KR100922261B1 - Method and apparatus of testing operation of battery in power supply device - Google Patents

Abstract

A method and apparatus for testing battery operation in a power supply is disclosed. The power supply device according to an embodiment is a power supply device having an output terminal and operated by receiving AC power, the rectifier controller outputting first and second control commands in response to an external control signal, coupled to an output terminal. A rectifier having a first output terminal configured to operate in a normal operation mode in response to the first control command and operable in a battery test mode in response to the second control command; And a battery providing an output voltage to a second output terminal coupled to the output terminal, wherein the rectifier outputs the first DC voltage in the normal operation mode to the first output terminal and the second DC voltage in the battery test mode. Is activated, the second DC voltage is less than the first DC voltage. This allows the administrator to automatically perform battery tests at remote locations.

Power supply, battery

Description

METHOD AND APPARATUS OF TESTING OPERATION OF BATTERY IN POWER SUPPLY DEVICE}

The present invention relates to a power supply, and more particularly to battery management in a power supply.

Conventionally, when a system is down due to a power failure in a system where an administrator does not manage such as a communication base station, it takes a long time to recover it. A configuration has been proposed in which the system includes a battery as an auxiliary power source, thereby preventing a system down due to a power failure. However, there is still a problem that it takes a lot of effort and cost to directly check whether the battery failure.

Accordingly, the technical problem to be solved by the present invention is to provide a method and an apparatus used for automatically checking whether the battery is abnormal.

According to one embodiment, a power supply having an output terminal and operated by receiving AC power, the power supply comprising: a rectifier controller for outputting first and second control commands in response to an external control signal; A rectifier having a first output terminal coupled to the output terminal, the rectifier operable in a normal operation mode in response to the first control command and operable in a battery test mode in response to the second control command; And a battery providing an output voltage to a second output terminal coupled to the output terminal, wherein the rectifier outputs the first DC voltage in the normal operation mode to the first output terminal and the second DC voltage in the battery test mode. And a second direct current voltage is less than the first direct current voltage.

According to another embodiment, a method of testing a battery in a power supply according to an embodiment described above, the method comprising: outputting a second control command from a rectifier controller; Providing a second direct current voltage to the first output terminal in response to the second control command at the rectifier; And determining whether the voltage at the output terminal is less than or equal to the second DC voltage.

To do a battery test as a secondary power source, the battery test can be done remotely without the operator having to find and test the device.

Hereinafter, various embodiments will be described in detail with reference to the accompanying drawings.

1 is a schematic diagram illustrating an apparatus according to an embodiment. Apparatus 100 includes a system 110, such as a base station for wireless communication, a system controller 120 for controlling the system, and a power supply 130 for supplying power to system 110 and system controller 120. . The power supply device 130 may rectify external AC power to supply DC power to the system 110 and the system controller 120. The system controller 120 may control a test of the auxiliary power in the power supply 130. The system controller 120 may check whether there is an abnormality of a battery to operate as an emergency power source when the power supply device 130 is out of power periodically (eg, one day) or at the request of an administrator located at a remote location. In addition, the system controller 120 may check whether the wire connected to the battery is shorted during the auxiliary power test. If the system controller 120 detects an abnormal operation during the auxiliary power test, the system controller 120 terminates the test of the power supply 130 and returns to normal operation. If an abnormality is found during the auxiliary power test, the administrator will access the device and repair or replace the battery and / or the wires connected to the battery. In FIG. 1, the solid line indicates the supply of power, and the dotted line indicates the flow of control signals indicating the commands between the components. Although not shown in FIG. 1, the manager may transmit a battery test command to the system controller 120 through a communication line.

2 is a schematic diagram illustrating a power supply apparatus according to an embodiment. The power supply 130 includes a rectifier controller 132, a rectifier 134 and a battery 136. The rectifier controller 132 may control the magnitude of the output voltage V ₁ of the rectifier 134 according to a command from the system controller 120. The rectifier 134 may rectify the AC power to DC to provide the system 110 and the system controller 120. When the power supply 130 is in normal operation, the output voltage V _{1 of the} rectifier 134 is greater than the output voltage V ₂ of the battery 136 so that current flows from the rectifier 134 to the battery 136. The battery 136 is operated to charge, and the rectifier 134 may also supply power to the system 110 and the system controller 120. When the output voltage V ₁ of the rectifier 134 falls below a predetermined value due to a power failure or a failure, and becomes smaller than the output voltage V _{2 of} the battery 136, the system 110 and the system controller ( Power may be supplied to 120. If the system 110 is an outdoor base station, the rectifier 134 may provide a DC voltage of about 27V and the battery 136 may provide a DC voltage of about 24V to the system 110, and the system 110 may range from 22V to 22V. Can be operated from a 29V DC power supply.

3A is a schematic diagram illustrating a flow of output current when a power supply device according to an embodiment is in normal operation. When the power supply 130 is in the normal operating mode, the output voltage V ₁ of the rectifier 134 is greater than the output voltage V ₂ of the battery 136, and as shown by the arrow, the rectifier 134. Power may be supplied from the system 110, the system controller 120, and the battery 136. The system controller 120 may determine the abnormality of the power supply device 130 by measuring the voltage from the power supply device 130.

