KR102484220B1 - Mehtod of managing gateway power and system performing the same - Google Patents

Abstract

A gateway power management system according to an embodiment of the present invention provides a first power supply circuit that receives power from the power supply or the integrated battery depending on whether it is connected to the power supply or whether the integrated battery operates normally. and a first V input circuit that receives power from the first power supply circuit and operates. Depending on whether the main board operates normally, it receives power from the first power supply circuit to charge power or perform no operation. and a mobile machine including an integrated battery that does not progress and a second V input circuit operated by receiving power from a first power supply circuit of the gateway main board.

Description

Gateway power management method and system executing the same {MEHTOD OF MANAGING GATEWAY POWER AND SYSTEM PERFORMING THE SAME}

The present invention relates to a gateway power management method and a system for executing the same, and more particularly, to fundamentally block the possibility of a defective mobile battery of a mobile machine of the gateway, and to replace the integrated battery even if a gateway problem occurs without a power supply. A gateway power management method capable of responding to a required operating time and standby time and a system for executing the same.

With the development of wireless communication technology, wireless devices such as smart phones, smart pads, laptops, etc. are also widely used. Since these wireless devices are portable devices, they operate as power sources from batteries. These wireless devices communicate with the outside by performing wireless communication through a gateway connected to an external communication network.

The gateway performs wireless communication with the wireless device according to the communication method of the sensor (WiFi, Bluetooth, Zigbee, etc.), and is connected to the outside through a wireless communication network such as 3G or 4G to mediate communication between the wireless device and the outside. .

Since these wireless devices operate using a battery as power, they stop operating when the battery is consumed. Therefore, in order to slow battery consumption as much as possible, wireless devices generally have three operating modes.

That is, when there is a communication request, there are two modes: a high power consumption active mode that operates most of the accessory equipment of the wireless device and a low power consumption operation (sleep) mode that only receives control signals by operating only some equipment when there is no communication request. Operating modes are provided, and it is common to operate to slow down battery consumption as much as possible by switching between four operating modes according to communication needs.

This gateway includes a gateway main board, a mobile machine and an integrated battery. At this time, the gateway main board includes a power supply circuit and a V input circuit. The mobile machine includes a mobile board and a mobile battery, and the mobile board includes a power supply circuit and a V input circuit.

When an abnormality occurs in the mobile battery of the mobile machine, power is not charged to the mobile battery of the mobile machine, and power cannot be supplied to the V input circuit of the mobile machine, so that the mobile machine does not operate normally.

The present invention removes the mobile battery, uses the integrated battery, and even if the integrated battery fails, the gateway can operate normally when the power is connected, thereby solving the problem that the entire gateway does not operate when the mobile battery malfunctions. An object of the present invention is to provide a gateway power management method and a system for executing the same.

In addition, the present invention is a gateway power management method and a system for executing the same, which solve the problem that it is not necessary to manage the mobile battery and the gateway battery together unlike the prior art because only the integrated battery needs to be managed by removing the mobile battery and using the integrated battery. is intended to provide

In addition, an object of the present invention is to provide a gateway power management method and a system for executing the same, which facilitate maintenance because the state can be checked by checking the voltage of the integrated battery.

In addition, an object of the present invention is to provide a gateway power management method and a system for executing the same, allowing the gateway to operate as long as there is a power supply device regardless of the presence or absence of an integrated battery.

The objects of the present invention are not limited to the above-mentioned objects, and other objects and advantages of the present invention not mentioned above can be understood by the following description and will be more clearly understood by the examples of the present invention. It will also be readily apparent that the objects and advantages of the present invention may be realized by means of the instrumentalities and combinations indicated in the claims.

A gateway power management system for achieving this object is a first power supply circuit for receiving and providing power from the power supply or the integrated battery depending on whether it is connected to the power supply or whether the integrated battery operates normally, and the A gateway main board including a first V input circuit operated by receiving power supplied from the first power supply circuit, charging power by receiving power from the first power supply circuit or performing no operation according to whether or not the gateway main board operates normally. and a mobile machine including an integrated battery and a second V input circuit operated by receiving power from the first power supply circuit of the gateway main board.

