KR960016537B1 - Packet interface system in the isdn - Google Patents

Abstract

an ISDN exchanger X.25 protocol vertical section means(100) to transfer the packet data to the packet exchanger through a VME bus; a packet exchanger X.25 protocol vertical section means(200) to transfer the packet data to the ISDN exchanger through the VME bus; a physical layer selecting a part(70). The ISDN exchanger X.25 protocol vertical section means(100) comprises: a processor and peripheral circuit(10) and a local memory part(20); a protocol interface part(30); a time slot-selecting part(40); a communication memory part(50). The packet exchanger X.25 protocol vertical section means(200) comprises: a processor and a peripheral circuit(10); a local memory part(20); a protocol interface part(30); a communication memory part(50); a VME bus interface part(60); and a V.35 interface part(80).

Description

Packet Matching System of Integrated Information Network (ISDN)

1 is a diagram showing the overall configuration of a general ISDN packet matching system.

FIG. 2A shows the ISDN switch packet terminator shown in FIG. 1. FIG.

2B shows the packet switch packet terminator shown in FIG.

3 shows an integrated termination device according to the invention.

* Explanation of symbols for main parts of the drawings

10: processor and peripheral circuit 20: local memory

30: protocol matching unit 40: timeslot selection unit

50: communication memory unit 60: VME matching unit

70: physical layer selection unit 80: V. 35 matching unit

100: ISDN exchange X.25: protocol termination means

200: packet switch X.25: protocol termination means

The present invention relates to an integrated service digital network (ISDN) switch, and more particularly to an ISDN packet matching system in which the hardware of an ISDN switch X.25 protocol terminator and the hardware of a packet switch X.25 protocol terminator are unified. It is about.

The overall schematic diagram of a typical ISDN packet matching system is shown in FIG. Here, the ISDN packet matching system is a device for performing a matching function between the packet switch of the ISDN switch in order to give a packet service function to a subscriber of the ISDN switch having no packet switch function.

In FIG. 1, the ISDN packet matching system consists of an ISDN switch and a Primary Rate Interface (PRI). That is, the primary group speed matching terminator 1 performs a physical connection with an ISDN exchange, and performs a role of separating or combining packet data and signal data input and output through the E1 primary group speed matching.

When packet data is input from the ISDN exchange, the packet data is separated and transmitted to the ISDN exchange packet terminator 3 and the signal data are separated and transmitted to the packet call controller 2 via the packet bus, respectively. Here, the packet bus is a PCM stream having a 32-channel time slot structure. The packet call control device 2 is a device for controlling the setting of the packet call transmitted and received through the ISDN packet matching device.

After receiving the packet data from the ISDN switch, the ISDN switch packet terminator 3 terminates the packet data according to the X.25 protocol, transforms the data to transmit the data input to the packet switch, and then switches the VME bus. The packet exchanger packet terminator 4 transmits the transmitted data to the packet exchanger through the X.25 protocol. At this time, the packet exchanger is physically connected by the V.35 protocol.

When packet data is input from the packet switch, the packet data is terminated at the packet switch packet terminator 4, transforms the data for transmission to the ISDN switch, and then to the ISDN switch packet terminator 3 via the VME bus. The ISDN switch packet terminator 3 transmits the data to the packet bus according to the X.25 protocol and is transmitted to the ISDN exchange through the primary group speed matching terminator 1.

Here, in the conventional ISDN switch packet terminator and the packet switch packet terminator, the matching portion of the packet bus and the matching portion of the packet switch are different, but the overall hardware structure is the same.

FIG. 2A shows the ISDN switch packet terminator in FIG. 1, and FIG. 2B shows the packet switch packet terminator in FIG.

In the X.25 protocol terminator, the ISDN exchange packet terminator shown in FIG. 2A, the subscriber's packet information is transmitted and received via one time slot in the Pulsed Coded Modulation (PCM) highway. The ISDN switch packet terminator uses a protocol chip with PCM matching to transmit and receive data by HDLC, and Layer 2 (LAPB) of X.25 is implemented in software.

On the other hand, in the X.25 protocol, which is the packet switcher packet terminator shown in FIG. Also, Layer 3 of X.25 of both terminators is implemented in software. Here, X.25 protocol terminator is a device that enables end-to-end communication in each stage with respect to X.25 protocol, which is a protocol between data communication terminal and line terminator recommended by CCITT X.25. Say.

As described above, in the conventional ISDN packet matching system, the ISDN switch X.25 protocol terminator and the packet switch X.25 protocol terminator constitute separate hardware, making the system difficult to maintain and improving productivity and cost savings. There was a problem of deterioration.

Accordingly, an object of the present invention is to unify the hardware of the ISDN switch X.25 protocol terminator and the hardware of the packet switch X.25 protocol terminator to solve the above problems, and to perform the respective functions only by changing the software. To provide a packet matching system of a general information communication network.

In order to achieve the above object, the present invention includes a first group speed matching terminator for performing a physical connection with an ISDN exchanger, and a packet call controller for controlling the setting of a transmitted / received packet call. In a packet matching system for performing a matching function between the terminal, packet data transmitted from the ISDN switcher is terminated by the X.25 protocol, and the packet data is modified and transmitted to the packet switcher via the VME bus. ISDN exchange X.25 protocol termination means; The ISDN switch is configured on the X.25 protocol termination unit and a single piece of hardware. The packet data transmitted from the packet switch is terminated by the X.25 protocol, and the packet data is modified and transmitted to the ISDN exchange through the VME bus. Packet-switched X.25 protocol termination means for transmitting; And physical layer selection means for selectively operating the ISDN switch X.25 protocol termination means and the packet switch X.25 protocol termination means by separating functions by circuit pack classification information according to the mounting location. do.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

3 is a diagram illustrating a packet matching system of ISDN according to the present invention.

