KR101932025B1 - PoE switching hub device and operation method thereof - Google Patents

Abstract

The present invention relates to a PoE switching hub device and an operation method thereof. According to the present invention, a PoE switching hub device comprises: a port unit having a plurality of ports communicably connected to a power device via an Ethernet cable; a main power supply unit for rectifying an external AC power source to generate a DC power source of a predetermined size and generating a DC power source for generating or boosting the generated DC power source; a power supply control unit that receives power from the main power unit and controls power supply for each port; and a main control unit that switching-controls data through the Ethernet to transmit or receive through the port unit, and allows the predetermined size of power to be supplied or cut off for the each port by controlling the power supply control unit. Accordingly, various size of power can be supplied depending on characteristics of a device to be connected, and power to be supplied can be changed according to a request of a connected device.

Description

[0001] DESCRIPTION [0002] PoE switching hub device and operation method [

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a PoE switching hub device and an operating method thereof, and more particularly, to a PoE switching hub device and a method of operating the PoE switching hub device capable of supplying power of various sizes according to characteristics of connected devices.

Power over Ethernet (PoE), also referred to as "active Ethernet," refers to a technology that transmits data and power using an Ethernet cable, without powering the network equipment separately. When PoE is used, power is supplied from the port of the PoE equipment, so there is no need of extra wire or outlet device, so installation cost is greatly reduced, and power can be cut off automatically in case of power overload, low load, short.

The PoE system consists of PSE (Power Sourcing Equipment), which is a power supply equipment, and PD (Powered Device), which is a power supply equipment. The initial PoE specification is 802, af, capable of delivering 48V DC at up to 13W, and the IEEE 802.3at standard, later known as PoE +, provides nearly twice the power of 25.5W over an Ethernet cable .

However, even if the power that can be supplied through the PoE system is increased, it is still used in a small device such as an IP camera, a VoIP phone, a wireless AP, etc., which consumes a small power, and is difficult to use in a device requiring more electric power.

Therefore, it is necessary to examine the way that PoE system can be used even in a device which consumes a large amount of power such as a display device or a general PC, and a device which can safely drive a small device having low power consumption together with a device consuming a large amount of power .

It is an object of the present invention to provide a PoE switching hub device and a method of operating the PoE switching hub device capable of stably supplying power of various sizes according to characteristics of connected devices.

According to an aspect of the present invention, there is provided a PoE switching hub device including: a port unit having a plurality of ports communicably connected to an electric power device through an Ethernet cable; a rectifier for rectifying external AC power, A main power supply unit for generating a direct current power by down-converting or boosting the generated direct current power; A power supply control unit for controlling power supply to each port, and a control unit for switching and controlling data through Ethernet to transmit and receive through the port unit, and to control the power supply control unit to supply or cut off a predetermined- And a main control unit.

The apparatus may further include an auxiliary power unit having a battery charged by the power generated by the main power unit and supplying power to the power supply control unit when the main power unit fails to operate.

In addition, the main control unit may control the power supply control unit to vary the magnitude of power supplied through the port to which the power device is connected, in response to a power change request from the power device connected through the port.

According to another aspect of the present invention, there is provided a method of operating a PoE switching hub device, the method comprising: providing a port unit having a plurality of ports communicably connected to an electric device through an Ethernet cable; Controlling power to be supplied to the port when a power device is connected to the port, and when there is a power change request from the power device connected to the port, supplying power to the port to which the power device is connected And changing the magnitude of the power to be applied.

According to the present invention, it is possible to provide a PoE switching hub capable of supplying power of various sizes according to characteristics of a connected device and capable of changing power supplied according to a request of a connected device. In addition, the PoE switching hub according to the present invention can cut off the supplied power when the connection with the device is terminated or a network failure is detected, and the power supply is controlled through the external device connected through the interface unit or the operation status is monitored It is possible.

