SOLiD HM850C 5 Watt 850 MHz Cellular Amplifier User Manual 9 User s manual REV6

SOLiD, Inc. 5 Watt 850 MHz Cellular Amplifier 9 User s manual REV6

Manual Rev2

Download: SOLiD HM850C 5 Watt 850 MHz Cellular Amplifier User Manual 9  User s manual REV6
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Hercules‐S (5W Remote Unit)
User Manual
SOLiD, Inc.
10,9th Floor, SOLiD Space220 Pangyoyeok‐ro, Bundang‐gu, Seongnam‐si, Gyeonggi‐do, Korea 393‐400
Tel : +82‐31‐627‐6290 Fax : +82‐31‐627‐6209
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REVISION HISTORY
Version
Issue Date
V 1.0
Oct. 23, 2013
No. of
Pages
Initials
Details of Revision Changes
Original
Technical Support
SOLiD serial numbers must be available to authorize technical support and/or to establish a return
authorization for defective units. The serial numbers are located on the back of the unit, as well as on
the box in which they were delivered. Additional support information may be obtained by accessing the
SOLiD Tehcnology, Inc. website at www.solid.co.kr or send email at
kehan@solid.co.kr
This manual is produced by Global Business Division Business Team 1. Printed in Korea.
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Contents
Section1
Safety & Certification Notice ......................................................................... 5
Section2
Introduction ................................................................................................ 8
2.1 Purpose ............................................................................................................. 9
2.2 HERCULES‐S ..................................................................................................... 10
Section3
Functional Description................................................................................ 11
3.1 General ........................................................................................................... 12
3.2 Component of HERCULES‐S Remote Unit ........................................................... 13
3.3 Dimension ....................................................................................................... 15
Section4
System Installation..................................................................................... 16
4.1 REMOTE UNIT Installation ................................................................................ 18
4.1.1 REMOTE UNIT Enclosure installation ................................................................. 18
4.1.2 Remote Unit Power Cabling .............................................................................. 21
4.1.3 Remote Unit Optical Cabling ............................................................................. 24
4.1.4 GND Terminal Connection................................................................................. 25
4.1.5 Coaxial cable and Antenna Connection .............................................................. 26
Section5
System Specifications ................................................................................. 27
5.1 Physical Specifications ...................................................................................... 28
5.2 RF performance ............................................................................................... 29
5.3 Certification ..................................................................................................... 30
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Contents of Figure
Figure 3.1 – Remote Unit Block Diagram ............................................................. 12
Figure 3.2 – Inside of Remote Unit ...................................................................... 13
Figure 3.3 – Remote Unit Dimension ................................................................... 15
Figure 4.1 – Exterior of Remote Unit ................................................................... 18
Figure 4.2 – Dimension used to install REMOTE UNIT on the WALL ........................ 19
Figure 4.3 – Horizontal Installation ..................................................................... 20
Figure 4.4 – Installation Clearance ...................................................................... 20
Figure 4.5 – How to Install Remote Unit .............................................................. 20
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Section1
Safety & Certification Notice
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“Only qualified personnel should handle the DAS equipment. Any person involved in
installation or service of the DAS should understand and follow these safety guidelines.”
‐ Obey all general and regional safety regulations relating to work on high voltage installations, as well as
regulations covering correct use of tools and personal protective equipment.
‐ To prevent electrical shock, switch the main power supply off prior to working with the DAS System or
Fiber BDA. Never install or use electrical equipment in a wet location or during a lightning storm.
‐ When working with units outdoors, make sure to securely fasten the door or cover in an open position
to prevent the door from slamming shut in windy conditions.
‐ Use this unit only for the purpose specified by the manufacturer. Do not modify or fit any spare parts
that are not sold or recommended by the manufacturer. This could cause fires, electric shock or other
injuries.
‐ Any DAS system or Fiber BDA will generate radio (RF) signals and continuously emit RF energy. Avoid
prolonged exposure to the antennas. SOLiD recommends maintaining a 2m (78.74 inches) minimum
clearance from the antenna while the system is operating.
‐ Do not operate this unit on or close to flammable materials, as the unit may reach high temperatures
due to power dissipation.
‐ Do not use any solvents, chemicals, or cleaning solutions containing alcohol, ammonia, or abrasives on
the DAS equipment. Alcohol may be used to clean fiber optic cabling ends and connectors.
‐ Do not look into the ends of any optical fiber or directly into the optical transceiver of any digital unit.
Use an optical spectrum analyzer to verify active fibers. Place a protective cap over any radiating
transceiver or optical fiber connector to avoid the potential of radiation exposure.
‐ Allow sufficient fiber length to permit routing without severe bends.
‐ For pluggable equipment, make sure to install the socket outlet near the equipment so that it is easily
accessible.
‐ Certification
 FCC: This equipment complies with the applicable sections of Title 47 CFR Parts 15,22,24 and 90
 UL/CUL: This equipment complies with UL and CUL 1950‐1 Standard for safety for information
technology equipment,including electrical business equipment
 FDA/CDRH: This equipment uses a Class 1 LASER according to FDA/CDRH Rules.This product
conforms to all applicable standards of 21 CFR Chapter 1, Subchaper J, Part 1040
‐ A readyily accessible disconnect device shall be incorporated external to the equipment.
‐ This power of this system shall be supplied through wiring installed in a normal building.
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If powered directly from the mains distribution system, it shall be used additional protection, such as
overvoltage protection device
‐ Only 50 ohm rated antennas, cables and passive equipment shall be used with this remote. Any
equipment attached to this device not meeting this standard may cause degradation and unwanted
signals in the bi‐directional system. All components connected to this device must operate in the
frequency range of this device.
‐
Only 50 ohm rated antennas, cables and passive components operating from 150 ‐ 3 GHz shall be
used with this device.
‐ Signal booster warning label message should include
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Section2
Introduction
2.1 Purpose
2.2 Hercules‐S
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2.1
Purpose
HERCULES‐S is a coverage system for in‐building services delivering voice and data in high quality and for
seamlessly.
As a distributed antenna system, it provides analog and digital phone systems that are served in multiple
bands through one antenna.
The system covers general public institutions and private facilities.

