NEC Neax 2400 Ipx Office Data Specification
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NDA-24298 CHAPTER 4 Page 557 Issue 1 ALRNN : Assignment of Logical Route and Route Class Data for NDM Figure 4-17 SMDR2 (ALRNN) Table 4-24 SMDR2 (ALRNN) CONTENTS/INPUT 0123456789101112131415 b00-Detailed billing is not required for incoming calls.×××× 1-Detailed billing is required for incoming calls.×××× b10-Detailed billing is required for toll and local outgoing calls. ×× ×× 1-Detailed billing is required only for toll outgoing calls.×× ×× b2, 30- 1-Metering pulses are used.×××× 2- 3- b0b1b2b3 0/1: -/Incoming Call (SMDR is required) 0/1: SMDR is required for toll and local out- going calls/SMDR is required only for toll outgoing calls. 0: 1: 2: 3:Metering pulses are necessary. Hexadecimal assignment is “01.” Example: b0b1b2b3 00 01 84 21b0=bit 0 b 1=bit 1... The following explains what hexadecimal data “1” means for SMDR2: For incoming calls SMDR is required because Bit 0 is assigned as one (1). SMDR is required for toll and local outgoing calls because Bit 1 is assigned as zero (0). Metering pulses are detected by the system; therefore Bit 2 is zero (0) and Bit 3 is zero (0).
CHAPTER 4 NDA-24298 Page 558 Issue 1 ALRNN : Assignment of Logical Route and Route Class Data for NDM LOGICAL ROUTE (LGRT) 1-899 REMARKS FUSION POINT CODE (FPC) 1-253 ROUTE NUMBER (RT) 1-255 24 OC 0= - 1 = Originating Category Information is used For MFC signaling (Brazil and Mexico) 25 R/LAttendant-Identification of Incoming Trunk Display. 0 = TN, RT, TK display 1 = C.O. Line Number display 26 RVSDTrunk Reversal Identification This data is necessary when a specific Trunk route provides battery reversal for answer supervision. 0 = Battery Reversal System 1 = Third Wire System 27 TL Tone Level 0 0 0 0 Always assign data “0.” 2 8 ANS Answer signal from Trunk side. 0 = No answer signal is given. 1 = Answer signal is given. 2 9 TELPTime Elapse Indication Service 0 = Out of Service 1 = In ServiceTime Elapse Indication (TELP) is a warning tone sent to the caller after a predetermined period of time has elapsed (usually three minutes). 30 PADThis data determines Pad control on the ODT/DTI circuit card. TLT (EMT) DTI 0 = Depending on setting. – 7 = Pad Off(0db) Pad Off(0db) Pad=1-6: Actual PAD value depends on PAD ROM on the ODT/DTI circuit card. (See the IPX NEAX2400 Circuit Card Manual.) 31 OGRL Release timing for outgoing trunk connection. 0 = 608 msec. 1 = 224 msec. 2 = 288 msec. 3 = 352 msec. 4 = 416 msec. 5 = 480 msec. 6 = 544 msec. 7 = 608 msec. 8 = 672 msec. 9 = 736 msec. 10 = 800 msec. 11 = 864 msec. 12 = 928 msec. 13 = 992 msec. 14 = 1056 msec. 15 = 1120 msec. Normally assign data “0”. For ISDN, see Table 4-25. (Examples of Route Class Settings)
NDA-24298 CHAPTER 4 Page 559 Issue 1 ALRNN : Assignment of Logical Route and Route Class Data for NDM 32 ICRLRelease timing for incoming trunk connections. 0 = 288 msec.Note 1 = 224 msec. 2 = 288 msec. 3 = 352 msec. 4 = 416 msec. 5 = 480 msec. 6 = 544 msec. 7 = 608 msec. 8 = 672 msec. 9 = 736 msec. 10 = 800 msec. 11 = 864 msec. 12 = 928 msec. 13 = 992 msec. 14 = 1056 msec. 15 = 1120 msec. Normally assign data “0”. For ISDN, see Table 4-25 (Example of Route Class Settings). Note:160 msec. in case of Loop Dialing Trunk. 33 HDTrunk Hold Timing. 