JP2010050519A - Phone unit and electric supply method using phone unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a phone unit capable of avoiding the useless application of a voltage. <P>SOLUTION: The phone unit operates by using a voltage applied from a feeder device. In operation, the phone unit applies a predetermined voltage to an external device connected to the phone unit based on the applied voltage to the phone unit. Then, the phone unit detects a current flowing to the external device. If the current is not detected, the voltage applied to the external device is shut down. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a telephone and a power feeding method using the telephone, and more particularly to a telephone using an IP (Internet Protocol) protocol and a power feeding method using the telephone.

  In recent years, a system (standard: IEEE 802.3af) in which power is supplied simultaneously with data transmission via a pair of unshielded wires (UTP) has become widespread.

  By using this standard, for example, data transmission / reception and power supply between the two devices can be realized simultaneously by simply connecting the two devices using a LAN (Local Area Network) cable.

  FIG. 4 is a diagram illustrating an example of a general connection form in which power is supplied using IEEE 802.3af.

  The configuration shown in FIG. 4 includes a power supply HUB (hub) 1000, IP (Internet Protocol) telephones 1010-1 to 1010-3, and external connection devices 1020-1 to 1020-3.

  The power supply HUB 1000 is a power supply apparatus that has a plurality of ports 1001 and supplies power from the ports 1001 to the IP telephones 1010-1 to 1010-3 and the external connection devices 1020-1 to 1020-3. The power supply method here is based on the IEEE 802.3af standard, and is included in a cable that connects the port 1001 to the IP telephones 1010-1 to 1010-3 and the external connection devices 1020-1 to 1020-3. This is performed by applying a predetermined voltage to a pair of signal lines among the lines. The port 1001 can be connected to a LAN (Local Area Network) cable. The power supply HUB 1000 can operate according to the IEEE 803.3af standard, and applies a voltage to the IP telephones 1010-1 to 1010-3 using a pair of pair wires in a LAN cable that transmits and receives data. Is possible.

  IP telephones 1010-1 to 1010-3 are telephones that are connected to power supply HUB 1000 and to which a predetermined voltage is applied (powered) from port 1001 of power supply HUB 1000. The IP telephones 1010-1 to 1010-3 can operate according to the IEEE 803.3af standard, and a predetermined voltage is applied from the power supply HUB 1000 using a pair of paired wires in a LAN cable that transmits and receives data. Is done.

  The external connection devices 1020-1 to 1020-3 are external devices that are connected to the power supply HUB 1000 and to which a predetermined voltage is applied (powered) from the port 1001 of the power supply HUB 1000. The external connection devices 1020-1 to 1020-3 can operate according to the IEEE 803.3af standard, and a predetermined voltage is supplied from the power supply HUB 1000 using a pair of paired wires in a LAN cable that transmits and receives data. Applied.

  The number of IP telephones 1010-1 to 1010-3 and the number of externally connected devices 1020-1 to 1020-3 are not limited to three, and may be arbitrary.

  However, in the form shown in FIG. 4, when the power supply HUB 1000 is connected to the IP telephones 1010-1 to 1010-3 and the external connection devices 1020-1 to 1020-3 at the same location, the cable wiring from the power supply HUB 1000 is performed. Need to be prepared for the number of IP telephones 1010-1 to 1010-3 and external connection devices 1020-1 to 1020-3. Therefore, depending on the arrangement situation, the shortage of the number of ports 1001 of the power supply HUB 1000 may occur.

  Therefore, a system that reduces the number of ports 1001 used by the power supply HUB 1000 has been considered (for example, see Patent Document 1).

  FIG. 5 is a diagram illustrating an example of a connection configuration in which measures for reducing the number of ports used by the power supply HUB are taken.

  The configuration shown in FIG. 5 includes a power feeding HUB 1000, IP telephones 1011-1 to 1011-3, and external connection devices 1020-1 to 1020-3.

  The power supply HUB 1000 is the same as that shown in FIG.

