WO2012150794A2 - Power transceiving circuit device in home network - Google Patents

Abstract

The present invention relates to a power transceiving circuit device in a home network. The power transceiving circuit device in the home network according to the present invention, is configured to transmit power to the home network when a driver circuit is included, which is capable of driving a power transmitting circuit of a transmitting end of electronic equipment connected to the home network. Thus, the present invention is easily capable of distinguishing whether the electronic equipment requires either transceiving of data only or receiving both data and power through the home network by being connected to the home network.

Description

Power Transceiver Circuit Device in Home Network

The present invention relates to a power transmission and reception circuit device in a home network, and more particularly, not only delivers power to a home network for data transmission, but also supplies power through a home network by dividing the electronic devices connected to the home network. It relates to a power transmission and reception circuit device in a home network for supplying or not supplying.

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 not only to transmit power together to a home network for data transmission, but also to distinguish an electronic device connected to a home network to distinguish a home network. It is for supplying or not supplying power to the corresponding electronic equipment through the power supply. The power is transferred to the home network only if the electronic equipment connected to the home network includes a driving circuit capable of driving the power transmission circuit of the power transmitter. The present invention provides a power transmission and reception circuit device in a home network.

A power transmission and reception circuit device in a home network according to a first aspect of the present invention for achieving the above object includes a power transmission unit for supplying power to a home network through a power transmission circuit including an NPN transistor and driving of the power transmission circuit. And a power receiver for connecting to the home network and driving the power transmitter circuit through a combination of the power transmitter circuit and the driver circuit to receive power from the power transmitter. do.

In addition, a power transmission and reception circuit device in a home network according to a second aspect of the present invention for achieving the above object is a power transmitter and power supply circuit for supplying power to the home network through a power transmission circuit including a PNPN circuit; And a power receiver for connecting to the home network and driving the power transmitter through a combination of the power transmitter and the driver circuit to receive power from the power transmitter. It features.

Preferably, the power transmission circuit is characterized in that the collector of the PNP transistor of the PNPN circuit and the base of the NPN transistor of the PNPN circuit are not interconnected.

Preferably, the power receiving circuit is characterized in that the emitter and the collector of the PNP transistor of the PNPN circuit is not interconnected.

Preferably, the driving circuit includes a circuit for supplying power to the base of the NPN transistor in the power transmission circuit.

Preferably, the power transmitter supplies power to the home network through an Ethernet communication port, and the power receiver also connects to the home network through the Ethernet communication port to couple the driving circuit to the power transmitter circuit. It is done.

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, a resistance element, a diode, or an inductor having a predetermined resistance value is provided between the base of the NPN transistor and the emitter in the power transmission circuit, or the driving circuit includes the resistance element, the diode, or the inductor. It features.

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 configured to transmit power through ports 0 and 9 of a power transmission structure using the power transmission circuit, a power over Ethernet (PoE) power transmission structure, and a 10-pin Ethernet communication port. At least one of the structures is applied to transfer power.

Therefore, the present invention is not limited to delivering power to the home network for data transmission, but to supply or supply power to the electronic equipment through the home network by classifying the electronic equipment connected to the home network. Since the power is transferred to the home network only when the electronic device connected to the home network includes a driving circuit capable of driving the power transmission circuit of the power transmitter, the data through the home network is simply connected to the home network. It is easy to distinguish whether it is an electronic device that requires only transmission or reception, or an electronic device that requires both data and power. Electronic equipment requiring reception of This has the advantage of being able to provide data and power.

1 is a view showing a power transmission and reception circuit device in a home network according to an embodiment of the present invention;

2 is a view showing another embodiment of a power transmission and reception circuit device in a home network according to the present invention;

3 is a view showing another embodiment of a power transmission and reception circuit device in a home network according to the present invention;

4 is a view showing another embodiment of a power transmission and reception circuit device in a home network according to the present invention;

5 is a view showing another embodiment of a power transmission and reception circuit device in a home network according to the present invention;

6 is a view showing another embodiment of a power transmission and reception circuit device in a home network according to the present invention;

7 is a view showing an embodiment of the application of the power transmission unit according to the present invention;

8 is a view showing another embodiment of the application of the power transmission unit according to the present invention;

9 is a view showing an embodiment of the application of the power receiving unit according to the present invention;

10 is a view showing another embodiment of the application of the power receiving unit according to the present invention, and

11 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 / reception circuit device in a home network according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a power transmission and reception circuit device in a home network according to an embodiment of the present invention. As shown only as an example in FIG. 1, the power transmission / reception circuit device in the home network does not supply or supply power to the electronic device through the home network according to the result of the classification after the electronic device connected to the home network. Equipped to make no.

