KR0185241B1 - No. 7 signal processing method of electronic switching system - Google Patents

Abstract

The present invention relates to an electronic exchanger for processing a No. 7 signal, and more particularly, to a No. 7 signal processing method of an electronic exchanger capable of stabilizing the No. 7 signal processing by dispersing and accommodating the concentrated No. 7 signal processing functions .

Since the present invention divides the STGP connected to the SWCD through a single subhighway into a plurality of TLCDs and distributes them to each of the TLCDs, it can diversify the No. 7 signal path in the system, It is possible to prevent paralysis of the performance of the entire layer 2 protocol occurring in case of failure or failure of the sub-highway cable.

Description

No.7 signal processing method of electronic exchanger

FIG. 1 is a block diagram of a No. 7 signal processing apparatus of a conventional electronic exchanger; FIG.

FIG. 2 is a block diagram of a No. 7 signal processing apparatus of an electronic exchanger according to the present invention. FIG.

DESCRIPTION OF THE REFERENCE NUMERALS

10 ₁ ~ 10 _n : STB (Signaling Terminal Board)

20, 140 ₁ to 140 _n : Signaling Terminal Group Processor (STGP)

30, 100: Common Channel Signaling Processor (CCSP)

35, 105: Maintenance Service Processor (MSP)

40, 115: SWCD (Switching Complex Device)

45, 110: Switching Number Translation Processor (SNP)

50 ₁ to 50 _n , 125 ₁ to 125 _n : Trunk Line Concentration Device (TLCD)

55 ₁ to 55 _n , 120 ₁ to 120 _n : Digital Trunk Line Processor (DTLP)

60 ₁ to 60 _n , 130 ₁ to 130 _n : TCP (Trunk Circuit Processor)

The present invention relates to an electronic exchanger for processing a No. 7 signal, and particularly relates to a No. 7 signal processing method of an electronic exchanger that makes No. 7 signal processing stable by accommodating and distributing a centralized No. 7 signal processing function .

As shown in FIG. 1, the No. 7 signal processing apparatus of the conventional electronic exchanger includes a Signaling Terminal Group Processor (STGP) 20, a Common Channel Signaling Processor (CCSP) 30, a Maintenance Service Processor (MSP) 35, 40, a Switching Complex Device (SNP) 45, a plurality of TLCDs 50 ₁ to 50 _n , a plurality of DTLPs 55 ₁ to 55 _n , (TCP) 60 ₁ to 60 _n (Trunk Circuit Processor). The MSP 35 performs an MTP (Message Transfer Processing) function among the No. 7 signal processing functions, and the SNP 45 transmits a connection message and a recovery message supplied from the subscriber line and the TCPs 60 ₁ to 60 _n And controls the SWCD 40 accordingly. The DTLPs 55 ₁ to 55 _n are responsible for the trunk line call processing and the CCSP 30 performs the layer 3 function in the No. 7 signal processing. The STGP 20 is composed of a plurality of STBs 10 ₁ to 10 _n. Each of the STBs 10 ₁ to 10 _n performs a layer 2 function in the signal processing of No. 7, Performs a space switch function in the electronic exchange. The TLCDs 50 ₁ to 50 _n perform a time switch function in the electronic exchanger and the TCPs 60 ₁ to 60 _n control message transmission and reception operations via the digital trunk line. The SWCD 40 is composed of a plurality of switch blocks. The STGP 20 is connected to one switch block of the SWCD 40 and assigns a fixed subhighway shw to the SWCD 40, Receive.

The call message generated in the subscriber is passed to the particular DTLP (55 ₁ ~ 55 _n) via the SNP (45), specific DTLP (55 ₁ ~ 55 _n) ISUP message (ISDN User Part Call message) generated by the back BA And transmitted to the CCSP 30 via the bus. The CCSP 30 processes the ISUP message supplied from the BA bus to the STGP 20 via the STG bus after layer 3 protocol processing. The STGP 20 has a plurality of STBs, and the messages supplied by the CCSP 30 are received by a particular STB where they are processed through the fixed sub-highway (Shw) ) Side. The message supplied to the SWCD (40) is other station through sub-highway (Shw ₁ ~ Shw _n) specific TCP (60 ₁ ~ 60 _n) and then passed to the particular _{TLCD (50 1 ~ 50 n)} ( the time switch via the Other exchange) side. In addition, the messages received from other stations are supplied to the specific DTLPs 55 ₁ to 55 _n through the above-described reverse sequence.

