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Meridian 1

Option 11C and 11C Mini

Technical Reference Guide

Document Number: 553-3011-100
Document Release: Standard 14.00
Date: January 2002

Year Publish FCC TM

Copyright © 1991–2002 Nortel Networks
All Rights Reserved

Printed in Canada

Information is subject to change without notice. Nortel Networks reserves the right to make changes in design
or components as progress in engineering and manufacturing may warrant. This equipment has been tested
and found to comply with the limits for a Class A digital device pursuant to Part 15 of the FCC rules, and the
radio interference regulations of Industry Canada. These limits are designed to provide reasonable protection
against harmful interference when the equipment is operated in a commercial environment. This equipment
generates, uses and can radiate radio frequency energy, and if not installed and used in accordance with the
instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a
residential area is likely to cause harmful interference in which case the user will be required to correct the
interference at their own expense.

SL-1 and Meridian 1 are trademarks of Nortel Networks.

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Summary of Contents for Meridian 1 Option 11C Mini

Page 1: ...ass A digital device pursuant to Part 15 of the FCC rules and the radio interference regulations of Industry Canada These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction man...

Page 2: ......

Page 3: ...ith Release 25 3x software April 2000 Standard 12 00 This is a global document and is up issued for X11 Release 25 0x Document changes include removal of redundant content references to equipment types except Options 11C and 11C Mini and references to previous software releases September 1999 Issue 11 00 Standard July 1999 Issue 10 00 Standard May 1999 Issue 9 00 Standard March 1998 Issue 8 00 Sta...

Page 4: ...11 100 Standard 14 00 January 2002 July 1994 Release 4 00 Standard October 1993 Release 3 00 Standard January 1993 Release 2 00 Issue 2 0 Standard April 1992 Release 2 00 Issue 1 0 Standard June 1991 Release 1 00 Standard ...

Page 5: ...nsmission parameters 157 Chapter 4 Cabinet distribution over a data network 177 Chapter 5 Spares planning 187 Chapter 6 Power supplies 197 Chapter 7 System Controller cards 207 Chapter 8 SDI ports 227 Chapter 9 The TDS DTR card 243 Chapter 10 NTBK22 MISP card 261 Chapter 11 Meridian Digital Telephones 265 Chapter 12 M2317 Telephone 271 Chapter 13 Meridian Modular Telephones 283 ...

Page 6: ...T8D09 Analog Message Waiting Line Card 371 Chapter 20 NT8D14 Universal Trunk Card 377 Chapter 21 NT8D15 E M Trunk Card 389 Chapter 22 NT5K21 XMFC MFE card 399 Chapter 23 NTAG26 XMFR card 409 Chapter 24 NT6D70 SILC line card 415 Chapter 25 NT6D71 UILC line card 419 Chapter 26 NT1R20 Off Premise Station OPS analog line card 423 Chapter 27 Cable specifications and interfaces 439 Chapter 28 NTAK09 1 5...

Page 7: ...r 31 NTAK79 2 0 Mb PRI card 479 Chapter 32 NTBK50 2 0 Mb PRI card 493 Chapter 33 NTAK20 clock controller 503 Chapter 34 NTAK93 D channel handler interface 513 Chapter 35 NTBK51 Downloadable D channel handler 519 Chapter 36 NT5D14 Line Side T 1 card 525 List of terms 531 Index 537 ...

Page 8: ...Page 8 of 544 Contents 553 3011 100 Standard 14 00 January 2002 ...

Page 9: ... 11C Mini systems It includes such things as circuit cards information spares planning SDI ports information tones and cadences transmission parameters Meridian modular telephone sets M2250 attendant console This document is a global document Contact your system supplier or your Nortel Networks representative to verify that the hardware and software described is supported in your area ...

Page 10: ...Page 10 of 544 About this guide 553 3011 100 Standard 14 00 January 2002 ...

Page 11: ...oading and restoring 12 Data storage 14 Data loading 16 Data restoring 18 Pre programmed data 18 Components of pre programmed data 19 Model telephones 19 Trunk route data and model trunks 20 Numbering plan 20 SDI ports 21 Tone services 21 Benefits of pre programmed data 21 Software Installation program and pre programmed data 22 Removing pre programmed data 23 Customer Configuration Backup and Res...

Page 12: ...Option 11C and 11C Mini Upgrade Procedures 553 3021 250 Overview This chapter presents an outline of Real Time CPU capacity for the Option 11C and Option 11C Mini In addition it describes Option 11C and Option 11C Mini data storage loading and restoring as well as the unprotected and protected memory requirements for features applicable to the these systems Option 11C and Option 11C Mini data stor...

Page 13: ...erboard Option 11C and Option 11C Mini software is stored in various areas of the NTDK20 SSC and NTDK97 MSC cards In terms of customer data there are four possible areas where these records can be stored Refer to Figure 1 DRAM stores and accesses the active version of customer records system data and overlay data Primary Flash drive c contains two copies of customer records primary and backup reco...

Page 14: ...bove are be better illustrated by referring to Figure 1 Note Refer to the Option Maintenance 553 3001 511 for a complete listing and description of LD 43 commands Table 1 LD 43 data dump commands Command Description BKO Customer records in the Primary Flash drive are copied to the PCMCIA device EDD Customer data in DRAM is written to the Primary and Backup flash drives on the NTDK20 SSC and NTDK97...

Page 15: ...s truly external to the switch This storage device can be an IBM type PC or Macintosh type computer running an Option11C software feature called Customer Configuration Backup and Restore CCBR Through the use of LD 143 and the CCBR feature the user can transfer customer records between the SSC or MSC s Primary Flash drive to either an on site or remote computer system Refer to Table 2 for a listing...

Page 16: ...illustration 1 The Option 11C and 11C Mini searches for customer records in the Primary Flash drive If the files are located and verified data is loaded into the NTDK20 SSC s or NTDK97 MSC s DRAM 2 If the records are corrupt or cannot be found in the Primary Flash drive the system searches the Backup Flash drive If the customer records are located and verified the Option 11C and 11C Mini loads the...

Page 17: ...e for the secondary backup bak file If the customer records are located and verified data is loaded into DRAM Figure 2 Flow of data during an Option 11C or Option 11C Mini Sysload Sysload and a new Option 11C or Option 11C Mini installation Software for new Option 11C and 11C Mini systems is delivered on a pre programmed Software Daughterboard for the Option 11C or directly on the MSC for the Opti...

Page 18: ...pre programmed with customer data If you load pre programmed data into the system during installation some overlay entries will be automatically configured on the telephones For example you can choose a telephone model that has predetermined feature and key assignments and a preassigned class of Table 3 Commands used to restore data to the Option 11C and Option 11C Mini Command Overlay Description...

Page 19: ...sponse other than Default database pre programmed data will not be loaded on the system Pre programmed data cannot be removed from the Option 11C and 11C Mini system once it is loaded into the system However pre programmed data can be bypassed during first time system installations Note The pre programmed data on the Option 11C and 11C Mini system can provide an effective starting point for progra...

Page 20: ...OPS models by entering DD in response to the CDEN prompt in LD 10 Trunk route data and model trunks Pre programmed trunk routes and trunk models simplify trunk installation procedures A pre programmed trunk route supports a certain trunk type has a default access code and must be assigned a trunk model A trunk model supports a certain card type trunk type and signalling arrangement Trunk models ar...

Page 21: ...hannels of tone and cadence transmission to the system The SSC MSC also provides tone detection Units 0 7 can be configured to support DTR XTD Units 8 15 can also be configured to support DTR XTD Optionally units 8 11 can be configured to support other tone detection functions in lieu of DTR XTD on units 8 15 These other tone functions include one of MFC MFE MFK5 MFK6 MFR LD 56 contains default ta...

Page 22: ...e 5 Benefits of pre programmed data Task Task performed using pre programmed data Task performed without using pre programmed data Activating telephones Plug telephone into socket lift handset choose model choose extension Enter LD 10 or 11 enter telephone type specify TN assign class of service assign a feature to each key on telephone LD 10 has approximately 120 prompts LD 11 has approximately 1...

Page 23: ...data on the Option 11C and 11C Mini system can provide an effective starting point for programming telephone and trunk information Before bypassing the option of loading pre programmed data take the time to determine whether the default data can be used at this site Customer Configuration Backup and Restore The Customer Configuration Backup and Restore CCBR feature provides the ability to store th...

Page 24: ...er the CCBR feature is used configuration data is always backed up to the primary flash drive Prior to invoking the CCBR command a data dump should be performed to ensure the primary database is current File transfer time Depending on the number of records in the configuration data base it can take over 30 minutes to backup or restore data at a rate of 1200 bps CCBR access time can be significantl...

Page 25: ...computer to dial directly into the Option 11C or Option 11C Mini from a remote location Detailed information about the CCBR feature can be found in the Option 11C Customer Controlled Backup and Restore CCBR 553 3011 330 Real time CPU capacity Table 6 CPU capacity Release Average Msecs of CPU for PBX Call Equivalent Basic Call Equivalent Basic IPE Calls per Hour 16 90G 250 10075 18 30H 306 8225 18 ...

Page 26: ...m Store Table 10 on page 29 IP Memory Impacts Table 11 on page 30 Unprotected data store requirements Table 12 on page 48 Protected data store requirements Call Type 2527d 2530 No Expansion cabinet 2527d 2530 With IP Expansion cabinet pbx tie 57 89 tie pbx 51 86 aries tie 56 127 tie aries 59 99 tie tie Average 58 100 Call Type ITG card on Expansion cabinet PRI card on Expansion cabinet 2527d ITG c...

Page 27: ...ormance estimated to be 20 when digital trunks are installed in IP Expansion cabinets However there is still sufficient real time to support five fully configured Option 11C cabinets in a typical business configuration Table 8 Basic LAN Requirements for Excellent Voice Quality LAN requirement Value for Excellent Voice Quality Packet loss rate 0 5 PDV jitter buffer maximum RTD 5 ms Round trip Delay...

Page 28: ...tware Program store Resident Program store The Resident Program store requirements are listed in Table 9 Table 9 Resident Program Store Program 1024 words 1K Storage in words Basic BASE Read Write Firmware Overlay 0 0 46 000 Options OPTF 0 Multi Customer CUST ROM Firmware 0 8 000 Total 54 000 ...

Page 29: ...le 10 summarizes the additional memory requirements of the Survivable IP configuration Table 10 IP Memory impacts Functional area Flash DRAM C drive PCMCIA CDR storage 4 Mb 17500 Survivable db x x x start up 3K 2K 3K 100baseT F 218981 B multi clock 28 words cardlan 30K SSD 40K IP config 0 8K 0 8K 0 8K voice 1K bootP 20K 0 8K 0 8K remote TTY 35K TOTAL ...

Page 30: ...er of 1k Words per Item Calculated number of Words Per Item Fixed Address Globals 22389 500 type telephones 8 5 2500 type telephones 8 5 SL 1 sets no digit display 20 25 SL 1 sets digit display 22 25 Add on K L Strips 10 Data Service VMS Access TNs See Note 10 on page 40 Analog Trunks See Note 17 on page 44 BRI Trunks 83 DTI 82 JDM DTI2 57 ISDN PRI PRI2 ISL See Note 18 on page 46 Attendant 131 Cus...

Page 31: ...igh Priority Input Buffers HPIB from note 4 4 See Note 11 on page 41 PBXOB 4 x PBXOB See Note 11 on page 41 BCSOB 4 x PCSOB See Note 11 on page 41 AML CSL See Note 21 on page 47 MSDL 1273 Automatic Call Distribution ACD See Note 3 on page 35 ACD Enhancement See Note 8 on page 39 ESN Communication Management Cen ter CMAC 350 NARS BARS CDP See Note 4 on page 36 Table 11 Unprotected data store requir...

Page 32: ...Processor Link APL 179 Automatic Trunk Maintenance ATM Schedule Block No impact ATM Data Block No impact Digital Telephones See Note 9 on page 40 Multi Tenant 32 Command Status Link CSL 143 483 x Links Background Terminal 89 Display Messages 12 ISDN Basic Rate Interface BRI See Note 16 on page 42 ISDN Primary Rate Access PRA 81 Table 11 Unprotected data store requirements Part 3 of 4 Data Store by...

Page 33: ... on page 42 Enhanced Night Service 1 Periodic Pulse Metering PPM See Note 14 on page 42 Flexible Feature Codes FFC 3 Group Hunt 17 Model Telephones See Note 15 on page 42 Model Trunks See Note 15 on page 42 IP Expansion See Note 22 on page 47 Table 11 Unprotected data store requirements Part 4 of 4 Data Store by Feature Fixed Number of 1k Words per Item Calculated number of Words Per Item ...

Page 34: ...unk belongs to a route which does not have CDR or has CDR with dialed digits x 9 if the trunk belongs to a route which has CDR with outpulse digits y 0 if the trunk belongs to a route which does not have the Timed Forced Disconnect option y 5 if the trunk belongs to a route which has the Timed Forced Disconnect option z 0 if the trunk does not have CNA defined z 4 if the trunk has CNA defined Trun...

Page 35: ...following additional storage per system is required K0 x K1 x CROUT K2 x CPID K3 x CDN CTM K4 CRT K5 x CCUST K6 x DN K7 x PID K8 x DN Where the multiplication constants Ki are K0 0 if ACD C package is not equipped K0 1 If ACD C package is equipped K1 46 K2 14 If long report is selected K2 42 If short report is selected K3 80 K4 30 K5 240 K6 149 Input Buff Data Output Q CDR Link 128 HS Link 128 15 ...

Page 36: ...umber of AGENT POSITIONs for ACD C customers CROUT total number of ACD routes in ACD C customers CTM total number of TRUNK members in CROUT DN total number of ACD DNs for system PID total number of AGENT POSITIONs for the system CRT total number of ACD CRTs Note 4 If the NTRF package is equipped the unprotected data store requirements on a per customer basis for NARS BARS CDP are as follows COS TR...

Page 37: ... in CCS C the call register factor 1 0 037 if CDR Charge Account 0 150 if NARS BARS CDP 0 150 of FCBQ and OHQ 0 033 if ACD RAN 0 019 if Telset Messaging 0 140 if Integrated Messaging System 0 083 if Ring Again 0 033 if Music Trunk 0 067 if Call Park 0 003 if New Flexible Code Restriction 0 039 if ESN signalling 0 000 if Stored Number Re dial negligible impact L average CCS per ACD trunk M the numb...

Page 38: ...ld the charge account The additional holding time of the call register for CDR purposes is 5 seconds The average number of ports used in the multiple CDR ports feature is 2 A call register is required for each incoming ACD trunk The intra office ratio R 0 worse case assumption The number of originating calls equals the number of terminating calls The blocking peak of the day traffic is P0 01 The a...

Page 39: ...f calls need the signaling feature Note 6 Size per item for Call Park k ceiling s 16 for UCALL_PARK_BLOCK where s number of System Park DN s per customer k 6 size UCALL_PARK_BLOCK 6 0 Note 7 IMS unprotected memory requirements are 183 x N words are already accounted for in Note 2 on page 35 Note 8 ACD Enhancement an ACD C customer See Note 3 on page 35 LINK_OQ_TBL 16 words APL_LINK_DATA 179 words ...

Page 40: ...hich the terminal is assigned The increment in words are as follows Where a preallocated card is one of the following 0 1 0 7 1 1 1 8 2 1 2 8 or 3 8 on a Digital Line Interface DLI loop See Note 12 on page 41 Voice or Data Ports without Digit Display VOD Ports with Digit Display M2006 18 20 M2008 18 20 M2009 24 25 26 25 M2016 26 28 M2018 35 25 37 25 M2112 26 25 28 25 M2216 26 24 x AOM 28 24 x AOM ...

Page 41: ...es Note 12 The DCHI supports both 1 5 Mb PRI and 2 0 Mb PRI Each DCHI consists of the following unprotected data blocks M is computed for each DCHI depending on Mode as follows 2Mb PRI only unprotected data block 91 words DCH_U_BLOCK 60 words Output Request Buffers 5 x number of OTBFs LD 17 Output Buffer 261 words Input Buffer 261 words Unprotected call reference table 2 M Unprotected message link...

Page 42: ...dicate the busy or idle status of each DN This amounts to 7 16 bit words per hundred groups defined Note 14 Total Unprotected data store per system is increased by the following 2 x CR 4 x BGD TRUNK PPM_CARD 4 where CR number of Call Registers defined BGD number of background terminals TRUNK number of trunks PPM_CARD number of CO or E M trunk card Note 15 Model telephones and trunks require card b...

Page 43: ...Function Memory Requirements MISP loop block 270 words MISP output buffer transmit receive 512 words MISP expedited output buffer 32 words MISP output request buffer 7 words MISP block data block 303 words Socket ID table 48 words Meridian 1 expedited receive buffer 128 words Meridian 1 receive buffer 266 words Meridian 1 expedited transmit buffer 528 words MISP traffic accumulating block 48 words...

Page 44: ... block 10 words Incoming call reference table 33 words Outgoing call reference table 33 words Incoming call ref usage map 4 words Outgoing call ref usage map 4 words Incoming message call reg table 33 words Outgoing message call reg table 33 words BRI DSL data block 3 words Function Memory Requirements BRSC data block 48 words MISP traffic accumulating block 48 words MISP traffic holding block 48 ...

Page 45: ...T 15 words x see the following table line block y 9 CDR extension z 0 If the trunk belongs to a route which does not have the Timed Forced Disconnect option or z 6 If the trunk belongs to a route which has the Timed Forced Disconnect option Trunk Type Memory Requirements RLA 20 words ADM 72 words IDA DPN 65 words IDA DASS 53 words OTHERS 61 words ...

Page 46: ...follows for each DCHI depending on Mode PRA Mode If PRI is defined M NChan nn 1 If PRI is NOT defined M NChan 1 for primary channel 1 if backup channel is on Where nn Highest Loop Interface Id defined in Ovl17 by PRI lll nn and NChan 24 for PRI and 31 for PRI2 ISL Mode M maximum number of ISL trunks defined Shared Mode M is the sum of the values for PRA and ISL Mode PRI2 only Unprotected data bloc...

Page 47: ...om 7 x MFR Cards 3 x MFR Units Note 21 Memory requirements are calculated for AML from 143 483 x Links AML Note 22 To support IP Expansion in IP expansion cabinets an additional 2 0 Mb of memory is required on the Main and each survivable IP expansion cabinet An additional 0 5 Mb only is required on any non survivable IP expansion cabinets Memory requirements are calculated as follows Total memory...

Page 48: ...ote 1 on page 53 M2000 Series Delta II M2000 Series See Note 64 on page 85 DS VMS Access TN s See Note 65 on page 85 AOM 10 rs DS VMS ACC TNs See Note 23 on page 67 Template Head Table See Note 50 on page 79 Templates See Note 50 on page 79 Trunks 20 See Note 19 on page 66 Attendant See Note 2 on page 55 Auxiliary Customer 187 Customers See Note 31 on page 70 CPG Level Services 46 Trunk Routes See...

Page 49: ...uration 84 Configuration Aux 112 Basic Automatic Route Selection BARS See Note 6 on page 59 Flexible Tones and Cadences FTC See Note 35 on page 72 Enhanced FTC EFTC See Note 35 on page 72 Network Automatic Route Selection NARS See Note 7 on page 60 Coordinated Dialing Plan CDP See Note 8 on page 61 and Note 51 Automatic Call Distribution ACD See Note 9 on page 62 Network ACD NACD See Note 36 on pa...

Page 50: ... NFCR See Note 16 on page 65 Soft Memory 35 Code Screening See Note 18 on page 66 M2006 See note on page 72 M2008 See Note on page 73 M2216 M2616 See Note on page 74 Add on modules 20 rs Multi tenant See Note 20 on page 66 ATM Schedule Block See Note 22 on page 67 Digital Line Interface DLI See Note 17 on page 66 Enhanced Serial Data Interface ESDI 16 N x 9 N of ports Command Status Link CSL 4 Val...

Page 51: ... ISDN PRI2 See Note 56 on page 81 ISDN PRI2 See Note 56 on page 81 DTI1 See Note 57 on page 81 Automatic Wakeup AWU Count 288 ISDN Signaling Link ISL See Note 30 on page 70 Enhanced Busy Lamp Field EBLF See Note 33 on page 71 BGD Automatic Timed Job See Note 52 on page 80 Pretranslation See Note 33 on page 71 LAPW See Note 61 on page 83 Name Display for DMS See Note 62 on page 84 Table 12 Protecte...

Page 52: ...Periodic Pulse Metering PPM See Note 39 on page 72 Flexible Feature Code FFC See Note 40 on page 73 Network Attendant Console Service See Note 41 on page 73 Group Hunt 10 ABCD See Note 42 on page 73 Model Telephones See Note 42 on page 73 Model Trunks See Note 43 on page 73 Table 12 Protected data store requirements Part 5 of 5 Data Store by Feature Fixed Number of 1k Words per Item Calculated num...

Page 53: ...nf is the number of features defined for the set and rs is the number of sets sharing the same template In addition to the basic line block each feature requires extra data space as follows Table 13 Feature data space requirements Part 1 of 2 DN words words Dial Intercom Group 2 words word Speed Call User 1 word word System Speed Call User 1 word word Speed Call Controller 1 word word Call Forward...

Page 54: ...ic Wake Up 2 words word Message Registration 1 word word Call Party Name Display 1 word if name is defined for this DN word if name is defined for this DN Offhook Interdigit Index 1 word word Pre translation Enhancement 1 2 word for 255 calling groups Word for 255 calling groups CFCT 2 words words EHOT feature 2 10 words words FAXS 17 words words FFC SCP PASS 2 words words Associate Set AST 2 word...

Page 55: ...rotected line block for attendant telephones is determined from the following Primary Line Block 205 words Secondary Line Block 6 words Card Block Component 4 words In addition to the basic line block each feature requires extra data space as follows Autodial Key 8 words Paging Key 2 words Store Number Redial Key 8 words ...

Page 56: ...ants variable descriptions and combinations of these Units are words of protected data store Table 14 Directory Number DN data space requirements Part 1 of 2 Factor Factor Description Item Item Description 2 S of different DN s appearing on SL 1 500 2500 sets 1 of appearances of DN s within S 12 size DNXBLOCK Sum N s 1 N1 N2 N3 N4 N5 N6 see below number of ACD DN s 2 number of ACD DN s 2 x AI size...

Page 57: ...prefix defined 3 1 If RSANI access code defined 11 size RSANI_BLK 1 If CAS hold DN defined 2 1 size CAS_HOLD_DNBLOCK 1 If CAS hold DN defined 2 1 size CAS_RLT_DNBLOCK CDP steering codes defined 3 size CDP_DATA_BLOCK Testline DN s 2 size TSTLINE_DNBLK ACD DN s defined 3 size ACD_DNBLOCK DIG groups defined 2 size DIG_DATA_BLK SL1 DN s 2 size BCS_DNENTRY Table 14 Directory Number DN data space requir...

Page 58: ...ions and combinations of these Units are words of protected data store Refer to page 71 for computation of DIG CPND Name Pointer Table Size Note 5 The size of a speed call list is NB 1 x 256 NBR x WE where NB and WE are calculated as described in Note 14 under the Speed Call List Head Table and NBR is the remainder of the calculation to determine NB which is NB EL EB Table 15 Protected memory for ...

Page 59: ...K 506 n maximum level of tree n 0 R the rate of digits equipped in each level of the tree translator RL number of route lists RLE average number of route lists entries per route list DME number of distinct digit manipulation entries including the default 0th entry I average number of digits that must be inserted as part of digit manipulation FCAS N 1 N M 1 MN 4 100P 15 16 where N number of defined...

Page 60: ...7 The protected data store requirements for NARS on a per customer basis are BASIC_ESN SUM1 SUM2 SDRR x 3 2 x SDE RL x 8 3 x RLE DME x 4 I E LOC x 6 FCAS SCC ITGE MDID where BASIC_ESN Size ESN_DATA_BLOCK Size NCTL_DATA_BLOCK Size ESN_DATA_BLOCK 131 Size NCTL_DATA_BLOCK 306 SUM1 SUM of network translator 1 SUM2 SUM of network translator 2 SUM 11 x 10 x R x n 1 10 x R 1 n maximum level of tree n 0 R...

Page 61: ... nxx loc spn SDE average number of SDRR entries for each SDRR block ITGE 9 x ITEI where ITEI is the number of Incoming Trunk Group Exclusion Index MDID 2 x number of total office codes 2 x number of total DID ranges regardless of which office codes they belong to A maximum of 20 ranges of office codes can be defined per locations code That is one office code and 20 ranges or 20 office codes and on...

Page 62: ...total for system For ACD C not equipped K3 x DN K4 x PID AID K5 x CUST For ACD C equipped K1 K2 x CCUST K3 x DN K4 x PID AID K5 x CUST Where the multiplication constants Ki are K1 33 Size P_ACD_I_BLK K2 8 Size P_ACD_SCHED_BLK K3 72 Size P_ACD_BLOCK 53 ptr to blk from ACD_L IST 1 word offset ACD_POS_TN 16 K4 14 Size P_ACD_KEY_DATA 14 store for ACD_POS_TN 1 K5 3 header ACD_LIST 1 header ACD_AGENT_ID...

Page 63: ...SA on a customer basis are 1 DN x 7 1 DN x 7 DN is the number of DISA DNs Note 12 The protected store requirements for Authorization Code on a per customer basis are Size AUTH_TABLE_BLOCK A x L 4 x 128 64 B x Size AUTH_BLOCK C x Size RESOLUTION_BLOCK where Size AUTH_TABLE_BLOCK 153 words Size AUTH_BLOCK 1018 words Size RESOLUTION_BLOCK 64 words L digit length T total auth code A number of overflow...

