ADC Telecommunications MBSS19 Micro BTS User Manual OEWMBSS19 user
ADC Telecommunications Inc. Micro BTS OEWMBSS19 user
Contents
- 1. Users Manual 1
- 2. Users Manual 2
- 3. Users Manual 3
- 4. Users Manual 4
Users Manual 3
| Download: |  |
| Mirror Download [FCC.gov] | |
| Document ID | 1015457 |
| Application ID | N66RqAkAVX+Ml0t9T8XMrQ== |
| Document Description | Users Manual 3 |
| Short Term Confidential | No |
| Permanent Confidential | No |
| Supercede | No |
| Document Type | User Manual |
| Display Format | Adobe Acrobat PDF - pdf |
| Filesize | 190.18kB (2377235 bits) |
| Date Submitted | 2008-10-15 00:00:00 |
| Date Available | 2008-10-15 00:00:00 |
| Creation Date | 2008-10-04 20:19:31 |
| Producing Software | Acrobat Distiller 7.0.5 for Macintosh |
| Document Lastmod | 2008-10-04 20:20:05 |
| Document Title | OEWMBSS19_user |
| Document Creator | Acrobat: cgpdftops CUPS filter |
| Document Author: | Thomas Cokenias |
AMP-774721 - issue 1 - its/2mm - cheater 2- Installatinn
Figure 2-24 illustrates the pinout far the RJASC to DSUB 120 alrm conversion cable.
Rn 15 ans Jz
ORANGE/WHITE T~RING
WHITE/ORANGE T-TIP
mm
A? -25:120 ohm Conversion Callie
2.6.2 100 OHM T1 CABLES /
For Tl connections. the propc
n individually shielded twisted pair with a nominal
impedance of ltlflohtn +/-5% a e maximum allowable eahle distance depends
directly on the insertion loss of the ct at 7 Hi. The Tl card can accommodate up to 9 dB
ol'cahle loss. When using 22 AWG AB lea 9dB of |(' 5 approximately 2000 feet.
When using Bclden type 9729 twilh ' of fidB per 1000 feet at 772 kHI.) the
maximum cahle distance is approximately 5
Tnhle 2-l4 provides a description of cables rcq i tallation and connection to a TI
netwuilo but not supplied with the Micro BTS. ‘
’ Note: Before connecting TI lines to the Micro BTS. it is assumed th th iry of the lines has been
verified. it is recommended that BER tess be completed to ens e BER is less than 103.
Tattle 2-14: CIISWmEPSIIWIIEi‘I T1 Cahllng
CABLE IUENTITY CABLE NP! CORHESNHDINC CABLE PLUE
T1. 100 ohm Shielded, Twisted. Z—Pair RJ—48C, Male
Note: The number of cables required depends on the ordered cunfigumlion of the Micro BTS.
2.5.3 CONNECTING E1 DR T1 LINES
All E1 ch1 cable muting should be installed per the site survey documentation in conjunction
with the information identified in the GSM Network Implemenlaiion Manual.
Plgn tut unntmtvz mutt Brs Inshlllilnn and enmmlrrtnnlng nutri-
@ zutta, ADC Talecummunlcanuns. Inc.
AncPw-lm -lsslle1 45mm! - chapter 2 - Installation
2.6.4
2.6.4.1
Pin 5: Transmit Tip
Pin 4; Transmt Ring
Fin 2: Receive Tip
Pin 1: Receive Ring
. Using the appropriate customer-supplied cables. connect the Abis interface El and/or T1
cables to the 1052! El orT] provider.
DIRECT CABLING BETWEEN MULTIPLE ULTRAWAVE OR WAVEXPRESS SYSTEMS
This section provides information for cabling between ADC equipment. The external cabling
between your equipment will vary depending on the configuration oillte cable management
assembly of each chassis. This could consist of any combination of BNC. DSUB or RJ-48C
connectors and eitlierEl orTl signaling.
Notes The direct cabling between systems requires crossover cublcs (Tx to Rx. and Rx to Tx), instetd
of the straight-through cabling used wlicn connecting systems tittougit u radio or telephone provider
network.
Using cwss- m: Cabins
wnen co cctt shielded twisted pair crossover cubic between two UltraWAVE or
WAVEXpress systc re routing ortlte pins needs to comply with the cubic mapping shown
in Figure 2-25. T
the shield and dnlln w'
internally grounded l
the cable shield to an in
noetlon tn the front panel
RJ-48C jacks.
cable connector may be ol'the conventional plastic body type with
4 Ie connected to a pigtail to pin 8 (Signal Ground). whit,
uver. a shielded cable plug may also be used. termin ing
hell oflhe RJ-48jack which then milk an electrical con-
ed, Figure 225 provides the pill assignments for the
T1 or E1 Port
Connector
T1 or E1 Port
Connector
in 5: Transmit Tip
Pin 4: Transmit Ring
Fin 2: Receive Tip
Fin 1: Receive Ring
Fin vas
twtmm
Flgllre 2-25: Callie Mapplng ui RJ-wt: crossover Callie
To connect two systems using RJASC cables. connect a crossover cable (see Figure 2725)
from part I of the firs! chassis to port 0 of the second chassis.
ulll-nWAvE Mlcln Ins IlKIlIIItInn and cummtsmllllg Gila: Pay: 51
©2008, ABC Telecommuntcatlons, Inc.
