KR20120084482A - Apparatus for transmitting power in home network - Google Patents

Abstract

PURPOSE: A power transmission apparatus in a home network is provided to reduce communication costs by mutually matching a power transmission circuit arranged on the transmission end of a home network with a power reception circuit. CONSTITUTION: A power reception unit(200) includes a transmission and reception circuit. The transmission and reception circuit is connected to a home network. The transmission and reception circuit constitutes a p-n junction based power switching circuit by connecting with an output end of a power transmission circuit. In case the p-n junction based power switching circuit is completed, the power reception unit receives power from a power transmission unit.

Description

Power transfer device in home network {APPARATUS FOR TRANSMITTING POWER IN HOME NETWORK}

The present invention relates to a power delivery device in a home network, and more particularly to using a power switching circuit (eg, a PNPN circuit or an NPNP circuit) based on a PN junction to deliver power together to a home network for data transmission. The present invention relates to a power transmission device in a home network.

In the past, the Internet service is limited to using information using a computer, but recently, various services besides a computer, such as an IPTV and an IP phone using the high-speed Internet, are emerging.

In order to use new services using various high speed internet, it is expected to evolve toward building home network system in home. As a part of this, recent home network systems are increasingly configured to enable communication in each room by installing a LAN router (or a router) or a LAN switch in a generation terminal box.

However, since there is a home where AC power is not installed in the generation terminal box, an external power supply line must be connected to the LAN equipment in the generation terminal box. In this case, not only the generation terminal box is not closed properly, but also by connecting the power source from the outside, aesthetic problems in the home occurs.

In addition, in order to supply power to electronic equipment driven by connecting to an external communication network such as an Internet service, an adapter for converting AC into DC is required. Therefore, such electronic equipment must have a communication line and a power line. It becomes very complicated, and if a large number of such electronic equipment is provided in a home, it becomes a problem even more in an installation or aesthetic view.

Therefore, while a method of easily communicating with a large number of electronic devices on a home network has been required, the cost of constructing a power over Ethernet (PoE) system for delivering power through a home network is not only excessive, but also data. Power failures in many aspects (e.g., when connecting electronic equipment that only requires data transmission and reception to a home network, there is a potential for equipment failure due to the power supplied). have.

Accordingly, the present invention was created to solve the above problems, and an object of the present invention is to provide a power switching circuit based on a PN junction (for example, a PNPN circuit or an NPNP circuit) to deliver power together to a home network for data transmission. Is divided into a power transmitter circuit and a power receiver circuit, and a power matching circuit based on a PN junction is formed by mutual matching between a power transmitter circuit disposed at a power transmitter of a home network and a power receiver circuit disposed at a power receiver of a home network. It is to provide a power transmission device in a home network to ensure power communication only when complete.

In the home network according to an aspect of the present invention for achieving the above object, the power transmission device through a power transmission circuit including a PNP transistor or an NPN transistor outputs the power output through the power transmission circuit Ethernet communication A power transmitter for supplying power to a home network by applying to a port, and a transmission receiver circuit connected to an output terminal of the power transmitter circuit by connecting to the home network to form a power switching circuit based on a PN junction; In the case of completing a power switching circuit based on the, characterized in that it comprises a power receiving unit for receiving power from the power transmitter.

Preferably, when the power receiver includes a PNP transistor, the power receiver may implement the power receiver circuit as including a NPN transistor to complete a power switching circuit based on the P-N junction.

Preferably, when the power receiver includes an NPN transistor in the power transmitter circuit, the power receiver may include a PNP transistor to complete a power switching circuit based on the P-N junction.

Preferably, the power transmitter transmits data with power through the Ethernet communication port, and the power receiver receives data with power from the home network.

Preferably, the power transmission unit transmits power and data together when the Ethernet communication port is provided by four wires, and when the Ethernet communication port is provided by eight wires, data transmission is performed as a port for data transmission. Power is transmitted to the remaining ports other than the transmission, and when the Ethernet communication port is provided with 10 wires, power is transmitted through ports 0 and 9 rather than ports compatible with 8-wire communication standards.

Preferably, the power transmission unit is characterized in that the structure including the Ethernet communication port or a structure connected to the Ethernet communication port.