The configuration of the apparatus diagram shown in FIG. 3 functions by the ISDN switch X.25 protocol termination means 100, the packet switch X.25 protocol termination means 200, and circuit pack classification information according to the mounting position. It is composed of a physical layer selector 70 for selectively operating the ISDN switch X.25 protocol termination means 100 and the packet switch X.25 protocol termination means 200.

In addition, the ISDN switch X.25 protocol termination means 100 includes a processor and peripheral circuit 10, a local memory unit 20, and a physical layer selector 70 for performing protocol processing and device maintenance functions. Optionally driven by the protocol matching unit 30 and the physical layer selecting unit 70 for processing the corresponding layer of the X.25 protocol processed by the local memory unit 20, the protocol for PCM matching A time slot selector 40, a processor and peripheral circuit 10, a local memory unit 20, and a packet for extracting and inserting data carried in a corresponding time slot according to predetermined time slot information from the matching unit 30 A communication memory unit 50 for communication between the call controller 2 and the packet switch packet termination means 200, a VME matching unit 60 for matching the communication memory unit 50 with the VME bus, Packet Switcher X.25 Protocol Terminator (200) Similar to the ISDN switch X.25 protocol termination means 100, the processor and peripheral circuit 10, local memory 20, protocol matching 30, communication memory 50, VME matching 60, physical It is selectively driven by the layer selector 70, and consists of a V.35 matcher 80 for the physical connection between the protocol matcher 30 and the packet switch.

The operation of the present invention will now be described in detail with reference to FIG.

The processor and peripheral circuit 10 and the local memory unit 20 perform protocol processing and device maintenance functions. The communication memory unit 50 includes the packet call controller 2 and the ISDN switch in FIG. A memory used for communication between the packet terminator 3 and the packet switcher packet terminator 4, and is connected to the VME bus through the VME matching unit 60.

The protocol matching unit 30 implements one protocol chip to process up to X.25 protocol layer 2 (LAPB). The V.35 matching unit 60 implements what was separately implemented according to the device in one circuit pack, and performs a physical connection with the packet switch.

Like the V.35 matching unit 60, the time slot selector 40 implements a separate circuit pack that is implemented separately according to a device, and according to the time slot information previously given for the device for PCM matching. It extracts and inserts data in the corresponding time slot.

That is, the time slot selector 40 and the V.35 matcher 60 are selected and driven by the physical layer selector 70 driven by circuit pack classification information that varies depending on the mounting position of the circuit pack.

As described above, in the ISDN packet matching system according to the present invention, the hardware of the ISDN subscriber terminal X.25 protocol terminator and the hardware of the packet switcher X.25 protocol terminator are unified, and each function is performed only by changing the software. By doing so, there is an advantage that not only maintenance is easy but also productivity is increased.

Claims (1)

A first group speed matching termination device 1 for performing a physical connection with a predetermined ISDN switch, and a packet call control device 2 for controlling the setting of a packet call to be transmitted / received. A packet matching system for performing a packet matching function between established packet exchangers; An ISDN switch X.25 protocol terminating means (100) for terminating packet data transmitted from the ISDN exchange by an X.25 protocol and transforming the packet data to be transmitted to the packet exchange via a predetermined VME bus; ISDN exchange is configured on the X.25 protocol termination means 100 and a single hardware, terminating the packet data transmitted from the packet exchange by the X.25 protocol and modifying the packet data to the ISDN exchange through the VME bus Packet exchanger X.25 protocol termination means 200 for transmission, and the ISDN switch X.25 protocol termination means 100 and the packet exchanger X by separating the function by predetermined circuit pack classification information according to the mounting position. .25 a physical layer selector 70 for selectively operating the protocol termination means 200, wherein the ISDN bridge The ventilation X.25 protocol termination means 100 comprises a processor and peripheral circuitry 10 and a local memory section 20 for performing the processing of the X.25 protocol and the maintenance of the device; A protocol matching unit 30 for processing a layer corresponding to the X.25 protocol processed by the local memory unit 20 according to the selection of the physical layer selecting unit 70; A time slot selector which is selectively driven by the physical layer selector 70 and extracts and inserts data carried in the corresponding slot according to time slot information previously given from the protocol matcher 30 for PCM matching. 40 and; A communication memory unit 50 for communication between the processor and the peripheral circuit 10 and the local memory unit 20, the packet call control device 2 and the packet switch X.25 protocol termination means 200; And a VME bus matching unit 60 for matching the communication memory unit 50 with the VME bus. The packet switch X.25 protocol termination unit 200 includes the processor and the peripheral circuit 10. ), The local memory unit 20, the protocol matching unit 30, the communication memory unit 50 and the VME bus matching unit 60 share the same hardware as the ISDN switch X.25 protocol termination means 100, Packet matching of a general information communication network selectively driven by the physical layer selecting unit 70 and including a V.35 matching unit 80 for physical connection between the protocol matching unit 30 and the packet exchanger. system.