Aastra NeXspan 50 Installation Manual Download Page 1

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Integrated DECT Service

Installation guide

NeXspan C/S/L/D - NeXspan 50 - NeXspan 500

AMT/PTD/PBX/0020/2/4/EN

01/2007

AASTRA MATRA Telecom

Summary of Contents for NeXspan 50

Page 1: ...Integrated DECT Service Installation guide NeXspan C S L D NeXspan 50 NeXspan 500 AMT PTD PBX 0020 2 4 EN 01 2007 AASTRA MATRA Telecom ...

Page 2: ...Page 2 01 2007 AMT PTD PBX 0020 2 4 EN ...

Page 3: ...ration of the old M6241 DECT base station 31 2 2 5 Configuration of the new M6241 DECT base station 32 2 3 M90x mobile terminals 33 2 3 1 Physical description of an M90x mobile 33 2 3 2 Configuring an M90x mobile terminal 34 2 4 M910 M915 mobile terminals 39 2 4 1 Physical description of an M910 M915 mobile terminal 39 2 4 2 Configuring an M910 M915 mobile terminal 42 2 5 M92x mobile terminals 44 ...

Page 4: ...f RJ45 connectors 74 4 4 2 Switch settings 75 4 4 3 Position of LD4 RJ card 76 4 4 4 Connecting base stations 76 4 5 Factory configuration of the LD4NX ST card with Stocko format 78 4 5 1 Description of the connectors 79 4 5 2 Switch settings 80 4 5 3 Description of the diodes 81 4 5 4 Position of LD4NX ST card 81 4 5 5 Connecting base stations 81 4 6 Factory configuration of the LD4NX RJ card wit...

Page 5: ...7 5 3 5 LDT card layout 107 5 3 6 Connecting the LDT board 108 5 3 7 Distribution frame wiring with cable HG4302A 110 5 3 8 Distribution frame wiring with cable HG4302B 111 5 4 synchronization 112 5 4 1 For a NeXspan 50 equipped with an FPHBG2 back plane as well as CSI and LDT boards 112 5 4 2 For a NeXspan 50 equipped with an FPHBG back plane as well as CSH and LDS LDT cards 114 5 5 LDT LDS card ...

Page 6: ... 136 7 3 Synchronization on M6501 L R RM IP PBX and Succession 6500 Media Gateway with OCT4 OCT4 I 140 7 3 1 Principles of installation 140 7 3 2 Wiring of synchronization ports 141 7 4 synchronization on NeXspan S L D with UCT S UCT L UCT D 142 7 4 1 Principles of installation 142 7 4 2 Wiring examples 144 7 4 3 Wiring of synchronization ports 147 7 5 synchronization on NeXspan 50 with CSI 148 7 ...

Page 7: ...e cards in service 168 9 5 Declaring and putting in service DECT base stations 170 9 5 1 Declaring and defining a base station 170 9 6 Checking the programming 172 9 6 1 Display the base stations 172 9 6 2 Display coverage 172 9 7 Registration and putting in service 173 9 7 1 Declaring a mobile in the PBX 173 9 7 2 Deleting mobiles from the PBX 174 9 7 3 Display mobiles 174 Chapter 10 Programming ...

Page 8: ...iguration 187 11 1 1 Contiguous multi site configuration 187 11 1 2 Non contiguous multi site configuration 188 11 2 Declaring the radio zones on NeXspan 50 NeXspan 500 188 11 3 Programming the DECT parameters 189 11 4 Multi site configuration with OCT4 190 11 5 Multi site configuration with UCT S UCT L IUCT D 192 11 5 1 Simplex mode 192 11 5 2 Duplex mode 194 11 6 Multi site configuration with CS...

Page 9: ...nt principles This chapter describes the deployment method for a given installation i e definition of the radio coverage the number of base stations and the dimensioning of the system Chapter 4 Implementation of hardware on NeXspan C S L D This chapter describes the interface cards to be used in an NeXspan C S L and the wiring layout between the system and the DECT base stations Chapter 5 Implemen...

Page 10: ...ice for NeXspan C S L D Chapter 10 Programming for the NeXspan 50 NeXspan 500 range This chapter describes the programming steps to put in service the integrated DECT service for NeXspan 50 and NeXspan 500 PBXs Chapter 11 Multi site programming This chapter describes the specific programming steps to put in service the integrated DECT service for a multi site network 1 2 Audience This document is ...

Page 11: ...rating manual NeXspan C S L D Volume 1 AMT PTD PBX 0046 5 Operating manual NeXspan C S L D Volume 2 AMT PTD PBX 0052 6 Operating manual NeXspan C S L D Volume 3 AMT PTD PBX 0053 7 Installation manual Clusters boards and terminators NeXspan 50 R4 1 release AMT PTD PBX 0027 8 Installation manual NeXspan 50 R4 1 release AMT PTD PBX 0028 9 Installation manual Clusters boards and terminators NeXspan 50...

Page 12: ...eXspan 500 F6 PBX range comprising NeXspan D XD NeXspan L XL NeXspan S XS and NeXspan C XC FPS Fixed Part Subnumber GAP Generic Access Profile IPEI International Portable Equipment Identity IPUI International Portable User Identity LAL Location Area Level PLL Permanent Logical Link PARI Primary ARI PARK Portable Access Right Key PARK y PARK with PLI y PBX Private Branch eXchange PLI Park Length In...

Page 13: ...a is in free space spherical and centered on the base station A base station must belong to a trunk group in the MMCs Overlapping base stations Base stations with the same radio coverage 3 base stations maximum Each base station manages a certain number of mobiles depending on their distribution Examples case 1 B1 B2 and B3 are remote base stations located 30 to 50 cm from each other They constitu...

Page 14: ...ch other They constitute a single radio area B4 and B5 are base stations each with its own radio area Each time a cordless handset is located at the intersection of these three areas it recognises the five base stations with the same radio level Radio coverage The radio coverage of a site is the area where a cordless handset user must be able to transmit and receive calls Radio coverage can be ind...

Page 15: ...elow 3DH while the CRC is still at 40H the limit of the radio area is reached Example Radio area centre Location of a base station or antenna serving a radio area Radio range The distance between the radio area centre and its perimeter The radio range depends on the environment Trunk group in the DECT sense A group of base stations 8 maximum A trunk group must be associated with a cell Note that t...

Page 16: ...izontal and vertical axes This overlap is required so the roaming and handover phases take place in good radio conditions During deployment you must measure the significant values CRC RSSI of the radio area studied and note them on the site plan These measurements must be taken on the horizontal and vertical axes The six measurements must indicate the following three values the CRC the RSSI and th...

Page 17: ...rsection point These conditions allow you to ensure quality of service for roaming and handover Case of theoretical limits Case of two base stations without handover RSSI Hex 60 Bx base station studied Dn direction chosen 60 50 40 30 30 40 50 3D CRC Err 3D Err CRC Graph of Bx for direction Dn2 RSSI Hex bottom distance Graph of Bx for direction Dn1 BS top right back front storey left 60 0 ou 3D CRC...

Page 18: ...llation Code distributor reference example AASTRA managed by the ETSI FPN FPS Fixed Part Number and Fixed Part Sub number Network user reference AASTRA customer or PBX reference see below managed by AASTRA The PARI is transmitted to the mobiles in encoded format by the base station Figure3 PARI SARI management The SARI Secondary ARI is a secondary ARI number that enhances the PARI The SARI when it...

Page 19: ...obile has access to the entire multi site network Each PBX has the same PARI s Multi site base station access is by a common SARI Access authorization is performed by testing the PARK registered in the mobiles The PARK must correspond to the SARI FOR OTHER MULTI SITE CONFIGURATIONS Please contact AASTRA ask for the pre sales engineer 1 5 4 Constructing the authentication key The User Authenticatio...

Page 20: ...Page 20 01 2007 AMT PTD PBX 0020 2 4 EN ...

Page 21: ...enna diversity a feature that ensures optimal reception quality within the coverage area The number of radio base stations used depends on the size of the coverage area and the level of traffic supported Only after carrying out a site radio survey is the number of base stations determined to ensure complete coverage for each site Connecting a DECT base station to an S0 access voids the possibility...

Page 22: ...ed on any F4 and F6 device The new base station is physically identical to the old M6241 base station Only obsolete components of the electronic card are replaced Table 1 DECT base station references Sealed unit for outdoor base station Installation of base stations outdoors without a sealed unit is prohibited sealed unit reference HR1738A for installing a base station without external antenna sec...

Page 23: ...stations according to PBX type see the corresponding section on Deployment principles and Implementation of hardware Rules for spacing cables relative to interference sources 1 high interference industrial motors inverters rectifiers transformers high voltage power lines etc Tableau 2 Rules for spacing cables relative to interference sources Furthermore intersections with power cables must be set ...

Page 24: ... the support feed the cable through the indented upper part of the base station designed for this purpose Note the DECT base station is a restricted access device Installation and maintenance must only be performed by qualified personnel Old M6241 base station connections The base station is connected to its environment using 4 connectors J1 HE14 connector 5 pins used for a debug console reserved ...

Page 25: ...4 pins are used for connection to the S0 Basic Rate Interface pins 3 to 6 2 pins are used for connection to the synchronization signal pins 1 and 2 for synchronization by 3rd pair Note The RSx pair carries the S0 BRI receive signals from the PBX The ESx pair carries the S0 BRI transmit signals to the PBX J3 6 pin male STOCKO connector J3 parallel wired on the 6 useful pins of the RJ45 connector It...

Page 26: ...ply The base station is powered from the PBX The remote current supplied on the S0 interface card is limited to 100 mA which corresponds to an available supply of 4 W at 40 V or 48 V The base station can be powered locally by an external 220 V AC 40 V DC 6 5 W transformer The jack is built into the card The local power pack is made by the company MASCOT and is a non regulated 220 VAC 42 VDC pack t...

