JP2007318305A - Network device and network device power supply control method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a network device and a network device power supply control method that can minimize an increase in cost and an increase in installation space of a plurality of network devices on the whole even when the network devices are not concentrically installed. <P>SOLUTION: Electric power superposed on data transmitted from a feeder system such as a hub through a network cable 3 is received and electric power from a general commercial power source is received; if one of the power sources is disconnected for some reason, continuous operation is carried on by using the other power source. The total cost and installation space is then greatly reduced as compared with the case wherein UPSs are used for the plurality of network devices respectively. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a network device and a network device power supply control method.

  Conventionally, when a commercial power source is used as a power source for operation in a network device compliant with a LAN standard such as Ethernet, a power failure countermeasure is taken (see, for example, Patent Document 1). An uninterruptible power supply called UPS (Uninterruptible Power Supply) is generally used for power failure countermeasures. The UPS incorporates a battery and a generator, and supplies power to the network device for a while even during a power failure. The user can safely terminate the operation of the network device during this time.

JP 2002-262255 A

  However, in a conventional network device, a plurality of network devices are not necessarily installed in a concentrated manner, and UPS for power failure countermeasures must be installed for each network device. There is a problem that the cost is increased and the installation space is extra, which hinders effective use of the space.

  The present invention has been made in view of such circumstances, and even if a plurality of network devices are not installed intensively, a network capable of minimizing an increase in cost and installation space as a whole device. It is an object to provide a device and a network device power supply control method.

The object is achieved by the following configuration or method.
The network device according to the present invention includes a first power acquisition unit that acquires power supplied from a power supply device including a communication hub through a network cable, and a second power source that acquires power necessary for operation of the device body from a commercial power source. When one of the first power acquisition means, the first power acquisition means and the second power acquisition means is selected as an operation power supply for the apparatus main body, and the acquisition of the one power supply becomes impossible, the other Switching means for switching to the power source acquired in step (b).

  With this configuration, when one of the power supply from the power supply device and the commercial power supply cannot be acquired, the power supply is acquired from the other, so that a commercial power supply during a power outage can be obtained without using a UPS. Even if it is not possible, the operation can be continued. Further, even when the power supply from the power supply device to the network cable becomes impossible due to some trouble or failure, the continuous operation can be similarly performed. Also, the total cost and installation space can be greatly reduced as compared with the case where UPS is used for each of a plurality of network devices.

  Further, the network device of the present invention determines whether the power source from the power supply device or the commercial power source is disconnected when either the power source from the power supply device or the commercial power source is disconnected. Power-off notification means for notifying the

  With this configuration, since the user is notified of the power-off, the user can easily grasp the power-off.

  In the network device of the present invention, the power-off notification means notifies the user of power-off by at least one of lighting of a light emitting diode, output of a notification signal, and data output to the network by image or sound.

  With this configuration, the user is notified of the power-off by at least one of turning on the light emitting diode, outputting a notification signal, and outputting data to the network using images and sounds. be able to.

  The network device according to the present invention further includes power detection means for starting up the power-off notification means at the time when the power of both the power supply device and the commercial power is supplied when the power is first turned on.

  With this configuration, when the power is turned on for the first time, the power-off notification operation starts when both the power of the power supply device and the commercial power supply are supplied. Therefore, one of the power supplies is supplied when the power is turned on for the first time. There is no false detection that the power has been cut off even when there is no power.

  The network device power control method of the present invention acquires power supplied from a power supply device including a communication hub through a network cable, acquires power necessary for operation of the device main body from commercial power, Either one of the power supplies is selected as an operation power supply for the apparatus main body, and when the acquisition of the one power supply becomes impossible, the power supply is acquired by the other.

  With this method, when the acquisition of either the power supply from the power supply device or the commercial power supply becomes impossible, the power supply acquired by the other is switched, so that a commercial power supply during a power failure or the like can be obtained without using a UPS. Even if it is not possible, the operation can be continued. Further, even when the power supply from the power supply device to the network cable becomes impossible due to some trouble or failure, the continuous operation can be similarly performed. Also, the total cost and installation space can be greatly reduced as compared with the case where UPS is used for each of a plurality of network devices.