Page 64: ...r customer option Note 14 For System Speed Call List Head Table the requirements are as follows k NB 4 NB Round NB r up where K 3 and includes SCLENTRYS_BLK 0 5 SCHTBLKLNGTH 0 5 SCLHTWD 1 0 SCLENTRYS_LST SCLNUMDIGITS and SCLWORDS_ENTRY 1 0 NB number of blocks EL EB round up any remainder EL entries per list given EB entries per block 256 WE round up remainder WE words per entry DNS 4 round up DNS ...

Page 65: ...y the maximum number of trees defined in the customer data block Four words will be required for each route that has defined FRL codes Storage for customer defined trees Amount of memory used depends on the size of code restriction trees the customer has defined It is possible to calculate an upper bound for the amount of memory that a tree is using by applying the following The INIT condition occ...

Page 66: ... number of DTI loops L the number of DLI loops Note 18 The size of the protected multiple office code screening line block is determined from the following 2 words for each NXX code defined 2 words for each range defined maximum 20 ranges per location code 80 words pds Note 19 The trunk block size is 20 words with ODAS Note 20 Requirements for the voice data port are the same as an SL 1 basic tele...

Page 67: ...s for ATM schedule block are as follows 24 9 x NC 1 x NH 13 x AR where NC number of customers NH number of hours to be scheduled AR number of routes schedules to be tested Note 23 For all machine types the additional protected data store for a virtual terminal DS access TN or VMS access TN is exactly the same with one exception For any of the two TN types the Card Block Component is dependent on t...

Page 68: ...late For the M2317 data port requirements are the same Note 26 Protected data store requirements for CPND per system in words is 32 10 x C SP DIG_TBL_SIZE x DIG 1 n 2 x NA SL where C number of customers configured with CPND SP number of single appearance Analog 500 2500 type DNs with name defined DIG_TBL_SIZE 11 for 1 digit DIG groups 101 for 2 digit DIG groups DIG number of DIG groups n average n...

Page 69: ...outes is B X x 92 where B 256 X number of routes actually defined RD 116 size P_ROUTE_DATA For each ISA route configured for any IFC add 10 words for the ISA_SRVC_BLOCK If Protected call reference table If DCHI is in PRA mode 1 M x of PRI or 2Mb PRI loops controlled by DCHI where M 24 for PRI and 31 for 2Mb PRI If DCHI is in ISL mode 1 maximum number of ISL trunks defined If DCHI is in SHARED mode...

Page 70: ...ID_TPTR size ISA_CUSTID_TPTR 100 A data block of 128 words is allocated to each customer if at least one route is defined as having SID The structure mapping onto this data block is ISA_SID_RT_LIST The size of this data block is 512 Note 30 Protected ISL trunk TN table 1 maximum number of ISL trunks defined Note 31 The equation for calculating the protected memory requirements for customer data is...

Page 71: ... is needed for PREXL_SCLN in pool CDB compool Note 34 A bit is required in the customer data block to indicate if EBLF is allowed denied A bit is required in the protected attendant block whether or not the ATTN console has CGM configured on the attendant console Additional protected memory is required depending on the system configuration and is allocated only if EBLF is turned on Words required ...

Page 72: ...lted in an increase of 7 words to the Protected ACD block already accounted for in Note 9 on page 62 In addition add 115 words per Source ACD DN as shown in the associated target table 0 2 and 174 words per target ACD DN Note 38 The protected data store for TRUNK BARRING consists of two structures TBAR_BLOCK 66 words RCDT_BLOCK 3 number of access restriction tables ARTs Note 39 The total protected...

Page 73: ...BCD consists of two structures Note 43 Model telephones require the same protected memory as the corresponding telephone type Note 44 Model trunks require the same protected memory as the corresponding trunk type Structure name Increase in number of words FFC_DNXL_BLOCK 13 FFC_GRHP_BLOCK 2 FFC_ELK_PASS 3 Structure name Increase in number of words NAS_SCHED_BLK 32 3 x schedule period Structure name...

Page 74: ...ut portion of the template requires 9 of non key features of telephones sharing the same template Note 47 Requirements for the voice data port are the same except the key layout portion of the template requires 17 of non key features of telephones sharing the same template Note 48 The following table shows protected memory storage requirements for ISDN BRI Per System HT DATA G MT BT where HT 16 si...

Page 75: ...B MMB SID PIO IO where MLB 145 size PMISPLOOP_BLOCK MMB 50 size P_MSDLMISP_BLOCK SID 49 size P_SOCKET_ID_TABLE PIO 5 size PHY_MISP_IOBLK IO 259 increase per MISP in size IO_TABLE and PIO is Physical IO block IO is IO table A typical large system will support about 5 MISPs Per DSL Digital Subscriber Loop BB ODAS CLS DD BD USID TB TF where BB 26 size PBCSBLOCK digital set ODAS 3 data services addend...

Page 76: ...IDN 7 size BRI_DNBLOCK NDN BRI DN s Each DSL can hold up to 16 TSP s Each TSP supports 8 physical sets and 20 logical units Per BRSC BRSC is a Release 19 innovation that increases the number of line cards served by one MISP from 4 to 120 BB where BB 34 size P_BRSC_BLOCK Each MISP can control 8 BRSC cards Each BRSC can control 15 line cards Note 49 The size of the protected line block for SL 1 sets...

Page 77: ...er of sets sharing the same template and AOM the number of add on modules In addition to the basic line block requirement each feature requires extra data space as follows Table 16 Feature memory requirements Part 1 of 3 Feature Memory Requirements ACD Agent Key 1 ACD Display Queue Key 2 ACD IN CALLS Key 11 ACD Interflow Key 2 ACD night service DN 2 Associate Set AST 1 Authcode 6 24 Autodial Key 1...

Page 78: ...e Control 1 DIG Key 2 DN Key 2 EFD DN 4 EHT DN 4 Enhanced Hot Line DN 2 10 FAXS 17 Flash Call Key 1 Flash Override Call Key 1 Hot Line DN 2 10 HUNT DN 4 Immediate Call Key 1 Last Number Redial 1 8 Message Center DN 2 Message Registration 1 Notification Keylamp 1 Park Key 1 Pretranslation Enhancement 1 2 Table 16 Feature memory requirements Part 2 of 3 Feature Memory Requirements ...

Page 79: ...TEMPLATE_HD_TBL Note 51 The protected data store requirements for Coordinated Dialing Plan CDP on a per customer basis are BASIC_ESN SC x 3 RL x 8 3 x RLE DME x 3 I 4 Priority Call Key 1 Private Call Key 2 SCI CCOS RMS 2 Signal Key 2 Speed Call Controller 1 Speed Call user 1 Stored number redial 1 8 Tenant Number 1 Time and Date Key 1 Voice call Key 2 Table 16 Feature memory requirements Part 3 of...

Page 80: ...f digits that must be inserted as part of digit manipulation CDP Steering Codes also occupy DN tree spaces This portion of data store is calculated in DN tree formula See Note 3 on page 35 Note 52 Protected data store for the BGD Automatic Timed Job feature for blocklength 13 ATJE Words Where ATJE number of Automatic Timed Job Entries ranges from 1 to 12 Note 53 Protected memory requirements for M...

Page 81: ...umber of DTI loops L the number of DLI loops Note 56 For each PRI or PRI2 loop configured add 7 words for the P_PRILP_BLOCK to the PTERM LOOP_BLOCK 78 Note 57 Protected memory requirements for DCH P_DCH_BLOCK 89 words Protected call reference table If DCH is in PRA mode 1 M words where M is defined as follows If PRI is defined M NChan nn 1 If PRI is NOT defined M NChan 1 for primary channel 1 if b...

Page 82: ...2_SYSTEM_DATA 11 words DTI2_SCAT_HT 16 words DTI2_SCAT 95 words DTI2_PDCA_HT 16 words DTI2_PDCA 10 words Note 59 The logical applications are AML DCH and SDI logical master head table 4 words logical application head table for SDI 16 words AML 16 words DCH 64 words Total if all three applications are used 100 words Note 60 Memory requirements for physical I O table I O polling table 3 of serial I ...

Page 83: ...ccounted for in the first table item Protected pointer to the main LAPW data structure LAPW_DATA_BLK 1 word Invalid login threshold and lock out time 1 word System defined passwords PWD1 and PWD2 16 words Port lock out information MAX_NUM_OT_TTYS 16 2 words per TTY Audit trail size of configured buffer 0 1000 words Dynamically allocated storage per Limited Access Password LAPW Configured optional ...

Page 84: ...1 word contains master pointers to all the 31 ANI Datablocks in the system 31 words contains pointers to each of the 31 ANI datablocks NPA BLOCK dynamically allocated by of NPAs configured 6 words TRMT_INFO in NPA_BLK 3 words NPATYPE NPAs configured for this ANI data block up to 160 NPAs can be configured in a NPA block NXX HEAD BLOCK Dynamically allocated by of NXX blocks 1 word 3 words HDBLKTYPE...

Page 85: ...late Note 65 For all machine types the additional protected data store for a virtual terminal DS access TN or VMS access TN is exactly the same with one exception For any of the two TN types the Card Block Component is dependent on the shelf card to which the terminal is assigned The component is 0 if the TN is on a preallocated card and size PCARDBLOCK 4 2 words otherwise The following shelf card...

Page 86: ...Page 86 of 544 Memory Storage and CPU capacity 553 3011 100 Standard 14 00 January 2002 ...

Page 87: ...91 Provisioning a new system 91 Defining and forecasting growth 91 Estimating CCS per terminal 93 Comparative method 93 Manual calculation 95 Default method 96 Calculating number of trunks required 97 Calculating line trunk and console load 98 Line load 98 Trunk load 98 Console load 98 Calculating Digitone receiver requirements 99 Model 1 100 Model 2 100 Model 3 100 Model 4 100 Detailed calculatio...

Page 88: ...s 138 Worksheet D Unprotected memory calculations 141 Worksheet E Protected memory calculations 142 Worksheet F Equipment summary 143 Worksheet G System power consumption 144 Worksheet Ga System power consumption Main cabinet 146 Worksheet Gb System power consumption first expansion cabinet 147 Worksheet Gc System power consumption second expansion cabinet 148 Worksheet Gd System power consumption...

Page 89: ...itone receiver DTR requirements Model 1 on page 117 Table 25 Digitone receiver DTR requirements Model 2 on page 118 Table 26 Digitone receiver DTR requirements Model 3 on page 119 Table 27 Digitone receiver DTR requirements Model 4 on page 120 Table 28 Digitone receiver DTR load capacity 6 to 15 second holding time on page 121 Table 29 Digitone receiver DTR load capacity 16 to 25 second holding ti...

Page 90: ...t Ga System power consumption Main cabinet on page 146 Worksheet Gb System power consumption first expansion cabinet on page 147 Worksheet Gc System power consumption second expansion cabinet on page 148 Worksheet Gd System power consumption third expansion cabinet on page 149 Worksheet Ge System power consumption fourth expansion cabinet on page 150 Worksheet Gf Total Option 11C system power cons...

Page 91: ... DTR requirements page 99 6 Calculate total system load page 102 7 Calculate number of loops required page 102 8 Calculate number of IPE cards required page 103 9 Provision Conference TDS loops page 108 10 Calculate memory requirements page 110 11 Assign equipment and prepare equipment summary page 110 12 Calculate battery backup time page 110 Defining and forecasting growth The first step in prov...

Page 92: ... determine the number of telephones required from cutover through a five year interval the number of employees required at cutover one two three four and five years is multiplied by the ratio of telephones to employees 0 556 180 employees x 0 556 100 telephones at cutover 189 employees x 0 556 105 telephones at 1 year 199 employees x 0 556 111 telephones at 2 years 209 employees x 0 556 116 teleph...

Page 93: ...omparative systems are similar line size 25 percent similar business such as bank hospital insurance manufacturing similar locality urban or rural Once similar systems have been selected their station trunk and intra CCS T are averaged The averages are then applied to calculate trunk requirements for the system being provisioned see the example in Table 17 Table 17 Example of station trunk and int...

Page 94: ...otal trunk load divided by the total number of lines at cutover From the preceding information trunk CCS T can be computed as follows trunk CCS T total trunk load in CCS number of lines 959 234 4 1 Assuming a 33 percent intra calling ratio intra CCS T 4 1 x 0 5 2 1 line CCS T 4 1 trunk CCS T 2 1 intra CCS T 6 2 Table 18 Example of CCS T averaging when only trunk CCS T is known Trunk type Number of...

Page 95: ...ge on the trunk group The number of lines that are accessing the group at cutover are divided into the estimated usage The result is the CCS T which can be used to estimate trunk requirements Example Line CCS T 6 2 Trunk CCS T 4 1 2 consoles 30 CCS Table 19 Example of manual calculation of CCS T Cutover Line CCS 275 x 6 2 1705 Trunk CCS 275 x 4 1 1128 Subtotal 2833 Console CCS 30 Total system load...

Page 96: ...n are not successful the default of 5 5 line CCS T can be used The network line usage is determined by multiplying the number of lines by 5 5 CCS T The total is then multiplied by two to incorporate the trunk CCS T However when this method is used the intra CCS T is added twice to the equation and the result could be over provisioning if the intra CCS T is high Another difficulty experienced with ...

Page 97: ...number of trunks required per trunk group to meet cutover two year and five year requirements is determined as shown in the following example Example The customer requires a Poisson 1 percent blocking grade of service see Reference Table 1 The estimated trunk CCS T is 1 14 for a DID trunk group With the cutover two year and five year number of lines the total trunk CCS is determined by multiplying...

Page 98: ...performed for each trunk group to be equipped The total trunk CCS T is the sum of each individual trunk group CCS T This value is also entered in Worksheet A Growth forecast on page 135 Line load Line load is calculated by multiplying the total number of 500 telephone TNs by the line CCS T The number of TNs is determined as follows one TN for every DN assigned to one or more Analog 500 2500 type t...

Page 99: ...mine DTR needs in most cases When the system being provisioned does not fall within the bounds of these models or is equipped with any special features the detailed calculations must be performed for each feature The number of DTRs must accommodate the highest result Some special features are Authorization Code Centralized Attendant Service CAS Charge Account for Call Detail Recording CDR Direct I...

Page 100: ...s the same traffic pattern as Model 1 Digitone DID trunks or incoming Digitone tie trunks Poisson 0 1 percent blockage grade of service Model 3 Table 26 Digitone receiver DTR requirements Model 3 on page 119 is based on the following factors 15 percent intra office calls 28 percent incoming calls and 56 percent outgoing calls 1 5 percent dial tone delay grade of service no Digitone DID trunks or i...

Page 101: ... calls respectively Factor 1 R 2 in 1 outgoing incoming calls and outgoing calls are equal R is the intra office ratio Follow the procedure below for detailed calculation Method 1 1 Calculate Digitone calls Intra office traffic 100 x Digitone station traffic CCS x R call holding time in seconds 2 Outgoing traffic 100 x Digitone station traffic x 1 R call holding time in seconds 2 Calculate total D...

Page 102: ...1 3 x 6 2 x intra 14 1 x outgoing 2 5 x DID calls 100 3 See Table 30 Digitone receiver DTR requirements Poisson 0 1 percent blocking on page 126 and use the answer from step 2 to determine the number of DTRs required Calculating total system load Total the line trunk console and DTR load for each customer to get the total load figure for each customer two year and five year intervals Enter this fi...

Page 103: ...still handle calls IPE card slot assignments without IP Expansion If you are not using IP Expansion cabinets then trunk and line cards should be placed in the system cabinets in such a way as to allow for future expansion Line cards are placed in the left hand slots of the cabinets If the system is using the default numbering plan and consecutive DN numbering is desired the line cards should be pl...

Page 104: ...ough 9 Slot 10 can contain any IPE card or the Meridian Mail Mini Refer to Figure 10 on page 108 When planning the number of card slots that will be required in a system the following items must be considered in addition to IPE card requirements Additional SDI DCHI ESDI ports Tone Detectors International only Adding Meridian Mail Figure 4 Card slot assignment plan one cabinet system ...

Page 105: ...age 105 of 544 Option 11C and 11C Mini Technical Reference Guide Figure 5 Card slot assignment plan two cabinet system without IP expansion Figure 6 Card slot assignment plan three cabinet system without IP expansion ...

Page 106: ...nsion Figure 8 Card slot assignment plan five cabinet system without IP expansion Power Supply Meridian Mail C P U Power Supply Line cards Power Supply Power Supply Trunk cards 1st line card 1st trunk card Power Supply Meridian Mail C P U Power Supply Line cards Power Supply Power Supply Power Supply Trunk cards 1st line card 1st trunk card ...

Page 107: ...ce Guide Figure 9 Card slot assignment plan Option 11C Mini Main Chassis SLOT 0 CPU SLOT 1 SLOT 2 SLOT 3 48 DLC SLOT 4 Slots 4 5 6 NTDK16 48 port DLC ONLY Slot 3 Any IPE or CE card Slot 2 Any IPE or CE card Slot 1 Any IPE or CE card Slot 0 NTDK97 MSC Main Chassis 553 9025 ...

Page 108: ...orts 16 conferees By default two conference loops are always active more becomes active when the expansion cabinets are equipped Therefore the SSC supports a total of 32 conferees by itself Each port on a Fiber Expansion Daughterboard on the Small System Controller supports an additional conference loop for a total of 48 conferees when equipped with one Fiber Expansion Link 64 conferees when equip...

Page 109: ...h that a single SSC card SSC or MSC with 30 channels of TDS This should be enough to meet all TDS requirements To illustrate this point two examples are given below Example 1 Option 11C configured with two expansion cabinets provides 30 slots for trunk and line cards The SSC card can support 7260 CCS of call traffic A digital line card supports 16 units per card A Universal trunk card supports 8 u...

Page 110: ... CCS The SSC card at 7260 CCS still provides plenty of TDS capability Calculating memory requirements Use Worksheet D Unprotected memory calculations on page 141 and Worksheet E Protected memory calculations on page 142 to calculate memory requirements Use the two year figure for telephones consoles and trunks for the calculation Add 10 percent to the total memory requirements Assigning equipment ...

Page 111: ...on Worksheet Gf Total Option 11C system power consumption on page 151 4 If your system is AC powered go to Worksheet H Battery current and AC line calculation for AC systems using NTAK75 and NTAK76 on page 153 If your system is DC powered go to Worksheet I Battery current calculation for customer provided DC reserve power on page 154 5 Transfer the Pout Main and Pout Expan values from Worksheet G ...

Page 112: ...5 7 27 590 51 1291 4 29 6 28 618 52 1322 5 46 1 29 647 53 1352 6 64 30 675 54 1382 7 84 31 703 55 1412 8 105 32 732 56 1443 9 126 33 760 57 1473 10 149 34 789 58 1504 11 172 35 818 59 1534 12 195 36 847 60 1565 13 220 37 876 61 1595 14 244 38 905 62 1626 15 269 39 935 63 1657 16 294 40 964 64 1687 17 320 41 993 65 1718 18 346 42 1023 66 1749 19 373 43 1052 67 1780 20 399 44 1082 68 1811 21 426 45 ...

Page 113: ...059 100 2816 124 3594 77 2091 101 2874 125 3616 78 2122 102 2879 126 3648 79 2153 103 2910 127 3681 80 2184 104 2942 128 3713 81 2215 105 2974 129 3746 82 2247 106 3006 130 3778 83 2278 107 3038 131 3810 84 2310 108 3070 132 3843 85 2341 109 3102 133 3875 86 2373 110 3135 134 3907 87 2404 111 3166 135 3939 88 2436 112 3198 136 3972 Table 22 Trunk traffic Poisson 1 percent blocking Part 2 of 3 Trun...

Page 114: ...689 120 3456 144 4231 145 4264 147 4329 149 4395 146 4297 148 4362 150 4427 Table 23 Trunk traffic Poisson 2 percent blocking Part 1 of 3 Trunks CCS Trunks CCS Trunks CCS 1 4 25 571 49 1268 2 7 9 26 562 50 1317 3 20 9 27 627 51 1348 4 36 7 28 656 52 1374 5 55 8 29 685 53 1352 6 76 0 30 715 54 1441 7 96 8 31 744 55 1472 8 119 32 773 56 1503 9 142 33 803 57 1534 Table 22 Trunk traffic Poisson 1 perc...

Page 115: ...042 65 1784 18 374 42 1072 66 1816 19 401 43 1103 67 1817 20 429 44 1133 68 1878 21 458 45 1164 69 1910 22 486 46 1194 70 1941 23 514 47 1125 71 1973 24 542 48 1255 72 2004 73 2036 97 2803 121 3581 74 2067 98 2838 122 3614 75 2099 99 2868 123 3647 76 2130 100 2900 124 3679 77 2162 101 2931 125 3712 78 2194 102 2964 126 3745 79 2226 103 2996 127 3777 Table 23 Trunk traffic Poisson 2 percent blockin...

Page 116: ...2450 110 3223 134 4007 87 2482 111 3255 135 4039 88 2514 112 3288 136 4072 89 3546 113 3321 137 4105 90 2578 114 3353 138 4138 91 2611 115 3386 139 4171 92 2643 116 3418 140 4204 93 2674 117 3451 141 4237 94 2706 118 3483 142 4270 95 2739 119 3516 143 4302 96 2771 120 3548 144 4335 145 4368 147 4434 149 4500 146 4401 148 4467 150 4533 Table 23 Trunk traffic Poisson 2 percent blocking Part 3 of 3 T...

Page 117: ... requirements Model 1 Number of DTRs Max number of Digitone lines DTR load CCS 2 7 2 3 33 9 4 69 19 5 120 33 6 179 49 7 249 68 8 332 88 9 399 109 10 479 131 11 564 154 12 659 178 13 751 203 14 848 229 15 944 255 16 1044 282 Note See Calculating Digitone receiver requirements on page 99 for Model 1 assumptions ...

Page 118: ...quirements Model 2 Number of DTRs Max number of Digitone lines DTR load CCS 2 2 2 3 21 7 4 52 15 5 90 27 6 134 40 7 183 55 8 235 71 9 293 88 10 353 107 11 416 126 12 483 145 13 553 166 14 623 187 15 693 208 16 770 231 Note See Calculating Digitone receiver requirements on page 99 for Model 2 assumptions ...

Page 119: ...R requirements Model 3 Number of DTRs Max number of Digitone lines DTR load CCS 2 5 2 3 22 9 4 50 19 5 87 33 6 132 49 7 180 68 8 234 88 9 291 109 10 353 131 11 415 154 12 481 178 13 548 203 14 618 229 15 689 255 16 762 282 Note See Calculating Digitone receiver requirements on page 99 for Model 3 assumptions ...

Page 120: ...quirements Model 4 Number of DTRs Max number of Digitone lines DTR load CCS 2 4 2 3 18 7 4 41 15 5 72 27 6 109 40 7 148 55 8 193 71 9 240 88 10 291 107 11 340 126 12 391 145 13 448 166 14 505 187 15 562 208 16 624 231 Note See Calculating Digitone receiver requirements on page 99 for Model 4 assumptions ...

Page 121: ...7 36 35 34 33 33 32 32 6 61 57 55 53 52 50 49 49 48 47 7 83 78 75 73 71 69 68 67 66 65 8 106 101 91 94 91 89 88 86 85 84 9 131 125 120 116 113 111 109 107 106 104 10 157 150 144 140 136 133 131 129 127 126 11 185 176 170 165 161 157 154 152 150 148 12 212 203 196 190 185 182 178 176 173 171 13 241 231 223 216 211 207 203 200 198 196 14 270 259 250 243 237 233 229 225 223 220 15 300 288 278 271 264...

Page 122: ...7 560 554 548 27 680 659 642 628 618 607 597 589 583 577 28 714 691 674 659 647 638 628 620 613 607 29 746 724 706 690 678 667 659 651 644 637 30 779 758 738 723 709 698 690 682 674 668 31 813 792 771 755 742 729 719 710 703 696 32 847 822 805 788 774 761 750 741 733 726 33 882 855 835 818 804 793 781 772 763 756 34 913 889 868 850 836 825 812 803 795 787 35 947 923 900 883 867 855 844 835 826 818...

Page 123: ... 29 Digitone receiver DTR load capacity 16 to 25 second holding time Part 1 of 3 Average holding time in seconds 16 17 18 19 20 21 22 23 24 25 Number of DTRs 1 0 0 0 0 0 0 0 0 0 0 2 2 2 2 2 2 2 2 2 2 2 3 8 8 8 8 8 8 8 8 8 8 4 18 18 18 18 18 17 17 17 17 17 5 31 31 31 30 30 30 30 30 30 29 6 47 46 46 45 45 45 45 44 44 44 7 64 63 63 62 62 62 61 61 61 60 Table 28 Digitone receiver DTR load capacity 6 t...

Page 124: ... 260 259 257 256 255 254 17 294 292 290 288 286 284 283 281 280 279 18 322 319 317 314 312 311 309 308 306 305 19 347 344 342 339 337 335 334 332 331 329 20 374 371 368 366 364 361 360 358 356 355 21 402 399 396 393 391 388 386 385 383 381 22 431 427 424 421 419 416 414 412 410 409 23 458 454 451 448 445 442 440 438 436 434 24 486 482 478 475 472 470 467 465 463 461 25 514 510 506 503 500 497 495 ...

Page 125: ...751 745 740 735 731 727 724 721 718 715 34 782 776 771 766 761 757 754 750 747 744 35 813 807 801 796 792 788 784 780 777 774 36 341 835 829 824 820 818 814 810 807 804 37 872 865 859 854 849 845 841 837 834 831 38 902 896 890 884 879 875 871 867 863 860 39 934 927 921 914 909 905 901 897 893 890 40 965 952 952 945 940 936 931 927 923 920 Note Load capacity is measured in CCS Table 29 Digitone rec...

