REVISION HISTORY 10 Jan. 02, 2008 Original W220 Rich, 23. 20089 Add HERDER «UHF) V3.0 Feb 04.2010 Add ADD ON UHF ROU Van Mov, 24. 2010 Add ROL E-VHF +LIHF Technical Support SOLD serial numbers must be available fo authorize technical support landlord to establish a rectum authorization for defective units, The serial numbers are located on the back of the writ, as well as on the box in which they were delivered. Additional supped information may be obtained by accessing the SOLID Technology, hc.
Contents Section? Safely & Certification NOC Eu. ammo possessors sorriness oF SECOND SYSTOLIC OVERVIEW §1 2.1 General overview 12 1.2 System overview. 13 Section? SYSADMIN Specification mcr pressures svsvorsussvsssovseressoss .. 15 3.1 System specifications 16 3.4.1 Physical Specifications . 16 3.1.2 Optic wavelength and Laser power 314.3 Environmental specifications ooh 17 4.4.4 Operating Frequencies range. 3.4.8 Specifications Per band Sections System Configuration and 41 BW {BTS Interface Unit) ..
Section System Installation & Operation... 44.1 44.2 4.4.3 4.4.4 Function by unit 44.5 Bottom of ROUE. arn 45 Add on VI UHF ROU 4.5.1 Specifications of AOR 4.42 Block Diagram of AOR 4.5.3 ADDAMS oon ers vase sre na assassin avs sans 4.5.4 Function by unit 4.5.8 Rear of AOR $1 BHU installation 5.471 BU Shelf Installation 5.14.2 BHU Power Cabling 51.3 RF Interface at BIU 514 MD BU ingestion. 84.5 OBDURATENESS ooo rinses inns sass transship sn se savannas sass naan Anne harass sans se 68 54.
4.3 Optimistic Cabling... vs a 91 54.4 Insert Douro OBU. iii conics chess sins nis cascaras sevens 92 54.5 Consumption Power of OBU £5 ADD ON UHF ROU Installation .. 5581 Enclosure installation... 93 55.2 AOR Power Cabling 5.5.3 GND Terminal Connection .. 5.54 Coaxial cable and Antenna Connection | 5.5.5 Consumption Power of AD. tines 5.5.6 Interface with existing ROU viii 99 CHONGQING (I POSTILION crvrirssnssrsrnsranesarsns srs lasso sss shebeens assassin somberness assn wf 6.1.1 6.1.
Figure 4.22 — IMPERF Quire LOOK coon nvr rein senses saves inns 43 Figure 4.23 — OEU front panel Que Look... ene 43 Figure 4.24 — Rear Pane] QUIET aide cheesecakes ses 44 Figure 4.25 « ROU OUST LOOK iim Simmons rems ans rein asses 44 Figure 4.26 — ROUTEING LOOK ooh sees tines sas vss mind 48 Figure 4 27 —~ RDU Outer Look., Figure OPTIC Que Look... cnn consist Rene 50 Figure 4.29 — RCPT Cuter Look Figure 4.30 — Multiplexer Osier LOK seems ans serene ans 51 Figure 4.31 — ROU Bottom Look.
Figure 5.10 — Installation flow diagram when AOR installs in the rack... 95 Figure 5.10 —~ AOR which is installed above of ROUE. rein 100 Figure 5.11 — ACR which is installed under of ROUE.
“Only qualified personnel are allowed to handle this unit.
21 General overview SMIRNOFF 1s a coverage slattern for in-gliding services delivering woe and data in high quality and for seamlessly Ag a distributed antenna system, it provides analog and digital phone systems that are served in multiples bards through ons antenna.
Mm Signals with a plurality of service provider transmit simultaneously MW Support puller-operator ing band * Low OPES CAPE W Compact design mm Up gradable design Mm Easy installation and maintenance ou Web Based SNIP or GEM Modem or UDF support {Optional} 2.2 System overview SMIRNOFF 15 composed of devices given below Basically, the system consists of BIU [BTS Interface Unit), QDU {Gillie distribution Unit) and RGU (Remote Optic Unit.
Section System Specifications 4.1 System specifications 34a 3.1.2 3.1.3 3.14 31.
31.2 Optic wavelength and Laser power West optic TA: 1860 TH 1310rm RH 13100m TH: 1650nam Wavelength HX 1850nm East optic FE 18 0nm TC 13 Orn Ry 18800m 34BmatdBmio ROU Output power Redbreast dBm ww ROU DEU dBm dBm to ODU Broadcast Biro ODU 31.
Section System Configuration and Functions 4.4 BABYSITS Interface Unit} 4.2 ODU {Optic distribution Unit} 4.3 CEU {Optic Expansion Unit 44 ROU (Remote Optic Enif) 4.
