KR20120118816A - Battery of remote capacity check device and check method for relaying - Google Patents

Abstract

PURPOSE: A remote capacity checking device of a battery for a relay device and a checking method thereof are provided to always check a back-up type by performing a real time battery capacity test through a monitor in a situation room. CONSTITUTION: A control unit(2) performs bidirectional communication with a situation room(20) through a RS232 communication module(3). An MCU(Micro Controller Unit)(4) performs the bidirectional communication with the situation room. A relay switch(5) is electrically connected with the MCU. When there is a signal of the situation room, the relay switch is operated. The relay switch connects a distribution board(30) with a power supply(11). A battery voltage check unit(8) checks a battery voltage between the MCU and a battery(12). [Reference numerals] (10) Repeater; (11) Power supply; (12) Battery; (20) Situation room; (30) Distribution board; (5) Relay S/W; (8) Battery voltage check unit

Description

Battery of remote capacity check device and check method for relaying}

The present invention relates to a remote capacity check device and a check method of a battery for a repeater (including a base station, etc., which is generally referred to as a repeater) that is automatically connected to supply power in the event of an AC power failure (outage, etc.), More specifically, the battery for the repeater can be kept in an optimal state by allowing the operator to alternate the AC power in the situation room and periodically perform the battery capacity check experiment without going directly to the repeater installed in the mountainous regions. It is an object of the present invention to provide a remote capacity check apparatus and method for a repeater battery.

In using mobile communication, a Gap Filler is used as a system that improves reception by retransmitting a signal to an unserviceable area.

In general, a repeater that uses AC power as the main power, and when the AC power failure, such as a power failure, the battery power can be automatically switched to the auxiliary power is configured to perform the relay service in the best state at all times.

The repeater is installed and operated in an area where service is impossible, that is, where it is difficult to access by a vehicle such as a mountainous area.In the operation of the repeater, the frequency of failure due to the failure of its own module is greatly reduced due to the rapid development of the system. Real-time monitoring of radio frequency (RF) quality data through the system reduces the time to fault failure.

However, there is still a lot of problems that need to be solved when the AC power supply is replaced with battery power.

For example, when AC power is abnormal, battery power is provided and field personnel are urgently dispatched. When AC power is restored during the operation of field personnel, it is impossible to analyze various causes of the repeater. .

As mentioned above, the repeater is installed and operated in places that are difficult to access by vehicles such as mountainous areas, and the batteries used in the repeater are tested twice a year by night using human resources. Therefore, when an abnormality occurred, there was a problem that the field personnel should be dispatched to determine the cause.

A typical battery capacity test is to check the battery with a portable tester while switching the AC power of the repeater.

However, such a battery operation is a low reliability of the battery capacity test, and the actual occurrence of out of service (out of service) often occurs because the battery back-up (up-up) time is not known in the event of power failure.

As a result, there were problems such as a large amount of Voice of Customer (VOC) and an inherent factor that caused the external image of a communication company to fall. In this industry, a technology that can solve such battery-related problems was required.

Therefore, the present inventors have researched and developed the present invention to solve all the problems related to the conventional repeater battery, and the capacity of the battery in a method of switching AC power in the situation room without the operator directly going to the repeater installed in the mountainous area. The present invention has been completed with a technical problem in providing a remote capacity check device and a check method of a repeater battery so as to periodically perform a test experiment to maintain the repeater battery in an optimal state.

In the present invention as a problem solving means to install a control unit (control unit) originally developed by the inventor in the place where the repeater is installed to enable bi-directional communication with the situation room and the RS232 communication module, when there is a remote signal in the situation room MCU ( Electrically connected to MCU and battery while switching off the power supplied to the power supply by switching off the relay switch installed on the AC power supply line in the Micro Controller Unit). It checks the battery voltage check means, and provides the voltage value provided to the MCU in real time through the RS232 communication module from the MCU to the situation room.When the battery discharge is completed, the relay switch is turned on and the AC power is turned on. This allows the remote capacity check of the battery in the situation room.

