KR102436965B1 - PoE slave apparatus having PoE extending function - Google Patents

Abstract

Disclosed is a power supply technology for an electronic device, particularly a Power over Ethernet (PoE) technology for transmitting power through an Ethernet cable.
According to an aspect of the proposed invention, after the PoE host device detects the PD control unit of the first PoE slave device and stably transmits power, the transmission power line to the extended PoE slave device is connected to the PoE host device. Connect to the power line.

Description

PoE slave apparatus having PoE extending function

Disclosed is a power supply technology for an electronic device, particularly a Power over Ethernet (PoE) technology for transmitting power through an Ethernet cable.

Power over Ethernet (PoE) is a known technology for simultaneously transmitting data and power through an Ethernet cable. According to standards such as IEEE 802.at, a Power Sourcing Equipment (PSE) control unit provided in a PoE host device (eg, switch, hub) that supplies power, and a PoE slave device (eg, IP camera, A PD (Powered Device) control unit provided in a VoIP phone) interworks with each other to perform a power transmission/reception control operation through an Ethernet cable.

The proposed invention aims to provide a PoE (Power over Ethernet) slave device capable of PoE (Power over Ethernet) extension at a low cost.

According to an aspect of the proposed invention, after the PoE host device detects the PD control unit of the first PoE slave device and stably transmits power, the transmission power line to the extended PoE slave device is connected to the PoE host device. Connect to the power line.

According to the proposed invention, it is possible to implement a PoE (Power over Ethernet) slave device capable of expanding Power over Ethernet (PoE) without an additional Power Sourcing Equipment (PSE) control unit.

1 is a configuration diagram of a Power over Ethernet (PoE) slave device having a Power over Ethernet (PoE) extension function according to an embodiment;
2 is a diagram illustrating a power switching unit according to an embodiment;
3 is a diagram illustrating a power switching unit according to another embodiment;
4 is a diagram illustrating a power switching unit according to another embodiment;

The foregoing and additional aspects are embodied through the embodiments described with reference to the accompanying drawings. It is understood that various combinations of elements of each embodiment are possible within the embodiments as long as there is no contradiction between them or other mentions.

According to one aspect, a first Power over Ethernet (PoE) slave device connected to a Power over Ethernet (PoE) host device, a second Power over Ethernet (PoE) slave device is additionally connected to supply power through an Ethernet cable can be expanded. However, according to the standard, a Power Sourcing Equipment (PSE) control unit must be additionally provided in the first Power over Ethernet (PoE) slave device, thereby increasing the cost.

In addition, when the network is extended through a bridge connection without implementing the PSE control unit in the first PoE slave device, the PSE control unit provided in the PoE host device does not detect the PD control unit provided in the two PoE slave devices, respectively. Accordingly, there is a problem in that power transmission itself from the PoE host device becomes impossible.

1 is a configuration diagram of a Power over Ethernet (PoE) slave device having a Power over Ethernet (PoE) extension function according to an embodiment. Hereinafter, it will be described with reference to FIG. 1 .

1, the PoE slave device 200 having a PoE extension function according to an aspect includes a first Ethernet port unit 210, a Powered Device (PD) control unit 220, a DC-DC converter ( 230 ), an Ethernet terminal unit 280 , a second Ethernet port unit 240 , a power switching unit 260 , and a packet switch unit 270 .

The first Ethernet port unit 210 is coupled to the first Ethernet cable 101 connected to the Power over Ethernet (PoE) host device 100 .

The first Ethernet cable 101 is connected to the PoE host device 100 . The first Ethernet cable 101 may be of a CAT3, CAT5, CAT6 type. The PoE host device 100 may be a network switch or a hub. The PoE host device 100 transmits and receives data through the first Ethernet cable 101 and transmits DC power.

The Powered Device (PD) controller 220 controls power reception in conjunction with the PoE host device 100 . As is known, a standard standard such as IEEE 802.3at describes a power transmission/reception interface between a Power Sourcing Equipment (PSE) control unit (not shown) provided in the PoE host device 100 and the PD control unit 220 . The PSE control unit detects the PD detection resistor 215 connected to the input terminal of the PD control unit 220 to check the power specification required by the PoE slave device 200, and if the device supports PoE, the corresponding power can be supplied. .