In addition, a gateway power management method for achieving this object supplies power from the power supply or the integrated battery according to whether the first power supply circuit of the gateway main board is connected to the power supply or whether the integrated battery operates normally. Receiving power, supplying power to the first V input circuit of the gateway main board and the second V input circuit of the mobile machine by the first power supply circuit of the gateway main board, and the second V input of the mobile machine and operating the circuit by receiving power from a first power supply circuit of the gateway main board.

According to the present invention as described above, since the mobile battery is removed and the integrated battery is used, the gateway can operate normally when power is connected even if the integrated battery has a problem. It has the advantage of being able to solve problems that have not been addressed.

In addition, according to the present invention, by removing the mobile battery and using the integrated battery, it is possible to solve the problem that the mobile battery and the gateway battery do not need to be managed together, unlike the prior art, since only the integrated battery needs to be managed.

In addition, according to the present invention, since the state can be checked by checking the voltage of the integrated battery, there is an advantage in that maintenance is easy.

In addition, according to the present invention, there is an advantage that the gateway can operate normally as long as there is a power supply device regardless of the presence or absence of an integrated battery.

1 is a diagram for explaining a conventional gateway power management system.
2 is a diagram for explaining a gateway power management system according to an embodiment of the present invention.
3 is a diagram for explaining a gateway power management system according to another embodiment of the present invention.
4 is a diagram for explaining a gateway power management system according to another embodiment of the present invention.
5 is a diagram for explaining a gateway power management system according to another embodiment of the present invention.
6 is a flowchart for explaining an embodiment of a gateway power management method according to the present invention.
7 is a flowchart for explaining another embodiment of a gateway power management method according to the present invention.
8 is a flowchart for explaining another embodiment of a gateway power management method according to the present invention.

The above objects, features and advantages will be described later in detail with reference to the accompanying drawings, and accordingly, those skilled in the art to which the present invention belongs will be able to easily implement the technical spirit of the present invention. In describing the present invention, if it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted. Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to indicate the same or similar components.

1 is a diagram for explaining a conventional gateway power management system.

Referring to FIG. 1 , the gateway power management system includes a gateway 1 and a power supply unit 2, and the gateway 1 includes a gateway main board 10, a mobile machine 20 and a gateway battery 30. include

The gateway main board 10 includes a first power supply circuit 11 and a first V input circuit 12 .

The first power supply circuit 11 of the gateway main board 10 is connected to the power supply 2 and receives power from the power supply 2 . When power is supplied from the power supply device 2, the first power supply circuit 11 of the gateway main board 10 provides the power to the gateway battery 30 so that the gateway battery 30 is charged.

In addition, the first V input circuit 12 of the gateway main board 10 operates the gateway main board 10 when power is applied from the first power supply circuit 11 .

As described above, the second power supply circuit 22 of the mobile board 21 receives power from the first power supply circuit 11 of the gateway main board 10, so that the mobile battery 24 of the mobile machine 20 ) is charged.

The gateway battery 30 is charged with power supplied from the first power supply circuit 11 of the gateway main board 10 . When the power supply device 2 is not connected, the gateway battery 30 supplies power to the first power supply circuit 11 of the gateway main board 10 so that the first V input circuit 12 operates. .

The mobile machine 20 is used for external communication (eg 3G communication, 4G communication, etc.). This mobile machine 20 includes a mobile board 21 and a mobile battery 24 , and the mobile board 21 includes a second power supply circuit 22 and a second V input circuit 23 .

The second power supply circuit 22 of the mobile board 21 receives power from the first power supply circuit 11 of the gateway main board 10, and power is supplied to the mobile battery 24 of the mobile machine 20. charging the mobile battery 24 of the mobile machine 20 by providing

The second V input circuit 23 of the mobile machine 20 receives power from the mobile battery 24 of the mobile machine 20 and operates.

