NEC Neax 2400 Ipx Fusion Network System Manual

							CHAPTER 5 NDA-24299
Page 66
Revision 1.0
DATA PROGRAMMING
Assignment of System Data
STEP 4: ASYDL and ASYDN
Assign other system data using the ASYDL/ASYDN command.
When Timing Start is used, assign the following data.
Index 161 b6 : 0/1=-/Timing Start using “#” code
b7 : 0/1=-/Timing Start using “*” code
Index 170 b4 : 0/1=Timing Start out of Service/Timing Start in Service 
Note 1
Index 640 Fusion Point Code (FPC) of node providing ATTCON Note 2
Index 704~735 (ASYDL)
FPC of the node to which ATTCON transfers the Day/Night changeover information. 
Note 3
Assign FPC of a terminating node for House Phone, Off-Hook Alarm and Ring Down (IC) calls from PSTN.
Day/Night information is transferred from the terminating node.
Note 1:When Timing Start is in service, Called Sub Address for ISDN Network cannot be dialed.
Note 2:This data is necessary at each node. Assign the self-FPC at the terminating node.
Note 3:This data is necessary at the node providing ATTCON.
Index 800
For ASYDL b0 : 0/1 = ALGNL, ALGSL on a UGN (TN) basis/-
b1 : 0/1 = ASPAL on a TN basis/-
b2 : 0/1 = ANPDL on a TN basis/-
b4 : 0/1 = AFRSL, ASTPL, AUNEL on a TN basis/-
b5 : 0/1 = ASTPL on a TN basis/-
b7 : 0/1 = AAEDL on a TN basis/-
For ASYDN b0 : 0/1 = ALGNN, ALGSN on a UGN (TN) basis/-
b1 : 0/1 = ASPAN on a TN basis/-
b2 : 0/1 = ANPDN on a TN basis/-
b4 : 0/1 = AFRSN, ASTPN on a TN basis/-
b5 : 0/1 = ASTPN on a TN basis/-
b6 : 0/1 = ARSCN on a TN basis/-
b7 : 0/1 = AAEDN on a TN basis/- 
						

							NDA-24299 CHAPTER 5
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DATA PROGRAMMING
Assignment of System Data
When “different numbering development on a TN basis” is not required, set the above bits. Figure 5-8 shows
the display of the ASYDN command Index 514 as an example. 
Figure 5-8   ASYDN Command Display (Example)
Note 4:
Be sure to execute “Non-Load Initial” after setting the FPC data. The assigned FPC becomes effective by
this operation.
1 
						

							CHAPTER 5 NDA-24299
Page 68
Revision 1.0
DATA PROGRAMMING
Assignment of FPC and MG and UNIT into Network
3. Assignment of FPC and MG and UNIT into Network
3.1 AFMU
Assign the module accommodation data by giving Module Group Number and Unit Number on an FPC
basis. This data is necessary to allocate unique Network ID (NID) to each MG/UNIT of the whole Fusion
network nodes. 
Note:This data can be set at the NCN only. A unique NID is assigned to each MG/UNIT automatically by entering
the AFMU data.
When the Fusion network is configured for the first time:
Enter the AFMU command data for all the Fusion network nodes (FPCs). Then, a unique NID is
assigned automatically to each MG/UNIT in the assigned order.
When the Fusion network is already configured and a module/unit is to be expanded:
Enter the AFMU command data related to the expanded module/unit. Then, a unique NID number, next
to the last existing NID number, is automatically assigned to the expanded module/unit.
Figure 5-9 shows an example data assignment for this particular network.
Figure 5-9   Assignment of Module Accommodation Data
The AFMU command display should look similar to Figure 5-10.
Figure 5-10   AFMU Command Display
MG=1
MG=0
U 0 U 0
U 1 U 1
U 2 U 2
U 3U 3 PBX
MG=1
MG=0
U 0 U 0
U 1 U 1
U 2U 3 PBX
MG=0
U 0U 1 U 2U 3 PBX
MG=1
MG=0
U 0 U 0
U 1 U 1
U 2 U 2
U 3U 3 PBX
FP C  = 1,    M G  =  0,                                U N IT  = 0  
U N IT  = 1 
U N IT  = 2 
U N IT  = 3 
                  M G  =  1 , U N IT  = 0 
U N IT  = 1 
U N IT  = 2 
U N IT  = 3 
                               