AncP-n-ozt - issue 1 - its/2mm - chapter 2- Illstallattun
2.7
CONNECTING ANTENNAS
The cabinet assembly provides external access to the female N-type connectors for your
external antennas. Your antenna cable should terminate with a 90B N-type lttale connector or
an N-type female to male elbow adapter may be used for a more convenient connection to the
cabinet. Insertion loss for the elbow type of connector is typically between 0.1 and 0.2 dBm.
The antenna cabling for the Micro BTS can be configured in several ways depending on a
number of factors including the number of TRXs‘ number of antennas and use of diversity.
Your site specilie configuration was determined during the network planning stage of
implementation.
Tattle 2-15: Customer-Suppl!“ Adapters and Cabling
IDENYITV DORRESPONDIHE BIBLE PLUE
Antenna cuhlc (one . . N-type, male
Adapter (optional) ' N-lypc Female to N-typc Male
Note: The number of cable
mutt nz
External RF Connectors
Internal RF Connemrs
RF Module Connedms
in the subsequent sections c‘ . . ontieuratitm is detailed from the RF module cnnncctttr to
the internal RF eenneetttr. 'g . ' ustrates the relationship hutwccnl - luee connec-
e internal RF ettnneetrtrt at the itctory and are
(Top 0! Cabinet)
(whn port number)
Figure 2-27: Antenna cahllng lur slandant BTS curltlgurallnns
You will attach an elbow connector and your antenna cable to the external RF connector asso»
ciated with the internal RF connector shown in the appropriate figure
The suhsequent sections identify the cable muting for the different Micro BTS antenna config—
urations that you identified in Chapter I , Unpac g and Configuration Verification. You must
install the antennas such that the general populatl ‘s kept at least 164 incltes from the mailt
beam of the antenna. For more information on the RF radiation properties ofthe UlLraWAVE.
refer to Section 2.7.6,
uttnwnvz mull BTS tnxhlllttnn unit calnmlxstunlng Gunt-
@ 2mm, ADC Telecommunlcattuns, Inc.
AncPwml - lssllel - 05mm - chapter 2 - Insnllanon
Proceed to the appropriale subseclion lo connect your site-specific antenna cable
configuration.
WARNING: All RF cabling mnsr he oornpleled winr lh: chassis powered off end, prefernhly, with the
power cable disconnected fmm the cabinet.
D0 not disoonnecr RF coaxial conneornrs on Ill: ADC equipmenl or anlcnna sysrenis while the rodio
equipmenr is openning. Never plnoe any body psrr over or look into any RF eonneelor while lh: radio
equipmenr is nonsmilnng.
RF signal levels lhnl give rise to hazardous mdjnlion levels also exisl within 111: mnsmincr. power
nmplificrs‘ nssoeinred RF mnlnplerers and nnrenns sysierns.
2.7.1 DMNI1 TRX (01) CONFIGURATION
The Omni l
[we antenna
”1!quch
. 01) configumlion is available as a 15 wall, 25 wall, 40 wall or a 50 wall,
lion, See Table 2- I6.
NUMBER OF
ANTENNA
CDHFIfiUfiATlDII NUMBER
850 MHz
330628
900 MHz
25 orso wan .. fm
250r50 wau(44 47 m
330602
[800 MHz
IS or 40 wall (42 or 46 d
330728
[900 MHz
For the 15 wall. 25 quL 41) wall. 50 wall 0
[5 or 40 Wall (42 or 46 dBm
antennas as shown in Figure 2.27,
UIII'IWAVE mm Ins Imallannn and nummlsulllng Gila:
330702
(01) cnnl'iguralinnh. cnnnccl your
/\
Pagn n:
ozone, ADC Telecommunlcalluns, Inc.
AMP-77472145511“ - us/znna - enamel 2- Installannn
Amenna 1 Antemfi 1
Div Main
Amenna connection
External RF connector zfl fl H g
5 .©.
3: Anton": canllnu 10101 Cnmlquratlnn
FI
2.7.2 UMNI ZTRX (02} CO@AW
The Omni 2 TRX (02) can available as a I5 wall. 25 wall. 40 wall or a 50 wall.