  According to the present invention, when one of the power supply from the power supply apparatus and the commercial power supply cannot be acquired, the power supply is acquired from the other, so that the commercial power supply during a power failure or the like is used without using a UPS. Even if the above cannot be obtained, the operation can be continued. Further, even when the power supply from the power supply device to the network cable becomes impossible due to some trouble or failure, the continuous operation can be similarly performed. Also, the total cost and installation space can be greatly reduced as compared with the case where UPS is used for each of a plurality of network devices.

  DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, preferred embodiments for carrying out the invention will be described in detail with reference to the drawings.

  FIG. 1 is a block diagram showing a schematic configuration of a network apparatus according to an embodiment of the present invention. In the figure, the network device 1 according to the present embodiment corresponds to a predetermined standard (Ethernet standard in the present embodiment), and includes a LAN (Local Area Network) connector 10, a power supply terminal 11, and a power supply extraction. Switching unit 12, power supply circuit 13, power supply detection unit 14, power-off notification control unit 15, display data generation unit 16, communication control unit 17, LED (light emitting diode) 18, and external terminal 19 And a switch 20.

  The LAN connector 10 connects the network device 1 to a power supply device 2 such as a hub. A network cable 3 is used for this connection. A power supply (DC power supply) for operating the network device 1 is supplied from a power supply device 2 such as a line concentrator (called a hub) used in the LAN. In this case, there are a method of supplying power by using a signal line different from the data transmission signal line of the network cable 3 and a method of superimposing the power supply on the data transmission signal line. The power terminal 11 connects the commercial power adapter 4 to the network device 1. A general power cable is used for this connection. The commercial power adapter 4 steps down a general commercial power supply (AC 100 volts in Japan) and outputs a rectified power supply (DC power supply).

  The power extraction unit 12 extracts the DC power from the power feeding device 2 output to the network cable 3. In this case, depending on the type of the power feeding device 2, as described above, a method of superimposing and transmitting the power on the signal line for transmitting the data of the network cable 3 or an extra separate from the signal line for transmitting the data There is a method of transmitting power using a signal line. The power source extraction unit 12 further has a function of outputting a switching control signal when the extracted voltage value of the DC power source becomes a predetermined value or less. The power supply circuit 13 converts the power from the commercial power adapter 4 into a power usable by the network device 1 and outputs the power. The power supply detection unit 14 detects the DC power supply from the power supply extraction unit 12 and the DC power supply from the power supply circuit 13, and outputs an activation signal to the power-off notification control unit 15 when both are detected.

  The power-off notification control unit 15 detects the power-off on the power supply device 2 side and the power-off on the commercial power adapter 4 side, and when any one of the power is cut off, which power source is cut off. The display data generation unit 16 is operated to notify the user, the LED 18 is turned on, and a high level (H level) notification signal is output from the external terminal 19. In this case, when power is first turned on, power is not supplied from either the power supply device 2 side or the commercial power adapter 4 side (for example, power is supplied from the commercial power adapter 4 side. The power-off detection operation is started from the point in time when the activation signal is input from the power supply detection unit 14 so that it is not erroneously detected that the power supply has been cut off even when power is not supplied from the second side. The network device 1 according to the present embodiment normally operates with the power source on the power feeding device 2 side, and operates with the power source on the commercial power adapter 4 side when the power source on the power feeding device 2 side is cut off.

  The display data generation unit 16 generates display data indicating that the power has been cut off by receiving a command to start the operation from the power-off notification control unit 15 and inputs the display data to the communication control unit 17. The display data generated by the display data generating unit 16 includes not only simple characters and symbols but also images and sounds. The communication control unit 17 has a function of communicating with the power supply device 2. When the display data generated by the display data generation unit 16 is input, the communication control unit 17 sends the display data to the power supply device 2 via the network cable 3. The changeover switch 20 switches between the power supply from the power supply extraction unit 12 and the power supply from the power supply circuit 13, and when the switching control signal is input from the power supply extraction unit 12, the power supply from the power supply of the power supply extraction unit 12 is supplied. Switch to the power supply of the circuit 13. Power from the power extraction unit 12 or the power supply circuit 13 is supplied to each unit (not shown) that performs a network function.

  The LAN connector 10 and the power extraction unit 12 constitute a first power acquisition unit. The power supply terminal 11 and the power supply circuit 13 constitute a second power acquisition unit. Further, the power source extraction unit 12 and the changeover switch 20 constitute a switching unit. The power detection unit 14 corresponds to power detection means. The power-off notification control unit 15 corresponds to a power-off notification unit.