0 = 10 sec. 1 = 2 sec. 2 = 4 sec. 3 = 6 sec. 4 = 8 sec. 5 = 10 sec. 6 = 12 sec. 7 = 14 sec. 8 = 16 sec. 9 = 18 sec. 10 = 20 sec. 11 = 22 sec. 12 = 24 sec. 13 = 26 sec. 14 = 28 sec. 15 = 30 sec. Normally assign data “0”. 3 4 GUARDGround Timer Outgoing inhibit timing after trunk release. 0 = 3072 msec. 1 = 512 msec. 2 = 1024 msec. 3 = 1536 msec. 4 = 2048 msec. 5 = 2560 msec. 6 = 3072 msec. 7 = 3584 msec. 8 = 4096 msec. 9 = 4608 msec. 10 = 5120 msec. 11 = 5632 msec. 12 = 6144 msec. 13 = 6656 msec. 14 = 7168 msec. 15 = 7680 msec. Normally assign data “0.” For ISDN, see Table 4-25 (Example of Route Class Settings). 35 WINKWidth of a Wink Signal 0 = 160 msec. 1 = 64 msec. 2 = 96 msec. 3 = 128 msec. 4 = 160 msec. 5 = 192 msec. 6 = 224 msec. 7 = 265 msec. 8 = 288 msec. 9 = 320 msec. 10 = 352 msec. 11 = 384 msec. 12 = 416 msec. 13 = 448 msec. 14 = 480 msec. 15 = 512 msec. Normally assign data “0.” 36 VAD 0 0 0 0 Always assign data “0.” 37 CLD 0 0 0 0 Always assign data “0.” 38 FAForced Account/Forced Authorization Code 0 = Check is not required 1 = Check is required (For Remote Access to System) 39 BCC.O Line Idle Balance Condition. 0 = Not balanced 1 = BalancedFor Australia only LOGICAL ROUTE (LGRT) 1-899 REMARKS FUSION POINT CODE (FPC) 1-253 ROUTE NUMBER (RT) 1-255
CHAPTER 4 NDA-24298 Page 560 Issue 1 ALRNN : Assignment of Logical Route and Route Class Data for NDM 40 TCMTravel Class Mark 0 = Out of Service 1 = In Service 41 TDMQTandem Off Hook OG Queuing 0 = Out of Service 1 = In Service 42 TRSCTrunk Restriction class 0 = Out of Service 1-15= In ServiceSee AEFR command. 43 BT Inter-office Busy Service 0 = Out of Service 1 = In ServiceFor CCIS voice route, assign data “1.” 44 PRVLine Trunk Privacy 0 = Privacy Out of Service 1 = Privacy In Service For Busy Verification, Call Wait- ing, Executive Right of Way, Paging, Dictation, Data Communication, etc.). 45 A/DAnalog/Digital Line Data 0=Analog 1=DigitalAssign data “1” only for digital T1 routes or Bch of ISDN routes. 46 CWCall Waiting Service 0 = Out of Service 1 = In Service 47 TPQPriority OG Queuing 0 = Out of Service 1 = In Service 48 BLDetection of Blocking Signal 0 = No detection 1 = Detection 49 TRKSTrunk Selection Sequence 0 = Select from the trunk which becomes idle first. 1 = Select from the trunk which becomes idle last. Assign this data reversing to the mate office data. (Especially, for CCIS) 50 DPLYNumber Display of D term between offices 0=Not given 1=GivenFor CCIS voice route and ISDN Bch route. 51 ACD 0 = Out of Service 1 = –0000Always assign data “0” even ACD application. 52 2W/4W2 Wires/4 Wires 0 = 2 Wires 1 = 4 Wires0 0 0 0 Always assign data “0.” 53 FAAT Authorization Code for ATT 0 = Depends on RSC of ATT 1 = Authorization Code always required. 54 GWGateway Option 0 = Out of Service 1 = Data Signaling Trunk 2-15 = Not used 55 TCMA 0 0 0 0 Always assign data “0.” 56 SMDR3Detailed billing for outgoing in tandem connection. 0 = Required 1 = Not requiredAssign this for the in- coming route (ICRT), if necessary. LOGICAL ROUTE (LGRT) 1-899 REMARKS FUSION POINT CODE (FPC) 1-253 ROUTE NUMBER (RT) 1-255
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5 7 HDTHeterogeneous Data Trunk
0 = Not Heterogeneous Data Trunk
1 = Heterogeneous Data Trunk
58 CDConsecutive Dialing
0 = Out of Service 1 = In Service
59 CCHCommon Channel Handler
0 = CCH is not mounted (normal setting)
1 = CCH is mounted (ISDN or CCIS line) 0000Always assign data “0”
even ISDN/CCIS.
