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NEC Neax 2400 Imx Fusion Network System Manual

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    							CHAPTER 5 ND-70185 (E)
    Page 86
    Revision 3.0
    DATA PROGRAMMING
    Assignment of FCH Related Data
    STEP 4: ACAN
    Assign the Fusion Connection Index Code (FCIC) and the LENs on an adjacent FPC basis. Figure 5-
    34 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 adja-
    cent nodes must be identical.
    Figure 5-34   ACAN Sample Data Sheet
    The ACAN command display should look similar to the following:
    Figure 5-35   ACAN Command Display (example)
    FPC = 2     FCIC = 1        C_LENS = 000010
    FPC = 2     FCIC = 2        C_LENS = 000011
    FPC = 2     FCIC = 3        C_LENS = 000012
    FPC = 2     FCIC = 4        C_LENS = 000013
        :                 :                           :
    
    
    LCN
    LCN
    LCN LCN
    LCN LCN
    NCN1
    2
    C_RT=10
    Node A
    Node BFCIC=1FCIC=1FCIC=2
    FCIC=nFCIC=2FCIC=n
    TRK 1
    TRK 10TRK 3TRK 31
    TRK 32
    TRK 40 :
    ::
    :
    Adjacent-Node
    Self-Node
    A sample data sheet at Node A is as follows.
    FCIC number must 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 
    						
    							ND-70185 (E) CHAPTER 5
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    DATA PROGRAMMING
    Assignment of FCH Related Data
    7.1 Assignment of Access Code for Tandem Connection via FCCS - ACIS
    For Release 3 or later software, tandem connection via FCCS - ACIS link can be established. Using LDM,
    appropriate routing data for each node can be assigned as shown in the following example.
    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, one of four methods - OGC, OGCA, LCR, LCRS - can be used (See
    the following sections).
    7.1.1 OGC
    A procedure for assigning the OGC access code is explained using the following example.
    Figure 5-36   Example of OGC
    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
    Logical 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
    STN (B)
    Node B
    PSTN
    1-202-345-6789
    Station B dials
    9-1-202-345-6789FCCSLGRT:200
    COT Node A
    
    
    
    ............................................................ 
    						
    							CHAPTER 5 ND-70185 (E)
    Page 88
    Revision 3.0
    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 com-
    mand. When the access code is assigned for each node, use the ASPAL command.
    ACC=9 CI=N (Normal) SRV=OGC LGRT=200
    ACC=9 CI=H (Hooking) SRV=OGC LGRT=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) 
    						
    							ND-70185 (E) CHAPTER 5
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    DATA PROGRAMMING
    Assignment of FCH Related Data
    7.1.2 OGCA
    A procedure for assigning OGCA access code is explained using the following example.
    Figure 5-37   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 com-
    mand. When the access code is assigned for each node, use the ASPAL command.
    ACC=9 CI=N (Normal) SRV=OGCA COUNT=2 1st LGRT=100 2nd LGRT=200
    ACC=9 CI=H (Hooking) SRV=OGCA COUNT=2 1st LGRT=100 2nd 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 ND-70185 (E)
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    Revision 3.0
    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 using the following example.
    Figure 5-38   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
    
     
    						
    							ND-70185 (E) CHAPTER 5
    Page 91
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    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 com-
    mand.
    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/LCRS LGRT=Dummy route number
    ACC=8 CI=H (Hooking) SRV=LCR/LCRS LGRT=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) 
    						
    							CHAPTER 5 ND-70185 (E)
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    Revision 3.0
    DATA PROGRAMMING
    Assignment of FCH Related Data
    STEP 5: ARTD/ARTDN
    Using ARTD, assign the following CDN data for the dummy route number.  Note 1
    CDN 6 (TCL)=1 or 4 (depending on requirement) 
    CDN 7 (L/T)=1
    CDN 13 (AC)=1
    The other CDNs may be left default (data 0) for the dummy route.
    STEP 6: AFRSL/AFRSN  Note 2
    Using AFRSL, assign the Number Pattern Code (NPC) and the Outgoing Route Selection Pattern
    Number (OPR) for the dummy route number.
    LGRT=Dummy route number NPC=8110 OPR=1
    STEP 7: AOPRL/AOPRN  Note 2
    Using AOPRL, assign the external route number to OPR assigned in the AFRSL command.
    TDPTN=0 OPR=1 RA=0 E=1 LGRT=10 SKIP=4 PNL=0 OVFT=0
    PRSC=0
    TDPTN=0 OPR=1 RA=1 E=0 LGRT=200 SKIP=8 PNL=128 OVFT=0
    PRSC=0
    STEP 8: AADCL/AADCN  Note 2
    Using AADCL, assign the additional Digit Code to PNL assigned in the AOPRL command.
    PNL=128
    DC=12025678901
    STEP 9: ARSCN
    Using 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 1:The dummy route must be assigned to all nodes (including a node which does not have external routes).
    Note 2: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) 
    						