If the gateway battery 30 operates normally in a state where the first power supply circuit 11 of the gateway main board 10 is not connected to the power supply device 2, the gateway battery 30 Power is applied to the power supply circuit 11 to transfer power to the second power supply circuit 22 to operate the gateway main board 10 and the mobile machine 20 .

However, even if the gateway battery 30 is defective, if the first power supply circuit 11 of the gateway main board 10 is connected to the power supply unit 2, it operates normally, but the mobile machine 20 operates normally. When an error occurs in the battery 24, power is not charged to the mobile battery 24 of the mobile machine 20, and power cannot be supplied to the second V input circuit 23 of the mobile machine 20. (20) has a problem that it does not operate normally.

For example, when the mobile battery 24 does not operate normally due to the life of the battery cell or external factors, an abnormality occurs in the mobile battery 24, and in this case, power is not normally supplied to the mobile machine 20. Therefore, the gateway 1 will not operate normally even though the power supply 2 is connected.

2 is a diagram for explaining a gateway power management system according to an embodiment of the present invention.

Referring to FIG. 2 , the gateway power management system includes a gateway 100 and a power supply 200, and the gateway 100 includes a gateway main board 110, a mobile machine 120, and an integrated battery 130. include

The gateway main board 110 includes a first power supply circuit 111 and a first V input circuit 112 .

The first power supply circuit 111 of the gateway main board 110 receives power from the power supply or the integrated battery depending on whether it is connected to the power supply or whether the integrated battery operates normally.

In one embodiment, when the first power supply circuit 111 of the gateway main board 110 is connected to the power supply and the integrated battery operates normally, power is supplied from the power supply 200 to the integrated battery. 130 so that the integrated battery 130 is charged.

In another embodiment, the first power supply circuit 111 of the gateway main board 110 is connected to the power supply and does not provide power to the integrated battery 130 when the integrated battery 130 does not operate normally. This prevents the integrated battery 130 from being charged.

In another embodiment, when the first power supply circuit 111 of the gateway main board 110 is not connected to a power supply and the integrated battery 130 operates normally, power is supplied from the integrated battery 130. You will receive.

In addition, the first power supply circuit 111 of the gateway main board 110 is connected to the first V input circuit 112 of the gateway main board 110 and the second V input circuit 122 of the mobile machine 120. provide power.

The second V input circuit 122 of the gateway main board 110 receives power from the first power supply circuit 111 and operates.

The integrated battery 130 receives power from the first power supply circuit 111 of the gateway main board 110 depending on whether it is connected to the power supply 200, and the battery is charged or the power of the gateway main board 110 is supplied. Power is supplied to the first power supply circuit 111 .

In one embodiment, when the integrated battery 130 is connected to the power supply device 200, the battery is charged by receiving power from the first power supply circuit 111 of the gateway main board 110.

In another embodiment, the integrated battery 130 supplies power to the first power supply circuit 111 of the gateway main board 110 when it is not connected to the power supply device 200 .

The mobile machine 120 is used for external communications (eg, 3G communications, 4G communications, etc.). This mobile machine 120 includes a mobile board 121 , and the mobile board 121 includes a second V input circuit 122 .

The second V input circuit 122 of the mobile machine 120 receives power from the first power supply circuit 111 of the gateway main board 110 and operates.

As described above, the present invention removes the mobile battery and uses the integrated battery, so that even if a problem occurs in the integrated battery, the gateway can operate normally when the power is connected. It has the advantage of being able to solve problems.

3 is a diagram for explaining a gateway power management system according to another embodiment of the present invention. An embodiment disclosed in FIG. 3 relates to an embodiment in which power supply of the gateway can be managed when the power supply device and the power supply circuit of the gateway main board are connected and the integrated battery of the gateway operates normally.

Referring to FIG. 3 , the gateway power management system includes a gateway 100 and a power supply 200, and the gateway 100 includes a gateway main board 110, a mobile machine 120, and an integrated battery 130. include

The gateway main board 110 includes a first power supply circuit 111 and a first V input circuit 112 .