Here, a method of distinguishing whether the electronic device connected to the home network is a device for receiving only data through the home network or a device for receiving both data and power through the home network is implemented through a hardware circuit connection.

That is, the power transmission and reception circuit device in the home network is divided into 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. The power transmitter 100 is provided on the home network, and the power receiver 200 is provided in the corresponding electronic equipment.

Thus, when the power receiver 200 is connected to the home network, it is determined whether power is supplied to the corresponding electronic device according to the interconnection state between the power receiver 200 and the power transmitter 100.

In other words, the power transmission circuit provided in the power transmission unit 100 for power transmission is a circuit in an incomplete state, not a complete circuit for providing power to a home network.

Therefore, since the power transmission circuit is provided as a circuit in an incomplete state, power is not supplied to the home network in a normal case in which a separate circuit is not added, and the power receiver 200 (that is, the electronic equipment) is provided to the home network. When the addition of a separate circuit (that is, referred to as the 'drive circuit' referred to below) that is connected to complete the power transmission circuit is made to supply power to the power receiver 200 (ie electronic equipment) through the completion of the power transmission circuit This is done.

2 is a view showing another embodiment of a power transmission and reception circuit device in a home network according to the present invention. As shown by way of example only in FIG. 2, the power transmission / reception circuit device in the home network may drive the power transmission unit 110 to supply power to the home network through a power transmission circuit including an NPN transistor, and a power transmission circuit. After receiving the drive circuit for connecting to the home network to drive the power transmission circuit provided in the power transmission unit 110 through the combination of the power transmission circuit and the driving circuit power receiving unit for receiving power from the power transmission unit 110 110.

Here, the power transmission circuit is connected to the home network through ports 4, 5, 7, and 8 of the Ethernet communication port.

In addition, the power transmission circuit is an incomplete circuit state in which circuit connections between ports 5 and 7 are not made, and power is not supplied to the base of the NPN transistor.

That is, the NPN transistor is not activated until power flows to the base in the power transmission circuit, and the power transmission unit 110 and the power receiver 110 are not configured to prevent power from flowing into the home network.

Accordingly, the driving circuit of the power receiving unit 110 is called a 'drive' circuit, meaning that the power supply circuit is substantially completed to supply power to the home network, and the power supply is supplied to the base of the NPN transistor in the power transmission circuit. It consists of a configuration including a circuit for this to be done.

In addition, the resistance included in each of the power transmission circuit and the driving circuit is a device connected to a predetermined resistance value for the system stability, and although the current flows even if the resistance is removed, it is preferable to have a resistance to protect the entire system.

In addition, it is possible to select and connect various types of components such as diodes and capacitors in place of resistors or connect them directly without components in accordance with circumstances, and additionally install an overcurrent protection device or an overvoltage protection device to protect the power supply. I will.

In addition, a DC / DC converter is not required if the regulator circuit provided in the power receiver 110 is operable, and if the voltage is incapable of operation, a process of converting it to a voltage used by the DC / DC converter is required. Do.

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.

In addition, the resistance between the base and the emitter of the NPN transistor is provided in the power transmission circuit (for example, connection between ports 5 and 8 of the Ethernet communication port of the power transmission unit 110 side) or driving of the power reception unit 110. It may be provided in the circuit (for example, connection between port 5 and port 8 of the Ethernet communication port of the power receiver 110 side).

3 is a view showing another embodiment of a power transmission and reception circuit device in a home network according to the present invention. As shown by way of example only in FIG. 3, the power transmission / reception circuit device in the home network is configured to drive the power transmission unit 120 to supply power to the home network through a power transmission circuit including a PNPN circuit, and a power transmission circuit. And a power receiver 220 for connecting to the home network and driving the power transmitter through a combination of the power transmitter and the driver circuit to receive power from the power transmitter 120. .

Here, the power transmission circuit is implemented so as not to interconnect the collector of the PNP transistor of the PNPN circuit and the base of the NPN transistor of the PNPN circuit.

Similar to the power transmission circuit of FIG. 2, in the power transmission circuit of FIG. 3, the NPN transistor operates only when power is supplied to the base in the power transmission circuit. In the state in which the power transmission unit 120 and the power receiver 220 are not coupled, This is to prevent power from flowing to the home network.

That is, the PNPN circuit of FIG. 3 is provided with a switching circuit composed of NPN transistors at the end of the circuit connected to the home network.

Since the power transmission circuit formed of the PNPN circuit operates after the current flows through the base of the NPN transistor, the circuit is operated even though no current flows any more, so that no power loss for switching occurs.