3B is a schematic diagram illustrating the flow of current when testing a battery in a power supply according to an embodiment. The system controller 120 transmits an auxiliary power test command to the power supply 130, and thus, the rectifier controller 132 receives the rectifier 134 to reduce the output voltage V ₁ of the rectifier 134 so that The control is smaller than the output voltage (V ₂ ). In this case, power may be supplied from the battery 136 to the system 110 and the system controller 120. The system controller 120 determines whether the voltage of the battery 136 is smaller than a predetermined value or the like and short-circuits the battery 136 with a failure and the wiring from the battery 136 to the output terminal of the power supply 130. Can be detected and the like. For example, the system controller 120 may set the output voltage of the rectifier 134 in the battery 136 test mode to a minimum value of the range of voltages that the battery 136 is expected to output in order for the system 110 to operate normally. It may be set to a small value, and the presence or absence of a failure of the battery 136 may be detected based on whether the magnitude of the output voltage is less than or equal to the voltage set in the rectifier 134. The system controller 120 outputs the output voltage V ₁ of the rectifier 134 to the rectifier controller 132 in the normal operation when it detects that the battery 136 and the wiring connected to the battery 136 are faulty. May be instructed to recover to a value, and a manager may be notified of the failure of the battery 136 to replace or repair the battery 136.

4 is a flowchart illustrating a method of testing a battery in a power supply according to an embodiment. When the system controller 120 transmits a command regarding the test of the auxiliary power to the rectifier controller 132 in the power supply 130 periodically or according to a command of an operator located at a remote location, the testing of the battery 136 is performed. Begins. First, the rectifier controller 132 is the output voltage (V ₂ of by reducing the output voltage (V ₁₎ of the rectifier 134, the output voltage (V _1), the power supply 130, within the auxiliary power of the battery 136 To be smaller than () (step S410). The system controller 120 detects whether the battery 136 and the wiring connected to the battery 136 are abnormal from the magnitude of the output voltage from the battery 136 (step S420). When the system controller 120 detects that there is an error in the battery 136 and its wiring, it reports an error to the manager (step S430), and ends the test and returns to normal operation. If the system controller 120 does not detect an abnormality, it returns to normal operation after ending the test.

In the above embodiments, the system may be a wireless communication base station, but the present invention is not limited thereto. In the above embodiment, the system controller 120 is described as determining whether the battery 136 is abnormal, but the present invention is not limited thereto.

Embodiments of the method described above can be embodied as computer readable codes on a computer readable recording medium. Computer-readable recording media include all kinds of recording devices that store data that can be read by a computer system. Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage, and the like, and may also be implemented in the form of a carrier wave (eg, transmission over the Internet). do. The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion. In addition, functional programs, codes, and code segments for implementing the present invention can be easily inferred by programmers in the art to which the present invention belongs.

1 is a schematic diagram illustrating an apparatus according to one embodiment.

2 is a schematic diagram illustrating a power supply according to an embodiment.

3A is a schematic diagram illustrating the flow of output current when a power supply according to one embodiment is in normal operation;

3B is a schematic diagram illustrating the flow of output current when testing a battery in a power supply according to one embodiment.

4 is a flowchart illustrating a method of testing a battery in a power supply according to an embodiment.

<Explanation of symbols for the main parts of the drawings>

110: system

120: system controller

130: power supply

Claims (9)

A power supply having an output terminal and operated by receiving AC power, A rectifier controller for outputting first and second control commands in response to an external control signal; A rectifier having a first output terminal coupled to the output terminal, the rectifier operable in a normal operation mode in response to the first control command and operable in a battery test mode in response to the second control command; And A battery providing an output voltage to a second output terminal coupled to the output terminal; The rectifier is operated to output a first direct current voltage in the normal operation mode and a second direct current voltage in the battery test mode to the first output terminal, wherein the second direct current voltage is less than the first direct current voltage. Feeding device. The method of claim 1, And the rectifier controller switches the rectifier to the normal operation mode when the voltage of the output terminal is less than the second DC voltage when the rectifier is operated in the battery test mode. The method of claim 1, The rectifier, Charge the battery by outputting the first DC voltage greater than the output voltage of the battery in the normal operation mode according to the first control command; And output the second DC voltage lower than an output voltage of the battery in the battery test mode according to the second control command. The method of claim 1, And the external control signal is input to the rectifier controller via a network. The method of claim 1, And a rectifier controller periodically outputs the second control command. A method for testing the battery in the power supply of claim 1, Outputting the second control command at the rectifier controller; Providing the second direct current voltage to the first output terminal in response to the second control command at the rectifier; And Determining whether a voltage of the output terminal is equal to or less than the second DC voltage How to test a battery comprising a. The method of claim 6, Causing the rectifier controller to output the first control command when the voltage at the output terminal is less than or equal to the second DC voltage. The method of claim 7, wherein Outputting the first control command at the rectifier controller further includes communicating the battery failure indication to a manager. A computer readable recording medium storing computer executable instructions for executing the method of claim 6.

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