In addition, the PSE control unit may classify the PD control unit 220 as an option such as IEEE 802.3at standard. For example, the PSE control unit may determine the maximum power required by the PD control unit 220 during normal operation.

After the above-described PD detection and classification, the PSE control unit may transmit power through the first Ethernet cable 101 . For example, when power transmission starts, the PSE control unit may increase the transmission DC potential to 42V or more. In this case, the PD control unit 220 may perform a normal operation while, for example, the potential of the received power is maintained at 30V or higher.

Power received through the first Ethernet cable 101 is input to the DC-DC converter 230 through the reception power line 211 of the first Ethernet port unit 210 . The DC-DC converter 230 converts the received power into a potential required by the Ethernet terminal 280 and outputs it using a known technology.

In the embodiment, when power is started to be input to the DC-DC converter 230 , the inrush current from being charged by a capacitor (not shown) located at the input terminal of the DC-DC converter 230 . may occur. According to the IEEE 802.3at standard, the PD controller 220 may limit the inrush current. For example, during initial start-up, that is, while the pass FET inside the PD control unit 220 is initially turned on by the received power, the PD control unit 220 can limit the inrush current by performing a current sink.

After the capacitor at the input terminal of the DC-DC converter 230 is fully charged, stable power may be output from the DC-DC converter 230 . Then, the PD controller 220 may stop the current sink operation and output a soft start or power-good signal.

The Ethernet terminal unit 280 receives power from the DC-DC converter 230 and performs related operations. For example, the Ethernet terminal 280 may be an IP camera or a VOIP phone.

On the other hand, the second Ethernet port unit 240 has a second Ethernet cable 301 connected to the extended PoE slave device 300 is fastened. A connector (eg, RJ-45 connector, not shown) provided at the end of the second Ethernet cable 301 is inserted into the opening (not shown) of the second Ethernet port unit 240 to be fastened. The second Ethernet port unit 240 may be connected to a network adapter (not shown) such as an Ethernet card.

The second Ethernet cable 301 is connected to the extended PoE slave device 300 . The second Ethernet cable 301 may be a CAT3, CAT5, CAT6 type. The extended PoE slave device 300 may be an IP camera or a VOIP phone. The PoE slave device 200 and the extended PoE slave device 300 transmit/receive data and transmit DC power through the second Ethernet cable 301 .

When power is output from the DC-DC converter 230 , the power switching unit 260 connects the transmission power line 241 of the second Ethernet port unit 240 to the reception power line of the first Ethernet port unit 210 ( 211) is connected. In an embodiment, the power output from the DC-DC converter 230 may be power received from the PoE host device 100 . The power switching unit 260 inputs power (eg, a 5V voltage) output from the DC-DC converter 230 as a control signal, and routes the disconnected transmission power line 241 and the reception power line 211 . can be connected Alternatively, the power switching unit 260 may input the power good signal output from the PD control unit 220 as a control signal to connect the paths of the disconnected transmission power line 241 and the reception power line 211 .

The packet switch unit 270 converts the data packets of the first data line 213 of the first Ethernet port unit 210 to the Ethernet terminal unit 280 or the second data line 243 of the second Ethernet port unit 240 . distributed to the extended PoE slave device 300 through In an embodiment, the packet switch unit 270 checks the destination address for each data packet received through the first data line 213 of the first Ethernet port unit 210 to determine the Ethernet terminal unit 280 or the second data packet. 2 It can be transmitted to the extended PoE slave device 300 through the second data line 243 of the Ethernet port unit 240 . In addition, in the embodiment, the packet switch unit 270 transmits a data packet input from the Ethernet terminal unit 280 through the third data line 271 to the first data line 213 of the first Ethernet port unit 210 . may be transmitted to the PoE host device 100 through

According to a specific aspect, the power output from the DC-DC converter 230 is, the PoE host device 100 detects the PD control unit 220, and power of the corresponding potential through the first Ethernet cable 101 After transmitting , power received through the reception power line 211 of the first Ethernet port 210 may be converted into a potential through the DC-DC converter 230 and output.