Preferably, the Ethernet communication port is characterized in that implemented at least one or more.

Preferably, the power transmitter is configured to combine with a switch or router that is provided for data transfer in the home network, or a single product structure for delivering one or more of power and data to the home network. It features.

Preferably, the power transmission unit further comprises a power supply terminal for outputting power without passing through the power transmission circuit.

Preferably, the power receiver further comprises a power supply path for applying the received power to another Ethernet communication port of the home network after receiving power provided from the power transmitter.

Preferably, the power receiver further comprises a power terminal and an integrated power circuit for receiving an external power source in addition to the power provided from the power transmitter.

Preferably, the power receiving unit is characterized in that it comprises an output structure for separating and outputting power and data after receiving power and data from the power transmitter.

Preferably, the power transmitter and the power receiver are connected to ports 0 and 9 of a power transmission structure using a power switching circuit based on the PN junction, a power over Ethernet (PoE) power transmission structure, and a 10-pin Ethernet communication port. Characterized in that for transmitting power by applying at least one method of the structure for transmitting power.

Preferably, the power transmitter and the power receiver is characterized in that for transmitting data with the power to be transmitted by applying the at least one or more schemes.

Accordingly, in the present invention, in order to deliver power to the home network for data transfer together, a power switching circuit (for example, a PNPN circuit or an NPNP circuit) based on a PN junction is divided into a power transmission circuit and a power reception circuit, and the power of the home network is provided. Data is matched to the home network at low cost by matching power only between the power transmission circuit disposed at the transmitting end and the power receiving circuit disposed at the power receiving end of the home network to complete the power switching circuit based on the PN junction. It is possible to transfer power together, and when connecting electronic equipment that requires only data transmission and reception to a home network, there is an advantage in that the power provided with the power supply can be excluded at the source.

1 is a view showing an embodiment of a power transmission device in a home network according to the present invention;
2 is a view showing another embodiment of a power transmission device in a home network according to the present invention;
3 is a view showing another embodiment of a power transmission device in a home network according to the present invention;
4 is a view showing an embodiment of a power transmission unit according to the present invention;
5 is a view showing another embodiment of the power transmission unit according to the present invention;
6 is a diagram illustrating a connection relationship between a power transmitter and a power receiver according to an embodiment of the present invention;
7 is a view showing an embodiment of a power receiving unit according to the present invention;
8 is a view showing another embodiment the power receiving unit according to the present invention, and
9 is a diagram illustrating a connection relationship between a power transmitter and a power receiver according to another embodiment of the present invention.

Hereinafter, a preferred embodiment of a power transmission device in a home network according to the present invention with reference to the accompanying drawings in detail as follows.

1 is a view showing an embodiment of a power transmission device in a home network according to the present invention. As shown by way of example only in FIG. 1, a power delivery device in a home network includes a power switching circuit (eg, a PNPN circuit or an NPNP circuit) based on a PN junction to deliver power together to a home network for data delivery. Equipped with a configuration.

Here, the power transmission device in the home network includes a power transmitter 100 for supplying power to the home network and a power receiver 200 for receiving power from the power transmitter 100 through an Ethernet communication port.

That is, the power transmitter 100 and the power receiver 200 are components spaced apart from each other in the home network, and mutual matching between the power transmitter circuit disposed in the power transmitter 100 and the power receiver circuit disposed in the power receiver 200 is matched. In this case, the power communication is implemented only when the power switching circuit (eg, PNPN circuit or NPNP circuit) based on the PN junction is completed.

Specifically, the power transmitter 100 includes a power transmitter circuit including a PNP transistor or an NPN transistor, and supplies power to the home network by applying power output through the power transmitter circuit to the Ethernet communication port of the home network.

The connection structure between the power transmitter 100 and the home network can be made in various ways. For example, after the Ethernet communication port is provided at the output terminal of the power transmitter 100, the connection terminal of the Ethernet communication port and the home network is connected to a predetermined connection. It is possible to connect by cable.

