JP3709924B2 - ISDN terminal equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a communication terminal device, and more particularly to an ISDN (Integrated Service Digital Network) terminal device connected between an ISDN line and a host device.
[0002]
[Prior art]
With the development of digital information processing devices such as computers, most communication is occupied by data communication between digital devices instead of conventional analog voice communication. An ISDN terminal device has been proposed and put into practical use in order to perform communication using a public line at home or office more efficiently.
[0003]
In ISDN, communication is performed via a D channel that carries signaling information for control between a user and a network and a B channel that carries user information. This communication is performed via a D channel and a B channel by connecting a network and a communication terminal such as a personal computer as a host device or a telephone as an analog terminal via terminals including DSU and TA.
[0004]
In such an ISDN, when a line disconnection request is received from a communication terminal, a line disconnection process is executed. Various proposals for efficiently connecting and disconnecting an ISDN network and a communication terminal have been made.
[0005]
For example, in Japanese Patent Laid-Open No. 5-199325, when a line disconnection of a communication means connected to an ISDN network is detected, a connection is made when the line is reconnected within a time set by a monitoring timer. A communication apparatus for setting a line to a communication destination is disclosed.
[0006]
Japanese Patent Application Laid-Open No. 5-276262 discloses that after the first predetermined time has elapsed since the interruption of data transfer, the currently connected telephone number is stored, the line is automatically disconnected, and then the second When data input is resumed before the specified time has elapsed, auto-dial to the stored phone number to reconnect the line, eliminating unnecessary line connection after data transfer is interrupted and reconnecting A communication terminal device is disclosed which saves the trouble.
[0007]
Japanese Patent Application Laid-Open No. 6-54023 discloses a communication terminal adapter that monitors communication data for a channel of an ISDN line and automatically disconnects the line during communication when the duration when no communication data is reached reaches a predetermined time. An apparatus is disclosed.
[0008]
Japanese Patent Laid-Open No. 6-105005 discloses an AC outlet built-in terminal adapter that performs efficient power control by supplying power to a user terminal only during communication.
[0009]
Japanese Patent Laid-Open No. 10-93636 discloses an ISDN that refuses access from other routers and accepts only access from the router before disconnection when data transmission / reception is interrupted by the client-server method. An automatic line connection / switching management method and a server router are disclosed.
[0010]
[Problems to be solved by the invention]
By the way, in the conventional ISDN terminal device including the above-described conventional system and device, when a D channel signal is erroneously detected due to some noise or the like, when a state mismatch occurs between the station side and the terminal device side, If it is mistaken that the line has been disconnected and left as it is, a situation may occur where a large amount of line usage fee is unexpectedly charged from the line operator. Here, the state mismatch is a case where, for example, the ISDN terminal apparatus side has been disconnected but the line side has not been connected to the line.
[0011]
OBJECT OF THE INVENTION
The present invention has been made in view of the above-described problems of the prior art, and can avoid a situation in which an unreasonable amount of a line usage fee is charged when a state mismatch occurs between the line side and the terminal device side. An object is to provide an ISDN terminal device.
[0012]
[Means for Solving the Problems]
In order to solve the above-described problems, the ISDN terminal apparatus according to the present invention employs the following characteristic configuration.
[0013]
(1) In an ISDN terminal device that is connected to an ISDN line and enables connection of a host device and an analog terminal,
A disconnecting means for temporarily disconnecting the line temporarily when the line disconnection processing of the host device and the analog terminal is completed, a control unit for controlling the operation of each unit, and a user-settable timer, The control unit is an ISDN terminal device that sends a timer activation signal to the timer when the line disconnection processing is completed, and issues a line disconnection signal to the disconnection means after the timer count ends.
[0014]
(2) The ISDN terminal device according to (1), wherein the disconnecting unit is a power disconnecting unit that disconnects power.
[0015]
(3) The ISDN terminal device according to (2), wherein when the internal clock reaches a certain time set by the timer, the power disconnection unit is operated to physically disconnect the line .
