NEC Neax 2400 Imx Fusion Network System Manual
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CHAPTER 5 ND-70185 (E) Page 76 Revision 3.0 DATA PROGRAMMING Assignment of Telephone Numbers STEP 2: ACTK Assign the connection trunk data of both B-channel and D-channel using the ACTK command. As- sign the Connection Equipment Number (C_LENS) referring to Figure 5-22 through Figure 5-25. The ACTK command display should look similar to the following. Figure 5-22 ACTK Command Display (example) The mounting location of the FCH, DTI cards can be classified into the following two types. Regular Density Slot (16-port slot) -See Figure 5-23. High Density Slot (32-port slot) -See Figure 5-24 and Figure 5-25. 6.1.1 When FCH is mounted in a Extended Density Slot If the FCH is to be mounted in the Extended Density Slot, the connection trunk should be assigned as shown in the figures below. If the card’s mounting location is in any of the Slot Nos. 04, 06, 08, or 15, 17, 19, the following extended Group should be used for the Dch trunk: G27, 29, or 31. Figure 5-23 shows an example where the cards are mounted in density Slots 04 or 05. Figure 5-23 Mounting FCH and DTI Cards in Regular Density Slots C_RT C_TK C_LENS WRT? ACTK (Assignment of Connection Trunk Data for Local Data Memory) Y 10 1 000010 C_RT: Connection Route (1-1023) C_TK: Connection Trunk (1-4095) C_LENS: Connection Line Equipment Numbers PIM 000204 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 202122 23 12 13 1415 16171819 20212223 00 01 02 04 0406 06 0808 1010 03 05 05 07 07 09 09 11 11 1213 1415 1617 1819 20 212223 PWR DPWR 32 Port16 Port32 Port 16 Port FRONT VIEW example TSW/MUX TSW/MUX
ND-70185 (E) CHAPTER 5 Page 77 Revision 3.0 DATA PROGRAMMING Assignment of Telephone Numbers Table 5-2 Data Programming Sheet for Regular Density Slot C_RT (1-1023)C_TK(1-4095)C_LENS Time Slot Allocation MG U G LV 10 (B-ch)1 000010 2000011 3000012 4000013 5000014 6000015 7000016 8000017 9000020 10000021 11000022 12000023 13000024 14000025 15000026 16000027 17000030 18000031 19000032 20000033 21000034 22000035 23000036 11 (D-ch)1000037 2000270 0405 01 2703 00 02Dch (TK1) Bch (TK23) Bch (TK1) Dch (TK2) Bch (TK8) Bch (TK9) Slot No. Example Group No. Specify Dch -TS by setting switch on FCH. FCH DTImounting slot Extended Group
CHAPTER 5 ND-70185 (E) Page 78 Revision 3.0 DATA PROGRAMMING Assignment of Telephone Numbers 6.1.2 When FCH is Mounted in a High Density Slot If the FCH is to be mounted in the High Density Slot, the connection trunk data should be assigned as shown in the figures below. Figure 5-24 shows an example where these cards are mounted in Slots 11 and 12. Figure 5-24 Mounting FCH and DTI Cards in High-Density Slots 00 02 04 05 06 07 08 09 10 13 14 15 16 17 18 19 20 21 22 23 12 13 1415 0001 02 0001 02 0404 0606 08 0810 1003 03 0505 0707 0909 11 11 12 13 14 15 16 17 18 19 20 21 22 23 The figure below shows an example where these cards are mounted in slots 11, and 12. 11 12 TSW/MUX TSW/MUX DPWR PWR