According to the remote capacity check device and check method of the repeater battery provided by the present invention, it is possible to always test the battery capacity in real time through the monitor in the situation room, so that the backup type can be known at all times. can do.

In addition, the battery replacement budget can be expected by knowing when to replace batteries properly.

Unnecessary workforce waste can be prevented, and the surplus manpower can concentrate on other tasks, thereby providing high-quality services to customers, which can greatly contribute to improving the external image of the carrier.

1 is a block diagram showing the concept of a remote capacity check device for a repeater battery provided in the present invention
Figure 2 is a circuit block diagram schematically showing the configuration of a control unit installed inside the repeater for the remote capacity check of the repeater battery provided by the present invention
Figure 3 is a state capturing the state situation room monitor before turning off the relay switch in the state connected to the control unit with the remote capacity check device of the repeater battery of the present invention
4 is a state diagram capturing a state room monitor with the relay switch turned on in the state connected to the control unit with the remote capacity check device of the battery for the repeater of the present invention
Figure 5 is a graph showing an example of the battery capacity check in the remote capacity check device of the repeater battery for the present invention
Figure 6 is a block diagram showing a remote capacity check method of the repeater battery of the present invention

Hereinafter, an embodiment of a remote capacity check apparatus for a repeater battery provided in the present invention will be described with reference to the accompanying drawings.

1 is a block diagram showing the concept of a remote capacity check device of the repeater battery provided by the present invention, Figure 2 is installed inside the repeater for the remote capacity check device of the repeater battery provided by the present invention 3 and 4 are schematic block diagrams showing the configuration of the control unit. FIG. 3 and FIG. 4 are state diagrams for capturing a state situation room monitor before the relay switch is turned off while connected to the control unit by a remote check device for a repeater battery. The state diagram of the state room monitor with the relay switch turned on is shown.

The power of the general repeater 10 is connected to the battery 12 to a power supply 11 that is supplied with AC power to convert to DC power to charge the battery 12, the power of the battery 12 Is connected to the repeater is configured to operate the repeater.

The remote capacity check device 1 of the repeater battery provided by the present invention can check the state of the battery 12 in the situation room 20 at any time without directly visiting the repeater 10 installed in the mountainous region. It is made.

To this end, by applying the control unit 2 independently developed by the present inventor to enable bidirectional communication with the situation room 20 and the RS232 communication module 3, the field agent does not directly visit the repeater 10 in the situation room 20. The state of the battery 12 can be confirmed.

The control unit 2 is indicated by S-PAS arbitrarily commanded by the present inventors on the drawing, the control unit 2 is a MCU (Micro Controller Unit) capable of bidirectional communication with the situation room 20 and the RS232 communication module (3) (4) is installed.

In addition, an AC input terminal 6 electrically connected to the distribution panel 30 is installed at an input terminal of the relay switch 5 that is electrically connected to the MCU 4 and operates when there is a signal from the situation room 20. The output terminal of the switch 5 is electrically connected to the AC output terminal 7 connected to the power supply 11 for converting AC power to DC power.

The relay switch 5 is electrically connected to the MCU 4 to operate when there is a signal from the situation room 20 to cut off the power provided to the AC output terminal 7.

In addition, the power supply 11 is electrically connected to the battery 12 for supplying power to the repeater 10 so that the power supply can be stably supplied.

The MCU 4 and the battery 12 are interconnected by battery voltage check means 8, and the current value checked by the battery voltage check means 8 is transferred to the MCU 4. To be provided.

The remote capacity check device of the repeater battery 12 of the present invention configured as described above enables the capacity check of the battery 12 by switching AC power in the situation room 20 in the order as shown in FIG. 6. As one example, use cases of the present invention will be described below.

