JP3673754B2 - Network connection device, its termination device and line concentrator - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a network connection device for connecting a terminal device to a network such as a LAN, and more particularly to a network connection device in which a terminal device (MC single device) and a line concentrator (MC aggregation device) are optically connected. .
[0002]
[Prior art]
A network connection device for connecting a terminal device to a network that provides a bandwidth sharing service is connected to a terminal device that can be connected to the terminal device and a higher-level line (network), and multiple terminal devices can be connected. Concentrating device.
[0003]
The termination device is, for example, an MC (Media Converter) single device connected to the terminal device by a method compliant with 100 Mbit-Ether (standard) and connected to the concentrator by an optical connection method.
[0004]
The line concentrator is, for example, an MC concentrator connected to a plurality of terminal devices by an optical connection method and connected to a network (or a host device) by a method compliant with Gbit-Ether (standard).
[0005]
When a link is established between a terminal device and a terminal device, a conventional network connection device sends an upstream signal transmitted from the terminal device to the network and transmits a downstream signal from the network to the terminal device. To do. When the link between the terminal device and the termination device is not established, the termination device transmits a link down signal to the line concentrator.
[0006]
[Problems to be solved by the invention]
In this type of network connection device, the connection between the termination device and the line concentrator is always in a connected state. The uplink path is used for transmission of a link down signal even when the terminal device is turned off. However, the downlink path is never used when the terminal device is turned off.
[0007]
By the way, in the bandwidth sharing service, the quality of the service varies depending on the number of terminal devices connected to the network. That is, as the number of terminal devices connected to the network increases, the communication speed decreases and the quality of service decreases. Therefore, the user has a request to know the usage status (congestion level) of the band before actually using the network. Nevertheless, the conventional network connection apparatus has a problem that such information cannot be provided.
[0008]
Moreover, the conventional termination | terminus apparatus is comprised with the firmware or contains PLD (Programmable Logic Device). Therefore, there is a case where the program data needs to be upgraded in order to correct a defect found in the terminal device or to further improve the performance. In such a case, the conventional terminal device has a problem that an operator has to go to a place where each terminal device is installed or the user himself / herself has to do so, which requires time and effort. In particular, if the user himself has to do this, he / she may not be able to correct a problem such as failure in the middle of version upgrade or no execution at all.
[0009]
Therefore, an object of the present invention is to provide a method for effectively using a downlink that is not used at all when a terminal device is off.
[0010]
Specifically, an object of the present invention is to provide a network connection device that can grasp a network congestion state in a state where a link between a terminal device and a termination device is not established.
[0011]
It is another object of the present invention to provide a network connection device that can upgrade program data used in a terminal device from an end device.
[0012]
[Means for Solving the Problems]
According to the present invention, in a network connection device comprising: a terminal device connectable to a terminal device; and a line concentrator that can be connected to an upper line and can connect a plurality of the terminal devices; When a link between the terminating devices is not established, a predetermined signal is sent from the concentrator to the terminating device. Send A network connection device characterized by the above is obtained.
[0013]
More specifically, in the present invention, the termination device includes a first input / output terminal connectable to the terminal device, a second input / output terminal connectable to the line concentrator, and the first input / output terminal. When connected to an output terminal and connected to the link detection circuit for detecting the establishment of the link, the second input / output terminal and the link detection circuit, and the link detection circuit does not detect the establishment of the link And a link down sending circuit for outputting a link down signal to the second input / output terminal, a signal processing circuit for processing the predetermined signal, and the link detection circuit, and the first input / output terminal. The second input / output terminal is connected to the second input / output terminal and the signal processing circuit, and when the link detection circuit detects the establishment of the link, the second input / output terminal is connected to the first input / output terminal. The link detection circuit A first switching circuit for selectively connecting the second input / output terminal to the signal processing circuit when the establishment of the link is not detected, and the line concentrator is connected to the termination device A plurality of connectable third input / output terminals, a fourth input / output terminal connectable to the upper line, and the fourth input / output terminals connected to and input to the plurality of third input / output terminals. A multiplexing circuit that multiplexes the transmitted signals to the fourth input / output terminal, a signal generation circuit that generates the predetermined signal, and a plurality of third input / output terminals, respectively, A plurality of link-down detection circuits for detecting a link-down signal from the apparatus; and the link-down detection circuit connected to the link-down detection circuit, the plurality of third input / output terminals, the multiplexing circuit, and the signal generation circuit. The link down signal The third input terminal connected to the link down detection circuit to the signal generation circuit, and when the link down detection circuit does not detect the link down signal, the link down A second switching circuit for connecting the third input terminal connected to the detection circuit to the multiplexing circuit, and when a link is established between the terminal device and the termination device Forming a signal path connecting the first input / output terminal and the fourth input / output terminal, and when a link is not established between the terminal device and the termination device, Signal path between the signal processing circuit Form It is characterized by doing so.
