SOLiD EVHFUHF RDU MODULE (E-VHF/UHF) User Manual

Download:
Mirror Download [FCC.gov]
Document ID	1397901
Application ID	HHWsdD1Xh9Ts8Cv6J6FA2A==
Document Description	Manual Part 1
Short Term Confidential	No
Permanent Confidential	No
Supercede	No
Document Type	User Manual
Display Format	Adobe Acrobat PDF - pdf
Filesize	220.88kB (2760996 bits)
Date Submitted	2010-12-29 00:00:00
Date Available	2010-12-29 00:00:00
Creation Date	2010-12-14 11:05:48
Producing Software	Acrobat Distiller 7.0.5 (Windows)
Document Lastmod	2010-12-14 11:05:57
Document Title	untitled

Installation and Operation Manual
SMDR-NH124
Document Reference:
Version:
Document Status
Issue Date
Author:
Department
Autho nzmg Manager
v4.0
Release 1
Jan 02, 2009
Kyung Eun Han
R&D DN|5|on Team 3
Youngshln Yeo
Confidennal & Propnetary
11123
REVISION HISTORY
V l 0 Jan 02‘ 2009 Orlglnal
V 2 0 Oct 23 2009 Add RDU(VHF+UHF)
V30 Feb 04 2010 AddADD ON V/UHF ROU
V 4 0 Nov 24 2010 Add RDU E-VHF+UHF
Te chnlcal Support
SOLlD 5erla| numbers must be avallable to authorlze technlcal support and/or to establlsh a
return authonzatmn for defectwe unlts The senal numbers are located on the back of the un|t‘
as well as on the box ln Whlch they were dellvered Addmonal support mformatlon may be
obtalned by accessmg the SOLlD Tehcnology‘ lnc webSlte at WWW st co kr or send email at
5 klm@9t 00 kr
Thls manual lS produced by Global BuSlness D|y|9|on BuSlness Team 1 Pnnted m Korea
Confidenhal & Prophetary
21123
SODLi
r ,
Contents
Section1 Safety 8. Certification Notice. .................................................................. 9
Section System Overview ................................................................................... 11
2.1 General overwew 12
2.2 System overview.... 13
Section? System Specifications ........................................................................... 15
3.1 System specifications 16
3.1.1 Physical Specifications 16
3.1.2 Optic wavelength and Laser power. .17
3.1.3 Environmental specifications . 17
3.1.4 Operating Frequencies range .17
3.1.5 Specifications Per band ........................................................................ 13
Section4 System Configuration and Functions .................................................. 23
4.1 BIU (BTS Interface Unit) .24
4.1.1 Specifications of BIU. .24
4.1.2 Block diagram of BIU 25
4.1.3 BIU parts 25
4.1.4 Function byu t............ .26
4.1.5 Front/rear panels of BIU .31
4.2 ODU (Optic distribution Uni .33
4.2.1 Specifications of ODU 33
4.2.2 Block Diagram of ODU 34
4.2.3 ODU parts .34
4.2.4 Function byu .35
4.2.5 Front/rear panels of ODU 36
4.2.6 Interface with BIU 37
4.3 OEU (Optic Expansion Unl .38
4.3.1 Specifications of OEU .39
4.3.2 Block Diagram of OEU.. .39
4.3.3 OEU parts ,..40
4.3.4 Function byunlt41
4.3.5 Front/rear panels of OEU .43
4.4 ROU (Remote Optic Unit) .44
Confidentlai 8. Propnelary 3/123
SODLi
, ,
4.4.1 Specifications of ROU 45
4.4.2 Block Diagram of ROU . .45
4.4.3 ROU parts .. .46
4.4.4 Function byu .47
4.4.5 Bottom of ROU 52
4.5 Add on VIUHF ROU54
4.5.1 Specifications of AOR .. .54
4.5.2 Block Diagram ofAOR . .55
4.5.3 AOR parts .55
4.5.4 Function bylmlt56
4.5.5 Rear ofAOR57
Sections System installation & Operation ........................................................... GI)
5.1 BIU Installatlon61
5.1.1 BIU Shelf Installation 61
5.1.2 BIU Power Cablmg62
5.1.3 RF Interface at BIU .63
5.1.4 MDBU insertion .67
5.1.5 ODU Interface”. .68
5.1.6 Consumption Power of BIU .................................................................. 70
5.2 ODU Installation .70
5.2.1 ODU Shelflnstalla on .71
5.2.2 ODU Power Cabling... .71
5.2.3 ODU Optic Cabllng71
5.2.4 Insert DOU to ODU 72
.72
5.2.5 Consumption Power of ODU
5.3 ROU Installation .. .73
5.3.1 ROU Enclosure stallat n .73
5.3.2 ROU Power Cabllng77
5.3.3 Optical Cabling ...... 73
5.3.4 GND Terminal Connec on .79
5.3.5 Coaxial cable and Antenna Connection .79
5.3.6 Insertion ofRDU79
5.3.1 Consumption of RDUBQ
5.4 OEU Installation 90
5.4.1 OEU Shelf installa on .90
5.4.2 OEU Power Cabling .90
Confidentlai 8. Propnetary 4/123
SOLiD
, ,
5.4.3 OEU Optic Cabling ................................................................................. 91
5.4.4 Insert DOU to OEU .............. .92
5.4.5 Consumption Power of OEU .92
5.5 ADD ON VIUHF ROU Installation . .93