FNEOUEIIBY OIITPUT POWER
850 MHz 25 or 50 wall (44 or 47 dBm)
900 MHz 25 or 50 watt (44 of 47 dBm)
[800 MHz [5 or40wnn(420r46 dBm}
1900 MHz [5 or40wan(420f46 dBm)
For the 15 wan. 25 wall. 40 wall-1nd 50 wall Omni 2 TRX (OZD configurations. connecl your
antennas as shown in Figure 2—28,
Pau- u unnmvz mum BTs Inshillllnn and Cummlmnnlng num-
@ 2mm, ADC Tawecnmmunlcanuns, Inc.
AncP»7Hm - lssuel - 05mm - chapter 2 - Installallon
Anvtenna 1 Anhsnna 1
Main
Antenna connection
External RF oonnecmr
RF modules
mum
Flume 2-29: Inn 10102 configuration
2.7.3 OMNI 3 TRX (03) CONFIGURATI
The Omni 3 TRX (03) configuralion is (on IS wall or a 25 wall. two antenna cnnllg-
umlion. Scc Tahlc 2- I ll.
Table 2-13: (mm 2 TRX 03 Ca V Ill
NUMBER OF
FREQUENCY (lllTWT NWER ANTENNA
550 MHz 25 wan (44 dBm)
900 MHZ 25 walk (44 «film?
1800 MHz |5 wall (42 dBm)
19mm 15 wan(42 dBm)
For both [he 15 watt and 25 wall Omni 3 TRX (03) configumlions. cannecl your antennas as
shown in Figure 2—29.
UIII'IWAVE mm Ins Imallannn and nummlslnllng min Pay: us
©2008, ABC Telecommunlcatluns, lnc.
AMP-77021 - {ssue 1 - us/znns - cheater 2- Irsiallannn
Antenna 1 Antenna |
NM,“ Main Main
connections
External
RF connector fi fi
“WW“?— 0 - 3 .©. 4 -©. 5 .©.
connector
RF "mu“ BlankPaneI
uaA
mm
Flume 2-30: Ante I: 0103 Enmlgulallon
’ Nute: For me Omni 3 TRX (03x a spnlial en!
mbdas is required between amennas,
2.7.4 SECTORIZED THREE TRX (S111) CONFIGURATI
s Nunez: wall. 25 wall. 40 wall or a
2494
The sccmrimd lhmc TRX1SI II) configumlio
50 Wall six nnlenna configumlion. See Figure
Table 2-19: seclwlzed 3 TRX S111 Euntlgnrallan
NUMBER or
FREQUENCY OUTPUT POWER AIITEIIIA CONFIGURATION IIIJMIIER
850 MHz 25 or 50 watt (44 or 47 dBmI 330635
900 MHz 25 or 50 wait (44 or 47 dBm) 330636
1800 MHz I5 or 40 wait (42 or 46 dBm) 330735
1900 MHz 15 or 40 wait (42 or 46 dBm) 330736
Pig: nu umamvz mum BTs Inshlllllnn and enmmlmnnlng num-
@ 2mm, ADC Tmecummunlcanuna Inc.
2.7.5
AncP~77»uz| - issuei - 05mm! - chapter 2 - Installallon
This configuration has three sectors with one TRX per senor. For the 15 wan. 25 watt, 40 watt
and 50 watt configurations. cunnect your anlennas as Shawn in Figure 230.
Antenna 1 Antenna 1 Antenna 2 Antenna 2 Antenna 3 Antanna 3
Div Main Div Main Div Main
Antenna connection
Enemal RF aonn :
. . . . o
' 0
mm
Figure 2-31: Antenna can "J nntlguratlnn
THREE SECTOR SIX TRX (8222) CONFIGUR
The three sector. xix TRX (5222) configuralion is a fit 15 wall. 25 walk 40 Wall or a
50 wall. six antenna configuralion, Sec Tnhlc Z-ZOA
Tattle 2-2“: secwvlzelt G TRX 8222 Buntlgll
NUMBER OF
FREQUENCY OUTPUT POWER ANTENNA CONFIEUHATIDN NUMBER
850 MHz 25 or 50 wall (44 or 47 «1ij 330622
900 MHz 25 or 50 watt (44 or 47 dBm) 330617
1800 MHz 15°F“) watt (42 or46dBm) 330722
1900MH1 l§m40 watt (42 or46dBm) 330717
ulmwm mm 815 Imallannn and nummislnulng mm
Pagn n1
mane, ADC Telecommumcalluns, Inc.
AncP-n-ozt - issue 1 - nsfznnx - chapter 2- listatlattnn
2.7.5
mutt at
This configuration has three sectors with two TRXs in one sector and one TRX in the other
two sectors. For the 15 watt, 25 walls 40 watt and 50 watt S222 configurations. connect your
antennas as shown in Figure 2-31.