The first power supply circuit 111 of the gateway main board 110 is connected to the power supply 200 and receives power from the power supply 200 . When power is supplied from the power supply device 200, the first power supply circuit 111 of the gateway main board 110 supplies the power to the integrated battery 130 so that the integrated battery 130 is charged.

In addition, the first power supply circuit 111 of the gateway main board 110 is connected to the power supply 200 to provide power to the second V input circuit 122 of the mobile machine 120.

The second V input circuit 122 of the gateway main board 110 operates by receiving power from the first power supply circuit 111 of the gateway main board 110 .

The integrated battery 130 receives power from the first power supply circuit 111 of the gateway main board 110 to charge the battery.

The mobile machine 120 is used for external communications (eg, 3G communications, 4G communications, etc.). This mobile machine 120 includes a mobile board 121 , and the mobile board 121 includes a second V input circuit 122 .

The second V input circuit 122 of the mobile machine 120 operates by receiving power from the first power supply circuit 111 of the gateway main board 110 .

4 is a diagram for explaining a gateway power management system according to another embodiment of the present invention. An embodiment disclosed in FIG. 4 relates to an embodiment in which power supply of the gateway can be managed when a power supply device and a power supply circuit of the gateway main board are connected when the integrated battery of the gateway does not operate normally.

Referring to FIG. 4 , the gateway power management system includes a gateway 100 and a power supply 200, and the gateway 100 includes a gateway main board 110, a mobile machine 120, and an integrated battery 130. include

The gateway main board 110 includes a first power supply circuit 111 and a first V input circuit 112 .

The first power supply circuit 111 of the gateway main board 110 is connected to the power supply 200 and receives power from the power supply 200 . At this time, since the integrated battery 130 does not operate normally, the first power supply circuit 111 of the gateway main board 110 does not supply power to the integrated battery 130 .

In addition, the first power supply circuit 111 of the gateway main board 110 provides power to the first V input circuit 112 of the gateway main board 110 and the second V input circuit 122 of the mobile machine 120. can provide.

The mobile machine 120 is used for external communications (eg, 3G communications, 4G communications, etc.). This mobile machine 120 includes a mobile board 121 , and the mobile board 121 includes a second V input circuit 122 .

The second V input circuit 122 of the mobile machine 120 operates by receiving power from the first power supply circuit 111 of the gateway main board 110 .

That is, even if an error occurs in the integrated battery 130, the second V input circuit 122 of the mobile machine 120 is connected to the first power supply circuit 111 of the gateway main board 110 by the power supply device 200. When connected to, the power is supplied from the first power supply circuit 111 of the main board 110 to operate.

As described above, the present invention has an advantage that the gateway can operate normally as long as there is a power supply even if a defect occurs in the integrated battery 130 .

5 is a diagram for explaining a gateway power management system according to another embodiment of the present invention. An embodiment disclosed in FIG. 5 relates to an embodiment in which the gateway battery can be managed when the power supply device and the power supply circuit of the gateway main board are not connected and the integrated battery of the gateway operates normally.

Referring to FIG. 5 , the gateway power management system includes a gateway 100 , and the gateway 100 includes a gateway main board 110 , a mobile machine 120 and an integrated battery 130 .

The gateway main board 110 includes a first power supply circuit 111 and a first V input circuit 112 .

The first power supply circuit 111 of the gateway main board 110 receives power from the integrated battery 130, and the first V input circuit 112 of the gateway main board 110 and the mobile machine 120 Power can be supplied to the 2 V input circuit 122.

The second V input circuit 122 of the gateway main board 110 receives power from the integrated battery 130 and operates.

The mobile machine 120 is used for external communications (eg, 3G communications, 4G communications, etc.). This mobile machine 120 includes a mobile board 121 , and the mobile board 121 includes a second V input circuit 122 .

The second V input circuit 122 of the mobile machine 120 operates by receiving power from the first power supply circuit 111 of the gateway main board 110 .

