches a certain threshold value, the power supply of part of equipment is cut off, and the cruising ability of the equipment is ensured so as to ensure the normal operation of important equipment; when a certain communication base station has no traffic at night, the storage battery control device sets a certain time period to be in a closed state, namely, the loss of electric energy is reduced, and the service life of a battery is prolonged; meanwhile, the acquisition switch unit acquires power supply information of each line of the power cabinet in real time, the control unit judges whether the power supply information is set information or not, the power supply information is transmitted to the cloud platform through the transmission unit, and the cloud platform receives the power supply information, analyzes and processes the power supply information and then provides the power supply information for the query of the client unit; the cloud platform simultaneously collects power supply information of a power supply office and judges whether the power supply information is set information, if the power supply information is the set information, an instruction is sent to the control unit, and the control unit controls the power supply cabinet to change a power supply mode; the client can remotely monitor and control the power supply condition of the base station equipment.

In keeping with the above method, a further aspect of the preferred embodiments of the present invention provides a storage medium having stored therein a plurality of instructions for loading and executing by a processor the above battery control method.

In accordance with the above method, a further aspect of the preferred embodiments of the present invention provides a battery control apparatus, including: a processor for executing a plurality of instructions; a memory to store a plurality of instructions; the plurality of instructions are stored by the memory, and are loaded by the processor and execute the storage battery control method.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and substitutions can be made without departing from the technical principle of the present invention, and these modifications and substitutions should also be regarded as the protection scope of the present invention.

Claims (9)

1. A control method for a storage battery power supply mode is characterized in that the power supply mode of a storage battery is controlled by collecting alternating current commercial power supply information and storage battery real-time voltage data.

2. The method for controlling the power supply mode of the storage battery according to claim 1, wherein the step of controlling the power supply mode of the storage battery by collecting the alternating current commercial power supply information and the real-time voltage data of the storage battery comprises the following steps: when the base station equipment works, the power supply cabinet supplies power; collecting power supply information in the power supply process of the power supply cabinet; determining whether the power supply information belongs to the setting information; if the power supply information does not belong to the set information, continuing to control the power supply of the power supply cabinet; and if the power supply information belongs to the set information, changing the power supply mode into the storage battery power supply mode.

3. The method for controlling the power supply mode of the storage battery according to claim 2, wherein the power supply information includes at least one of power failure information, incoming call information and real-time power supply information of a power supply cabinet; and/or the setting information comprises at least one of commercial power supply real-time voltage value information, commercial power failure information, commercial power planned power failure information, commercial power incoming information, commercial power planned power failure delay information, commercial power planned incoming delay information, commercial power planned power failure early information, commercial power planned incoming early information and base station data traffic information.

4. The method for controlling a battery power supply system according to claim 2, wherein the battery power supply mode includes:

if the acquired power supply information is mains supply power failure information, controlling the power supply cabinet to switch to a storage battery power supply mode, simultaneously monitoring the voltage value of the storage battery in real time, and when the voltage value of the storage battery reaches a set threshold value 1, executing a 'one-time power-off' instruction by the control system, disconnecting the first control device, stopping power supply of the base station main equipment, and ensuring the power supply time of the transmission equipment; when the voltage value of the storage battery reaches a set threshold value 2, the control system executes a secondary power-off command, the second control device is disconnected, the power supply of the base station main equipment and the transmission equipment is stopped, and the storage battery is prevented from being excessively discharged to cause irreversible damage to the storage battery;

if the collected power supply information is the incoming call information of the mains supply, the power supply mode of the power supply cabinet is recovered, the voltage value of the storage battery is monitored, and when the real-time voltage value of the storage battery is lower than a set threshold value, the storage battery is charged;

if the collected power supply information is the planned power failure information of the commercial power, the power supply cabinet is controlled to be switched to the storage battery for supplying power at regular time, and if the planned power failure delay information of the commercial power or the planned power failure early information of the commercial power is collected, the power supply cabinet is controlled to change the timing time;

if the collected power supply information is the commercial power planned incoming call information, the power supply cabinet is controlled to be switched to a set power supply mode for power supply and storage battery charging at regular time, and if the commercial power planned incoming call delay information or the commercial power planned incoming call advance information is collected, the power supply cabinet is controlled to change the timing time.

5. The battery power supply mode control method according to any one of claims 1 to 4, further comprising: when the collected power supply information is set information, sending a reminding message, and/or displaying the set information type and/or the set information content and/or the equipment position; the reminding message comprises: at least one of short message reminding, voice reminding and sending reminding information to the client unit; wherein the client unit comprises: at least one of a computer, a mobile phone and a tablet computer.

6. A control system of the storage battery power supply manner control method according to any one of claims 1 to 5, characterized by comprising:

the storage battery is used for supplying power to the equipment when the power supply information belongs to the set information;

the power supply cabinet comprises a control unit, a collection unit and a transmission unit; the control unit is used for controlling the power supply cabinet to supply power according to a set power supply mode and adjusting the first control device and the second control device to be switched on or switched off; the acquisition unit is used for acquiring power supply information, switch line state information and storage battery real-time voltage information of each line of the power supply cabinet in real time; the transmission unit is used for transmitting power supply information and receiving control information;

and the cloud platform is used for acquiring, analyzing and monitoring power supply information and transmitting the information.

The client unit is used for receiving the reminding message, receiving the power supply information and controlling the control unit;

the database is used for at least storing the opening/closing records of the control device, commercial power failure information, commercial power voltage information, power supply mode information of the power cabinet, power supply real-time data information, storage battery capacity information, storage battery voltage information and storage battery cruising ability information;

the base station main equipment is used for modulation and demodulation and radio frequency amplification of communication signals of the base station and is not directly related to other base stations;

base station transmission equipment, which is used for amplifying and transmitting optical signals between the base stations;

the first control device is used for controlling the power supply or power off state of the main equipment to realize a 'one-time power off' instruction;

the second control device is used for controlling the power supply or power off state of the storage battery to realize a secondary power-off command;

in addition, the control unit and the cloud platform are further used for determining whether the power supply information belongs to set information;

the control unit is also used for changing the power supply mode of the power cabinet.

7. The battery power supply mode control system according to claim 6, wherein the power supply information collected by the collection unit further includes commercial power outage information and commercial power incoming information, commercial power supply real-time voltage value information, and base station data traffic information; the power supply information collected by the cloud platform comprises power supply information, commercial power planned power failure information, commercial power planned incoming call information, commercial power planned power failure delay information, commercial power planned incoming call delay information, commercial power planned power failure early information and commercial power planned incoming call early information which are collected by a collection unit.

8. A storage medium storing a plurality of instructions for loading by a processor and executing the battery control method according to any one of claims 1 to 5.

9. A battery power supply mode control device is characterized by comprising: a processor for executing a plurality of instructions; a memory to store a plurality of instructions; wherein the instructions are stored by the memory and loaded and executed by the processor to perform the battery control method of any of claims 1-5.

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