    							ND-70185 (E) CHAPTER 5
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    Revision 3.0
    DATA PROGRAMMING
    Assignment of FCH Related Data
    7.2 Data Assignment for 52M-SDH Interface
    This section explains the Fusion Connection with 52M-SDH interface, which is available for Release 4 or
    later software.
    The figures below explain the connection pattern.
    F u s i o n
    Node-A
    Optical Fiber Cable
    Optical Fiber Cable
    For Dual Configuration Connection Link (Data Link)
    Connection Trunk (Speech Path)
    Internal LAN
    FCH
    S
    D
    T
    B
    Node-B
    Internal LAN
    S
    D
    T
    BFCH+
    Fusion Link with FCCH
    Fusion Link without FCCH
    F u s i o n
    SDTA
    SDTA
    SDTA
    SDTA
     ) SDT: SDH/SONET Digital Trunk
    FCH: Fusion Call Control Handler* 
    						
    							CHAPTER 5 ND-70185 (E)
    Page 94
    Revision 3.0
    DATA PROGRAMMING
    Assignment of FCH Related Data
    Specifications for the SDH data setting are described below.
    1. When FCCS and CCIS links are used together in the network, the different route number must be assigned
    to each Connection Trunk (B-ch), Connection Link (D-ch), Speech Line for CCIS and Signal Line for
    CCIS.
    2. System data (SYS1, INDEX 531) must be assigned prior to the trunk data assignment for the SDT.
    3. When the SDT card is used to replace with the DTI card, and the trunk data has already been assigned for
    the DTI, perform the circuit card initialization after setting system data.
    4. When assigning Connection Links to the SDT card, a maximum of 512kbps (8ch) TS (Time slot) can be
    used as Connection Link (data link). Assignment order of TSs used for Connection Link between SDT
    and FCH must be identical. Any TS can be used for Connection link.
    7.2.1 Data Programming
    STEP 1: ASYDL
    Designate the MG of accommodating the SDT circuit card.
    b0-b7 Assign “1” to the bit number corresponding to the mounted MG number.
    Note:SDT can be mounted in the odd MG only.
    STEP 2: ACRD
    Assign the Connection Route Class data.
     Connection trunk (for Voice)
    C_RT: 10
    TF=3 TCL=4 RLP=2 LSG=12
    FCCS
    Example:
    The same route number can not be used for the different route.Available Not Available
    Connection Trunk
    Connection Link
    Speech Line
    Signal Line CCISRT=10
    RT=11
    RT=20
    RT=21 Network
    RouteRoute
    NumberFCCSConnection Trunk
    Connection Link
    Speech Line
    Signal Line CCISRT=10
    RT=11
    RT=10
    RT=11 Network
    RouteRoute
    Number
    × 
    						
    							ND-70185 (E) CHAPTER 5
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    DATA PROGRAMMING
    Assignment of FCH Related Data
     Connection Link (for Data)
    C_RT: 11
    TCL=4 LSG=13
    STEP 3: ACTK
    Assign the Connection Trunk data for B-ch and D-ch.
    Example:(When using 512kbps (8ch) TS as Connection link)
     Connection trunk (B-ch)
    C_RT: 10 TK: 1-664 CLENS: LEN for the SDT
     Connection Link (D-ch)
    C_RT: 11 TK: 1-8 CLENS: LEN for the FCH
    C_RT: 11 TK: 9-16 CLENS: LEN for the SDT
    Note:Set the switch on the FCH card depending on the transmission speed.
    See “CHAPTER 4 INSTALLATION” for more information on switch settings.
    STEP 4: AFCH
    Assign the FCCH number for each FCCH.
    FCHN: 2 (FCCH number) FCHEN: LEN of  FCCH
    STEP 5: AFPC
    Assign the FCCS routing data.
    FPC: 1 (FPC of the adjacent node) FCCH: 1 (with  FCCH)
    CRT: 10 FCHN: 2
    STEP 6: ACAN
    Assign the CIC number to the connection trunk.
    FPC: 1 FCIC: 1-664 CLENS: LEN of the connection trunk
    STEP 7: AFRT
    Assign the FCCH Controlled Connection Route data.
    FCHN: 2 CRT: 10 
    						
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