JPH01292991A - Isdn terminal adaptor device - Google Patents

Abstract

PURPOSE:To increase the number of existing terminals which can be contained by using a subrate demultiplexing circuit at every terminal interface in an ISDN terminal adaptor and executing the demultiplexing of ISDN-B data. CONSTITUTION:Terminal interface parts 21-2n of an ISDN terminal adaptor device TA are constituted of terminal containing circuits 213, 223,...2n3 for containing existing terminal equipments DTE1-DTEn, speed converting circuits 212, 222,...2n2, subrate demultiplexing circuits 214, 224,...2n4, and B channel selecting circuits 211, 221,...2n1, and at the time of firmware to a common part 10, the interface, and transmitting and receiving data are connected to an S interface circuit 11 of the common part 10 through a common bus CBUS, and B1 and B2 lines, respectively. In this state, demultiplexing of ISDN-B channel data is executed. In such a way, the maximum 16 sets of existing terminals can be contained by one ISDN terminal equipment.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a terminal adapter device for an ISDN interface system.

[Conventional technology]

An ISDN terminal adapter device is installed in a subscriber's premises and is a device for accommodating existing terminals into the ISDN network, and converts call control signals related to circuit-switched data terminals, packet-switched data terminals, telex terminals, voice terminals, etc.
In addition to converting to a channel protocol, it also converts the user speed of existing terminals and the transmission rate in ISDN, and converts electrical and mechanical interfaces.

Conventionally, when a single ISDN terminal adapter device accommodates a plurality of existing terminals, it is configured as shown in FIG.

Referring to FIG. 3, the conventional ISDN terminal adapter device (TA) can be divided into a common part (COM) 10 and a terminal interface part (RINF) 21 to 2n, and the common part 10 is a microprocessor (MPU). The memory circuit 13 consists of a memory circuit 14 and its peripheral circuit 15, and the peripheral circuit includes an interrupt circuit, a timer circuit, a direct memory access control (DMAC) circuit, and the like. Also, I
The access circuit to the SDN network is composed of an S interface circuit 11 and an LAPD circuit 12.

On the other hand, the terminal interface units 21 to 2n are terminal unaccommodated circuits 21 that accommodate existing terminal devices (DTEI to DTEn), respectively.
3,223. ...2n3, speed conversion circuit 212, 22
2. ...2n2, and B channel selection circuit 211
, 221...2nl.

Next, the operation will be explained according to FIG. 3. For example, when the existing terminal DTE1 is a terminal that has the protocols of CCITT Recommendations
In the above configuration, the microprocessor 13 of the common unit 10 processes the X and 21 protocols in response to calls originating or receiving calls from the existing terminal DTE1, and also performs communication with the ISDN network. Between the LAPD circuit 12 and the S ink face circuit 1
S recommended in CCITT Recommendation 1.430 using
ISDN protocol processing is performed via the D channel at point /T.

By following the above protocol, CCITT Recommendation 1.430
When it becomes possible to send and receive data using the B1 channel and B2 channel at the S/T point recommended in
3, the speed conversion circuit 212 converts the user speed of the existing terminal and the transmission rate in ISDN, and operates the B channel selection circuit 211 to select the B1 channel or the B2 channel and transmit and receive data.

The interface protocols for the existing terminal devices DTE2 to DTEn will differ depending on the type of terminal, but the operations are the same as described above, so a description thereof will be omitted.

[Problem to be solved by the invention]

The conventional ISDN terminal adapter device described above can be used even if the user speed of the existing terminal device is as slow as 2.4 Kb/s.
Or for a terminal device as fast as 64Kb/s.

Even if it is, it occupies one of the two B channels.

Therefore, even if three or more existing terminals are accommodated in the ISDN terminal adapter device, there is a problem in that only two terminals at most can be used.

[Means to solve the problem]

The ISDN terminal adapter device of the present invention is an ISDN terminal adapter device having a common part and a plurality of terminal interface circuits, wherein the common part is composed of a microprocessor, a memory circuit and its peripheral circuits, an S interface circuit, and a LAPD circuit. , the terminal interface circuit comprises an edge unaccommodating circuit, a speed conversion circuit, a subrate multiplexing/demultiplexing circuit, and a B channel selection circuit,
The present invention is characterized in that a subrate demultiplexing circuit is used for each terminal interface in the N terminal adapter device to demultiplex ISDNB channel data.

〔Example〕

Next, an embodiment of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram of an embodiment of the present invention, and FIG. 2 is an explanatory diagram for explaining the operation of the embodiment.

Referring to FIG. 1, an ISDN terminal adapter device TA according to an embodiment of the present invention is composed of a common part (COM) 10 and terminal interface parts (RINF) 21 to 2n. The common unit 10 includes a microprocessor (MPU) 13, a memory circuit 14, and its peripheral circuits 15. Peripheral circuit 1
5 includes an interrupt circuit, a timer circuit, a DMAC circuit, etc. The access circuit to the ISDN network is composed of an S interface circuit 11 and an LAPD circuit 12.