[0016]
(4) The ISDN terminal device according to any one of (1) to (3), further including a storage unit that stores the end of the line disconnection process .
[0017]
(5) In an ISDN terminal device in which a host device and an analog terminal are connected to an ISDN line via B1 and B2 channels, a host device disconnection command detection unit for detecting a line disconnection command from the host device, and the analog terminal A hook signal state detection unit for detecting a line disconnection command from the DDN, a D channel monitoring unit for monitoring a D channel signal state on the ISDN line, a control unit, and a timer for starting an arbitrary timer in response to a timer activation signal; A line disconnecting unit for temporarily disconnecting a line upon receipt of a line disconnection signal, a storage unit for storing the disconnection status of the line, and a terminal adapter unit, the host device disconnection command detecting unit, the hook signal When a line disconnection request is issued based on signals from the state detection unit and the D channel monitoring unit, the corresponding line disconnection process is executed to The state of the disconnection process is stored in the storage unit, and the control unit outputs a timer start signal to the timer after confirming that the line disconnection process has been completed based on the storage content of the storage unit, If there is a line connection before the timer finishes counting the set value, the timer is reset to return to the process before the line disconnection, and if there is no line connection by the end of the timer count, When the line disconnection is terminated as the terminal adapter unit by outputting a line disconnection signal for physically disconnecting the ISDN line to the line disconnection unit to temporarily disconnect the line physically An ISDN terminal device that performs reliable line disconnection processing even if the line side cannot be disconnected due to some trouble and remains connected.
[0018]
(6) In an ISDN terminal device in which a host device and an analog terminal are connected to an ISDN line via B1 and B2 channels, a host device disconnection command detection unit for detecting a line disconnection command from the host device, and the analog terminal A hook signal state detection unit for detecting a line disconnection command from the DDN, a D channel monitoring unit for monitoring a D channel signal state on the ISDN line, a control unit, and a timer for starting an arbitrary timer in response to a timer activation signal; A power-off unit that receives a power-off signal to physically disconnect the power line, a storage unit that stores a line disconnection state, and a terminal adapter unit, the host device disconnection command detection unit, and a hook signal state detection When a line disconnection request is issued based on signals from the D channel and D channel monitoring unit, the corresponding line disconnection process is executed to The processing state is stored in the storage unit, and the control unit, after confirming the state where the line disconnection process is completed based on the storage content of the storage unit, outputs a timer start signal to the timer, If there is a line connection before the timer finishes counting the set value, the timer is reset to return to the process before disconnecting the line, and if there is no line connection by the end of the timer count, When the line is disconnected by sending the power-off signal to the power-off unit and physically disconnecting the power line. An ISDN terminal apparatus that performs reliable line disconnection processing even when a state in which the connection state cannot be made and the connection state remains.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the configuration and operation of a preferred embodiment of an ISDN terminal apparatus according to the present invention will be described in detail with reference to the accompanying drawings.
[0021]
First, FIG. 1 is a block diagram showing an overall configuration of a preferred or first embodiment of an ISDN terminal apparatus according to the present invention. The ISDN terminal device 10 is connected to an ISDN line 11 and is connected to a host device 12 and an analog terminal (for example, a telephone) 13.
[0022]
This ISDN terminal device 10 includes a host device disconnection command detection unit 1, a hook signal state detection unit 2, a D channel monitoring unit 3, a control unit 4, a timer 5, a line disconnection unit 6, a storage unit 7, and a conventional terminal adapter. It is comprised by the operation | movement part (henceforth a terminal adapter part) 8. FIG.
[0023]
The host device disconnection command detection unit 1 is connected to the host device 12 and to the control unit 4 and the terminal adapter unit 8. The hook signal detection unit 2 is connected to the analog terminal 13 and to the control unit 4 and the terminal adapter unit 8. The control unit 4 is connected to the D channel monitoring unit 3, the timer 5 and the storage unit 7. The D channel monitoring unit 3 is connected to the terminal adapter unit 8 and the line disconnecting unit 6. The line disconnecting unit 6 is connected to the ISDN line 11 and the timer 5.