  IP telephones 1011-1 to 1011-3 are telephones that are connected to power supply HUB 1000 and to which a predetermined voltage is applied (powered) from port 1001 of power supply HUB 1000. The IP telephones 1011-1 to 1011-3 are connected to the external connection devices 1020-1 to 1020-3, respectively, and use the voltage applied from the power supply HUB 1000 to the external connection devices 1020-1 to 1020-3. Is applied (powered). The IP telephones 1011-1 to 1011-3 can operate according to the IEEE 803.3af standard, and a predetermined voltage is applied from the power supply HUB 1000 using a pair of paired wires in a LAN cable that transmits and receives data. Is done. The IP telephones 1011-1 to 1011-3 apply a predetermined voltage to the external connection devices 1020-1 to 1020-3 using a pair of pair wires in the LAN cable.

  Externally connected devices 1020-1 to 1020-3 are the same as those shown in FIG. However, the voltage for operation is applied (supplied) from each of the IP telephones 1011-1 to 1011-3. At this time, a predetermined voltage is applied from each of the IP telephones 1011-1 to 1011-3 using a pair of paired wires in a LAN cable that transmits and receives data.

  The number of IP telephones 1011-1 to 1011-3 and the number of externally connected devices 1020-1 to 1020-3 are not limited to three and may be arbitrary.

By connecting the external connection devices 1020-1 to 1020-3 using the IP telephones 1011-1 to 1011-3 shown in FIG. 5, the number of ports 1001 used by the power supply HUB 1000 can be reduced.
JP 2005-269890 A

  However, in the above-described form, the IP telephones 1011-1 to 1011-3 are connected from the IP telephones 1011-1 to 1011-3 regardless of whether the external connection devices 1020-1 to 1020-3 are connected. Continue applying a predetermined voltage. Therefore, there is a problem in that useless voltage is applied when the external connection devices 1020-1 to 1020-3 are not connected to the IP telephones 1011-1 to 1011-3.

  An object of the present invention is to provide a telephone that solves the above-described problems and a power feeding method using the telephone.

In order to achieve the above object, the present invention provides:
A telephone that operates using a voltage applied from a power supply device,
A connection port for applying a predetermined voltage to an external device connected to the telephone, based on the applied voltage;
A current detection unit for detecting a current flowing to the external device;
A power supply control unit configured to cut off application of a voltage from the connection port when the current detection unit does not detect the current;

Further, a power feeding method in a telephone that operates using a voltage applied from a power feeding device,
A process of applying a predetermined voltage to an external device connected to the telephone based on the applied voltage;
Processing for detecting a current flowing to the external device;
And a process of cutting off the application of voltage to the external device when the current is not detected.

In addition, a program to be executed by a telephone that operates using a voltage applied from a power supply device,
Applying a predetermined voltage to an external device connected to the telephone based on the applied voltage;
Detecting a current flowing to the external device;
When the current is not detected, a procedure for cutting off the application of voltage to the external device is executed.

  As described above, in the present invention, in the telephone that operates using the voltage applied from the power supply device, based on the applied voltage, a predetermined voltage is applied to the external device connected to the telephone, When the current flowing to the external device is detected and the current is not detected, the application of the voltage to the external device is cut off, so that unnecessary voltage application can be avoided.

  Embodiments of the present invention will be described below with reference to the drawings.

  FIG. 1 is a diagram showing an embodiment of a system to which a telephone according to the present invention is connected.

  As shown in FIG. 1, the present embodiment includes a power supply HUB (hub) 100, IP (Internet Protocol) telephones 110-1 to 110-3, and external connection devices 120-1 to 120-3.

  The power supply HUB 100 is a power supply apparatus that has a plurality of ports 101 and supplies power from the ports 101 to the IP telephones 110-1 to 110-3. The power supply method here is based on the IEEE 802.3af standard, and a predetermined pair of signal lines are included in the signal lines included in the cable connecting the port 101 and the IP telephones 110-1 to 110-3. This is done by applying a voltage of The port 101 can be connected to a LAN (Local Area Network) cable. The power supply HUB 100 can operate according to the IEEE 803.3af standard, and applies a voltage to the IP telephones 110-1 to 110-3 using a pair of paired wires in a LAN cable that transmits and receives data. Is possible.