That is, before the PoE host device 100 detects the PD control unit 220 of the PoE slave device 200 and transmits power, the transmission power line 241 of the second Ethernet port unit 240 and the first Ethernet Assume that the reception power lines 211 of the port unit 210 are connected to each other. In this case, the PoE host device 100 detects two PD detection resistors on the power line of the Ethernet cable, that is, the PD detection resistor 215 of the PoE slave device 200 and the PD detection resistor of the extended PoE slave device 300 . will detect Accordingly, the PoE host device 100 does not detect the PD control unit and does not transmit power.

On the other hand, after the PoE host device 100 detects the PD controller 220 of the PoE slave device 200 once and transmits power, the power transmitted from the PoE host device 100 is transferred to the PoE slave device 200 . ) as well as the extended PoE slave device 300 . Therefore, according to a characteristic aspect of the present invention, after the PoE host device 100 detects the PD control unit 220 and transmits power, the power switching unit 260 transmits power to the second Ethernet port unit 240 . The line 241 is connected to the reception power line 211 of the first Ethernet port unit 210 . In an embodiment, the timing of the power output from the DC-DC converter 230 may be after the power output from the DC-DC converter 230 is stabilized. For example, after the power of sufficient potential is output or the inrush current disappears or after the time when the PD control unit 220 outputs a power good signal, the power switching unit 260 transmits the second Ethernet port unit 240 . The power line 241 may be connected to the reception power line 211 of the first Ethernet port unit 210 .

2 is a diagram illustrating a power switching unit according to an exemplary embodiment. Hereinafter, an additional aspect will be described with reference to FIG. 2 . Among the components of FIG. 2 , overlapping descriptions of components having the same reference numerals as those of FIG. 1 will be omitted.

As shown in Figure 2, the power switching unit 260 according to an additional aspect, the first power line 241a of the transmission power line 241 of the second Ethernet port unit 240 and the first Ethernet port unit ( The connection between the first power line 211a of the reception power line 211 of the 210 may be always maintained. According to an additional aspect, the power switching unit 260 may include a first transistor 260a including a gate terminal, a first terminal, and a second terminal.

The gate terminal of the first transistor 260a is connected to the power output terminal of the DC-DC converter 230 , and the first terminal of the first transistor 260a is the transmission power line ( 241) is connected to the second power line 241a, and the second terminal of the first transistor 260a is connected to the second power line 211b of the reception power line 211 of the first Ethernet port unit 210. can For example, when power is output from the DC-DC converter 230 , the gate terminal of the first transistor 260a receives a switching control signal, and the first transistor 260a performs a switching operation. Accordingly, the first transistor 260a connects the second power line 241b of the transmission power line 241 of the second Ethernet port unit 240 to the reception power line 211 of the first Ethernet port unit 210. It is connected to the second power line 211b. According to an embodiment, the first power lines 241a and 211a may be positive power lines, and the second power lines 241b and 211b may be negative power lines.

3 is a diagram illustrating a power switching unit according to another exemplary embodiment. Hereinafter, an additional aspect will be described with reference to FIG. 3 . Among the components of FIG. 3 , overlapping descriptions of components having the same reference numerals as those of FIG. 1 will be omitted.

3, the power switching unit 260 according to an additional aspect, the second power line 241b of the transmission power line 241 of the second Ethernet port unit 240 and the first Ethernet port unit ( The connection between the second power line 211b of the reception power line 211 of the 210 may always be maintained. According to an additional aspect, the power switching unit 260 may include a second transistor 260b including a gate terminal, a third terminal, and a fourth terminal.

The gate terminal of the second transistor 260b is connected to the power output terminal of the DC-DC converter 230 , and the third terminal of the second transistor 260b is the transmission power line ( 241) is connected to the first power line 241a, and the fourth terminal of the second transistor 260b is connected to the first power line 211a of the reception power line 211 of the first Ethernet port unit 210. can For example, when power is output from the DC-DC converter 230 , the gate terminal of the second transistor 260b receives a switching control signal, and the second transistor 260b performs a switching operation. Accordingly, the second transistor 260b connects the first power line 241a of the transmit power line 241 of the second Ethernet port unit 240 to the receive power line 211 of the first Ethernet port unit 210. It is connected to the first power line 211a. According to an embodiment, the first power lines 241a and 211a may be positive power lines, and the second power lines 241b and 211b may be negative power lines.

