NEC Neax 2400 Ipx Fusion Network System Manual
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CHAPTER 5 NDA-24299 Page 86 Revision 1.0 DATA PROGRAMMING Assignment of FCH Related Data STEP 2: AFRT (FUSION with FCH only) Assign connection route numbers as shown below by using the AFRT command. Figure 5-30 AFRT Sample Data Sheet The AFRT command display should look similar to Figure 5-31. Figure 5-31 AFRT Command Display FCHN = 1 CNT = 1 C_RT : 10LN LN LN LN LN LN NCN1 2 C_RT=10 Node A Node BFCIC=1 FCHN=1 FCIC=1FCIC=2 FCIC=n FCIC=2 FCIC=n TRK 1 TRK 10 TRK 3TRK 31 TRK 32 TRK 40 . . .. . . Self-Node Untitled - EclipseCmd File ViewHelp FCHN For Help, press F1 AFRT (Assignment of FCCH Controlled Connection Route Data for LDM) WRT? Connection RouteAssign FCHN (1-255) CNT CNT C_RTC_RT 1 2 3 45 6 7 8 1 10Y
NDA-24299 CHAPTER 5Page 87 Revision 1.0 DATA PROGRAMMING Assignment of FCH Related Data STEP 3: AFPC Assign routing data for Fusion link using the AFPC command. A maximum of 8 connect ion_routes and FCHN/FPCN can be assigned on a node basis. The list box labeled FCCH on the AFPC command determines the network configuration type between self-node and the intermediate node. Assign “0 ” for “Fusion System without FCH ” and “1 ” for “Fusion System with FCH. ” In case FCCH=1, enter FCCH number for intermediate node to FCHN/FPCN parameter, and in case FCCH=0, enter the FPC number of the intermediate node to FCHN/FPCN parameter. In this step, the explanation is given using the following network as an example. Figure 5-32 Fusion Network (example) The AFPC command display (Fusion with FCH) should look similar to Figure 5-33: Figure 5-33 AFPC Command Display (example) W ARNING: The AFPC com man d a ffec ts comm unications b etween nod es, and acco rding to conditions, it might be unable to communicate between the nodes. Operate the MAT directly connected to each node as the need to modify the data setting. NCN: Network Control Node LN: Local Node his figure shows an example of Fusion network. Each number in the circle stands for Fusion Point Code (FPC). Node C LN LN LN LN LN LN LN LNNCN1 2 10 11 12 21 22 23 24C _ R T = 10 Node A Node BNode D Node ENode F F C H N =1 F C H Note: “ USE_GATE ” data is automatically assigned. FPC For Help, press F1 CNT C_RT FCHN/FPCN CNT C_RT FCHN/FPCN 1 2 3 4 5 6 7 8 AFPC (Assignment of FCCH Routing Data for LDM) FCCH P_ROUTE 22 1 0: Fusion without FCH / 1: Fusion with FCH 0 Assign Destination FPC (far end FPC). Priority Route 10 FCH number (1-255)