Accordingly, the power receiver 200 must be provided with a power receiver circuit for matching a power transmitter circuit to complete a power switching circuit (eg, PNPN circuit or NPNP circuit) based on a PN junction to supply power from the power transmitter 100. Can be provided.

Therefore, when the power receiver 200 includes a PNP transistor in a power transmitter circuit, the power receiver 200 must include a power receiver circuit for circuit connection with the power transmitter circuit using the NPN transistor.

In addition, when the power receiver 200 includes a NPN transistor in the power transmitter circuit, the power receiver 200 must include a power receiver circuit for circuit connection with the power transmitter circuit using the PNP transistor.

In other words, when the power transmission circuit of the power transmission unit 100 includes a PNP transistor, the power reception circuit of the power reception unit 200 is configured to include an NPN transistor so that the PN is only in electrical communication with the power transmission circuit. Since the power switching circuit based on the junction is completed, power transmission between the power transmitter 100 and the power receiver 200 is possible only in this case.

Therefore, when the power transmitter 100 transmits data and power together to the home network, even if there is an electronic device connected to the home network to receive only data, the power transmitter 100 does not include the above power receiving circuit for receiving power. It can reliably avoid the power supplied to the home network.

That is, when the present invention is applied, only electronic equipment for receiving power through the home network can be selectively provided with power, and even if electronic equipment for receiving only data is connected to the home network stably. The power supply to the electronic equipment can be prevented.

In addition, the power switching circuit based on the P-N junction will be limited to the PNPN circuit for a more detailed description below.

2 is a view showing another embodiment of a power transmission device in a home network according to the present invention. As shown by way of example only in Figure 2, the power transmission circuit provided in the power transmission unit 110 of the power transmission device in the home network includes a PNP transistor, this power transmission circuit 4,5 of the Ethernet communication port It connects to the home network through ports 7, 8 and 8.

Accordingly, the power receiving circuit of the power receiving unit 210 connected to the 4, 5, 7, and 8 ports of the Ethernet communication port is connected to the power transmitting circuit through a circuit configuration including an NPN transistor (ie, an SCR). Also called a circuit).

Therefore, after the PNPN circuit is completed, power is delivered to the home network through ports 4, 5, 7, and 8 of the Ethernet communication port, and data is transmitted through ports 1, 2, 3, and 6 of the Ethernet communication port. To pass.

In addition, the resistors included in each of the power transmission circuit and the power receiving circuit are elements connected to stabilize the PNPN circuit, and although the current flows even if the resistance is removed, it is preferable to include a resistor to protect the entire system.

If the regulator circuit provided in the power receiver 210 via the PNPN circuit is a voltage that can operate, a DC / DC converter is not required. This is necessary.

In addition, each pin number of the above-mentioned Ethernet communication port may be changed to correspond to the configuration situation and may be configured in a circuit.

Furthermore, as another example, in order to transfer more power to the home network, it is possible not only to transmit data through ports 1, 2, 3, and 6 of the Ethernet communication port, but also to transmit power together through the circuit shown. .

And, if the Ethernet communication port is implemented as a 10-pin RJ45 terminal, as described above, power is supplied to the home network through ports 0 and 9 without supplying power through ports 4, 5, 7, and 8 as mentioned above. I can deliver it.

This can be made compatible with the 10-pin RJ45 terminal and the 8-pin RJ45 terminal in consideration of the current port specification using the 8-pin RJ45 terminal.

When the 8-pin RJ45 terminal is connected to the 10-pin RJ45 terminal, only data can be transferred.When you want to transfer power together, connect the 10-pin RJ45 terminal to the 10-pin RJ45 terminal to connect port 0,9. There is an advantage to be able to deliver the power delivered to.

3 is a view showing another embodiment of a power transmission device in a home network according to the present invention. As shown only as an example in FIG. 3, when a home network is formed by a 4-wire UTP cable in the power transmitter 120 and the power receiver 220, power and data are transferred together, and 8 wires are used in the mode. In the case of a Gigabit Ethernet system, power and data are transferred together.

Here, since the power is 0, the power is filtered using a low band filter, and since the frequency is using a band having a frequency of 1 MHz or more, the power and the data can be simultaneously delivered by connecting and filtering the high band filter.