[0014]
According to the present invention, since the terminal device is connected to the line concentrator connected to the upper line, the terminal device connected between the line concentrator and the terminal device can be connected to the terminal device. 1 input / output terminal, a second input / output terminal connectable to the line concentrator, a link detection circuit connected to the first input / output terminal and detecting establishment of a link with the terminal device, A link-down sending circuit that is connected to a second input / output terminal and the link detection circuit and outputs a link-down signal to the second input / output terminal when the link detection circuit does not detect the establishment of the link And a signal processing circuit for processing a predetermined signal transmitted from the line concentrator, and the first input / output terminal, the second input / output terminal, and the signal processing circuit connected to the link detection circuit In When the link detection circuit detects the establishment of the link, the second input / output terminal is changed to the first input / output terminal, and the link detection circuit detects the establishment of the link. If not, a termination device is provided that includes a switching circuit that selectively connects the second input / output terminal to the signal processing circuit.
[0015]
Furthermore, according to the present invention, in a line concentrator that can be connected to a higher-level line and that can connect a plurality of terminating devices to which terminal devices are connected, a plurality of first inputs that can be connected to the terminating device. An output terminal; a second input / output terminal connectable to the upper line; and a second input / output terminal connected to the second input / output terminal for multiplexing the signals input to the plurality of first input / output terminals. A multiplexing circuit for sending to two input / output terminals, a signal generating circuit for generating a predetermined signal, and a plurality of terminals connected to the plurality of first input / output terminals for detecting a link down signal from the terminal device Link-down detection circuit, the link-down detection circuit, the plurality of first input / output terminals, the multiplexing circuit, and the signal generation circuit, and the link-down detection circuit detects the link-down signal when, The first input terminal connected to the link down detection circuit is connected to the signal generation circuit, and when the link down detection circuit does not detect the link down signal, the first input terminal is connected to the link down detection circuit. And a switching circuit for connecting the first input terminal to the multiplexing circuit.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0017]
FIG. 1 shows a network connection apparatus according to the first embodiment of the present invention. The network connection device of FIG. 1 is a device for connecting the terminal device 10 to a network (not shown), and is an MC (Media Convetor) single device 20 as a termination device and an MC aggregation device 30 as a line concentrator. Including. In FIG. 1, the connection lines between the circuits show only the main signal path, and the signal lines related to control are omitted.
[0018]
The terminal device 10 is an information processing device such as a personal computer.
[0019]
The MC single device 20 is a device connected to the terminal device 10 on a one-to-one basis. The MC unit 20 includes input / output terminals A and B, a link detection circuit 21, a main signal path switching circuit 22, a link down signal transmission circuit 23 and an MC circuit 24 connected therebetween, and a main signal. A pattern detection circuit 25 connected to the path switching circuit 22 and a display circuit 26 connected to the pattern detection circuit 25 are provided.
[0020]
The input / output terminal A is a terminal that can be connected to the terminal line 40 connected to the terminal device 10 and conforms to, for example, 100 Mbit-Ether. The input / output terminal B is a terminal to which an optical line 50 that can be connected to the concentrator 30 can be connected.
[0021]
The link detection circuit 21 is connected to the input / output terminal A, controls link establishment / disconnection with the terminal device 10, and constantly monitors link establishment and outputs a detection signal indicating link establishment.
[0022]
The main signal path switching circuit 22 is connected to the link detection circuit 21, the link down signal transmission circuit 23, and the pattern detection circuit 25. The main signal path switching circuit 22 forms a main signal path between the link detection circuit 21 and the link down signal transmission circuit 23 when receiving a detection signal indicating link establishment from the link detection circuit 21. At this time, a main signal path is not formed between the link down signal transmission circuit 23 and the pattern detection circuit 25. On the other hand, the main signal path switching circuit 22 forms a main signal path between the link down signal transmission circuit 23 and the pattern detection circuit 25 when no detection signal is received from the link detection circuit 21. At this time, a main signal path is not formed between the link detection circuit 21 and the link down signal transmission circuit 23. Thus, the main signal path switching circuit 22 selectively switches and connects either the link detection circuit 21 or the pattern detection circuit 25 to the link down signal transmission circuit 23 in order to form the main signal path.
