JP4280532B2 - VoIP ISDN adapter and VoIP call system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an ISDN adapter for VoIP that realizes VoIP (Voice over IP) using an ISDN line and a network.
[0002]
[Prior art]
Currently, there are IP data communications such as e-mail and file transfer in addition to voice communications such as telephone and facsimile as communication means between users such as companies and individuals, and between individual users within the company. These two communication networks had different configurations, and each had to build a network. It would be reasonable if these two networks could be integrated, and an effective network could be established with minimal capital investment.
[0003]
In recent years, the amount of communication between users has been higher in IP data communication than in voice communication. As an integrated method of the network, VoIP (Voice), which is a method for transmitting voice communication over an IP data communication network, is used. over IP) is commonly used.
[0004]
In the VoIP call system, an analog voice signal is converted into digital voice data and transmitted on an IP network using a predetermined protocol. The most common conversion format is to convert an audio signal into an IP packet and transmit it, and the most general transmission method is to transmit by a UDP / IP protocol.
[0005]
In the VoIP system, users who talk to each other are provided with VoIP adapters, each connected to an information terminal such as a telephone, first confirming a communication partner via an analog line, and then based on the partner address stored in the VoIP adapter. To communicate via the network.
[0006]
As shown in FIG. 8, the VoIP adapter 101 includes a line connection terminal (Line terminal) connected to an analog public line, a terminal connection terminal (Tel terminal) connected to an information terminal 102 such as a telephone, a network controller A network connection terminal (LAN terminal) connected to the network via the network 103.
[0007]
The VoIP adapter 101 inputs a voice signal transmitted from the information terminal 102 from the TEL terminal, and transmits it from the Line terminal to the other party via the analog public line. If the same VoIP adapter 201 exists on the other side, a signal indicating the presence is transmitted and recognized by the VoIP adapter 101 on the transmission side.
[0008]
In this way, if the other party has the VoIP adapter 201, the VoIP adapter 101 converts the voice signal transmitted from the information terminal 102 to generate voice data, and the network connection terminal connects to the network. controller 103 to the network controller 103 transmits voice data to the other party using a predetermined protocol. On the other side, the VoIP adapter 201 receives the voice data via the network controller 203, converts it into a voice signal, and transmits it to the information terminal 202. In this way, audio signals are transmitted and received via the network for both calls.
[0009]
[Problems to be solved by the invention]
However, such a conventional VoIP call system has the following problems to be solved.
[0010]
A conventional VoIP call system communicates between an audio signal and audio data by switching between an analog public circuit and a network. However, since a digital ISDN signal is transmitted and received on a digital line such as an ISDN line, a conventional analog public line VoIP adapter cannot be used.
[0011]
For this reason, in order to use the VoIP call system, it is necessary to construct an analog line network separately from the ISDN line, resulting in a large installation cost.
[0012]
Various VoIP-compliant ISDN terminals have been devised. However, these devices integrate an VoIP call system using an analog line and an ISDN conversion circuit, so that the apparatus becomes expensive and the equipment cost becomes large.
[0013]
An object of the present invention is to construct an inexpensive VoIP ISDN adapter that makes it possible to easily use a VoIP call while maintaining the current ISDN environment, and a VoIP call system that makes a call using the VoIP call. It is in.
[0014]
[Means for Solving the Problems]
The ISDN adapter for VoIP according to the present invention converts the ISDN signal and the voice signal to each other, exchanges information on both adapters for making a call and exchanges IP addresses, and between the ISDN terminal and the VoIP adapter. And a signal conversion unit for performing signal conversion.
[0015]
The front end unit is connected to the ISDN line, and the digital ISDN signal transmitted through the ISDN line is converted into an analog signal by the front end unit and transmitted to the VoIP adapter. An analog signal from the VoIP adapter is converted into an ISDN signal and transmitted to the ISDN line.
[0016]
Further, the front end unit acquires the adapter information and the IP address of the other side and transmits them to the signal conversion unit. Further, it acquires its own IP address from the network controller, and transmits it along with its own adapter information to the other party's VoIP ISDN adapter through the ISDN line.