Page 126: ... Poisson 0 1 percent blocking Part 1 of 2 Number of DTRs DTR load CCS Number of DTRs DTR load CCS 1 0 26 469 2 2 27 495 3 7 28 520 4 15 29 545 5 27 30 571 6 40 31 597 7 55 32 624 8 71 33 650 9 88 34 676 10 107 35 703 11 126 36 729 12 145 37 756 13 166 38 783 14 187 39 810 15 208 40 837 16 231 41 865 17 253 42 892 ...

Page 127: ... 25 second holding time Part 1 of 3 Average holding time in seconds 16 17 18 19 20 21 22 23 24 25 Number of DTRs 1 0 0 0 0 0 0 0 0 0 0 2 2 2 2 2 2 2 2 2 2 2 3 8 8 8 8 8 8 8 8 8 8 4 18 18 18 18 18 17 17 17 17 17 5 31 31 31 30 30 30 30 30 30 29 6 47 46 46 45 45 45 45 44 44 44 7 64 63 63 62 62 62 61 61 61 60 Table 30 Digitone receiver DTR requirements Poisson 0 1 percent blocking Part 2 of 2 Number o...

Page 128: ... 260 259 257 256 255 254 17 294 292 290 288 286 284 283 281 280 279 18 322 319 317 314 312 311 309 308 306 305 19 347 344 342 339 337 335 334 332 331 329 20 374 371 368 366 364 361 360 358 356 355 21 402 399 396 393 391 388 386 385 383 381 22 431 427 424 421 419 416 414 412 410 409 23 458 454 451 448 445 442 440 438 436 434 24 486 482 478 475 472 470 467 465 463 461 25 514 510 506 503 500 497 495 ...

Page 129: ...751 745 740 735 731 727 724 721 718 715 34 782 776 771 766 761 757 754 750 747 744 35 813 807 801 796 792 788 784 780 777 774 36 341 835 829 824 820 818 814 810 807 804 37 872 865 859 854 849 845 841 837 834 831 38 902 896 890 884 879 875 871 867 863 860 39 934 927 921 914 909 905 901 897 893 890 40 965 952 952 945 940 936 931 927 923 920 Note Load capacity is measured in CCS Table 31 Digitone rec...

Page 130: ... Poisson 0 1 percent blocking Part 1 of 2 Number of DTRs DTR load CCS Number of DTRs DTR load CCS 1 0 26 469 2 2 27 495 3 7 28 520 4 15 29 545 5 27 30 571 6 40 31 597 7 55 32 624 8 71 33 650 9 88 34 676 10 107 35 703 11 126 36 729 12 145 37 756 13 166 38 783 14 187 39 810 15 208 40 837 16 231 41 865 17 253 42 892 ...

Page 131: ...5 444 50 1115 Table 33 Conference and TDS loop requirements Network loops required at 2 years TDS loops required Conference loops required 1 12 1 1 13 24 2 2 25 36 3 3 37 48 4 4 49 60 5 5 61 72 6 6 73 84 7 7 85 96 8 8 97 108 9 9 109 120 10 10 Table 32 Digitone receiver DTR requirements Poisson 0 1 percent blocking Part 2 of 2 Number of DTRs DTR load CCS Number of DTRs DTR load CCS ...

Page 132: ...34 20 34 5 826 856 35 35 50 6 857 887 36 51 69 7 888 919 37 70 89 8 920 951 38 90 111 9 952 984 39 112 133 10 985 1017 40 134 157 11 1018 1050 41 158 182 12 1051 1084 42 183 207 13 1085 1118 43 208 233 14 1119 1153 44 234 259 15 1154 1188 45 260 286 16 1189 1223 46 287 313 17 1224 1258 47 314 342 18 1259 1293 48 343 371 19 1294 1329 49 372 398 20 1330 1365 50 399 427 21 1366 1400 51 428 456 22 140...

Page 133: ...67 29 1646 1680 59 668 698 30 1681 1715 60 699 729 31 1716 1750 61 1751 1785 62 2871 2905 94 1786 1820 63 2906 2940 95 1821 1855 64 2941 2975 96 1856 1890 65 2976 3010 97 1891 1925 66 3011 3045 98 1926 1960 67 3046 3080 99 1961 1995 68 3081 3115 100 1996 2030 69 3116 3465 101 2031 2065 70 2066 2100 71 2101 2135 72 2136 2170 73 2171 2205 74 Table 34 Digitone receiver provisioning Part 2 of 3 DTR CC...

Page 134: ...2380 79 2381 2415 80 2416 2450 81 2451 2485 82 2486 2520 83 2521 2555 84 2556 2590 85 2591 2625 86 2626 2660 87 2661 2695 88 2696 2730 89 2731 2765 90 2766 2800 91 2801 2835 92 2836 2870 93 Note Provisioning assumes an 11 second holding time Table 34 Digitone receiver provisioning Part 3 of 3 DTR CCS DTR ports DTR CCS DTR ports ...

Page 135: ...______________ Date __________________ Prepare one worksheet for each customer and one worksheet for the complete system Stations Cutover 2 years 5 years CCS T Meridian Digital Telephones Meridian Digital Telephone TNs 500 telephones 500 TNs 2500 telephones 2500 TNs 2 way 1 way in 1 way out DID Tie CCSA InWATS OutWATS FX Private line ...

Page 136: ...ovisioning 553 3011 100 Standard 14 00 January 2002 Line CCS T____________ Total trunk CCS T____________ Intra CCS T____________ Dial dictation Paging RAN AIOD DTI E M 2W E M 4W CO Stations Cutover 2 years 5 years CCS T ...

Page 137: ...S Total line load ___________ CCS Trunk usage Number of TNsCCS T perTotal CCS load Trunk routeaccessing routetrunk routeper trunk route ____________ ____________ x ____________ ____________CCS ____________ ____________ x ____________ ____________CCS ____________ ____________ x ____________ ____________CCS ____________ ____________ x ____________ ____________CCS ____________ ____________ x ________...

Page 138: ...orts M2250 uses 2 ports 16 Number of analog line cards number of analog ports in service 16 Number of analog waiting line cards number of analog ports with message waiting 16 Number of universal trunk cards total number of CO DID RAN paging trunks 8 Number of E M trunk cards total number of E M paging dictation trunks 4 Total cards Note For higher reliability do not configure more than one M2250 c...

Page 139: ... Calculations without Meridian Mail The first cabinet provides a total of 9 slots for trunk and line cards For systems requiring SDI DCH cards subtract one available card slot from the first cabinet for each additional SDI DCH card required Option 11C Calculations with Meridian Mail Subtract one available card slot from the first cabinet Number of IPE cards Number of cabinets required maximum 5 ca...

Page 140: ...s For systems requiring extra TDS DTR or SDI DCH cards subtract one available card slot from the main chassis for each additional TDS DTR or SDI DCH card required Number of chassis required ____________ Number of IPE cards Number of chassis required maximum 2 chassis 1 3 1 4 7a a If you are adding a Meridian Mail Mini card it must be located in slot 10 of the chas sis expander which reduces the ma...

Page 141: ...mplete system Total from table__________ Total words from table__________ Capacity ______ 64 ___ k words k 1024 words Items Words Total Fixed amount of storage required 500 and 2500 TNs Add on modules Network groups 2 Trunk units Consoles Customer groups Network loops 30 Peripheral Signalling 2 Trunk routes SDI cards TDS loops Conference loops 3 DTR loops Call registers Low priority input buffers ...

Page 142: ...__________ Add 10 __________ Total words from table __________ Capacity ______ 64 ____ k words k 1024 words Items Words Total Fixed amount of storage required 500 and 2500 TNs Add on modules Trunk units Consoles Customer groups Trunk routes Code restricted trunk routes DTR loops in excess on 1 Speed call head table Speed call lists 10 numbers Speed call lists 50 numbers TDS loops in excess of 1 Hi...

Page 143: ...________________________________________ Date ______________ Prepare one worksheet for the complete system Equipment summary Quantity Based on Line and trunk cards Cutover DTRs 2 years TDS loops 2 years Call registers 2 years High priority input buffers Cutover Low priority input buffers Cutover System cabinets 2 years ...

Page 144: ...idian Mail Mini steady state 35W NT5D26 EXUT Card for ASia Pacific DID enabled 28W NT8D02 Digital line card 100 25W NT9D09 Message waiting line card 50 26W NT8D14 Universal trunk card DID enabled 28W NT8D15 E M trunk card N A 29W NT5K07 Universal Trunk Card DID enabled 28W NT5K19 Extended E M trunk card N A 29W NT5K82 XCOT Card for Switzerland DID enabled 28W NT5K83 XFEM trunk card for Switzerland...

Page 145: ...n 11C N A 3W NTDK24 3 km Fiber Daughterboard Option 11C N A 3W NTDK25 3 km Receiver card Option 11C N A 3W NTDK26 Upgrades Daughterboard Option 11C N A 2W NTDK79 3 km Fiber Daughterboard Option 11C N A 3W NTDK80 3 km Receiver card Option 11C N A 3W NTDK85 Dual Fiber Daughterboard Option 11C N A 7 5W NTDK97 Mini System Controller Option 11C Mini N A 15 w NTRB21 1 5mb TMDI N A 12W Table 35 Circuit C...

Page 146: ...age 146 of 544 Provisioning 553 3011 100 Standard 14 00 January 2002 Worksheet Ga System power consumption Main cabinet Slot Circuit card Type Power consumption from Table 35 0 1 2 3 4 5 6 7 8 9 10 Total ...

Page 147: ...ge 147 of 544 Option 11C and 11C Mini Technical Reference Guide Worksheet Gb System power consumption first expansion cabinet Slot Circuit card Type Power consumption from Table 35 11 12 13 14 15 16 17 18 19 20 Total ...

Page 148: ... 544 Provisioning 553 3011 100 Standard 14 00 January 2002 Worksheet Gc System power consumption second expansion cabinet Slot Circuit card Type Power consumption from Table 35 21 22 23 24 25 26 27 28 29 30 Total ...

Page 149: ...ge 149 of 544 Option 11C and 11C Mini Technical Reference Guide Worksheet Gd System power consumption third expansion cabinet Slot Circuit card Type Power consumption from Table 35 31 32 33 34 35 36 37 38 39 40 Total ...

Page 150: ... 544 Provisioning 553 3011 100 Standard 14 00 January 2002 Worksheet Ge System power consumption fourth expansion cabinet Slot Circuit card Type Power consumption from Table 35 41 42 43 44 45 46 47 48 49 50 Total ...

Page 151: ...al for slots 1 10 in main cabinet Pout Expan total for slots 11 20 in the first expansion cabinet Pout Expan total for slots 21 30 in the second expansion cabinet Pout Expan total for slots 31 40 in the third expansion cabinet Pout Expan total for slots 41 50 in the fourth expansion cabinet Total Slot Circuit card Type Power consumption from Table 35 1 NTDK97 MSC 15 w 2 3 4 5 6 NTDK16 48 port DLC ...

Page 152: ... Chassis expander Note For an IP Expansion system use the Option 11C Worksheets Worksheet Gi Total Option 11C Mini system power consumption Slot Circuit card Type Power consumption from Table 35 7 8 9 10 Total Pout Main total for slots 1 6 in main chassis Pout Expan total for slots 7 10 in the chassis expander Total ...

Page 153: ... Pout Main _____ PF 0 6 V 110VAC or 208VAC VBatt 48VDC Note Pline Main 750VA 10 maximum during battery charging Pin Expan Pout Expan 0 80 _____ _____ I line Expan in AC amps Pin_ Expan V x 0 6 I Batt Expan 80 efficiency Option 11C CE PE NTAK75 76 battery unit To AC power source Expansion cabinet Pout Expan _____ PF 0 6 V 110VAC or 208VAC VBatt 48VDC Note Pline Expan 750VA 10 maximum during battery...

Page 154: ...Pout Main 0 80 _____ I Batt Main 80 efficiency customer provided reserve power system power supply Option 11C CE PE Main cabinet Pout Main _____ V Batt 48VDC I Batt Expan in DC amps Pin Expan _____ 48 Pout Expan _____ Pin Expan Pout Expan 0 80 _____ Expansion cabinet V 48V 80 efficiency Option 11C PE customer provided reserve power system power supply I Batt Expan V Batt 48VDC NTDK72 DC NTDK72 DC ...

Page 155: ...Provisioning Page 155 of 544 Option 11C and 11C Mini Technical Reference Guide Figure 11 Discharge Time for the NTAK76 Battery ...

Page 156: ...Page 156 of 544 Provisioning 553 3011 100 Standard 14 00 January 2002 Figure 12 Discharge Time for the NTAK75 QBL24A1 Batteries ...

Page 157: ... 159 Frequency Response 165 Input impedance and balance impedance 166 Return Loss 166 Transhybrid Loss 167 Idle Channel Noise 168 Impulse Noise 169 Variation of gain versus level 169 Method 1 169 Method 2 170 Total distortion including quantization distortion 170 Method 1 171 Method 2 171 Spurious in band signal 172 Spurious out of band signal 172 Discrimination against out of band signals 172 Int...

Page 158: ...es to both standard µ Law and A Law cards There are other countries which have their own transmission plans and thus use unique cards which have had adjustments made to accommodate their transmission specifications These adjustments were generally in A D and D A gains The transmission characteristics are given in the following section Except where indicated otherwise the design objectives given ar...

Page 159: ...o end network connection loss requirements The Meridian 1 Option 11C loss specifications are in agreement with North American standards which are formulated to provide satisfactory end to end performance for connections within private networks and between private and public networks The loss plan strategy for IPE combines electrical loss with terminal acoustic parameters for optimum transmission p...

Page 160: ...gital Port IPE Ports Table 37 Digital Ports Table 38 Table 39 Table 37 Insertion Loss from IPE Ports to IPE Ports measured in dB Part 1 of 2 IPE Ports IPE Ports 500 2500 Line Digital Line 2 4 Wire E M Trunk 4 Wire ESN E M Trunk CO FX WATS Loop Tie Trunk 500 2500 Line 6 6 Digital Line 2 5 3 5 0 0 2 4 Wire E M Trunk 6 3 3 5 0 5 1 1 ...

Page 161: ... 5 Table 38 Insertion Loss Digital Ports To IPE Ports measured in dB Part 1 of 2 IPE Ports Digital Ports 500 2500 Line Digital Line 2 4 Wire E M Trunk 4 Wire ESN E M Trunk CO FX WATS Loop Tie Trunk Tie Trunk 8 5 2 5 6 0 3 5 2 5 3 3 2 5 2 5 Satellite Tie Trunk See note 1 2 5 2 5 3 0 0 5 0 5 0 0 0 5 0 5 Table 37 Insertion Loss from IPE Ports to IPE Ports measured in dB Part 2 of 2 IPE Ports ...

Page 162: ...s 5 3 The 1 5Mb PRI and DTI have digital pads which are controlled by Meridian 1 software to provide the insertion loss given above The 2Mb PRI and DTI have programmable digital pads The default value for these pads gives the insertion loss in Table 38 The pad values can be printed and changed in overlay 73 LD 73 CO FX WATS Loop Tie Trunk 0 5 4 5 2 1 2 5 2 5 2 2 0 5 0 5 Toll Office See note 2 8 5 ...

Page 163: ...asured in dB Digital ports Digital Ports Tie Trunk Satellite Tie Trunk note 1 CO FX WATS Loop Tie Trunk Toll Office Trunk note 2 Primary Rate Interface PRI note 3 Tie Trunk 0 0 Satellite Tie Trunk See note 1 0 0 0 0 CO FX WATS Loop Tie Trunk 0 6 0 0 3 3 Toll Office See note 2 0 0 6 0 6 0 0 0 Primary Rate Interface PRI See note 3 0 0 6 0 3 0 0 0 0 0 ...

Page 164: ... pads which are controlled by Meridian 1 software to provide the insertion loss given above The 2Mb PRI and DTI have programmable digital pads The default value for these pads gives the insertion loss in Table 39 The pad values can be printed and changed in LD 73 Insertion loss limits Table 40 gives the analog insertion loss limits for trunk and line connections Table 40 Insertion loss limits for ...

Page 165: ...ference frequency Table 41 gives the frequency response for 2 wire and 4 wire interfaces Notes to Table 41 1 The symbol denotes a loss and the symbol denotes a gain 2 Reference Sources µ Law 1024 Hz 10 dBmO A Law 820 Hz 10 dBmO Table 41 Frequency Response for 2 wire and 4 wire interfaces Frequency Hz 2 Wire Interface 4 Wire Interface Minimum Maximum Minimum Maximum 200 0 5 0 3 300 0 5 1 0 0 5 0 5 ...

Page 166: ...ntinuity in a transmission path is the ratio in dB of the power level of an incident signal to the power level of the resulting reflected signal Echo Return Loss ERL is a weighted average of the return loss value over the frequency range of 500 to 2500 Hz Single Frequency Return Loss SFRL is the lowest value of return loss in the frequency range of 200 to 3200 Hz Table 42 Input impedance balance i...

Page 167: ... end trunk If the source impedance does not match there will be a problem with stability and listener echo The match of the output source impedance to the line or trunk impedance is measured by connecting the interface to a 4 wire trunk The reflected signal from the hybrid is then measured when the 2 wire interface is terminated with the balance impedance given in Table 42 The values for the trans...

Page 168: ...ing for µ Law or Psophometric weighting for a A Law The 3 k Hz flat measurement uses equal weighting for all frequencies in the 20 3000 Hz range The values are shown in Table 45 Table 44 Transhybrid loss Input Frequency Hz Transhybrid Return Loss dB 300 16 500 20 2500 20 3400 16 Table 45 Idle Channel Noise Connection µ Law C Message Noise dBrnC0 A Law Psophometric dBmP0 3 kHz dBm0 Line Line 20 65 ...

Page 169: ...king error is measured in decibels and is defined as the deviation in gain or loss through a range of input level relative to the gain or loss at the reference frequency and level of 0 dBmO The two methods of measuring the tracking error are listed below Method 1 When a noise signal as defined in CCITT recommendation 0 131 is applied at the input of any interface the gain versus level deviation at...

Page 170: ...e 49 Reference frequency 700 1100 Hz 820 Hz A Law 1024 Hz µ Law Total distortion including quantization distortion The quantization distortion is the difference between the original analog signal and the analog signal signal plus noise resulting from the decoding process There are two methods of measuring the quantization distortion Table 48 Variation of gain versus level method 1 Input Level dBm0...

Page 171: ...terface lies above the limit given in Table 50 Method 2 With a sine wave at the reference frequency is applied to the input interface the total distortion measured at the output port interface lies above the limit given in Table 51 Reference frequency 1020 Hz µ Law 820 or 420 Hz A Law Table 50 Total distortion method 1 Input Signal dBmO Analog Analog dB Digital Analog dB 55 11 1 13 1 40 26 1 28 1 ...

Page 172: ...mage signals measured selectively at the output port is lower than 25 dBmO Discrimination against out of band signals With any sine wave signal above 4 6 kHz applied to the input port at 25 dBm0 the level of any image frequency produced at the output is at least 25 dB below the level of the test signal Intermodulation When two sine wave signals f1 and f2 in the range of 450 to 2050 Hz not harmonic...

Page 173: ...s given in Table 52 Group delay distortion The group delay distortion is the difference between the absolute group delay minimum delay and the group delay in the range 500 to 2800 Hz Table 52 Absolute group delay Interface type Absolute Group Delay Microseconds Analog Analog 3000 Analog Digital 2700 Digital Digital 2400 Table 53 Group delay distortion Frequency range Group delay distortion Microse...

Page 174: ... for calculating longitudinal balance is Longitudinal Balance 20 Log Vs Vm Vs is the disturbing longitudinal voltage and Vm is the tip to ring metallic noise voltage Ideally the metallic noise voltage would be negligible and the longitudinal balance would approach infinity Crosstalk Crosstalk is speech signal signalling energy transferred from one voice channel to another The crosstalk coupling lo...

Page 175: ...5 of 544 Option 11C and 11C Mini Technical Reference Guide Test Source Frequency 200 3200 Hz 0 dBmO Table 55 Crosstalk Connection type Minimum Attenuation dBm0 Design Objective dBm0 Line Line 65 75 Line Trunk 65 75 Trunk Trunk 65 75 ...

Page 176: ...Page 176 of 544 Transmission parameters 553 3011 100 Standard 14 00 January 2002 ...

Page 177: ...lowing are the references in this section Maintenance 553 3001 511 Features and Services 553 3001 306 Administration 553 3001 311 Overview Option 11C IP Expansion allows connectivity of IP Expansion cabinets either point to point or over a distributed campus data network The campus data network connectivity is provided through IP daughterboards in the Main and IP Expansion cabinets Figure 13 on pa...

Page 178: ...ation Figure 13 IP Expansion configuration of cabinets over a campus data network Monitoring IP link voice quality of service for IP Expansion cabinets Behavioral characteristics of the network are dependent on the factors like Round Trip Delay RTD queuing delay in the intermediate nodes packet loss and available bandwidth The service level of each IP link will be measured and maintained on the Ma...

Page 179: ...shold or combination of thresholds is reached These thresholds are not user configurable In LD 117 the command CHG PDV port delay is used to set Packet Delay Variation PDV buffer size on a per link basis The delay parameter can take values from 0 5 ms to 8 ms This value should be initially tested at default settings Increase the delay parameter value by 0 5 ms increments if an unacceptable level o...

Page 180: ...cation relies on a highly robust layer 1 in this case the TDM fabric The above NTP gives the following bit error rate as a measure of this reliability In house error rate 1 error x 10 7 1 error in 10Mbits Trunk error rate 1 error x 10 5 1 error in 100Kbits In the case of IP Expansion a packet loss of 1 has been quoted to achieve acceptable voice quality This potentially means 1 error in 100 bits c...

Page 181: ...dle System Bandwidth approximately 0 Mbps Peak Bandwidth under high traffic conditions 14 Mbps Theoretical Maximum peak bandwidth 24 Mbps Network Delay Round Trip Delay RTD 5 msec with PDV jitter buffer set to maximum RTD 5 ms with PDV jitter buffer set to minimum RTD 12 ms Support of Port Priority Queuing recommended Support of VLAN configuration recommended The network must provide full duplex c...

Page 182: ...ti c s B a ySt a ck 35 0T 10 1 00Au tosenseSwitch 1 2 3 4 5 6 7 8 9 10 11 1 2 13 1 4 15 16 r ks 1 2 3 4 5 6 7 8 Powe r Diag n os ti c s B a ySt a ck 35 0T 10 1 00Au tosenseSwitch 1 2 3 4 5 6 7 8 9 10 11 1 2 13 1 4 15 B a ySt a ck 35 0T 10 1 00Au tosenseSwitch 1 2 3 4 5 6 7 8 9 10 11 1 2 13 1 4 15 16 1 0 0 1 0 A ct i vi t y 100 10 Act i v i t y 9 10 11 12 13 14 1 5 16 H ALF Q FD X SD B ay N et w o ...

Page 183: ...der voice packets Note 1 If you experience buffer underflow errors or clicking and popping noises on a voice call the size of the PDV buffer needs to be increased Note 2 Increase the PDV buffer as little as possible 0 5 ms in order to keep the round trip delay as short as possible The goal is to operate with as small a buffer as possible to keep the round trip delay as short as possible Table 57 B...

Page 184: ...ing Configuration SD B ay N et w o r ks 1 2 3 4 5 6 7 8 Powe r Diag n os ti c s B a ySt a ck 35 0T 10 1 00Au tosenseSwitch 1 2 3 4 5 6 7 8 9 10 11 1 2 13 1 4 15 16 r ks 1 2 3 4 5 6 7 8 Powe r Diag n os ti c s B a ySt a ck 35 0T 10 1 00Au tosenseSwitch 1 2 3 4 5 6 7 8 9 10 11 1 2 13 1 4 15 B a ySt a ck 35 0T 10 1 00Au tosenseSwitch 1 2 3 4 5 6 7 8 9 10 11 1 2 13 1 4 15 16 1 0 0 1 0 A ct i vi t y 10...

Page 185: ...16 Example of third party media device used with 100BaseT hardware IP Security IP security in IP Expansion configuration is addressed in two ways Filtering to protect CPU integrity and call processing stability ARP Filtering ARPs are filtered when the IP link between Main cabinet and IP Expansion cabinet is up IP Filtering Only packets from to M1 nodes cabinets IP addresses are processed when the ...

Page 186: ...data network 553 3011 100 Standard 14 00 January 2002 Dynamic Allocation of the channel in the packet Channel position in the packet is dynamically allocated on a per call basis Therefore Set A has different channels allocated for different calls ...

Page 187: ...ack up unit 194 NTAK75 extended battery back up unit 195 Reference List The following are the references in this section Option 11C and 11C Mini Fault Clearing 553 3011 500 Introduction Spares planning is used to determine desired inventory levels of spares replaceable items Spares planning is used by repair houses and centralized depots in order to ensure that there is an adequate stock of replac...

Page 188: ...is period is assumed to be one year after the installation of the system Stock confidence level the stock confidence level is the allowed probability of not going out of stock during the sparing interval This is assumed to be greater than 99 9 percent Turnaround time for repair the turnaround time for repair is the length of time it takes to repair a failed spares item The turnaround time from a r...

Page 189: ...he area served by the depot Spare stock size the spare stock size for a given item depends on the sparing interval stock confidence level failure rate turnaround time for repair and population range Calculating spares requirements The quantity of a replaceable item that is required to stock a depot for one year can be calculated using a formula N x F x T The spares planning formula has the followi...

Page 190: ...er N of the particular item that is being serviced by the depot For example a single depot services 10 000 Universal Trunk Cards 2 Determine the failure rate F for the specified item From the Failure rates listed in Table 58 on page 191 the failure rate for the Universal Trunk Card is 3 4 3 Determine the turnaround time T in hours Assume a centralized depot with a turnaround time of 48 hours 4 Cal...