ND-70185 (E) CHAPTER 5 Page 79 Revision 3.0 DATA PROGRAMMING Assignment of Telephone Numbers When the DTI cards is mounted in a double density slot, the C_LEN data for the FCH and DTI cards are as follows. Figure 5-25 How to Assign C_LEN Data (Type 2) 0002 04 05 06 0708 09 1011 12 1314 1516 1718 1920 2122 23 04 02 00 06 1005 07 11 12 131415 161718 0001 02 04 06 08 10 03 05 07 09 11 1213 14 15 1617 18 19 20 21 22 23 08 09 PIM Universal SlotsUniversal Slots PWR DPWR TSW/MUX TSW/MUX03 01 FCH DTI DTI 20 FCH 23 22 21 19 Example
CHAPTER 5 ND-70185 (E) Page 80 Revision 3.0 DATA PROGRAMMING Assignment of Telephone Numbers Table 5-3 Data Programming Sheet for High Density Slot C_RT (1-1023)C_TK (1-4095)C_LENS Time Slot Allocation MG U G LV 10 (B-ch)1 000210 2 000211 3 000212 4 000213 5 000214 6 000215 7 000216 8 000217 9 000220 10 000221 11 000222 12 000223 13 000224 14 000225 15 000226 16 000227 17 000230 18 000231 19 000232 20 000233 21 000234 22 000235 23 000236 11 (D-ch)1 000237 2 000190 1112 19 23 22 21Dch (TK1) Bch (TK23) Bch (TK17) Dch (TK2) Bch (TK9) Bch (TK16) Bch (TK1) Bch (TK8) Slot No. Group No. 20 FCH DTImounting slot
ND-70185 (E) CHAPTER 5 Page 81 Revision 3.0 DATA PROGRAMMING Assignment of FCH Related Data STEP 4: MBCT Unbusy the connection trunk data assigned in the previous step using MBCT (Make Busy of Connec- tion Trunk) command. This step is required for both B-channel and D-channel trunk. The MBCT command should look similar to the following. Figure 5-26 MBCT Command Display 7. Assignment of FCH Related Data STEP 1: For Fusion with FCH only: Assign FCH Number on an FCH (PA-FCHA) circuit card basis. The FCH Number must conform to the following conditions: FCH Number range must be between 1 and 255. At the network level, the same FCH Numbers can be assigned. However, they must be unique at the node level. Use sequential numbers starting from 1 as FCH Numbers. MBCT (Make Busy of Connection Trunk Data) MBCT (Make Busy of Connection Trunk for Local) 1 05 C_RT C_TK MB WRT? YC_RT: 1-1023 C_TK: 1- 4095 Make Busy Information 0: Make Idle 1: Make Busy (Outgoing)
CHAPTER 5 ND-70185 (E)
Page 82
Revision 3.0
DATA PROGRAMMING
Assignment of FCH Related Data
Figure 5-29 shows a sample data assignment when FCH cards are located in the PIM 0 slot 4 and PIM 2 slot 11.
Figure 5-27 Assignment of FCH Number
The AFCH command display should look similar to the following:
Figure 5-28 AFCH Command Display (example)
NECNEAX 2400 IMS
FCHN=2
LENS: 000270FCHN=1
As an example, data assignment when FCH cards are accommodated in the following slots is shown here.
PIM 0, slot 4 and PIM 2, slot 11
Data Assignment
PIM 0 Slot 04 LENS 011190
PIM 2 Slot 11
FCHN: 2 FCHEN: 01 0 19 0FCHN: 1 FCHEN: 00 0 27 0
AFCH (Assignment of FCH Number for.....)
Slot No.
Dch (TK1)
Bch (TK23)
Bch (TK1) Bch (TK8)
Bch (TK9) Bch (TK16) Bch (TK17)
20
Dch (TK2)
11
12Group No.1923
22
21
DTI
FCH
Use odd number as the Group No. and Level 0 for the FCHN.
example 2
(High-density slot 11) example 1
(Regular-density slot 04)
FCHEN
xx x 19 0
MG UGr
Lv
Use this LENS.
odd No.
Lv=0
FCH card
PBX
FCHEN
xx x 27 0
MG UGr
Lv
Use this LENS.
0405
01
2703
00
02Dch (TK1)
Bch (TK23)
Bch (TK1)
Dch (TK2) Bch (TK8)
Bch (TK9)
Slot No.
Group No.