Page 27: ...f this antenna do not add cables between the antenna and the base station The radiating element therefore has to be placed in immediate proximity of the base station Conversely a remote connection must be used for the other two antennas MA431X23 and MA431X24 This must not be detrimental to the radio link Ensure that the length of coaxial cables installed between the base stations and the antenna p...

Page 28: ...tenna extension lead The maximum length of the extension lead is approximately 2 8 meters This extension lead ensures identical performance of the Internal antenna and External antenna configurations when the MA431X23 antenna is used polarisation diversity is not identical The MA431X24 antenna yields a gain of 2 dB more than the Internal antennas Connecting an external antenna Remove cables 2 and ...

Page 29: ...on a repeater must be used to connect the slave base stations to the master base station The master base station must be the base station closest to the distribution frame It is strongly recommended to connect the master base station to the first S0 equipment declared as DECT to cell 0 This means that its RPN is 00 which facilities its subsequent identification and simplifies wiring checks Downloa...

Page 30: ...nidirectional Integrated or external antennas Coverage range from 10 to 30 meters in an office environment and up to 300 meters in an open air environment Base station operating temperature 5 45 C Number of simultaneous calls per base station 4 Base station synchronization Yes Climatic conditions In operation Temperature from 5 to 45 C Relative humidity from 10 to 80 no condensation In storage Tem...

Page 31: ... The base station reset is only activated when the base station or PBX power is on CA1 2 on OFF The base station reset is controlled by level 1 of the S0 interface factory configuration Switches S202 Status Description S202 1 on ON and S202 2 on ON Activation of the adaptation resistors 100 ohms on the S0 pairs CAUTION do not change the factory delivery configuration of S202 and CA1 Status Explana...

Page 32: ...ion resistor on the synchronization pair factory configuration CA1 2 on ON The base station reset is only activated when the base station or PBX power is on CA1 2 on OFF The base station reset is controlled by level 1 of the S0 interface factory configuration Status Explanation Message lamp off The base station is not powered Flashing message lamp ON for 50 ms OFF for 450 ms The synchronization si...

Page 33: ...or more detailed information refer to document 3 see Reference documents on page 11 Specifications Weight 135 grams Dimensions 135 x 58 x 19 mm Autonomy 10 hours talktime 100 hours in standby mode GAP compatibility CTR22 standard Charger wall or mobile unit Display 3 lines x 12 characters with 9 icons Redial redial the last 5 numbers called Call locking pre numbering and automatic off hook Integra...

Page 34: ... under paragraph B If the mobile displays it is already registered on at least one other base 1 Press the Menu key 2 Press the middle key until Select base is displayed 3 Press the Select base key Any base numbers already in use are displayed These numbers must be de registered on the mobile B Register the mobile on a base 1 Press the Menu key 2 Press the middle key until Personalize is displayed ...

Page 35: ...s displayed 3 Press the Personalize key 4 Press the middle key or several times until Declare is displayed 5 Press the Declare key The display shows 6 Press the or key to select the base to be deleted and confirm by pressing the OK key The set displays n base number Press the key yes The set displays 7 Press the OK key without entering code The set displays Stop and restart the mobile by pressing ...

Page 36: ... mode To check the base station range radio areas To check that the handover function is working correctly To check that the clock wiring is correct To check EMC and radio interference When to use DEBUG mode The user complains of Breaks in communication Incorrect operation of the handover function Crackling during a communication Line seizure with UNAVAILABLE The display shows NOT IN RANGE Site co...

Page 37: ...handover in cell XX C2C2 R2R2 RPN and RSSI Indicates second best available base station for handover in cell XX C2C2 R2R2 Indicates that on the next page there are more than 3 base stations in cell XX Use the key to move from one screen to another or one arrow indicates that the mobile terminal is in connected mode two arrows indicate that the mobile terminal is in a handover phase Indicates that ...

Page 38: ...R4 RPN and RSSI Indicates the fourth best available base station for handover in cell XX C5C5 R5R5 RPN and RSSI of all the other base stations seen by the mobile in different cells C6C6 R6R6 RPN and RSSI of all the other base stations seen by the mobile in different cells C7C7 R7R7 RPN and RSSI of all the other base stations seen by the mobile in different cells C8C8 R8R8 RPN and RSSI of all the o...

Page 39: ...rminal Description The M910 M915 mobile terminal comprises a terminal a charging unit an adapter 3 AAA NiMH batteries 2 User Guides in French and English Figure 2 9 View of an M910 mobile terminal For more detailed information on the use of an M910 M915 mobile terminal refer to document 15 see Reference documents on page 11 ...

Page 40: ...French German Spanish Italian Dutch Norwegian Swedish and Portuguese M915 Specifications Weight 150 grams Dimensions 135 x 51 x 29 mm Autonomy 10 hours talktime 100 hours in standby mode Registration of terminal with a maximum of four 4 DECT GAP base stations Display unit LCD 2 lines x 12 characters 1 line for icons Display of status bars battery level and network coverage level Headset connector ...

Page 41: ...AMT PTD PBX 0020 2 4 EN 01 2007 Page 41 Headset for M915 Specifications Plug diameter 2 5mm 32 ohms mini headset reference TC2070A Figure 2 10 View of an M915 mobile terminal ...

Page 42: ...ose the base station compared to the name seized into 5 Note After registering the mobile terminal to change the PBX name and or the Int No use the selection Menu Device OK Save OK Opt Edit enter PBX name OK enter Int No OK Canceling a registration When the mobile terminal is registered on several base stations to cancel the registration on a non selected base station proceed as follows 1 Press th...

Page 43: ...us of the mobile terminal and its ID Master Reset for cancelling the mobile s one and only basic subscription Pin reset used to cancel the mobile s internal information and restore the factory configuration Display Kont for adjusting the LCD contrast Site survey for knowing the radio reception level simplified debug menu Exemple 1004510900 35 dB FE 0 1004510900 RFPI Radio Fixed Part Identity 40 bi...

Page 44: ...graphical display extended directory search and call by name inbound call log outbound call log Additional features quick memories ringer off shortcut masking of the Declare menu mobile terminal access code there are two possible deactivation modes Figure 2 11 View of an M92x mobile terminal The M92x mobile terminal comprises the following items a mobile set with its battery a charger a power supp...

Page 45: ...st 10 numbers called Call locking pre numbering and automatic off hook Integrated directory supporting 100 alphanumerical entries Volume amplification volume control Power 0 25 Watts RSSI characteristics RF level radiated dBm Hex Déc Hex Déc 30 5d 93 67 103 40 5d 93 64 100 50 5b 91 5d 93 60 55 85 56 86 70 4e 78 50 80 80 42 66 42 66 90 37 55 3A 58 95 33 51 36 54 M902 M922 RSSI level displayed RSSI ...

Page 46: ...rinciple is to associate an extended directory memory to each key on the keypad 1 to 9 To quickly start a call from any of these memories just press and hold down the corresponding key until the associated name is displayed then activate the Call command to start dialing a new assignment deletes a previous assignment ringer off shortcut only with the set idle quick activation deactivation of the m...

Page 47: ...ed on at least one other base 1 Press the Menu key 2 Press the middle key until Select base is displayed 3 Press the Select base key Any base numbers already in use are displayed These numbers must be de registered on the mobile B Register the mobile on a base 1 Press the Menu key 2 Enter the installer code 9995 3 Press the middle key or several times until Declare is displayed 4 Press the Declare...

Page 48: ...ay shows 5 Press the or key to select the base to be deleted and confirm by pressing the OK key The set displays n base number Press the key yes The set displays 6 Press the OK key without entering code The set displays Stop and restart the mobile by pressing the C key for a few seconds but not long enough for the display to change Declare base number 1 2 3 4 OK Delete base n no yes Enter code n O...

Page 49: ... interference When to use DEBUG mode The user complains of Breaks in communication Incorrect operation of the handover function Crackling during a communication Line seizure with UNAVAILABLE The display shows NOT IN RANGE Site coverage deployment Using DEBUG mode Mobile idle Press MENU then 76 then press and hold down the key at the top left Mobile engaged in a call Press keys 1 5 9 simultaneously...

Page 50: ...ounter in alarm mode C1C1 R1R1 RPN and RSSI Indicates best available base station for handover in cell XX C2C2 R2R2 RPN and RSSI Indicates second best available base station for handover in cell XX C2C2 R2R2 Indicates that on the next page there are more than 3 base stations in cell XX Use the key to move from one screen to another or one arrow indicates that the mobile terminal is in connected mo...

Page 51: ...station for handover in cell XX C4C4 R4R4 RPN and RSSI Indicates the fourth best available base station for handover in cell XX C5C5 R5R5 RPN and RSSI of all the other base stations seen by the mobile in different cells C6C6 R6R6 RPN and RSSI of all the other base stations seen by the mobile in different cells C7C7 R7R7 RPN and RSSI of all the other base stations seen by the mobile in different ce...

Page 52: ...he RFPI Radio Fixed Part Identity is 40 bits information for example 10 06 F0 FF 4A The first 4 bytes give the device s PARI and the last byte the RPN Radio fixed Part Number The RFPIs of the detected tags are recorded in a table The RFPI display mode is activated by changing to debug mode and by using the directory key to display the RFPI screen The RFPIs are displayed from the most recent to the...

Page 53: ...sed the mobile possesses the PARK y information item containing the first y significant bits of the ARI PARI or SARI used to encode the right of access This information is loaded into the mobile when it registers When a mobile roaming request is made the mobile receives the LAL which allows it to determine whether a roaming change declaration is necessary during reception of a new base station Mob...

Page 54: ...he mobile sends a request to the base station for a transfer If the response is positive the mobile remains synchronized on the base station and continues analysing the signalling control channel It is then locked onto this base station The procedure is similar when a call is set up except that the mobile initiates an external handover mechanism that ensures call continuity during a switch to anot...