Page 191: ...NTAK02 SDI DCH circuit card 2 9 NTAK04 AC DC power supply 3 6 NTAK10 2 0Mb DTI 2 4 NTAK20 clock controller 54 NTBK22 MISP circuit card 7 66 NTBK50 2 0Mb PRI 3 4 NTBK51 DDCH 1 22 NTDK16 48 port Digital Line Card 1 8 NTDK22 10 m Fiber Daughterboard 2 19 NTDK23 10 m Receiver card 2 15 NTDK24 3 km Fiber Daughterboard 2 19 NTDK25 3 km Receiver card 2 15 NTDK26 Upgrade Daughterboard 0 46 NTDK72 DC power...

Page 192: ...06 M2006 telephone 3 08 NTZK08 M2008 telephone 3 10 NTZK16 M2616 telephone 3 88 NTZK22 M2216ACD 1 telephone 4 68 NTZK23 M2216ACD 2 telephone 5 37 NT1F05 M2009 telephone 12 22 NT6G00 M2250 TCM Console N A NT8D02 Digital Line Card 1 8 NT8D09 Message Waiting Line Card 5 8 NT8D14 Universal Trunk Card 3 4 NT8D15 E M DICT PAG Trunk Card 3 7 Table 58 Failure rates for Option 11C system components Part 2 ...

Page 193: ...ed in stock N Number in use F Failure rate T Turnaround time in hours Table 59 Number of spares required Part 1 of 2 NFT values Number of spares 0 0 0010 1 0 0010 0 0452 2 0 0452 0 1890 3 0 189 0 425 4 0 425 0 734 5 0 734 1 090 6 1 09 1 50 7 1 50 1 95 8 1 95 2 43 9 2 43 2 94 10 2 94 3 46 11 3 46 4 01 12 4 01 4 58 13 4 58 5 16 14 5 16 5 76 15 5 76 6 37 16 ...

Page 194: ...d of time the batteries should be replaced For more information refer to theOption 11C and 11C Mini Fault Clearing 553 3011 500 The mean time between failures MTBF of the NTAK76 without batteries is 370 years at 25 C 6 37 6 99 17 6 99 7 62 18 7 62 8 26 19 8 26 8 91 20 8 91 9 57 21 9 57 10 20 22 10 2 10 90 23 10 9 11 50 24 11 5 12 20 25 12 2 12 90 26 12 9 13 60 27 13 6 14 30 28 14 3 15 00 29 15 0 1...

Page 195: ... to 80 of capacity and backup time is diminished After this period of time the batteries should be replaced For more information refer to Option 11C and 11C Mini Fault Clearing 553 3011 500 The mean time between failures MTBF of the NTAK75 without batteries is 100 years at 25 C Table 60 Dimensions of NTAK75 and NTAK76 batteries Card Length Width Depth NTAK75 19 480 mm 11 5 290 mm 11 280 mm NTAK76 ...

Page 196: ...Page 196 of 544 Spares planning 553 3011 100 Standard 14 00 January 2002 ...

Page 197: ...ons and weight 198 AC DC power supply features 198 DC power supply features 199 Voltage 199 Ringing Generator 199 Power supply LED 199 Under voltage 200 Over voltage 201 Temperature sensor 201 Reserve power LED 201 PFTU operation 202 Reserve power 203 Discharge requirements 203 Backup options 203 Battery charging in AC powered systems 204 Reserve time 204 Features of the Option 11C Mini power supp...

Page 198: ...wer supply weighs approximately 8 lb 3 5 kg AC DC power supply features The NTAK04 and NTDK78 AC DC power supply has the following features A current limiting circuit which limits the surge of current on the input line when the system is first switched on Accommodates a reserve power system The system continues to operate on DC reserve power in case of AC power failure Note The NTAK04 or NTDK78 AC...

Page 199: ...power supply provide 5 1 8 5 15 15V 150V 52V power supplies and filtered 48V There is a 1 0 second start up delay on the 5V rail Ringing Generator The AC DC power supply and the DC power supply provide the ringing generator for telephones Ringing voltage 70 75 80 86V Ringing frequency 20 25 50 Hz switch selectable Ring sync A pulse 500 us wide 6 or 11 ms 3 ms before the positive going zero crossin...

Page 200: ...oltage limits of the power supply WARNING Under voltage in the case of 5 1V will result in the complete shutdown of the system Table 61 Nominal and under voltage limits of NTAK04 NTAK05 NTDK72 and NTDK78 power supplies Nominal Under voltage limit Power supply status 5 1V 3 8V Complete Shutdown 8 5V 6 4V Partial failure 150V 100 0V Partial failure 15V 11 2V Partial failure 15V 11 2V Partial failure...

Page 201: ...nd the system power A thermostat is located at the top of the power supply unit The AC or DC input breaker will be tripped for temperatures higher than 80 C 176 F Reserve power LED The NTAK04 and NTDK78 AC DC power supplies oversee the status of the reserve power system When the breaker on the NTAK28 NTAK75 or NTAK76 breaker assembly trips the Batt LED on the NTAK04 or NTDK78 faceplate is turned o...

Page 202: ...nually activated The fiber link to an expansion cabinet fails PFTU for that cabinet only The Option 11C power supply connects to the PFTU through the AUX connector at the bottom of the main cabinet and in each expansion cabinet Table 63 provides the pinouts at the cross connect terminal for the Auxiliary cable Table 63 Auxiliary cable pinouts Cable Signal BL W 1 Dot BRTN BL W 2 Dot BRTN O W 1 Dot ...

Page 203: ... Option 11C system Use Nortel Networks supplied NTAK75 or NTAK76 battery units Customer supplied reserve batteries with NTAK28 Customer supplied batteries may be used as long they meet the requirements set out in Table 64 One NTAK28 breaker assembly is required per cabinet NTAK75 or NTAK76 battery units Two battery units are available The NTAK75 supplies a minimum of two hours backup at full load ...

Page 204: ...zation voltages See Table 65 Reserve time Table 66 outlines the Ampere hours required AHR per cabinet during a power failure The reserve times are based on nominal load for a typical installation Features of the Option 11C Mini power supply This section describes the Option 11C NTDK15 Mini AC power supply Table 65 NTAK04 or NTDK78 AC DC power interface to reserve power systems Minimum Nominal Maxi...

Page 205: ...total output power Meets CISPR B emission per EN 55022 Power status indicator LED is located on the top front left corner of the chassis The Green LED indicates all voltages are within specification The LED is off when one or more voltages are not within specification Ringing voltage 70 75 80 or 86 Vrms depending on DIP switch settings Ringing frequency 20 25 or 50 Hz depending on DIP switch setti...

Page 206: ...ettings There is a 1 0 second start up delay on the 5V rail Over voltage An OVP Over Voltage Protection circuit will shut down all outputs if the 5 V output voltage exceeds the over voltage threshold Under voltage An under voltage protection circuit will shut down all outputs if 5V output is below the under voltage threshold There is a 1 0 minute recovery delay from an under voltage condition ...

Page 207: ...n 207 NTDK20 Small System Controller card 208 Memory 208 Expansion Daughterboards 210 NTDK97 Mini System Controller card 221 Memory 221 Reference List The following are the references in this section Option 11C Mini Planning and Installation 553 3021 209 Option 11C Planning and Installation 553 3021 210 Introduction This chapter describes the System Core cards used with Option 11C and Option 11C M...

Page 208: ... card is comprised of the following components and features Flash daughterboard memory DRAM and Backup memory Two expansion daughterboard interfaces One PCMCIA socket Three Serial Data Interface SDI ports 32 channels of Conferencing 64 if two single port Expansion Daughterboards are present or 96 if two dual port Expansion Daughterboards are present One Ethernet 10 Mbps interface port 30 channels ...

Page 209: ...flash daughterboard The Primary Flash drive contains 16 Mbytes of storage space Most of the data storage is allocated to the Primary Flash drive the main storage area of customer configured data The boot code on existing SSC Option 11C cards must be NTDK34FA Release 07 or later to support the NTDK81 or NTTK13 Flash Daughterboards It is recommended that the boot code be upgraded to the latest issue...

Page 210: ...board is given below The NTDK22 Expansion Daughterboard is used when the expansion cabinet is within 10 m 33 ft of the main Option 11C cabinet It connects to one A0618443 Fiber Optic plastic cable One of these boards is required for each expansion cabinet located within 10 m 33 ft of the main cabinet that is to be connected using the A0618443 Fiber Optic plastic cable The NTDK84 Expansion Daughter...

Page 211: ... Main Option 11C cabinet Refer to later in this chapter for more information A sample of these daughterboards is shown in Figure 19 Table 67 Expansion Daughterboards Daughterboard Number of ports Cable type Max distance between Main and expansion cabinets NTDK22 one A0618443 Fiber Optic plastic cable 10 m 33 ft NTDK84 two NTDK24 one glass fiber optic cable 3 km 1 8 mi NTDK85 two NTDK79 one Single ...

Page 212: ...Page 212 of 544 System Controller cards 553 3011 100 Standard 14 00 January 2002 Figure 19 Expansion Daughterboards NTDK84 NTDK22 NTDK24 NTDK85 NTDK83 NTDK02 ...

Page 213: ...connected with 100BaseT IP connectivity must route the cables though the EMC grounding clip This ensures electrical contact between the ground rail and 100BaseT cable for EMC containment The NTDK41AA EMC grounding clip is used on the Option 11C system on each IP Expansion cabinet Figure 20 EMC grounding clip on Option 11C Main cabinet EMC Grounding Clip ...

Page 214: ...ssis Figure 21 EMC Grounding Clip on Option 11C Mini Cabinet For further information or installation instructions refer to the Option 11C Mini Planning and Installation 553 3021 209 and Option 11C Planning and Installation 553 3021 210 CAUTION Use of the EMC grounding clip is required for EMC compliance 100BaseT cables secured with a cable tie 100BaseT Cable EMC Grounding Clip ...

Page 215: ...ide Figure 22 NTDK20 SSC card and Expansion Daughterboard Software Daughterboard 1st Expansion Cabinet Expansion Daughterboard Consists of Flash ROM Drive Primary Flash Drive Boot ROM Drive Contains Backup Flash Drive PCMCIA Drive Security Device Connector for 2nd Expansion Daughterboard ...

Page 216: ...hterboard 1 The NTDK23 Fiber Receiver card is used when the expansion cabinet is within 10 m 33 ft of the main cabinet It connects to one A0618443 Fiber Optic plastic cable 2 The NTDK25 Fiber Receiver card is used when the expansion cabinet is between 10 m 33 ft and 3 km 1 8 mi of the main cabinet It connects to one glass multi mode fiber optic cable which is dedicated to the Option 11C system 3 T...

Page 217: ...0 SSC card has a PCMCIA interface through a socket located on its faceplate The PCMCIA socket can accommodate a Software Delivery card used for software upgrading and as backup media Security device for the IP Expansion The SSC card on the Option 11C Main cabinet must contain a NTDK57AA Security device which is keycoded to match the NTDK57DA Security device on each IP expansion cabinet ...

Page 218: ...he Main or of the link to the Main 3 to prevent users from configuring or using more TNs or features than have been authorized The IP expansion cabinet security device will provide the following capabilities at the expansion cabinet System software can be installed but no calls will be processed or features activated until communication with a main has been established and a match between the secu...

Page 219: ...strate you can have a maximum of five 3 party conferences for each device or two 6 party conferences plus one 3 party conference It is not possible to conference between conference devices IP expansion 10BaseT port The Option 11C system provides one 10 Mbps Ethernet connection to a Local Area Network LAN The 10BaseT Ethernet port available on the SSC of an IP Expansion cabinet is functional Howeve...

Page 220: ...on cabinet provides the fifth ten Each IPE circuit card has a loop entirely dedicated to it Every group of four IPE card slots is programmed as an individual superloop The superloop configuration is as follows Table 69 Option 11C superloops Main Cabinet First Expansion Cabinet Second Expansion Cabinet Third Expansion Cabinet Fourth Expansion Cabinet Card Slot CE Loop Super Loop Card Slot CE Loop S...

Page 221: ... processing and stores system and customer data The NTDK97 MSC card is comprised of the following components and features Flash memory DRAM Boot ROM and Backup memory One PCMCIA socket Three Serial Data Interface SDI ports 16 channels of Conferencing One Ethernet 10 Mbps interface port 30 channels of tone and digit switch TDS and a combination of eight Digitone receivers DTR or dial tone detectors...

Page 222: ... backup flash drive also referred to as the z drive The backup flash drive stores a backup copy of key system data the customer database and patches The minimum release of bootcode for the MSC is NTDK34FA Release 03 You should upgrade the boot code to the latest issue each time the software is upgraded The boot code can be found on the programmed PCMCIA card DRAM The NTDK97 MSC card is equipped wi...

Page 223: ... PCMCIA interface socket located on its faceplate The PCMCIA socket can accommodate a Software Delivery card used for software upgrading and as backup media SDI ports The NTDK97 MSC card contains three SDI ports used to connect on site terminals or remote terminals through a modem The default settings on the ports are as follows Security Device PCMCIA Drive ...

Page 224: ...u can have a maximum of five 3 party conferences per device or two 6 party conferences plus one 3 party conference Ethernet Interface The NTDK97 MSC card is equipped with a 10 Mbps Ethernet port A 15 pin connector located in the back of the main chassis provides an external connection to the ethernet port This is for a standard 15 pin AUI interface for a MAU Network Switching and signalling Option...

Page 225: ...he superloop configuration is as follows Each superloop provides 120 timeslots while an IPE slot provides 30 timeslots Tone services The NTDK97 MSC card incorporates the functions of the existing NTAK03 TDS DTR NT5K20 XTD and NT5K48 XTD cards Table 71 Option 11C Mini superloops Main Chassis Chassis Expander Card Slot CE Loop Super Loop Card Slot CE Loop Super Loop 1 20 0 7 26 4 2 21 0 8 27 4 3 22 ...

Page 226: ...Page 226 of 544 System Controller cards 553 3011 100 Standard 14 00 January 2002 ...

Page 227: ... of the low speed port 237 Characteristics of the high speed port 240 ESDI settings 240 NTDK23 NTDK25 and NTDK80 Fiber Receiver cards 241 Parameter settings 241 Connection to external equipment 242 Introduction This chapter describes the ports on the Option 11C system Serial Data Interface SDI ports are used to connect devices such as terminals and modems to the Option 11C The two types of SDI por...

Page 228: ...e used to connect a modem or terminal to the system If connection to a terminal is desired an A0378652 NO modem NULL modem without hardware handshaking is required For the Option 11C the SDI port connector is located at the bottom rear of the cabinet next to the connectors to the cross connect terminal An NTBK48 three port cable is required to connect to system equipment Refer to Figure 25 on page...

Page 229: ...SDI ports Page 229 of 544 Option 11C and 11C Mini Technical Reference Guide Figure 25 Option 11C SDI cable connector NTBK48 cable connection ...

Page 230: ...rt connector is located on the bottom left side at the rear of the main chassis Figure 26 Option 11C Mini SDI cable connector The Baud rate for port 0 is selected by setting switches on the faceplate of the SCC SSC and MSC cards Baud rates for ports 1 and 2 are set using overlay programs SDI connector ...

Page 231: ...ernal devices may be connected to the TDS DTR card are Use the NTAK19EC two port SDI cable The NTAK19EC cable does not have to be terminated at the cross connect terminal since it is equipped with connectors Use the NE A25 B cable and terminate it at the cross connect terminal Tables 75 and 76 give the pinouts for the TDS DTR card Table 73 Default port configuration TTY Number Card Port Use Config...

Page 232: ...14 00 January 2002 Table 75 NTAK03 connections at the cross connect terminal Port 0 Pair Color Signal Designations I input O output 1T 1R W BL BL W DSR DCD I I 2T 2R W O O W DTR O 3T 3R W G G W RTS CTS O I 4T 4R W BR BR W RX TX I O 5T 5R W S S W SG O ...

Page 233: ...00 Data bits 5 6 7 8 Default 8 Parity none odd even Default none Stop bits 1 1 5 2 Default 1 Flow control none XON XOFF CTS RTS Default none Table 76 NTAK03 connections at the cross connect terminal Port 1 Pair Color Signal Designations I input O output 6T 6R R BL BL R DSR I 7T 7R R O O R DTR O 8T 8R R G G R RTS CTS O I 11T 11R BK BL BL BK RX TX I O 13T 13R BK G G BK DCD I 22T 22R V O O V SG O ...

Page 234: ...t 3 Ports 1 and 3 may be configured as DCH or ESDI Ports 0 and 2 may only be configured as SDI Each pair is controlled by a switch as shown in Table 77 In the U K DPNSS Digital Private Network Signalling System can replace the DCH function Table 77 Switch settings Port 0 Port 1 SW 1 1 SW 1 2 SDI DCH DPNSS OFF OFF SDI DCH DPNSS OFF ON ESDI ON ON Port 2 Port 3 SW 1 3 SW 1 4 SDI DCH DPNSS OFF OFF SDI...

Page 235: ...onfiguration This option is selected from a jumper on the card Table 78 shows the jumper settings Table 78 Jumper settings Port Jumper location Strap for DTE Strap for DCE Jumper location RS422 RS232 0 J10 C B B A 1 J7 J6 C B C B B A B A J9 J8 C B C B B A B A 2 J5 C B B A 3 J4 J3 C B C B B A B A J2 J1 C B C B B A B A ...

Page 236: ...minal since it is equipped with connectors Use the NE A25 B cable and terminate it at the cross connect terminal Tables 79 through 82 give the pinouts for the SDI DCH card Table 79 NTAK02 pinouts Port 0 at the cross connect terminal RS232 Cable Signal Designations I input O output Pair Color DTE DCE DTE DCE 1T 1R W BL BL W 0 DTR 0 DCD O I 2T 2R W O O W DSR DCD CH CI DTR I I O O 3T 3R W G G W RTS C...

Page 237: ...ns I input O output Signal Pair Color DTE DCE DTE DCE DTE DCE DTE DCE 5T 5R W S S W SCTEA SCTA O I O I SCT SCT 6T 6R R BL BL R SCTEB DTR SCTB DCD O O I I CH CI DTR DCD 7T 7R R O O R DSR DCD CH CI DTR I I O O I I O O DSR DCD CH CI DTR 8T 8R R G G R RTS CTS CTS RTS O I I O O I I O RTS CTS CTS RTS 9T 9R R BR BR R SCRA SCTA SCTEA RXCA I I O O I I O O SCR SCT SCT 10T 10R R S S R SCRB SCTB SCTEB RXCB I ...

Page 238: ...BK O I DTR DCD 14T 14R BK BR BR BK I I O O DSR DCD CH CI DTR 15T 15R BK S S BK O I I O RTS CTS CTS RTS 16T 16R Y BL BL Y I O O I RX TX TXD RXD 17T 17R Y O O Y O I O I SG SG Table 82 NTAK02 connections at the cross connect terminal Port 3 Part 1 of 2 RS422 RS232 Cable Signal Designations I input O output Designations I input O output Signal Pair Color DTE DCE DTE DCE DTE DCE DTE DCE 17T 17R Y O O Y...

Page 239: ... O DSR DCD CH CI DTR 20T 20R Y S S Y RTS CTS CTS RTS O I I O O I I O RTS CTS CTS RTS 21T 21R V BL BL V SCRA SCTA SCTEA RXCA I I O O I I O O SCR SCT SCT 22T 22R V O O V SCRB SCTB SCTEB RXCB I I O O 23T 23R V G G V RXDA TXDA TXDA RXDA I O O I I O O I RXD TXD TXD RXD 24T 24R V BR BR V RXDB TXDB TXDB RXDB I O O I 25T 25R V S S V SG SG SG SG Table 82 NTAK02 connections at the cross connect terminal Por...

Page 240: ...ristics Baud rate 1200 2400 4800 9600 19 200 56 000 64 000 Data bit Transparent 1 Duplex Full Clock Internal or external Interface RS 232 D RS 422 A ESDI settings Port 9 is pre programmed as an ESDI port and supports Meridian Mail It functions as a Command Status Link with settings as shown in Table 83 Table 83 ESDI settings Part 1 of 2 Setting Code ESDI YES SYNC YES DUPX FULL BPS 4800 CLOK EXT IA...

Page 241: ...r settings Baud rates are selected by setting switches located in the faceplate of each Fiber Receiver card The available settings are 150 300 600 1200 2400 4800 9600 and 19200 baud Other RS232 parameters are fixed as shown in Table 84 T3 040 N1 128 N2 08 K 7 RXMT 05 CRC 10 ORUR 005 ABOR 005 USER CMS Table 84 Fixed parameter settings Parameter Setting Parity None Mode Asynchronous Stop Bits 1 Data...

Page 242: ...used for MTC SCH BUG modes Connection to external equipment The connection to external devices such as TTYs Modems and so on is achieved through the nine pin SDI connector located in the expansion cabinet It is extended to the external equipment with an NTAK1118 single port SDI cable ...

Page 243: ...n was incorporated into the NTDK20 SSC used with Option 11C However it is still supported on the system The TDS DTR functionality is also incorporated into the NTDK97 MSC card used with Option 11C Mini The TDS DTR is not required in a 2 chassis Option 11C Mini configuration The TDS DTR card can occupy any of slot numbers 1 9 in the main cabinet it must be manually programmed in LD 13 for DTR and L...

Page 244: ...CPU The TDS DTR card does not provide the Music on Hold feature as do other Meridian 1 TDS cards The music source must come from a standard Meridian 1 trunk card Tone Detector The TDS DTR card provides eight channels of DTMF Dual Tone Multi Frequency detection in A Law or µ Law In North America pre programmed data is configured for µ Law tone detection SDI function The TDS DTR card provides two SD...

Page 245: ...Frequency Hz dB below overload Precision Ringing Tones DTMF Digits MF Digits 1 350 440 23 23 2 533 666 x 10 23 23 3 440 23 4 350 440 19 19 5 440 480 25 25 6 480 23 7 480 620 30 30 8 1020 16 9 600 23 10 600 16 11 440 480 22 22 12 350 480 23 23 13 440 620 24 24 14 940 1630 12 10 P 15 700 1210 12 10 1 16 700 1340 12 10 2 17 700 1480 12 10 3 18 770 1210 12 10 4 ...

Page 246: ... 25 940 1210 12 10 26 940 1480 12 10 27 700 1630 12 10 Fo 28 770 1630 12 10 F 29 850 1630 12 10 I 30 reserved 31 reserved 32 reserved 33 400 19 34 400 x 120 85 19 35 940 1630 17 15 P 36 700 1210 17 15 1 37 700 1340 17 15 2 38 700 1480 17 15 3 Table 85 NTAK03 NTDK20 and NTDK97 µ Law tones and cadence Part 2 of 6 Tone Frequency Hz dB below overload Precision Ringing Tones DTMF Digits MF Digits ...

Page 247: ...5 0 46 940 1210 17 15 47 940 1480 17 15 48 700 1630 17 15 Fo 49 770 1630 17 15 F 50 850 1630 17 15 I 51 reserved 52 reserved 53 1300 1500 13 13 0 54 700 900 13 13 1 55 700 1100 13 13 2 CC 56 900 1100 13 13 3 57 700 1300 13 13 4 58 900 1300 13 13 5 59 1100 1300 13 13 6 Table 85 NTAK03 NTDK20 and NTDK97 µ Law tones and cadence Part 3 of 6 Tone Frequency Hz dB below overload Precision Ringing Tones D...

Page 248: ... 1100 1700 13 13 KP CR KP1 66 1300 1700 13 13 ST2P KP2 67 1500 1700 13 13 ST CC 68 400 11 69 400 14 70 400 x 50 14 71 533 666 x 20 23 23 72 reserved 73 350 440 15 15 74 480 620 15 15 75 440 480 15 15 76 400 25 77 400 450 14 14 78 480 620 19 19 Table 85 NTAK03 NTDK20 and NTDK97 µ Law tones and cadence Part 4 of 6 Tone Frequency Hz dB below overload Precision Ringing Tones DTMF Digits MF Digits ...

Page 249: ... 29 83 reserved 84 350 440 17 17 85 400 450 17 17 86 400 17 87 1400 26 88 950 12 89 1400 12 90 1800 12 91 470 0 92 940 0 93 1300 0 94 1500 0 95 1880 0 96 350 440 10 10 97 TBD Table 85 NTAK03 NTDK20 and NTDK97 µ Law tones and cadence Part 5 of 6 Tone Frequency Hz dB below overload Precision Ringing Tones DTMF Digits MF Digits ...

Page 250: ...le 86 NTAK03 NTDK20 and NTDK97 A Law tones and cadences Part 1 of 10 Tone Frequency Hz dB below overload Precision Ringing Tones DTMF Digits MF Digits 1 940 X 1630 14 13 P 2 700 X 1210 14 13 1 3 700 X 1340 14 13 2 4 700 X 1480 14 13 3 5 770 X 1210 14 13 4 6 770 X 1340 14 13 5 7 770 X 1480 14 13 6 Table 85 NTAK03 NTDK20 and NTDK97 µ Law tones and cadence Part 6 of 6 Tone Frequency Hz dB below overl...

Page 251: ...F0 15 770 X 1630 14 13 F 16 850 X 1630 14 13 I 17 1400 37 89 940 1630 13 12 P 90 700 1210 13 12 1 91 700 1340 13 12 2 92 700 1480 13 12 3 93 770 1210 13 12 4 94 770 1340 13 12 5 95 770 1480 13 12 6 96 850 1210 13 12 7 97 850 1340 13 12 8 98 850 1480 13 12 9 99 940 1210 13 12 0 Table 86 NTAK03 NTDK20 and NTDK97 A Law tones and cadences Part 2 of 10 Tone Frequency Hz dB below overload Precision Ring...