  IP telephones 110-1 to 110-3 are telephones that are connected to power supply HUB 100 and to which a predetermined voltage is applied (powered) from port 101 of power supply HUB 100. The IP telephones 110-1 to 110-3 are connected to the external connection devices 120-1 to 120-3, respectively, and apply (feed) a predetermined voltage to the external connection devices 120-1 to 120-3. The IP telephones 110-1 to 110-3 can operate according to the IEEE 803.3af standard, and a predetermined voltage is applied from the power supply HUB 100 using a pair of pair wires in a LAN cable that transmits and receives data. Is done. The IP telephones 110-1 to 110-3 apply a predetermined voltage to the external connection devices 120-1 to 120-3 using a pair of pair wires in the LAN cable.

  The external connection devices 120-1 to 120-3 are external devices that operate using voltages applied (supplied) from the IP telephones 110-1 to 110-3, respectively. The external connection devices 120-1 to 120-3 can operate according to the IEEE 803.3af standard, and use a pair of paired wires in a LAN cable for transmitting and receiving data, and use the IP telephones 110-1 to 110-110. −3, a predetermined voltage is applied from each.

  The number of IP telephones 110-1 to 110-3 and the number of externally connected devices 120-1 to 120-3 are not limited to three and may be arbitrary.

  FIG. 2 is a diagram showing an example of an internal configuration of IP telephone 110-1 shown in FIG.

  As shown in FIG. 2, the IP telephone 110-1 shown in FIG. 1 includes a power supply compatible LAN port 200, a LAN transformer 201, an external device connection LAN port 202, a diode bridge 203, a current detection unit 204, A power supply control unit 205 and a power supply circuit 206 are provided.

  The power supply-compatible LAN port 200 is a power supply port to which a cable connecting the power supply HUB 100 and the IP telephone 110-1 is connected. Here, a LAN cable is connected.

  The LAN transformer 201 is a transformer that transforms the voltage applied to the power supply-compatible LAN port 200 to a predetermined voltage applied from the external device connection LAN port 202 to the external connection device 120-1. Here, the predetermined voltage is set in advance according to the operating voltage of the external device 120-1.

  The external device connection LAN port 202 is a connection port to which a cable connecting the IP telephone 110-1 and the external connection device 120-1 is connected. The external device connection LAN port 202 applies the voltage transformed by the LAN transformer 201 to the external connection device 120-1.

  The diode bridge 203 is a bridge circuit including a general diode that rectifies the voltage applied to the power supply-compatible LAN port 200.

  The current detection unit 204 detects (determines) whether or not current is flowing from the external device connection LAN port 202 to the external connection device 120-1. This current detection method may be a general one.

  The power supply control unit 205 controls application of a voltage from the external device connection LAN port 202 to the external connection device 120-1. Specifically, when the current detection unit 204 detects a current (determines that a current is flowing), the voltage application from the external device connection LAN port 202 is continued to the external connection device 120-1. On the other hand, when the current detection unit 204 does not detect current (determines that no current is flowing), the application of voltage from the external device connection LAN port 202 to the external connection device 120-1 is cut off.

  The power supply circuit 206 is a power supply circuit for operating the IP telephone 110-1.

  FIG. 2 shows only the elements related to the present invention among the components of the IP telephone 110-1 shown in FIG. Also, the internal configuration of IP phones 110-2 to 110-3 shown in FIG. 1 is the same as the internal configuration of IP phone 110-1 shown in FIG.

  Below, the electric power feeding method in the form shown in FIG. 1 is demonstrated. Here, a power feeding method in IP telephone 110-1 will be described.

  FIG. 3 is a flowchart for explaining the power feeding method in the embodiment shown in FIGS. 1 and 2. Here, the power supply unit 205 defaults to the “connected” state.

  First, when a predetermined voltage is applied from the power supply HUB 100 to the power supply compatible LAN port 200 (power reception) (step S1), the voltage is transformed to a predetermined voltage by the LAN transformer 201.

  Further, the voltage applied to the power supply compatible LAN port 200 is output to the power supply circuit 206 via the diode bridge 203. IP telephone 110-1 operates using the voltage output to power supply circuit 206.

  Further, the current detection unit 204 determines (detects) whether or not a current is flowing from the external device connection LAN port 202 to the external connection device 120-1 by the voltage transformed by the LAN transformer 201 (step S2). .

  When current is detected by the current detection unit 204 (determined that current is flowing), power supply control is performed in order to continue application of voltage from the external device connection LAN port 202 to the external connection device 120-1. The state of “connected” is maintained in unit 205 (step S3). This “connected” state may be caused by simply providing a connection switch in the power supply control unit 205 and keeping this switch ON. Thereby, application of the voltage from the external device connection LAN port 202 to the external connection device 120-1 is continued.

