NEC Neax 2400 Ipx Office Data Specification
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NDA-24298 CHAPTER 4
Page 537
Issue 1
ARTDN : Assignment of Route Class Data for NDM
6TCLTrunk Class
Specify the kind of trunk
1 = DDD Line 2= FX
3 = WATS Line
4 = Tie Line/Announcement Trunk
5 = CCSA 6 = Toll Terminal
7 = CAS Line 8= Paging
9 = Code Call Trunk 10 = Dictation Trunk
11 = General Paging Trunk
12 = Radio Paging Trunk 13 - 31 = Not used
7L/TLine/Trunk Identification
0 = Not used (Line) 1 = Trunk11111Always assign data “1.”
8RLPTrunk Release Pattern
0 = Calling Party Release (Outgoing only)
1=Not used
2 = First Party Release (either station or trunk side)
3=Not usedNormally assign data
“2.”
9TQOutgoing Trunk Queuing
0 = Out of Service 1 = In Service
10 SMDRDetailed Billing Information
0 = SMDR Out of Service
1 = SMDR In Service (ORT required for receiving all dialed
digits
11TD Toll Denial Battery Reversal 00000Always assign data “0.”
12 DRDistinctive Ringing Pattern
This parameter designates whether distinctive ringing will
be provided for an incoming call.
0 = Distinctive Ringing is not required
(ASYD, SYS 3, Index 3, Bit 0=0)
1 = Distinctive Ringing is required
(ASYD, SYS 3, Index 3, Bit 0=1)
13 ACFlexible Routing Pattern Designation
When outgoing route selection pattern number is to be
determined by the AFRS command, “1” is to be assigned if
the Access Code is included in the Number Pattern Code
(NPC).
0 = When flexible routing is executed, numbers are translated
excluding the Access Code
1 = When flexible routing is executed, numbers are translated
including the Access CodeThis data is valid for
dummy routes. Assign
data “1” for the dummy
route.
14 TNTTenant Number Check
0 = Tenant number check is not required in trunk selection.Always assign data “0.”
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CHAPTER 4 NDA-24298
Page 538
Issue 1
ARTDN : Assignment of Route Class Data for NDM
15 LSGLine Signal
0=Loop
1 = Ground Start C.O. Line
2=CDH
3 = Caller ID (Loop)
4=Loop
5 = E&M Tie Line
6=DX
7=24V4
8 = Loop DID 9 - 11 = Not used
12 = Speech Line (for CCIS No. 7 or Bch of ISDN)
13 = Signal Line (for CCIS No. 7 or Dch of ISDN)
14 = Not used 15 = Not used
16 SMDR2 Detailed Billing InformationSee Figure 4-16 and
Table 4-22.
17 H/MHotel Service in CCIS No. 7
0 = Out of Service 1 = In Service
18MC 00000Always assign data “0.”
19 ANIE911 - ANI Service
0 = Out of Service 1 = In Service
20D 00000Always assign data “0.”
21MSB 00000Always assign data “0.”
22MSW 00000Always assign data “0.”
23 TR0=–
1 = ICPT transfer by group-II signals used.For MFC signaling
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NDA-24298 CHAPTER 4 Page 539 Issue 1 ARTDN : Assignment of Route Class Data for NDM Figure 4-16 SMDR2 (ARTDN) Table 4-22 SMDR2 (ARTDN) 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 540 Issue 1 ARTDN : Assignment of Route Class Data for NDM LGRT 1-899 FUNCTIONREMARKS 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 4-23. (Examples of Route Class Settings)
NDA-24298 CHAPTER 4 Page 541 Issue 1 ARTDN : Assignment of Route Class Data for NDM 3 2 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 4-23 (Example of Route Class Set- tings). Note:160 msec. in case of Loop Dialing Trunk. 33HD Trunk 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”. 34GUARD Gr ou n d Tim er 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). 35WINK Width 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) LGRT 1-899 FUNCTIONREMARKS
CHAPTER 4 NDA-24298 Page 542 Issue 1 ARTDN : Assignment of Route Class Data for NDM 39 BCC.O Line Idle Balance Condition. 0 = Not balanced 1 = BalancedFor Australia only 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. LGRT 1-899 FUNCTIONREMARKS
NDA-24298 CHAPTER 4
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ARTDN : Assignment of Route Class Data for NDM
56 SMDR3Detailed billing for outgoing in tandem connection.
0 = Required 1 = Not requiredAssign this for the
incoming route (ICRT),
if necessary.
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, always enter zero
(0).
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
11 = Seamless
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
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CHAPTER 4 NDA-24298
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68 SCFSplit Call Forwarding
The call is forwarded to the desired destination assigned at
0 = Split C. F. - All Calls (SSC, SID = 8), Split C. F. -
Busy Line (SSC, SID = 10), Split C. F. - Don’t
Answer (SSC, SID = 12)
1 = C. F. - All Calls (SSCA, SIDA = 86), C. F. - Busy
Line (SSCA, SID = 87), C. F. - Don’t Answer (SS
CA, SIDA = 88)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).
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. 5 6 m sec. (CC ITT N o.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.
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NDA-24298 CHAPTER 4 Page 545 Issue 1 ARTDN : Assignment of Route Class Data for NDM 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 distant office. Note:Use this when ONSG/INSG = 4.(MF) 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) 75STC Stop Code 0-11= Not used 12 = MF 13= Not used 14 = DTMF 15= MF (for MF signaling) Use this when ONSG/ INSG = 4. (MF) 76MC MP Start Cause 0=As per ST 1=Not usedAlways set data “0. 77MT MF 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. LGRT 1-899 FUNCTIONREMARKS Note Note
CHAPTER 4 NDA-24298 Page 546 Issue 1 ARTDN : Assignment of Route Class Data for NDM 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. 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 adjusting the interdict timer in DP line. LGRT 1-899 FUNCTIONREMARKS Note