Antenna 1 Antenna 1 Antenna 2 Antenna 2 Mlenne 3 Antenna 3
Div Main Div Maln Dlv Main
Antenna connection
External RF oon
Flgure 2-32:Amenna Cihllngl 222 llultrillnn
RF RADIATION HAZARD
As of October 15. 1997‘ all products must address the i
magnetic fields. Refen'inf to OET Bulletin 65. RF ra ration r the 300 » 1500 MHz
range are f / 300 mW/cm for occupational exposure, and mW/cm2 for general popu-
lation exposure (where frequency in MHz). Al the 869 MHz cellular hand these limits are
290 mW/cm2 for occupational exposure. and 058 mW/cm2 for general population exposure.
The UltraWAVE base station may consist of up to six separate transceivers. with each of the
transmitters operating at a maximum output power of +47 dBm (50W) The UltraWAVE base
station transmitters operate in the US. cellular hand of 869 to 894 MHZ.
As the UltraWAV'E is intended to be operated in cellular service, each of its transmitters is typv
ically connected to a 65 , 120 degree sector antenna or omni directional antenna. For the
purpose of [he MPE calculations. it will he assumed that the UlttaWAVE is fully equipped
with six transceivers. and that two different transmitters are used in each 120 degree sector.
For the MPE calculations this would be the worst case radiation levels as the equivalent RF
power of +50 dBm (100 Watt) would be transmitted into a 120 degree sector.
uttnmvt mum hrs Insutlttlnn amt Cummlmnnlng num-
@ znus. ADC Telecommunlcattnns, Int;
ADCP»77-M| - Issue! 415mm! - chapter 2 - Installation
The typical gain of 65 . 120 degree seclur anlenna ' ' the range of +5 to +18 dBi. However,
there is the highesl ERP Iimilalion on the Pan22 requirement which is 500 Wall (57 dBd).
The duly cycle of the transmitter is 10095. Assuming two transmitters are operating into the
same 120 degree sector. a maximum of +47 dBm of RF energy would be transmitted into two
antennas, with total EIRP=61 dBi would be the worsl case.
A)
/\
S4.
/‘
ultrawnvz Mlsm Ins Imallmlnn amt Btu-mummy atla- Pagn an
©2000, ABC Telecommumcallors. Inc.
AncP-77-ozt - tssuet - 05mm - amour 2- Installattnn
Plu- 1tr
RF power density can he eatcututett with the equation: 3 = P * G l4p R2. where s = power
density in mW/cm. P = power input lo the antenna in mW, G = power gain of the antenna, and
R = distance to the center of radiatiun of the antenna in cm. By rearranging this equation, the
relationship between distance (R) and Power Densily (S) can be found.
Remngirtg R = squ tPGIApS). and solving for the maximum limits or2.90 mW/cmz,
and 0.58 rnW/emZ we have:
R(2.90 mw/sz) = sqn (1260000 mW/4p‘2.90) = 186 cm. or 73 inches.
R10.58 mW/cmz) = sqn (1260000 mW/4p*0.58) = 4l6 cm. or l64 inches.
Note: 1,260,000 mW is nut] to mount for lwo 50.000 mW trunsmittsrs operating into each 120
degree secmr.
These results sh
the general po
al the general population RF exposure limits are not exceeded as long as
's kept 164 inches from the feed point or the antenna.
typical installation ns are up on rooftops or masts to get above ground level path
obstructions. Whe
AVE antennas are installed in this manner. the general popula-
tion will be further lha your the antenna, and RF exposure limits will be met.
”0
/\
The propagation c - firislics at 870MHz diclalc a Iinc—of—sight type of RF path. As such.
ultnmvt mum ms lushtlltlnu nnu cummhslnnlng nutttr
0 ms. ADC Tatecammunmm, Int;
AncPJHm - Issuel - nfilznnx - Chaplet 2 - Insullallon
2.8 CONNECTING EXTERNAL ALARMS
The OMC suppons many alarms from the Micro BTS. The exlemal alarms are reflected at the
OMC operator station. and may be used for site alarmsr such as open door, temperature and
battery back—up alarms. These customer defined alarms are sampled every two minutes by
default and will report an alarm when senl by lhe Micm BTS alaxm controller.
Using the details provided in Ihese seclionsr make your connections for external alarm inputs.
’ Note: If you are replacing an existing system wlticit itas exlemul alartns connected directly to tlre pro
eessor card. you may connect your existing R145 alarm cable directly into the ICP processor card alarm
connector. Optionally. you can re-rmm: your existing alarms In tlte UltraWAVE alarm wmlirul block or
add additional external alarms.
ullrawm mm Ins Imallmlnn amt cummlslnllng Gilli- Pay: 11
©znue, ADE Telecommunlcallons. Inc.