5.5.1 AOR Enclosure installation ................................................................... 93
5.5.2 AOR Power Cabling ............................................................................... 96
5.5.3 GND Terminal Connection .93
5.5.4 Coaxial cable and Antenna Connec n .99
5.5.5 Consumption Power ofAOR ............... .99
5.5.6 Interface with existing ROU .................................................................. 99
Sectionfi Operation .............................................................................................. 101
6.1 BIU Operation
6.1.1 BIU ........ ..
6.1.2 TX Operation at BIU ............................................................................. 102
6.1.3 RX Operation at BIU ............................................................................. 106
6.1.4 Setting whether to use ROU/OEU at BIU
6.1.5 ODU Operation at BIU...
6.2 ROU Operation ..
6.2.1 ROU Operation ..................................................................................... 110
6.3 OEU Operation
6.3.1 OEU Operat n .
Section? Additive functions ................................................................................ 120
7.1 Shutdown function (TX output shutdown) ............................................... 121
7.2 Total Power Limit function (TX Output ALC) ........................................... 121
7.3 output power automatic setting function (TX Output AGC)
7.4 Input power AGC function (TX Input AGC) ..
7.5 Input power limit function (TX Input ALC) ............................................... 123
7.6 Optic loss compensation .......................................................................... 123
Confidentiai 8. Propnelary 5/123
SODLi
, ,
Contents of Figure
Figure 2.1 — Basic system topology ............................................................... 13
Figure 2.2 — Expansion system topology 14
Figure 4.1 —BIU outer V|ew24
Figure 4.2—BIU mounting diagram 25
Figure 4.3 — MDBU Outer Look2a
Figure 4.4 — MDBU Outer Look29
Figure 4.5 — MCPU Outer Look30
Figure 4.6—MPSU Outer Look31
Figure 4.7 — BIU front panel Outer Look 31
Figure 4.3—Rear panel Outer Look32
Figure 4.9—ODU Outer Look ........................................................................ 33
Figure 4.10—ODU Inner Look34
Figure 4.11 —MDBU Outer Look35
Figure 4.12 — 2Way Divider Outer Look 36
Figure 4.13 — ODU front panel Outer Look .. .36
Figure 4.14—ODU Rear panel Outer Look .................................................... 36
Figure 4.15 — Interface between BIU and ODU .............................................. 37
Figure 4.16—OEU OuterLook. .39
Figure 4.17 - OEU Inner Look ....................................................................... 40
Figure 4.13 — MDBU Outer Look41
Figure4.19—EWDM OuterLook. .41
Figure 4.20 — ECPU Outer Look 42
Figure 4.21— ERFM Outer Look 42
Confidentlal 8. Proprietary 6/123
SODLi
, r
Figure 4.22 — ERFM Outer Look 43
Figure 4.23 — OEU front panel Outer Look43
Figure 4.24 — Rear panel Outer Look44
Figure 4.25 — ROU Outer Look .44
Figure 4.26 — ROU Inner Look46
Figure 4.27 — RDU Outer Look49
Figure 4.23—R OPTIC Outer Look. .50
Figure 4.29 — RCPU Outer Look 50
Figure 4.30 — Multiplexer Outer Look 51
Figure 4.31— ROU Bottom Look. .52
Figure 4.32 -AOR Outer Looks54
Figure 4.33 —AOR Inner Look ........................................................................ 55
Figure 4.34 - RDU Outer Look. .56
Figure 4.35 —AOR Rear Look ........................................................................ 58
Figure 5.1 — RACK Installation 61
Figure 5.2 — GOOPS BDA Interface using Circulator .. .66
Figure 5.3 — BOOPS BDA Interface using Duplexer ........................................ 67
Figure 5.4 — Optical cable of SC/ACP Type 71
Figure 5.5 — How to install ROU ..................................................................... 73
Figure 5.6 — Dimension used to install ROU on the WALL ............................. 74
Figure 5.7 — Optical cable of SCIACP Type 91
Figure 5.3 - How to install AOR ..................................................................... 93
Figure 5.9 — Dimension used to install AOR on the WALL ............................. 93
Figure 5.10 — Installation flow diagram when AOR installs on wall ................94
Confidential 8. Proprietary 7/123
SOLiD
Figure 5.10 — Installation flow diagram when AOR installs in the rack 95