  On the other hand, when no current is detected by the current detection unit 204 (determined that no current flows), power supply is performed to cut off the application of voltage from the external device connection LAN port 202 to the external connection device 120-1. The control unit 205 enters a “blocking” state (step S4). This “cutoff” state may be caused by simply providing a connection switch in the power supply control unit 205 and turning this switch off. Thereby, the application of voltage from the external device connection LAN port 202 to the external connection device 120-1 is blocked.

  Needless to say, the above-described power supply method in IP telephone 110-1 can also be implemented in IP telephones 110-2 to 110-3.

  Further, the processing of the IP telephones 110-1 to 110-3 described above may be performed by a logic circuit manufactured according to the purpose. Further, a program describing the processing contents as a procedure is recorded on a recording medium readable by IP telephones 110-1 to 110-3, and the program recorded on this recording medium is stored in IP telephones 110-1 to 110-3. It may be read and executed. The recording media readable by the IP telephones 110-1 to 110-3 include transferable recording media such as a floppy disk (registered trademark), a magneto-optical disk, a DVD, and a CD, as well as the IP telephones 110-1 to 110. -3 indicates a memory such as a ROM or a RAM, an HDD, or the like built in. The program recorded on this recording medium is read by a CPU (not shown) in IP telephones 110-1 to 110-3, and the same processing as described above is performed under the control of the CPU. Here, the CPU operates as a computer that executes a program read from a recording medium on which the program is recorded.

  As described above, when the current flowing to the external connection devices 120-1 to 120-3 is not detected, the voltage application to the external device connection LAN port 202 connected to the external connection devices 120-1 to 120-3 is cut off. Thus, it is possible to avoid applying a useless voltage.

It is a figure which shows one Embodiment of the system with which the telephone of this invention was connected. It is a figure which shows an example of an internal structure of the IP telephone shown in FIG. It is a flowchart for demonstrating the electric power feeding method in the form shown in FIG. 1 and FIG. It is a figure which shows an example of the general connection form which supplies electric power using IEEE802.3af. It is a figure which shows an example of the connection form which applied the reduction | restoration countermeasure of the number of ports which electric power feeding HUB uses.

Explanation of symbols

100 Power supply HUB
DESCRIPTION OF SYMBOLS 101 Port 110-1-110-3 IP telephone 120-1-120-3 External connection apparatus 200 Power supply corresponding | compatible LAN port 201 LAN transformer 202 External apparatus connection LAN port 203 Diode bridge 204 Current detection part 205 Power supply control part 206 Power supply circuit

Claims (9)

A telephone that operates using a voltage applied from a power supply device,
A connection port for applying a predetermined voltage to an external device connected to the telephone, based on the applied voltage;
A current detection unit for detecting a current flowing to the external device;
And a power supply control unit configured to block application of a voltage from the connection port when the current detection unit does not detect the current. The telephone set according to claim 1, wherein
A telephone having a transformer for transforming a voltage applied from the power feeding device to a voltage to be applied to the external device. The telephone set according to claim 1 or 2,
The telephone, wherein the connection port applies the voltage to the external device using a pair of signal lines in the connection port. The telephone set according to claim 3,
A power supply port to which the voltage is applied from the power supply device;
The telephone, wherein the power supply port is a port connectable to a LAN (Local Area Network). The telephone set according to claim 4,
The telephone is characterized in that the connection port is a port connectable to a LAN. The telephone set according to claim 4 or claim 5,
A telephone set that operates in accordance with the IEEE 803.3af standard. The telephone set according to any one of claims 1 to 6,
A telephone set characterized by being an IP (Internet Protocol) telephone set. A power supply method in a telephone that operates using a voltage applied from a power supply device,
A process of applying a predetermined voltage to an external device connected to the telephone based on the applied voltage;
Processing for detecting a current flowing to the external device;
And a process of cutting off the application of voltage to the external device when the current is not detected. To a telephone that operates using a voltage applied from a power supply device,
Applying a predetermined voltage to an external device connected to the telephone based on the applied voltage;
Detecting a current flowing to the external device;
A program for executing a procedure for cutting off the application of voltage to the external device when the current is not detected.

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