ADCP-77-021-lssue1 - nsfznnx - cream 2- Illslallaunll
Idenlllylflq lhe Iermlnal Block
The alarms are processed on lhe alarm inlerface module located on [lie rear of [he Micro
submck assembly. The alarm interface module lms conneclicms for incoming signals from
external alarms and lhe power supplies and an oulgoillg conneclion lo Ihe ICP processor card
through a use type cable. The inlerlaces are shown in Figure 2.32.
Exlernal Alarm
Inleflace
Power Supply
Alarm Interface
Figure 2-33: Alarm Imarlace @
This terminal block provides a plug conncclion for up w chm
supplied willi [he Micm BTS provide a closed loop for Count: a nomlally Open alarm
mechanism, The plug idenlifiers correspond lo llle nla (7ch sum lo the OMC. See
Table 2-21 for Terminal Block pm nssignmenls‘ and see Figure 2—33 for exlerllal alarm cnn»
neclinn details.
cxlcmal alarmsr The plugs
Pin- 72 UlanAVE mull hrs lushllmnn um! Cnmmlltlnnlng num-
@ zuus, ADC Talecnmmurllcanuns, Inc.
ADCP~77~02| - lssuel - 05/2000 - chapter 2 - InstdIIallun
Pln1 Pin2
(signal) (ground)
an EIIIIIIIIIIIIIIIIIIIIIIIIIII
Ideno'fier am an s»: an an an m m 99 Erm Er" an em an
m rt: rm am pm an em 9» am m an we: m we
lwmsm
Flgure 244: customernatlned External Alarm cannectlnlls
«K.
‘1 “a
. t"liturgy: Extamal Alarm Terminal Blncll Pln Asslgnmarlt
PLUG IDENTIFIER - ‘ MUM! ALARM TYPE
EPl , A 7 A Clmomcr definable UllruWAVE Exlcmal Alzlrm I
filo-er definable UllruWAVE External Alarm 2
J‘ ,
9&0” definable UllruWAVE Exlcrnal Alarm 3
P u
Cnflomefiefi‘nuhlc UllruWAVE Exlcmal Alarm 4
Cusl‘ir affinaye'UlnaWAVE Exlemal Alarm 5
Cuslomcr definable aWAVE Exlemal Alann a
‘ v
Cuslomcr definable ”raw/five Exlemal Alarm 7
" <
Cuslomer definable ua WE Exlemal Alarm a
Cusmmer definable UllFaWAye E
Customer definable UllraWAVE mewlam 10
«-
Customer definable UIImWAW'gxlemal Alarm I I
Customer definable UlthAVE Exlemal Alamr 12
Cuslomer definable UltrdWAVE Exlema] Alarm 13
Customer definable UlthAVE Exlemal Alarm I4
Cus|omer definable UltraWAVE Exlema] Alarm 15
Customer definable UlthAVE Exlema] Alarm 16
Customer defmable UlthAVE Exlema] Alarm I7
ultrdWAVE Mlcm Hrs Irmallatlnn arm commlstlnnlng cum Pagn 73
©2008. Am: Telecommllnlcalluns. lrlc.
AncP-77-azt - issue! - 05mm - empty 2- Irstallannn
To connect the external alarm contacts lo the external alarm terminal block:
1 Route theexlema] alarm input cables from the exlemal equipmenl through the cable gland
on the external inlerface to the exlemal alarm mrminal block.
Pin 1
(signal)
Flunro 2-35: Externll Alarm Pluu
2 Usin e mvided in Figure 2-34, connect the normally-open alarm inputs from
the external y‘wl to lhe exlemal alarm plug.
3 Connecl lhe rm lhe terminal block, Nola: the plug identifier and using
Table 2-21 inlor C ralor which alarm code corresponds to the external alarm
that you have just | /’
Caution: Inputs from extemnl alarm: Id nervlly open, When the external contacts close, the
Micro BTS sends an alarm In Ill: OMC.
Pin- 11 unnmvz mun ms lnhlmlnn am! cummlnlnrllng num-
@ znua, ADC Talmmmunlcatlm, Inc.
AncPw-lm -lssue1 - 05mm - chapter 2 - Installation
2.9 MAKING A SERIAL CONNECTION TO THE PROCESSOR CARD
The serial conneclion is used It) cheek lhe sofiware version installed on the processor card,
verify boot parameters and mcmilor lest msulls. An RJ-l l lo RJ- l 1 eubte and an m4 1 to DB-9
adapter is normally used In connecl iiie Cmfl PC lo the ICP con serial port. This hardware is
supplied in the Craft PC Accessuries kit.
An alternative confignmlicm can also be used lo connect the let PC to an ICP serial port.