Figure 5410 —AOR which is installed above of ROU .................................... 100
Figure 5.11 —AOR which is installed under of ROU 100
Confidential & Proprietary 8/123
soun
, ,
Section1
Safety & Certification Notice
Confidenhai & Propnetary 9/123
“Only qualified personnel are allowed to handle this unit. Read and obey all the
warning labels attached In this user manual”
Any personnel involved in installation, operation or service of the SOLiD Technology
repeaters must understand and obey the following:
- Obey all general and regional installation and safety regulations relating to work on high
voltage installations, as well as regulations covering correct use of tools and personal
protective equrpment
— The power supply unit in repeaters contains dangerous voltage level, which can cause electric
shock Swrtch the mains off priorto any work in such a repeater Any local regulations are to
be followed when serVicing repeaters
- The repeater cover should be (door) securely fastened in open position, e g by tying it up, at
outdoor work in order to prevent door fi'om slamming due to Wind causing bodily harm or
damage
- Use this unit only for the purpose specrfied by the manufacturer Do not carry out any
modifications or fit any spare parts which are not sold or recommended by the manufacturer
This could cause fires, electric shock or otheriniunes
— Any repeater, including this repeater, Will generate radio signals and thereby give rise to
electromagnetic fields that may be hazardous to the health of any person who is extensively
exposed to the signals at the immediate proximity of the repeater and the repeater antennas
- Due to power dissipation, repeater may reach a very high temperature Do not operate this
unit on or close to flammable materials
- Do not use any solvents, chemicals, or cleaning solutions containing alcohol, ammonia, or
abraSives
- Certification
0 FCC This equipment complies With the applicable sections of Title 47 CFR Parts
15,2224 and 90
0 UlJCUL This equipment complies With UL and CUL 1950—1 Standard for safety for
information technology equipmentincluding electrical business equipment
0 FDA/CDRH This equipment uses a Class 1 LASER according to FDA/CDRH Rules This
product conforms to all applicable standards of 21 CPR Chapter 1, Subchaper J, Part
1040
-For PLUGGABLE EOUlPMENT, the socket-outlet shall be installed near the equipment and
shall be easily accessible
Confidential & Proprietary 10/123
soun
, ,
Section2
System Overview
2.1 General overview
2.2 System overview
Confidenha‘ & Propnetary 17/123
2.1 General overview
SMDR—NH124 is a coverage system for in—huilding sen/ices delivering voice and data in high
quality and for seamlessly
As a distributed antenna system, it provrdes analog and digital phone systems that are served in
multiple bands through one antenna
The system covers general public institutions and private facilities
I Shopping malls
Hotels
Campus areas
Airports
Clinics
Subways
Multi-use stadiums convention centers, etc
The system helps improve in—building radio enVironments in poor condition and make better
poor RSSl and Ec/lo By provrding communication sen/ices at every comer of buildings the
system enables users to make a call at any site of buildings
The system uses both analog (AMPS) and digital (TDMA‘ CDMA and VVCDMA) methods
The SMDR-NH124 system supports communication standards and public interface protocols in
worldwrde use
I Frequencies VHFUHF, 700MHZ‘ SOUMHZ‘SSOMHZ 900MHZ,1900MHZ,2100MHZ, etc
0 Veice protocols AMPSIDMA. CDMACSM‘lDEN‘ etc
0 Data protocols EDGE‘GPRS‘WCDMACDMAZOUOPaging, etc
SMDR—NH124 is in modular structure perfrequency To provrde desired frequency in a building,
all you need to do is to insert a corresponding frequency module into each unit As it delivers
multiple signals With one optical cable‘ the system‘ in one-body type‘ does not require additional
facilities Whenever new frequency is added
The system is featured With the foIIoWing
D F|e>(450 Mm
Weight 5 7 Kg
Full Load
Powerconsumption 27 W ‘
Confidentiai & Proprietary 33/123
4.2.2
4.2.3
—
Confidentla‘ & Propnetary
Block Diagram of ODU
nun-l a:
TM” ' nn
In- N
./’i
ODU parts
nu,
mm: ‘_
mm:
mm ‘F
cliflul- \.--a calf]..-
n-
77 7.“
nnulnl lunmll
Figure 4.10 — ODU Inner Look
34/123
urn-n mm
1mm
tun-nun
tun-nun
ruin-ml
nit-l“.