Next, the operation of the network device 1 having the above configuration will be described.
(Processing using the power supply from the power supply device 2)
FIG. 2 is a flowchart showing processing when operating using the power supply from the power supply apparatus 2.
Even when operating using the power supply from the power supply device 2 (shown as “LAN side power supply” in the figure), the power supply (shown as “commercial power supply” in the figure) is supplied from the commercial power adapter 4 side. A power source on the power feeding device 2 side is selected by the switch 20. In FIG. 2, first, it is determined whether or not both the power supply on the power feeding device 2 side and the power supply on the commercial power adapter 4 side are on (step S10). If both are not on (No in step S10), this determination is repeated until both are on, and if both are on (Yes in step S10), the power supply voltage on the power supply apparatus 2 side It is determined whether or not the voltage has decreased (step S11).

  That is, it is determined whether or not the power supply voltage on the power feeding device 2 side has become a predetermined value or less. If the power supply voltage on the power supply device 2 side has not decreased (No in step S11), this determination is repeated, and if the power supply voltage on the power supply device 2 side has decreased (Yes in step S11) ) Outputs the switching control signal (step S12). Thereby, the process which operate | moves using the power supply from the commercial power adapter 4 is started, and the power supply of the commercial power adapter 4 side is supplied to each part (not shown) which performs the network function of the network apparatus 1 (step S13).

  In addition, after outputting the switching control signal, the LED 18 is turned on to notify the user that the power source used in the network device 1 has been switched from the power feeding device 2 side to the commercial power adapter 4 side (step S14). A high level (H level) notification signal is output from the external terminal 19 (step S15). Furthermore, display data (such as an image including sound) indicating that the power supply source has been switched is generated (step S16), and the display data is output by communication (step S17).

  After the display data communication is output, it is determined whether or not the power supply voltage on the power supply device 2 side has returned to normal (step S18). If the power supply voltage has not returned to normal (if the determination in step S18 is No), it returns to normal. This determination process is repeated until normal (when the determination in step S18 is Yes), the power extraction unit 12 outputs a switching control signal (step S19), and the power supply on the power supply apparatus 2 side is connected to the network. It supplies to each part (not shown) which performs the network function of the apparatus 1 (step S20). Further, after the switching control signal is output, the LED 18 is turned off (step S21), and the high level (H level) notification signal output from the external terminal 19 is set to the low level (L level) (step S22). Further, the generation of display data is stopped (step S23), and the display data generation stop state is output (step S24). In this manner, the process returns to the operation that operates using the power supply from the power supply device 2.

(Process to determine whether the power from the commercial power adapter 4 is on)
FIG. 3 is a flowchart showing processing when determining whether the power from the commercial power adapter 4 is on.

  In FIG. 3, it is first determined whether or not both the power supply on the power feeding device 2 side and the power supply on the commercial power adapter 4 side are on (step S30). If both are not on (No in step S30), this determination is repeated until both are on. If both are on (Yes in step S30), the power supply on the commercial power adapter 4 side is used. It is determined whether the voltage has dropped (step S31). That is, it is determined whether the power supply voltage on the commercial power adapter 4 side has become a predetermined value or less. If the power supply voltage on the commercial power adapter 4 side has not decreased (No in step S31), this determination is repeated, and if the power supply voltage on the commercial power adapter 4 side has decreased (Yes in step S31) In this case, the LED 18 is turned on to notify the user that the supply of commercial power has been cut off (step S32), and a high level (H level) notification signal is output from the external terminal 19 (step S33). ). Further, display data indicating that the supply of commercial power has been cut off is generated (step S34), and the display data is output by communication (step S35). Since the network device 1 according to the present embodiment normally operates with the power supply on the power supply device 2 side, in this case, the power supply is not switched, and only control for notifying the state of the power supply is executed.

  After the communication output of the display data, it is determined whether the power supply voltage on the commercial power adapter 4 side has returned to normal (step S36). If it has not returned to normal (if the determination in step S36 is No), it is normally This determination process is repeated until it returns, and when it returns to normal (when the determination in step S36 is Yes), the LED 18 is turned off (step S37), and the high level (H level) output from the external terminal 19 is displayed. Is set to a low level (L level) (step S38). Further, the generation of display data is stopped (step S39), and the display data generation stop state is output (step S40). In this way, it is determined that the power from the commercial power adapter 4 is on.