[0023]
The link down signal transmission circuit 23 is connected to the main signal path switching circuit 22 and the MC circuit 24. The link-down signal transmission circuit 23 receives a detection signal from the link detection circuit 21 via the main signal path switching circuit 22 (via a detection signal path (not shown)). The main signal is transmitted to the MC circuit 24, and the main signal from the MC circuit 24 is transmitted to the main signal path switching circuit 22. When the detection signal from the link detection circuit 21 cannot be received, a link down signal is output to the MC circuit 24.
[0024]
The MC circuit 24 converts the main signal or the link down signal from the link down signal transmission circuit 23 into an electric signal and an optical signal, and transmits the signal from the input / output terminal B to the MC aggregation device 30. The MC circuit 24 performs optical / electrical conversion on the optical signal transmitted from the MC aggregation device 30 and input to the input / output terminal B, and outputs the converted signal to the link-down signal transmission circuit 23.
[0025]
The pattern detection circuit 16 is a signal processing circuit that monitors a main signal sent from the MC aggregation device 30 and detects a predetermined pattern signal. The pattern detection circuit 16 outputs a predetermined signal to the display circuit 26 according to the detected pattern signal.
[0026]
Although the display circuit 26 may be a display panel or the like, a plurality of light emitting elements having different colors can be used here. The display circuit 26 emits light of a color corresponding to the signal output from the pattern detection circuit 16 and transmits specific information described later to the user.
[0027]
On the other hand, the MC aggregation device 30 is a device for connecting a plurality of terminal devices 10 to a network (or a host device). The MC aggregation device 30 is connected to a plurality of input / output terminals C and a single input / output terminal D, a multiplexing / demultiplexing switch circuit 31 connected to the input / output terminal D, and a plurality of input / output terminals C, respectively. A plurality of MC circuits 32; a link down signal detection circuit 33 connected to each MC 32; a main signal path switching circuit 34 connected to all link down signal detection circuits 35; and a pattern signal transmission circuit 35. Yes.
[0028]
The input / output terminal group C is a terminal that can be connected to the optical line 50 connected to the single MC device 20. The input / output terminal D is a terminal that can be connected to the upper line 60 connected to the network, for example, based on Gbit-Ether.
[0029]
The multiplexing / separating switch circuit 31 multiplexes the main signals from the plurality of MC single devices 20 and sends them to the upper line 60 via the input / output terminal D. Further, the main signal input to the input / output terminal D via the upper line 60 is separated. Further, the multiplexing / demultiplexing switch circuit 31 monitors the main signal from the main signal switching circuit 34 in order to know the band usage status (congestion status) of the upper line 60. The multiplexing / demultiplexing switch circuit 31 generates performance information corresponding to the output status of the main signal from the main signal switching circuit, and the pattern is transmitted via the main signal path switching circuit 34 (through a performance information path (not shown)). Output to the signal transmission circuit 35.
[0030]
Each of the MC circuits 32 performs optical / electrical conversion of the optical signal supplied from each MC unit 20 to the input / output terminal C to which the MC circuit 32 is connected, and outputs the same to the link down signal detection circuit 33 to which the MC circuit 32 is connected. . In addition, each MC circuit 32 converts the main signal from the link down signal detection circuit 33 to which the MC circuit 32 is connected or a pattern signal to be described later from the input / output terminal C to the MC unit device 20 to which the MC signal 32 is connected. Output to.
[0031]
The link down signal detection circuit 33 transmits the main signal from the MC circuit 32 to the main signal path switching circuit 34 and transmits the main signal from the main signal path switching circuit 34 to the MC circuit 32. Further, the link down signal detection circuit 33 monitors the link down signal from the MC circuit 32 and, when detecting the link down signal, notifies the main signal path switching circuit 34 (via a sync down signal path (not shown)).
[0032]
The main signal path switching circuit 34 forms a main signal path with the multiplexing / demultiplexing switch circuit 31 for all the link down signal detection circuits 33 that do not output the link down signal detection signal. The main signal path switching circuit 34 forms a main signal path with the pattern signal transmission circuit 35 for all link down signal detection circuits 33 that output the link down signal detection signal. That is, the main signal path switching circuit 34 selectively connects the multiplex / separation switch circuit 31 or the pattern signal transmission circuit 35 to the plurality of link down signal detection circuits 33 individually.
[0033]
Based on the performance information from the multiplexing / demultiplexing switch circuit 31, the pattern signal transmission circuit 35 continuously outputs a predetermined pattern signal indicating the band usage status (input status from the link-down signal detection circuit 33) of the upper line 60. Occur.