In the figure, the configuration of the PNPN circuit is shown as implemented through ports 1,2,3,6, and can also be implemented through ports 4,5,7,8.

As described above in FIG. 2, when the 10-pin Ethernet port is used, the configuration of the PNPN circuit may be implemented through ports 0 and 9.

4 is a diagram illustrating an example of a power transmitter 100 according to the present invention. As shown only as an example in FIG. 4, the power transmission unit 100 has a structure in which the power transmission unit 100 is combined with a switch or a router that is provided for data transmission in a home network, or for transmitting one or more of power and data to a home network. It can consist of a single product structure.

The power transmitter 100 may be implemented in a structure having a power supply therein or in a structure in which power is supplied from the outside.

In addition, when the power transmission unit 100 is implemented as a structure further including a separate power supply terminal for supplying power directly to a predetermined electronic equipment (eg, a surveillance camera, etc.) without passing through the power transmission circuit of the PNPN circuit, It is possible to eliminate the need to connect additional adapters for operating the electronic equipment (eg, surveillance cameras, etc.).

5 is a view showing another embodiment of the power transmission unit 100 according to the present invention. As shown only as an example in FIG. 5, the power transmitter 100 may be implemented in a structure having a plurality of communication ports for connecting to a home network or directly to a predetermined electronic device. desirable.

6 is a diagram illustrating a connection relationship between a power transmitter 130 and a power receiver 230 according to an embodiment of the present invention. As shown only as an example in FIG. 6, the power receiver 230 receives the power provided from the power transmitter 130 as the PNPN circuit is completed through the power receiver circuit, and then transfers the received power to another Ethernet communication port. It is also a preferred configuration to further include a function for providing power to the other power receiver 230 connected to the home network via a power supply path for applying to the.

To explain this in more detail, when compared with the existing technology, since the Ethernet signal is transmitted up to 100m, a switch or router should be installed every 100m to transmit a long distance. In this case, PSE and Ethernet signals are transmitted together, then changed to the product voltage through the PD, and the product is operated with the changed voltage.

In order to send additional Ethernet and power to the product, PSE must be reconnected to the output terminal and transmitted. The reason is that PSE and PD operate by one-to-one signal exchange. The circuit must be configured.

On the other hand, when the PNPN circuit is matched between the power transmission circuit and the power receiving circuit, current flows immediately, and as shown, after connecting the power transmitter 130 and the power receiver 230 through the Ethernet communication port, the power receiver The connection between the 230 and the other power receiver 240 is also a structure in which power is transferred to another power receiver 230 only by connecting the Ethernet communication port.

That is, it is not necessary to configure an additional PNPN circuit in order to transfer power from the power receiver 230 to another power receiver 240. This would be a great advantage in achieving a simple circuit configuration.

However, when power is transferred from the power receiver 230 to another power receiver 240 according to a situation for the circuit configuration, the power receiver 230 may further include a power transmitter circuit.

7 is a diagram illustrating an example of a power receiver 250 according to the present invention. As shown only as an example in FIG. 7, the power receiver 250 may further include a power terminal and an integrated power circuit for receiving an external power source in addition to the power provided from the power transmitter.

In addition, since the external power supply of a predetermined electronic equipment (eg, a surveillance camera) is connected to a DC12V or AC24V power supply, the PoE system transmits a DC48V power supply, and the receiving unit 250 of the PoE system is configured as a PD directly. It was difficult to have a configuration for connecting to an external power source.

Thus, in the past, there have been inefficient aspects in which protection elements such as noise control, lightning protection, and overcurrent protection should be configured in two locations of a PoE power supply and an external power supply.

On the other hand, if the power receiver 250 of the present invention is transmitted to the PNPN circuit with a voltage between AC24V and DC12V, it is possible to apply a regulator circuit immediately without having a DC / DC converter to reduce cost and increase energy efficiency.

8 is a diagram illustrating another example of the power receiver 260 according to the present invention. As shown only as an example in FIG. 8, the power receiver 260 receives power and data through an Ethernet communication port such as RJ 45, and then separates the received power and data, respectively, for power terminal and data output. Output separate power and data to ports (e.g. another RJ 45).