1 is a block diagram illustrating a PoE switching hub apparatus according to an embodiment of the present invention.
2 is a block diagram of a PoE switching hub device according to an embodiment of the present invention;
FIG. 3 is a flowchart illustrating a method of operating a PoE switching hub apparatus according to an embodiment of the present invention.
4 is a view showing an example of the configuration of a wall system, and
FIG. 5 is a view illustrating a configuration of a wall system using a PoE switching hub device according to the present invention.

In this specification, when an element is referred to as being "connected" or "connected" to another element, it is to be understood that any element may be directly connected or connected to another element, It should be understood that the element may also be present. Other expressions that describe the relationship between components, such as "between" or " neighboring to ", should be interpreted as well, such that an element "transmits "

Hereinafter, the present invention will be described in detail with reference to the drawings.

FIG. 1 is a diagram for explaining an operating environment of a PoE switching hub apparatus according to an embodiment of the present invention. Referring to FIG.

Referring to FIG. 1, one or more powered devices (PDs) 200a to 200n may be connected to the PoE switching hub device 100 through an Ethernet cable.

The PoE switching hub device 100 provides a switching hub function and a power supply function so that power can be supplied while transmitting and receiving data to and from the power devices 200a to 200n via the Ethernet cable.

The power devices 200a to 200n include a display device, an audio output device, an image sound output device, a general PC, and the like in addition to small devices such as IP cameras, VoIP phones, and wireless AP devices.

The PoE switching hub device 100 may supply power of different sizes at the same time according to the characteristics of the power devices 200a to 200n and may change the size of the power supplied at the request of the power devices 200a to 200n .

To this end, the PoE switching hub device 100 can grasp the size of power to be supplied by communicating with the power devices 200a to 200n, or can read the preset values in the power devices 200a to 200n to determine the power size to supply.

In addition, the PoE switching hub device 100 can control the power supplied to the power devices 200a to 200n when a network failure is detected, when the connection with the power devices 200a to 200n is terminated, So that unnecessary power consumption can be prevented and stability can be improved.

2 is a block diagram of a PoE switching hub device according to an embodiment of the present invention.

2, the PoE hub device 100 includes a port unit 110, a main power unit 120, an auxiliary power unit 130, a power supply control unit 140, an interface unit 150, a memory 160, And a main control unit 170. [0031] When such components are implemented in practical applications, two or more components may be combined into one component, or one component may be divided into two or more components as necessary.

The port unit 110 includes a plurality of ports 110a to 110n to which the power devices 200a to 200n are communicably connected through an Ethernet cable, respectively. Depending on the operating environment, the port unit 110 may be connected to the power devices 200a to 200n using a cable other than the standard Ethernet cable.

The main power supply unit 120 can rectify external AC power to generate DC power. In addition, the main power supply unit 120 may include a DC / DC converter and the like to simultaneously generate DC power of various voltage magnitudes in accordance with the characteristics of the power equipment 200.

The auxiliary power supply unit 130 includes a rechargeable battery to charge the battery provided by the main power supply unit 120. When the main power supply unit 120 can not generate the DC power, 140, respectively. The power supply can be continued even during a power failure by the auxiliary power supply unit 130. [

The power supply control unit 140 can supply or shut off power to the plurality of ports 110a to 110n individually under the control of the main control unit 170. [ In addition, the power supply control unit 140 may simultaneously supply power of different powers for each port under the control of the main control unit 170. [

The interface unit 150 serves as an interface with all the external devices connected to the PoE switching hub device 100. The PoE switching hub device 100 may be configured or controlled through an external device connected to the interface unit 150 and may monitor the operation status and the like.

The memory 160 stores data and programs for providing a switching hub function and power supply control.

The main control unit 170 may control the power supply controller 140 to control the power supplied to each port while performing control for the switching hub function. Here, the switching hub function switches instantaneous port switching of data input to the PoE switching hub device 100 to only the destination so that the devices connected to the port can communicate with other devices at the same time.