Furthermore, terminal interface units (RI NF) 21~
2n are end-unaccommodated circuits 213, 223.2n that accommodate the existing terminal devices DTE1 to DTEn. ...2n3, speed conversion circuits 212, 222, ...2n2, subrate multiplexing/demultiplexing circuits 214, 224. ...2n4 and B channel selection circuits 211, 221 . ...2nl, the firmware interface with the common section 10 is through the common bus (CBUS), and the transmitted/received data is connected to the S interface circuit 11 of the common section 10 through the B1 and B2 lines.

Next, the operation will be explained with reference to FIGS. 1 and 2.

For example, when the existing terminal DTE 1 is a terminal that has the protocol of CCITT Recommendation
In the above configuration, the microprocessor 13 of the common unit 10 performs protocol processing of
ISD using PD circuit 12 and S interface circuit 11
ISDN protocol processing is performed via the ND channel.

By following the above protocol, CCITT Recommendation 1.430
When the B channel at the S/T point becomes available, which is recommended in
4. The B channel selection circuit 211 operates upon receiving instructions from the microprocessor 13 in the common section.

Below are multiple existing terminals DTEI~DTEn to ISD
Next, the flow of communication data from the ISDN network to a plurality of existing terminals via the B channel will be explained. For example, when existing terminal devices DTEI, DTE2, and DTEn are communicating, the user speed of the existing terminal device DTEI is 2.
4 K b/s, the user speed of the existing terminal device DTE2 is 19.2 Kb/S, and the user speed of the existing terminal device DTEn is 9.6 K b/s, then each end unaccommodated circuit 213°223.2n3 is The incoming communication data is transferred to the next speed conversion circuit 212, 222.2n2 without any change.
is input. Here, 2 from the existing terminal device DTEI,
The 4 Kb/s communication data is converted into intermediate rate 8 Kb/s communication data in the first transmission rate conversion circuit 31. Similarly, the user speed of the existing terminal device DTE2 of 19.2 Kb/s is the intermediate rate of 32 K.
b/s E, user speed of existing terminal device DTEn 9
．． 6 Kb/s are each converted to an intermediate rate of 16 Kb/s, and in the next second transmission speed conversion circuit 32, the 6 Kb/s shown in FIG.
The communication data is converted into communication data having a frame structure of 4 Kb/s, and in the subrate multiplexing circuit 33 of the subrate multiplexing/demultiplexing circuit 214 in the next stage, it is converted into one frame with 8 bits (slots) according to instructions from the microprocessor 13 of the common section 10. The signal is shifted to a designated slot and output to the B channel selection circuit 211.

Next, in the transmission B channel selection circuit 34 of the B channel selection circuit 211, the microprocessor 13 of the common section 10
Assuming that the instruction from B1 is B1, each communication data is output to the sending side of line B1, has a frame structure shown in FIG. sent to.

Also, communication data from the ISDN network is sent to the reception B channel selection circuit 41. Subrate separation circuit 42. The second reception speed conversion circuit 43 and the first reception speed conversion circuit 44 perform a process opposite to the above operation, and transmit the signal to the existing terminal device.

〔Effect of the invention〕

As explained above, the present invention provides a subrate multiplexing/demultiplexing circuit between the speed conversion circuit and the B channel selection circuit of each terminal interface circuit of an ISDN terminal device, and
By demultiplexing the B channel of the DN basic interface, one ISDN terminal device can
It has the effect of accommodating up to 16 existing terminals.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of an embodiment of an ISDN terminal adapter device according to the present invention, FIGS. 2(a) and 2(b) are explanatory diagrams of an embodiment of the present invention, and FIG. It is a block diagram. TA...ISDN terminal adapter device, DTE1
~DTEn...Existing terminal device, 10...
・Common part (COM), 21, 22, -, 2 n-terminal interface (RINF), 11...S interface circuit, 12...LAPD circuit, 1
3... Microprocessor (MPU), 14.
...Memory circuit, 15...Peripheral circuit, 2
11,221. ...2nl...B channel selection circuit, 212, 222. -2n2... Speed conversion circuit, 213, 223. ...2n3... End unaccommodated circuit, 214, 224. ...2n4...
・Subrate demultiplexing circuit. Agent Patent Attorney Oto Uchihara (2nd page)

Claims (1)

[Claims] IS with a common part and multiple terminal interface circuits
In the DN terminal adapter device, the common section includes a microprocessor, a memory circuit and its peripheral circuits, an S interface circuit, and an LAPD circuit, and the terminal interface circuit includes an edge unaccommodating circuit, a speed conversion circuit, and a subrate multiplexing/demultiplexing circuit. A subrate demultiplexing circuit is used for each terminal interface in the ISDN terminal adapter.
I, characterized in that it demultiplexes B channel data.
SDN terminal adapter device.