Page 55: ... Stocko or RJ45 ADPCM16 48 V supplied by ADS300X 40 base stations 4 channels NeXspan S XS LD4 LD4NX Stocko or RJ45 ADPCM16 48 V supplied by ADS100X 8 base stations 4 channels UCT1 S 48 V supplied by ADS100X 4 base stations 2 channels UCT2 S UCT3 S 48 V supplied by ADS100X 4 base stations 4 channels if UCT2 S or UCT3 S equipped with an ADPCM16 daughter card NeXspan S12 XS12 UCT1S 12 48 V supplied b...

Page 56: ... NeXspan 50 NeXspan 500 The maximum number of DECT mobile terminals is 256 for one CCU PBX S0 interface cards Power Capacity For 1 CCUs LDS ADPCM32 or LDT ADPCM32B 48 V supplied by ADS850 64 base stations 4 channels For 37 CCUs LDS ADPCM32 or LDT ADPCM32B 48 V supplied by ADS850 256 base stations 4 channels per site ...

Page 57: ...stomer In this step gather all the information necessary to determine the coverage areas and the traffic for each area 2 Determining and segmenting the radio coverage area The overall coverage area must be determined and divided into areas The number and size of the areas will depend on the required coverage area the dimensions and physical constraints of the customer s site 3 Determining the numb...

Page 58: ...area covered by each base station Problem areas can also be identified and documented The coverage tool kit can then be used to check the locations indicated on the map and taking into account the traffic requirements a final map can be drawn up Coverage area To a large degree the size of the radio area will depend on the materials used to construct walls ceilings and floors and on the presence of...

Page 59: ...note the differences in respect to the typical radio area size 3 Measure the radio area size on a horizontal plane from the middle floor 4 To measure the radio area size make a call using a mobile and evaluate the communication quality while moving 5 The radio area size can be determined as follows Install a radio base station in the centre of the typical area and power up the demonstration kit Sw...

Page 60: ...h the one mapped In particular check the coverage in problematic areas such as near elevators staircases and the ends of building If there are poor coverage areas try to locate the base stations elsewhere If this does not solve the problem consider the installation of an additional base station Finalising the map When all the base station positions on the map have been checked discuss with the cus...

Page 61: ...total number of mobile DECT users Z number of radio areas in the traffic area m the mobility of users within a given traffic area Mobility is defined for each user based on information provided by the customer during the interview Mobility m may have the following values low mobiles tend to stay within their reference areas medium intermediate high mobiles often stay outside their reference areas ...

Page 62: ...homogeneous area Z Number of radio areas within a homogeneous area m Mobility e Actual or estimated traffic per mobile Note An integrated DECT base station supports 4 radio channels the old base station model supports 2 radio channels m LOW 0 2 MEDIUM 0 5 HIGH 0 8 N Z e 0 04 0 12 0 2 0 04 0 12 0 20 0 04 0 12 0 2 1 1 1 1 1 1 1 1 1 1 1 5 1 1 1 1 1 1 1 1 1 2 1 1 1 1 1 1 1 1 1 2 5 1 1 1 1 1 1 1 1 1 3 ...

Page 63: ...igh traffic 3 The final picture will be Homogenous area 1 Z1 Z4 low traffic area N Z 10 2 5 i e 1 base station per radio area Homogenous area 2 Z2 Z5 medium traffic area N Z 20 2 10 i e 2 base stations per radio area Homogenous area 3 Z3 Z6 Z7 very high traffic area N Z 60 3 20 i e 3 base stations per radio area Homogenous area 1 has one cell cell 0 homogenous area 2 one cell cell 1 homogenous are...

Page 64: ... geographic proximity Maximum number of base stations and therefore radio areas in one cell 8 The recommended maximum is actually 6 to allow for an additional 2 base stations in case the initial number of base stations is not sufficient to handle the required traffic example if the number of mobile users increases or if the environment is modified after installation Figure 3 2 Grouping radio areas...

Page 65: ...ution frame Check the ground connection on the PBX and on the distribution frame s A single ground connection is used Wires used Wiring is carried out using an STP5 cable If you want to recover existing wiring all the shield wires must be connected to the distribution frame which must be grounded The shield wire is connected from the wire on the distribution frame Wiring with quad wire with shield...

Page 66: ...Page 66 01 2007 AMT PTD PBX 0020 2 4 EN ...

Page 67: ...ith the ADPCM16 daughter card Note There are two operating modes on the LD4NX card The LD4N standard operating mode compatible with the previous LD4 card and the LD4X operating mode obtained by removing or plugging the jumper J14 into pins 1 and 2 The LD4X operating mode only compatible as of release R4 1 is used to implement additionnal functions see 4 5 et 4 6 UCT S CPU cards UCT2 S UCT3 S if ne...

Page 68: ...e generates the M bit in the S frame to the base station every 800 ms DECT master base station DECT slave base station or non DECT S0 terminal the interface generates the M bit in the S frame to the base station every 5 ms The slave base station does not use this synchronization it uses only the 800ms clock transmitted by the master base station via the third pair UCT S UCTS 12 and UCT C cards The...

Page 69: ... configuration of the LD4 ST card with Stocko format The black square represents the position of the switch Figure 4 1 Top view of the LD4 ST card J7 J2 40 48 V power J8 Eqt 00 Eqt 01 Eqt 02 Eqt 03 ADPCM J1 ADPCM ADPCM16 16 16 J5 J6 connector connector ...

Page 70: ...Page 70 01 2007 AMT PTD PBX 0020 2 4 EN Figure 4 2 Bottom view of the LD4 ST card ...

Page 71: ...ctory reserved J5 and J6 ADPCM 16 daughter card connection J7 Connection for 2 DECT base stations Interface 2 Pin 5 ED2 Pin 6 NED2 Pin 7 RD2 Pin 8 NRD2 Interface 3 Pin 1 ED3 Pin 2 NED3 Pin 3 RD3 Pin 4 NRD3 J8 Connection for 2 DECT base stations Interface 0 Pin 5 ED0 Pin 6 NED0 Pin 7 RD0 Pin 8 NRD0 Interface 1 Pin 1 ED1 Pin 2 NED1 Pin 3 RD1 Pin 4 NRD1 J9 Not fitted 1 2 A B A B 1 2 3 5 4 1 2 3 5 4 1...

Page 72: ...s connect an external power supply unit to the J2 connector on the LD4 ST card CA2 1 VALH Feature ON Leave set to ON position If the LD4 ST card is fitted in a synchronising slot the ON position allows the PBX to take the ISDN network clock as reference clock In a non synchronising slot CA2 1 has no effect The synchronising positions in an XL cabinet are the locations 1 00 to 1 05 For an XS cabine...

Page 73: ...ase station and an S0 terminal other than the base station on the same card the base station must be powered with 40 V The NeXspan power supply units do not supply ISDN 40 V To supply 40 V to sets and or base stations connect an external power supply unit to the J2 connector on the LD4 ST card Figure 4 3 Connecting a base station to an S0 interface of an LD4 ST card S0 interface link with DECT bas...

Page 74: ...in RJ 45 ports Figure 4 5 Front panel of LD4 RJ card Check that signals match pins Table 6 S0 connector pinout on the LD4 RJ card LINE NO Pin No S3 S2 S1 S0 1 2 3 4 5 6 7 8 M40 V RD3 ED3 NED3 NRD3 P40 V RD2 ED2 NED2 NRD2 RD1 ED1 NED1 NRD1 RD0 ED0 NED0 NRD0 J1 J5 J2 J4 J6 J1 J2 J7 J8 J4 SW1 SW8 SW7 ADAPT SW3 SW4 SW5 SW6 J3 CONSOLE LD4 X T 0 S 0 T 3 S 3 PBX_MATRIX_CARTE_LD4RJ_FAV_01_01 ...

Page 75: ...cription of switches SW3 to SW6 on the LD4 RJ card CA2 1 SWITCH EXPLANATION ON Leave set to ON position If the LD4 RJ card is fitted in a synchronising slot the ON position allows the PBX to take the ISDN network clock as reference clock In a non synchronising slot CA2 1 has no effect The synchronising positions in an XL cabinet are the locations 1 00 to 1 05 For an XS cabinet all positions are sy...

Page 76: ...e same as for the LD4NX card see section 4 6 5 4 4 4 Connecting base stations Each base station is connected to the ISDN S0 BRI of an LD4 RJ card and uses two pairs 1 transmit pair and 1 receive pair Note If there are a DECT base station and an S0 terminal other than the base station on the same card the base station must be powered with 40V The NeXspan power supply units do not supply ISDN 40 V T...

Page 77: ... interface of an LD4 RJ card S0 interface link with DECT base station Table 10 S0 interface link of an LD4 RJ card with a DECT base station LD4 RJ card RJ45 connector Base station RJ45 connector Pin 6 NRD1 Pin 6 Pin 3 RD1 Pin 3 Pin 5 NED1 Pin 5 Pin 4 ED1 Pin 4 DECT base station RJ45 LD4 ...

Page 78: ...additionnal functions the LD4NX ST card in LD4X mode uses the junction assigned to its slot there are no more restrictions concerning card installation rules hardware information of the card can be displayed by MMC an EEPROM is installed on the LD4NX ST card in LD4X mode you can declare up to 10 LD4NX ST cards in LD4X mode on a NeXspan L the remote power supply status of LD4NX ST card S0 accesses ...

Page 79: ...ed J4 HE14 connector 1 x 8 male pins used for loading programmable components On Site reserved for manufacturer not used J5 and J6 Two connectors AMP CMS 2 x 10 female pins hosts an ADPCM16V daughter card Caution The ADPCM8V daughter card is not managed by the LD4NX ST card J7 to J10 Four STOCKO male connectors 4 pins connection of the S0 T0 interfaces Interface 0 on J7 Pin 1 ED0 Pin 2 NED0 Pin 3 ...

Page 80: ... jumpers A jumper positioned on SW5 or SW6 is used to select the 40V or 48V remote mains supply Jumper positioned on SW5 factory position is used to select the 48V power supply Jumper positioned on SW6 is used to select the 40V power supply Note The jumper status of remote supply and synchronization for an LD4NX ST card in LD4X mode can be displayed by MMC menu 3 2 4 ISDN board switches status see...