That is, even if the first power supply circuit 111 of the gateway main board 110 is not connected to the power supply 200, if the integrated battery 130 operates normally, the first power supply circuit of the gateway main board 110 (111) can operate by receiving power from the integrated battery (130).

Accordingly, the second V input circuit 122 of the mobile machine 120 can receive power from the first power supply circuit 111 of the gateway main board 110 and operate.

6 is a flowchart illustrating an embodiment of a gateway battery management method according to the present invention. An embodiment disclosed in FIG. 6 relates to an embodiment in which a gateway battery can be managed when a power supply device and a power supply circuit of a gateway main board are connected and the integrated battery of the gateway operates normally.

Referring to FIG. 6 , the first power supply circuit 111 of the gateway main board 110 determines whether or not the power supply 200 is connected or whether the integrated battery operates normally. Power is supplied from (step S605).

In one embodiment of step S605, the first power supply circuit 111 of the gateway main board 110 is connected to the power supply and receives power from the power supply 200 when the integrated battery operates normally. .

Then, the first power supply circuit 111 of the gateway main board 110 charges the integrated battery by supplying power to the integrated battery (step S610). Meanwhile, the first power supply circuit 111 of the gateway main board 110 is connected to the power supply and does not provide power to the integrated battery 130 when the integrated battery is fully charged or does not operate normally. ) is not charged.

The first power supply circuit 111 of the gateway main board 110 supplies power to each of the first V input circuit of the gateway main board and the second V input circuit of the mobile machine (step S615).

The second V input circuit 122 of the mobile machine receives power from the first power supply circuit of the gateway main board and operates (step S620).

7 is a flowchart for explaining another embodiment of a gateway battery management method according to the present invention. An embodiment disclosed in FIG. 7 relates to an embodiment in which a gateway battery can be managed when a power supply device and a power supply circuit of a gateway main board are connected and an integrated battery of the gateway does not operate normally.

Referring to FIG. 7 , the first power supply circuit 111 of the gateway main board 110 is connected to the power supply 200 and receives power from the power supply when the integrated battery of the gateway does not operate normally. (Step S705).

The first power supply circuit 111 of the gateway main board 110 supplies power to each of the first V input circuit of the gateway main board and the second V input circuit of the mobile machine (step S710).

The second V input circuit 122 of the mobile machine 120 receives power from the first power supply circuit of the gateway main board and operates (step S715).

8 is a flowchart illustrating another embodiment of a gateway battery management method according to the present invention. An embodiment disclosed in FIG. 8 relates to an embodiment in which the gateway battery can be managed when the power supply device and the power supply circuit of the gateway main board are not connected and the integrated battery of the gateway operates normally.

Referring to FIG. 8 , the first power supply circuit 111 of the gateway main board receives power from the integrated battery 130 when the power supply circuit is not connected and the integrated battery of the gateway operates normally (step S805). .

The first power supply circuit 111 of the gateway main board 110 supplies power to each of the first V input circuit of the gateway main board and the second V input circuit of the mobile machine (step S810).

The second V input circuit 122 of the mobile machine 120 receives power from the first power supply circuit of the gateway main board and operates (step S815).

As described above, the present invention has been described by the limited embodiments and drawings, but the present invention is not limited to the above embodiments, and those skilled in the art in the field to which the present invention belongs can make various modifications and Change is possible. Therefore, the spirit of the present invention should be grasped only by the claims described below, and all equivalent or equivalent modifications thereof will be said to belong to the scope of the spirit of the present invention.