Also, the main control unit 170 can grasp the size of electric power to be supplied to the power devices 200a to 200n, or read the preset values in the power devices 200a to 200n to determine the power size to supply.

When the main controller 170 supplies power through the auxiliary power unit 130, the main controller 170 may control power to be supplied to only a specific port according to a predetermined priority.

With such a configuration, the PoE switching hub device 100 can simultaneously provide the functions of the switching hub and the power supply function. Also, the PoE switching hub device 100 can supply or shut off power of different sizes for each port.

3 is a flowchart illustrating a method of operating a PoE switching hub apparatus according to an embodiment of the present invention.

Referring to FIG. 3, when the power device 200 is connected through the port 110 at step S300, the main controller 170 controls the power supply controller 140 to connect the power device 200 to the port to which the power device 200 is connected So that power of a predetermined size is supplied (S305). Thus, a predetermined amount of power is supplied to the power device 200 through the Ethernet cable connected to the port.

It is necessary to prevent a large power from being supplied to a device that operates at a low power because the PoE switch hub device 100 can simultaneously connect a device that operates with a small power and a device that requires a large power. For this, when the power device 200 is connected for the first time, the power device 200 may be configured to provide low power once through the port unit 100 and then increase the power supplied according to the characteristics of the power device 200. The characteristics of the power device 200 can be configured to be grasped from information transmitted from the power device 200 or the external device connected through the interface part 150. [

The main control unit 170 can grasp the power size to be supplied by communicating with the power devices 200a to 200n or read the preset values in the power devices 200a to 200n to obtain the power size to supply and supply the power.

The main control unit 170 controls the power supply control unit 140 to control the power supply control unit 140 so that the power supply 200 is connected to the port to which the power equipment 200 is connected (S315) so that the changed power is supplied according to the requested size.

Such a power change request may be requested from an external device connected through the interface unit 150. [ In addition, it is also possible to configure the external device to monitor the operation status and the like by transmitting information about the power supplied through the port unit 110 to an external device connected through the interface unit 150. [

The main control unit 170 controls the power supply control unit 140 to shut off the power supply through the corresponding port (S325) when the power supply apparatus 200 is disconnected or a network failure is detected (S320) .

In this way, power can be supplied to the power device 200 connected to the port, and the magnitude of power supplied according to a request from the power device 200 can be changed.

The main control unit 170 may supply power in consideration of power loss in the cable connecting the port unit 110 and the power equipment 200 when power is supplied to the power equipment 200. [ That is, the main control unit 170 can supply the electric power consumed in the power device 200 and the electric power consumed in the cable.

The power consumed in the cable connecting the port unit 110 and the power device 200 can be calculated using the total resistance value calculated according to the length of the cable and the resistance value per unit length of the cable. Information related to power consumed in the cable can be received from the power device 200 or an external device connected to the interface unit 150. [

Meanwhile, the PoE switching hub device 100 according to the present invention can be used in various systems. Hereinafter, a PoE switching hub device 100 according to the present invention will be described as an example in which the PoE switching hub 100 is used in a wall system.

4 is a diagram showing an example of the configuration of the wall system.

4, a typical wall system may include a source device 400, a management computer 420, a network device 440, a wall controller 460, and an image and sound output device 500 .

The source device 400 may transmit video and / or audio source data packets over the network 10. The management computer 420 is a manager's computer for managing the monthly system, and the network device 440 includes a hub or a switch for network configuration. The wall controller 460 transmits the video and / or audio source data packets received from the source apparatus 400 to the video and audio output apparatus 500 and outputs control signals for controlling the video and audio output apparatus 500, It is possible to supply power for driving the sound output apparatus 500. The video audio output apparatus 500 may include multiple displays 510 and speakers 520, each of which may be configured as one or more display devices.

With this configuration, a wall system is provided that provides a function of displaying different images on a plurality of displays, displaying one image on a plurality of displays, and displaying one image on a plurality of displays can do.

FIG. 5 shows a case where the PoE switching hub device according to the present invention is used in the wall system shown in FIG.