Page 81: ...s Each base station is connected to the ISDN S0 BRI of an LD4NX ST card and uses two pairs 1 transmit pair and 1 receive pair Note If there are a DECT base station and an S0 terminal other than the base station on the same card the base station must be powered with a 40 V supply Figure 4 8 Connecting a base station to an S0 interface of an LD4NX ST card S0 interface link with DECT base station Tab...

Page 82: ...lowing additionnal functions the LD4NX RJ card in LD4X mode uses the junction assigned to its slot there are no more restrictions concerning card installation rules hardware information of the card can be displayed by MMC an EEPROM is installed on the LD4NX RJ card in LD4X mode you can declare up to 10 LD4NX RJ cards in LD4X mode on a NeXspan L the remote power supply status of LD4NX RJ card S0 ac...

Page 83: ...TIONS CHARACTERISTICS CONTACTS J1 96 pin connector backplane connection J4 HE14 connector 1 x 8 male pins used for loading programmable components On Site reserved for manufacturer not used J5 and J6 Two connectors AMP CMS 2 x 10 female pins hosts an ADPCM16V daughter card Caution the ADPCM8V daughter card is not managed by the LD4NX RJ card console RJ45 8 pin connectors debug console reserved for...

Page 84: ... V or 48 V remote mains supply Jumper positioned on SW5 factory position is used to select the 48 V power supply Jumper positioned on SW6 is used to select the 40 V power supply Note The jumper status of remote supply and synchronization for an LD4NX ST card in LD4X mode can be displayed by MMC menu 3 2 4 ISDN board switches status see Figure 4 18 Jumper J14 is used to select the card s operating ...

Page 85: ...N mode do not exist for LD4NX card in LD4X mode Note The LD4NX RJ card can be hot plugged removed in an operational XL rackable XS or rackable XS12 PBX Layout in a NeXspan L main cabinet only Figure 4 10 Slot numbers on the backplane of an XL switch An LD4 or LD4NX card in LD4N or LD4X mode without ADPCM16 daughter card can be fitted in slots 0X0 to 13 An LD4N card in LD4X mode with ADPCM16 daught...

Page 86: ...sing positions are positions 00 to 05 H0 in position 00 has priority over H1 H2 H3 H4 and H5 which have the same priority Layout in a NeXspan S main cabinet only Figure 7 11 Slot numbers on the backplane of an XS switch An LD4 LD4NX card with or without ADPCM16 daughter card can be fitted in slots 00 01 and 02 Note The three slots are synchronising positions H0 in position 00 has priority over H1 ...

Page 87: ... the base station on the same card the base station must be powered with a 40 V supply Figure 4 13 Connecting a base station to an S0 interface of an LD4NX RJ card S0 interface link with DECT base station Table 20 S0 interface link of an LD4NX RJ card with a DECT base station LD4NX RJ card RJ45 connector Base station RJ45 connector Pin 6 NRD1 Pin 6 Pin 3 RD1 Pin 3 Pin 5 NED1 Pin 5 Pin 4 ED1 Pin 4 ...

Page 88: ...2 third generation card equipped with an ADPCM16 daughter card 4 7 3 S T access of a UCT C card Figure 4 16 Front panel of a UCT C card The UCT C card has four T0 S0 interfaces 4 RJ45 connectors for connecting two 2 channel DECT base stations on UCT1 C first generation card and 4 channel on UCT2 C seconde generation card equipped with an ADPCM16 daughter card RST NMI ALARM REMOTE CONTROL PARALLEL ...

Page 89: ... remote power supply of the S T0 to S T3 accesses one jumper block for each access The jumpers are plugged into connectors J29 and J30 on the front of the UCT S UCTS 12 and UCT C cards The 4 accesses are arranged vertically on the card The one at the bottom is the S T0 access and the one at the top the S T3 access Depending on the position of the jumpers the S T0 to S T3 accesses will be configure...

Page 90: ...Figure 4 17 Configuring remote power supply of S T0 to S T3 accesses PBX_MATRIX_XS_TELEALIM_ACCESS_01_02 J29xx J30xx No remote power supply 48 V Power supply 40 V Power supply option S T3 S T2 S T1 S T0 UCT FRONT PANEL No remote power supply ...

Page 91: ... UCT1S 12 UCT C card or if one base station is connected to one S0 access of an LD4 LD4NX card and another to an integrated S0 access of a first generation UCT1 S UCT1S 12 UCT C card a third pair needs to be wired for synchronization pins 1 and 2 of the base station RJ45 connector see section 4 8 The S0 integrated accesses of seconde generation UCT2 S UCT2S 12 UCT2 C cards and the S0 integrated ac...

Page 92: ...g a point to point cable UCT S UCT C card RJ45 connector Base station RJ45 connector Pin 6 NED1 Pin 5 Pin 3 ED1 Pin 4 Pin 5 NRD1 Pin 6 Pin 4 RD1 Pin 3 RJ45 connector UCT S UCT C card Adaptor connector Base station RJ45 connector Pin 6 NED1 Pin 6 Pin 5 Pin 5 Pin 3 ED1 Pin 3 Pin 4 Pin 4 Pin 5 NRD1 Pin 5 Pin 6 Pin 6 Pin 4 RD1 Pin 4 Pin 3 Pin 3 PBX_MATRIX_XS_UCTS_CONNEXION_DECT_01_01 UCT S T C DECT ba...

Page 93: ...nchronized by a third pair Figure 4 20 Connecting two DECT base stations to S0 accesses of a UCT1 S UCT1S 12 UCT1 C card When one DECT base station is connected to an S0 access of an LD4 LD4NX card and another base station is connected to an integrated S0 access of a first generation UCT1 S UCT1S 12 UCT1 C card a third pair also needs to be wired for synchronization PBX_MATRIX_XS_UCTS_CONNEXION_DE...

Page 94: ...chronization Note Multi site DECT synchronization via third pair is not possible with NeXspan C and NeXspan S12 In a multi site network with several NeXspan cabinets XL XS synchronization is carried out from one or two PBXs declared Master UCT L XL processor card and UCT S cards XS processor card have two RJ45 connectors for DECT synchronization a primary port J7A and a secondary port J7B see the ...

Page 95: ... by adding one or two daughter cards ADPCM32 on LDS and ADPCM32B on LDT An ADPCM32 ADPCM32B card can manage eight 4 channel base stations Note The minimum technical state of the LDS card required to support an ADPCM32 card is HJ4094xN02 5 2 Configuring the LDS card 5 2 1 References and equipment Table 1 References and equipment Designation Reference LDSA 16 T0 S0 interfaces for 2 or 4 channel DECT...

Page 96: ...Address not recognised Fault REA5 Rapid LED flashing Card operational Slow LED flashing Card not operational REA6 Not significant LED off PM LED steady on Card operational LED off Card not operational 5 V Presence of 5 V powering the card Figure 5 1 Front panel of LDS card S0 ANR REA5 REA6 PM 5 V S15 L D S J3 ...

Page 97: ...nts the position of the switch J6 J7 J8 J9 ADPCM32 daughter card equipment J10 J11 J12 J13 equipment of second ADPCM32 daughter card Figure 5 2 Top view of the LDS card C0 0 1 C6 12 13 C2 4 5 C4 8 9 C5 10 11 C3 6 7 C1 2 3 C7 14 15 1 2 ON 2 3 OFF ADPCM32 ADPCM32 power supply 1 2 3 power supply ...

Page 98: ...Page 98 01 2007 AMT PTD PBX 0020 2 4 EN 5 2 4 Equipment on bottom side The black square represents the position of the switch Figure 5 3 Bottom view of the LDS card ...

Page 99: ...ches must be positioned on the same side 1 2 or 2 3 DECT configuration switches Top side CA1 1 ON Master mode CA1 1 OFF Slave mode Bottom side CA2 4 ON no M bit in S frame CA2 4 OFF S frame M bit in service base station synchronization Factory setting The CA2 4 switch must be set to OFF to operate with DECT base stations The CA2 4 switch set to ON enables use in CBT mode transparent B channel for ...

Page 100: ...ck input in the PBX if a T0 interface is synchronising on the LDS card Each group of eight S interfaces must be connected to a complete junction 32 TS on the synchronous bus of the NeXspan 50 The LDSA card thus requires two junctions To synchronize the NeXspan 50 connect the ISDN clock extracted from a T0 access synchronising T0 interface to a 2 048 MHz clock input of the RSU Cards CLX0 CLX1 CLX2 ...

Page 101: ... is used The remote power supply connection requires a PLDS card used to retrieve the 40 V ISDN or the 48 V Subscriber on the back panel The PLDS is positioned as an equipment card cable LAJ LAB etc It is inserted in a slot between the equipment cable and the back panel connector Figure 5 4 Connecting the LDS card PLDS A Carte équipement B F D P J3 P40 M40 M48 P48 FUS DE SECOURS MATRACOM CARTE PLD...

Page 102: ... to select either 40 V or 48 V voltage 48 V as standard unless an S0 interface supplied with remote power is to be configured on the card The remote power is supplied to the LDS card interfaces via the part of the cable terminating with the J4 connector Figure 5 5 Connecting the PLDS card J2 J1 40V 48V For the connection with J4 LDS remote supply cable RQP cable ...

Page 103: ...T NRD6 A12 GREEN ED7 A13 ORANGE NED7 A14 WHITE RD7 C13 PURPLE NRD7 C14 BLUE ED8 B14 ORANGE NED8 B15 YELLOW RD8 B12 PURPLE NRD8 B13 BROWN ED9 B16 ORANGE NED9 A16 BLACK RD9 C15 PURPLE NRD9 C16 RED ED12 B24 ORANGE NED12 B25 BROWN RD12 C23 PURPLE NRD12 C25 BLACK ED13 B26 ORANGE NED13 B27 RED RD13 C26 PURPLE NRD13 C27 GREEN ED10 A17 ORANGE NED10 A18 GREEN RD10 C17 PURPLE NRD10 C19 WHITE ED11 A19 ORANGE...