Inna-Inn
Inna-la!
. m:
No. Unit Description Remark
DOU
ConveriTX RF signals into optical signals.
1 DOU Max Zea
Convert RX optical signals into RF signals
Prowde up to tour optical ports per DOU
2Way Dlvlder
2 ZW Divide TX RF signals into two
Combine two R>< RF signals into one
3 DU
4 Shelf
iSPIN DSUB, Male to female 1pcs
5 Accessories
RF Coa>< RF Port TX RF SIgnaI Interface termlnal
4.2.6 Interface with BIU
Flgure 4.15 —Interface between BIU and DDU
On the top of BIU. up to four ODUs can be stacked
In thIS case, It Is recommended to stack the unItS at least 1U of an InterVaI between BIU‘ for
heat from BIU may cIImb up to ODU‘ Whlch may cause flame.
ConfldenhaI & Propnetary 37/123
As seen in the figure below. connect the coaX|al cable for TX and another coaxial cable for RX
With corresponding ports at the rear of BIU For power supply and communication connect
l5Pin D-Sub Connector cable With a corresponding port.
4.3 OEU (Optic Expansion Unit)
OEU is mainly used to remotely deliver signals for Campus clusters At the upper part, this unit
combines With ODU and receives TX optical signals to convert them into RF signals Then‘ it
regenerates the Signals to secure SIN feature and converts them into optical signals The
Signals are sent to ROU through optical cables When it receives RX optical signals from ROU‘
the unit converts them into RF Signals to regenerate the signals and then converts them into
optical signals to send them to ODU
lri OEU‘ one shelf can be equipped with up to two DOUs The DOU is the same as the module
used for ODU Up to two OEUs can be connected With ODU
—
Confidential & Prophetary 38/123
~ IIIIIIIIIIIIIII'IIIIIIII IIIIIIIIIIIIllIIIIIIIIIIIIIIIlII ~
w". IIIII||||I||||I||I||I|| |||||IIIIIIIIIIIIIIIIIIIIIIIIIII
.. * IIIIIII||I||||I||||||I| |||I|III|II|I|II|II||II||III|III '
"""""”"""“"' ||||||II||I||1|mum|mum
' """""““""““” I||||I_II|||||I||I||I||I|| ‘
7 ‘- ”r _ .
I F-Zfiflfl l
“334 I ................... - I
Figure 4.16 — OEU Outer Look
4.3.1 Specifications of OEU
Itom | Spoc. | Remark
Size 5 4826(19")>< 881(2U)><450 5 mm
Wel ht 9.3 K
I g I g I Full Load
| Powerconsumption 48 W
4.3.2 Block Diagram of OEU
From/To am]
i _=€m
To o/mellwl
Tu n/melltuz
I'D n/mekuua
Tn fimmm
TD/meRlLE
Tu [Fr nmnuua
Tn/mekufl
TD firm-mu
ConfldenhaI & Proprietary 39/123
4.3.3 OEU parts
cllnll- I. ..n|l.
ml]
OFHC Earn
IIHI'V'al
RIP":
mm
iiliiiiw on
II||||I|||IIII|II|||III||IIiIIIIii
. - FM"!