4 is a diagram illustrating another example of a power transmission / reception circuit device in a home network according to the present invention. As shown by way of example only in FIG. 4, the power transmission / reception circuit device in the home network is configured to drive the power transmission unit 130 for supplying power to the home network through a power transmission circuit including a PNPN circuit, and a power transmission circuit. And a power receiver 230 for connecting to the home network and driving the power transmitter circuit through a combination of the power transmitter circuit and the driver circuit to receive power from the power transmitter 130. .

That is, the power transmission circuit of FIG. 4 does not interconnect emitters and collectors of the PNP transistors among the PNPN circuits, and is slightly different from the power transmission circuit of FIG. 3.

5 is a view showing another embodiment of a power transmission and reception circuit device in a home network according to the present invention. As shown only as an example in FIG. 5, the power receiver 240 drives a power transmitter circuit of the power transmitter 140 through a driving circuit to receive power from the power transmitter 140, and then receives the received power. It is possible to be implemented to provide power to the other power communication unit 250 connected to the home network via a power supply path by applying to another Ethernet communication port.

Here, it is preferable that the above-mentioned power transmission circuit and driving circuit are also applied in the relationship between the power receiver 240 and the other power receiver 250.

In addition, the power supply path provided in the power receiver 240 includes a power transmission circuit as provided in the power transmitter 140 to transfer the received power to the other power receiver 250. Or, it refers to a path for transferring the power received as described above to the other power receiver 250 by a PoE method or a conventional power transmission method.

In the PoE method, the power receiver 240 transmits the power received from the power transmitter 140 to another power receiver 250 such as an Ethernet signal by the PSE, and the other power receiver 250 transmits the PD. After changing the product voltage, the product is operated with the changed voltage.

That is, the above-mentioned power receiver 240 may also serve as a converter capable of changing the power received from the power transmitter 140 into a PoE method or a conventional power transmission method and transferring the power to another power receiver 250.

In some cases, the power receiver 240 may transmit power to the other power receiver 250 by using the PSE as an Ethernet signal by using a separate power source instead of the power received from the power transmitter 140.

In addition, in another embodiment, the power transmitter 140 supplies power to the power receiver 240 through a PoE method or a conventional power transmission method, not a method of transferring power to the power receiver 240 through a power transmitter circuit. It may be implemented to convey.

In this case, the power receiver 240 transmits the received power to the other power receiver 250 along with the corresponding Ethernet signal through the above-described power transmitter circuit, or the other power receiver 250 through a PoE method or a conventional power transmission method. ) To transmit power and Ethernet signals.

6 is a diagram illustrating another example of a power transmission / reception circuit device in a home network according to the present invention. As shown only as an example in FIG. 6, in the case of forming a home network with a 4-wire UTP cable in the power transmitter 150 and the power receiver 260, 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.

As shown in the figure, the configuration of the above-mentioned power switching circuit is implemented through ports 1, 2, 3, and 6, and can also be implemented through ports 4, 5, 7, and 8.

In addition, when using the 10-pin Ethernet port, it is possible to implement the above-described configuration of the power switching circuit through the 0, 9 port.

7 is a diagram illustrating an application of a power transmitter according to an embodiment of the present invention. As shown only as an example in FIG. 7, the power transmission unit is configured to combine with a switch or router that is provided for data transfer in a home network, or a single product structure for delivering one or more of power and data to a home network. It may be made of.

The power transmission unit may be implemented in a structure in which power is provided with a power supply therein, or in a structure in which power is supplied from the outside.

In addition, when the power transmission unit is implemented in a structure that further includes 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, the predetermined electronic equipment (eg, It is possible to avoid the need to connect an additional adapter for operating a surveillance camera.

8 is a view showing another embodiment of the application of the power transmission unit according to the present invention. As shown only as an example in FIG. 8, the power transmission unit 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 in terms of various products.

9 is a diagram illustrating an application of a power receiver according to an embodiment of the present invention. As shown only as an example in FIG. 9, the power receiver 270 may further include a power terminal and an integrated power circuit for receiving external power in addition to the power provided from the power transmitter.

In addition, since the external power source of a predetermined electronic device (eg, a surveillance camera) connects a DC12V or AC24V power source, the PoE system transmits a DC48V power source, and the receiving unit 270 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, there has been an inefficient aspect in which protection elements such as noise control, lightning protection, and overcurrent protection have to be configured in two locations of a PoE power supply and an external power supply.

On the other hand, if the power receiver 270 of the present invention is transmitted to a power switching 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. .

10 is a view showing another embodiment of the application of the power receiver according to the present invention. As shown only as an example in FIG. 10, the power receiver 280 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 280 may be implemented in various ways depending on the product situation, such as a jack, a plug.