4 is a diagram illustrating a power switching unit according to another embodiment. Hereinafter, an additional aspect will be described with reference to FIG. 4 . Among the components of FIG. 4 , overlapping descriptions of components having the same reference numerals as those of FIG. 1 will be omitted.

4 , the power switching unit 260 according to an additional aspect may include a first transistor 260a and a second transistor 260b. The gate terminal of the first transistor 260a is connected to the power output terminal of the DC-DC converter 230 , and the first terminal of the first transistor 260a is the transmission power line ( 241) is connected to the second power line 241b, and the second terminal of the first transistor 260a is connected to the second power line 211b of the reception power line 211 of the first Ethernet port unit 210. can For example, when power is output from the DC-DC converter 230 , the gate terminal of the first transistor 260a receives a switching control signal, and the first transistor 260a performs a switching operation. Accordingly, the first transistor 260a connects the second power line 241b of the transmit power line 241 of the second Ethernet port unit 240 to the receive power line 211 of the first Ethernet port unit 210. It is connected to the second power line 211b.

In addition, the gate terminal of the second transistor 260b is connected to the power output terminal of the DC-DC converter 230 , and the third terminal of the second transistor 260b is the transmit power of the second Ethernet port unit 240 . The line 241 is connected to the first power line 241a, and the fourth terminal of the second transistor 260b is the first power line 211a of the reception power line 211 of the first Ethernet port unit 210. can be connected to For example, when power is output from the DC-DC converter 230 , the gate terminal of the second transistor 260b receives a switching control signal, and the second transistor 260b performs a switching operation. Accordingly, the second transistor 260b connects the first power line 241a of the transmit power line 241 of the second Ethernet port unit 240 to the receive power line 211 of the first Ethernet port unit 210. It is connected to the first power line 211a. According to an embodiment, the first power lines 241a and 211a may be positive power lines, and the second power lines 241b and 211b may be negative power lines.

Although the present invention has been described above with reference to the accompanying drawings, the present invention is not limited thereto, and it should be construed to encompass various modifications that can be apparent from those skilled in the art. The claims are intended to cover such modifications.

100: PoE host device 101: first Ethernet cable
200: PoE slave device 210: first Ethernet port unit
211: receiving power line 211a: first power line
211b: second power line 213: first data line
215: PD detection resistor 220: PD control unit
230: DC-DC conversion unit 230 240: second Ethernet port unit 240
241: transmission power line 241a: first power line
241b: second power line 243: second data line
260: power switching unit 270: packet switch unit
271: third data line 280: Ethernet terminal unit
300: extended PoE slave device 301: second Ethernet cable

Claims (6)