Page 104: ... channel DECT base stations HJ4758B ADPCM32B Daughter card for managing 8 x 4 channel DECT base stations HJ4402B AVADQ Synchronous bus link plug loop DECT clock recovery is not possible with this plug HR5124B AVLDT Synchronous bus link plug loop DECT clock recovery is possible with FPHBG2 back plane HR5124C PLDS 40V 48V remote power supply card HJ4206A LDTA cable LDTA distribution frame link cable...

Page 105: ...NR Address not recognised Fault REA5 Rapid LED flashing Card operational Slow LED flashing Card operational REA6 Not significant LED off PM LED steady on Card operational LED off Card not operational 5 V Presence of 5 V powering the card Figure 5 9 Front panel of LDT card S0 ANR REA5 REA6 PM 5 V S15 L D T J3 ...

Page 106: ...igure 5 10 Top view of the LDT card J2 0 1 2 3 J1 J2 4 1 2 3 J1 J2 8 1 2 3 J1 J2 12 1 2 3 J1 J2 1 1 2 3 J1 J2 5 1 2 3 J1 J2 9 1 2 3 J1 J2 13 1 2 3 J1 J2 2 1 2 3 J1 J2 6 1 2 3 J1 J2 10 1 2 3 J1 J2 14 1 2 3 J1 J2 3 1 2 3 J1 J2 7 1 2 3 J1 J2 11 1 2 3 J1 J2 15 1 2 3 J1 J4 J12 J1 J1 J11 J8 J7 CA1_1 1 2 3 J2 48 V or 40 V J1 48 V or 40 V CA1 Master Slave Automatic resynchronisation resynchronisation LDS ...

Page 107: ...not possible with this plug or AVLDT plug loop DECT clock recovery is possible with FPHBG2 back plane connected in the front CFX position corresponding to the position of CLX on the LDT card For more detailed information refer to document 12 in the reference documents The LDT card must be connected to a synchronising clock input in the PBX if a T0 interface is synchronising on the LDT card Each gr...

Page 108: ... is used The remote power supply connection requires a PLDS card used to retrieve the 40 V ISDN or the 48 V Subscriber on the back panel The PLDS is positioned as an equipment card cable LAJ LAB etc It is inserted in a slot between the equipment cable and the back panel connector Figure 5 11 connecting the LDT board PLDS A Carte équipement B F D P J3 P40 M40 M48 P48 FUS DE SECOURS MATRACOM CARTE P...

Page 109: ...elect either 40 V or 48 V voltage 48 V as standard unless an S0 interface supplied with remote power is to be configured on the card The remote power is supplied to the LDT card interfaces via the part of the cable terminating with the J4 connector Figure 5 12 Connecting the PLDS card J2 J1 40V 48V For the connection with J4 LDT remote supply cable RQP cable ...

Page 110: ...EU RD4 C09 INCOL NRD4 C10 JAUNE ED5 B10 GRIS NED5 B11 MARRON RD5 C11 INCOL NRD5 C12 NOIR ED2 B05 GRIS NED2 B06 NOIR RD2 C05 INCOL NRD2 C06 ROUGE ED3 A06 GRIS NED3 A07 VERT RD3 C07 INCOL NRD3 C08 BLANC ED6 A09 GRIS NED6 A10 ROUGE RD6 A11 INCOL NRD6 A12 VERT ED7 A13 ORANGE NED7 A14 BLANC RD7 C13 VIOLET NRD7 C14 BLEU ED8 B14 ORANGE NED8 B15 JAUNE RD8 B12 VIOLET NRD8 B13 MARRON ED9 B16 ORANGE NED9 A16...

Page 111: ... 01 02 03 04 05 06 07 08 1G 0G 4G 09 10 11 12 13 14 15 16 5 4 6 3 S0 DECT RJ45 ED0 A02 GRAY NED0 A03 WHITE RD0 C02 TRANSPARENT NRD0 C03 BLUE ED1 B03 GRAY NED1 B04 YELLOW RD1 C04 TRANSPARENT NRD1 A04 BROWN ED4 B08 GRAY NED4 B09 BLUE RD4 C09 TRANSPARENT NRD4 C10 YELLOW ED5 B10 GRAY NED5 B11 BROWN RD5 C11 TRANSPARENT NRD5 C12 BLACK ED2 B05 GRAY NED2 B06 BLACK RD2 C05 TRANSPARENT NRD2 C06 RED ED3 A06 ...

Page 112: ... FPHBG2 back plane Only the LDT cards are used to connect base stations Clusters with LDT cards are equipped with FPD30B or FPT30B back planes These same clusters are fitted with RMH cards ref HJ3773BD03 minimum index for transmitting the DECT clock on the loop for sending the DECT clock The plugs used with the LDT cards are AVLDT plugs ref HR5124C Configuration The DECT base stations must be conf...

Page 113: ...switches CA1 CA3 and CA4 on the CSI card must be configured as follows factory configuration Default configuration factory configuration of switches CA1 CA3 and CA4 on the CSI card CA1 CA3 CA4 ON Binary value ON 0 OFF 1 Figure 5 16 Default configuration factory configuration of switches CA1 CA3 CA4 on the CSI card Distance in meters RET11RET10 RET9 RET8 RET7 RET6 RET5 RET4 RET3 RET2 RET1 RET0 0 à ...

Page 114: ... the one specified for DECT synchronization From this clock the LDS or LDT card sends the DECT time signal M bit to the S interfaces and physically provides three outgoing clocks in V11 differential pairs SYN SYNA and SYNB The other LDS and or LDT cards on the device are configured as slaves The LDS and or LDT cards use the clock received on the SYN pair and regenerate it on the two outbound clock...

Page 115: ...ock SYNBP SYNBN If LDS and or LDT cards are connected in the same PBX it is advisable to use the PCM jumper If LDS and or LDT cards are connected in a multi site network it is advisable to use an L904 cable Figure 5 17 Connecting LDS and or LDT cards in a multi site network 4G SYNP RED SYNN BLUE SYNAP RED SYNAN BLUE SYNBP RED SYNBN BLUE 4G SYNP RED SYNN BLUE SYNAP RED SYNAN BLUE SYNBP RED SYNBN BL...

Page 116: ...ed under enter command prompt with following syntax VPORT ADR aaaa GP xx CLX y with aaaa register I O address xx cluster number y LDT LDS card number 5 5 1 Register content reading of LDT card REGISTER CFG I O Address 5010H NF0 1 new daughter card of signal treatment presents channel 0 7 NF1 1 new daughter card of signal treatment presents channel 8 15 SPH 1 advance or delay superiors at 16 period...

Page 117: ... The reading of this one gives to zero the meter REGISTER RFEN Register RFEN accessible in reading only contains the localization code of the card Its content is the code cabled in back plane that is to say the reverse of the CLX number used for the recognition of the bus system orders I O Address 503CH NADR11 NADR8 Etat des entrées fixant le numéro de la position CLX NA B 0 LDT card equipped with...

Page 118: ... the CLX position number NA B 0 LDS card equipped with 16 interfaces NA B 1 LDS card equipped with 8 interfaces NMASTER 0 master LDS NMASTER 1 slave LDS ABSHDECT 0 LDS card receives a DECT clock in entry for the card configured in slave mode ABSHDECT 1 LDS card does not receives a DECT clock in entry for the card configured in slave mode For the card configured in master mode ABSHDECT 1 by default...

Page 119: ...2 Configuring the LDT card 6 2 1 References and equipment Table 1 References and equipment Note 1 This cable allows to transmit DECT clock 800 ms by the distribution frame Note 2 New LDT cable to use when the synchronization signal is sent via the loop and transmitted to the LDT cards via the back plane Designation Reference LDTA 16 T0 S0 interfaces for 2 or 4 channel DECT base stations HJ4758A LD...

Page 120: ...NR Address not recognised Fault REA5 Rapid LED flashing Card operational Slow LED flashing Card operational REA6 Not significant LED off PM LED steady on Card operational LED off Card not operational 5 V Presence of 5 V powering the card Figure 6 1 Front panel of LDT card S0 ANR REA5 REA6 PM 5 V S15 L D T J3 ...

Page 121: ...igure 6 2 Top view of the LDT card J2 0 1 2 3 J1 J2 4 1 2 3 J1 J2 8 1 2 3 J1 J2 12 1 2 3 J1 J2 1 1 2 3 J1 J2 5 1 2 3 J1 J2 9 1 2 3 J1 J2 13 1 2 3 J1 J2 2 1 2 3 J1 J2 6 1 2 3 J1 J2 10 1 2 3 J1 J2 14 1 2 3 J1 J2 3 1 2 3 J1 J2 7 1 2 3 J1 J2 11 1 2 3 J1 J2 15 1 2 3 J1 J4 J12 J1 J1 J11 J8 J7 CA1_1 1 2 3 J2 48 V or 40 V J1 48 V or 40 V CA1 Master Slave Automatic resynchronisation resynchronisation LDS o...

Page 122: ...ic resynchronization Remote power supply configuration straps J1 set to 1 2 Remote power supply ON J2 set to 1 2 Remote power supply ON J1 set to 2 3 Remote power supply OFF J2 set to 2 3 Remote power supply OFF J1 48 V or 40 V J2 48 V or 40 V The two jumpers must be positioned on the same side 1 2 or 2 3 DECT configuration switches CA1 1 ON Slave mode CA1 1 OFF Master mode ...

Page 123: ...mation refer to document 12 in the reference documents The LDT card must be connected to a synchronising clock input in the PBX if a T0 interface is synchronising on the LDT card Each group of 8 S interfaces must be connected to a complete junction 32 TS on the synchronous bus of the NeXspan 50 The LDTA card thus requires two junctions TOPRAD jumpers allows to recover the DECT synchronization sign...