CHAPTER 5 NDA-24299 Page 88 Revision 1.0 DATA PROGRAMMING Assignment of FCH Related Data Figure 5-34 AFPC Sample Data Sheet FPC 2(to Node B) FCCH 0(without FCH ) C N T C _R T F P C N 1 1 0 2 FPC 21 (to Node C) FCCH 0 (without FCH0) C N T C _ R T F P C N 1 10 2 Assign all nodes data in the same manner. T his tab le sh ow s a sam ple d ata she et for N o de A on the fu sion ne tw o rk w ith F C H . A ssign the da ta for a ll no de s in clud in g the no de s w hich are no t d irectly co nn ecte d o n th e n etw ork. (i.e.N ode C , N od e D .....) T his ta ble sho w s a sa m p le da ta sh eet for N od e A o n th e fusio n n etw ork w itho ut F C H . A ssig n th e d ata fo r all n od es in clu ding the nodes which are not directly connected on the network. (i.e.Node C, Node D.....) 21 1C_RT=102 Node B Node A FPCN=2Node C A F P C (a t N od e A ) - F us io n w ith ou t F C H Node B Node C 1C_RT=102 Node B Node A FPCN=2 -To N ode B - -To N ode C - Assign adjacent Nodes FPC Assign adjacent Nodes FPC Assign destination (far end) Nodes FPC FPC 2(to Node B) FCCH 1(with FCH) C N T C _R T F C H N 1 1 0 1 FPC 21(to Node C) FCCH 1(with FCH) C N T C _R T F C H N 1 1 0 1 Assign all nodes data in the same m anner. A F P C (a t N od e A ) - F us io n w ith F C H 21 1 2Node B Node ANode C Node B Node C 1 2Node B Node A -To N ode B - -To N ode C - C _R T= 10 FC HN= 1 FCH C _R T=10 F CH N=1 FC H
NDA-24299 CHAPTER 5 Page 89 Revision 1.0 DATA PROGRAMMING Assignment of FCH Related Data Note: When one Fusion Network take the configuration with FCH and without FCH together, it is necessary to assign the routing data using both AFPC and AETH command. An example data assignment is shown in Figure 5-35. Figure 5-35 AFPC/AETH Sample Data Assignment STEP 4: ACAN Assign the Fusion Connection Index Code (FCIC) and the LENs on an adjacent FPC basis. Figure 5-36 shows a sample data sheet for Node A. Note:It is not necessary to assign the same number as trunk and FCIC. However, FCIC numbers between adjacent nodes must be identical. 2 FCHN=1FCHN=2 1DTI DTI C_RT: 11 C_RT: 21 Node A Node B [To Node C] FPCN=2 1 2 FCHN 10 20 FPC: 3 (FPC Number of Node C) DST_IP C_RT 3 DTIDTI DTI DTI DTI DTI 2DTI DTI DTIDTI [T o N o d e C via Node B] FCH is used. FCH is not used. FCH is used. To Node C via Node B To Node C directly with FCH 0 0 AETH NEXT_IP 0 0 CNT 1 22 2 C_RT FPCN 11 21 AFPC FPC: 3 (FPC Number of Node C) FCCH: 0 (FCH card is not used) C_RT: 10 C_RT: 20 C_RT: 12 C_RT: 22 P_ROUTE: 1 Node C * This example shows the data assignment having the priority to the connection between Node A and Node C with FCH card. AFPC/AETH (at Node A) - Fusion with FCH & Fusion without FCH is both configured in One Network Control 1 2 2 1 Note:“USE_GATE” data is automatically assigned.
CHAPTER 5 NDA-24299
Page 90
Revision 1.0
DATA PROGRAMMING
Assignment of FCH Related Data
Figure 5-36 ACAN Sample Data Sheet
The ACAN command display should look similar to Figure 5-37.
Figure 5-37 ACAN Command Display (example)
7.1 Assignment of Access Code for Tandem Connection via FCCS - ACIS
Tandem connection via FCCS - ACIS link can be established. With use of LDM, appropriate routing data
for each node can be assigned as shown in Figure 5-38.