' ' ' ' ‘ r _' in
Figure 4.17 — OEU Inner Look
No. Unlt Descnptlon Remark
Donor Optic Unit
Convert TX RF Signals into optical Signals.
Convert RX optical Signals into RF SignalS. Max Zea
Prowde up to four optical ports per DOU
Expansion Wavelength Division Multiplexer
Convert TX optical Signals into RF Signals.
Convert RX RF Signals into optical Signals.
Compensate for optical cable loss With ODU
Expansion Central Processor Unit
Control and monitoring system statUS
Control and monitonng Witn R8232
Relay state values of ROU to BIU
Expansion Power Supply Unit
Input power DC -48V. Output power 9V. 6\/
Expansion Radio Frequency Module
5 Reg enerate TX Sig naIS and transmit FSK modem SignaIS‘
Regenerate RX Signals and receive FSK modem Signals
6 19" rack, ZU
Confidential & Proprietary 40/123
4.3.4 Function by unit
1) Donor Optic Unit (DDU)
DOU is the same as the module used for ODU
Figure 4.18 - MDBU Outer Look
2) Expansion Wavelength Division Multiplexer(EWDM)
EWDM module makes opticalfelectronlc convelslon of TX Slgnals and makes electronlc—optlcal
cohvers|on of RX slgnals th an FSK modern m H. th|s multlplexer oommumoates Wltn BlU It
also has ATT for optical compensation to compensate for optical cable loss between ODUs
Furthermore, |t has mterhal WDM‘ and so, |t needs only one opt|cal cable to Work W|th ROU
LIJ.
l!!- n- mm M haw
swan lElel-m Wu)
sun-mull m
Figure 4.19 — EWDM Outer Look
3) Expansion Central Processor Unit(ECPU)
ECPU can mqulre and control state of modules to be lnstalled mto OEU Thls unlt
communlcates Wlth upper BIU whlle communlcatlng With lower ROU It also acts as
communlcatmn bndge between BlU and ROU
—
Confidehhal & Propnetary 41/l23
In addition. the unit has res-2320 port for serial communication. which enables inquiry and
control of dewces thomgh PC At the front panel, communication LED indicator indicates
communication state With upper BIU and IowerROU. It also has ALM LED indicatorto show it a
device gets faulty
Figure 4.20 — ECPU Outer Look
4) Expansion Radio Frequency Module(ERFM)
ERFM reconstructs Signal to Neise degraded by optical modules Vimh an intemai FSK modem'
this module communicates with ROU.
J. J.
..-=.u. um-
ul»! Ian-mum m mull]
«Inn-ml low
lunch-hu-
"IT ‘5’
If» R:- 7:11
1111" -
Figure 4.21 — ERFM Outer Look
5) Expansion Power Supply UniMEPSU)
As DC/DC Converter EPSU receives 48V of input and prowdes +9V and +6V of DC power
required for OEU.
Confidennal & Proprietary 42/123
EPSU (EntnlloflPSUl w... .
sunk-m:- ruzu
um
Figure 4.22 —- ERFM Outer Look
4.3.5 Front/rear panels of OEU
1) Front panel
Figure 4.23 — OEU front panel Outer Look
ltem Descrlptlon
1 EWDM LED LED indicatorto check EWDM state to see if it IS abnormal
2 DOU LED LED indicatorto check DOU module state to see if it is abnormal
3 System LED and Reset
Communication state With devroes, atarm status of the system and reset
swrtch
4 NMS(RS-232C port)
RS-ZSZC port for communication and diagnosis of deVices through
PC/Iaptop This equrpment is indoor use and at the communication
Wirings are timited to inside of the buitding
—
Confldehhat & Proprietary 43/123
Figure 424 — Rear panel Duter Look
Item Description
i GND Port Terminal for system ground
2 DC lhput Port Input terminal for DC -48V
3 power SWitch Power ON/OFF sW|tch
4 To/From ODU Optic Port SC/APC optical connector terminal
5 To/From ROU Optic Port SC/APC optical connector terminal‘ use one optical cable per ROU
4.4 ROU (Remote Optic Unit)
ROU receives T>< optical srgnals from ODU or OEU and converts them into RF Signals The
converted RF signals are amplified through High Power Amp in a corresponding RDU‘
combined With Multiplexer module and then radiated to the antenna port
When receiving Rx Signals through the antenna port, this unit filters out-of-band Signals in a
corresponding RDU and sends the results to Remote Optic Module to make electronic-optical
conversion of them Alter converted, the signals are sent to a upper deVice of ODU or OEU
ROU can be equipped With up to three RDUs (Remote Drive Unit) and the module is composed
of maximal Dual Band
“lllilllllln‘l‘
I l U i H
\\\\\\\\\s\\\\\\s\s\\\\
I‘ll- u
Figure 4.25 — ROU Outer Look
Confldenhal & Prophetary 44/l23
ROU ls de5|gned m a cabinet. and prowdes the foilowmg functions and features
4.4.1 Specifications of ROU
Itom Romam
Size(mm) 5 482 6(19')>< 258 mm 5 Inciudlng Bracket
VVeIght 35 45 Kg
Full Load
Powerconsumption 265 W
4.4.2 Block Diagram of ROU
mun/vaun-
n-q‘ngn
‘u‘ 7—D RFRX
¢—~ mum
imam.