FPC = 11,  M G  = 0,                                U N IT  = 0  
U N IT  = 1 
U N IT  = 2 
U N IT  = 3 
                  M G  =  1 , U N IT  = 0 
U N IT  = 1 
U N IT  = 2 
U N IT  = 3 
                               
FPC = 13,  M G  = 0,                                U N IT  = 0  
U N IT  = 1 
U N IT  = 2 
U N IT  = 3 
                  M G  =  1 , U N IT  = 0 
U N IT  = 1                                FPC = 12,  M G  = 0,                                U N IT  = 0  
U N IT  = 1 
U N IT  = 2 
U N IT  = 3 
                               
LNNode 
B
LN
Node 
C
LN
Node 
DNode A
Node B
Node C
Node D
NCN
Data Assignm ent at NCN
FPC=1
FPC=12
FPC=11
FPC=13
Node 
A
MAT
 M G (Module G roup Num ber): 0 - 7FPC (Fusion Point Code): 1- 253
FPC1UNIT1 MG0
WRT?
Y AFMU (Assignment of FPC and MG and UNIT for Network Data Memory)
 M G  (M odule Group Num ber): 0 - 7 FPC (Fusion Point Code): 1- 253
U  (U nit N um ber): 0 - 3
Note:For more information on each parameter, see the “Office Data Specification” manual. 
						

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DATA PROGRAMMING
Assignment of Logical RT in Network DM (NDM)
4. Assignment of Logical RT in Network DM (NDM)
4.1 ALRTN/ARTKN
Use this command to assign Logical Route Numbers to all external trunks used on a Fusion network.
Assign unique telephone numbers to the whole route for external trunks on the network (including COT,
DAT, Dummy Route, etc.) using this command. The data can be set at the NCN only and should be set for
every external route in every node. Refer to Figure 5-11.
Figure 5-11   Telephone Number Required
Figure 5-12 shows an example data assignment of this “Logical Route” data.
Figure 5-12   Assignment of Logical Route Number
The Logical Route Numbers should be alloted to the whole external trunks, such as the Non-Fusion trunks including COT, TLT, DA T  
and LCR as well as DTIs B ch and D ch (used for Fusion). Assign the necessary data by using the ALRTN command. 
Trunk
Internal
External
Fusion-Related DTI
Non-FusionB ch
D ch
COT
TLT
DAT
LCR
....
Logical Route Number 
should be allotted to 
all the trunks shaded here.
Data Assignment at NCN
LCNNode C
FPC=12
LCN
Node B
FPC=11
LCN
Node D
FPC=13
NCN
Node A
MAT
FPC=1
DAT: RT 23
DAT: RT 27
DAT: RT 1
DAT: RT 7
COT: RT 2
COT: RT 3
COT: RT 25TLT: RT 15
LCR: 255
Node A
Node B
Node D Node CLGRT: 100  --  FPC = 1, RT = 2 (COT) 
LGRT: 101  --  FPC = 1, RT = 27 (DAT)
....
LGRT: 200  --  FPC = 11, RT = 25 (COT) 
LGRT: 201  --  FPC = 11, RT = 15 (TLT) 
LGRT: 202  --  FPC = 11, RT = 7   (DAT)
....
LGRT: 400  --  FPC = 13, RT = 255 (LCR) 
LGRT: 401  --  FPC = 13, RT =  1    (DAT)....
LGRT: 300  --  FPC = 12, RT = 3   (COT) 
LGRT: 301  --  FPC = 12, RT = 23 (DAT)
.... 
						