60 TC/EC 0 0 0 0 Always assign data “0.”
61 IRE Inter-rearranging signal
1=SupervisoryWhen assigning this data,
zero (0) should always be
entered.
62 SCRStep Call Restriction for Tie Line Call
0 = Step call is restricted.
1 = Step call is not restricted.
63 LYER1Layer 1 (For ISDN)
0 = 23 B+D 1 = 30 B+D0= µ law country
1= A law country
64 NETUser/Net Identification (For ISDN)
0 = User Side (normal setting)
1 = Network sideNormally assign data
“0.”
65 INTInterface Specification (For ISDN)
0 = No.7 1 = N-ISDN2 2 = Australia
3 = INS 1500 (NTT) 4 = ITU (CCITT), ETSI
5 = AT&T (#4/#5 ESS) 6 = INS 6 4 (NTT)
7 = NT DMS 100/DMS 250
8=Not used
9 = TTC Q931 a protocol Tie Line (JAPAN)
10 = Q-sig, (ETS 300 172)/IS-11572
66 DCDialed Number Confirmation (For ISDN)
0 = Sub Addressing
1-15 = DID AddressingNoteNote:Other than 0=
Number of
Main Address
Digits to be
translated.
6 7 HKSHooking Service
0 = Out of Service 1 = In Service
68 SCFSplit Call Forwarding
0 = Follow station forwarding (CF)
1 = Follow trunk forwarding (Split CF)This data is valid when
ASYDN, SYS,INDEX
79, b2 = 1.
69 SMDR4Detailed billing for incoming in tandem connection.
0 = Required 1 = Not requiredAssign this for the
outgoing route (OGRT) if
necessary.
70 TCMNNumber of digits of TCM (S Code)
0 = No digit 1 = 1 digit
2 = 2 digits 3 = Not usedUse this when ONSG/
INSG = 4 (MF).
LOGICAL ROUTE (LGRT) 1-899
REMARKS FUSION POINT CODE (FPC) 1-253
ROUTE NUMBER (RT) 1-255
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71 TCMCTCM and KP Sending Sequence
0=KP-ST 1=KP TCM-ST
2 = TCM KP-ST 3 = KP (TCM)-STUse this when ONSG/
INSG = 4 (MF).
7 2 MFSPSending Speed
Tone ON Tone OFF Digit/sec.
0= 68 msec. 68 msec. 7.5
1 = 56 m sec. 56 m sec. (C CITT No.5 ) Note
2= 68 msec. 32 msec. 10
3= 68 msec. 36 msec. 10
4= 48 msec. 48 msec. 10
5= 52 msec. 52 msec. 10
6-15= Not used
(In case of MFC)
0 = 24.0 sec. 1 = 5.5 sec.
2 = 7.0 sec. 3 = 8.5 sec.
4 = 10.0 sec. 5 = 11.5 sec.
6 = 13.0 sec. 7 = 14.5 sec.