[0017]
In this way, since the IP address and the like are exchanged via the ISDN adapter for both calls, it is possible to acquire each other's IP address without opening the ISDN line between ISDN terminals.
[0018]
The signal conversion unit transmits the other party's IP address in the adapter information from the front end unit to the VoIP adapter.
[0019]
The ISDN signal including voice data transmitted from the ISDN terminal is input to the signal converter, and the signal converter converts it into an analog voice signal for transmission to the VoIP adapter.
[0020]
The VoIP adapter converts the audio signal in the analog format into the digital format again to generate the audio data, and transmits it to the network controller together with the counterpart IP address.
[0021]
Based on the other party's IP address and the voice data, the network controller transmits the voice data to the other party's network controller via the network.
[0022]
The other party's VoIP adapter converts the received voice data into a voice signal and sends it to the signal converter of the VoIP ISDN adapter. The signal conversion unit converts an analog audio signal into an ISDN format and transmits it to the ISDN terminal.
[0023]
In this way, a voice call is performed by transmitting and receiving voice data obtained by converting a voice signal into a predetermined format via a network using a predetermined protocol.
[0024]
Also, the ISDN adapter for VoIP of the present invention includes a front end unit for mutually converting an ISDN signal from an ISDN line and a predetermined format of digital data from an ISDN line, and an analog signal input from the VoIP adapter and a signal conversion. VoIP transmission / reception unit that mutually converts digital data of a predetermined format from the unit, digital data from the front end unit and the VoIP transmission / reception unit are converted into an ISDN signal and transmitted to the ISDN terminal, and the ISDN terminal Is converted to digital data of a predetermined format, and is selected from either the front end unit or the VoIP transmission / reception unit and output to the signal conversion unit. The signal conversion unit outputs digital data to either the front end unit or the VoIP transmission / reception unit according to a preset telephone number.
[0025]
In this configuration, when a call signal including the telephone number of the other party is input from the ISDN terminal in ISDN format, the signal conversion unit converts the call signal in ISDN format into a digital signal in a predetermined format that can be processed by a microcomputer or the like. The data is converted into data, the telephone number information of the other party is detected from the digital data, and it is confirmed whether or not it corresponds to a preset telephone number.
[0026]
Here, if the setting for using the ISDN line is made in advance when the other party's telephone number corresponds to the set telephone number, the signal conversion unit includes this telephone number information if it corresponds to the set telephone number. A digital data calling signal is transmitted to the front end unit. The front end unit again converts the digital data into a call signal in ISDN format and transmits it to the other party via the ISDN line network.
[0027]
On the other hand, if the other party's telephone number information does not correspond to a preset telephone number, the signal converter outputs the digital data calling signal to the VoIP transceiver, and the VoIP transceiver transmits this signal to the dial pulse. Alternatively, it is converted into a call signal in the DTMF format and output to the VoIP adapter.
[0028]
In addition, if the setting for using the VoIP line is performed in advance when the other party telephone number corresponds to the set telephone number, the signal conversion unit, if it corresponds to the set telephone number, the digital number including this telephone number information. A data call signal is transmitted to the VoIP transceiver unit. The VoIP transmission / reception unit converts the digital data into a dial pulse or a DTMF format calling signal and outputs it to the VoIP adapter.
[0029]
On the other hand, if the other party's phone number information does not correspond to a preset phone number, the signal conversion unit outputs the digital data calling signal to the front end unit, and the front end unit converts this signal into ISDN format. Then, the data is transmitted to the other party via the ISDN line network.
[0030]
DETAILED DESCRIPTION OF THE INVENTION
A configuration of the VoIP ISDN adapter according to the first embodiment of the present invention and a VoIP call system using the same will be described with reference to FIGS.
[0031]
FIG. 1 is a block diagram showing a system configuration using a VoIP ISDN adapter.
FIG. 2 is a procedural diagram showing the flow of signals from transmission to setting of the VoIP environment.
FIG. 3 is a schematic configuration diagram of an example of a subaddress of ISDN data.
[0032]
FIG. 4 is a procedure diagram showing the flow of data under the VoIP environment.