Confldenhai & Proprietary 45/123
4.4.3 ROU parts
unumn
Figure 4426 — ROU Inner Look
No. Unlt Descrlptlon Re mam
Remote Drive Unit
Fllter and hwgh amplify TX SlghaIS.
1 RDU+BPF Fllter and ampllfy RX swgnats‘
Remove other slgnals through BPF
BPF ws exotude from VHFtUHF module
Remote Power Supply Unit
tnput power DC-48V‘ Output power 27v‘9v, 6V
2 RPSU
For 120V |hput ofAC/DC,
For-48V Input OfDC/DC
Remote Dptlc
Make RF converswn otT>< optical swgnals‘
3 R—OPT‘C Convert RX RF slgnals lhto optlcal Swghalg‘
compensates optlcat toss
Commumcates wwth BIU/OEU though the FSK modem
Cohfidehtlat & Prophetary 46/123
Remote Central Processor Unit
Controls slgnal of each unlt
Monltors BlU/ODU/OEU status through FSK modem
communlcatlon
4 RCPU
Multiplexer
Cornblne T>< slghals from 3 RDUs‘
Dlstrlbute RX slgnals to 3 RDUS.
Enable you to use a slngle antenna port
5 Multlplexer
Enclosure to satlsfy NEMA4‘
Enable Wall/Rack Mount‘
Check If the system ls normal, through the front panel
LED
6 Enclosure
7 SIU System Interface Unit
Dlstrlbute power and Slgnals of each module
4.4.4 Function by unit
1) Remote Drive Unit (RDU)
When recell/lng TX slgnals fi'om each band through Remote Optlc, RDU fllters the slgnals and
ampllfies them Wlth l-llgh Power Ampltler The unlt also filters RX slghals glveh through
Multlplexer and ampllfles them to send the slgnals to Remote Optlc
ln the unlt‘ there ls ATT to adlust galn RDU deVlces are varled for each frequency band‘
lncludlhgthe followmg
BPF
No Unit naming Description
RX
RDU EUDPS External BPF lrllelrlal EFF
Rouasnc Ema” 5mm
External sprn anus) External sprusuup)
RDU 19DDP+AWSrl
lrllemal BPF(AWS ) lrltelrlal EF’F(AWSl)
External aPanoPs; lnlelnal sprraonpsl
sou SUUFS+SUUI+FA
lrllemal BPF(QDDl+PA) External BFHBUUHPA)
External ammo) External ssrmsucl
RDU ESUC+7UUPS Dual.
lmemal EPFUDDPS) lrltell'lal sprnnupsl
Confidehtlal & Proprietary 47/l23
RDUVHF+UHF _ InlemaIBF‘F(VHF,UHF) ImemalEPFNHF‘UHF)
RDU E-VHF+UHF _ |nlemalBPF(VHF.UHF) IntemalBFFNHF‘UHF)
External spasms) External spasms)
RDU ssncqnnusc
Internal apnmnu EC) Internal EFF(LTEC)
Confldenha‘ & Propnetary 48/123
BSOC+700LTEC 1900P+AWS-1
Figure 4.27 - RDU Outer Look
2) Remote Power Supply Unit (RPSU)
RPSU recelves 48V ofinput This unit ls divided into DC/DC type to output +6V. +9V and +27V
of DC power and AC/DC type to recewe 120V ofAc mput and to output +6V, +9V and +27v of
DC power
Upon order. elther of the two type; should be declded, MS Connector. whlch uses ports to
recewe lhputs, lS demgned to accept any of AC and DC Only |n thls case, the mput cable IS
dlfferentv
RPSU has a cucutt brake to turn the powerON/OFF and has LED |hd|cator at the top to check |f
lhput power IS normally supplled.