FCH DTI
Extended Group
Untitled - EclipseCmd
File ViewHelp
AFCH (Assignment of FCCH Number for.....)
FCHN
FCHNEN
WRT?1
000270
Y
FCHN (1-255)
FCHEN
x x x x x x
MG: 0-7
U: 0-3
Group: 00 - 31
Lv: 0-7
MGUGrLv
Note:Before assigning FCHN, the trunk data must have been assigned using the ACTK command.
ND-70185 (E) CHAPTER 5 Page 83 Revision 3.0 DATA PROGRAMMING Assignment of FCH Related Data STEP 2: AFRT (Fusion with FCH only) Assign connection route numbers as shown below using the AFRT command. Figure 5-29 AFRT Sample Data Sheet The AFRT command display should look similar to Figure 5-30. Figure 5-30 AFRT Command Display FCHN = 1 CNT = 1 C_RT : 10 LN 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 10TRK 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 Local) WRT? Connection RouteAssign FCHN (1-255) CNT CNT C_RTC_RT 1 2 3 45 6 7 8 1 10Y
CHAPTER 5 ND-70185 (E) Page 84 Revision 3.0 DATA PROGRAMMING Assignment of FCH Related Data STEP 3: AFPCAssign FCH routing data using the AFPC command. A maximum of 8 connection routes and FCHN/ FPCN can be assigned on a node basis. FCHN is used for Fusion System with FCH. FPCN is used for Fusion System without FCH. The list box labeled FCH on the AFPC command determines the system type. Assign “0” for Fusion System without FCH and “1” for Fusion System with FCH. In this step, the explanation is given using the following network as an example. Figure 5-31 shows a sample Fusion network. Each number in the circle represents the Fusion Point Code (FPC). Figure 5-31 Fusion Network (example) The AFPC command display (Fusion with FCH) should look similar to the following: Figure 5-32 AFPC Command Display (example) WARNING: The AFPC command affects communications between nodes. Change the data with extreme care. NCN: Network Control Node LN: Local Node This figure shows an example of Fusion network. Each number in the circl\ e stands for Fusion Point Code (FPC). Node C LN LN LN LN LN LN LN LNNCN1 2 10 11 12 21 22 23 24 C_RT=10 Node A Node BNode D Node E Node F FCHN=1 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 Local) FCCH 22 1 0: Fusion without FCH / 1: Fusion with FCHAssign Destination FPC (far end FPC). 10 FCH number (1-255)
ND-70185 (E) CHAPTER 5 Page 85 Revision 3.0 DATA PROGRAMMING Assignment of FCH Related Data The table in Figure 5-33 shows a sample data sheet for Node A on a Fusion network with FCH. Assign the data for all nodes including the nodes which are not directly connected on the network. For example, in this figure Node C and Node D are not directly connected to the network. Figure 5-33 AFPC Sample Data Sheet FPC 2(to Node B) FCCH 1(with FCH) CNT C_RT FCHN 1 10 1 FPC 21(to Node C) FCCH 1(with FCH) CNT C_RT FCHN 1 10 1 Assign all nodes data in the same manner. AFPC (at Node A) - Fusion with FCH FPC 2(to Node B) FCCH 0(without FCH ) CNT C_RT FPCN 1 10 2 FPC 21 (to Node C) FCH 0 (without FCH0) CNT C_RT FPCN 1 10 2 Assign all nodes data in the same manner. This table shows a sample data sheet for Node A on the fusion network without FCH. Assign the data for all nodes including the nodes which are not directly connected on the network. (i.e.Node C, Node D.....) 21 1C_RT=102 Node B Node A FCHN=1Node C 21 1C_RT=102 Node B Node A FCHN=1Node C Node B AFPC (at Node A) - Fusion without FCH Node B Node CNode C 1C_RT=102 Node B Node A FCHN=1 -To Node B- 1C_RT=102 Node B Node A FCHN=1 -To Node B--To Node C- -To Node C- Assign adjacent Nodes FPC Assign adjacent Nodes FPC Assign destination (far end) Nodes FPC