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 RSSI
and Ec/Io. By providing communication services at every corner 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 WCDMA) methods.
The HERCULES‐S system supports communication standards and public interface protocols in worldwide
use.

Frequencies: 700MHz, 800MHz,850MHz,1900MHz,2100MHz, etc.

Voice protocols: AMPS,TDMA, CDMA,GSM,IDEN,

Data protocols: EDGE,GPRS,WCDMA,CDMA2000,Paging, LTE etc.
etc.
HERCULES‐S is in modular structure per frequency. To provide 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 following:



Flexibiltiy & Scalabiltiy

Support fiber‐optic ports up to 32

Clustering multiple‐buildings (campus) as one coverage
Modular structures

Modular frequency upgrade

Plug‐in type module
Multi‐Band, Multi Operator
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
2.2

Signals with a plurality of service provider transmit simultaneously

Support multi‐operator in a band
Low OPEX / CAPEX

Compact design

Upgradable design

Easy installation and maintenance
HERCULES‐S
Hercules‐S is one of series of Alliance DAS and has 5W (+37dBm) composite output power every band.
RDU that is integrated on package with Duplexer, Power amplifier and RF unit can be mounted up to 5 in
the enclosure.
Hercules‐S transports signals that multiple operators and multiple technologies are moved at a same
time from Base station to a remote location over the same fiber.
It is available in single and multi‐band configuration supporting 700MHz, 800MHz, 850MHz,
1700/2100MHz, 1900MHz in parallel.
It has been specificllay tested unter a various air interfaces such as iDEN, GSM, CDMA2000, EV‐DO,
WCDMA, LTE ete.
Furthermore, there is reserved RDU slot to support 2600LTE in the future
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Section3
Functional Description
3.1 General
3.2 Compoent of HERCULES‐S Remote Unit
3.3 Dimension
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3.1 General
The following figure shows the block diagram of HERCULES‐S Remote Unit.
Figure 3.1 – Remote Unit Block Diagram
There are many components;