							CHAPTER 5 NDA-24299
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DATA PROGRAMMING
Assignment of Numbering Data for Telephone Numbers
The ALRTN command display should look similar to Figure 5-13:
Figure 5-13   ALRTN Command Display
5. Assignment of Numbering Data for Telephone Numbers
STEP 1: ANPDN
Make a telephone numbering plan on the network. The explanation is given here on the assumption
that the network adopts the numbering plan shown in Figure 5-14. Therefore, modify the data
assignment explained here when you assign the data on your network.
Figure 5-14   Telephone Number Allocation
 
1234
OFF
12 34
OF F1234 567 8
OF F
12 34567 8
OFF
1234 5678
OFF
1234 567
OF F
 
12 34
OFF
1234
OFF1 234 5678
OFF
1234 567 8
OF F
1234 5
678
OFF
1234
5678
OFF
SW4D SW5D
SW6C
SW39
SW58
SW25
OPE
N-OPE
MB
SW13BPC M 
FRM  
BER  
RMT 
 AIS
BL23
BL00
CN2
ATTENTIONContents
Static Sensitive
Handling
Precautions Required
DTI (PA-24DTR) Card   
 
LNFPC=12 
LN
FPC=13 
LNNCN FPC =1 FPC=11 Node  
B
Node 
ANode 
C
Node 
D
 
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TELN:410000TELN:410001
STN 2000STN 2001
TELN:440000
STN 2000
TELN:420000
STN 2000
TELN:430000
STN 2000
STN:   Physical Station Number 
TELN: Telephone Number
White numerals on black background are telephone numbers.
ANPDN 
ASPAN 
						

							NDA-24299 CHAPTER 5
Page 71
Revision 1.0
DATA PROGRAMMING
Assignment of Numbering Data for Telephone Numbers
STEP 2: ANPDN
Assign Pre-translation Data for the telephone numbers planned in Step 1 using the ANPDN command
at NCN. Figure 5-15 shows the data setting for ANPDN.
Figure 5-15   ANPDN Sample Data Sheet
The ANPDN command display should look similar to Figure 5-16:
Figure 5-16   ANPDN Command Display
Note:
Perform the Numbering Plan data setting by using ANPD command as assigned by ANPDN command.
- ANPDN  Data Sheet (example) 
- NCN (Node A)
TN = 1      1st DC = 4          CI = N (Normal)           NND = 6            BLF = 0
TN = 1      1st DC = 4          CI = H (Hooking)         NND = 6            BLF = 04 x x x x x Telephone Number
6 digits
 
 TN
NND1stDC
BLFCI ANPDN (Assignment of Numbering Plan for Network Data Memory)
1N
1 4
6
CI (Connection Index) 
         N: Normal 
         H:  Hooking 
         B:  Busy
NND (Necessary Digit):  1 - 16 digits 1stDC (1st Digit Code): ASCII  0 - 9, *, #
BLF (Busy Lamp Field): 
        0: Out of Service 
        1: In Service 
						

							CHAPTER 5 NDA-24299
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DATA PROGRAMMING
Assignment of Numbering Data for Telephone Numbers
STEP 3: ASPAN
Assign special access code data for the telephone numbers using the ASPAN command. SRV=TELN
is the data for telephone numbers. Figure 5-17 and Figure 5-18 show a sample data sheet and
command display for ASPAN.
Figure 5-17   ASPAN Sample Data Sheet
Figure 5-18   ASPAN Command Display
Note:
The Numbering Plan data for the LDM and/or NDM cannot use separate Tenant Numbers (TN), so be sure
to assign the following data on the ASYDL command.
ASYDL command, SYS1, INDEX 800
b1 = 1 (ASPAL command tenant data table development on LDM = Common)
b2 = 1 (ANPDL command tenant data table development on LDM = Common)
SRV (Kind of Service) 
TELN: Telephone Number
- ASPAN  Data Sheet (example) 
- NCN (Node A)
4 x x x x x Telephone Number
6 digitsTN = 1      ACC = 4      CI = N (Normal)      SRV = TELN       NND = 6
TN = 1      ACC = 4      CI = H (Hooking)    SRV = TELN       NND = 6
Note:Available SRV is telephone number only. For more information, see the “Office Data Specification”.
 