Page 252: ...7 17 106 400 450 17 17 107 1400 26 108 440 23 109 420 9 110 950 12 111 1400 12 112 1800 12 113 940 1630 12 10 P 114 700 1210 12 10 1 115 700 1340 12 10 2 116 700 1480 12 10 3 117 770 1210 12 10 4 118 770 1340 12 10 5 119 770 1480 12 10 6 Table 86 NTAK03 NTDK20 and NTDK97 A Law tones and cadences Part 3 of 10 Tone Frequency Hz dB below overload Precision Ringing Tones DTMF Digits MF Digits ...

Page 253: ... 940 1480 12 10 126 700 1630 12 10 F0 127 770 1630 12 10 F 128 850 1630 12 10 I 129 350 440 22 22 130 400 19 131 400 25 132 400 450 22 22 133 1400 15 134 950 19 135 1400 20 136 1800 20 137 420 19 138 940 1630 18 17 P 139 700 1210 18 17 1 Table 86 NTAK03 NTDK20 and NTDK97 A Law tones and cadences Part 4 of 10 Tone Frequency Hz dB below overload Precision Ringing Tones DTMF Digits MF Digits ...

Page 254: ...17 7 146 850 1340 18 17 8 147 850 1480 18 17 9 148 940 1340 18 17 0 149 940 1210 18 17 150 940 1480 18 17 151 700 1630 18 17 F0 152 770 1630 18 17 F 153 850 1630 18 17 I 154 533 666 X 10 23 155 533 666 X 20 23 156 400 12 157 820 14 158 420 12 Table 86 NTAK03 NTDK20 and NTDK97 A Law tones and cadences Part 5 of 10 Tone Frequency Hz dB below overload Precision Ringing Tones DTMF Digits MF Digits ...

Page 255: ...20 23 163 420 22 164 480 22 165 330 11 166 330 440 11 14 167 1700 19 168 440 14 169 380 8 170 1400 32 171 820 7 P 172 850 8 1 173 420 32 2 174 reserved 3 175 420 6 4 176 420 2 5 177 1020 13 6 Table 86 NTAK03 NTDK20 and NTDK97 A Law tones and cadences Part 6 of 10 Tone Frequency Hz dB below overload Precision Ringing Tones DTMF Digits MF Digits ...

Page 256: ...0 185 940 0 F 186 1880 0 I 187 400 22 188 420 X 25 17 189 950 16 190 950 25 191 940 1630 9 7 192 700 1210 9 7 193 700 1340 9 7 194 700 1480 9 7 195 770 1210 9 7 196 770 1340 9 7 197 770 1480 9 7 198 850 1210 9 7 Table 86 NTAK03 NTDK20 and NTDK97 A Law tones and cadences Part 7 of 10 Tone Frequency Hz dB below overload Precision Ringing Tones DTMF Digits MF Digits ...

Page 257: ...4 700 1630 9 7 205 770 1630 9 7 206 850 1630 9 7 207 420 10 208 420 8 209 420 4 210 1400 18 211 1400 9 212 350 420 9 9 213 420 14 214 450 12 215 450 22 216 820 16 217 350 420 14 14 218 940 1630 14 12 219 700 1210 14 12 Table 86 NTAK03 NTDK20 and NTDK97 A Law tones and cadences Part 8 of 10 Tone Frequency Hz dB below overload Precision Ringing Tones DTMF Digits MF Digits ...

Page 258: ...228 940 1340 14 12 229 940 1210 14 12 230 940 1480 14 12 231 700 1630 14 12 232 770 1630 14 12 233 850 1630 14 12 234 940 X 1630 17 15 p 235 700 X 1210 17 15 1 236 700 X 1340 17 15 2 237 700 X 1480 17 15 3 238 770 X 1210 17 15 4 239 770 X 1340 17 15 5 240 770 X 1480 17 15 6 Table 86 NTAK03 NTDK20 and NTDK97 A Law tones and cadences Part 9 of 10 Tone Frequency Hz dB below overload Precision Ringing...

Page 259: ...544 Option 11C and 11C Mini Technical Reference Guide 241 850 X 1210 17 15 7 Table 86 NTAK03 NTDK20 and NTDK97 A Law tones and cadences Part 10 of 10 Tone Frequency Hz dB below overload Precision Ringing Tones DTMF Digits MF Digits ...

Page 260: ...Page 260 of 544 The TDS DTR card 553 3011 100 Standard 14 00 January 2002 ...

Page 261: ...work bus interface 263 Power consumption 264 Reference List The following are the references in this section Option 11C ISDN BRI Hardware Installation and Maintenance 553 3011 311 Overview NTBK22 Multi Purpose ISDN Signaling Processor MISP The NTBK22 Multi Purpose ISDN Signaling Processor MISP card is specific to Option 11C system and is supported on the Main cabinet It performs Data Link Layer 2 ...

Page 262: ...ission by communicating with the BRI terminal over the D channel and allocating to it an idle B channel with appropriate bearer capabilities to separate D channel data from signaling information and route the data to the packet handler to send call control messages to ISDN BRI terminals over the D channel The MISP supports the downloading of ISDN applications from the Option 11C software daughterb...

Page 263: ... has a starting and an ending flag a data structure Meridian 1 CPU to MISP bus interface Information exchange between the CPU and the MISP is performed with packetized messages transmitted over the CPU bus This interface has a 16 bit data bus an 18 bit address bus and interrupt and read write control lines This interface uses shared Static Random Access Memory SRAM as a communication exchange cent...

Page 264: ...Page 264 of 544 NTBK22 MISP card 553 3011 100 Standard 14 00 January 2002 Power consumption Power consumption is 5V at 2 A 15V at 50 mA and 15V at 50 mA ...

Page 265: ...istics 269 Reference List The following are the references in this section Administration 553 3001 311 Maintenance 553 3001 511 Introduction Meridian Digital Telephones are connected to the system through a 2 wire loop carrying two independent 64 kb s PCM channels with associated signaling channels One of the two PCM channels is dedicated to voice while the other is dedicated to data traffic Line ...

Page 266: ...ng Meridian Digital Telephones operate through twisted pair wiring The maximum permissible loop length is 3500 ft of 24AWG standard twisted wire with no bridge taps Local alerting tones Four alerting tones and a buzz sound are provided The alerting tone cadences cannot be changed from the telephone but can be altered for individual Meridian Digital Telephones by software controlled adjustments in ...

Page 267: ...idian digital telephones remain operational only if the system is equipped with a backup battery Additional power is obtained over a separate pair of wires Maximum Handsfree current is 110 mA with a minimum of 16 V AC to be present at the telephone terminal The following rules apply For the QUT1 closet power supply The power supply loop for the Handsfree unit should follow the same rules as the lo...

Page 268: ... equipped with short circuit and thermal shutdown protection The following units are available Table 87 External power supply for Meridian Digital Telephones ADO Part 1 of 2 North American version NPS50220 03L5 Multi output external power supply CPC A0336823 UL listed and CSA approved Input 57 63 Hz 115 132 V AC Output 5 V DC 1 0 A pin 3 for supply pin 2 for return 12 V DC 200 mA pin 6 for supply ...

Page 269: ...Output 5 V DC 1 0 A pin 3 for supply pin 2 for return 12 V DC 200 mA pin 6 for supply pin 1 for return 12 V DC 200 mA pin 4 for supply pin 1 for return Table 88 Meridian Digital Telephone ADO characteristics Data type ASCII Synchronization External power supply for Meridian Digital Telephones ADO Asynchronous Start Stop Number of Bits 8 bits Parity none unchecked Data rate 300 1200 2400 4800 9600 ...

Page 270: ...rection two data bytes are received from the line card and the data byte is delivered to your terminal in a bit serial format at the terminal s bit rate The Meridian Digital ADO equipped with the RS 232 C EIA interface supports the following features for ASCII asynchronous character mode interactive data terminals HAYES dialing Keyboard dialing KBD all transmission speeds supported Call originatio...

Page 271: ...uction 272 Physical description 273 LCD indicators 274 Alphanumeric display 275 Handsfree operation 275 Specifications 275 Safety considerations 275 Environmental considerations 276 Dimensions and weight 276 Line engineering 277 Powering requirements 277 Data communication 279 Data characteristics 280 Features description 280 Firmware features 280 Software features 281 ...

Page 272: ...n group answer positions It interfaces with the system through the Digital Line Card DLC It is connected to the switching equipment through a two wire loop carrying two independent 64 kb s Time Compressed Multiplex TCM channels with associated signaling channels One of the two TCM channels is dedicated to voice and the other to data traffic The M2317 Telephone is equipped with a microphone and spe...

Page 273: ... with associated LCD indicator Feature keys There are 11 feature keys on the telephone faceplate Each has an associated LCD indicator Up to a maximum of ten voice Directory Numbers and specific features such as Auto Answerback Call Waiting and Dial Intercom can be assigned Softkeys Five soft keys are located beneath the display screen Each softkey has a seven character wide on the display screen i...

Page 274: ...Directory Number lens Note Numbers in brackets in this illustration are shown for testing and identification purposes only These numbers are not marked on the keys 553 1290 First line of LCD Display Second line of LCD Display Soft Key 1 Soft Key 2 Soft Key 3 Soft Key 4 Soft Key 5 Rls Hold 1 2 3 4 5 6 7 8 9 0 Handsfree Mute 11 Feature Key 10 Feature Key 7 Feature Key 8 Feature Key 9 Feature Key 6 F...

Page 275: ...set The Handsfree Mute LCD indicator shows the status of the Handsfree Once Handsfree is activated it can be deactivated by picking up the handset or by pressing the Release RLS key Specifications The following specifications govern the safety and performance of the Meridian M2317 Telephone and outline the environmental conditions under which this performance is achieved Safety considerations Shoc...

Page 276: ...d the NT1F09AA Asynchronous Data Option board the M2317 weighs approximately 1 4 Kg 3 lb With the Data Option installed the telephone excluding power supply and data cable weighs approximately 1 56 Kg 3 5 lb Temperature range 0 to 50 C 32 to 122 F 0 to 40 C 32 104 F with Data Option Relative humidity 5 to 95 from 4 to 29 C 39 to 84 F non condensing 5 to 34 from 29 5 to 49 C 85 to 120 F non condens...

Page 277: ...connects through a jack in the back of the telephone If the telephone is equipped with a data option the required 5 V DC is provided by the external data option power supply The external power supply must meet the following specifications Input 95 129 V AC 60 Hz Output 5 V DC or 5 300 mA 10 mV maximum RMS ripple Cord 2 5 m 8 ft of 20 AWG wire mating to a Switchcraft 722A connector Case Wall mounte...

Page 278: ...ty 5 to 95 non condensing Storage temperature 40 to 70 C 40 to 158 F Output voltages 5 V DC at 1 0 A 12 V DC at 200 mA 12 V DC at 200 mA Case dimensions 178 x 102 x 76 mm 7 x 4 x 3 in The NPS50220 03L5 is equipped with an internal thermal and short circuit protection Whenever the external power supply fails due to failure of the power utility the M2317 Telephone assumes Plain Ordinary Telephone Se...

Page 279: ...he asynchronous mode The Data Option also supports keyboard dialing from the data terminal when that terminal operates in the asynchronous mode 553 1291 W BL BL W W G G W BK G G BK BK S S BK Line Cord to Telephone Tip Ring G R T0 R0 T1 R1 T6 R6 T7 R7 To Telephone To Telephone To Telephone Cross connect Block Part of multi pair Cable Part of Shelf Wiring Harness Shelf Connector 16 40 13 38 3 28 26 ...

Page 280: ...317 Asynchronous Data Option communicates with Data Terminal Equipment DTE having characteristics as shown in Table 89 Table 89 M2317 Asynchronous Data Option characteristics Features description Firmware features Firmware is chip dependent and cannot be changed or altered on site As a general rule all firmware is on ROM microchips Firmware functions The following functions are performed by firmwa...

Page 281: ...or the telephone based on COS data base or package restrictions Softkeys work only in conjunction with the LCD display screen Table 90 M2317 data features Data features M2317 DTE Keyboard Ring Again X X Speed Call X X System Speed Call X X Display X Call Forward X Call Transfer Note X Autodial X X Last Number Redial X Save Number X Redial Saved Number X Manual modem pooling using keyboard dialing ...

Page 282: ...Page 282 of 544 M2317 Telephone 553 3011 100 Standard 14 00 January 2002 ...

Page 283: ...9 Features and options matrix 292 Optional equipment 293 Specifications 297 Environmental and safety considerations 297 Line engineering 298 Local alerting tones 299 Power requirements 300 Meridian Programmable Data Adapter 306 Functional description The Meridian Modular Telephones are designed to provide cost effective integrated voice and data communication capability They interface with Option ...

Page 284: ...igital line card supports eight Integrated Voice and Data ports each port supports one data and one voice channel A voice TN and a data TN are assigned in the software General description This document describes the various features and capabilities of the following Meridian Modular Telephones M2006 a single line telephone with 6 programmable function keys See Figure 30 M2008 a multi line telephon...

Page 285: ... It has 15 programmable function keys and a special ACD Display It is similar to model 1 but with one PJ 327 jack for a carbon agent headset and one RJ 32 jack for an electret supervisor headset See Figure 33 Figure 30 M2006 modular telephone Dimensions Length 8 42 in 215 mm Width 8 42 in 215 mm Height 3 61 in 93mm Weight approximately 2 lbs 1 kg ...

Page 286: ...544 Meridian Modular Telephones 553 3011 100 Standard 14 00 January 2002 Figure 31 M2008 modular telephone Dimensions Length 8 42 in 215 mm Width 8 42 in 215 mm Height 3 61 in 93 mm Weight approximately 2 lbs 1 kg ...

Page 287: ...hones Page 287 of 544 Option 11C and 11C Mini Technical Reference Guide Figure 32 M2016S and M2616 modular telephones Dimensions Length 9 75 in 250 mm Width 9 45 in 235 mm Height 3 64 in 93 mm Weight approximately 2 lbs 1 kg ...

Page 288: ...ridian Modular Telephones 553 3011 100 Standard 14 00 January 2002 Figure 33 M2216ACD 1 and 2 modular telephones Dimensions Length 9 75 in 250 mm Width 9 45 in 235 mm Height 3 64 in 93 mm Weight approximately 2 lbs 1 kg ...

Page 289: ...istics All of the Meridian Modular Telephones are equipped with Hold key Release key Volume control Message Waiting lamp Speaker Each modular telephone also has a number of programmable keys with LCD indicators that can be assigned to any combination of directory numbers and features only one DN for the M2006 The lower right hand key key 0 is reserved for the Primary DN ...

Page 290: ...ice change removes all secondary DNs LCD indicators support 4 key LCD states Function LCD state idle off active on steady ringing flash 60 Hz hold or feature pending fast flash 120Hz An indicator fast flashes when you have pressed a feature key but have not completed the procedure necessary to activate the feature Volume control One key with two toggle positions controls volume Pressing the right ...

Page 291: ...ns of a message waiting the red Message Waiting triangle lights and the LCD associated with the Message Waiting key flashes You may assign an Autodial key that dials the message center or voice mail system to avoid the double indication or have no key lamp pair assigned to the message center The Message Waiting lamp is also used to indicate security of the M2016S The red LED triangle lights steadi...

Page 292: ...e LCD lights steadily Features and options matrix Table 91 lists the distinctive characteristics of each Meridian Modular Telephone and shows the optional hardware that you can add to each Table 91 Hardware features and options M2006 M2008 M2016S M2616 M2216ACD 1 M2216ACD 2 Programmable keys 6 8 16 16 16 16 Handsfree microphone stan dard Optional hardware available Display x x x standard standard ...

Page 293: ...screen contrast using the Program key top right function key You can enable a Call Timer which times calls made or received on the prime DN The Display Module requires a Power Supply Board on M2008 There are two types of Display Module available North American Display supports normal business features in two languages English and Quebec French Special Applications Display supports the following fe...

Page 294: ...key when Display or MPDA is configured with the telephone The Program key is local to the set and shows blank when you print key assignments in LD 20 External Alerter Interface The External Alerter Board provides an interface to standard remote ringing devices such as a ringing unit installed in a location separate from the telephone The External Alerter Interface is not the remote ringer itself b...

Page 295: ... agent jack is compatible with any standard carbon headset The headset interface of the M2216ACD 1 is adjustable to allow you to tune the electrical characteristics to optimize performance while the M2216ACD 2 headset interface is fixed Any recording device connected to the receive path of a Meridian Modular Telephone must meet these requirements load impedance at least 8K ohms across the audio ba...

Page 296: ... bias resistance with maximum current of 500 micro amps The differential input impedance is 10K ohms Connects to pins 2 and 5 of the handset jack Receive interface single ended output with output impedance of 180 ohms Connects to pins 3 and 4 of the handset jack Figure 35 M2616 with Display Module and Key Expansion Module ...

Page 297: ...lar Telephones under the environmental conditions described Environmental and safety considerations All digital telephones and their associated options meet the requirements of Electronic Industries Association EIA specification PN 1361 Temperature and humidity Operating state Temperature range 0 to 50 C 32 to 104 F Relative humidity 5 to 95 non condensing At temperatures above 34 C 93 F relative ...

Page 298: ...6 KHz defines the loop length limit longer lengths are possible depending on the wire s gauge and insulation The Meridian Modular Telephones use a 6 conductor line cord A0346862 Note Use only the line cord provided with the Meridian Modular Telephone Using a cord designed for other digital telephones could result in damage to the cord Figure 37 shows a simplified block diagram of the Meridian Modu...

Page 299: ...ones and a buzz sound The system controls the ringing cadence by sending tone ON and tone OFF messages to the telephone The alerting tone cadences cannot be changed from the telephone but can be altered for individual Meridian Modular Telephones by software controlled adjustments Alerting tone characteristics The tone frequency combinations are Tone Frequencies Warble Rate Hz 1 667 Hz 500 Hz 10 4 ...

Page 300: ...ths can be determined using the wire s gauge and insulation The Handsfree feature which is integrated into the M2616 requires no additional power Some configurations of telephones and options need more than basic loop power to operate Table 92 lists the Meridian Modular Telephones and shows when additional power is needed to operate the telephone or its optional hardware Power Supply Boards come i...

Page 301: ...e Power Supply Board The Power Supply Board receives its power through pins 1 and 6 of the line cord The Power Supply Board connects to the telephone through a 14 pin bottom entry connector The Power Supply Board comes factory installed with any configuration of the M2016S and M2216ACD 2 The M2006 and M2008 require the Power Supply Board with the addition of any option The M2616 requires the Power...

Page 302: ...voltage 29 V AC maximum Voltage at rated current 26 7 V AC minimum Rated load current 700 mA 240 V transformer AO367914 or equivalent The following minimum specifications have to be met by this transformer Input voltage 240 V AC 50 Hz No load output voltage 29 V AC maximum Voltage at rated current 26 7 V AC minimum Rated load current 700 mA Note You cannot wall mount the telephone over the wall ja...

Page 303: ...Meridian Modular Telephones Page 303 of 544 Option 11C and 11C Mini Technical Reference Guide Figure 38 Configuration of local plug in transformer ...

Page 304: ... the input winding and each terminal must be isolated from all other terminal windings A separate winding is required for each terminal and grounds should not be connected Note The QUT1 closet power supply source is not compatible with Meridian Modular Telephones The AC source should be rated at 29 V AC 700 mA isolated The DC source should be rated at 42 V DC 300 mA isolated with current limiting ...

Page 305: ...Meridian Modular Telephones Page 305 of 544 Option 11C and 11C Mini Technical Reference Guide Figure 39 Closet power supply configuration ...

Page 306: ...e MPDA in the telephone the configuration information will be lost The keyboard dialing routine may vary with the data equipment being used and reference to the user s data terminal manual may be necessary For more detailed information see Meridian Programmable Data Adapter User Guide The MPDA can establish either data calls or voice calls You can make data calls using keyboard dialing keypad dial...

Page 307: ...ty communication software and the digital telephone will support most of the Hayes Smartmodem features Third party terminal emulation packages can also be used with Hayes dialing New features supported by the MPDA include enhanced Hayes commands including upper and lower case dialing voice call origination through AT dialing hang up data call and on line disconnect of voice call script file capabi...

Page 308: ...Page 308 of 544 Meridian Modular Telephones 553 3011 100 Standard 14 00 January 2002 ...

Page 309: ...Programmable keys 314 Soft Programmable feature keys 314 Programmable feature keys 315 Physical description 315 Specifications 315 Software requirements 315 Hardware options 315 External Alerter interface 316 Brandline insert 316 Key based Add on Module KBA 316 Analogue Terminal Adapter ATA 316 Meridian Communications Adapter MCA 316 Accessory Keying 316 Environmental and safety considerations 318...

Page 310: ...set for office professionals and technical specialists M3904 professional set for Managers Executives Administrative Assistants M3905 call center set for Call Center Agents and Supervisors These sets are digital integrated voice data telephone with the following features Table 94 M3900 features M3901 entry level M3902 basic M3903 enhanced M3904 professional M3905 call center lines supported 1 2 6 ...

Page 311: ...rt Mute with LED Headset with LED Supervisor Observe Key with LED no yes fixed application keys no Up Down Left Right Up Down Left Right Quit and Copy Display no 2 x 24 1 Text Lines 1 Label Line 3 x 24 1 Info Line 1 Text Lines 1 Label Line 5 x 24 1 Info Line 3 Text Lines 1 Label Line 4 x 24 1 Info Line 2 Text Lines 1 Label Line Accessory Ports no 1 2 Accessories no ATA MCA External Alerter Recorde...

Page 312: ...Page 312 of 544 M3900 telephone series 553 3011 100 Standard 14 00 January 2002 Figure 40 M3901 Figure 41 M3902 ...

Page 313: ...M3900 telephone series Page 313 of 544 Option 11C and 11C Mini Technical Reference Guide Figure 42 M3903 Figure 43 M3904 ...

Page 314: ...lls Not Ready Make Busy Call Supervisor Soft labeled Programmable keys The Soft labeled line feature keys are the keys located at the sides of the upper display area The user can change the LCD label of these keys to fit their needs The soft labeled programmable line feature keys are the two to eight keys the number of keys depends on the M3900 model located at the sides of the upper display area ...

Page 315: ...ions This section describes the options available for M3900 Series Meridian Digital Telephones Table 95 lists the features and optional hardware available for each telephone Table 95 Hardware features Optional hardware available M3901 M3902 M3903 M3904 M3905 Accessory Connection Module ACM NA x x x x Key based Add on Module NA NA NA x x Meridian Communications Adapter MCA NA x x x x Analogue Termi...

Page 316: ...elephone The module provides 22 extra line and or feature keys You can attach a maximum of two KBAs to the M3904 and M3905 Analogue Terminal Adapter ATA The Analogue Terminal Adapter lets you connect an analogue device such as a fax machine or modem to your telephone You can then have simultaneous use of the telephone and the analogue device The ATA can be used with the M3902 M3903 M3904 and M3905...

Page 317: ... compatibility Part 1 of 2 HW Port SDI SIDL USAR T USAR T UART HEADSET GPIO HW Port Accessory MC A ATA DTA USB CTIA DB A KB A EXT ART HD S EXT ART RCD R SDI MCA N A X X X OK OK OK OK OK OK OK ATA X OK OK OK OK OK OK OK DTA X OK OK OK OK OK OK OK SIDL USAR T USB X X OK OK OK OK OK OK USAR T CTIA OK OK OK X N A OK OK OK OK OK OK UART DBA OK OK OK OK OK N A X OK OK OK OK KBA OK OK OK OK OK X OK OK OK...

Page 318: ... provided with the telephone Using a cord designed for another telephone could result in damage to the cord HEAD SET EXT ATR OK OK OK OK OK OK OK N A X OK X HD SET OK OK OK OK OK OK OK X N A OK OK GPIO EXT ATR OK OK OK OK OK OK OK OK OK N A OK RCDR OK OK OK OK OK OK OK X OK OK N A Operating state Temperature range 0 to 50 C 32 to 104 F Relative humidity 5 to 95 noncondensing At temperatures above ...

Page 319: ...tion 320 Physical description 322 Fixed keys same for all three models 325 Additional feature keys 326 Software requirements 327 Hardware options 327 External Alerter interface 328 Brandline insert 328 Key Expansion Module 329 Meridian Communications Adapter MCA 329 Environmental and safety considerations 329 Environmental and safety considerations 329 Line engineering 330 Local alerting tones 330...

Page 320: ...provide cost effective integrated voice and data communication These telephones communicate with the Meridian 1 using digital transmission over standard twisted pair wiring They interface with the Meridian 1 using the Integrated Services Digital Line Card ISDLC or the eXtended Digital Line Card XDLC Meridian digital telephones are connected to the system through a two wire loop carrying two indepe...

Page 321: ...11C and 11C Mini Technical Reference Guide Figure 46 M3110 Meridian digital telephone Figure 47 M3310 Meridian digital telephone 553 7201 Hold Rls DEF 3 MNO 6 WXY Z 9 ABC 2 1 JKL 5 TUV 8 0 GHI 4 PRS 7 553 7200 Hold Rls DEF 3 MNO 6 WXY Z 9 ABC 2 1 JKL 5 TUV 8 0 GHI 4 PRS 7 ...

Page 322: ...idian digital telephone general features Part 1 of 2 Feature M3820 M3310 M3110 Handsfree On Hook Dialling and Group Listening yes yes yes Dedicated Release and Hold keys yes yes yes Message Waiting and Speaker Mute Indicators yes yes yes Headset Socket yes yes no 2 x 24 character display yes yes no Feature keys including 20 10 10 Store program key yes yes no system programmable keys 13 7 8 553 719...

Page 323: ...s yes no Directory Caller s List with dedicated keys for Directory Callers Edit Delete 4 cursor and Dial yes no no Terminal options MCA data option to provide integrated voice and data External Alerter for high ambient noise environments Wall mount ability yes yes yes Add on Key Expansion Modules 2 maximum yes no no Brand line insert to provide for special company logos yes yes yes Note The locati...