[0024]
As described above, a specific example in which the host device 12 and the analog terminal 13 are connected to the ISDN line 11 using the B1 and B2 channels through the ISDN terminal device 10 will be described. It is assumed that the host device 12 is connected via the B1 channel and the analog terminal 13 is connected via the B2 channel. Here, when the line connection is performed, the B1 and B2 channels output a message from the D channel monitoring unit 3 to the control unit 4 that the line connection state is established. Then, the control unit 4 causes the storage unit 7 to store that the B1 and B2 channels are in the line connection state.
[0025]
Here, when a line disconnection message is sent from the host device 12 to the ISDN terminal device 10, the host device disconnection command detection unit 1 detects this and outputs a message to the control unit 4. Upon receiving this message, the control unit 4 causes the terminal adapter unit 8 to perform line disconnection processing for the B1 channel. Here, when the line disconnection process for the B1 channel is completed, the storage unit 7 stores that the process for disconnecting the B1 channel has been completed.
[0026]
Next, when a disconnect message such as an off-hook signal is output from the analog terminal 13 to the ISDN terminal device 10, the hook signal state detection unit 2 detects this and outputs a message to the control unit 4. Upon receiving this message, the control unit 4 causes the terminal adapter unit 8 to perform line disconnection processing for the B2 channel. Here, when the line disconnection process for the B2 channel ends, the storage unit 7 stores the fact that the B2 channel disconnection process has ended.
[0027]
Here, as described above, the state mismatch (B1 and B2 channels are terminated as a terminal adapter, but the network side cannot terminate the disconnection process with the terminal adapter unit 8 for some reason. May occur). In this case, since there is no means for improving the state inconsistency, there is a possibility that inconveniences such as a large amount of line usage fee charged by the line operator may occur. However, if the control unit 4 reads the data stored in the storage unit 7 and finds that the line disconnection processing has been completed for both the B1 and B2 channels, the control unit 4 sends an activation signal to the timer 5. Then, after the value set by the timer 5 (the set value can be set by the user) is counted, the control unit 4 issues a line disconnection signal to the line disconnection unit 6 (for example, a relay or the like) to temporarily perform line physical processing. Make a cut. As a result, even if a state mismatch occurs, the line disconnection process is normally performed by performing this physical line disconnection.
[0028]
As a specific example shown in FIG. 1, when the host device 12 and the analog terminal 13 are connected to the ISDN line 11 using the B1 and B2 channels through the ISDN terminal device 10, a disconnection request is sent from the line 11 side. Consider the case. First, when a disconnect message is received on the B1 channel from the line side, the D channel monitoring unit 3 informs the control unit 4 by a message that there is a B1 channel disconnect message from the line side. Upon receiving this message, the control unit 4 causes the terminal adapter unit 8 to perform B1 channel line disconnection processing. Here, when the line disconnection process for the B1 channel is completed, the storage unit 7 stores that the process for disconnecting the B1 channel has been completed.
[0029]
Next, when a disconnect message is received from the line side on the B2 channel, the D channel monitoring unit 3 notifies the control unit 4 that the B2 channel disconnect message has been received from the line side. Upon receiving this message, the control unit 4 causes the terminal adapter unit 8 to perform B2 channel line disconnection processing. Here, when the line disconnection process for the B2 channel ends, the storage unit 7 stores the fact that the B2 channel disconnection process has ended.
[0030]
Here, state mismatch (B1 and B2 channels are terminated as a terminal adapter, but the network side cannot terminate the disconnection process with the terminal adapter unit 8 for some reason and remains connected. ) May cause a disadvantage to the user, such as a large amount of line usage fees charged by the line operator because there is no means to improve the state mismatch.
[0031]
However, if the control unit 4 reads the data stored in the storage unit 7 and finds that the line disconnection processing has been completed for both the B1 and B2 channels, the control unit 4 sends an activation signal to the timer 5. After counting the value set by the timer 5 (the set value can be set by the user), the control unit 4 outputs a line disconnection signal to the line disconnection unit 6 (for example, a relay) to temporarily Causes the line to be physically disconnected. Even if a state mismatch occurs, the line disconnection process is surely performed by this physical line disconnection.