8 = 16.0 sec. 9 = 17.5 sec.
10 = 20.0 sec. 11 = 22.0 sec.
12 = 24.0 sec. 13 = 26.0 sec.
14 = 28.0 sec. 15 = 30.0 sec. Note:Use this when
ONSG/INSG =
4.
7 3 KPSTDuration of KP sending
0 = 48 msec. 1 = 56 msec.
2 = 64 msec. 3 = 72 msec.
4 = 80 msec. 5 = 88 msec.
6 = 96 msec. 7 = 104 msec.
8 = 112 msec. 9 = 120 msec.
10 = 128 msec. 11 = 136 msec.
12 = 144 msec. 13 = 152 msec.
14 = 160 msec. 15 = 168 msec.
(In case of MFC)
0 = 12.0 sec. 1 = 5.5 sec.
2 = 7.0 sec. 3 = 8.5 sec.
4 = 10.0 sec. 5 = 11.5 sec.
6 = 13.0 sec. 7 = 14.5 sec.
8 = 16.0 sec. 9 = 17.5 sec.
10 = 20.0 sec. 11 = 22.0 sec.
12 = 24.0 sec. 13 = 26.0 sec.
14 = 28.0 sec. 15 = 30.0 sec. When the monitor signal
is Reverse and the data is
set to “0,” KP sending is
stopped by reserve signal
monitor at the related dis-
tant office.
Note:Use this when
ONSG/INSG =
4.(MF)
LOGICAL ROUTE (LGRT) 1-899
REMARKS FUSION POINT CODE (FPC) 1-253
ROUTE NUMBER (RT) 1-255
Note
NDA-24298 CHAPTER 4 Page 563 Issue 1 ALRNN : Assignment of Logical Route and Route Class Data for NDM 7 4 KPPTPause after KP sending 0 = 48 msec. 1 = 56 msec. 5 = 88 msec. 6 = 96 msec. 7 = 104 msec. 8 = 112 msec. 12 = 144 msec. 13 = 152 msec. 14 = 160 msec. 15 = 168 msec. (In case of MFC) 0 = 12.0 sec. 1 = 5.5 sec. 2 = 7.0 sec. 3 = 8.5 sec. 4 = 10.0 sec. 5 = 11.5 sec. 6 = 13.0 sec. 7 = 14.5 sec. 8 = 16.0 sec. 9 = 17.5 sec. 10 = 20.0 sec. 11 = 22.0 sec. 12 = 24.0 sec. 13 = 26.0 sec. 14 = 28.0 sec. 15 = 30.0 sec. Note:Use this when ONSG/INSG = 4.(MF) 75 STCStop Code 0-11= Not used 12 = MF 13= Not used 14 = DTMF 15= MF (for MF signaling) Use this when ONSG/ INSG = 4. (MF) 76 MCMP Start Cause 0=As per ST 1=Not usedAlways set data “0.” 77 MTMF Frequency 0=DTMF (4×4) 1 = MF (2 out of 6) Use this when ONSG/ INSG = 4.(MF) 7 8 TONETONE Designation for TRK Call Termination 0 = DT 1-15= Not usedThis data is effective when 2 (Second Dial Tone) is set in ARTDN, ISGS = 3. 7 9 PPTMSender Prepares 0 = Standard 1 = 600 msec. 2 = 800 msec. 3 = 1000 msec. 4 = 1200 msec. 5 = 1400 msec. 6 = 1600 msec. 7 = 1800 msec. 8 = 2000 msec. 9 = 2200 msec. 10 = 2400 msec. 11 = 2600 msec. 12 = 2800 msec. 13 = 3000 msec. 14 = 3200 msec. 15 = 3400 msec. (In case of MFC) 0 = 24.0 sec. 1 = 5.5 sec. 2 = 7.0 sec. 3 = 8.5 sec. 4 = 10.0 sec. 5 = 11.5 sec. 6 = 13.0 sec. 7 = 14.5 sec. 8 = 16.0 sec. 9 = 17.5 sec. 10 = 20.0 sec. 11 = 22.0 sec. 12 = 24.0 sec. 13 = 26.0 sec. 14 = 28.0 sec. 15 = 30.0 sec. LOGICAL ROUTE (LGRT) 1-899 REMARKS FUSION POINT CODE (FPC) 1-253 ROUTE NUMBER (RT) 1-255 Note