Page 124: ...f all the clusters that contain LDT cards to which DECT base stations are connected This configuration is set through the switches on the RMH card The signal 800ms will be transmitted to LDT card according to the position of jumper TOPRAD for each position of LDT Figure 6 3 FPS backplane jumpers Make sure you respect the screen printing there is no foolproofing 6 2 9 Connecting the LDT board The L...

Page 125: ...TD PBX 0020 2 4 EN 01 2007 Page 125 Figure 6 4 AHG0013X cable Note New LDT cable must be used if DECT clock 800 ms forwards by the loop case of a PBX equipped with FPS backplane a CSI card and FPG backplane ...

Page 126: ...Page 126 01 2007 AMT PTD PBX 0020 2 4 EN Figure 6 5 HG4302X cable Note This cable allows to transmit DECT clock 800 ms by the distribution frame ...

Page 127: ...10 RED RD6 A11 CLEAR NRD6 A12 GREEN ED7 A13 OR ANG E NED7 A14 WHITE RD7 C13 VIOLET NRD7 C14 BLUE ED8 B14 OR ANG E NED8 B15 JAUN E RD8 B12 VIOLET NRD8 B13 BR OWN ED9 B16 OR ANG E NED9 A16 BLACK RD9 C15 VIOLET NRD9 C16 RED ED12 B24 OR ANG E NED12 B25 MAR RON RD12 C23 VIOLET NRD12 C25 BLACK ED13 B26 OR ANG E NED13 B27 RED RD13 C26 VIOLET NRD13 C27 GREEN ED10 A17 OR ANG E NED10 A18 GREEN RD10 C17 VIOL...

Page 128: ...3 C08 WHITE ED6 A09 GRAY NED6 A10 RED RD6 A11 CLEAR NRD6 A12 GREEN ED7 A13 ORANGE NED7 A14 WHITE RD7 C13 VIOLET NRD7 C14 BLUE ED8 B14 ORANGE NED8 B15 JAUNE RD8 B12 VIOLET NRD8 B13 BROWN ED9 B16 ORANGE NED9 A16 BLACK RD9 C15 VIOLET NRD9 C16 RED ED12 B24 ORANGE NED12 B25 MARRON RD12 C23 VIOLET NRD12 C25 BLACK ED13 B26 ORANGE NED13 B27 RED RD13 C26 VIOLET NRD13 C27 GREEN ED10 A17 ORANGE NED10 A18 GRE...

Page 129: ...minimum index for transmitting the DECT clock on the loop for sending the DECT clock The plugs used with the LDT cards are AVADQ plugs ref HR5124B Jumpers TOPRAD correctly set on the FPS backplane Configuration The DECT base stations must be configured in synchronization mode by the M bit All the LDT cards must be configured as Slaves Master Slave mode can be configured via jumper CA1 1 For co loc...

Page 130: ...switches CA1 CA3 and CA4 on the CSI card must be configured as follows factory configuration Default configuration factory configuration of switches CA1 CA3 and CA4 on the CSI card CA1 CA3 CA4 ON Binary value ON 0 OFF 1 Figure 6 11 Default configuration factory configuration of switches CA1 CA3 CA4 on the CSI card Distance in meters RET11RET10 RET9 RET8 RET7 RET6 RET5 RET4 RET3 RET2 RET1 RET0 0 à ...

Page 131: ...sed under enter command prompt with following syntax VPORT ADR aaaa GP xx CLX y with aaaa register I O address xx cluster number y LDT LDS card number 6 3 15Register content reading of LDT card REGISTER CFG I O Address 5010H NF0 1 new daughter card of signal treatment presents channel 0 7 NF1 1 new daughter card of signal treatment presents channel 8 15 SPH 1 advance or delay superiors at 16 perio...

Page 132: ... The reading of this one gives to zero the meter REGISTER RFEN Register RFEN accessible in reading only contains the localization code of the card Its content is the code cabled in back plane that is to say the reverse of the CLX number used for the recognition of the bus system orders I O Address 503CH NADR11 NADR8 Etat des entrées fixant le numéro de la position CLX NA B 0 LDT card equipped with...

Page 133: ... the CLX position number NA B 0 LDS card equipped with 16 interfaces NA B 1 LDS card equipped with 8 interfaces NMASTER 0 master LDS NMASTER 1 slave LDS ABSHDECT 0 LDS card receives a DECT clock in entry for the card configured in slave mode ABSHDECT 1 LDS card does not receives a DECT clock in entry for the card configured in slave mode For the card configured in master mode ABSHDECT 1 by default...

Page 134: ...Page 134 01 2007 AMT PTD PBX 0020 2 4 EN ...

Page 135: ... not duplicated single CSH CSI CUH or CUS card the clock of the second inter site link must be connected to the same CSH CSI CUH or CUS card as the clock of the first link For a device equipped with an FPHBG2 back plane and CSI LDT card the BCSI board connected to the RHMIC board synchronizes the USB boards in NeXspan 50s to provide a DECT synchronous multisite network offering DECT mobiles the in...

Page 136: ...s mode multisite handover in an F2 and or F4 network is possible provided that bit synchronization 2 048 Mhz clock is carried out by inter site link 7 2 2 Distribution by 3rd pair The base stations of the different sites must be synchronized by wiring a third pair in the following circumstances if the installation has several PBXs not equipped with DECT synchronization ports configuration using in...

Page 137: ...7 slave radio base station 15 slave radio base station 16 slave radio base station 14 REPEATER REP16 MASTER sync 1st repeater MASTER sync 2nd repeater Power supply PN840B unit or 48v input 48v from PBX MASTER Radio base station Radio base station SLAVE MASTER Clock input Radio base station 08 Radio base station 09 Radio base station 10 Radio base station 11 Radio base station 12 Radio base station...

Page 138: ...c 16 to 19 Sync 1 to 8 REPEATER REP 96 Power supply LED 21 point female connector N4 21 point female connector N3 21 point female connector N2 21 point female connector N1 syn E17 Gray syn E23 Gray syn E22 Red syn E21 Black syn E20 Brown syn E19 Yellow syn E18 Blue syn E17 White syn E18 Transparent syn E19 Gray syn E20 Transparent syn E21 Gray syn E22 Transparent syn E23 Gray syn E24 White syn E24...

Page 139: ...SYN E17 GND SYN E17 25 24 SYN E15 SYN 16 SYN E15 23 SYN E14 SYN 16 SYN E14 22 SYN E13 SYN E13 21 SYN E12 SYN E12 21 pin connector range 20 SYN E11 SYN E11 19 SYN E10 EN G2 SYN E10 18 SYN E9 GND SYN E9 17 16 SYN E7 SYN 8 SYN E7 15 SYN E6 SYN 8 SYN E6 14 SYN E5 SYN E5 13 SYN E4 SYN E4 21 pin connector range 12 SYN E3 SYN E3 11 SYN E2 EN G1 SYN E2 10 SYN E1 GND SYN E1 9 8 48 PT SYN M 7 48 MT SYN M 6 ...

Page 140: ...ion port This cable carries the multi frame and bit clocks Figure 7 5 Multi site synchronization with OCT4 OCT4I Each OCT4 OCT4 I card has two synchronization ports RJ45 connectors a secondary port J6 output and a primary port J3 input The secondary port of the master or N slave is connected to the primary port of the first slave or slave N 1 The DECT clocks are transmitted from one PBX to another...

Page 141: ... m Compensation for slave site 1 8x1 50 58 m compensation 100m Compensation for slave site 2 8x2 50 200 266 m compensation 300m Compensation for slave site 3 8x3 50 200 27 301 m compensation 400m Note The maximum cumulative length of the cable must not exceed 1952 m The cumulative length of the cable between a slave N and slave N 2 must not exceed 600 m 7 3 2 Wiring of synchronization ports ISDN s...

Page 142: ...iring Duplex mode two PBXs are configured in Master mode and are capable of supplying the entire multi site network with the DECT synchronization signal One of the two PBXs must be configured via MMC in Priority mode and the other in Not priority mode The PBX configured in Priority mode supplies the DECT synchronization signal If a problem is detected on the Priority Master PBX alarm detected in t...

Page 143: ...t is assumed that the two masters priority and not priority are connected to the PSTN network The priority master supplies the entire multi site network with the synchronization single S EXT S DECT and MST DECT LEDs lit The not priority master and the slaves reeceive the DECT synchronization signal from the priority master S DECT and S EXT LEDs lit on the not priority master and S DECT LED lit gre...

Page 144: ...mode series wiring The two Master PBXs are connected via their primary port The Slave PBXs are connected in series from the secondary ports of the Master PBXs P S ADS300 P S ADS300 Maître Prioritaire Esclave P S ADS300 Esclave P S ADS300 P S ADS300 Esclave Esclave L1 L2 L3 L4 Slave Slave Slave Slave Priority Master P S P S P S P S P S Esclave Esclave Esclave Esclave Maître Prioritaire Maître Non p...

Page 145: ...L3 L4 1745 m The sum of the lengths of the two intermediate sections must be less than 600 meters If the series wiring includes only one Slave the length of the synchronization cable linking the Slave to the Master must likewise be less than 600 meters In the Simplex mode wiring example this gives L1 L2 600 meters L2 L3 600 meters L3 L4 600 meters STP5 cable only must be used for the wiring Star w...

Page 146: ...ronization cables used between the secondary port of the Master and the primary port of the slave Mixed wiring Duplex mode Figure 7 11 Multi site synchronization with UCT L UCT S in Duplex mode mixed wiring Series wiring and star wiring are combined The two Master PBXs are connected via their primary port Their Slave port powers a REP16 module to which a maximum of 16 slave PBXs can be connected T...

Page 147: ...Wiring of synchronization ports Master Slave and Slave Slave Priority Master Not priority Master wiring ISDN straight wiring Tableau 13 Wiring of synchronization ports priority Master not priority Master Signal RJ45 S DECT J7B RJ45 P DECT J7A 1st pair 2 048 MHz clock PHBIT 6 6 NHBIT 3 3 2nd pair DECT 800 ms clock PHDECT 5 5 NHDECT 4 4 Signal Priority Master RJ45 P DECT J7A Not priority Master RJ45...