[0032]
Next, the operation of the ISDN terminal apparatus 10 according to the present invention shown in FIG. 1 will be described with reference to the flowcharts of FIGS. FIG. 2 shows the overall operation of the ISDN terminal apparatus 10 shown in FIG. 1, and FIG. 3 is a flowchart supplementing the flowchart of FIG.
[0033]
As described above, the host device disconnection command detection unit 1 detects a line disconnection command from the host device 12. The hook signal state detection unit 2 detects a line disconnection command from the analog terminal 13. The D channel monitoring unit 3 monitors the D channel signal state on the ISDN line 11. The control unit 4 controls the entire ISDN terminal device 10. The timer 5 detects a timer activation signal from the control unit 4 and activates an arbitrary timer. The line disconnection unit 6 receives the line disconnection signal output from the control unit 4 after the timer 5 overflows, and temporarily physically disconnects the line. The storage unit 7 is, for example, a semiconductor memory that stores the line status. The terminal adapter unit 8 is a part that operates as a conventional terminal adapter. In the example of FIG. 1, the host device 12 and the analog terminal 13 are connected to the ISDN line 11 through the ISDN device 10 using the B1 and B2 channels.
[0034]
First, it is determined whether the host device disconnection command detection unit 1, the hook signal state detection unit 2, or the D channel monitoring unit 3 has detected a disconnection command (step S1). If there is no line disconnection request from the host device 12, analog terminal 13 or ISDN line 11 side (step S1: NO), nothing is detected and the process returns to “START” and waits. If a line disconnection request is issued (step S1: YES), it is detected and the process proceeds to the next step S2.
[0035]
When the host device disconnection command detection unit on the host device 12 side, the hook signal state detection unit 2 on the analog terminal 13 side or the D channel monitoring unit 3 on the ISDN line 11 side detects a line disconnection request (step S1: YES) Then, it is determined whether or not the detected disconnection command is for the B1 channel (step S2). If the line disconnection request is a B1 channel disconnection request (step S2: YES), the control unit 4 causes the terminal adapter unit 8 to perform a B1 channel disconnection process (step S3). On the other hand, if the detected line disconnection request is not for the B1 channel (step S2: NO), it is determined whether or not the detected disconnection signal is for the B2 channel (step S12). If it is a B2 channel line disconnection request (YES in step S12), the same process is performed on the B2 side, that is, the B2 line disconnection process is performed (step S13). If it is not a B2 channel line disconnection request (step S12: NO), the process returns to step S1 described above.
[0036]
When the disconnection process for the B1 channel ends (step S3), only the B2 channel is connected. However, before the next B2 channel line disconnection request is made, it is determined again whether or not the B1 channel line connection has been made (step S4). If there is a line connection for the B1 channel again (step S4: YES), the process returns to "START" described above. If there is no B1 channel line connection again (step S4: NO), it is determined whether a B2 channel disconnection command has been detected (step S5). If the B2 channel disconnection request is received before the B1 channel is connected (step S5: YES), the control unit 4 causes the terminal adapter unit 8 to disconnect the B2 channel (step S6). If no B2 channel disconnection command is detected (step S5: NO), a B2 channel disconnection command is awaited. Note that after step S13 described above, the same processing as described above is performed (steps S14 to S16).
[0037]
This completes the line disconnection process for both the B1 and B2 channels (steps S3 and S13). At this time, the control unit 4 outputs a timer start signal to the timer 5. The timer 5 detecting this starts counting the set value (steps S7 and S17). Before the count is completed, it is determined whether or not there is a line connection from one or both of the B1 and B2 channels (steps S8 and S18). If there is a line connection (step S8: YES, step S18: YES), the timer 5 is reset (step S20).