This configuration requires:
. One ill-45 ta RJ—45 patch cable
- One RJ-AS to DB-D adapter
This adapter is no! inclndcd wilh the Craft PC accessories kit.
See Figure 2- c ICP CON serial porl pin—out.
Flgme 2-36: ICP Serlal I
/‘
) Note: Fermere informalion pertaining to pimulsand cables. pleas i new.
UIII'IWAVE mum Ins Imallallnn and cummlsmlng Gila: Pay: 15
©2008, ABC Telecommunlcatluns, Inc.
ADcP-77-ozt - Issue 1 - ns/znna - chapter 2- Itstallatlnn
2.10 POST INSTALLATION CABLING AND CHECKS
You should ensure that all inlemal and external cabling is correctly connecled.
2.10.1 CONNECTING THE CHASSIS
Before commissioning the equipment, ensiire “ml:
The Abis interface El and/or TI cables are muled lo the Ielephone provider.
The DIP switch settings on the E] or T] lmnk cards are set correctly and ifyon are using
me 75 ohm El trunk card lhnl the ground jumper is in the correct position. Refer to
Section 2.3 for El and/or Tl DIP swilch sellings.
- ThecImssis werislumedofl‘.
- Antenn connected to RF anlenna port conneclors as appropriate.
2.10.2 VERIFYING EXTER BLING
. It is the opcmlor's
ordered, installed d c
ificulionx before on-
‘hili I0 vcn'l'y lhal all intcr-ctrnssis E1 and/or T1 links art:
it twin- lclcphonc pmvidcr according lo ANSI T1 403 spec-
c- sinning is pcn'nnncit,
. The ripcrntnr shrintu also
nvcru 20-minulc period on I
10-8 in better.
40—ch hil crmr FJIIO or Bil Error Rule (BER) lcsls
Figs 7a unnmvz mum ms Ittxhlmlntt Illll Eammllslnnlnu num-
@ 2mm, ADC Telecommurtlcattuns. Inc.
AncP-n-lm - Issm 1 4150008 - cnamr 3 - mfllnn commlsslnnlng
CHAPTER 3 - IlFF-LIIE GOMMISSIGIIIIIG
com-m Plu-
3.1 PRE nFr-LIHE chMIssloulm .......................................................... 71
3.1.1 visual Impmlnm ........... . 71
3.2 off-LINE CBMMISSIGNING of THE menu “S .
slanlng xvnnumn um; 1 ml! n: ............................................... an
cnnnmlng In: tml Pc In II in? Pm on ....... . an
Slnlng up a semi com-din- vla Inn in? Pmommcam saml Pun . . x1
Pony-on [ED 1m: . as
Cnmlgnnnu MM hmmhn ................ .
mm; “a an mum-l mnmfllm m m- m Prmu cm mmm pm
Vlvltylng mm nm-nhnm I'ln m- Mm us Mr Emu-m .....
3.3 An! cAnnll Ilslllfi Mun P: .................................................. in
w - Cumll Somm- v-nlnn am Plltll Lml . an
n. Flash leol umm ........... . 01
Runnln H 709 m-unnm ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, 02
RI] Dhlmfllt‘ , fl!
mmmn . 55
thwllll . fl!
mmlnfilnu so" . u
Elmlln lemlm . 5!
SJ UPGRADING THE MICRO “$80 . fl"!
ultrawnvz Mlm Ins IMIIIflInn am Ian-mummy mm- Pagn 15
©2008. ADE Talawmmunlmnors. Inc.
AncP-n-ozl - issue 1 - nsfznnx - shearer 3- oil-Lina Dimimlsslnlllllg
3.5 Pns‘r EFF-LINE mmlsslmllm ........
3.5.1 m im-L n corn-inclining Flinn-m I In shul
:. .2 ml lm—L - cmnmlslnnm Flinn-m nl-slu . .
The off-line commissioning pmcess includes [he following steps:
. Pre off-line commissioning. where you ensure llml Ihe syslem is in an appropriate suite.
This includes:
. Visual inspecri
. Compliance checks
. Slanup verificnlion. where you verify ilrai llle sysrern bocls up correcrly by observing inc
LEDs on the from panel.
. cinrr PC rc herc you use lhe Cmfl PC lo verily lhe soriwore configumiiou and run
tests.
. Post o -linc oniug. whcrc you prepare lhc syslcln for on-linc commissioning.
The rest or iiris chz‘ s delailcd inslrucliuns ror lhcsc sreps.