4d", 1.1,
m.- w-nv
Confidential & Prophetary 49/123
3) Remote 0ptic(R OPTIC)
Remote Optlc converts optlcal slgnals mto RF s|gna|s and performs Vlce versa Vlfith an FSK
modem ln n, the umt communlcates Wlth upper dewces
It also has |nternal ATT for optlcal compensanon to compensate for optlcal cable loss. If any
4L
1 w
l , £
| l
M'- .
/ a. u,
Flgune 4.28 — R OPTIC Outer Look
4) Remote Central Processor Unit (RCPU)
RCPU can monrtor and control each module of ROU Th|s umt recelves and analyzes upper
communlcation data from Remote Optlc and reports the unlt‘s own value to upper devices At
the from of the module, n has LED mdlcator to show system status, lettmg you check any
abnormalmes at a tlme. At the same front, |t also has communicatlon LED Indlcators to show
communlcauon status W|th upper dewces Through RSZBZC Serlal Port, the unit enables you to
check and control dewce status through PC and laptop. Th|s equlpment |s |ndoor use and all the
communlcation Wirings are Ilmlted to in9|de of the bulldlng
Figure 4.29 - RCPU Outer Look
Confldenhal & Propnetary 50/123
5) Multiplex er
Multtplexer works as a module to comblne or dtstn'bute multlpte 5|gnal5 into one antenna
ThtS devtce has a port to oomblne mutttple stgnals You need to connect mput and output ports
of RDU through a corre5ponding port.
Flgure 4.30 — Multlplexer Outer Look
6) Syste m Interfac 9 Un it(SIU)
Stu dlstnbutes power and stgnals to each module
Confidennat &Propnetary 51/123
4.4.5 Bottom of ROU
1) Functions
Figure 4.31 — RDU Bottom Look
Confldenha‘ & Propnetary 52/123
SOLiD
t i
Item Description Remark
1 VHF/UHF TWRX Port Terminal tor TX and RX antenna ports of VHF and UHF
2 Antenna Port System Antenna Port N-type female
3 Power Port AC 120V input port or DC-48V input port
4 Optic Port Optical input port
5 External Port Port for external devtces
6 GND LUG PORT Terminal for System ground
POWER PORT
Power ports are used for power-supplying of -43V DC or 120V AC, and specific power
cable should be applied to each different types of ROU power supply (AC/DC or
DC/DC). Below figure is naming of the power supply by type.
A:Ac12lN-HIDC-4W
B:AG12W-NIDGGHD
0:ACGIID IDCIIC
Exteral PORT
External ports are reserved ports for external equipments for future implementation,
and used to monitor the status and control the equipments.
Below figure is naming oflhe external portst
Confidential & Proprietary 53/123
4.5 Add on VIUHF ROU
Add on V/UHF ROU(forward narnlng"AOR) rs connected exlstlng ROU to servlce VHF and UHF
band AOR should support VHF+UHF RDU only‘ not support other RDUs whrch have cawty
fitter RDUs whloh have cavrty fllter ls too brg so that AOR body can‘t accommodate these
AOR locates above or under or exrsrtrng ROU AOR recerves TX Slgnats from ROU and then
amphfy these through Hrgh Power Amphfier. fitter out of band slgnats and radlated to the TX
antenna port When recelwng RX srgnats through the RX antenna port, thrs unrt fitters out—off
band Slgnals and amptrty Wlth Low nelse Amllfler and output power rs connected e><|st|ng ROU's
RX port External BPF shoutd be located between T>< antenna and AOR's IN/OUT ports
because the BPF rejects the strong broadcastlng slgnal and etc
AOR body meets to NEMA4 degree
mm.-
ntnm
'1 , a a
L r v ‘
lat Mount Imi- ml mum End-r
Figure 4.32 — AOR Outer Loo ks
AOR rs desrgned m a cabrnet‘ and prowdes the followrng tunotrons and features
4.5.1 Speclflcatlons of AOR
Item Spec. Remark
Size(mm) 482 6(19')x 258 M71 Inctudlng Bracket
Weight 11 Kg
Power consumption 78 W ‘
—
Confidentlat & Prophetary 54/123
4.5.2 Block Diagram of AOR
AMT
TXIN
axouT ,_ EH
Tn/Frnm FIX
extemaIPnn * ANT
PuweriN
4.5.3 AOR parts
int—«w an
Figure 433 — AOR Inner Look
No. Unit Description Remark
VHF+UHF Remote Drive Unit
filter and hwgh ampllfy TX Slgnalfi,
VHF+UHF
E—VHF+UHF
Fllterandam || RX 5\ nals‘
RDU P fy 9
Remove other signals through |ntemal BPF
AOR Power Supply Unit
tnput power DC -48V‘ Output power 27V‘9V. 6V
For 110V mput ofAC/DC‘
For -48V input of DC/DC
AOR PSU
Confidenuat & Propnetary 55/123
E ncl osu re to satisfy N EMA4‘
Enclosure
Enable both Wall and Rack Mount.