[0034]
Next, the operation of the network connection device of FIG. 1 will be described. In the following description, only the operation of the portion related to one illustrated information terminal will be described.
[0035]
First, a case will be described in which a link is established between the terminal device 10 and the single MC device 20 connected to each other via the terminal line 40, and data communication between them is possible.
[0036]
In this case, the link detection circuit 21 of the single MC device 20 detects link establishment, and a link establishment detection signal indicating this is supplied to the main signal path switching circuit 22 and the link down signal transmission circuit 23.
[0037]
The main signal path switching circuit 22 forms a main signal path between the link detection circuit 21 and the link down signal transmission circuit 23 circuit while receiving the link establishment detection signal. Further, the link down signal transmission circuit 23 mediates the exchange of signals between the main signal path switching circuit 22 and the MC circuit 24 while receiving the link establishment detection signal, and does not transmit the link down signal. .
[0038]
As a result, in the MC single device, the electrical data signal from the terminal device 10 is supplied to the MC circuit 24 via the link detection circuit 21, the main signal path switching circuit 22, and the link down signal transmission circuit 23.
[0039]
The MC circuit 24 converts the electrical data signal from the link down signal transmission circuit 23 into an optical data signal (media conversion), and transmits the optical data signal from the input / output terminal B to the optical line 50 toward the MC aggregation device 30.
[0040]
In the MC aggregation device 30, the optical data signal input to the input / output terminal C is supplied to the MC circuit 32. The MC circuit 32 converts the optical data signal from the input / output terminal C into an electrical data signal and outputs the electrical data signal to the link down signal detection circuit 33.
[0041]
Since the electrical data signal from the MC circuit 32 is not a link down signal, the link down signal detection circuit 33 outputs the input electrical data signal as it is to the main signal path switching circuit 34 without outputting the link down signal. .
[0042]
Since the main signal path switching circuit 34 does not receive the link down detection signal from the link down signal detection circuit 33 (referred to as an RLDN (Remote Link DowN) state), the electrical data signal from the link down signal detection circuit 33 is This is supplied to the multiplexing / demultiplexing switch circuit 31.
[0043]
The multiplexing / separating switch circuit 31 sends the electrical data signal from the main signal path switching circuit 34 to the upper line 60 from the input / output terminal D. At this time, when electrical data signals are supplied from the plurality of link-down signal detection circuits 33 to the multiplexing / demultiplexing switch circuit 31 via the main signal path switching circuit 34, these are used to share the bandwidth of the upper line. Are multiplexed (switching process) and output to the upper line 60. The multiplexing / demultiplexing switch circuit 31 monitors the output status of the electrical data signal from the main signal path switching circuit 34 and notifies the pattern signal transmission circuit 35 of the performance information.
[0044]
The multiplexed signal input to the input / output terminal D via the upper line 60 is separated by the multiplexing / demultiplexing switch circuit, and is sent to the terminal device 10 along the path opposite to the path of the main signal described above. .
[0045]
As described above, when a link is established between the terminal device 10 and the single MC device 20, the data signal transmitted from the terminal device is transmitted to the network connected to the upper line 60. In this case, the single device 10 can receive a data signal from the network.
[0046]
Next, the power of the terminal device 10 is turned off or the terminal line 40 is disconnected from the input / output terminal A, and the link between the terminal device 10 and the single MC device 20 becomes unestablished. A case where data communication in the network becomes impossible will be described.
[0047]
In this case, the link detection circuit 21 detects link non-establishment and notifies the main signal path switching circuit 22 and the link down signal transmission circuit 23.
[0048]
When the main signal path switching circuit 22 receives the link non-establishment detection notification from the link detection circuit 21, the main signal path switching circuit 22 changes the main signal path formed between the link detection circuit 21 and the link down signal transmission circuit 23 to the link down signal. The main signal path between the sending circuit 23 and the pattern detection circuit 25 is switched. When the link down signal transmission circuit 23 receives the link non-establishment detection notification, the link down signal transmission circuit 23 generates a link down signal and outputs it to the MC circuit 24 as a main signal.
[0049]
The MC circuit 24 converts the link down signal from the link down signal transmission circuit 23 into an optical link down signal, and transmits the optical link down signal from the input / output terminal B to the MC aggregation device via the optical line 50.
[0050]
In the MC aggregation device 30, the MC circuit 32 performs optical / electrical conversion on the optical link-down signal and outputs it to the link-down signal detection circuit 33.