Page 148: ...CT synchronization and the 2 048 MHz bit synchronization to from another PBX it determines the compensation to make on the DECT clock received according to the distance of the transmitting PBX and retransmits the clocks received to the CSI card The BCSI board has two synchronization ports RJ45 connectors a DECT S secondary port in output and a DECT P primary port in input compatible with those of ...

Page 149: ...type of PBX downstream GAVF1 6 set to ON defines an F1 F6 PBX downstream GAVF1 6 set to OFF defines an F4 PBX downstream Check the configuration of switches CA1 CA3 and CA4 on the CSI card Their configuration must be the same as the factory configuration see mono site synchronization Section 5 4 Check the configuration of switches CA1 CA2 and CA3 on the RMH cards for all clusters see mono site syn...

Page 150: ...us a delay of 0 seconds Check the configuration of switches CA1 CA3 and CA4 on the CSI card Their configuration must be the same as the factory configuration see mono site synchronization Check the configuration of switches CA1 CA2 and CA3 on the RMH cards see mono site synchronization Distance in meters RET 4 RET3 RET2 RET1 RET0 0 à 100 on on on on on 100 à 200 on on on on OFF 200 à 300 on on on ...

Page 151: ...rts The synchronization port on an F4 has a wiring restriction when a repeater is used downstream of an F4 all the PBXs downstream of the repeater must be of the same type F1 F6 or F4 STATE EXPLANATION OFF No BCSI card connected Flashes green BCSI card present but no incoming for a master PBX DECT synchronization signal On steady green Incoming DECT synchronization signal on the BCSI card for a sl...

Page 152: ...onal functions is only compatible on NeXspan S L D with software release R4 1 and above 1 use a repeater if there are more than 5 slave base stations 2 even in an IP multi site network as the IP network is not synchronising the PBXs must be connected by a synchronising inter site link Figure 7 17 F1 F2 or F6 F2 contiguous multi site configuration synchronising inter site link 2 048 MHz clock R S P...

Page 153: ...the distribution frame terminal strip 4G Note F2 has no synchronization ports so for a multisite synchronization between an F2 F4 fitted with FPHBG CSH or an F2 F4 fitted with FPHBG2 CSI BCSI the configuration of the multisite synchronization is the same 1 even in an IP multi site network as the IP network is not synchronising the PBXs must be connected by a synchronising inter site link Figure 7 ...

Page 154: ... J14 jumper on an LD4NX card and used to implement additional functions is only compatible on NeXspan S L D with software release R4 1 and above 1 use a repeater if there are more than 5 slave base stations 2 even in an IP multi site network as the IP network is not synchronising the PBXs must be connected by a synchronising inter site link Figure 7 19 F1 F2 F4 or F6 F2 F4 contiguous multi site co...

Page 155: ...ust be declared master and the other LDS LDT cards slave The master card 800 ms clock SYN outgoing differential signal must be connected to the slave card via the distribution frame terminal strip 4G 1 even in an IP multi site network as the IP network is not synchronising the PBXs must be connected by a synchronising inter site link Figure 7 20 Contiguous multisite F4 F4 with F4 fitted with FPHBG...

Page 156: ...tional functions is only compatible on NeXspan S L D with software release R4 1 and above 1 use a repeater if there are more than 5 slave base stations 2 even in an IP multi site network as the IP network is not synchronising the PBXs must be connected by a synchronising inter site link Figure 7 21 Contiguous multisite F4 F6 or F4 F1 with F4 fitted with FPHBG CSH LDS LDT card synchronising inter s...

Page 157: ...f the DECT base stations are connected to the integrated S0 accesses of a NeXspan S CPU board a third pair is required for synchronization Note The LD4X mode removing the J14 jumper on an LD4NX card and used to implement additional functions is only compatible on NeXspan S L D with software release R4 1 and above Figure 7 22 Contiguous multisite F4 F4 F4 F6 or F4 F1 with F4 fitted with FPHBG2 CSI ...

Page 158: ... stations are connected to the integrated S0 accesses of the NeXspan S CPU card a third pair is required for synchronization Note The LD4X mode removing the J14 jumper on an LD4NX card and used to implement additional functions is only compatible on NeXspan S L D with software release R4 1 and above Note At least OCT4 card equipped on the F1 Figure 7 23 F6 F1 or F6 F6 contiguous multi site configu...

Page 159: ...e integrated S0 accesses of the NeXspan S CPU card a third pair is required for synchronization Note The LD4X mode removing the J14 jumper on an LD4NX card and used to implement additional functions is only compatible on NeXspan L S with software release R4 1 and above Note At least OCT4 card equipped on the F1 Figure 7 24 F6 F6 F6 or F6 F6 F1 contiguous multi site configuration in duplex mode P S...

Page 160: ...Page 160 01 2007 AMT PTD PBX 0020 2 4 EN ...

Page 161: ...n 8 1 Preliminary operations It is advisable to back up the customer configuration before beginning DECT programming Be sure to have the following information available the PARI number deployment information and plans Note The PARI number can be found on the PBX approval label ...

Page 162: ...distribution frame and note the impedance of the wiring base station assembly for the 2 or 3 pairs The values observed must be the same for the transmit and receive pairs The clock pair impedance must be greater than approximately 80 ohms Checking the distances between base stations and the distribution frame Note the observed value of the transmit pair and determine the distance between the base ...

Page 163: ...type data routing menu 2 5 Data management Routes 2 MANAGING TOPOLOGY Declare the cells Declare the DECT parameters 3 MANAGING RESOURCES Name the trunk groups Define a trunk group 4 PUTTING THE DECT SYSTEM IN SERVICE Delete S0 subscribers Put the DECT interface cards in service Put the DECT base stations in service downloading 5 CHECKING THE PROGRAMMING PARAMETERS Display the base stations Display...

Page 164: ...management 9 2 2 DECT parameters MENU 1 8 1 3 Single company management or 1 9 1 3 Multi company management Note For a multisite network additional parameters appear making it possible to define the list of sites on which the mobile terminals will be registered see Chapter 11 WIRELESS TOPOLOGY 1 NAMES OF FIRST CELLS 2 NAMES OF LAST CELLS 3 DECT PARAMETERS NAMES OF FIRST CELLS CELL 0 BUILD A CELL 1...

Page 165: ... CLOCK SYNCHRO this line is used to configure the synchronisation of DECT clocks 3 options Priority master Not priority master Slave Case of a mono site configuration the default value for a site is Priority master the site is assumed to be autonomous Case of a multi site configuration in simpex mode only one PBX is configured in priority master mode and provides the DECT synchronisation signal to...

Page 166: ...ell Cells are associated with trunk groups in two phases the first involves naming the trunk groups these names are chosen by the system installer the second phase involves associating the previously defined trunk groups with the cells declared in the topology menu The above two operations allow you link a trunk group index to the cell WIRELESS RESOURCES 1 TRUNK GROUP NAMES 2 TRUNK GROUP DEFINITIO...

Page 167: ...eclare a DECT trunk group in a cell all base stations in the cell must be out of service The number of base stations in a cell must never exceed 8 9 3 5 Checking the trunk group declaration Check the radio coverage declarations using the Menu 1 8 2 6 Single company management or Menu 1 9 2 6 Multi company management TRUNK GROUP DEFINITION SELECTION BY NAME TG0 TRUNK GROUP DEFINITION TG0 LOCATED IN...

Page 168: ...e declared on the S0 accesses of the various S0 interface cards Depending on previous subscriber registrations all the subscribers declared on these accesses must be checked and if necessary deleted Use Menu 1 1 6 1 Extension directory and Menu 1 1 5 Add Delete Extensions 9 4 3 Putting DECT interface cards in service Use Menu 3 2 1 for putting in service a DECT interface card LD4 LD4NX and Menu 3 ...

Page 169: ... DECT interfaces of the CPU card are in position 0 02 Select IN SERVICE MOTHER BOARD MANAGEMENT MIGRATION UCT HARDWARE VIEW SOFTWARE VIEW XXS CONFIGURATION XXS DIG IN 0 00 IN SERVICE ANAL IN 0 01 IN SERVICE S T0 IN 0 02 IN SERVICE T0 IN 0 03 IN SERVICE PTX IN 0 04 IN SERVICE HSCX IN 0 05 IN SERVICE BVF IN 0 06 IN SERVICE DIGITAL SET 8 8 ANALOG SET 8 8 ONLY T0 ACCESS 2 2 TMS VC5402 TYPE 5402 EXTENS...

Page 170: ... indicates the type of base station 2 or 4 channel BELONGS TO TRUNK GROUP this parameter indicates the name of the PBX trunk group linked to the base station MOBILE RECORDING ALLOWED this parameter must be set to YES during mobile registration if the base station is used for registration When mobile registration is complete enter NO in this field to avoid fraudulent registrations If the mobile reg...

Page 171: ...n the majority of cases enter AUTOMATIC DISTANCE FROM MASTER BS 1 If synchronization is via the M bit the distance is that between the base station and the S0 interface master card 2 If synchronization is external slave base station this option compensates for propagation time due to the distance between the master base station and the slave base station The master base station should be located a...

Page 172: ...ay coverage This menu allows you to display the base stations declared according to the following parameters Location in the PBX Type Status FREE OUT OF SERV LOADING Associated trunk group Cell in which the base station is located MENU 1 8 2 6 Single company management or 1 9 2 6 Multi company management DISPLAY STAT EQUIP NB TYPE STATUS TRUNK GP CELL 0 02 02 00 2 CHAN IN SERVICE TG0 CELL0 1 00 00...

Page 173: ... console and internal calls will receive the busy tone 4 In the TELEPHONY MANAGEMENT menu under EXTENSION DATA it is possible to modify the subscriber s restrictions and features Menu 1 1 1 Extension characteristics Enter the information corresponding the user s profile and restrictions CREATE MOBILE DIRECTORY NUMBER 7542 COMPANY AASTRA DEPARTMENT 115 WIRELESS TYPE DECT REFERENCE CELL DIRECTORY OF...