[0033]
In FIG. 1, 1 is a VoIP ISDN adapter, 11 is a front end unit, 12 is a signal conversion unit, 2 and 3 are first and second VoIP adapters, 4 is an ISDN PBX (switch), 5 is an information terminal, Reference numeral 6 denotes a network controller.
[0034]
As shown in FIG. 1, the VoIP ISDN adapter 1 according to the first embodiment of the present invention includes a front end unit 11 and a signal conversion unit 12 connected to each other.
[0035]
The front end unit 11 is provided with one ISDN line terminal and two analog line terminals. An ISDN public line is connected to the ISDN line terminal, and the first and second analog line terminals are respectively connected to the first and second analog line terminals. VoIP adapters 2 and 3 are connected.
[0036]
Further, the front end unit 11 sets the adapter information of the present invention in the sub-address of the ISDN signal with a data structure as shown in FIG. 3 and transmits it to the front end unit on the partner side.
[0037]
In addition to the telephone number, a subaddress of 18 bytes or less can be added to the ISDN line. This sub-address is normally used to directly specify each information terminal 5 from the outside, but this can be used for adapter information including an IP address.
[0038]
As shown in FIG. 3, the adapter information is composed of a 4-byte adapter ID, an individual number, an IP address and 18 bytes of a 6-byte telephone number. Here, the adapter ID uses characters, symbols, company names, and the like to identify each ISDN adapter for VoIP, and the individual number uses a serial number or the like to identify each ISDN terminal device. The telephone number is its own telephone number, and the IP address is also its own IP address. The self IP address is acquired from the network controller 6.
[0039]
Further, the assignment in FIG. 3 is an example, and in addition to this, a port number for designating a VoIP adapter may be assigned to a subaddress.
[0040]
The signal conversion unit 12 includes one ISDN line terminal and two analog line terminals. The ISDN line terminal is connected to the ISDN PBX 4 via the ISDN line, and each of the two analog line terminals includes a first, Second VoIP adapters 2 and 3 are connected. In addition, the signal conversion unit 12 acquires the other party's IP address from the front end unit 11 and transmits the acquired IP address to the first and second VoIP adapters 2 and 3.
[0041]
Each of the first and second VoIP adapters 2 and 3 includes two analog line terminals and one network terminal, and these two analog line terminals respectively convert the signal from the front end unit 11 of the VoIP ISDN adapter 1. Connected to the unit 12. The network terminal is connected to the network controller 6.
[0042]
Network controller 6 has first and second of In addition to being connected to the VoIP adapters 2 and 3, the VoIP adapters 2 and 3 are connected to a network, and transmit and receive data using a predetermined protocol.
[0043]
A plurality of information terminals 5 such as telephones are connected to the ISDN PBX 4 and an information terminal to be connected is selected based on ISDN network information acquired from the ISDN line network in advance.
[0044]
Next, a procedure for setting up a VoIP call environment using an ISDN line will be described with reference to FIG. In this description, a telephone is used as the information terminal.
[0045]
The calling side user transmits the calling signal by inputting the telephone number of the other party to call from the telephone. This call signal is transmitted to the front end unit 11 via the ISDN PBX 4 and the signal conversion unit 12 in order (s1).
[0046]
The front end unit 11 converts the calling signal into the ISDN signal format, sets the adapter information in the sub-address of the ISDN signal, and transmits it to the ISDN public line (s2).
[0047]
When the other party's ISDN adapter for the VoIP recognizes the calling signal attached with the adapter information on the outgoing side, a response signal attached with the adapter information on the other side is returned (s3). Here, the calling signal is not transmitted to the other party's ISDN PBX or telephone.
[0048]
When receiving the response signal from the other party, the transmission-side front end unit 11 extracts adapter information and transmits it to the signal conversion unit 12. Here, the adapter information is transmitted and received using an internal circuit of the VoIP ISDN adapter.
[0049]
When the signal conversion unit 12 acquires the IP address from the adapter information on the other side, the VoIP ISDN adapter 1 opens the ISDN line (s4). Then, the IP address is transmitted to the first VoIP adapter 2 or the second VoIP adapter 3.