1, 100: gateway,
2, 200: power supply;
10, 110: gateway main board,
11, 111: first power supply circuit;
12, 121: first V input circuit;
20, 120: mobile machine,
30, 130: integrated battery,
21, 121: mobile board,
24: mobile battery

Claims (8)

Receiving power from the power supply or the integrated battery depending on whether it is connected to the power supply or whether the integrated battery operates normally, and providing power to the first V input circuit and the second V input circuit of the mobile machine a gateway main board including a first power supply circuit and a first V input circuit operated by receiving power from the first power supply circuit;
An integrated battery that receives power from the first power supply circuit of the gateway main board and charges the battery or supplies power to the first power supply circuit of the gateway main board, depending on whether or not it is connected to the power supply;
A mobile machine operating by receiving power from a first power supply circuit of the gateway main board;
When the power supply unit and the power supply circuit of the gateway main board are connected and the integrated battery of the gateway operates normally, the first power supply circuit provides power to the integrated battery when receiving power from the power supply unit so that the integrated battery The first power supply circuit is connected to the power supply, and if the integrated battery does not operate normally, power is not provided to the integrated battery so that the integrated battery is not charged, and is not connected to the power supply. If the integrated battery operates normally, the integrated battery receives power, and if the integrated battery is connected to the power supply device, the battery is charged by receiving power from the first power supply circuit of the gateway main board, and the power supply device If not connected, supply power to the first power supply circuit of the gateway main board;
If the power supply and the power supply circuit of the main board of the gateway are connected when the integrated battery of the gateway does not operate normally, the first power supply circuit is connected to the power supply, receives power from the power supply, and is integrated. Without supplying power to the battery, the second V input circuit operates by receiving power from the first power supply circuit,
When connected to the power supply and the integrated battery operates normally, the first power supply circuit supplies power to the integrated battery to charge the integrated battery and supplies power to the second V input circuit; When connected to the power supply and the integrated battery does not operate normally, supply power to the second V input circuit without supplying power to the integrated battery;
When the power supply device and the power supply circuit of the gateway main board are not connected and the integrated battery of the gateway operates normally, the first power supply circuit receives power from the integrated battery, and the first V input circuit of the gateway main board and supplying power to the second V input circuit of the mobile machine, wherein the second V input circuit operates by receiving power from the first power supply circuit of the gateway main board.
Gateway power management system.
delete delete delete Receiving power from the power supply or the integrated battery according to whether the first power supply circuit of the gateway main board is connected to the power supply or whether the integrated battery operates normally;
supplying power to a first V input circuit of the gateway main board and a second V input circuit of the mobile machine, respectively, by a first power supply circuit of the gateway main board; and
operating a second V input circuit of the mobile machine receiving power from a first power supply circuit of the gateway main board;
When the power supply device and the power supply circuit of the gateway main board are connected and the integrated battery of the gateway operates normally, when the first power supply circuit receives power from the power supply device, power is provided to the integrated battery so that the integrated battery The first power supply circuit is connected to the power supply, and if the integrated battery does not operate normally, power is not provided to the integrated battery so that the integrated battery is not charged, and is not connected to the power supply. receiving power from the integrated battery when the integrated battery operates normally; and
When the integrated battery is connected to the power supply, the battery is charged by receiving power from the first power supply circuit of the gateway main board, and when not connected to the power supply, the first power supply circuit of the gateway main board Further comprising the step of supplying power,
When the integrated battery of the gateway does not operate normally and the power supply and the power supply circuit of the main board of the gateway are connected, the first power supply circuit is connected to the power supply, receives power from the power supply, and is integrated. not supplying power to the battery; and
The second V input circuit further comprises the step of operating by receiving power from the first power supply circuit,
supplying, by the first power supply circuit, power to the integrated battery to charge the integrated battery and to supply power to the second V input circuit when connected to the power supply and the integrated battery operates normally; ; and
It is connected to the power supply and when the integrated battery does not operate normally, supplying power to the second V input circuit without supplying power to the integrated battery;
When the power supply device and the power supply circuit of the gateway main board are not connected and the integrated battery of the gateway operates normally, the first power supply circuit receives power from the integrated battery, and the first V input circuit of the gateway main board and supplying power to a second V input circuit of the mobile machine; and
characterized in that it further comprises the step of operating the second V input circuit supplied with power from the first power supply circuit of the gateway main board
How to manage gateway power. delete delete delete

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