R‐Optic : Remote Optical Unit

RCPU : Remote Central Processor Unit

RPSU :

RDU1‐5 : Remote Drive Unit

CU : Combining Unit
Remote Power Supply Unit
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3.2 Component of HERCULES‐S Remote Unit
The following figure shows internal configuration of Remoe Unit with fully RF equipped.
Figure 3.2 – Inside of Remote Unit
Remote Unit receives TX optical signals from Head‐End 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. After converted, the signals are sent to a upper device of ODU. ROU can be
equipped with up to five RDUs (Remote Drive Unit)
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The following table describes components on Remote Unit
Unit
RDU+BPF x5
RPSU
R‐OPTIC
RCPU
Multiplexer
ROU Enclosure
Input SIU
Output SIU
Description
Remote Drive Unit
Filter and amplify TX signals
Filter and amplify RX signals
Remove other signals through BPF
Remote Power Supply Unit
Input power: 120 VAC +/‐ 10%
Output power: +29 VDC
Remote Optic
Make RF conversion of TX optical signals;
Convert RX RF signals into optical signals; Compensates optical loss
Communicates with BIU/OEU though the FSK modem
10dBo optical link between ODU and ROU
Fiber Connector: SC/APC Connector
Fiber Type: Single Mode Fiber
Optical Wavelength: 1310/1550 WDM
Remote Central Processor Unit
Controls signal of each unit
Monitors BIU/ODU/OEU through FSK communication
Multiplexer
Combine TX signals from 5 RDUs; Distribute RX signals to 5 RDUs;
Enable you to use a single antenna port
Enclosure to satisfy IP66
Horizontal or Vertical Mount
Ceiling or Pole Mount
Input System Interface Unit
Distributes power and signals to each module
Output System Interface Unit
Interfacing with multiplexer
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3.3 Dimension
Figure 3.3 – Remote Unit Dimension
ITEM
Size(Width, Height, Depth)
Weight
Power Consumption
Operating Temperature
Operating Humidity
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SPECIFICATION
405 x 960 x 250mm/
15.94’’ x 37.8’’ x 9.84 inch
51kg / 112lb
390W
‐25 to +55°C / ‐13 to 131°F
0 to 90%, non‐condensing
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REMARK
Including Bracket
Fully loaded
Fully loaded
Ambient Temperature
Section4
System
Installation
5.1 Remote Unit Installation
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This chapter describes how to install each unit and optical cables, along with power cabling method. In
detail, the chapter describes how to install shelves or enclosuers of each unit, Power Cabling method
and Optic Cabling and RF Interface.
The needed accessories and tools are list up in the below table.
Steps for installation
Accessories
Remote Enclosure Installation
M12 Bolt(6EA)
Power &
Cable
Optic Connection
connector(HBG‐114‐1)
for
Included
compression
Tool
Spanner(19mm)
Installation manual
provided by RFS
Optic : SC‐APC
Power
20020517M031B01LF(FCI)
“4mm”
driver(for
screw)
Antenna Connection
DIN
7/16
CONNECTOR
(Male), Coaxial cable for
DIN 7/16
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Remark
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‐
Screw
slotted
4.1
REMOTE UNIT Installation
4.1.1 REMOTE UNIT Enclosure installation
REMOTE UNIT is designed to be water‐ and dirt‐proof. The unit has the structure of One‐Body enclosure.
It satisfies water‐proof and quake‐proof standards equivalent of NEMA4.
REMOTE UNIT can be mounted on either ceil or the Wall. Basically, REMOTE UNIT has both of a Wall
Mount Bracket. The following shows dimension of the fixing point for the Wall Mount Bracket.
Figure 4.1 – Exterior of Remote Unit
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Figure 4.2 – Dimension used to install REMOTE UNIT on the WALL
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REMOTE UNIT Ceil Mount Installation
For horizontal installation, minimum separation distance of 130mm is recommended as shown in the