delete delete a first Ethernet port unit to which a first Ethernet cable connected to a Power over Ethernet (PoE) host device is fastened;
a Powered Device (PD) control unit for controlling power reception in conjunction with a PoE host device;
DC-DC converter for converting and outputting the potential of power received through the reception power line of the first Ethernet port unit;
an Ethernet terminal unit operated by power output from the DC-DC converter;
a second Ethernet port unit to which a second Ethernet cable connected to the extended PoE slave device is fastened;
a power switching unit connecting the transmission power line of the second Ethernet port unit to the reception power line of the first Ethernet port unit; and
a packet switch unit for distributing data packets of the first data line of the first Ethernet port unit to the extended PoE slave device through the second data line of the Ethernet terminal unit or the second Ethernet port unit;
includes,
The power output by the DC-DC converter is:
After the Power over Ethernet (PoE) host device detects the PD control unit and transmits power through the first Ethernet cable, it corresponds to power received through the reception power line of the first Ethernet port unit;
The power switch is:
always maintaining the connection between the first power line of the transmission power line of the second Ethernet port unit and the first power line of the receiving power line of the first Ethernet port unit;
A gate terminal connected to a power output terminal of the DC-DC converter or a power good signal terminal of the PD control unit, a first terminal connected to a second power line of the transmission power line of the second Ethernet port unit, and a reception of the first Ethernet port unit Including a transistor including a second terminal connected to the second power line of the power line,
Transistor, when power is output from the DC-DC conversion unit or the power good signal of the PD control unit is output, the second power line of the transmission power line of the second Ethernet port unit is connected to the second power line of the receiving power line of the first Ethernet port unit. connected to;
PoE slave device with PoE extension function. a first Ethernet port unit to which a first Ethernet cable connected to a Power over Ethernet (PoE) host device is fastened;
a Powered Device (PD) control unit for controlling power reception in conjunction with a PoE host device;
DC-DC converter for converting and outputting the potential of power received through the reception power line of the first Ethernet port unit;
an Ethernet terminal unit operated by power output from the DC-DC converter;
a second Ethernet port unit to which a second Ethernet cable connected to the extended PoE slave device is fastened;
a power switching unit connecting the transmission power line of the second Ethernet port unit to the reception power line of the first Ethernet port unit; and
a packet switch unit for distributing data packets of the first data line of the first Ethernet port unit to the extended PoE slave device through the second data line of the Ethernet terminal unit or the second Ethernet port unit;
includes,
The power output by the DC-DC converter is:
After the Power over Ethernet (PoE) host device detects the PD control unit and transmits power through the first Ethernet cable, it corresponds to power received through the reception power line of the first Ethernet port unit;
The power switch is:
always maintaining the connection between the second power line of the transmission power line of the second Ethernet port unit and the second power line of the reception power line of the first Ethernet port unit;
A gate terminal connected to the power output terminal of the DC-DC conversion unit or the power good signal terminal of the PD control unit, a third terminal connected to the first power line of the transmission power line of the second Ethernet port unit, and the reception of the first Ethernet port unit Including a transistor including a fourth terminal connected to the first power line of the power line,
Transistor, when power is output from the DC-DC conversion unit or the power good signal of the PD control unit is output, the first power line of the transmission power line of the second Ethernet port unit is connected to the first power line of the receiving power line of the first Ethernet port unit. connected to;
PoE slave device with PoE extension function. a first Ethernet port unit to which a first Ethernet cable connected to a Power over Ethernet (PoE) host device is fastened;
a Powered Device (PD) control unit for controlling power reception in conjunction with a PoE host device;
DC-DC converter for converting and outputting the potential of power received through the reception power line of the first Ethernet port unit;
an Ethernet terminal unit operated by power output from the DC-DC converter;
a second Ethernet port unit to which a second Ethernet cable connected to the extended PoE slave device is fastened;
a power switching unit connecting the transmission power line of the second Ethernet port unit to the reception power line of the first Ethernet port unit; and
a packet switch unit for distributing data packets of the first data line of the first Ethernet port unit to the extended PoE slave device through the second data line of the Ethernet terminal unit or the second Ethernet port unit;
includes,
The power output by the DC-DC converter is:
After the Power over Ethernet (PoE) host device detects the PD control unit and transmits power through the first Ethernet cable, it corresponds to power received through the reception power line of the first Ethernet port unit;
The power switch is:
A gate terminal connected to the power output terminal of the DC-DC conversion unit or a power good signal terminal of the PD control unit, a first terminal connected to a second power line of the transmission power line of the second Ethernet port unit, and a reception of the first Ethernet port unit A first transistor including a second terminal connected to a second power line of the power line,
The first transistor, when the power is output from the DC-DC conversion unit or the power good signal of the PD control unit is output, the second power line of the transmission power line of the second Ethernet port unit is connected to the second power line of the receiving power line of the first Ethernet port unit. connected to the power line;
A gate terminal connected to the power output terminal of the DC-DC conversion unit or a power good signal terminal of the PD control unit, a third terminal connected to the first power line of the transmission power line of the second Ethernet port unit, and the reception of the first Ethernet port unit A second transistor including a fourth terminal connected to the first power line of the power line,
The second transistor, when the power is output from the DC-DC conversion unit or the power good signal of the PD control unit is output, the first power line of the transmission power line of the second Ethernet port unit is connected to the first power line of the receiving power line of the first Ethernet port unit. connected to the power line;
PoE slave device with PoE extension function. [6] The PoE slave device according to any one of claims 3 to 5, wherein the Ethernet terminal is an IP camera.

Images