[0038]
In each case, the process returns to the process before disconnection. That is, after resetting the timer 5 (step S20), it is determined whether or not the B1 channel is connected (step S21). If the B1 channel is not connected (step S21: NO), the B2 channel is connected (step S21: NO). Step S22). On the other hand, when the B1 channel is connected (step S21: YES), it is determined whether the B2 channel is also connected (step S24). If the B2 channel is also connected (step S24: YES), the process returns to step S1 described above, and if not connected (step S24: NO), the process proceeds to step 3 of step S15 described above. Further, after step S22, it is determined whether the B2 channel is also connected (step S23). If the B2 channel is also connected (step S23: YES), the process returns to step S1 described above. If not connected (step S23: NO), the process proceeds to step S5 (2).
[0039]
When there is no line connection before the timer 5 count ends, when the timer 5 count ends (steps S9 and S19), the control unit 4 physically connects the ISDN line 11 to the line disconnection unit 6. A line disconnection signal which is an instruction to disconnect is issued (step S10). When this message is received, the line disconnecting unit 6 (for example, a relay or the like) temporarily disconnects the line, so that the line disconnecting process is performed. Accordingly, it is assumed that a state mismatch (state in which the line side could not be disconnected due to some trouble but the line was not connected due to some trouble) occurred before this processing. However, the line disconnection process is surely performed by this physical line disconnection (step S11).
[0040]
Next, the configuration and operation of the second embodiment of the ISDN terminal device according to the present invention will be described with reference to FIG. 4 and FIG. For convenience of explanation, the same reference numerals as those of the first embodiment described above are used for the corresponding components. FIG. 4 is a block diagram showing the configuration of the ISDN terminal device 10 ′, which is connected between the ISDN line 11, the host device 12, and the analog terminal 13. This ISDN terminal device 10 ′ includes a host device disconnection command detection unit 1, a hook signal state detection unit 2, a D channel monitoring unit 3, a control unit 4, a timer 5, a storage unit 7, a terminal adapter unit 8, and a power supply disconnection unit 9. Composed.
[0041]
The ISDN terminal apparatus 10 ′ is different from the ISDN terminal apparatus 10 shown in FIG. 1 in that a power disconnection unit 9 is provided instead of the line disconnection unit 6. After the count of the timer 5 activated by the timer activation signal from the control unit 4 is completed, the power supply line 9 is physically disconnected by the power supply disconnection unit 9. As a result, the line is surely disconnected.
[0042]
The operation of the ISDN terminal device 10 ′ shown in FIG. 4 will be described with reference to the flowchart of FIG. In this ISDN terminal apparatus 10 ', a line is physically disconnected at a fixed time (for example, once a day) by setting a timer in the apparatus and setting the timer 5. That is, it is determined whether or not the time of the clock matches the set value of the timer 5 (step S30). If they do not match (step S30: NO), the control unit 4 waits for a match, and if they match (step S30: YES), the control unit 4 instructs the power-off unit 9 to physically disconnect the line. (Step S31). Therefore, the power cut-off unit 9 temporarily cuts the power and completes the line cut (step S32).
[0043]
The configuration and operation of the preferred embodiment of the ISDN terminal device according to the present invention have been described in detail above. However, such an embodiment is merely an example of the present invention and does not limit the present invention. Those skilled in the art can easily understand that various modifications and changes can be made according to a specific application without departing from the gist of the present invention.
[0044]
[Explanation of effects]
As understood from the above description, according to the ISDN terminal device of the present invention, the following remarkable effects can be obtained. That is, if a state mismatch occurs in the ISDN terminal device in the D channel processing (the ISDN terminal device is in a state where the line side remains connected due to some trouble even if it intends to terminate the line disconnection), the state mismatch occurs. However, there is no means to improve the system, so there will be inconveniences such as being charged a large line usage fee by the line operator, but the time set in the built-in timer by incorporating the line disconnection function of the present invention as a protection function Since the line can be physically disconnected, the line can be surely disconnected.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a first embodiment of an ISDN terminal device according to the present invention.
FIG. 2 is a flowchart showing an overall operation of the ISDN terminal apparatus shown in FIG.
FIG. 3 is a flowchart supplementing the flowchart shown in FIG. 2;
FIG. 4 is a block diagram showing a configuration of a second embodiment of an ISDN terminal device according to the present invention.