[0050]
Here, if there is no adapter of the same specifications as the ISDN adapter for the VoIP on the other side, the ISDN adapter for VoIP 1 once releases the ISDN line, then deletes the subaddress and transmits again. A call is made by connecting an ISDN line.
[0051]
Thus, by exchanging adapter information using the ISDN sub-address, it is possible to exchange each other's adapter information without calling the other party's telephone. The ISDN sub-address is an additional function of the ISDN line and is incorporated in the line service, so that it is possible to exchange data necessary for setting the VoIP call environment such as an IP address without being charged.
[0052]
Next, the VoIP call procedure will be described with reference to FIG.
[0053]
Here, in the following description, the network connection using the second VoIP adapter 3 is shown, but the same procedure is performed even if the first VoIP adapter 2 is used.
[0054]
When the other party's IP address is acquired, the VoIP ISDN adapter 1 transmits only the IP address to the second VoIP adapter 3 using a dial tone or DTMF tone (s11). The second VoIP adapter 3 converts the other party's IP address into digital data and transmits it. Then, the second VoIP adapter 3 sends the call request data with its own (originating) VoIP adapter information attached to the other party's VoIP adapter. It transmits via (s12). When the other party's VoIP adapter receives this outgoing request data via the network and the other party's network controller, it sends back the outgoing response data including the VoIP adapter information of itself (the other party) to the second VoIP adapter 3 via the network. (S13).
[0055]
In this way, the second VoIP adapter 3 exchanges VoIP adapter information with the other party's VoIP adapter, and sets the environment in which VoIP communication is possible. Here, the network controller 6 connects to the designated IP address based on the designated IP address.
[0056]
When the VoIP call environment is set, the partner VoIP adapter transmits an incoming call signal to the partner telephone via the ISDN adapter for VoIP and ISDN PBX (s14).
[0057]
A response signal is transmitted when the other party is off-hooking the telephone handset, and is transmitted to the VoIP adapter via the ISDN BX and VoIP ISDN adapter (s15).
[0058]
The partner VoIP adapter converts this response signal into a network protocol and transmits it as terminal connection response data to the second VoIP adapter 3 via the network controller, the network, and the originating network controller 6 (s16). .
[0059]
When the second VoIP adapter 3 receives the terminal connection response data from the other party, the second VoIP adapter 3 transmits the call start confirmation data to the other party's VoIP adapter, and the other party's VoIP adapter transmits the terminal connection completion data to the call start confirmation data. Is transmitted (s17 → s18). After such a call start confirmation is transmitted / received, a response signal is transmitted to the caller telephone via the second VoIP adapter 3, the VoIP ISDN adapter 1 and the ISDN PBX 4 (s19), and the VoIP call is started. (S20).
[0060]
When a call is started, both VoIP adapters that make a call convert each audio signal into audio data of a predetermined format, and the callers make a call over the network using a predetermined protocol.
[0061]
In the present embodiment, the case where the callers exist in one network is shown. However, when the callers exist in different networks, a network controller for connecting these networks may be used. For example, when a VoIP call is made between telephones in networks that are far away from each other, the VoIP call can be realized by using a modem or the like connected from each network to a public line.
[0062]
Further, in the present embodiment, the method of converting the call between the information terminals connected by the ISDN line and the ISDN PBX to the VoIP call has been described. It is also possible to realize a VoIP call by an information terminal connected to the analog line PBX by inserting the analog line PBX into the analog circuit 12.
[0063]
It is also possible to connect the VoIP adapter directly to the analog public line without using the front end unit 11. However, in this case, since the IP address cannot be automatically acquired, the setting method of the VoIP environment becomes complicated or a fixed address is used.
[0064]
Next, a VoIP ISDN adapter according to a second embodiment will be described with reference to FIGS.
FIG. 5 is a configuration diagram of a system using the VoIP ISDN adapter according to the present embodiment.
In FIG. 5, 1 is a VoIP ISDN adapter, 11 is a front end unit, 12 is a signal conversion unit, 13 is a VoIP transmission / reception unit, 2 and 3 are first and second VoIP adapters, and 4 is an ISDNPBX (switch). 5 is an information terminal, and 6 is a network controller.