below figure.
Figure 4.3 – Horizontal Installation
The installation clearance secures system reliability.
Select the right location where the remote unit can be installed securely considering weight load
capacity, there would be additional mounting structures can be applied as shown in the below figure
Figure 4.4 – Installation Clearance
Mount remote unit to the mounting location using M12 screws. Different length and material type of
the M12 screws can be selected depending on mounting condition
Figure 4.5 – How to Install Remote Unit
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4.1.2 Remote Unit Power Cabling
Remote Unit supports only AC120V of input power.
The following figure shows configuration of power supply for AC 120V.
Lug Naming
RPSU Terminal naming
AC_H
AC‐H
AC_N
AC‐N
GND
FG
Remark
The provided connector is “20020517M031B01LF” of FCI vendor. The following table shows main
specification of this connector.
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In order to install the power connection, first connect HBG‐114‐1 connector(RFS) on hole at bottom of
enclosure. This HBG‐114‐1 connector has 36.0mm diameter and made of aluminum.
The recommended cable is HYBRIFLEX(HB114‐1‐08U5‐S6F, RFS), which consist SM 6F/O, 5DC pairs and
8AWG. The cable’s outer conductor armor have corrugated aluminum with external jacket made of
polyethylence(PE).
The outer conductor grounding have a role to eliminate typical grounding requirement and saves on
installation costs. After stripping external jacket of cable using tool in the proper and then connect it to
HBG‐114‐1 connector. Fasten external hex nut of HBG‐114‐1 connect to be fixed.
The power installation procedures are as below
1.
Take off 20020517M031B01LF connector from RPSU
2.
The recommended wire size is below AWG#10
3.
Select 3wire among 8AWGs
4.
The proper strip length of AWG cable is 6~7mm
5.
And insert this wire into designated position of connector
6.
Secure M3.5 screw using screw driver with screw type “–“
7.
Connect this connector on RPSU and secure screw using screw driver to fix
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Check if the connection is the same as one seen in the table above and make sure to turn the power ON.
CAUTION
DOUBLE POLE/NEUTRAL FUSING
Ground cable with green/yellow color among 3wires of power cables(HOT, NEUTRAL, GND)
should be fixed at heatsink of enclosure before connecting with connector to prevent damage from
pulling out by external strong force. At this time, secure M3.5 screw using screw driver with screw type
“+“. The recommended AWG is #10.
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4.1.3 Remote Unit Optical Cabling
REMOTE UNIT makes optical‐electronic conversion of TX signals from upper ODU makes electronic‐
optical conversion of RX signals. REMOTE UNIT has one optical module in it. As WDM is installed in the
R_OPTIC module, two pieces of wavelength (TX:1310nm, RX:1550nm) can be sent/received with one
optical core at the same time. REMOTE UNIT has SC/APC of optical adaptor type.
For optical adaptor, SC/APC type can be used. To prevent the optical access part from being marred with
dirt, it should be covered with a cap during move. When devices are connected through optical cables,
you need to clear them using alcohocol to remove dirt.
Optical cables should be inserted into Optic Port outside of REMOTE UNIT. Using an optical spool in
REMOTE UNIT, you need to coil around one or two roll of cables to be connected with the optical
adaptor of ROPTIC.
At this time, curvature of the optical cable should be at least 10Ø to prevent insertion loss from being
increased.
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4.1.4 GND Terminal Connection
The Ground Terminal is located at the lef side of Remote Unit.
Grounding must be carried out. Connect an earth‐bonding cable to the grounding connction provided at
the outside of the Remote Unit(at left side).