4.1 BIU (BTS Interface Unit) BU provides TX signals from BTS or BDA for four ODs (Optic Distribution Unit). This unit separates RX signals given from ODs from each other per frequency band. Figure 4.1 ~ BIU outer view 4.1441 Specifications of Bil x x 450 : tam 22.
4.1.3 BIU parts mom wore me [2 ¥ amine oma wri Figure 4.2 = Bil mounting diagram Mo.
Mari: Central Processor Unit Control and monitoring system status 2 CPU Control and monitoring with R8232 Have an access lo upper-level network through GSM or Hamlet Main Power Supply Unit Input power.
250C4700PS S0CH700LTEC Figure 4.3 = BEDBUG Eider Look: 2) Mai Comedic Unit {limed) DUMDUM combines TX signals they ere delivered rom MU BU per frequency band and delivers the signals to four ODs. This unit adds signals of FSR modem {o the TX signals before sending them te ROU. IE also combines RX signals from up to four Exodus and sends them fo up to four Amadeus.
Figure 4.4 MD BU Outer Look VHF UHF frequency band including the following: WHF IHF Dial Band 3) Main Central Processor Unit (CPU} CPU oar inductive and control state of modules that ave installed in BIL This unit can inquire and control state of four ODs in total. Through communication, i also can inquire and control ROU that & corrected with lower pads. Is1 addition, the unit has RS-232C port for serial communication so that it can inquire and control state of devices through PC.
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Figure 4.8 = UMPS Outer Look 44.5 Front/rear panels of BIU 1% Front pang! 1 Figure 4.7 Bil front panel Waterloo Ite description 1. WIDE LED LED to show whether MOB ig installed and gels faulty 2.
&-232C port for communication and diagnosis of devices through 4. port} Flattop Ethernet por for upper network 5. Nethermost port) | This equipment is indoor use and all the communication wiring are limited to inside of the building , Pwr Test Port & ALM | Output DC power test port and ALM LED to show abnormal slate, if any 7. Rawer switch Power ON/OFF switch 2) Rear panel Figure 4.
4.2 DDU (Optic distribution Unit) QDU receives TX RF signals from upper BIL and converts them into optical signals. The optical signals are sent to ROU through optical cables. This unit converts optical signals from ROU into RF signals and sends the converted signals to BIJ For each shelf of the ODU, up te two DOs {Donor Optic Unit) can be installed unit One DOU is supported with fur optical ports.
4.2.2 Block Diagram of ODU Flames WH Serpens Sabra BRE Baas BE Fumes BOA Testosterone 18 Fourteen HOU Forenoon MAH Baden BRR Eons BOTH 4.23 ODU parts re Share oni a ers LY 2 FROM Len Figure 4.
5) Mark Dou } Convert TX RF signals info optics signals; 1 Dou Max Zea Convert Bx optical signals into RF signals, Provide up fo four optical ports per DOL 2 Way Divider 2% Divide TX RF signals into two, Combine hwo RX RF signals info one ny Distribution Unit 3 ou Distribute prows and signals to DOU 4 Shelf 19" rack, 1U PIPPIN DUES, Male to female pcs 5 Accessories RF Coaxial Cable Assembly apes 4.
2) way Divider 2W) IW is equipped with two Jetway splutters in a one-module form and the splutters work for TAX signals, respectively Designed inn broadband type, the divider combines and divides GHz or higher of signals from FSK modem signets, Figure 4.12 3 Way Divider Outer Look 4.2.5 Front/rear panels of ODU 1} Front panel Eo Figure 4.13 ~ ODU front panel Outer Look LED indicator te check DOU module stale to see fit is abnormal 2) Rear pans! Figure 4.
cable per RGL 1. Optic Port SCEPTER optical connector terminal; use one optical 2. DC V0 Port 3 XREF Port 4 ARF Port Terminal to deliver power and state values RX RF signal interface terminus TURF signal interface terminal 4.28 Interface with BIU Figure 4.
3 wz gm ml Figure 4.16 — OEU Outer Look 4.31 Specifications of OEU Size i 482.619) x x 450 i mm Weight BAK o d Full Load Power consumption : 48W 4.3.
4.3.3 OEU parts DRAT TAEGU eww wwe Figure 4.
4.34 Function by unit 1) Donor Optic Unit (DCR DOU is the same as the module used for DOLL i Figure 4.18 = MD BU Outer Look 2) Expansion Wavelength Division Multiple worrier) NEON modified makes ppleabeledionic corvette EX seals aod makes melodramatically commissioner of RX signals. With an FS modem in it, this multiplexer communicates with BIL.