Page 324: ...phone 553 7199 Hold Rls A DEF 3 MNO 6 WXY Z 9 ABC 2 1 JKL 5 TUV 8 0 GHI 4 PRS 7 Program Key LCD Indicators Display Module Feature Keys Release Rls Key Message Waiting Indicator Hold Key Speaker Speaker Mute LED Speaker Key Mute Key Edit Key Callers List Key Cursor Keys Directory Key Delete Key Dial Key Main Extension Key or Directory Number DN key M3310 and M3820 only M3820 only ...

Page 325: ...conference call and you are only listening When you wish to return to the two way conversation you must push the mute key again The mute key applies to handsfree handset and headset microphones Speaker Handsfree The speaker key allows you to activate handsfree and group listening features Handsfree is only available on the M3310 and M3820 models and is enabled by the system administrator If handsf...

Page 326: ...ou can assign an Autodial Key that dials the message center or voice mail system to avoid the double indication or have no key lamp pair assigned to the message center M3110 CPM and primary DN key Speaker LED is not illuminated N A Group listening and Pri mary DN key speaker LED is on when in Group listening mode a CPM is Call Process Monitor which enables the user to hear for example the dial ton...

Page 327: ...ater software The package number for the Meridian digital telephones is 170 The mnemonic is ARIE The DSET package 88 and the TSET package 89 are required Hardware options This section describes the options available for M3900 Series Meridian Digital Telephones Table 99 lists the features and optional hardware available for each telephone Function LCD state idle off active on steady ringing flash 6...

Page 328: ...he telephone is in use off hook For information on installing and setting up the External Alerter see Add on modules in Telephone and Attendant Console Installation 553 3001 215 Brandline insert The telephone contains a removable insert designed to accommodate custom labeling You can order blank Brandline Inserts and have a printer silk screen your company logo on them Key based Add on Module NA N...

Page 329: ...onmental and safety considerations All Meridian digital telephones are designed to comply with EN 60950 1992 Safety of Information Technology Equipment including Electrical Business Equipment EN 41003 1993 Particular Safety Requirements for Equipment to be connected to Telecommunication Network Temperature and humidity Electromagnetic interference All the digital telephones are designed to comply ...

Page 330: ...gned for another telephone could result in damage to the cord Local alerting tones Each telephone provides four alerting tones and a buzz sound The system controls the ringing cadence by sending tone ON and tone OFF messages to the telephone The alerting tone cadences cannot be changed from the telephone but can be altered for individual terminals by software controlled adjustments in the system S...

Page 331: ...y a 15 5 dB loss at 256 KHz Longer lengths can be determined using the wire s gauge and insulation Some configurations of telephones and options need more than basic loop power to operate Table 101 lists the types of Meridian digital telephones and shows when additional power is needed to operate the telephone or its optional hardware Power Supply Boards come installed in factory assembled configu...

Page 332: ...ormer A single winding transformer equipped with a 10 ft 3 m cord of 22 AWG two conductor stranded and twisted wire with a modular RJ 11 duplex adapter can provide the additional power needed to operate the telephone and its options See Configuration of local plug in transformer on page 303 Table 101 Power requirements Meridian digital telephones Telephone Loop power Additional power Power Supply ...

Page 333: ...fied as 110V or 220V Closet Power Supply Closet power can be obtained from an AC transformer for loops of 100 ft 30 m or less or a DC transformer for loop lengths of 650 ft 198 m or less An equivalent power source can be used but must be UL listed to provide isolation of outputs to the terminal See Closet power supply configuration on page 305 Input voltage 120 Vac 60 Hz No load output voltage 29 ...

Page 334: ...minal must be isolated from all other terminal windings A separate winding is required for each terminal and grounds must not be connected Note 2 The QUT1 closet power supply source is not compatible with Meridian digital telephones The AC source must be rated at 29 Vac 700 mA isolated The DC source must be rated at 42 Vdc 300 mA isolated with current limiting output of 1 amp ...

Page 335: ...description 338 Dimensions 338 Weight 338 Environmental considerations 338 Temperature 338 Humidity 338 Electromagnetic emissions 339 Atmospheric pollution 339 Terminal powering 339 Line engineering 339 Powering alternatives 339 Restricted powering 340 Power consumption 340 Voltage range 340 Local power supply requirements 340 Features 341 Display 341 Softkeys 342 Designated function keys 342 ...

Page 336: ...ce Profile Management 347 Downloading 347 BootROM operation 347 Configuration mode 348 Setup mode 348 Self test 349 Error code displays 349 Data LTID 349 Local voice features 349 Auto PDN select 349 Autonumber 350 List incoming callers 350 Handset muting 350 Handsfree Mute speakerphone or headset 350 Volume 351 Contrast 351 Predial 351 Number editing 351 Dual Tone Multifrequency DTMF generation 35...

Page 337: ...onnected to the ISDN BRI Basic Rate Interface Service at the S or T interface The M5317TX and M5317TDX are identical except the M5317TDX has the Data Option installed on it Meridian Feature Transparency MFT National ISDN 1 Signaling NI 1 and Meridian 1 Mer1 protocols are supported for voice Circuit switched data is only supported in NI 1 Signaling A law or µ law Pulse Code Modulation PCM voice cap...

Page 338: ... lbs Environmental considerations Temperature Humidity length 226 5 mm 9 in width 272 0 mm 10 7 in height front 27 5 mm 1 1 in height rear 73 5 mm 2 9 in in operation in storage 0 to 50 C 32 to 122 F 20 to 66 C 4 to 150 F in operation in storage 5 to 95 non condensing from 0 to 29 C 32 to 84 F 20 to 66 C 4 to 150 F Equivalent to 34 at 50 C 122 F non condensing from 30 C to 50 C 86 F to 122 F Equiv...

Page 339: ...ill operate to their full potential through twisted pair wiring Powering alternatives The telephones are powered through the RJ connectors and the line cord They may be powered from one of the following sources PS1 phantom power conducted over the T line card or the NT1 PS2 auxiliary DC power conducted over a third pair in the line cord may be provided independently of the NT1 or line card Local D...

Page 340: ...ow depends on deactivating the S T loop not currently supported Operating Mode M5317TX M5317TDX Normal active 1 2 2W 1 5W Normal standby 200mW 250mW Voltage range The following are the operating limits when attached to an S T loop 24 V Minimum DC input voltage at the line cord when the loop is full loaded PS2 56 5 V Maximum DC input voltage at the line cord when the loop is not loaded PS2 Local po...

Page 341: ...fication connection information feature icons user prompts and messages Figure 50 Display icons enlarged view The second line displays the context dependent softkey functions 8 characters per key including spaces in accordance with the state of the terminal whenever applicable If there are more than five choices available a more softkey is shown The softkey labels always give the currently valid c...

Page 342: ...In NI 1 mode the following features are supported on softkeys Call Forward Call Park Call Pickup group Executive Busy Override Make Set Busy Privacy Release Privacy Ring Again Call Back Queuing Three Way Call Flexible Calling Call Transfer In Meridian 1 mode this feature is supported on softkeys Calling Line ID Presentation Calling Line ID Restriction Designated function keys There are 15 designat...

Page 343: ...1 and keys 2 to 10 for MFT may be assigned varying functions depending on the network datafill Figure 51 Key layout Automatic dial keys In NI 1 and Meridian 1 modes frequently used numbers can be stored by programmable keys defined as local automatic dial keys Any programmable function key that isn t programmed can be used as an automatic dial key ...

Page 344: ...grammable function keys have liquid crystal display indicators beside them Table 102 Key status indicator Indicator Description Off Off On Off Slow flashing 60 ipm 1 2 on 1 2 off Fast flashing 120 ipm 2 3 on 1 3 off Impulses per minute Table 103 Normal DNs in all signaling modes Indicator Meaning Off Feature or line is not active On Feature or line is active Slow flashing Line is ringing Fast flas...

Page 345: ...etrieval allowed by other DN members Fast flashing In talking state bridging allowed by other DN mem bers On In talking state no bridging or retrieval allowed by other DN members On Feature or line is active In MFT mode talking state no bridging or retrieval allowed by other DN members the state is On Table 105 Features such as Speed Call Indicator Description Off Feature or line is not active On ...

Page 346: ...ing X 3 X 28 X 29 protocols The RS 232C data port may also be configured to provide control of the telephone for system test purposes Dial access Any available dialed code access features may be used Special screens or softkeys are not associated with them The following are examples of dialed code access features Directed Call Pickup Directed Call Park Authorization Code Entry Call Request Loudspe...

Page 347: ...vice Accessibility of features depends on subscription at the switch and softkeys for features not subscribed are removed from the display Not all features need be provided in every case Service change routines permit addition or deletion of features If no feature loading takes place the telephone must be configured manually Do not confuse this feature loading with the overall firmware downloading...

Page 348: ...witched and packet switched data Test analog and digital Selection of Codec coding law Selection of voice and circuit switched data signaling protocol Setup mode Setup mode is intended for use by all M5317T digital telephone users In NI 1 and Meridian 1 mode press Setup to display the Setup menu In MFT mode press the center of the volume key to access Setup The Setup menu includes alerting tone st...

Page 349: ...ctional Signaling For MFT mode you must set the bearer capability for the selected circuit Voice may be BRAFS or BRAMFT Basic Rate Access Meridian Feature Transparency depending on features and service required Note Basic Rate Access is now called Basic Rate Interface BRI Local voice features Local features are provided by the phone internally with minor intervention by the switch They are purely ...

Page 350: ...s Records the origination address of all incoming calls to the PDN along with the date and time of the call Multiple calls from the same caller ID will show only once Ten 10 entries are saved in chronological order with the oldest entry being removed to make room for a new entry when the list is filled to capacity The user may dial directly from the list The user may edit numbers in the list to ma...

Page 351: ...uring power failure Contrast This feature provides display contrast adjustment The setting is retained during power failure Predial NI 1 and Meridian 1 modes only This feature permits numbers to be entered and edited before selecting a line Number editing NI 1 and Meridian 1 modes only This feature permits the user whenever applicable to edit displayed numbers before completing an operation for ex...

Page 352: ...swers Date and time of day clock NI 1 and Meridian 1 modes only This feature displays the time in 12 hour format If power fails the date and time must be reset Data transmission The M5317T telephones support PCM voice on either B channel Circuit switched data calls on the M5317TDX may be made using the other B channel The NT T link or standard V 120 protocols are used to convert the serial data fr...

Page 353: ...Console Graphics Module 362 Reference List The following are the references in this section Busy Lamp Field Console Graphics Module User Guide Introduction Attendant consoles are designed to assist in placing and extending calls into and out of a telephone switching system The console is operated by an attendant as the human interface between the system and the users Special attendant consoles are...

Page 354: ...trol situated below the dial pad A physical connection to a serial data port through a subminiature D type female connector on the console back wall This permits connection of the console to the serial port of a personal computer An optional Busy Lamp Field Console Graphics Module BLF CGM which displays the status of up to 150 consecutive extensions SBLF or any group of 100 extensions within the s...

Page 355: ...rrangement Figure 54 on page 361 shows rear left hand side and bottom views of the console These illustrations show you where to find the various components as you read this chapter Physical details The attendant console dimensions are as follows Keyboard layout Refer to Figure 53 on page 359and Table 106 for the location of keys and switches Function keys There are eight function keys on the atte...

Page 356: ...Page 356 of 544 M2250 Attendant Console 553 3011 100 Standard 14 00 January 2002 Figure 52 M2250 attendant console top view ...

Page 357: ...ture key The History feature is not available in North America 2 Prime function Position Busy feature Level 1 function normal Night Service feature 3 Function key 1 F1 Prime function normal Selects display screen line 2 for scrolling Level 1 function Shift Selects the Options menu on the display screen 4 Function key 2 F2 Prime function normal Scrolls the currently selected line to the left Level ...

Page 358: ...ts the Diagnostics menu on the display screen On the M2250 console the Diagnostics menu is password protected The user must first enter a 4 digit password and press before the Diagnostics menu is displayed 7 Prime function normal Signal Source feature key Level 1 function Shift Used with the Busy Lamp Field Console Graphics Module as CGM key 8 Prime function normal Signal Destination feature key L...

Page 359: ...r plugging in handsets or headsets The jacks are located on both sides of the console beneath the faceplate in the recessed area shown by the arrows The console accepts both carbon and electret headsets and automatically adapts itself to each type Note Electret headsets and handsets are polarity sensitive and must be correctly inserted into the jack LCD indicators The LCD indicators used on the M2...

Page 360: ...n line 4 of the display screen panel BUSY and NIGHT are combined with the status of the Release lamp to indicate the console status as shown in Table If the emergency power fail transfer feature is activated the console status will be displayed as EMERGENCY Table 107 Release lamp indicator status QCW type Indicator Status Display screen status line 4 Night Busy Release ON X X NIGHT OFF ON X BUSY O...

Page 361: ...M2250 Attendant Console Page 361 of 544 Option 11C and 11C Mini Technical Reference Guide Figure 54 M2250 attendant console rear left side and bottom views ...

Page 362: ...le is connected to the system through two TCM loops primary and secondary with two additional units for powering Two additional units may be used for long line loop powering The M2250 console requires a Digital Line Card DLC Local console controls The display screen contrast on the attendant console can be adjusted using the Contrast option on the Options menu The pitch and volume of the buzz tone...

Page 363: ...ts screen contrast adjusted for easy viewing Installation The BLF CGM mounts on the back of the attendant console and is held on using snapfits and two screws It is connected to the console using a 15 way connector that is located on the keyboard printed circuit board PCB This connector is accessed through a rectangular knockout section located underneath the casing overhang at the Meridian logo l...

Page 364: ...Page 364 of 544 M2250 Attendant Console 553 3011 100 Standard 14 00 January 2002 ...

Page 365: ...tion link between the system and Meridian Digital Telephones It supports voice only or simultaneous voice and data service over a single twisted pair of standard telephone wiring When a digital telephone is equipped with the data option an asynchronous or synchronous terminal or personal computer can be connected to the system through the digital telephone In Option 11C systems the NT8D02 Digital ...

Page 366: ...aceplate of the NTDK16BA digital line card is equipped with three light emitting diodes LEDs A red LED lights when the card is disabled At power up this LED flashes as the digital line card runs a self test If the test completes successfully the card is automatically enabled if it is configured in software and the LED goes out This LED only shows the status of the NTDK16 in slot 4 Note The NTDK16A...

Page 367: ...Each digital telephone and associated data terminal is assigned a separate terminal number TN in the system database for a total of 96 addressable ports per card Refer to Figure 55 on page 368 The NTDK16 digital line card contains a microprocessor that provides the following functions self identification self test control of card operation status report to the controller maintenance diagnostics Th...

Page 368: ...Page 368 of 544 NT8D02 and NTDK16 Digital Line Cards 553 3011 100 Standard 14 00 January 2002 Figure 55 NTDK16 DLC ...

Page 369: ...t to 915 m 3000 ft with 24 AWG PVC cable 15 V DC at 80 mA 30 m 100 ft to 915 m 3000 ft with 24 AWG PVC cable 15 V DC at 80 mA 30 m 100 ft to 915 m 3000 ft with 24 AWG PVC cable 15 V DC at 80 mA 0 to 1070 m 3500 ft with 24 AWG PVC cable 15 V DC at 80 mA 0 to 1070 m 3500 ft with 24 AWG PVC cable 15 V DC at 80 mA 0 to 1070 m 3500 ft with 24 AWG PVC cable 15 V DC at 80 mA Line rate 512 kbps 100 ppm 51...

Page 370: ...5V from the backplane The line feed interface can supply power to one loop of varying length up to 1070 m 3500 ft using 24 AWG wire with a maximum allowable AC signal loss of 15 5 dB at 256 kHz and a maximum DC loop resistance of 210 ohms 26 AWG wire is limited to 745 m 2450 ft Foreign and surge voltage protections In circuit protection against power line crosses or lightning is not provided on th...

Page 371: ...vel 376 Description The NT8D09 Analog Message Waiting Line Card µ Law provides talk battery and signaling for regular 2 wire common battery 500 type rotary dial and 2500 type Digitone dial telephones and key telephone equipment The analog message waiting line card is functionally identical to the NT8D03 Analog Line Card except that it can also connect a high voltage low current feed to each line t...

Page 372: ...binet which is cabled to the cross connect terminal main distribution frame through 25 pair cables Station apparatus then connects to the card at the cross connect terminal The faceplate of the analog message waiting line card is equipped with a red light emitting diode LED which lights when the card is disabled At power up the LED flashes as the analog line card runs a self test If the test compl...

Page 373: ... transmission and reception of scan and signaling device SSD signaling messages over a DS30X signaling channel in A10 format on hook off hook status and switchhook flash detection 20 Hz ringing signal connection and automatic disconnection when the station goes off hook synchronization for connecting and disconnecting the ringing signal to zero crossing of ringing voltage loopback of SSD messages ...

Page 374: ...is is arranged as 3 5 dB loss for analog to PCM and 2 5 dB loss for PCM to analog Frequency response The loss values in Table 110 are measured relative to the loss at 1 kHz Message channel noise The message channel noise C weighted dBrnC on 95 percent of the connections line to line with both ends terminated in 600 ohms does not exceed 20 dBrnC Table 110 NT8D09 Analog Message Waiting Line Card fre...

Page 375: ...8 V excluding set Leakage resistance 30 000 ohms Ring trip During silent or ringing intervals Ringing voltage 86 V AC Signaling Loop start Supervision Normal battery conditions are continuously applied approxi mately 44 5 V on ring and 2 5 V on tip at nominal 48 V battery Power input from backplane 48 can be as low as 42 for DC powered systems 15 15 8 5 V and ringing voltage also 150 V on analog m...

Page 376: ...used Check local regulations before providing such service Overload level Signal levels exceeding 7 dBm applied to the tip and ring cause distortion in speech transmission Table 112 Power requirements Voltage Tolerance Idle current Active current Max 12 0 V DC 0 36 V DC 48 mA 0 mA 48 mA 8 0 V DC 0 40 V DC 150 mA 8 mA 280 mA 48 0 V DC 2 00 V DC 48 mA 40 mA 688 mA 48 0 V DC 5 00 V DC 0 mA 10 mA Note...

Page 377: ...r 379 Signaling and control 380 Signaling interface 380 Electrical characteristics 381 Physical characteristics 381 Power requirements 382 Environmental specifications 383 Foreign and surge voltage protection 383 Release control 383 PAD switching 383 Application 385 Loop start operation 385 Ground start operation 385 Direct Inward Dial operation 385 Tie Two way Dial Repeating operation 386 Tie Out...

Page 378: ... 1200 ohm on a per unit basis 1200 ohm supported for RAN trunks only provides software selected balance impedance 600 ohm or complex impedance network on a per unit basis interfaces eight PCM signals to one DS 30X timeslot in A10 format transmits and receives SSD signaling messages over a DS 30X signaling channel in A10 format supports PCM signal loopback to DS 30X for diagnostic purposes Trunk ty...

Page 379: ...rd is equipped with a microprocessor which controls card operation The microprocessor also provides the communication function for the card The Universal Trunk Card communicates with the Controller Card through a serial communication link Features provided through the link include card identification self test status reporting status reporting to the Controller Card maintenance diagnostics Table 1...

Page 380: ...of the card provides the means for analog loop terminations to establish supervise and take down call connections Signaling interface All trunk signaling messages are three bytes long The messages are transmitted in channel zero of the DS 30X in A10 format Configuration information for the Universal Trunk Card is downloaded from the CPU at power up or by command from maintenance programs Eleven co...

Page 381: ...ristics Characteristic DID trunk CO trunk Terminal impedance 600 or 900 ohms selected by software 600 or 900 ohms selected by software Signaling range 2450 ohms 1700 ohms Signaling type Loop start Ground or loop start Far end battery 42 to 52 5 V 42 to 52 5 V Near end battery N A 42 75 to 52 5 V Minimum loop current N A 20 mA Ground potential difference 3 V 3 V Low DC loop resistance during outpul...

Page 382: ...it on the card connects to the backplane through an 80 pin connector the backplane is cabled to the Input Output I O panel and the I O panel is cabled to the cross connect terminal At the cross connect terminal each unit connects to external apparatus such as Central Office facilities or recorded announcement equipment Each unit connects to external apparatus by tip and ring leads which carry voic...

Page 383: ...ies of each trunk are characterized by the class of service COS you assign in the Trunk Data Block LD 14 Transmission properties may be via net loss VNL or non via net loss non VNL Non VNL trunks are assigned either a Transmission Compensated TRC or Non Transmission Compensated NTC class of service to ensure stability and minimize echo when connecting to long haul trunks such as Tie trunks The cla...

Page 384: ...d the resulting port to port loss for connections between the Universal Trunk Card UTC and any other Intelligent Peripheral Equipment IPE or Peripheral Equipment PE unit denoted as Port B In Option 11C systems the insertion loss from IPE ports to IPE ports is as follows Table 117 Insertion Loss from IPE Ports to IPE Ports measured in dB IPE Ports IPE Ports 500 2500 Line Digital Line 2 4 Wire E M T...

Page 385: ...m the system in the form of DTMF tones or dial pulses Ground start operation Ground start operation is configured in software and implemented through software download messages In an idle state the tip conductor from the CO is open and a high resistance negative battery is present on the tip of the trunk This biases the tip ground detector OFF until the CO places ground on the tip at seizure After...

Page 386: ...round pulsing If answer supervision is provided by the far end reverse battery is received which provides a disconnect supervision signal Tie Outgoing Automatic Incoming Dial operation When the Universal Trunk is seized by the far end on an incoming call a low resistance loop is placed across the tip and ring leads Dial pulses are sent by the far end by interrupting the loop current The trunk is r...

Page 387: ...ode the Universal Trunk is connected to a customer provided paging amplifier system When the trunk is accessed by dial up or attendant key operation it provides a loop closure across control leads A and B In a typical application this will transfer the input of the paging amplifier system to the transmission path of the trunk ...

Page 388: ...Page 388 of 544 NT8D14 Universal Trunk Card 553 3011 100 Standard 14 00 January 2002 ...

Page 389: ...Functional description 391 Common features 391 Trunk circuit features 392 Signaling and control 392 Microprocessor 393 Signaling interface 393 Card LAN 394 Electrical characteristics 394 Physical characteristics 395 Application 395 Release Control 396 PAD Switching 396 Paging trunk operation 397 Technical summary 398 Power requirements 398 Environmental specifications 398 Foreign and surge voltage...

Page 390: ...pendently by software control The trunk circuits on the card support the following types of trunks two wire E M type I signaling trunks non ESN two wire dial repeating trunks two or four wire tie trunks four wire E M type I and II signaling type II trunks ESN and Non ESN applications Paging PAG Type I signaling as on the two wire E M trunk utilizes two signaling wires plus ground Type II signaling...

Page 391: ...0 format Ability to enable and disable individual ports or the entire card under software control Provides outpulsing on the card Make break ratios are defined in software and down loaded at power up and by software commands Provides indication of card status from self test diagnostics on faceplate Light Emitting Diode LED Supports loopback of PCM signals to DS30X for diagnostic purposes Card ID p...

Page 392: ...receive of voice through two separate paths Type I signaling through E M leads Type II signaling Near end seizure with MA MB leads Far end detection with EA EB leads Paging trunk loop OAID operation Support access by low resistance path at the PA PB lead All call zone paging is not supported Two to four wire conversion of the transmission path Signaling and control The signaling and control portio...

Page 393: ... mu law operation Microprocessor The E M trunk has a microprocessor which performs a number of operations On power up a self test of the circuitry on the card is performed The self test can also be requested by a command entered in maintenance programs The card faceplate Light Emitting Diode LED is lit while the self test is performed If the self test passes the faceplate LED flashes three times a...

Page 394: ...ication link between the trunk card and the Peripheral Controller The microprocessor provides the Card Lan function for the E M Trunk Electrical characteristics The electrical characteristics of all trunk circuits are provided in Table 119 Table 119 Electrical characteristics Part 1 of 2 Characteristic DID Trunk CO trunk Nominal impedance 600 or 900 ohms selected by software 600 or 900 ohms select...

Page 395: ...an ring leads which carry voice ringing tone signaling and battery Trunk option selection is determined by software control in LD 14 Application The optional applications features and signaling arrangements for each trunk are assigned through unique route and trunk data blocks Refer to the Features and Services 553 3001 306 for information about assigning features and services to trunks Low DC loo...

Page 396: ...14 The assignment may be non Via Net Loss non VNL or via Net Loss VNL To ensure stability and minimize echo when connecting to long haul VNL Tie trunks non VNL trunks are assigned either Transmission Compensated TRC or Non Transmission Compensated NTC class of service The TRC and NTC COS options determine the operation of the switchable pads contained in the trunk circuits They are assigned as fol...

Page 397: ...d paging amplifier system When the trunk is accessed by dial up or attendant key operation it provides a loop closure across control leads A and B In a typical application this will transfer the input of the paging amplifier system to the transmission path of the Trunk IPE Ports IPE Ports 500 2500 Line Digital Line 2 4 Wire E M Trunk 4 Wire ESN E M Trunk CO FX WATS Loop Tie Trunk 2 4 Wire E M Trun...

Page 398: ...2 Foreign and surge voltage protection The E M trunk circuit meets CS03 over voltage power cross specifications Table 121 Power requirements Voltage Tolerance Idle Current Active Current 15 0 V DC 5 200mA 200 mA 8 5 V DC 2 200 mA 200 mA 48 0 V DC 5 415 mA 415 mA 5 0 V DC N A N A N A Table 122 Environmental specifications Parameter Specifications Operating temperature 0 50 degrees C ambient Operati...

Page 399: ...ns 406 Physical specifications 407 Overview The XMFC MFE Extended Multi frequency Compelled Multi frequency sender receiver card is used to set up calls between two trunks Connections may be between a PBX and a CO or between two PBXs When connection has been established the XMFC MFE card sends and receives pairs of frequencies and then drops out of the call The XMFC MFE card can operate in systems...