FIG. 6 is a block diagram of the signal conversion unit 12, 21 is an ISDN signal conversion unit, and 22 is a line selection unit.
[0065]
As shown in FIG. 5, the ISDN adapter 1 for VoIP of the second embodiment of the present invention includes a front end unit 11 connected to the ISDN line, a signal conversion unit 12 connected to the ISDN PBX 4, and first and first The VoIP transmission / reception unit 13 is connected to the VoIP adapters 2 and 3, and the signal conversion unit 12 is connected to the front-end unit 11 and the VoIP transmission / reception unit 13.
[0066]
The signal conversion unit 12 includes an ISDN signal conversion unit 21 connected to the ISDN PBX 4 and a line selection unit 22 connected to the front end unit 11 and the ISDN signal conversion unit 21.
[0067]
The ISDN signal conversion unit 21 converts the ISDN signal received from the ISDN PBX 4 into digital data in a predetermined format that can be processed by the line selection unit 22, outputs the digital data to the line selection unit 22, and digital data input from the line selection unit 22 Data is converted to ISDN format and sent to ISDNNPBX4. For example, the U point signal received from the ISDNPBX 4 is converted into digital data of a predetermined format, and the digital data is converted into a U point signal.
[0068]
The line selection unit 22 detects telephone number information from the call signal converted into digital data by the ISDN signal conversion unit 21 and outputs it to either the front end unit 11 or the VoIP transmission / reception unit 13. Further, when a call signal from the other party is input via the front end unit 11 or the VoIP transmission / reception unit 13, the line selection unit 22 confirms an empty channel of the ISDN PBX 4 and calls if there is an empty channel. The signal is output to the ISDN signal converter 21. If there is no empty channel, a signal indicating that the line is in use is transmitted to the other party via the front end unit 11 or transmitted to the other party via the VoIP transceiver unit 13.
[0069]
When the transmission / reception unit 13 for VoIP is selected as a signal transmission source by the line selection unit 22, the VoIP transmission / reception unit 13 electrically off-hooks one of the unused first and second VoIP adapters 2 and 3, The telephone number information of the other party in the digital format is converted into a dial pulse or DTMF signal and transmitted to the off-hook VoIP adapter. On the other hand, when receiving and receiving the incoming signal (bell ringing signal) from the first and second VoIP adapters 2 and 3, the VoIP transceiver 13 electrically goes off-hook to the VoIP adapter. When the VoIP transmission / reception unit 13 receives a call signal including dial pulse or DTMF signal format telephone number information, it converts it into a digital signal format and outputs it to the line selection unit 22.
[0070]
Each of the first and second VoIP adapters 2 and 3 includes an analog line terminal and a network terminal, and the analog line terminal is connected to the VoIP transceiver 13 of the VoIP ISDN adapter 1. The network terminal is connected to the network controller 6.
Other configurations are the same as those of the system shown in FIG.
[0071]
Next, a procedure for making a call using the above-described system will be described. In this description, a telephone is used as the information terminal 5.
[0072]
On the telephone which is the information terminal 5, the calling side user inputs the telephone number of the other party to be called and transmits a calling signal. This call signal is transmitted to the ISDN signal conversion unit 21 of the signal conversion unit 12 via the ISDN PBX 4.
[0073]
The ISDN signal conversion unit 21 converts the ISDN format call signal into a predetermined digital format and outputs it to the line selection unit 22.
[0074]
A plurality of predetermined telephone numbers are stored in advance in the line selection unit 22, and the line selection unit 22 detects the telephone number information from the input call signal and determines whether or not it matches the stored telephone number. Check. Here, there are two methods for confirming a telephone number: a method for confirming whether or not the stored telephone number completely matches, and a method for confirming whether or not a predetermined number from the beginning of the telephone number matches. ,User For Which confirmation method is used is set in advance according to the way. Further, the line selection unit 22 is provided with a table shown in FIG. 7 in which a special number such as “110” police report is stored in advance, and the telephone number information is detected from the calling signal, and based on the table. To check whether the telephone number corresponds to the telephone number stored in the table.