System Interface Unit
Distribute power and Signals of module
4.5.4 Function by unit
1) VHF+UHF I E—VHF+UHF Remote Drive Unit (RDU)
VVhen receiVing TX Signals from each band through e><|sting ROU‘s Remote Optic, RDU filters
out of band signals and amplifies them With High Power Ampifier The unit also filters RX
signals given through RX antenna and amplifies them to send the signals to eXisting ROU's
Remote Optic
in the unit, there is ATT to adiust gain each path VHF+UHF RDU is not supported With cawty
filter together. External BPF should be connected before antenna
Figure 434 — RDU Outer Look
2) AOR Power Supply Unit (AOR PSU)
AOR PSU receives 48V of input This unit is diwded |nto DC/DC type to output +GV, +9V and
+27V of DC power and AC/DC type to receive 110V of AC input and to output +6V‘ +9v and
+27\/ of DC power
Upon your order, either otthe two types should be decided MS Connector. which uses ports to
receive inputs. is de5igned to accept any of AC and DC Only in this case, the input cable is
different
Confldenhal & Prophetary 56/123
RPSU has a circuwt brake to turn the powerON/OFF and has LED lndicator at the top to check if
output power is normally Supplied
1mm"
\<
3) AOR System Interface Unit(sIU)
SIU dlstributes power and Slgnals to each module
lfi
4.5.5 Rear of AOR
1) Functlons
Confidential & Propnetary 57/123
wruwnirwr
“Mull
Emu-w. vnlr m m; FM,
Figure 4.36 — AOR Rear Look
ltem Description Remark
1 VHF/UHF T>< IN Terminal for receive the Signal ofTX from eXISIlflg ROU To/From
Existing
2 VHF/UHF RXOUT Terminal fortransmit the signal of R>< to TX Antenna To/From
Antenna
5 VHF/UHF RXOUT
Terminal for receive the Signal of RX from RX Antenna
5 External Port
Port for communicate With eXisting ROU
6 GND LUG PORT
Terminal for system ground
POWER PORT
Power ports are used for power-supplying of -43V DC or 120V AC, and specifio power
cable should be applled to each dll'rerenl types or ROU power supply (AC/DC or
DCIDC). Below figure is naming of the power supply by lype.
Confidential & Propnelary
58/123
MANN-HIM“
B:Ac120V-NIDGGND
cmconn IDCNC
Exteral PORT
External ports are reserved ports for external equipments for future implementation,
and used to monitor the status and control the equipments.
Below figure is naming oflhe external ponst
Confidential & Proprietary 59/123

---

Source Exif Data:

File Type                       : PDF
File Type Extension             : pdf
MIME Type                       : application/pdf
PDF Version                     : 1.6
Linearized                      : Yes
XMP Toolkit                     : 3.1-702
Modify Date                     : 2010:12:14 11:05:57+09:00
Create Date                     : 2010:12:14 11:05:48+09:00
Metadata Date                   : 2010:12:14 11:05:57+09:00
Format                          : application/pdf
Title                           : untitled
Document ID                     : uuid:7f95df07-b788-4087-a9b6-d11deae2f814
Instance ID                     : uuid:e377d21a-88de-4387-b37b-7026e79a3d14
Producer                        : Acrobat Distiller 7.0.5 (Windows)
Page Count                      : 59

EXIF Metadata provided by EXIF.tools