[0051]
When the link-down signal detection circuit 33 detects that the signal from the MC circuit 32 is a link-down signal, the link-down signal detection circuit 33 notifies the main signal path switching circuit 34 (through a path (not shown) different from the main signal path).
[0052]
When the main signal path switching circuit 34 receives the link down signal from the link down signal detection circuit 33, the main signal path switching circuit 34 links the main signal path formed between the link down signal detection circuit 33 and the multiplexing / demultiplexing switch circuit 31 to link down. The main signal path between the signal detection circuit 33 and the pattern signal transmission circuit 35 is switched.
[0053]
The pattern signal transmission circuit 35 generates a pattern signal indicating the use status of the bandwidth of the upper line 60 based on the performance information from the multiplexing / demultiplexing switch circuit 31. For example, when the band usage status of the upper line 60 is represented in three stages of hard / busy / ready, one of the patterns representing these is selectively output. Note that the pattern signal transmission circuit 35 always generates a pattern signal (repeated at a predetermined cycle) regardless of the switching state of the main signal path switching circuit 34.
[0054]
The pattern signal output from the pattern signal transmission circuit 35 is linked down when the main signal path switching circuit 34 forms a main signal path between the pattern signal transmission circuit 35 and the link down signal detection circuit 33. The signal is transmitted to the input / output terminal C via the signal detection circuit 33 and the MC circuit 32, and then transmitted to the MC unit 10 from there.
[0055]
In the MC unit 20, the main signal path switching circuit 22 forms a main signal path between the link-down sending circuit 23 and the pattern detection circuit 25, so that the pattern signal from the MC aggregation apparatus 30 is the MC circuit. 24, and supplied to the pattern detection circuit 25 via the link down signal transmission circuit 23 and the main signal path switching circuit 22.
[0056]
The pattern detection circuit 25 identifies the input pattern signal and outputs a signal corresponding to the type to the display circuit 26. As a result, the display circuit 26 displays, for example, red when the usage status of the upper line 60 is hardware, yellow when it is busy, and blue when it is ready.
[0057]
As described above, when the link is not established between the terminal device 10 and the MC single device, the pattern signal from the pattern signal transmission circuit is supplied to the MC single device 20. Then, the user can know the band usage status of the upper line 60 from the display content of the display circuit 26.
[0058]
Thereafter, when the information terminal 20 is turned on, or the terminal line 40 is connected to the input / output terminal A, and there is a request for starting data communication from the information terminal 20, the communication between the information terminal 10 and the link detection circuit 21 is performed. Then, the link is established, and the link detection circuit 21 outputs a link establishment detection signal again. As a result, the main signal path switching circuit 22 returns the main signal path to a path connecting the link detection circuit 21 and the link down signal transmission circuit 23. The link down signal transmission circuit 23 stops the transmission of the link down signal. Further, in the MC aggregation device 30, the recovery of the RLDN is detected because the link down signal cannot be received, and the main signal path switching circuit 34 uses the link down signal detection circuit 33 and the multiplexing / division switch circuit as the main signal path. 31 is returned to the path connecting. In this way, when the power of the single device 10 is turned on or connected to the MC single device, the single device 10 and the network are quickly returned to the state where they are connected to each other, enabling mutual communication.
[0059]
Next, a network connection apparatus according to the second embodiment of the present invention will be described in detail with reference to FIG. Here, the same components as those of the network connection device according to the first embodiment are denoted by the same reference numerals, and the description thereof is omitted.
[0060]
The MC aggregation device 30 of the network connection device of FIG. 2 has an upgrade data transmission circuit 36 connected to the pattern signal transmission circuit 35 in addition to the configuration of FIG. The upgrade data transmission circuit 36 and the pattern signal transmission circuit 35 constitute a signal generation circuit that generates a predetermined signal. The upgrade data transmission circuit 36 outputs data for upgrading a firmware program that constitutes a part of the MC unit 10 or data for upgrading a PLD program. The upgrade data transmission circuit 36 transmits the upgrade data according to a protocol for reliably transmitting the upgrade data to an upgrade processing circuit to be described later.
[0061]
2 has a version upgrade processing circuit 27 connected to the pattern detection circuit 25 in addition to the configuration of FIG. The upgrade processing circuit 27 forms a signal processing circuit together with the pattern detection circuit 26, and receives the upgrade data according to a protocol for reliably receiving the upgrade data sent from the MC aggregation device 30. The upgrade processing circuit 27 rewrites the firmware or PLD program that constitutes a part of the single MC device 20 using the received upgrade data.