[0075]
Then, when the telephone number corresponds to a telephone number stored in advance or a telephone number stored in the table, or the user of the caller sets a specific number such as “0000” at the head of the other party's telephone number. When a number is assigned, the line selection unit 22 outputs a call signal including telephone number information to the front end unit 11. The front end unit 11 reconverts the calling signal into the ISDN format, and transmits it to the front end unit of the VoIP ISDN adapter on the other side via the ISDN line network.
[0076]
The other party talks off-hook the telephone handset and a response signal is sent. The answer signal is sent to the VoIP ISDN adapter 1 on the outgoing side to start the call.
[0077]
On the other hand, when the telephone number of the other party does not correspond to the telephone number stored in the table, the line selection unit 22 outputs the telephone number information to the VoIP transmission / reception unit 13. The VoIP transceiver unit 13 converts the input telephone number information into a dial pulse or DTMF signal and transmits it to the second VoIP adapter 3, and the second VoIP adapter 3 transmits the call request data based on the received telephone number information. Is transmitted to the VoIP call management means in the network via the network controller 6.
[0078]
In the VoIP call management means, an IP address corresponding to the registered telephone number is recorded, the telephone number of the other party is detected from the received call request data, and the IP address corresponding to the telephone number is acquired. Then, transmission request data is transmitted to the VoIP adapter having this IP address.
[0079]
When the other party's VoIP adapter receives this calling signal via the other party's network controller, it sends back call response data to the second VoIP adapter 3 via the network. When the VoIP call environment is set, the partner VoIP adapter transmits an incoming call signal to the partner telephone. Then, the response signal is transmitted to the VoIP adapter by the other party off-hooking the telephone handset. The counterpart VoIP adapter converts the response signal into a protocol of the network to be connected, and uses the second VoIP adapter as terminal connection response data via the counterpart network controller, the network, and the origination network controller 6. 3 to send.
[0080]
When the second VoIP adapter 3 receives the terminal connection response data from the other party, the second VoIP adapter 3 transmits the call start confirmation data to the other party's VoIP adapter, and the other party's VoIP adapter transmits the terminal connection completion data to the call start confirmation data. Send. After such a call start confirmation transmission / reception is performed, a response signal is transmitted to the VoIP transmission / reception unit 13 via the second VoIP adapter 3. The VoIP transmission / reception unit 13 transmits this response signal to the caller telephone via the line selection unit 22, the ISDN signal conversion unit 21, and the ISDN PBX 4, and a VoIP call is started.
[0081]
If the other party cannot make a VoIP call even if a VoIP call is selected, the line selection unit 22 switches the call signal from the VoIP transceiver unit 13 to the front end unit 11 and outputs it. That is, it is possible to switch from a VoIP call to an ISDN line call.
[0082]
With this configuration, the VoIP ISDN adapter automatically selects an appropriate line network (call network) according to the call partner with reference to a preset telephone number, so that the user can make a call for each call partner. Even if a network is not selected and transmitted, communication can be performed through an optimal communication network of either an ISDN line network or VoIP depending on a communication partner.
[0083]
In the present embodiment, a table of telephone numbers for selecting a telephone network can be set by the user. As a result, the user can set the contents of this table in advance, so that the optimum communication network can be automatically selected for each call.
[0084]
Further, in the present embodiment, a call is made on the ISDN line network only when the telephone number to be transmitted corresponds to a telephone number stored in advance or a telephone number set in a table, or when a specific number is added to the head. However, only in such a case, it may be set to make a call on the VoIP network. In this case, if it corresponds to the above-mentioned telephone number, a call is made on the VoIP network, and if not, a call is made on the ISDN network.
[0085]
【The invention's effect】
According to the present invention, by connecting an ISDN adapter for VoIP to a VoIP adapter, a VoIP system that can be easily connected to an ISDN line network based on adapter information including each other's IP address transmitted and received via the ISDN line is constructed. can do.