As described above, the No. 7 signal processing apparatus of the conventional electronic exchanger is connected to the SWCD 40 via one subway highway to which the STBs 10 ₁ to 10 _n of the STGP 20 are fixed, The signal path itself is fixed within a limited range and can only be used. If a circuit related to the sub highway shw is defective or a failure occurs in the sub highway cable, the entire STB 10 of the STGB 20 ₁ to 10 _n ) can not operate.

SUMMARY OF THE INVENTION The present invention has been conceived in order to solve the above-mentioned problems, and it is an object of the present invention to provide a multi-layered STGP having a layer 2 protocol, 2 signal processing method of an electronic exchanger for preventing the performance paralysis of the second protocol and for diversifying the No. 7 signal path in the system.

According to an aspect of the present invention, there is provided an MSP for performing a message transmission processing function among No. 7 signal processing functions; A SWCD functioning as a space switch; A SNP for controlling the SWCD according to a connection message and a recovery message in a call supplied from a plurality of TCPs to a subscriber line; A plurality of DTLPs responsible for trunk line call processing; A CCSP which is connected to the MSP and the DTLP and performs a layer 3 function in the No. 7 signal processing; A plurality of TLCDs connected to the SWCD and the DTLP and performing a time switch function; And a plurality of TCPs connected to the TLCD for controlling a message transmission / reception operation through a digital trunk line, the method comprising the steps of: individually connecting STGPs to the TLCDs in a one-to- And the STGP processes a layer 2 protocol message.

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

As shown in FIG. 2, the apparatus for signal processing No. 7 of the present invention includes a CCSP 100, an MSP 105, a SNP 110, a SWCD 115, a plurality of DTLPs 120 ₁ to 120 _n , a plurality of TLCDs 125 ₁ to 125 _n , a plurality of TCPs 130 ₁ to 130 _n , and a plurality of STGPs 140 ₁ to 140 _n . Each of the STGPs 140 ₁ to 140 _{n is} connected to the CCSP 100 and the TLCDs 125 ₁ to 125 _n to process the layer 2 protocol. The STGPs 140 ₁ to 140 _n are also connected to the SWCD 115 via the sub-highways Shw ₁ to Shw _n via the TLCDs 125 ₁ to 125 _n . Since the other circuit configurations are mentioned in FIG. 1, a description thereof will be omitted.

The call message generated by the subscriber is transmitted to the specific DTLP 120 ₁ to 120 _n via the SNP 110 and the call message is converted into the ISUP message from the specific DTLP 120 ₁ to 120 _n and transmitted through the BA- 100) side. The CCSP 100 transmits the ISUP message supplied from the BA-bus to the specific STGP 140 ₁ to 140 _n side by performing layer 3 protocol processing. The STB of CCSP (100) a particular STGP (140 ₁ ~ 140 _n) receives a message from the back layer 2 protocol processing through TLCD (125 ₁ ~ 125 _n) and the TCP (130 ₁ ~ 130 _n) to which it belongs To another station. In addition, the messages supplied from the other stations are transmitted to the DTLPs 120 ₁ to 120 _{n in} the reverse order described above, thereby generating a ring to the local subscriber.

Since the present invention separately connects a plurality of STGPs to each of the TLCDs 125 ₁ to 125 _n , it is possible to diversify the No. 7 signal path in the system, and in the conventional technique, STGP can be transmitted through a single sub- SWCD, it is possible to prevent paralysis of the entire Layer 2 protocol performance caused by the failure of the sub-highway.

Claims (1)

An MSP performing a message transmission processing function among No. 7 signal processing functions; A SWCD functioning as a space switch; A SNP for controlling the SWCD according to a connection message and a recovery message in a call supplied from a plurality of TCPs to a subscriber line; A plurality of DTLPs responsible for relay preference processing; A CSP connected to the MSP and the DTLP to perform a layer 3 function in the No. 7 signal processing; A plurality of TLCDs connected to the SWCD and the DTLP and performing a time switch function; And a plurality of TCPs connected to the TLCD for controlling a message transmission / reception operation through a digital trunk line, the method comprising the steps of: individually connecting STGPs to the TLCDs in a one-to- Wherein the STGP performs a layer 2 protocol process on a message input / output between the STGP and the STGP.