F P C = 2 F C IC = 1 C _ L E N S = 0 0 0 0 1 0
F P C = 2 F C IC = 2 C _ L E N S = 0 0 0 0 1 1
F P C = 2 F C IC = 3 C _ L E N S = 0 0 0 0 1 2
F P C = 2 F C IC = 4 C _ L E N S = 0 0 0 0 1 3
: : :
LCN
LCN
LCN LCN
LCN LCN
NCN1
2
C_RT=10
Node A
Node BFC IC =1FCIC=1FCIC=2
FCIC=n
FCIC=2
FC IC =n
TRK 1
TR K 10TRK 3TR K 31
TRK 32
TRK 40 :
::
:
Adjacent-Node
Self-Node
FCIC num ber m ust be identical
FPC
For Help, press F1
ACAN (Assignment of CIC Number between Adjacent Node for Network)
FCIC
21Fusion Circuit Identification CodeAssign Adjacent FPC
C_LENS C_LENS
WRT?000011
NDA-24299 CHAPTER 5 Page 91 Revision 1.0 DATA PROGRAMMING Assignment of FCH Related Data Figure 5-38 Assignment of Routing Data Using LDM Note: When the related data is assigned to DM, outgoing connection is available only for external routes in self node (i.e. FCCS - ACIS link cannot be established). To initiate seizure of an external trunk, use one of four methods - OGC, OGCA, LCR, LCRS. (See the following sections). 7.1.1 OGC A procedure for assigning the OGC access code is explained in Figure 5-39. Figure 5-39 Example of OGCLogical route to be seized Access code STN (A) STN (B) STN (C) 9-1-202 LGRT: 2001st LGRT: 200 2nd LGRT: 1001st LGRT: 200 2nd LGRT: 100 3rd LGRT: 300 9-1-3031st LGRT: 100 2nd LGRT: 200LGRT: 1001st LGRT: 100 2nd LGRT: 200 3rd LGRT: 300 Node A STN (A) (in 91202 area) (in 91303 area) FCCS Example of Fusion Network FCCS LGRT:200 COTACIS Node B . . . . . . . . . . . . . . .. . . . . . . . . . . . . . .. . . . . . . . . . . . . . .. . . . . . . . . . . . . . . STN (B) . . . . . . . . . . . . . . .. . . . . . . . . . . . . . .. . . . . . . . . . . . . . .. . . . . . . . . . . . . . . LGRT:100 COTACIS Node C STN (C) . . . . . . . . . . . . . . .. . . . . . . . . . . . . . .. . . . . . . . . . . . . . .. . . . . . . . . . . . . . . LGRT:300 COTACIS STN (B) Node B PSTN 1-202-345-6789 Station B dials 9-1-202-345-6789FCCSLGRT:200 COT Node A ... ... ... ... ...... ... ... ... ...... ... ... ... ...... ... ... ... ...
CHAPTER 5 NDA-24299 Page 92 Revision 1.0 DATA PROGRAMMING Assignment of FCH Related Data STEP 1: ANPDN/ANPDL Note Assign the first digit of the OGC access code. When the access code is common to all nodes, use the ANPDN command. When the access code is assigned for each node, use the ANPDL command. 1st DC=9 CI=N (Normal)NND=1 1st DC=9 CI=H (Hooking)NND=1 STEP 2: ASPAN/ASPAL Note Assign the OGC access code. When the access code is common to all nodes, use the ASPAN command. When the access code is assigned for each node, use the ASPAL command. ACC=9 CI=N (Normal) SRV=OGCLGRT=200 ACC=9 CI=H (Hooking)SRV=OGCLGRT=200 STEP 3: ANNDL/AMND Assign the necessary number of digits using the ANNDL or the AMND command depending on the route data. When the ARTD command OSGS is 2 (Second Dial Tone), use the ANNDL (Necessary Digits Data) command. RT=200 OG NND=12 When the ARTD command OSGS is 4/6/7 (Sender Immediate Start/Sender Delay Dial Start/ Sender Wink Start), use the AMND command. DC=9 MND=12 STEP 4: ARSCN Assign the Route Restriction Class (RSC) that allows RRIs for the external trunk route. The same route restriction data must be assigned for each node. Note:When entering the data in STEP 1 and STEP 2, do not mix the commands for LDM and NDM. Write the data on the same data memory as shown below: When writing the data on the LDM:ANPDL (STEP 1)→ASPAL (STEP 2) When writing the data on the NDM:ANPDN (STEP 1) →ASPAN (STEP 2) 7.1.2 OGCA A procedure for assigning OGCA access code is explained in Figure 5-40.