[0062]
Next, the operation of the network connection device of FIG. 2 will be described.
[0063]
When the link detection device 21 detects the establishment of a link between the terminal device 10 and the MC single device 20, this network connection device is the same as the network connection device according to the first embodiment described above. To work.
[0064]
When the terminal device 10 is powered off or the terminal device 10 is disconnected from the input / output terminal and the link between the terminal device 10 and the MC single device 20 is not established, the upgrade data transmission circuit 36, the pattern signal Except for the operations of the sending circuit 35, the pattern detection circuit 25, and the upgrade processing circuit 27, this network connection device operates in the same manner as the network connection device according to the first embodiment described above. In the network device according to the present embodiment, the multiplexing / demultiplexing switch circuit 31 does not need to output performance information.
[0065]
Hereinafter, operations of the upgrade data transmission circuit 36, the pattern signal transmission circuit 35, the pattern detection circuit 25, and the upgrade processing circuit 27 in a state where the link between the terminal device 10 and the MC unit 20 is not established will be described.
[0066]
First, the pattern signal transmission circuit 35 outputs a specific pattern signal for notifying the start of version upgrade in accordance with an instruction from the network administrator. This specific pattern signal includes version information. Subsequently, the pattern signal transmission circuit 35 forms a main signal path between the upgrade data transmission circuit 36 and the main signal path switching circuit 34.
[0067]
The upgrade data transmission circuit 36 is normally waiting to receive an upgrade preparation completion signal from the MC device 20, and does nothing until the upgrade data reception preparation completion signal is received.
[0068]
When the pattern detection circuit 25 receives the specific pattern signal output from the pattern signal transmission circuit 35, the pattern detection circuit 25 notifies the version upgrade processing circuit 27 of version information included in the specific pattern. The pattern detection circuit 25 forms a main signal path between the upgrade processing circuit 27 and the main signal path switching circuit 22.
[0069]
When the received version information is newer than the version of the program or the like used in the current MC single device, the upgrade processing circuit 27 outputs an upgrade data reception preparation completion signal as a main signal. In addition, the upgrade processing circuit 27 shifts to the upgrade data reception standby state and notifies the pattern detection circuit 25 of this. If the received version information is the same as the version of the program or the like used in the current MC unit, the upgrade processing circuit 27 does nothing.
[0070]
When the pattern detection circuit 25 is notified by the upgrade processing circuit 27 that the upgrade data reception standby state has been entered, for example, the red light emitting element of the display circuit 26 is turned on, and the version upgrade of the MC unit is executed by the user. Let them know.
[0071]
The upgrade data reception preparation completion signal output from the upgrade processing circuit 27 is sent to the MC aggregation device 30 via the pattern detection circuit 25, the main signal path switching circuit 22, the link down signal transmission circuit 23, and the MC circuit 24. Sent out. At this time, the link-down signal transmission circuit 23 performs transmission so that the upgrade data reception preparation completion signal is positioned between the link-down signal to be continuously transmitted and the next ring-down signal.
[0072]
When the link down signal detection circuit 33 of the MC aggregation device 30 detects the link down signal and receives a signal other than the link down signal (here, the upgrade data reception preparation completion signal), the signal is used as the main signal. Output to the path switching circuit 34. The upgrade data preparation completion signal output as the main signal to the main signal path switching circuit 34 is supplied to the upgrade data transmission circuit 36 via the pattern signal transmission circuit 35.
[0073]
The upgrade data transmission circuit 36 that has received the upgrade data reception preparation completion signal from the MC unit 20 starts transmission of upgrade data according to a predetermined protocol. Here, the upgrade data reception preparation completion signal from the MC single device 20 includes information for specifying the MC single device 20 that has output the signal, and the upgrade data is included in the specified MC terminal 20. The predetermined protocol is defined so that it is received only in the network.
[0074]
The upgrade processing circuit 27 of the single MC device 10 receives the upgrade data from the MC aggregation device 30 according to a predetermined protocol, confirms that all the data has been received, and then sends an upgrade data reception completion signal to the MC aggregation device. Output to 30.
[0075]
Similar to the upgrade data reception preparation completion signal, the upgrade data reception completion signal is inserted between the link down signals and sent to the MC aggregation device 30, and from the link down signal detection circuit 33 to the main signal path switching circuit 34. The data is output and supplied to the upgrade data transmission circuit 36 via the pattern signal transmission circuit 35.
[0076]
When receiving the upgrade data reception completion signal, the upgrade data transmission circuit 36 notifies the pattern detection circuit 25 of the reception.