Page 174: ... 3 Display mobiles MENU 1 8 3 3 single company or 1 9 3 3 multi company Note Subscriber 7552 has been created and is awaiting registration Subscriber 7542 has been deleted DELETE MOBILES FIRST DIRECTORY NUMBER 7542 LAST DIRECTORY NUMBER DELETE DIRECTORY RECORDS NO CONFIRMATION NO DISPLAY MOBILES DIR TYPE REC MODEL PID 7540 DECT YES AFF 12 CAR 7541 DECT YES AFF 12 CAR 7544 DECT YES AFF 12 CAR 7545 ...

Page 175: ...ect COMPANY DEPT or the RESSOC tool this requires a system reload 6 Put the cards in service To position and put into service LDS LDT software variant 23 for LDS and 28 for LDT cards use the MMC XETBLS Caution A 16 interface LDS LDT card can only be fitted as a card with 16 line interfaces it cannot be fitted as an 8 interface card and the two cards are not interchangeable An 8 interface LDS LDT 8...

Page 176: ...l cells The area to which cells belong is always 0 In multi site configuration if the coverage areas overlap you are advised to select different cell numbers for each of the sites see chapter 13 Multi site programming 10 Declare the base stations Use the MMC XBORFA to declare the base stations This MMC is used to associate a trunk group number with a physical equipment interface number and to dete...

Page 177: ...hwhile to back up the configuration Regular backups must be made throughout the progression of the operations 14 After mobile declaration Put the base stations in service one at a time and check that they function correctly The base stations are put in service cell by cell 15 Check overall operation When the mobiles have been put in service check the handover function on all base stations To do th...

Page 178: ...work ID field for local analysis is set to yes ROUTING AND ANALYSIS Obj ROUTING Action Display Routing 0 Type of routing LOCAL TO STANDARD SUBSCR Back up routing for routings Routing used for analysis 902 952 962 Operation performed ROUTING AND ANALYSIS Obj ANALYSIS Action Display Dialing to analyse 902 Analyse COMPLTD Routing 0 Access type OTHER Network ID YES Operation performed ...

Page 179: ...nected The number 999000 is assigned to the first PLL 999001 to the second etc The PLLs are created automatically when the base stations are created TOTAL GROUPS Obj Total groups Action Display Input by subscr NO Subscriber num 019 Total sub group number 4 Reverse charging Denied Company 0 Depart 0 Access rights list Category 7 Close group type CSG Out CUG List 0000000000000001 Inbound 00000000000...

Page 180: ... company department profile Association of a company profile using the MMC XACHMT object COMPANY SERVICE or using the RESSOC tool this requires a system reload In a real multi company configuration associate different profiles for each company department pair SERVICES MANAGEMENT Obj Dept Action Display Sub object RADIO ZONE SERVICE ACCESS Template CCU 2 Zone SERVICE DATA 1 Local center 2 3 Report ...

Page 181: ... the following parameters in the MMC XETBLS action Equipment cluster number 2 to 39 corresponding to the card slot SBL family BOARDS SBL sub family CLX Board Type LDS LDT 32 TS or LDS LDT 64 TS CLX board number 0 to 7 Software variant 23 for LDS and 28 for LDT For the SBL equipment the MMC will only run if the cluster is IN SERVICE or DEACTIVATED The MMC checks the type of LDS LDT card declared 32...

Page 182: ... cell is 8 you are advised to configure only 6 with a view to expansion in order to increase traffic flow It may be necessary to declare several cells The Registration zone is always 0 In multisite configurations if the coverage areas overlap you are advised to select different cell numbers for each of the sites CORDLESS TOPOLOGY Object Cells Action Display Type of cell DECT Cell 3 Registration zo...

Page 183: ...7295 FFFF FFFFh The value of the random number has no significance However in a multi site configuration the number must be identical in all locations where the mobiles are to be registered LLP Radst prefix 4 digits maximum 999 is the default The base stations are connected to the PBX via an S0 Basic Rate Interface One PLL D channel is used for signalling and downloading to the base stations PLL d...

Page 184: ...le and a trunk group number with a cell number This trunk group represents the resources in the cell and is used to associate the cell number with a physical equipment interface TRUNK GROUP AND TRUNKS Object Radstions Tkgp Action Display TRUNK GROUP ACCESS CCU 3 Trunk Gp 0 CHARACTERISTICS Cell 0 Authorized company profiles 0 Operation performed ...

Page 185: ...us IN SERVICE Bus short TS Frame assignment 111111111111 Freq assignment 1111111111 11 0 9 0 Anten choice Automatic Inscript Radio Stat YES Type of RadSt BIT_M Distance master RadSt 0 to 100m TRUNK GROUP AND TRUNKS Obj RadSta Action Display RadStations Access mode TRUNK GRP TRUNK GROUP ACCESS CCU 3 Trunk Gp 0 LIST OF RADIO BASE STATIONS Board type LDS Nr 2 Access 1 Record YES TS frame 111111111111...

Page 186: ...les must declared with cell 0 as the reference cell SYSTEM PARAMETERS Ctrl H Help Object Password Type of password Cordless Registration Action Modify Password Operation Password TELEPHONE SUBSCRIBERS Object Telephone Subscriber Action Display Page 1 SUBSCRIBER IDENTITY Input directory num YES Subscriber num 7780 Site number 2 Answ NO Status Free CCU 2 Card Line Subscriber type Mono user Company 0...

Page 187: ...l the sites Same RANDOM registration number on all the sites Same RS registration number on all the sites Same MOBILE registration password on all the sites Example MMCs for a contiguous multi site configuration Creating a three site configuration with three cells each Site1 Cell 00 associated with trunk group 0 Base stations 00 to 07 Cell 01 1 08 to 0F Cell 02 2 10 to 17 Site 2 Cell 10 associated...

Page 188: ...zones field Zone sub object General field Addr nat F4 2nd byte BF All sites of all centers on NeXspan C S L menu 1 8 1 2 or 1 9 1 2 DECT Parameters parameter search mobiles not registered Create a broadcast list A with all the sites where the DECT is present 11 2 Declaring the radio zones on NeXspan 50 NeXspan 500 MMC XSERVI SERVICES MANAGEMENT Obj Dept Action Display Sub Object GENERAL SERVICE AC...

Page 189: ...d OR IN THE LIST with a broadcast list broadcast list A is the default Program the menu 3 7 2 5 with a list of the remote sites and centres DECT PARAMETERS PARI VALUE 0 999999999 RANDOM VAL RECORDED 86 RS VAL RECORDED 66 DIR BEGINNING ASSIGNED TO PLL 999 SEARCH MOBILES NOT REGISTERED IN THE LOCAL SITE NO OR IN ANOTHER SITE OR IN THE LOCAL CENTER NO OR IN ANOTHER CENTER OR IN THE LIST BROADCAST A C...

Page 190: ... 66 DIR BEGINNING ASSIGNED TO PLL 999 SEARCH MOBILES NOT REGISTERED IN THE LOCAL SITE NO OR IN ANOTHER SITE OR IN THE LOCAL CENTER NO OR IN ANOTHER CENTER OR IN THE LIST BROADCAST A CLOCK SYNCHRON MASTER CURRENT STATE TRANSMITTER NETWK CLK DECT PARAMETERS PARI VALUE 0 999999999 RANDOM VAL RECORDED 86 RS VAL RECORDED 66 DIR BEGINNING ASSIGNED TO PLL 999 SEARCH MOBILES NOT REGISTERED IN THE LOCAL SI...

Page 191: ...or the compensation distance is 100 meters and the maximum value 2000 meters The line CURRENT STATE gives the current state of DECT synchronization The possible states are transmitter transmitter netwk clk transmitter local clk receiver receiver not OK receiver polarity OK and receiver polarity not OK It is thus possible to know whether the clock is taken from the network or the local clock whethe...

Page 192: ...priority Master Note The line CURRENT STATE gives the current state of DECT synchronization The possible states are transmitter transmitter netwk clk transmitter local clk receiver receiver not OK receiver polarity OK and receiver polarity not OK It is thus possible to know whether the clock is taken from the network or the local clock whether a slave site takes its synchronization from the master...

Page 193: ... the section synchronization with UCT L UCT S applied The minimum value for the compensation distance is 100 meters and the maximum value 2000 meters DECT PARAMETERS PARI VALUE 0 999999999 RANDOM VAL RECORDED 86 RS VAL RECORDED 66 DIR BEGINNING ASSIGNED TO PLL 999 SEARCH MOBILES NOT REGISTERED IN THE LOCAL SITE NO OR IN ANOTHER SITE OR IN THE LOCAL CENTER NO OR IN ANOTHER CENTER OR IN THE LIST BRO...

Page 194: ...ransmitter transmitter netwk clk transmitter local clk receiver receiver not OK receiver polarity OK and receiver polarity not OK It is thus possible to know whether the clock is taken from the network or the local clock whether a slave site takes its synchronization from the master or whether it has become transmitter due to a link problem with the master whether the cable polarisation is correct...

Page 195: ... 2000 meters DECT PARAMETERS PARI VALUE 0 999999999 RANDOM VAL RECORDED 86 RS VAL RECORDED 66 DIR BEGINNING ASSIGNED TO PLL 999 SEARCH MOBILES NOT REGISTERED IN THE LOCAL SITE NO OR IN ANOTHER SITE OR IN THE LOCAL CENTER NO OR IN ANOTHER CENTER OR IN THE LIST BROADCAST A CLOCK SYNCHRON NOT PRIORITY MASTER CURRENT STATE RECEIVER DECT PARAMETERS PARI VALUE 0 999999999 RANDOM VAL RECORDED 86 RS VAL R...

Page 196: ...20 2 4 EN 11 6 Multi site configuration with CSI In a multi site configuration with CSI there is no particular MMC programming to be carried out Configuration is manual configuration of switches on BCSI CSI and RMH see section 7 5 2 ...

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