20 port for serial communication, which enables inquiry and Ir addition, the unit hes RE-23 control of devices through PC. At the front panel, communication LED indicator indicates communication state with upper BIL and lower RGU. | also has ALM LED indicator to show if a device gets faulty. Figure 4.20 ~ ECU Outer Look 4) Expansion Radio Frequency Modulator) FIFER reconstructs Signal to Noise degraded by optical modules. With an infernal FBI made, this module communicates with ROU Figure 4.
2) Rear panel Figure 4.24 — Rear pans! Outer Look 8! Ba riptide 1, GHD Port Terminal for system ground 2. DC input Fort input terminal for DC 48Y 3 power switch Power ON/OFF switch 4. Therefrom QDU Optic Pitt SCIATIC optical connector terminal 4. To/From ROU Optic Past {| SC/APC optical connector terminal, use one optical cable per ROU. 4.4 ROU (Remote Optic Unit) ROU receives TX optical signals from ODU or QEU and covers thee inch RF signals.
RGU is designed in a cabinet, and provides the following functions and features. 4.41 Specifications of ROU Size{mm) : 482.618") x 258x560, Including Bracket Weight 3645 Kg _ Full Load Aver consumption ZEW 4.4.
WL TILER Figure 4.
B850C+700LTEC 1900P+AWS-1 Figure 4.27 ROU Outer Look 2) Remote Power Supply Unit (RP&U} RPS receives -48Y of input. This unit is divided into DCA type to output +8Y_ +9V and +27V of DC power ard ACIDIC type Lo receive 120V of AC input and to cutup +8, +8Y and +27V of DC power, por order, dither of the two types should he decided. MS Connector, which uses ports fo receive Inputs, Is designed to accept any of AC and DC. Only in this case, the input cabs is different.
3) Remote Optic{R OPTIC) Remote Optic converts optical signals inch RF signals and performs vice versa. With an FBR modem in it, the unit communicates with upper devices 1 also has internal ATT for optical compensation to compensate for optical cable jots, If any. Figure 4.
8) Multiplexer Multiplexer works as a module to combine or distribute multitude signals into one antenna This device has a port to combine multiple signals. You need to connect input and output ports of RDU through a countermanding part. men Hadar eog ow Pg gr Allen oo Figure 4.
te gs creep Rena 1OVHFAHF THRU Port | Terminal for TX and RX antenna ports of VHF and UHF 2 Anterior Port System Antenna Port, N-type females 3 Power Port AC T20V input port or DC-ANY input port 4, Optic Port Optical input port & External Port Port for external devices 8 GND LUG PORT Terminal for system ground POWER PORT Power pols are used for power-supplying of -48Y DC or 120V AC, and specific power cable should be applied to each different types of ROU power supply (AC/DC or DC.
4.5 Add on VAIN ROU Add on NAVAJO ROU forward naming” AOR} is connected existing ROU to device VHF and UBF band. AUR should support YOUTHFUL ROU only, not support other Rd Us which have cavity tighter. RCs which have cavity filter is too big so that AOR body can't accommodate these AOR locates above or under of exiling ROU. AOR receives TX signals from ROU and then amplify these through High Power Amplifier, filter out of band signals and radiated to the TX antenna port.
4.5.2 Bilk Diagram of AOR FR OUT smmsssnnns. BH 5 I Akin te Houri pai Figure 4.33 «AUR Inner Look 6 serine 2 VHF UME Remote Drive Unit Ellen irreconcilable Tl snails) WHERE ¥ ERE UME ROU Filter and amplify RX signals; Remove other signals through internal BFF ACR Power Supply Unit Input power: DC -48Y, Output power: 27V.
Enclosure to satisfy ENEMA, Rambler both Wall and Reich Mount; © Enclosures ’ si System Interface Unit Distribute power and signals of module 4.54 Function by unit 13 VHF +UHF 7 EVHFHIHF Remote Drive Unit (ROLE nen receiving TX signals from each band through existing IOU's Remote Optic, RDI filters obit of band signals and lifesaving them with High Power Amplifier.
BURP has a circuit brake io tum the power ON/OFF and hes LED indicator at the top to check if output power is normally supplied AOR System interface Unis Sill) Sli distributes power dnd Signals fo Lady nodule 4.
WEAN Ri . Serena ern EER a Figure 435 ~ AOR Rear Look ite Des i Rem FE HELLHOLE TN Predetermination be sinology Dro easing RAGE Torn Existing 2. VHF RX OUT Terming for transmit the signal of RX to existing ROU ROU Terminal for input either AC 110V or DC48Y as internal 3. Power Port PSU type 4 WHEATIES TX IN Terminal for radiate the signal Antenna To From 5.