NDA-24299 CHAPTER 5 Page 93 Revision 1.0 DATA PROGRAMMING Assignment of FCH Related Data Figure 5-40 Example of OGCA STEP 1: ANPDN/ANPDL Note Assign the first digit of the OGCA access code. When the access code is common to all nodes, use the ANPDN command. When the access code is assigned for each node, use the ANPDL command. 1st DC=9 CI=N (Normal) NND=1 1st DC=9 CI=H (Hooking)NND=1 STEP 2: ASPAN/ASPAL Note Assign the OGCA access code. When the access code is common to all nodes, use the ASPAN command. When the access code is assigned for each node, use the ASPAL command. ACC=9 CI=N (Normal) SRV=OGCACOUNT=21st LGRT=1002nd LGRT=200 ACC=9 CI=H (Hooking) SRV=OGCACOUNT=21st LGRT=1002nd LGRT=200 Note:When entering the data in STEP 1 and STEP 2, do not mix the commands for LDM and NDM. Write the data on the same data memory as shown below: When writing the data on the LDM:ANPDL (STEP 1)→ASPAL (STEP 2) When writing the data on the NDM:ANPDN (STEP 1) →ASPAN (STEP 2) STN (C) ... ... .. . ... .. .... ... .. . ... .. .... ... .. . ... .. .... ... .. . ... .. . Node C PSTN 1-303-456-7890 Station C dials 9-1-303-456-7890FCCSBUSY FCCS COT Node B Node A LGRT:200 LGRT:100 COT
CHAPTER 5 NDA-24299 Page 94 Revision 1.0 DATA PROGRAMMING Assignment of FCH Related Data STEP 3: ANNDL/AMND Assign the necessary number of digits using the ANNDL or the AMND command depending on the route data. When the ARTD command OSGS is 2 (Second Dial Tone), use the ANNDL (Necessary Digits Data) command. RT=100 OG NND=12 RT=200 OG NND=12 When the ARTD command OSGS is 4/6/7 (Sender Immediate Start/Sender Delay Dial Start/ Sender Wink Start), use the AMND command. DC=9 MND=12 STEP 4: ARSCN Assign the Route Restriction Class (RSC) that allows RRIs for the external trunk route. The same route restriction data must be assigned for each node. 7.1.3 LCR/LCRS A procedure for assigning LCR/LCRS access code is explained in Figure 5-41. Figure 5-41 Example of LCR/LCRS STN (C) ... ... ... ... ...... ... ... ... ...... ... ... ... ...... ... ... ... ... Node C PSTN 1-202-567-8901 Station C dials 8110-3500FCCS ACISBUSY FCCS TLT Node BDestination Node Node A LGRT:200LGRT:10 COT
NDA-24299 CHAPTER 5 Page 95 Revision 1.0 DATA PROGRAMMING Assignment of FCH Related Data STEP 1: ANPDN/ANPDL Note Assign the first digit of the LCR/LCRS access code. When the access code is common to all nodes, use the ANPDN command. When the access code is assigned for each node, use the ANPDL command. TN=1 1st DC=8 CI=N (Normal)NND=1 TN=1 1st DC=8 CI=H (Hooking)NND=1 STEP 2: ASPAN/ASPAL Note Assign the LCR/LCRS access code for a dummy route number. When the access code is common to all nodes, use the ASPAN command. When the access code is assigned for each node, use the ASPAL command. ACC=8 CI=N (Normal) SRV=LCR/LCRSLGRT=Dummy route number ACC=8 CI=H (Hooking) SRV=LCR/LCRSLGRT=Dummy route number STEP 3: AMND Using AMND, assign the Maximum Necessary Digits to be received by Register (ORT) circuit. DC=8110 MND=8 STEP 4: ARNPL Using ARNPL, assign the access code for each external trunk route but not for a dummy route. RT=10 ACC=8 RT=200 ACC=9 Note:When entering the data in STEP 1, 2, 6, 7, and 8, do not mix the commands for LDM and NDM. Write the data on the same data memory as shown below: When writing the data on the LDM: ANPDL→ASPAL→AFRSL→AO P R L→AADCL (STEP 1) (STEP 2) (STEP 6) (STEP 7)(STEP8) When writing the data on the NDM: ANPDN→ASPAN→AFRSN→AO P R N→AADCN (STEP 1) (STEP 2) (STEP 6) (STEP 7)(STEP8)