Here, the power terminal and the RJ 45 of the power receiver 260 may be implemented in various ways depending on the product situation, such as a jack, a plug.

9 is a diagram illustrating a connection relationship between a power transmitter and a power receiver according to another embodiment of the present invention. As shown by way of example only in FIG. 9, the power transmitter and the power receiver are configured with a power transmission structure using a power switching circuit based on a PN junction, a power over Ethernet (PoE) power transmission structure, and a 10-pin Ethernet communication port. Appropriate configuration for transferring power and data according to predetermined electronic equipment by applying a structure that transmits power by applying at least one method of power transmission through port 9 and making it compatible. It is also possible to select.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the present invention as defined by the following claims It can be understood that

In addition, the present invention divides the power switching circuit (for example, PNPN circuit or NPNP circuit) based on the PN junction into a power transmission circuit and a power receiving circuit in order to deliver power to the home network for data transfer together, the power of the home network It is intended to be commercially available or commercially available because the mutual matching between the power transmission circuit disposed at the transmitting end and the power receiving circuit disposed at the power receiving end of the home network is performed to complete the power switching circuit based on the PN junction. Not only is the possibility of being sufficient but also practically evident to the extent that the invention has industrial applicability.

100, 110, 120, 130: power transmitter
200, 210, 220, 230, 240, 250, 260: power receiver

Claims (14)

A power transmitter for outputting power through a power transmitter circuit including a PNP transistor or an NPN transistor and then applying power output through the power transmitter circuit to an Ethernet communication port to supply power to a home network; And
And a transmission receiving circuit configured to form a power switching circuit based on a PN junction as connected to the home network and connected to an output terminal of the power transmission circuit. And a power receiver receiving power from the power supply device in a home network. The method according to claim 1,
When the power receiver includes a PNP transistor in the power transmitter circuit, the power receiver includes the NPN transistor as the power receiver circuit, thereby completing a power switching circuit based on the PN junction. . The method according to claim 1,
When the power receiver includes an NPN transistor in the power transmitter circuit, the power receiver includes the power receiver circuit including a PNP transistor to complete a power switching circuit based on the PN junction. . The method according to claim 1,
The power transmitter transmits data with power through the Ethernet communication port, and the power receiver receives data with power from the home network. 5. The method of claim 4,
The power transmission unit transmits power and data together when the Ethernet communication port is provided by four wires, and when the Ethernet communication port is provided by eight wires, data transmission is performed as a port for data transmission. Power transfer to the port, and if the Ethernet communication port is provided with 10 wires, power transfer in the home network, characterized in that the power transfer through the 0 and 9 ports rather than the port compatible with the 8-wire communication standard Device. The method according to claim 1,
The power transmission unit is a structure including the Ethernet communication port or a power transmission device in a home network, characterized in that the structure connected to the Ethernet communication port. The method of claim 6,
The Ethernet communication port is a power transmission device in a home network, characterized in that implemented at least one or more. The method according to claim 1,
The power transmission unit is configured to combine with a switch or router that is provided for data transmission in the home network, or a single product structure for delivering one or more of power and data to the home network Power delivery device on the network. The method according to claim 1,
The power transmission unit further includes a power terminal for outputting power without passing through the power transmission circuit. The method according to claim 1,
The power receiver further includes a power supply path for applying the received power to another Ethernet communication port of the home network after receiving the power provided from the power transmitter. The method according to claim 1,
The power receiver further includes a power terminal and an integrated power circuit for receiving external power in addition to the power provided from the power transmitter. The method according to claim 1,
The power receiving unit is a power transmission device in a home network, characterized in that the output structure to separate and output the power and data after receiving the power and data from the power transmitter. The method according to claim 1,
The power transmitter and the power receiver transmit power through ports 0 and 9 of a power transmission structure using a power switching circuit based on the PN junction, a power over Ethernet (PoE) power transmission structure, and an Ethernet communication port of 10 pins. A power transmission device in a home network, characterized in that for delivering power by applying at least one method of the structure. The method of claim 13,
The power transmitter and the power receiver in the home network, characterized in that for transmitting data with the power to be transmitted by applying the at least one or more schemes.

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