After lossening the hex bolt, connect the earth‐bonding cable between the enclosure and hex bolt. Then,
fasten all parts again with the hex bolt.
Round terminals located on the side of a 0.75mm2 (18AWG) or more wires Using permanently
connected to earth (green/yellow color)
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4.1.5 Coaxial cable and Antenna Connection
The coaxial cables which are connected to antenna distribued network connect to antenna port of
REMOTE UNIT. Before connection, check the VSWR value of coaxial cable whether it is within
specification using SITEMASTER .
At this time, check if the Return loss have above 14dB or VSWR have below 1.5
The part of antenna connection fasten to port not to be loossened and not to be injected the dusty and
insects
The antenna connected to REMOTE UNIT is only serviced in inbuilding
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Section5
System Specifications
6.1 Physical Specifications
6.2 RF Performance
6.3 Certification
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5.1
Physical Specifications
Parameter
RF Connectors
Serial Interface connector
ROU
(1) 7/16 DIN‐type, female
(1) RS‐232 9‐pin
D‐sub, male
(1) SC/APC for ODU
Power LED
TX LED
RX LED
LD LED
PD LED
ALARM LED
RESET Button
Normal Range: 120VAC
50/60Hz
Operating range
108~132V AC, 50/60Hz
390W
(ROU w/ 5 RDUs)
405 x 960 x 250mm/
Fiber connector
LED Alarm and Status Indicator
AC Power
Power consumption
Enclosure Dimensions (mm)
15.94’’ x 37.8’’ x 9.84 inch
Weight (Full Load)
Material (Exterior)
Safety
Certifications
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51kg / 112lb
2 mm Aluminum
UL Labeled
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5.2
RF performance
Supported Services
700LTE
Full Band
800
Sprint/850
Cellular
1900
PCS
2100
AWS
Tx (MHz)
728-756
862-894
1930-1995
2110-2155
Rx (MHz)
698-716
777-787
817-849
1850-1915
1710-1755
Tx (MHz)
28
32
65
45
Rx (MHz)
18
10
32
65
45
Tx (dBm)
-20 to +10
-20 to +10
-20 to +10
-20 to +10
Rx (dBm)
≤ -50
≤ -50
≤ -50
≤ -50
Tx (dBm)
37
37
37
37
Rx (dBm)
Tx (dBm)
57
57
57
57
Supported Services
Frequency
Range
Bandwidth
RF Parameters
Input Power
Output Power
System Gain
Rx (dBm)
50
50
50
50
Tx
< 8µs
< 8µs
< 8µs
< 8µs
Rx
< 8µs
< 8µs
< 8µs
< 8µs
System Delay
Impedance
Tx (ohm)
50
Rx (ohm)
50
Spurious
Emissions
Tx
≤ -13dBm @ 9kHz – 5GHz
Out of Band
Attenuation
Rx
≤ 45dB @ F_edge ± 1MHz offset
Gain Control
Range/Step
Tx
25dB/step 1dB
Rx
20dB/step 1dB
Optical
Optic
Wavelength
Tx
1310nm WDM
Rx
1550nm WDM
Optic Link AGC
Above 10dB
Optic Link Loss
Max 10dBo
Noise Figure
8dB Max
Optical Connector
SC-APC (Single Mode Fiber)
RF Connector
DIN-F (Common Output), N-F (UHF/VHF and AOR)
Monitoring Port
-30dB (SMA Female)
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5.3
Certification
Title
Environmental
Temperature ange
Humidity Range
Transportation
Standards
Remarks
‐25°C to +55°C/ ‐13 to 131°F
0% ~ 90%
ETSI EN 300 019‐1‐2 IEC 60721‐3‐2
Ambient Temperature
Non‐condensing
Class 2.3 Classes 2K2/2M2
Storage
ETSI EN 300 019‐1‐1 IEC 60721‐3‐1
Class 1.2 Classes 1K2/1M3
Sealing (Remote
IEC 60 529 EN 60 529
IP66 Complaint
Unit)
Product safety
North America
UL Certification
60950‐1‐07, 2nd Edition, CSA C22.2 No.
Type approvals and
certifications
UL 60950‐1, 2nd Edition CSA C22.2 No.
FCC Part24 Subpart D and Part90 Subpart I
North America
FCC Part22 Subpart H and Part 27 Subpart C
FCC Certification
FCC Part24 Subpart E and Part 27 Subpart C
Canada
RSS‐131 (ISSUE 2)
IC Certification
EMC
Emission
MTBF
North America
FCC Part15 Subpart B, Class A
FCC Verification
Mean Time
North America
Telcordia SR‐332 Issue 2
Fits: (Failure Unit) MTBF =
Between Failures
ROU
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Failure Rate = 11,823 MTBF = 9.65 Years
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Fully loaded ROU

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