  As described above, according to the network device 1 of the present embodiment, the power source superimposed on the data transmitted by the network cable 3 from the power feeding device 2 such as a hub is taken in, and the power source from a general commercial power source is used. When one of the power supplies is disconnected for some reason, it continues to operate using the other power supply. Therefore, even if a commercial power supply cannot be obtained without using a UPS, Operation is possible. Also, the total cost and installation space can be greatly reduced as compared with the case where UPS is used for each of a plurality of network devices.

  In addition, when it is detected that one of the power sources is cut off, the LED 18 is turned on, a high-level notification signal is output from the external terminal 19, and information notification on the network by image and sound is performed. The user can easily grasp that the power is cut off.

  Also, when the power is turned on for the first time, the power supply state on both the power supply device 2 side and the commercial power adapter 4 side is detected, and the power-off detection operation starts when both power sources are ready. Even if the power is not turned on from either the apparatus 2 side or the commercial power adapter 4 side, it is not erroneously detected that the power is turned off.

  In the present embodiment, the power supply is normally operated with the power supply on the power supply device 2 side, and the power supply on the power supply device 2 side is operated with the power supply on the commercial power adapter 4 side. It doesn't matter. In other words, the power supply may normally operate with the power supply on the commercial power adapter 4 side and operate with the power supply on the power supply apparatus 2 side when the power supply on the commercial power supply adapter 4 side is cut off.

  Further, in this embodiment, the notification that the power supply is cut off is performed by turning on the LED 18, outputting the notification signal, and outputting data to the network using images and sounds. There is no need, and there may be one.

  Further, in the present embodiment, when the power source on the power supply device 2 side is switched to the power source on the commercial power adapter 4 side, the LED 18 is turned on, a high-level notification signal is output from the external terminal 19, and the commercial power adapter 4 LED 18 is turned off and a low-level notification signal is output from the external terminal 19 when the power source on the power supply side is switched to the power supply device 2 side. The signal level may be reversed. Furthermore, display data generation and generation stop may be reversed.

  The present invention has an effect that even if a plurality of network devices are not installed in a concentrated manner, an increase in the cost of the entire device and an increase in installation space can be minimized, and application to a LAN system or the like is possible. Is possible.

1 is a block diagram showing a schematic configuration of a network device according to an embodiment of the present invention. The flowchart which shows a process when the network apparatus shown in FIG. 1 operate | moves using the power supply from an electric power feeder. The flowchart which shows the process which determines whether the power supply from a commercial power adapter is on in the network apparatus shown in FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Network apparatus 2 Power supply apparatus 3 Network cable 4 Commercial power adapter 10 LAN connector 11 Power supply terminal 12 Power supply extraction part 13 Power supply circuit 14 Power supply detection part 15 Power supply interruption notification control part 16 Display data generation part 17 Communication control part 18 LED
19 External terminal 20 Changeover switch

Claims (5)

First power acquisition means for acquiring power supplied through a network cable from a power supply apparatus including a communication hub;
Second power acquisition means for acquiring power necessary for operation of the apparatus main body from commercial power;
Either one of the first power acquisition unit and the second power acquisition unit is selected as an operation power source for the apparatus main body, and when the acquisition of the one power source becomes impossible, the power source acquired by the other Switching means for switching;
A network device comprising:   Power cut-off notifying means for notifying the user of which one of the power supply from the power supply apparatus and the commercial power supply is cut off when either the power supply from the power supply apparatus or the commercial power supply is cut off. The network device according to claim 1.   The network device according to claim 2, wherein the power-off notification means notifies the user of power-off by at least one of lighting of a light emitting diode, output of a notification signal, and data output to the network by an image or sound.   4. The network device according to claim 2, further comprising: a power detection unit that activates the power-off notification unit when both the power of the power supply device and the commercial power are supplied when the power is first turned on. .   Acquires the power supplied from the power supply device including the communication hub through the network cable, acquires the power necessary for the operation of the apparatus main body from the commercial power supply, and uses one of the two power supplies for the operation power of the apparatus main body. A network device power control method for switching to the power acquired by the other power source when the one power source cannot be acquired.

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