Page 400: ...equencies to a receiving XMFC MFE card forward signaling the receiving XMFC MFE card must respond by sending a different set of frequencies back to the originating XMFC MFE card backward signaling In other words the receiving card is always compelled to respond to the originating card In summary the signaling works as follows The first XMFC MFE card sends a forward signal to the second card The se...

Page 401: ...signals designated A respond to Level I forward signals Subsequent levels of backward signals B C and so on describe the status of the called party Table 123 on page 401 lists the frequency values used for forward and backward signals Table 123 MFC Frequency values Part 1 of 2 Digit Forward direction DOD Tx DID Rx backward direction DOD Rx DID Tx 1 1380 Hz 1500 Hz 1140 Hz 1020 Hz 2 1380 Hz 1620 Hz...

Page 402: ...ach MFC equipped trunk route is associated with a data block that contains the MFC signal functions supported for that route Up to 127 such tables can be defined for an Option 11C system MFE signaling The NT5K21 XMFC MFE card can be programmed for MFE signaling which is used mainly in France MFE is much the same as MFC except it has its own set of forward and backward signals 13 1620 Hz 1980 Hz 90...

Page 403: ...hich uses MFC or MFE signaling The XMFC MFE circuit card transmits and receives forward and backward signals simultaneously on two channels Each channel is programmed like a peripheral circuit card unit with its own sending and receiving timeslots in the Meridian network Table 124 MFE Frequency values Digit Forward direction OG Tx IC Rx Backward direction 1 700 Hz 900 Hz 1900 Hz Control Frequency ...

Page 404: ... and sends them to the trunk over the PCM network speech path The trunk transmits the tones to the far end XMFC sender and receiver specifications Tables 125 and Table 126provide the operating requirements for the NT5K21 XMFC MFE card These specifications conform to CCITT R2 recommendations Q 441 Q 442 Q 451 Q 454 and Q 455 Table 125 XMFC sender specifications Forward frequencies in DOD mode 1380 ...

Page 405: ...ian requirement rejected difference of 5 dB between adjacent frequencies difference of 7 dB between non adjacent frequencies difference of 12 dB for unloaded CO trunks difference of 20 dB between any two frequencies Operating time 32 msec Release time 32 msec Tone Interrupt no release 8 msec Receiver on while tone missing Longest Input tone ignored 8 msec Combination of valid frequencies Noise rej...

Page 406: ... Power level at each frequency Selectable 1 of 16 levels Level tolerance 1 0 dB Harmonic Distortion and Intermodulation 35 dB below level of 1 signaling frequency Time interval between start of 2 tones 125 usec Time interval between stop of 2 tones 125 usec Table 128 XMFE receiver specifications Part 1 of 2 Input sensitivity accepted rejected rejected rejected 4 dBm to 35 dBm 10 Hz of nominal 42 d...

Page 407: ...tone ignored 15 msec Control Frequency only Noise rejection S N 18 dB No degradation in band white noise Table 129 Physical specifications Dimensions Height 12 5 in 320 mm Depth 10 0 in 255 mm Thickness 7 8 in 22 25 mm Faceplate LED Lit when the circuit card is disabled Cabinet Location Must be placed in the main cabinet Slots 1 10 Power requirements 1 1 Amps typical Environmental considerations M...

Page 408: ...Page 408 of 544 NT5K21 XMFC MFE card 553 3011 100 Standard 14 00 January 2002 ...

Page 409: ...naling levels 410 XMFR receiver specifications 411 Physical specifications 413 Overview The XMFR Extended Multi frequency receiver card is used to receive MF digit information Connections are made between a PBX and a CO The XMFR card can only operate in systems using µ law companding MF signaling The MF feature allows the Option 11C system to receive digits for 911 or feature group D applications ...

Page 410: ...uency values used for received signals Table 130 MF frequency values Digit Backward direction DOD Tx DID Rx 1 700 Hz 900 Hz 2 700 HZ 1100 Hz 3 900 Hz 1100 Hz 4 700 Hz 1300 Hz 5 900 Hz 1300 Hz 6 1100 Hz 1300 Hz 7 700 Hz 1500 Hz 8 900 Hz 1500 Hz 9 1100 Hz 1500 Hz 0 1300 Hz 1500 Hz KP 1100 Hz 1700 Hz ST 1500 Hz 1700 Hz STP ST 900 Hz 1700 Hz ST2P ST 1300 Hz 1700 Hz ST3P ST 700 Hz 1700 Hz ...

Page 411: ...f 3 Coding Mu Law Input sensitivity must accept 0 to 25 dBmO must reject 35 to dBmO Frequency sensitivity must accept f 1 5 5Hz Amplitude Twist must accept difference of 6dB between frequencies Signal Duration must accept 30 ms must reject 10 ms KP Signal Duration must accept 55 ms may accept 30 ms must reject 10 ms Signal Interruption Bridge must ignore 10 ms Time Shift between 2 frequencies Enve...

Page 412: ... dBmO ON OFF 50 ms 50ms KP duration 100 ms SNR 20 dB all digits Immunity to Impulse Noise Better than 1 2500 calls Test 10 digit calls nominal frequency 23 dBmO ON OFF 50ms 50ms KP duration 100 ms SNR 12 dBs all digits ATT Digit Simulation Test Tape 201 from PUB 56201 Error Rate from Power Lines Better than 1 2500 calls Test 10 digit calls nominal frequency 23 dBmO ON OFF 50 ms 50ms KP duration 10...

Page 413: ...ate A B and B A modulation products with a power sum 28 dB below each frequency component level of the signals KP KP activation The receiver must not respond to signals prior to KP Remain unlocked until ST STP ST2P or ST3P is received Multiple KP s After the initial KP subsequent KP s are ignored while in unlocked mode Excessive Components If more than two valid frequencies are detected no digit i...

Page 414: ...Page 414 of 544 NTAG26 XMFR card 553 3011 100 Standard 14 00 January 2002 ...

Page 415: ...on 418 Foreign and surge voltage protections 418 Reference List The following are the references in this section Option 11C ISDN BRI Hardware Installation and Maintenance 553 3011 311 Overview The S T Interface Line Cards SILC NT6D70AA 48V North America NT6D70 BA 40 V International provide eight S T four wire full duplex interfaces that are used to connect ISDN BRI compatible terminals over DSLs t...

Page 416: ...rminal configuration and the DSL wire gauge however it should not exceed 1 km 3 280 ft The SILC interface uses a 4 conductor cable that provides a differential Transmit and Receive pair for each DSL The SILC has options to provide a total of 2 Watts of power on the Transmit or Receive leads or no power at all When this power is supplied from the S T interface the terminal devices must not draw mor...

Page 417: ...ich includes polling the line cards to find in which card slot the SILC is installed It also queries the status and identification of the card and reports the configuration data and firmware version of the card The IPE bus interface connects one IPE bus loop that has 32 channels operating at 64 kbps and one additional validation and signaling bit The maintenance signaling channel MSC interface is ...

Page 418: ...n the DSL comes from the SILC which accepts 48 V from the IPE backplane and provides 2 watts of power to physical terminations on each DSL It provides 48 V for ANSI compliant ISDN BRI terminals and 40 V for CCITT such as ETSI NET 3 INS NET 64 compliant terminals The total power used by the terminals on each DSL must not exceed 2 watts Physical description The NT6D70 SILC is a standard size circuit...

Page 419: ...nce List The following are the references in this section Option 11C ISDN BRI Hardware Installation and Maintenance 553 3011 311 Overview The NT6D71 U Interface Line Card UILC supports the OSI physical layer layer 1 protocol The UILC is an ANSI defined standard interface The UILC provides eight two wire full duplex not polarity sensitive U interfaces that are used to connect ISDN BRI compatible te...

Page 420: ...ections provide channel mapping between ISDN BRI format 2B D and Meridian 1 bus format multiplex 4 D channels onto one timeslot perform activation and deactivation of DSLs provide loopback control of DSLs Micro Controller Unit MCU The MCU coordinates and controls the operation of the UILC It has internal memory a reset and sanity timer a serial control interface a maintenance signaling channel and...

Page 421: ...values to condition the level of the digitized transmission signal according to the network loss plan This sets transmission levels for the B channel circuit switched voice calls The clock converter converts the 5 12 MHz clock from the IPE backplane into a 2 56 MHz clock to time the IPE bus channels and an 8 kHz clock to provide PCM framing bits U interface logic The U interface logic consists of ...

Page 422: ...Page 422 of 544 NT6D71 UILC line card 553 3011 100 Standard 14 00 January 2002 ...

Page 423: ... Overview 424 Physical description 424 Self Test 424 Functional description 424 Card interfaces 425 Card functions 426 Operation 429 Incoming calls 429 Outgoing calls 431 Application 432 Off premise station application 432 Other applications 434 Transmission considerations 434 Reference List The following are the references in this section Option 11C Planning and Installation 553 3021 210 Maintena...

Page 424: ...rd is cabled to the cross connect terminal Telephone lines from station equipment cross connect to the OPS analog line card at the cross connect using a wiring plan similar to trunk cards See the Option 11C Planning and Installation 553 3021 210 for cross connect terminations Self Test The faceplate of the card is equipped with a red light emitting diode LED When an OPS analog line card is install...

Page 425: ...lity The OPS analog line card uses only eight of the 30 available timeslots for its eight line interfaces The OPS analog line card can be configured in software to format PCM data in the µ law or A law conventions Maintenance communications Maintenance communications is the exchange of control and status data between line or trunk cards and the CPU Maintenance data is transported via the card LAN ...

Page 426: ...al PCM signals Each codec supports four units and contains switchable pads for control of transmission loss on a per unit basis The following features are common to all units on the card OPS or ONS service configurable on a per unit basis terminating impedance 600 or 900 ohm selectable on a per unit basis standard or complex balance impedance 600 or 900 ohm 3COM1 or 3COM2 selectable on a per unit ...

Page 427: ...es from the CPU and return incoming call status information over the DS 30X network loop Circuit Power The 8 5 V dc input is regulated down to 5 V dc for use by the digital logic circuits All other power to the card is used by the line interface circuits Foreign and surge voltage protection The OPS analog line card meets UL 1489 and CS03 over voltage power cross specifications and FCC Part 68 requ...

Page 428: ...4 5 15 TIMP 600 ohm 600 ohm 600 ohm 600 ohm 600 ohm 600 ohm 600 ohm BIMP 600 ohm 3COM 3CM2 600 ohm 3COM 3CM2 3CM2 Gain treatment e No Yes a Configured in the Single line Telephone Administration program LD 10 b Jumper strap settings JX 0 and JX 1 apply to all eight units X indicates the unit number 0 7 OFF indicates that a jumper strap is not installed across both pins on a jumper block Store unus...

Page 429: ...analog line card unit is idle it provides a ground on the tip lead and 48 V dc on the ring lead The on hook telephone presents a high impedance toward the line interface unit on the card Incoming calls Incoming calls to a telephone connected to the OPS analog line card originate from stations that can be local served by the Meridian 1 PBX or remote served through the public switched telephone netw...

Page 430: ...r end station off hook Low resistance loop Two way voice connection Option 11C detects increase in loop current tips ringing and puts call through to near end station Near end station hangs up first High resistance loop If near end station hangs up first the line card detects the drop in loop current Line card unit idle Group on tip battery on ring High resistance loop Line card unit is ready for ...

Page 431: ...oup on tip battery on ring High resistance loop No battery current drawn Call request Low resistance loop Near end station goes off hook Battery current is drawn causing detection of off hook state Dial Tone Dial tone is applied to the near end station from the Option 11C Outpulsing Addressing signals Near end station dials number loop pulsing or DTMF tones Option 11C detects start of dialing and ...

Page 432: ...ever depending on the facilities used the local office serving the OPS station may provide line functions such as battery and ringing Facilities are generally provided by the local exchange carrier usually OPS pairs are in the same cable as the PBX CO trunks The traditional OPS scenario configuration is shown in Figure 56 Far end station hangs up first High resistance loop If the far end hangs up ...

Page 433: ...PS service should not be confused with off premise extension OPS service OPS service is the provision of an extension to a main subscriber loop bridged onto the loop at the serving CO or PBX Additionally OPS as used to denote off premise extension service should not be confused with the OPS class of service assigned in the Single line Telephone Administration program LD10 ...

Page 434: ... also be configured as ONS ports in LD10 to have ONS service with hazardous and surge voltage protection not available on other Meridian 1 analog line cards to use otherwise idle OPS analog line card ports Transmission considerations The transmission performance of OPS lines is dependent on a number of factors The Meridian 1 port to port loss for connections between OPS ports and other Meridian 1 ...

Page 435: ...S terminal should not exceed 7 0 dB Of that total the loss in the facility between the PBX and the terminal should not exceed 4 5 dB see Figure 56 The following requirements are based on historic inserted connection loss ICL objectives PBX CO trunk 5 dB with gain 0 4 0 dB without gain OPS line 4 0 dB with gain 0 4 5 dB without gain In recent times economic and technological consideration has led t...

Page 436: ...signed so that a connection with an OPS termination will provide satisfactory end to end listener volume when the OPS termination is a standard telephone set The listener volume at the distant end depends on the OPS termination transmit loudness characteristics that at the OPS termination end depends on the OPS termination receive loudness characteristics With standard telephone sets these charact...

Page 437: ...ned for other applications may also impact transmission performance For example wireless portables loudness characteristics are selected for connections to switching systems for wireless communication systems if deployed in an OPS arrangement without due consideration for these characteristics the result could be a significant deviation from optimum loudness performance ...

Page 438: ...Page 438 of 544 NT1R20 Off Premise Station OPS analog line card 553 3011 100 Standard 14 00 January 2002 ...

Page 439: ...ironment 446 This chapter describes the fiber optic cable interface equipment used with the Option 11C Overview Through the use of fiber optic cable and fiber optic cable interfaces the expansion cabinets may be located at various distances from the main cabinet With Option 11C the expansion cabinets can be located up to 3 km 1 8 mi from the main cabinet With the use of Dual Port Fiber Expansion D...

Page 440: ...ard in the main cabinet and Fiber Receiver cards mounted in the expansion cabinets Note 1 Any reference to Option 11C cabinets in this section equally applies to Option 11C Mini chassis if you are using them in your IP Expansion system Note 2 The MFI and EFI units used with Option 11E to interface with fiber optic cable cannot be used with Option 11C Fiber Expansion daughterboards Fiber Expansion ...

Page 441: ...et located up to 3 km 1 8 mi of the main cabinet The NTDK24 Fiber Expansion Daughterboard works in conjunction with an NTDK25 Fiber Receiver card in the expansion cabinet Note The NTDK24 supports only Multimode glass fiber optic cable NTDK79 Fiber Expansion Daughterboard The NTDK79 Fiber Expansion Daughterboard has the same features as the NTDK24 except that it requires Single Mode glass fiber opt...

Page 442: ...ion Daughterboard in the main cabinet NTDK25 Fiber Receiver card The NTDK25 Fiber Receiver card is used when the expansion cabinet is located up to 3 km 1 8 mi of the main cabinet It connects to one multimode glass fiber optic cable which is dedicated to the Option 11C system One of these cards is required for each expansion cabinet located up to 3 km 1 8 mi of the main cabinet connected by multim...

Page 443: ...port 100baseT IP daughterboard has one 100BaseT IP port and can be used to connect Point To Point or to a campus data network NTTK01 single port 100baseF IP daughterboard The NTTK01 single port 100baseF IP daughterboard has one 100BaseF IP port and can be used to connect Point To Point or to a campus data network with glass fiber optic cable This is the glass fiber optic cable version of the NTDK9...

Page 444: ...required when the cable length between the main cabinet and an expansion cabinet is up to 3 km 1 8 mi Note The distance between the main cabinet and expansion cabinet is determined by the length of the fiber optic cable not by linear distance This glass fiber cable which is supplied by a local telephone company or other facilities provider must be dedicated to the Option 11C it cannot be shared wi...

Page 445: ...al cables the optical power budget of 8 dB could support greater lengths To guarantee reliable operation a bandwidth of 150 should be maintained If the link is increased beyond the 3 km length the 150 margin is deteriorated possibly resulting in link malfunction under some conditions Table 136 Multimode and Single Mode glass optical cable requirements Parameter Minimum Typical Maximum Units Glass ...

Page 446: ...e 138 Table 137 IP connector cables Daughterboards Cable Cable description NTDK83 and NTDK99 100baseT IP NTTK34AA AO793725 10m RJ45 CAT 5 cable NTDK8305 AO781621 2m STP CAT 5 extension cable NTTK01 and NTTK02 100baseF IP AO817052 5 m MT RJ to ST cable A0346816 ST fibre coupler AO817055 10m MT RJ to MT RJ fibre extension cable Table 138 Environmental conditions Operating Storage Ambient temperature...

Page 447: ...ling interface 450 Interconnection 450 Microprocessor 450 Digital pad 451 D channel interface 452 DS 1 Carrier interface 453 Clock controller interface 454 Clock rate converter 454 Overview The NTAK09 is a standard size intelligent peripheral equipment circuit card in the Option 11C main and IP expansion cabinets It provides 1 5Mb ISDN primary rate interface and digital trunk interface capability ...

Page 448: ... and handling Card LAN for maintenance communications loopback capabilities for both near end and far end echo canceler interface integrated trunk access both D channel and in band A B signaling can be mixed on the same PRI faceplate monitor jacks for T 1 interface configurable D channel data rate with 64 Kbps 56 Kbps or 64 Kbps inverted self test Physical description The DTI PRI card uses a stand...

Page 449: ...r public T 1 facilities this protection is provided by the local operating company In a private T 1 facility environment a campus for example the NTAK92 protection assembly may be used Table 139 NTAK09 LED states LED State Definition DIS On Red The NTAK09 circuit card is disabled Off The NTAK09 is not in a disabled state ACT On Green The NTAK09 circuit card is in an active state No alarm states ex...

Page 450: ...ped with bit slice microprocessors that handle the following major tasks Task handler also referred to as an executive the task handler provides orderly per channel task execution to maintain real time task ordering constraints Transmit voice inserts digital pads manipulates transmit AB bits for DS1 and provides graceful entry into T Link data mode when the data module connected to the DTI PRI tru...

Page 451: ...both µ255 law and A law coding There are 32 combinations each for µ255 to µ255 µ255 to A law A law to µ255 and A law to A law These values are selected to meet the EIA loss and level plan Table 140 Digital pad values and offset allocations Offset PAD set 0 PAD set 1 0 0dB 7db 1 2dB 8db 2 3dB 9db 3 4dB 10db 4 5dB 0 6db 5 6 1dB 7db 6 8dB 9db 7 1dB 10db 8 3dB 11db 9 4dB 12db A idle code 7F 3db B unas...

Page 452: ...different bit rate from each other as determined by the transmit and receive carrier clocks Feature selection through software configuration for the D channel includes 56 Kbps 64 Kbps clear 64 Kbps inverted 64 Kbps restricted DCHI can be enabled and disabled independent of the PRI card as long as the PRI card is inserted in its cabinet slot The D channel data link cannot be established however unl...

Page 453: ...switch selectable through dip switches and the settings are as shown below Receiver The receiver extracts data and clock from an incoming data stream and outputs clock and synchronized data At worst case DSX 1 signal levels the line receiver will operate correctly with up to 655 feet of ABAM cable between the card and the external DS1 signal source Table 141 NTAK09 switch settings Distance to Digi...

Page 454: ...lock controller interface enables or disables the appropriate reference clock source in conjunction with software Clock rate converter The 1 5 Mb clock is generated by a phase locked loop PLL The PLL synchronizes the 1 5 Mb DS1 clock to the 2 56 Mb system clock through the common multiple of 8 kHz by using the main frame synchronization signal Table 142 DS 1 line interface pinout for NTBK04 cable ...

Page 455: ...onal description 456 Software description 457 Hardware description 457 NTRB21 TMDI card 457 Shelf slot assignment 459 Physical description 459 Power requirements 460 Foreign and surge voltage protection 460 Architecture 461 Signaling interface 461 Interconnection 461 Microprocessor 461 Digital pad 462 D channel interface 463 DS 1 Carrier interface 464 NTAK20 Clock Controller CC daughterboard 465 ...

Page 456: ...le D channel This card requires that the Option 11C be equipped with at least Release 24 software This card replaces the NTAK09 described in NTAK09 1 5 Mb DTI PRI card on page 447 This feature does not affect the NTAK09 functionality configuration or maintenance in any way Aside from changes to the configuration and maintenance of the pack there are no other changes seen by the users and call proc...

Page 457: ...t Hardware description NTRB21 TMDI card The NTRB21 TMDI card provides 1 5 MBits Digital Trunk Interface or Primary Rate Interface functionality on the Option 11C The NTRB21 has a built in downloadable D channel and may occupy card slots 1 9 on the Option 11C main cabinet Note 1 For CISPR B group cabinets the active Clock Controller NTAK20 can only occupy slots 1 3 For FCC and or CISPR A group cabi...

Page 458: ...Page 458 of 544 NTRB21 DTI PRI DCH TMDI card 553 3011 100 Standard 14 00 January 2002 Figure 57 NTRB21 TMDI card faceplate TMDI Rx Tx OOS ACT RED YEL LBK CC DCH MAINT RS232 Monitor Port ...

Page 459: ...inted circuit board with buried power and ground layers It is keyed to prevent insertion in slot 10 The clock controller daughterboard is fastened by standoffs and connectors The NTRB21 card has seven faceplate LEDs The first five LEDs are associated with the NTRB21 card the remaining two LEDs are associated with the clock controller and DCHI daughterboards In general the first five LEDs operate a...

Page 460: ...d The NTRB21 circuit card conforms to safety and performance standards for foreign and surge voltage protection in an internal environment Table 143 NTRB21 LED states LED State Definition DIS On Red The NTRB21 circuit card is disabled Off The NTRB21 is not in a disabled state ACT On Green The NTRB21 circuit card is in an active state No alarm states exist the card is not disabled nor is it in a lo...

Page 461: ...jor tasks Task handler also referred to as an executive the task handler provides orderly per channel task execution to maintain real time task ordering constraints Transmit voice inserts digital pads manipulates transmit AB bits for DS1 and provides graceful entry into T Link data mode when the data module connected to the DTI PRI trunk is answering the call Receive voice inserts digital pads and...

Page 462: ... µ255 law and A law coding There are 32 combinations each for µ255 to µ255 µ255 to A law A law to µ255 and A law to A law These values are selected to meet the EIA loss and level plan Table 144 Digital pad values and offset allocations Offset PAD set 0 PAD set 1 0 0dB 7db 1 2dB 8db 2 3dB 9db 3 4dB 10db 4 5dB 0 6db 5 6 1dB 7db 6 8dB 9db 7 1dB 10db 8 3dB 11db 9 4dB 12db A idle code 7F 3db B unassign...

Page 463: ...htly different bit rate from each other as determined by the transmit and receive carrier clocks Feature selection through software configuration for the D channel includes 56 Kbps 64 Kbps clear 64 Kbps inverted 64 Kbps restricted DCHI can be enabled and disabled independent of the PRI card as long as the PRI card is inserted in its cabinet slot The D channel data link cannot be established howeve...

Page 464: ...tch selectable through dip switches and the settings are as shown below Receiver The receiver extracts data and clock from an incoming data stream and outputs clock and synchronized data At worst case DSX 1 signal levels the line receiver will operate correctly with up to 655 feet of ABAM cable between the card and the external DS1 signal source Table 145 NTRB21 switch settings Distance to Digital...

Page 465: ...o the system Option 11C can function either as a slave to an external clock or as a clocking master The NTAK20AA version of the clock controller meets AT T Stratum 3 and Bell Canada Node Category D specifications The NTAK20BA version meets CCITT stratum 4 specifications See NTAK20 clock controller on page 503 Table 146 DS 1 line interface pinout for NTBK04 cable From 50 pin MDF connector To DB 15 ...

Page 466: ...Standard 14 00 January 2002 Clock rate converter The 1 5 Mb clock is generated by a phase locked loop PLL The PLL synchronizes the 1 5 Mb DS1 clock to the 2 56 Mb system clock through the common multiple of 8 kHz by using the main frame synchronization signal ...

Page 467: ...face 472 Carrier interface 473 Clock controller interface 474 Switch settings 477 Overview The NTAK10 which can be located in the main cabinet and IP expansion cabinets provides an IPE compatible 2 0 Mb DTI interface for the Option 11C system This circuit card includes on board clock controller circuitry that can be manually switched in or out of service Functional description The NTAK10 provides ...

Page 468: ... and all channel loopback capabilities for near end and far end self test download of incoming abcd validation times from software warm SYSLOAD TS16 AS16 transmitted Applicability to France Features specific to DTI requirements for France are implemented in firmware and are switch accessed The requirements met are as follows transmission and reception of alarm indication signaling AIS in TS16 card...

Page 469: ... not in a disabled state OOS On Yellow The NTAK10 is in an out of service state Off The NTAK10 is not in an out of service state NEA On Yellow A near end alarm state has been detected Off No near end alarm FEA On Yellow A far end alarm state has been detected Off No far end alarm LBK On Yellow NTAK10 is in loop back mode Off NTAK10 is not in loop back mode CC On Red The clock controller is switche...

Page 470: ...10 interfaces to one DS 30X bus which contains 32 byte interleaved timeslots operating at 2 56 Mb Each timeslot contains 10 bits in A10 message format 8 are assigned to voice data 64 Kbps one to signaling 8 Kbps and one is a data valid bit 8 Kbps Transmit data To transmit data on the carrier the incoming serial bit stream from the NTAK02 circuit card is converted to 8 bit parallel bytes The signal...