5 is a flowchart showing the operation of the ISDN terminal device shown in FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Host apparatus disconnection command detection part 2 Hook signal state detection part 3 D channel monitoring part 4 Control part 5 Timer 6 Line disconnection part 7 Storage part 8 Terminal adapter 9 Power supply disconnection part 10, 10 'ISDN terminal apparatus 11 ISDN line 12 Host apparatus 13 Analog terminals

Claims (6)

In an ISDN terminal device that is connected to an ISDN line and enables connection of a host device and an analog terminal, etc.
A disconnecting means for temporarily disconnecting the line temporarily when the line disconnection processing of the host device and the analog terminal is completed, a control unit for controlling the operation of each unit, and a user-settable timer, The control unit sends a timer start signal to the timer when the line disconnection processing is completed, and outputs a line disconnection signal to the disconnection means after the timer count ends.   The ISDN terminal apparatus according to claim 1, wherein the disconnecting means is a power disconnecting unit that disconnects the power. 3. The ISDN terminal apparatus according to claim 2, wherein when the internal clock reaches a certain time set by the timer, the power disconnection unit is operated to physically disconnect the line. The ISDN terminal apparatus according to any one of claims 1 to 3, further comprising a storage unit that stores the end of the line disconnection process . In an ISDN terminal device in which a host device and an analog terminal are connected to an ISDN line via B1 and B2 channels,
A host device disconnection command detection unit for detecting a line disconnection command from the host device;
A hook signal state detection unit for detecting a line disconnection command from the analog terminal;
A D channel monitoring unit for monitoring a D channel signal state on the ISDN line;
A control unit;
A timer for receiving a timer start signal and starting an arbitrary timer;
A line disconnecting unit that temporarily disconnects a line in response to a line disconnection signal;
A storage unit for storing a line disconnection state;
With a terminal adapter section,
When a line disconnection request is issued based on signals from the host device disconnection command detection unit, hook signal state detection unit, and D channel monitoring unit, the corresponding line disconnection process is executed to execute the status of the line disconnection process. Is stored in the storage unit,
The control unit outputs a timer start signal to the timer after confirming that the line disconnection process has been completed based on the storage content of the storage unit, and before the timer finishes counting the set value. If there is a line connection, the timer is reset to return to the processing before the line disconnection. If there is no line connection by the end of the timer count, the ISDN line is physically connected to the line disconnection unit. By temporarily disconnecting the line by outputting a line disconnect signal for disconnecting,
When the line disconnection is finished as the terminal adapter unit, the line side cannot perform line disconnection due to some trouble, and even if a state in which the line remains connected is generated, a reliable line disconnection process is performed. ISDN terminal device. In an ISDN terminal device in which a host device and an analog terminal are connected to an ISDN line via B1 and B2 channels,
A host device disconnection command detection unit for detecting a line disconnection command from the host device;
A hook signal state detection unit for detecting a line disconnection command from the analog terminal;
A D channel monitoring unit for monitoring a D channel signal state on the ISDN line;
A control unit;
A timer for receiving a timer start signal and starting an arbitrary timer;
A power-off unit that receives a power-off signal and physically disconnects the power line;
A storage unit for storing a line disconnection state;
With a terminal adapter section,
When a line disconnection request is issued based on signals from the host device disconnection command detection unit, hook signal state detection unit, and D channel monitoring unit, the corresponding line disconnection process is executed to execute the status of the line disconnection process. Is stored in the storage unit,
The control unit outputs a timer start signal to the timer after confirming that the line disconnection process has been completed based on the storage content of the storage unit, and before the timer finishes counting the set value. If there is a line connection, the timer is reset to return to the process before the line disconnection, and if there is no line connection by the end of the timer count, the power disconnection signal is sent to the power disconnection unit. Disconnect the line by physically disconnecting the power line,
When the line disconnection is finished as the terminal adapter unit, the line side cannot perform line disconnection due to some trouble, and even if a state in which the line remains connected is generated, a reliable line disconnection process is performed. ISDN terminal device.

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