CHAPTER 4 NDA-24298 Page 564 Issue 1 ALRNN : Assignment of Logical Route and Route Class Data for NDM 80 MPTM Sender Minimum Pause 0 = 10 PPS/600 msec., 20 PPS/450 msec. 1 = 600 msec. 2 = 800 msec. 3 = 1000 msec. 4 = 1200 msec. 5 = 1400 msec. 6 = 1600 msec. 7 = 1800 msec. 8 = 2000 msec. 9 = 2200 msec. 10 = 2400 msec. 11 = 2600 msec. 12 = 2800 msec. 13 = 3000 msec. 14 = 3200 msec. 15 = 3400 msec. (In case of MFC) 0 = 12.0 sec. 1 = 5.5 sec. 2 = 7.0 sec. 3 = 8.5 sec. 4 = 10.0 sec. 5 = 11.5 sec. 6 = 13.0 sec. 7 = 14.5 sec. 8 = 16.0 sec. 9 = 17.5 sec. 10 = 20.0 sec. 11 = 22.0 sec. 12 = 24.0 sec. 13 = 26.0 sec. 14 = 28.0 sec. 15 = 30.0 sec. Note:Possible to use when adjust- ing the inter- dict timer in DP line. 81 LPTMSender Inter-Digit Pause Index 0 = DP/1 sec., PB/0.5sec. 1 = 600 msec. 2 = 800 msec. 3 = 1000 msec. 4 = 1200 msec. 5 = 1400 msec. 6 = 1600 msec. 7 = 1800 msec. 8 = 2000 msec. 9 = 2200 msec. 10 = 2400 msec. 11 = 2600 msec. 12 = 2800 msec. 13 = 3000 msec. 14 = 3200 msec. 15 = 3400 msec. (In case of MFC) 0 = 12.0 sec. 1 = 5.5 sec. 2 = 7.0 sec. 3 = 8.5 sec. 4 = 10.0 sec. 5 = 11.5 sec. 6 = 13.0 sec. 7 = 14.5 sec. 8 = 16.0 sec. 9 = 17.5 sec. 10 = 20.0 sec. 11 = 22.0 sec. 12 = 24.0 sec. 13 = 26.0 sec. 14 = 28.0 sec. 15 = 30.0 sec. Note:Possible to use when adjusting the duration of Pause in the case of Speed Calling System or Adding digits. 82 RSAX 0 0 0 0 Always assign data “0.” 83 CST 0 0 0 0 Always assign data “0.” 84 CSEG 0 0 0 0 Always assign data “0.” 85 CSEU 0 0 0 0 Always assign data “0.” 86 CSEL 0 0 0 0 Always assign data “0.” 87 CMP 0 0 0 0 Always assign data “0.” 88 TALK 0 0 0 0 Always assign data “0.” 89 FOT 0 0 0 0 Always assign data “0.” 90 RST 0 0 0 0 Always assign data “0.” LOGICAL ROUTE (LGRT) 1-899 REMARKS FUSION POINT CODE (FPC) 1-253 ROUTE NUMBER (RT) 1-255 Note Note
NDA-24298 CHAPTER 4
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91 TOCITrunk Override Calling
0 = Override Inhibited (Calling side).
1 = Tie Line Override Service is provided (Calling side).
92 TOCDTrunk Override Called
0 = Override Inhibited (Called side).
1 = Tie Line Override Service is provided (Called side).
9 3 ODGD 0 0 0 0 Always assi gn data “0.”