[0077]
Further, after outputting the upgrade data reception completion signal, the upgrade processing circuit 27 updates (upgrades) the firmware of the single MC device 10 or the PLD program using the received upgrade data. After completing the upgrade, the upgrade processing circuit 27 notifies the pattern detection circuit 25 of the end of the process.
[0078]
The upgrade process end signal is also inserted between the link-down signals and sent to the MC aggregation device 30 in the same manner as the upgrade data reception preparation completion signal and the upgrade data reception completion signal. Then, the upgrade process end signal is output from the link down signal detection circuit 33 to the main signal path switching circuit 34 and sent to the pattern signal transmission circuit 35.
[0079]
In addition, the pattern detection circuit 25 stops the red display on the display circuit 26 in response to the notification of the end of the upgrade process.
[0080]
The pattern signal transmission circuit 35 receives the notification that the upgrade reception completion signal has been received from the upgrade data transmission circuit 36 and receives the notification of the completion of the upgrade process from the MC terminal device 20. The main signal path to the main signal path switching circuit 34 is disconnected. In addition, when there is no notification that the upgrade reception completion signal has been received from the upgrade data transmission circuit 36 even when the predetermined time has elapsed, or when there is no notification of the completion of the upgrade process from the MC terminal device 20, Even when it is determined that the upgrade process could not be completed normally due to the cause, the main signal path between the upgrade data transmission circuit 36 and the main signal path switching circuit 34 is disconnected. If it is determined that the upgrade process could not be completed normally, a specific pattern signal for notifying the MC of the upgrade process is further transmitted to the MC unit 20.
[0081]
In the MC single unit device 20 that has received the specific pattern signal informing the stop of the upgrade process, the pattern detection circuit 25 detects the specific pattern and requests the upgrade process circuit 27 to stop the process. The pattern detection circuit 25 disconnects the main signal path between the upgrade processing circuit 27 and the main signal path switching circuit 22.
[0082]
In response to the processing stop request from the pattern detection circuit 25, the upgrade processing circuit 27 returns the firmware of the MC single device 20 and the PDL program to the state before starting the upgrade processing, and discards the received upgrade data. .
[0083]
As described above, according to the network connection device according to the present embodiment, the version upgrade of the program used for the single MC device 10 can be performed from the MC aggregation device side without requiring the work of a user or a dispatched worker. Can be implemented remotely.
[0084]
In the above-described embodiment, the case where the upgrade data is individually transmitted to a plurality of MC single devices has been described. However, it is also possible to collectively transmit the upgrade data to the plurality of MC single devices.
[0085]
【The invention's effect】
The first effect of the present invention is that the optical line between the terminal device and the line concentrator that are always connected can be effectively used even when the link is not established between the terminal device and the terminal device. .
[0086]
The reason is that the main signal path is used for information transmission for notifying the state of the network or the concentrator.
[0087]
The second effect of the present invention is that the user can grasp the network performance such as the bandwidth usage rate of the upper line before turning on the power of the terminal device or before connecting to the terminal device.
[0088]
The reason is that the performance information is generated in the line concentrator and is sent to the terminating device for which no link is established with the terminal device.
[0089]
Furthermore, the third effect of the present invention is that a plurality of terminal devices can be remotely operated from a line concentrator without depending on human hands.
[0090]
This is because information for executing a specific operation can be transmitted from the line concentrator to a plurality of terminal devices.
[Brief description of the drawings]
FIG. 1 is a block diagram of a network connection apparatus according to a first embodiment of the present invention.
FIG. 2 is a block diagram of a network connection apparatus according to a second embodiment of the present invention.