Page 471: ...erface is converted from serial to parallel is buffered and is fed to the pad prom It then sent onto the DS 30X interface where signaling information from the signaling interface circuitry is multiplexed DS 30X microprocessor The DS 30X is a utility processor responsible for the following tasks controlling the DS 30X interface receiving and decoding of messages and taking appropriate action transm...

Page 472: ...ons If a coax interface is required use NT5K85 in conjunction with the NTBK05 Channel associated signaling Channel associated signaling implies that each traffic carrying channel has its own signaling channel permanently associated with it Timeslot 16 is used to transmit two types of signaling supervisory and address Incoming signal Functions of the NTAK10 with regard to incoming signaling include...

Page 473: ... subsequent actions transmitting messages to the DS 30X microprocessor handling PPM updating the TS16 select RAM and TS16 data RAM providing outpulsing receive data from the change of state microprocessor transmitting AIS for CNET France application Change of state microprocessor The functions of this processor are detecting valid change of state in TS16 when a valid change has been found passing ...

Page 474: ...unction with software enable or disable the appropriate reference clock source The clock controller circuitry on NTAK10 is identical to that of the NTAK20 Note that while several DTI PRI packs may exist in one system only one clock controller may be activated all other DTI PRI clock controllers must be switched off Clocking modes The clock controller can operate in one of two modes tracking or non...

Page 475: ...ere is a problem with the clock controller or the incoming line Free run non tracking In free run mode the clock controller does not synchronize on any source it provides its own internal clock to the system This mode can be used when the Option 11C is used as a master clock source for other systems in the network Free run mode is undesirable if the Option 11C is intended to be a slave It can occu...

Page 476: ...n failure both out of specification the clock controller enters the HOLDOVER mode and continuously monitors both references An automatic switchover is initiated to the reference that recovers first If the secondary recovers first then the clock controller tracks to the secondary but switches over to the primary whenever the primary recovers If the primary recovers first then the clock controller t...

Page 477: ...ck controller provides an external timing interface and is capable of accepting two signals as timing references In this case an external reference refers to an auxiliary timing source which is bridged from a traffic carrying signal This is not intended to be a dedicated non traffic bearing timing signal The clock controller uses either the two external auxiliary references or the 2MB DTI referenc...

Page 478: ...card 553 3011 100 Standard 14 00 January 2002 Note The ON position for all the switches is towards the bottom of the card This is indicated by a white dot printed on the board adjacent to the bottom left corner of each individual switch ...

Page 479: ...82 Signaling interface 484 Carrier interface 484 Carrier grounding 485 CEPT transceiver 486 Slip control 486 D channel support interface 486 Card LAN interface 487 Clock controller interface 487 Overview The NTAK79 which can be located in the main and IP expansion cabinets provides a 2 0 Mb PRI interface and an onboard D channel handler DCH for the Option 11C system This circuit card also includes...

Page 480: ... alarm when instructed slip buffering receive messages supporting National and International bits in time slot 0 on board clock controller onboard D channel interface 32 software selectable Tx Rx Pad values conversion of PCM commanding Laws A A u u A u u A Card LAN for maintenance communications Physical description The NTAK79 uses a standard IPE sized 9 5 by 12 5 multilayer printed circuit board ...

Page 481: ...yellow remote alarm LBK On Green 2MB PRI is in loop back mode Off 2MB PRI is not in loop back mode CC On Red The clock controller is switched on and disabled On Green The clock controller is switched on and is either locked to a reference or is in free run mode Flashing Green The clock controller is switched on and is attempting to lock tracking mode to a reference If the LED flashes continuously ...

Page 482: ... description of each block follows DS 30X interface The NTAK79 interfaces to one DS 30X bus which contains 32 byte interleaved timeslots operating at 2 56 Mb Each timeslot contains 10 bits in A10 message format 8 are assigned to voice data 64 Kbps one to signaling 8 Kbps and one is a data valid bit 8 Kbps The incoming serial bit stream is converted to 8 bit parallel bytes to be directed to padding...

Page 483: ...he software instructs the NTAK79 to use different codes for each direction The 32 digital pads available are illustrated below The values shown are attenuation levels i e 1 0dB is 1dB of loss and 1 0dB is 1db of gain Table 149 Digital Pad values and offset allocations PAD SET 0 PAD SET 1 Offset PAD Offset PAD 0 0 6 dB 0 0 0 dB 1 1 0 dB 1 1 0 dB 2 2 0 dB 2 2 0 dB 3 3 0 dB 3 3 0 dB 4 4 0 dB 4 4 0 dB...

Page 484: ...accurate pulse shaping to meet the CCITT pulse mask requirements It provides clock recovery functions on the receive side as well as tolerance to jitter and wander in the received bit stream Impedance matching The line interface provides for the use of either 75ohm coaxial or 120ohm twisted pair cable The impedance is selected by a switch as shown in the settings table below Note The ON position f...

Page 485: ...mmendation G 823 and the jitter attenuation requirements of CCITT recommendation G 742 This provides jitter attenuation increasing from 0 dB to 60 dB over the frequency range from about 6 Hz to 6 KHz Transmitter functions The transmitter takes the binary dual unipolar data from the PCM transceiver and produces bipolar pulses which conform to CCITT recommendation G 703 pulse shape Loopbacks The rem...

Page 486: ... configured as a DCE device The data signals include 1 Receive data output 2 transmit data input 3 receive clock output and 4 transmit clock output The receive and transmit clocks can be of slightly different bit rates from each other as determined by the transmit and receive carrier clocks The NTAK79 has an onboard D channel handler interface DCHI It is the equivalent to a single port of an NTAK0...

Page 487: ...us 4800 bps 8 bit connected to port A of the UART The card LAN interface is an asynchronous 19 2 kbps 9 bit start stop connected to port B of the UART The connection to the echo canceler test port is available at the backplane MDF connector The signals at this port conform to the EIA RS 232C Clock controller interface The clock controller circuitry on the NTAK79 is identical to that of the NTAK20 ...

Page 488: ...ontroller will briefly enter the tracking stage The green LED will flash momentarily until the clock controller is locked onto the reference once again If the incoming reference is unstable the internal clock controller will continuously be in the tracking stage with the LED flashing green all the time This condition does not present a problem rather it shows that the clock controller is continual...

Page 489: ... follow the timing signal then the reference will be said to be out of specification If the reference being used is out of specification and the other reference is still within specification an automatic switchover is initiated without software intervention If both references are out of specification the clock controller provides holdover Autorecovery and chatter If the software command track to p...

Page 490: ...reference sources Holdover and free run In the temporary absence of a synchronization reference signal or when sudden changes occur on the incoming reference due to error bursts the clock controller provides a stable holdover The free run mode is initiated when the clock controller has no record of the quality of the incoming reference clock If the software command free run is given the clock cont...

Page 491: ...and is capable of accepting two signals as timing references In this case an external reference refers to an auxiliary timing source which is bridged from a traffic carrying signal This is not intended to be a dedicated non traffic bearing timing signal The clock controller uses either the two external auxiliary references or the NTAK79 references ...

Page 492: ...Page 492 of 544 NTAK79 2 0 Mb PRI card 553 3011 100 Standard 14 00 January 2002 ...

Page 493: ...nformation on the following topics Overview 494 Functional description 494 Physical description 494 Power requirements 496 Environment 496 Architecture 496 DS 30X interface 497 Signaling interface 498 Carrier interface 499 Carrier grounding 499 CEPT transceiver 501 Slip control 501 D channel support interface 501 Card LAN interface 502 ...

Page 494: ...ignal levels which have been attenuated by up to 10 dB control of CEPT line density using HDB3 which provides 64 kbps clear channel performance monitoring of the receive carrier by means of Bipolar Violations BPV Slips CRC 4 CRC and Frame Bit Errors FBER monitoring of receive carrier alarms including AIS LOS and RAI transmission of remote alarm when instructed slip buffering receive messages suppo...

Page 495: ...ve state Off The NTBK50 2 0 Mb PRI is in a disabled state The OOS LED is red RED On Red A red alarm state has been detected This represents a local alarm state of Loss of Carrier LOS Loss of Frame LFAS or Loss of CRC Multiframe LMAS Off No red local alarm YEL On Yellow A yellow alarm state has been detected This represents a remote alarm indication from the far end The alarm may be either Alarm In...

Page 496: ...ceiver SLIP control D channel support interface Flashing Green NTAK20 is equipped and is attempting to lock tracking mode to a reference If the LED flashes continuously over an extended period of time check the CC STAT in LD60 If the CC is tracking this may be an acceptable state Check for slips and related clock controller error conditions If none exist then this state is acceptable and the flash...

Page 497: ... bytes to be directed to padding control The signaling bits are extracted and inserted by the A07 signaling interface circuitry Timeslots 0 and 16 are currently unused for PCM Digital PAD Software selects A law or Mu Law and one of 32 possible PAD values for each channel These values are provided in a PROM through which the data is routed The idle code for A law is 54H and for Mu law is 7FH The un...

Page 498: ...zero data bit zero Messages are 3 bytes in length Table 154 Digital Pad values and offset allocations PAD SET 0 PAD SET 1 Offset PAD Offset PAD 0 0 6 dB 0 0 0 dB 1 1 0 dB 1 1 0 dB 2 2 0 dB 2 2 0 dB 3 3 0 dB 3 3 0 dB 4 4 0 dB 4 4 0 dB 5 5 0 dB 5 5 0 dB 6 6 1 dB 6 6 0 dB 7 7 0 dB 7 7 0 dB 8 8 0 dB 8 8 0 dB 9 9 0 dB 9 9 0 dB 10 10 0 dB 10 10 0 dB 11 11 0 dB 11 spare 12 12 0 dB 12 spare 13 13 0 dB 13 ...

Page 499: ...e provides for the use of either 75ohm coaxial or 120ohm twisted pair cable The impedance is selected by SW2 as shown in the settings table below Note The ON position for all the switches is towards the bottom of the card This is indicated by a white dot printed on the board adjacent to the bottom left corner of each individual switch Carrier grounding NTBK50 provides for the capability of selecti...

Page 500: ...ments of CCITT recommendation G 742 This provides jitter attenuation increasing from 0 dB to 60 dB over the frequency range from about 6 Hz to 6 KHz Transmitter functions The transmitter takes the binary dual unipolar data from the PCM transceiver and produces bipolar pulses which conform to CCITT recommendation G 703 pulse shape Loopbacks The remote loopback function causes the device to transmit...

Page 501: ...ransmit data input 3 receive clock output and 4 transmit clock output The receive and transmit clocks can be of slightly different bit rates from each other as determined by the transmit and receive carrier clocks The NTBK50 supports a daughterboard D channel handler interface DCHI It is the equivalent to a single port of an NTAK02 SDI DCH card As well the NTBK50 supports a Downloadable D channel ...

Page 502: ...e Card LAN serial link test port interface The test interface is an asynchronous 4800 bps 8 bit connected to port A of the UART The card LAN interface is an asynchronous 19 2 kbps 9 bit start stop connected to port B of the UART The connection to the test port is available at the backplane MDF connector The signals at this port conform to the EIA RS 232C standard ...

Page 503: ...Functional description 506 Phase difference detector circuit 507 Digital phase lock loops 507 Digital to analog converter 509 CPU MUX bus interface 510 Signal conditioning 510 Sanity timer 510 Microprocessor 510 External timing interface 511 Hardware integrity and regulatory environment 511 Overview The NTAK20 clock controller daughterboard mounts directly on the following cards NTAK09 1 5 Mb DTI ...

Page 504: ...ck and distribution of the clock to the CPU through the backplane accepts one primary and one secondary reference primary to secondary switchover and auto recovery chatter prevention due to repeated switching error burst detection and correction holdover and free running capabilities communication with software jitter filtering use of an algorithm to aid in detecting crystal aging and to qualify c...

Page 505: ...ock controller will briefly enter the tracking stage The green LED will flash momentarily until the clock controller is locked on to the reference once again If the incoming reference is unstable the internal clock controller will continuously be in the tracking stage with the LED flashing green all the time This condition does not present a problem rather it shows that the clock controller is con...

Page 506: ...nterface signal conditioning drivers and buffers sanity timer microprocessor Table 158 Faceplate LEDs State Definition On Red NTAK20 is equipped and disabled On Green NTAK20 is equipped enabled and is either locked to a reference or is in free run mode Flashing Green NTAK20 is equipped and is attempting to lock tracking mode to a reference If the LED flashes continuously over an extended period of...

Page 507: ... making frequency measurements and evaluating input jitter and PLL performance Digital phase lock loops The main digital PLL enables the clock controller to provide a system clock to the CPU This clock is both phase and frequency locked to a known incoming reference The hardware has a locking range of 4 6 ppm for Stratum 3ND and 50 ppm for Stratum 4 CCITT A second PLL on board the clock controller...

Page 508: ...ovide autorecovery Reference switchover Switchover may occur in the case of reference degradation or loss of signal When performance of the reference degrades to a point where the system clock is no longer allowed to follow the timing signal then the reference is out of specification If the reference being used is out of specification and the other reference is still within specification an automa...

Page 509: ...d continuously monitors the quality of both primary and secondary references If the secondary goes out of specification the clock controller automatically tracks to primary provided that is within specifications On failure both out of specification the clock controller enters the HOLDOVER mode and continuously monitors both references An automatic switchover is initiated to the reference that reco...

Page 510: ...channel between the clock controller and the CPU Signal conditioning Drivers and buffers are provided for all outgoing and incoming lines Sanity timer The sanity timer resets the microprocessor in the event of system hang up Microprocessor The microprocessor does the following communicates with software monitors 2 references provides a self test during initialization minimizes the propagation of i...

Page 511: ... and is not intended to be a dedicated non traffic bearing timing signal The clock controller uses either the external auxiliary references or the DTI PRI references Hardware integrity and regulatory environment The clock controller complies with the following hardware integrity and regulatory specifications EMI FCC part 15 sub part J CSA C108 8 CISPR publication 22 ESD IEC 801 2 Temperature IEC 6...

Page 512: ...Page 512 of 544 NTAK20 clock controller 553 3011 100 Standard 14 00 January 2002 ...

Page 513: ...cs Overview 514 Features and functions 514 Physical description 514 Faceplate LEDs 515 Power consumption 515 Functional description 515 Microprocessors 515 DMA controller 515 Random Access Memory RAM 515 Read Only Memory ROM 516 LAPD Data Link Asynchronous Controller 516 Counter Timer controller 516 Software interface circuit 516 DPNSS DCHI Port 516 D Port SDTI PRI interface 517 ...

Page 514: ...ncluded for LAPD implementation at DCH system parameters are service changeable system parameters are downloaded from software incoming Layer 3 message validation procedures are implemented in the D PORT firmware supported message units and information elements may be service changed translation of the CCITT message types information elements into a proprietary coding scheme for faster CPU operati...

Page 515: ...of serial ports and software reports the status of each port and takes commands from software to control the activities of the ports The microprocessors also do some of D channel data processing in DCHI mode DMA controller A Z80A DMA chip controls the data transfer between local RAM memory and communication ports Note that the DMA channels will only be used in the receive direction from line to CP...

Page 516: ...used as real time timers and baud rate generators for each pair of communication ports Software interface circuit This portion of the circuit handles address data bus multiplexing the interchange of data commands and status between the on board processors and software It includes transmit buffer receive buffer command register and status register for each communication channel DPNSS DCHI Port The ...

Page 517: ...n of signals When connected to SDTI PRI DCH PORT is to be DTE SDA SDB Transmit Clock provided by SDTI PRI RTA RTB Receive Clock provided by SDTI PRI RR CS SPDC ready signal provided by DCH PORT TR D PORT ready signal provided by DCH PORT RDA RDB Incoming serial data bit stream driven by SDTI PRI SDA SDB Transmit serial data bit stream driven by DCH PORT ...

Page 518: ...Page 518 of 544 NTAK93 D channel handler interface 553 3011 100 Standard 14 00 January 2002 ...

Page 519: ...iew 520 Features and functions 520 Physical description 520 Functional description 521 Microprocessors 521 Main Memory 522 Shared Memory 522 EPROM Memory 522 Flash EPROM Memory 522 EEPROM Memory 522 Serial Communication Controller 523 Sanity Timer 523 Bus Timer 523 Download Operation 523 System Initialization 523 Card enabling or application enabling 524 Card reset 524 Background audit 524 ...

Page 520: ...des the following features and functions ISDN D channel related protocol Selftest Loopback D channel loadware including management and maintenance LAPD software for data link layer processing Meridian 1 DCH interface layer 3 preprocessor traffic reporting including link capacity Physical description The Downloadable D channel NTBK51 is a daughterboard that mounts on either the NTAK09 1 5 DTI PRI o...

Page 521: ...Flash EPROM memory EEPROM memory Serial communication controller Sanity timer Bus timer Microprocessors One microprocessor handles data transfer between each serial interface and software reports the status of each port and takes commands from software to control the activities of the ports A high performance MPU supports the D channel from the PRI card and other software applications running simu...

Page 522: ...emory Shared Memory The shared memory is the interface between the Option 11C CPU and the 68EC020 MPU This memory is a 16 Kbyte RAM expandable to 64 Kbytes and accessible in either 8 or 16 bits EPROM Memory The Bootstrap code resides in this 27C1000 EPROM and is executed on power up or reset Flash EPROM Memory Flash EPROM provides non volatile storage for the DDCH loadware which will minimize the ...

Page 523: ...he bus timer presents an error signal to the MPU if an attempt to access a device did not receive acknowledgment within the bus time out period of 120 microseconds Download Operation Downloading may be performed in either of two modes background or maintenance Before any downloading can take place a D channel link must be configured The following situations may lead to software downloading during ...

Page 524: ...ent on the DDCH card In order to complete a forced download the following conditions must be met The DDCH card must be enabled The D channel port must be disabled Card reset Following a card reset the MSDL base code and the D channel application software will be validated by the Option 11C CPU Because software is stored in flash EPROM on the DDCH card it does not have to be downloaded However if t...

Page 525: ...d control 528 Card control functions 528 Reference List The following are the references in this section Line Cards Description 553 3001 105 Overview The line side T 1 card is an Intelligent Peripheral Equipment IPE line card that interfaces one T 1 line carrying 24 channels to the Option 11C This card occupies two card slots in the main or expansion cabinets The line side T 1 card can be installe...

Page 526: ... printed on standard circuit board In general the LEDs operate as shown in Table Table 162 NT5D14AA Line Side T 1 Faceplate LEDs Part 1 of 2 LED State Definition STATUS On Red The NT5D14AA card either failed its self test or it hasn t yet been configured in software Off The card is in an active state RED On Red A red alarm has been detected from the T 1 link This includes but is not limited to not...

Page 527: ...gnaling and control Card control functions Microcontroller Card LAN interface Sanity Timer Man Machine Interface MMI MAINT On Red The card detects whether tests are being run or that alarms have been disabled through the Man Machine Interface The LED will remain lit until these conditions are no longer detected Off The line side T 1 card is fully operational Table 163 Power requirements Voltage Cu...

Page 528: ...p The T 1 interface circuit performs the following Provides an industry standard DSX 1 0 to 655 ft 200 meters interface Converts DS 30X signaling protocol into FXO A and B robbed bit signaling protocol Provides switch selectable transmission and reception of T 1 signaling messages over a T 1 link in either loop or ground start mode Signaling and control The line side T 1 card also contains signali...

Page 529: ...e control circuits for administration of channel operation maintenance diagnostics interface with the line card circuit converts on off hook and ringer control messages from the DS 30X loop into A B bit manipulations for each time slot in the T 1 data stream using robbed bit signaling the front panel LED when the card is enabled or disabled by instructions from the NT8D01 controller card Card LAN ...

Page 530: ...lem diagnosis The MMI provides alarm notification T 1 link performance reporting and fault isolation testing The interface is accessed through connections from the I O panel to a terminal or modem The MMI is an optional feature since all T 1 configuration settings are performed through dip switch settings or preconfigured factory default settings For more information on the Line Side T 1 card refe...

Page 531: ...L Application Module Link APL Auxiliary Processor Link ATM Automatic Trunk Maintenance ATTN Attendant Console AUD Audicron AUX Auxiliary AWU Automatic Wakeup BARS Basic Automatic Route Selection BGD Background Terminal BIMP Balance Impedance BIU Bus Interface Unit BKO LD 43 data dump command to copy the customer records in the Primary Flash drive to the PCMCIA device BTU British Thermal Unit BUG S...

Page 532: ...CT Call Forward by Call Type CFNA Call Forward No Answer CMAC ESN Communication Management Center CMS Command and status link CO Central Office COM Component Conf Conference COS Class of Service CPG Console Presentation Group CPND Call Party Name Display CPU Central Processing Unit CSL Command Status Link CTY CDR TTY port CUST Multi Customer DC Direct Current DCH D channel Handler DDCH Downloadabl...

Page 533: ...nhanced Busy Lamp Field EDD LD 43 data dump command to write the customer data in DRAM to the Primary and Backup flash drives on the NTDK20 SSC card EFD External Flexible DN EFTC Enhanced Flexible Tones and Cadences EHOT Enhanced Hot Line EHT External Hunt DN EM4 E M 4 Wire EMI Electromagnetic Interference ESDI Enhanced Serial Data Interface ESN Electronic Switched Network EX4 4 Wire Duplex FCA Fo...

Page 534: ...rk KLS Key Lamp Strings LAPD Link Access Protocol D channel LAPW Limited Access to Overlays LCD Liquid Crystal Display LDR Loop Dial Repeating LED Light Emitting Diode lamp LLC Line Load Control LOP Loop Start LPIB Low Priority Input Buffers LSL Low Speed Link MF Multi Frequency MFC Multifrequency Compelled Signaling MFR Multifrequency Receiver MISP Multi Purpose ISDN Signaling Processor MMI Man M...

Page 535: ...T Outgoing Trunk OHQ Off Hook Queuing OPS Off Premise Station OPTF Advanced Features PBX Private Branch Exchange PCM Pulse Code Modulation PFTU Power Fail Transfer Unit PMSI Property Management System Interface PPM Periodic Pulse Metering PRA Primary Rate Access PRI Primary Rate Interface RAN Recorded Announcement RAM Random Access Memory RMS Room Status ROM Read Only Memory SCC Special Common Car...

Page 536: ...and Digit Switch TIMP Termination Impedance TN Terminal Number TSET Digital Set M3000 Touchphone TTY Teletype UILC U Interface Line Card UPS Uninterrupted Power Supply VAS Value Added Server WATS Wide Area Telephone Service XEM NT8D15 E M Trunk Card XMFC MFE Extended Multi frequency Compelled Multi frequency sender receiver XMFR Extended Multi frequency receiver XUT NTD14 Universal Trunk Card ...

Page 537: ...on Code protected data store 63 B Balance longitudinal 174 BARS protected data store 59 battery backup time calculation 110 BGD Automatic Timed Job protected data store 80 BLF Console Graphics Module 362 Brandline Inserts 316 328 Bus interface CPU to MISP 263 MISP network 263 C Call Park data store 39 Call Registers data store 37 Card slot assignments 103 CardLAN 457 cards DLC Digital Line Card 32...

Page 538: ...DCHI data store 41 Dial intercom protected data store 58 Digital Line Card DLC 266 Digital telephone ports data store 40 Digitone receiver DTR load capacity 121 requirements 99 117 Direct Inward Dial 385 Directory Number DN protected data store 56 DISA protected data store 63 DLC Digital Line Card 320 Downloadable D channel handler 520 DPNSS DCHI Port 516 DTI2 protected data store 82 DTI DLI prote...

Page 539: ... store 41 Intelligent Peripheral Equipment IPE 525 Intermodulation 172 IP Expansion Security device 217 Storage and CPU capacity 13 Transmission losses 177 ISA_SID_MTHPTR fixed memory pointer 70 ISDLC Integrated Services Digital Line Card 320 ISDN BRI protected data store 74 data store 42 PRA protected data store 69 PRI trunk 514 ISL trunk TN table protected data store 70 J jacks and TELADAPT snap...

Page 540: ...feature protected data store 67 N Name Display DMS feature protected data store 84 NARS protected data store 60 NAS protected data store 73 NFCR protected data store 65 Noise Idle Channel 168 Impulse 169 NT1R20 Off Premise Station OPS analog line card 423 NT5D14 Line Side T 1 card 525 530 NT5K21 XMFC MFE card 399 407 NT6D70 SILC line card 415 418 NT6D71 UILC line card 419 421 NT8D02 Digital Line C...

Page 541: ...387 PCM channels 265 Peripheral Equipment shelf 320 Physical I O table protected data store 82 Power Consumption 144 Power Fail Transfer Unit PFTU 202 power requirements for headsets 331 M3820 M3310 M3110 telephones 331 Power supplies 197 204 Pre programmed data 18 benefits 21 Model telephones 19 Numbering plan 20 removing 23 SDI ports 21 Tone and Digit Switch TDS 21 Trunk route data and model tru...

Page 542: ...mber of trunks 97 total system load 102 Provisioning worksheets 90 A Growth forecast 135 B Total load 137 battery current and ac line calculation 153 battery current calculation 154 C system cabinet requirements 138 D unprotected memory calculations 141 E protected memory calculations 142 F equipment summary 143 G system power consumption 144 total system power consumption 151 152 PSDL 457 PVC cab...

Page 543: ...ay Dial Repeating 386 Tone and Digit Switch TDS 21 Tone Detectors protected data store 80 transformers local plug in 332 Transmission parameters 157 distortion 170 frequency response 165 input and balance impedances 166 loss plan 159 return loss 166 transhybrid loss 167 TRUNK BARRING protected data store 72 Trunk block data store 34 44 Trunk routes protected data store 69 TTY block data store 35 U...

Page 544: ...Page 544 of 544 Index 553 3011 100 Standard 14 00 January 2002 ...

Page 545: ......

Page 546: ...CC rules and the radio interference regulations of Industry Canada These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio commu...

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