WARNING: Under
complies wirir in: limiu for
Communicarionn Commirriorr (
so lhnl under normnl worlnng cond’
when compared wiiir rire perrn '
sures of America by ANSI/[BEE C95,I
Exposure lo RF Eleooomagneric Fields‘ 3 k
13; condiliom. ADC Tclccommullicaliens radio equipmenl
ure ro radio frequency (RF) iieiols ndopred by ilre Federal
nency radiation dirocrly from rlre radio is negligible
nrinmus riniiy exposure recommended in rire Uniied
997). siriery Levels wilh Respecr to Human
RF signal levels rnar give rise ro lurzarrlorrr m ario
amplifiers associered RF mulliplexels and anrerma s
e can exisr wilhin rlre unnsmiuer. power
Do not disconnect RF coaxial conneclois on me ADC nicnna syslcms while the radio
equipmenr is operaring. Never place any body pan over or lo RF connecior while ilre radio
equipmeni is iransmi
WARNING: Tire 1355 sorrware used in ilre UliraWAVE Micm BTS is lriglrly complex. Before pro-
ceeding, conrecr Cusrorner Service In verify ilrru you lrnve ilre leiesi available sofrwnre. You musi
have the correci sorrwere CDROM and know ilre curreni peiclr level fur your sufiwarc version before
commissioning me UlireWAVE Micro B'rs, Conlzcl your level 2 suppon represenrerive for addiiional
assistance.
) Norer The ofliline commissioning sreps ere lined in Checklisl 3 , Commissioning Clrecklisr.
Pau- 7a unnmvz mail us Inshlmlnn and Cummlmnnlng Gulfll
a ma, ADC Talecammunlcafluns, Inc.
AucP-nmt ~ Issue 1 41512003 - Chantal 3 - DlHulmz commlsslnntng
3.1 PRE OFF-LINE COMMISSIONING
The following sections must be compleled before doing the off-line commissioning. The
off-line commissioning of the Micro BTS must take place on.site after installation. It is critical
that all RF connections have been completed before proceeding with the off-line
commissioning.
3.1.1 VISUAL INSPECTIONS
Complete the following inspections to ensure that the system is ready for off-line
commissioning.
3.1.1.1 On-Slls Vlsual Inspacllon
If you are doi visual inspection on-site‘ check that:
. The 55 en securely installed al the appropriate site,
~ The chassis pplics an: OFF,
. The chassis is co®lo n uilablc power source.
. Puwcr supply fun, it n ' fid INPUT LEDs an: illuminated,
The chats ‘ "
RF transmission cahlcs arc connected to ante
3.1.1.2 camnllance and Power Checks /
Cross-check with the site specific data to ensure that he ' TS is correctly config-
ured with all cards and modules.
Ensure that you have access to Checklist z —Ins|al|a1i0n Checklist and that all serial
numbers orall cards are listed tlrere s should have been completed in Chapter 1 .
Unpacking and Configuration Verification.
Verify that any test equipment to be used has a current calibration cenificate.
Verify that the voltage for the installation site match those of the chassis power supply
modules (either 230 VAC. [10 VAC. or 48 VDC. as specified on the from panel).
IJIIraWAIlE Mlcm Ins Irmallatlnu autt cummlslttrtlug Glitt- Pagtt 11
©2008, ABC Telecommunlcatlons. Inc.
AMP-770214554101 - (15mm - clunky 3- all-um Cnmmlsslnnlng
3.1.1.3 Lahellng and nlsmnnemng cables
1 Verify am all El orTl cables connecled m the chassis are properly labeled.
2 Discannecl all El or T1 cables from lhe lap oflhe cabinet if there are any cables
connected.
A)
/\
S4.
/\
Plgn 15 lmnlevE mm: ms Inhlmlnn and cummlsxlnnlng num-
@ zuua, ADC Telecommunlcanms. Inc.
AncP-n-Mi - Isslll 1 45mm - annular 3 - mums commlsslnmng
3.2 OFF-LINE COMMISSIONING OF THE MICRO BTS
The verificalion procedures for off-line commissioning are I'Im on the processor card in the
Micm BTS. Locale Ihe prucessnr card in the Micro BTS subrack assembly as shown in
Figure 3. I.
0 I
”a
N 00
RFModuIes IF:
Pmoessor ‘ _ 3. g, g
E1 orTI Trunk Card
TRX Cam
Clock Module
Flnnre 3-1: [film an s m emnly
m- 1:
UIII'IWAVE Mlsm Ins Imaimlim am cunmlsmlnu mm-
0 2008. ABC Telecommunicatlons. Inc.
AncP-n-ozt - issue 1 - its/2mm - oriental 3- ott-Ltns Dunmtastnntng
3.2.1
3.2.2
3.2.2.1
Plu- an
STARTING XWINDOWS USING THE CRAFT PC
In this chapter. you will use the Craft PC to verify the software configuration and other aspects
of the Micro BTS operation. This section describes how to start the Cmft PC and the Windows
environment while subsequent sections will provide connection, test and verification
procedures.