[0086]
In addition, it is possible to make a VoIP call by simply connecting the VoIP adapter, which is generally distributed, and the ISDN adapter for VoIP to the current ISDN line network. A VoIP system can be configured with investment.
[0087]
In addition, by sending and receiving address information including each other's IP address using the sub-address of the ISDN line and exchanging it between ISDN adapters for VoIP, the IP address etc. can be obtained without opening the ISDN line between information terminals. Can be exchanged. As a result, the VoIP call environment can be set quickly without being charged.
[0088]
Further, according to the present invention, since an appropriate telephone network is automatically selected according to the other party by the ISDN adapter for VoIP, even if the user does not make a call by selecting a telephone network for each party, In Accordingly, it is possible to communicate with any one of the optimal communication networks of the ISDN line network and VoIP.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a system using a VoIP ISDN adapter according to a first embodiment.
FIG. 2 is a procedure diagram showing a signal flow from outgoing call to VoIP environment setting.
FIG. 3 is a schematic configuration diagram of a subaddress of ISDN data.
FIG. 4 is a procedure diagram showing a data flow in a VoIP environment.
FIG. 5 is a configuration diagram of a system using a VoIP ISDN adapter according to a second embodiment.
FIG. 6 is a schematic configuration diagram of a signal converter 12 according to the second embodiment.
FIG. 7 is a diagram showing the contents of a table for storing telephone network selection telephone numbers provided in the line selection unit.
FIG. 8 is a block diagram of a conventional VoIP system connected to an analog public circuit
[Explanation of symbols]
1-VoIP ISDN adapter
11-Front end
12-signal converter
13-VoIP transceiver
21-ISDN signal converter
22-Line selection part
2,3,101,201-VoIP adapter
4-ISDNNPBX (ISDN switch)
5,102,202-information terminal
6, 103, 203-network controller

Claims (5)

The ISDN signal from the ISDN line is converted into an analog signal and sent to the VoIP adapter, the analog signal from the VoIP adapter is converted into an ISDN signal and sent to the ISDN line,
A front end unit that acquires adapter information and an IP address of the other party connected to the ISDN line, transmits the adapter information and the IP address to the signal conversion unit, and transmits its own IP address to the other side; ,
Sending the IP address of the other party and an analog signal obtained by converting the ISDN signal from the ISDN terminal connected to the VoIP adapter,
A signal converter that receives an analog signal from the counterpart through the VoIP adapter, converts the analog signal into an ISDN signal, and transmits the signal to the ISDN terminal;
An ISDN adapter for VoIP, comprising: Comprising a VoIP for ISDN adapter according, and a plurality of the VoIP adapter that connects to the VoIP for ISDN adapters, and Rene Ttowaku controller to connect to the plurality of VoIP adapter to claim 1,
A VoIP call system, wherein a VoIP call environment is set by transmitting and receiving the IP address and the adapter information between the VoIP ISDN adapters installed on both sides of a call. A front end unit that converts the ISDN signal received from the ISDN line into digital data of a predetermined format and outputs the digital data, converts the input digital data into an ISDN signal, and transmits the ISDN signal to the ISDN line;
The analog signal input from V oIP adapter and outputs are converted into digital data of the predetermined format, VoIP transceiver unit to the input digital data of the predetermined format are converted to analog signals and outputs to the VoIP adapter When,
The digital data from the front end unit and the VoIP transceiver unit is converted into an ISDN signal and transmitted to an ISDN terminal, and the ISDN signal from the ISDN terminal is converted into digital data of the predetermined format. A signal conversion unit that selects and outputs either the end unit or the VoIP transceiver unit; and
An ISDN adapter for VoIP, comprising:   The signal conversion unit detects telephone number information from digital data obtained by converting the ISDN signal, and only when the telephone number information corresponds to a preset telephone number, the digital data is converted into the front end unit. The ISDN adapter for VoIP according to claim 3, which is output to   The signal conversion unit detects telephone number information from digital data obtained by converting the ISDN signal, and transmits / receives the digital data for the VoIP only when the telephone number information corresponds to a preset telephone number. The ISDN adapter for VoIP according to claim 3, wherein the ISDN adapter is output to the unit.

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