As shown in FIG. 5, the PoE switching hub device 100 can simultaneously supply various sizes of power while providing a switching hub function, so that data for control and video and / To the apparatus 500, and may also provide power for driving the video and audio output apparatus 500.

Therefore, by using the PoE switching hub device 100, it is possible to easily configure the wall system without the wall controller 460 or the like. In addition, the PoE switching hub device 100 may be used to configure other systems besides the monthly system. Depending on the usage environment, the PoE switching hub device 100 may be configured to simultaneously use two ports, not one port, .

The PoE switching hub device and the operation method thereof according to the present invention are not limited to the configurations of the above-described embodiments, but the embodiments described above can be applied to all of the embodiments Or some of them may be selectively combined.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It should be understood that various modifications may be made by those skilled in the art without departing from the spirit and scope of the present invention.

110: Port part 120: Main power part
130: auxiliary power unit 140: power supply control unit
150: interface unit 160: memory
170:

Claims (10)

A port portion having a plurality of ports communicably connected to the power device through an Ethernet cable;
A main power source unit for rectifying an external AC power source to generate a DC power source of a predetermined size and generating a DC power source for generating or boosting the generated DC power source;
And receives power from the main power unit. A power supply control unit for controlling power supply for each port;
An auxiliary power unit for supplying power to the power supply control unit when the main power unit fails to operate due to a battery charged by the power generated by the main power unit;
An interface unit to which an external device is connected; And
And controls the power supply control unit to supply or cut off power of a predetermined size for each port,
The control unit communicates with the power device connected to the port through a connection cable or reads a predetermined value from the power device to determine a power size to supply the power to the port to which the power device is connected,
A power source having a power level that considers power lost in the connection cable is supplied to a port to which the power device is connected according to lost power information for the connection cable transmitted from the power device or the external device,
And a main controller for controlling power supplied only to a specific port in the port unit according to a preset priority when power is supplied through the auxiliary power unit. delete The method according to claim 1,
Wherein the main control unit controls the power supply control unit to vary the magnitude of power supplied through the port to which the power device is connected according to a power change request from the power device. The method according to claim 1,
Wherein the main control unit changes or interrupts a magnitude of power supplied to a specific port in the port unit at the request of the external device. The method according to claim 1,
Wherein the main control unit controls power supply to the port to which the power device is connected when the connection to the power device is terminated. The method according to claim 1,
Wherein the main control unit controls power supply to the port unit to be interrupted when a network failure is detected. Providing a port portion having a plurality of ports communicably connected to an electric power device via an Ethernet cable;
A main power supply unit for rectifying external AC power to generate a DC power of a predetermined size and generating DC power by stepping down or boosting the generated DC power and a power supply unit for receiving power from the main power unit, An auxiliary power unit for supplying power to the power supply control unit when the main power unit fails to operate and an interface unit to which the external device is connected are provided in the power supply control unit and a battery charged by the power generated by the main power supply unit ;
Controlling switching of data through Ethernet to control transmission and reception through the port unit and controlling the power supply control unit to supply or cut off power of a predetermined size for each port;
Communicating with the power device connected to the port through a connection cable or reading a preset value from the power device to determine a power size to supply the power to the port to which the power device is connected;
Receiving power loss information for the connection cable from the power device or the external device and supplying power to the port to which the power device is connected considering power loss in the connection cable; And
And controlling power supplied only to a specific port in the port unit according to a preset priority when power is supplied through the auxiliary power unit. 8. The method of claim 7,
Changing a magnitude of power supplied through a port to which the power device is connected according to a power change request from the power device; And
And disconnecting power to a port to which the power device is connected when the connection with the power device is terminated. 8. The method of claim 7,
Further comprising changing or blocking a magnitude of power supplied to a specific port in the port unit at the request of the external device. 8. The method of claim 7,
Further comprising transmitting to the external device information about a power source supplied to the port unit.

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