Note: The following sections describe procedures performed using the Craft PC. For more inforrnetion
pertaining to the use of the Craft PCl please refer to the GSM Cmfi PC Guide. Note that all commands
in bold are those entered by the user.
1 Logitt to your PC as the build user.
2 With your left mouse button‘ double click the Craft PC icon on the desktop or navigate
through the rt menu- -> Programs -> IWV Software -> Craft PC
It you message or il'the XWindows environment does not allow you to create
new i loplhe Craft PC environment by pressing [ALT— F4] and restart the
environnient. ./c‘
The XWindo ®e10cnt now starts
Caution: Before muting set till w In its maximum widrh, This prevents wordwrap.
CONNECTING THE CRAFT PC TO THE I OR CARI)
You will be making two connections from theC -lCP fiproccssor card The first is a
slow- speed serial connection used for checking the installed on the card. ver-
ifying hoot parameters and monitoring test results a faster Ethemct connection
used for opening telncl sessions with the ICP Telnet sc it required for downloading
software to the lCP. The serial and Ethernet connections ate hot ' d to configure and test
the Micro BTS,
Required Hardware
The following hardware is required to connect the Craft PC to the [GP processor card through
an Elhemet and serial connection, Note that this hardware is supplied with the Craft PC:
. One Windows 2000. NT or X? compatible Ethemel pon
. One 3 ureter ( l0 feel) standard RJ—I I patch cable
. one 3 meter ( 10 feet) standard Ethemct crossover cable
. One R17“ to 131379 adapter
uttnttlAvE "turn his Inshtlltlnn Illt! Cummlulnnlng tiuttt-
a tuna, ADC Tatecammunlcanuns, Inc.
ADcP-n-tm - Issue | mamas - cnauter 3 » mime cummlssmnlng
3.2.3 SETTING UP A SERIAL CONNECTION VIA THE ICP PROCESSOR CARD SERIAL PORT
1 Connect one end of the RH I patch cable to ICP processor card connector labeled CON.
2 Connect the opposite end of the RH I patch cable to the DB-9 adapter and connect the
DB-9 adapter to the serial port on the back oftlre Craft PC. as shown in the Figure 3-2.
Figure 3.2 shows a physical serial port connection between the Craft PC and the ICP processor
card.
Craft PC computer
RJ-11 Patch
Cable
mam
Flguu 3~Z:cuuuel.1lngthe Cralt PC tn the ICP Serlal Purl
’ Note: In order to establish a serial connection between the Crafi PC and the Micro BTS. there cannot
be an existing telnet or rlogin connection on the Micro BTS. In the case where a user using the Craft PC
tries to establish a connection locally and a user using the OMC tries to establish a connection remotely.
the remote user hits priority access to the Micro BTS over the local user.
UIIHWAVE mm 815 Imallattnn amt nummtsumlng sun Fans 51
©2008, ABC Telecommumcatluns, Inc.
AncP-77-ozt - issue! - usauux - chapter 3- Orr-Linn cummlsslnnlng
' Note: The following section describes pmcedms performed using the Craft PC. For more information
pertaining m the use of the (hr. PC, plus; refer m m: GSM Cnfl PC Guide.
1 If not already done. connect the Craft PC to the Micro BTS as described in Section 3.2 ,
and start Windows on the Cmft PC as described in Section 3.2.1.
2 There are two methods to open a serial connection. You can use Hyper Terminal or open
the serial session in the Craft PC environment.
To use Hyper Terminal:
A LflunChlheapplicalion by navigating: Start: 7> Programs ~> Accessories ~>
Communications -> HyperTerminul
8 Enter craftPc for the connection name and select an icon, Then click the OK button,
The c To dialog box displays. You seleet COMI from the Connect using
dro and click lhe OK button, If you know that your serial port is
C igu a differ-ml purl, select thal pan from this drop-down list.
D TheCOM ro nicsdinlogboxdisplaysSetthefollowingmopeniesandlheuclick
Data bits:
Parity: Hon-
Stop bits: 1
Flow control: Nam
Pau- uz llnnmvt lllwu hrs Inshlmlnn am! cummminulng num-
@ zuus, ADC Tatmmmrmmons, Inc.
Source Exif Data:
File Type : PDF File Type Extension : pdf MIME Type : application/pdf PDF Version : 1.4 Linearized : No Modify Date : 2008:10:04 20:20:05-07:00 Create Date : 2008:10:04 20:19:31-07:00 Title : OEWMBSS19_user Author : Thomas Cokenias Creator : Acrobat: cgpdftops CUPS filter Producer : Acrobat Distiller 7.0.5 for Macintosh Page Count : 25 Mod Date : 2008:10:04 20:20:05-07:00 Creation Date : 2008:10:04 20:19:31-07:00 Metadata Date : 2008:10:04 20:20:05-07:00EXIF Metadata provided by EXIF.tools