 
 
ACC (Access Code): max 6 digits
CI (Connection Index) 
         N: Normal 
         H:  Hooking 
         B:  Busy
NND (Maximum Number of Digits):   
         1 - 16 (digits)
 SRV (Kind of Service) 
       TELN: Telephone Number 
 Note
1 TN
SRV
TELN
ASPAN (Assignment of Special Access Code Data for Network Data Memory)
4 1st DCCI
NNDN
6 
						

							NDA-24299 CHAPTER 5
Page 73
Revision 1.0
DATA PROGRAMMING
Assignment of Telephone Numbers
6. Assignment of Telephone Numbers
This section explains how to program telephone numbers. To program telephone numbers, use ALGSN
command. A telephone number can be assigned to a station with the use of the LENs or the Physical Station
Number depending on programming.
Note:The Fusion link must be operational before telephone numbers can be programmed in the Fusion network.
COMMAND: ALGSN/ATSTN
Assign telephone numbers to Physical Station Number (Type 2) or to physical LENS (Type 1) using
the ALGSN/ATSTN command. Figure 5-19 and Figure 5-20 show an example data sheet-Type 2 and
the command display for ALGSN.
Figure 5-19   ALGSN Data Sheet (Example)
-  ALGSN  Data Sheet (example) 
-  NCN (Node A)
Node A
Node B
Node C
Node D
: 
:: 
: Type = 2       UGN = 1        TELN = 410000        FPC = 1        TN = 1       STN = 2000
Type = 2       UGN = 1        TELN = 410001        FPC = 1        TN = 1       STN = 2000
Type = 2       UGN = 1        TELN = 420000        FPC = 11      TN = 1       STN = 2000
Type = 2       UGN = 1        TELN = 430000        FPC = 12      TN = 1       STN = 2000
Type = 2       UGN = 1        TELN = 440000        FPC = 13      TN = 1       STN = 2000Telephone Num ber
Physical Station Number
Note:This data is an example of telephone numbers assigned by the ALGSN command. 
						

							CHAPTER 5 NDA-24299
Page 74
Revision 1.0
DATA PROGRAMMING
Assignment of Telephone Numbers
Figure 5-20   ALGSN Command Display (Example)
UGN
TELN
WRT? 
ALGSN (Assignment of Telephone Station Data In Network)
11
Y
FPC
141000 TYPE
LENS
000100
Physical LENS Telephone Num ber
 
For Help, press F1
 
NUM
UGN
TELN
WRT? 
ALGSN (Assignment of Telephone Station Data In Network)
21
Y
FPC
1TN
1 41000 TYPE
STN
2000
Physical Station N um ber Telephone Num ber
 
For Help, press F1
 
NUM 
						

							NDA-24299 CHAPTER 5
Page 75
Revision 1.0
DATA PROGRAMMING
Assignment of Telephone Numbers
6.1 Assignment of Connection Route/Trunk Data
STEP 1: ACRD
Using the ACRD command, assign the connection route data of Fusion link. The data must be
assigned for both B-channel and D-channel. Assign appropriate data referring to Table 5-1.
Figure 5-21 shows an example of route numbers for B-ch and D-ch.
Figure 5-21   B-ch and D-ch (Example)
The ACRD command display should look similar to Figure 5-22.
Figure 5-22   ACRD Command Display (Example)
NE
CNE
A
X
 
24
0
0
 
IM
S
Fusion Network
D ch
D ch B ch
B ch
B-ch: Bearer Channel D-ch: Data Channel      FPC: Fusion Point CodeRoute 10
Route 11Route 12
Route 13
:
:
:
:
Node A
FPC = 1
N
ECN
E
AX
 
2
40
0
 
I
MS
Node B
FPC = 2
C_RT
For Help, press F1
 
10
CDN CDN CDNFUNC FUNC FUNCDT DT DT
1
TF
2
3
4
5
67
8
9
10
11
1213
TCL
RLP
SMDR
LSG
PADTRKS
TC/EC
FPEG
TC
MTCSTSEQ
LKIND
IPLYR FINT 3
4
2
0
12
70
0
0 14
 15
 16
 17FGH
MMN0
0
0
0 0
0
00 ACRD (Assignment of Connection Route Class Data)
This figure shows an example of data setting for a B-ch route.
C_RT: 1-1023