94 RLS 0 0 0 0 Always assign data “0.”
95 GWDGate Way Data Service
0= Out of Service 1 = Gate Way System
2-15= Not used
96 H1ISDN H1 Switching
0=–1=In Service0 0 0 0 Always assign data “0.”
97 DT 0000
98 CIISDN transmitting information
0 = Out of Service
1 = 16-Digit Caller Number Service, Attribute Informa-
tion Notification Service, and Calling Sub-Address
Transfer Service
2-15= Not used
99 OID 0 0 0 0 Always assign data“0.”
100 TKS 0 0 0 0 Always assign data“0.”
101 PAD2Pad Control Data 2
0-7 = For Pad value, See the NEAX2400 IPX Circuit Card
Manual.PAD value can also be set
by switch setting on the
8TLT (Long Line
Telephone = TELT) card.
102 TRM 0 0 0 0 Always assign data “0.”
103 TRPX 0 0 0 0 Always assign data “0.”
104 LDR 0 0 0 0 Always assign data “0.”
105 TSC 0 0 0 0 Always assign data “0.”
106 SATS 0 0 0 0 Always assign data “0.”
107 RVPX 0 0 0 0 Always assign data “0.”
108 DQ 0 0 0 0 Always assign data “0.”
109 SLOV Slumber Time Override Service
0 = Out of Service 1 = In Service0000
110 SDTOSystem message automatic output when Connection Ac-
knowledge signal has not been received.
0 = Out of Service 1 = In Service
111 ADVPRAISDN PRI Failure Routing Service
0 = Out of Service 1 = In ServiceThis data is valid for
dummy routes.
112 INDInter-office Name Display
0 = Out of Service 1 = In Service
113 UUI 0 0 0 0 Always assign data “0.”
LOGICAL ROUTE (LGRT) 1-899
REMARKS FUSION POINT CODE (FPC) 1-253
ROUTE NUMBER (RT) 1-255
CHAPTER 4 NDA-24298 Page 566 Issue 1 ALRNN : Assignment of Logical Route and Route Class Data for NDM Table 4-25 provides examples of standard route class settings. 114 DCH 0 0 0 0 Always assign data “0.” 115 CMRT Common use of Route Numbers of ISDN trunks 0 = Out of Service 1 = In Service 116 PREF 0 0 0 0 Always assign data “0.” 117 DFS 0 0 0 0 Always assign data “0.” 118 BOBBroad Band 0=64K 1=N × 64K0000 119 HO1CH 0 0 0 0 Always assign data “0.” 120 IFRIndonesia Compulsion Cut Service 0 = Out of Service 1 = In Service0 0 0 0 Always assign data “0.” 12 1 CONVSMDR Called Number Conversation 0 = Conversation Number 1=In Service 122 OPRTOriginally Trunk Information 0 = Out of Service 1 = In Service 123 CNICalling Number Identification Format 0 = No ANI 1 = Feature Group D Format 2=Not used 3=Not used Table 4-25 Examples of Route Class Settings PARAMETERKIND OF LOGICAL TRUNK ROUTE DUMMY ROUTE ANALOG C.O BWTACI S TIE LINE (E&M)DID LINECCIS LINE ISDN LINE (PRI) FUNCTION VOICE DATA B-CH D-CH 1OSGS27000000 2ONSG33022220 3ISGS17700000 4INSG33322220 5TF 33230300 6TCL 1 4 5 4 4 4 4 4 7L/T 1 1 1 1 1 1 1 1 8RLP 2 2 2 2 0 2 2 0 9TQ 00000000 10 SMDR 1 0 0 0 0 0 0 0 11 TD 0 0 0 0 0 0 0 0 12 DR 1 0 1 0 0 0 0 0 13 AC 0 0 0 0 0 0 0 1 14TNT 00000000 LOGICAL ROUTE (LGRT) 1-899 REMARKS FUSION POINT CODE (FPC) 1-253 ROUTE NUMBER (RT) 1-255