[Explanation of symbols]
10 Terminal device
20 MC single unit
21 Link detection circuit
22 Main signal path switching circuit
23 Link-down signal transmission circuit
24 MC circuit
25 Pattern detection circuit
26 Display circuit
27 Upgrade processing circuit
30 MC assembly device
31 Multiplexing / separating circuit
32 MC circuit
33 Link-down signal detection circuit
34 Main signal path switching circuit
35 Pattern signal transmission circuit
36 Version update data transmission circuit
40 Terminal line
50 Optical line
60 Host line

Claims (9)

In a network connection device comprising a termination device connectable to a terminal device, and a line concentrator capable of being connected to an upper line and capable of connecting a plurality of the termination devices,
A network connection device, wherein a predetermined signal is transmitted from the line concentrator to the terminal device when a link between the terminal device and the terminal device is not established. 2. The network connection apparatus according to claim 1, wherein the predetermined signal is a signal indicating a usage status of the upper line. 2. The network connection device according to claim 1, wherein the predetermined signal is a signal for upgrading a program that defines an operation of the termination device. The termination device is
A first input / output terminal connectable to the terminal device;
A second input / output terminal connectable to the line concentrator;
A link detection circuit connected to the first input / output terminal for detecting establishment of the link;
Link-down transmission connected to the second input / output terminal and the link detection circuit and outputting a link-down signal to the second input / output terminal when the link detection circuit does not detect the establishment of the link Circuit,
A signal processing circuit for processing the predetermined signal;
When connected to the link detection circuit and connected to the first input / output terminal, the second input / output terminal, and the signal processing circuit, and the link detection circuit detects the establishment of the link The second input / output terminal is selected as the first input / output terminal, and when the link detection circuit does not detect the establishment of the link, the second input / output terminal is selected as the signal processing circuit. A first switching circuit that is connected electrically,
The concentrator is
A plurality of third input / output terminals connectable to the termination device;
A fourth input / output terminal connectable to the upper line;
A multiplexing circuit that is connected to the fourth input / output terminal, multiplexes signals input to the plurality of third input / output terminals, and sends the multiplexed signal to the fourth input / output terminal;
A signal generation circuit for generating the predetermined signal;
A plurality of link-down detection circuits connected to the plurality of third input / output terminals, respectively, for detecting a link-down signal from the termination device;
When the link down detection circuit detects the link down signal, the link down detection circuit is connected to the link down detection circuit, the plurality of third input / output terminals, the multiplexing circuit and the signal generation circuit. The third input terminal connected to the circuit is connected to the signal generation circuit, and when the link down detection circuit does not detect the link down signal, the third input terminal connected to the link down detection circuit is connected. And a second switching circuit for connecting the input terminal to the multiplexing circuit,
When a link is established between the terminal device and the termination device, a signal path connecting the first input / output terminal and the fourth input / output terminal is formed, and the terminal device and the termination are 4. A signal path is formed between the signal generation circuit and the signal processing circuit when a link is not established with a device. The network connection device described. The termination device further includes an electrical / optical conversion circuit connected to the second terminal, and the concentrator further includes a plurality of electrical / optical conversion circuits connected to the plurality of third terminals, respectively. the a network connection apparatus according to claim 4, between the line concentrators and the terminating device is characterized in that connected in the optical path. In order to connect the terminal device to the concentrator connected to the upper line, in the termination device connected and arranged between the concentrator and the terminal device,
A first input / output terminal connectable to the terminal device;
A second input / output terminal connectable to the line concentrator;
A link detection circuit connected to the first input / output terminal for detecting establishment of a link with the terminal device;
Link-down transmission connected to the second input / output terminal and the link detection circuit and outputting a link-down signal to the second input / output terminal when the link detection circuit does not detect the establishment of the link Circuit,
A signal processing circuit for processing a predetermined signal transmitted from the line concentrator;
When connected to the link detection circuit and connected to the first input / output terminal, the second input / output terminal, and the signal processing circuit, and the link detection circuit detects the establishment of the link The second input / output terminal is selected as the first input / output terminal, and when the link detection circuit does not detect the establishment of the link, the second input / output terminal is selected as the signal processing circuit. A switching circuit to be connected
A termination device comprising: The termination device according to claim 6, further comprising an electrical / optical conversion circuit connected to the second terminal, wherein the termination device is connected to the concentrator by an optical line. In a line concentrator that can be connected to an upper line and that can connect a plurality of termination devices to which terminal devices are connected,
A plurality of first input / output terminals connectable to the termination device;
A second input / output terminal connectable to the upper line;
A multiplexing circuit that is connected to the second input / output terminal, multiplexes signals input to the plurality of first input / output terminals, and sends the multiplexed signal to the second input / output terminal;
A signal generation circuit for generating a predetermined signal;
A plurality of link-down detection circuits connected to the plurality of first input / output terminals, respectively, for detecting a link-down signal from the termination device;
When the link down detection circuit detects the link down signal, the link down detection circuit is connected to the link down detection circuit, the plurality of first input / output terminals, the multiplexing circuit and the signal generation circuit. The first input terminal connected to a circuit is connected to the signal generation circuit, and when the link-down detection circuit does not detect the link-down signal, the first input terminal connected to the link-down detection circuit A switching circuit for connecting the input terminal to the multiplexing circuit;
A concentrator characterized by comprising. Concentrator of claim 8, wherein the first further comprising the connected electrical / optical conversion circuit to the terminal, and connects between the terminating device in the optical line.

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