The remote capacity check method of the repeater battery 12 provided by the present invention includes the steps of communicating with the MCU 4 included in the control unit 2 of the remote capacity check device 1 through a monitor in the situation room 20; ; Switching off the AC power supply by turning off the relay switch 5 through the MCU 4 of the control unit 2; Providing the current value checked by the battery voltage checking means (8) to the MCU (4) while the AC power is switched; Confirming by the situation room 20 monitor connected to communicate with the MCU 4.

In order to test the performance of the battery 12 by using the remote capacity check method of the repeater battery 12 of the present invention, first, the corresponding relay in real time through the RS232 communication module 3 in the operation room 20 ( To the control unit (2) connected to (10).

At this time, the current value of the battery 12 is checked in real time by the battery voltage check means 8 before the current value of 24.7V of the battery 12 is discharged as shown in FIG. As shown on the monitor, the state of charge is output as it is.

In the above state, the AC power is switched by turning off the relay switch 5 using the MCU 4 through the monitor.

When the AC power is switched, the repeater 10 is operated only by the power of the battery 12, and the discharge of the battery 12 begins.

When the AC power is cut and the battery 12 is supplied as described above, the current value of the battery 12 is checked in real time by the battery voltage check means 8 and transmitted to the MCU 4, and the MCU 4 As shown in FIG. 5, the current value delivered to) is outputted as 21.5V of the discharged battery 12 to the monitor of the situation room 20 as it is.

As an example of the remote capacity check of the battery 12, as shown in FIG. 5, the voltage from the start voltage 24V at the AC switching time of the battery 12 to the AC recovery time voltage 22V (threshold 21V) at the AC recovery time is increased. The backup type of the battery 12 may be derived by calculating the fall time.

If the battery 12 is below the reference value at the time when the current value falls through the remote capacity check, the field agent visits the repeater 10 and immediately performs the battery 12 replacement work.

As described above, in the case of using the remote capacity check method of the repeater battery 12 of the present invention, the field agent periodically checks the capacity of the battery 12 without the trouble of visiting the repeater 10 as in the conventional battery management. Optimization can be made, the VOC (Voice of Customer) due to out of service (out of service) during power outages can be minimized, and can greatly contribute to improving the external image of the carrier.

Although the detailed description of the present invention has been described with respect to specific embodiments, it is possible to appropriate modifications within the scope without departing from the technical scope of the present invention. Therefore, the protection scope of the present invention is not limited to the embodiments described in the foregoing specification, and the protection scope of the present invention also extends to the equivalent means related to the following claims.

1: Remote capacity checker 2: Control unit
3: Communication module 4: MCU (Micro Controller Unit)
5: Relay switch 6: AC input terminal
7: AC output terminal 8: Battery voltage check means
10: repeater 11: power supply
12: Battery 20: Situation Room
30: distribution board

Claims (2)

Remote power of the repeater battery installed inside the repeater 10 connected to a power supply 11 converting AC power to DC power to supply the repeater 10 to the battery 12 connected to the repeater. In the capacity checking device 1,
A control unit 2 configured to enable bidirectional communication with the situation room 20 and the RS232 communication module 3;
The control unit 2 is a micro controller unit (MCU) 4 capable of bidirectional communication with the situation room 20 and the RS232 communication module 3, and is electrically connected to the MCU 4, and has a signal from the situation room 20. Battery voltage check installed between the relay switch 5 connected to the power line connecting the distribution panel 30 and the power supply 11 and the MCU 4 and the battery 12 to operate when there is a power supply. Remote capacity check device for a repeater battery, characterized in that it comprises a means (8).
A method for checking the capacity of a battery (12) installed in a repeater (10) in a situation room (20);
Communicating with the MCU 4 included in the control unit 2 of the remote capacity check apparatus 1 through the situation room 20 monitor;
Switching off the AC power supply by turning off the relay switch 5 through the MCU 4 of the control unit 2;
Providing the current value checked by the battery voltage checking means (8) to the MCU (4) while the AC power is switched;
Checking by the monitor of the situation room 20 to communicate with the MCU (4); Remote capacity check method for a repeater battery, characterized in that made by.

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