11 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. 11, the power transmitter and the power receiver are power transmission structure using the power switching circuit of the present invention, power over Ethernet (PoE) power transmission structure and 0 and 9 of the 10-pin Ethernet communication port. By applying at least one of the structures for transmitting power through port number 1 and applying a structure for delivering power, a configuration suitable for transferring power and data according to predetermined electronic equipment is made possible. It is also possible to choose.

Although the above has been described with reference to a preferred embodiment of the present invention, those skilled in the art will be variously modified and changed within the scope of the invention without departing from the spirit and scope of the invention described in the claims below. I can understand that you can.

In addition, the present invention is not only to supply power to the home network for data transfer, but also to supply or not to supply power through the home network according to the electronic equipment connected to the home network, commercial or commercial It is an invention with industrial applicability because it is not only sufficient but also practically evident.

Claims (17)

1. A power transmitter for supplying power to a home network through a power transmitter circuit including an NPN transistor; And

   A power receiving unit including a driving circuit for driving the power transmitting circuit and connected to the home network to drive the power transmitting circuit through a combination of the power transmitting circuit and the driving circuit to receive power from the power transmitting unit; Including,

   The power receiver is included in an electronic device for receiving power through a communication port for accessing the home network, and when the electronic device that does not include the power receiver is connected to the communication port, power is supplied from the power transmitter. The power transmission and reception circuit device in the home network, characterized in that the automatic cut off.
2. A power transmitter for supplying power to a home network through a power transmitter circuit including a PNPN circuit; And

   A driving circuit for driving the power transmission circuit, and connected to the home network to drive the power transmission circuit through a combination of the power transmission circuit and the driving circuit to receive power from the power transmission unit. Including;

   The power receiver is included in an electronic device for receiving power through a communication port for accessing the home network, and when the electronic device that does not include the power receiver is connected to the communication port, power is supplied from the power transmitter. The power transmission and reception circuit device in the home network, characterized in that the automatic cut off.
3. The method of claim 2,

   And the power transmission circuit does not interconnect the collectors of the PNP transistors of the PNPN circuits and the bases of the NPN transistors of the PNPN circuits.
4. The method of claim 2,

   And the power receiving circuit does not interconnect an emitter and a collector of a PNP transistor among the PNPN circuits.
5. The method according to claim 1 or 2,

   And the driving circuit includes a circuit for supplying power to the base of the NPN transistor in the power transmission circuit.
6. The method according to claim 1 or 2,

   The power transmitter supplies power to the home network through an Ethernet communication port, and the power receiver also connects to the home network through the Ethernet communication port to couple the driving circuit with the power transmitter circuit. Power transmission and reception circuit in the network.
7. The method of claim 6,

   And the power transmitter transmits data together with power through the Ethernet communication port, and the power receiver receives data together with power from the home network.
8. The method according to claim 1 or 2,

   A groove having a resistance element, a diode, or an inductor having a predetermined resistance value between the base and the emitter of the NPN transistor in the power transmission circuit, or including the resistance element, the diode, or the inductor in the driving circuit. Power transmission and reception circuit in the network.
9. The method of claim 6,

   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 transmission to the port, and when the Ethernet communication port is provided with 10 wires, power transmission and reception in the home network, characterized in that the power transmission through the 0 and 9 ports rather than the port compatible with the 8-wire communication standard Circuitry.
10. The method of claim 6,

    The power transmission unit is a structure including the Ethernet communication port or a power transmission and reception circuit device in a home network, characterized in that the structure connected to the Ethernet communication port.
11. The method of claim 6,

    The Ethernet communication port is a power transmission and reception circuit device in a home network, characterized in that implemented in at least one or more.
12. The method according to claim 1 or 2,

    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 transmission and reception circuit in the network.
13. The method according to claim 1 or 2,

    The power transmission unit further comprises a power supply terminal for outputting power without passing through the power transmission circuit.
14. The method according to claim 1 or 2,

    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. .
15. The method according to claim 1 or 2,

    The power receiver further includes a power terminal and an integrated power circuit for receiving an external power source in addition to the power provided from the power transmitter.
16. The method according to claim 1 or 2,

    The power receiving unit is a power transmission and reception circuit device for a home network, characterized in that the output structure for separating and outputting power and data after receiving power and data from the power transmission unit.
17. The method according to claim 1 or 2,

    The power transmitter and the power receiver are at least one of a power transmission structure using the power transmission circuit, a power over Ethernet (PoE) power transmission structure, and a power transmission structure through ports 0 and 9 of the 10-pin Ethernet communication port. Power transmission and reception circuit device in a home network, characterized in that to transfer power by applying the above method.

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