Corning Optical Communication Wireless QXC85P19L70 User Manual

Corning
MobileAccess

MobileAccessQX
User Manual

P/N: 709C0011101 REV: A00 Date: JANUARY2013

Preface Material

RF Safety

To comply with FCC RF exposure compliance requirement, adhere to the following warnings:
Warning! Antennas used for this product must be fixed mounted on indoor permanent structures, providing a

separation distance of at least
75 cm from all persons during normal operation.

Warning! Each individual antenna used for this transmitter must be installed to provide a minimum separation
distance of 75 cm or more from all persons and must not be co-located with any other antenna for meeting RF
exposure requirements.

Warning! Antenna gain should not exceed 12.5 dBi.
Warning! The design of the antenna installation needs to be implemented in such a way so as to ensure RF

radiation safety levels and non-environmental pollution during operation.

ATTENTION

Compliance with RF safety requirements:

• MobileAccess products have no inherent

significant RF radiation

• The RF level on the d ownlink is ve ry low a t

the downlink ports. Therefore, there is no
dangerous RF radiation when the antenna
is not connected.

CAUTION

Use of controls, adjustments or performance of
procedures other than those specified herein may
result in hazardous radiation exposure.

Preface Material

P/N: 709C0011101

Page II

Laser Safety

Fiber optic ports of the MobileAccessQX system
emit invisible laser radiation at the 1310/1550 nm
wavelength window.

The laser apertures /outputs are the green
SC/APC Bulkhead adapters located on the front
panel of the equipment.

External optical power is less than 10 mW,
Internal optical power is less than 500 mW.

To avoid eye injury never look directly into the
optical ports, patchcords or optical cables. Do not
stare into beam or view directly with optical
instruments. Always assume that optical outputs
are on.

Only technicians familiar with fiber optic safety
practices and procedures should perform optical
fiber connections and disconnections of
MobileAccessQX devices and the associated
cables.

Care of Fiber Optic Connectors

Do not remove the protective covers on the fiber
optic connectors until a connection is ready to be
made. Do not leave connectors uncovered when
not connected.

The tip of the fiber optic connector should not
come into contact with any object or dust.

Refer to the cleaning procedure for information
on the cleaning of the fiber tip.

MobileAccessQX has been tested and certified as
a Class 1 Laser product to IEC/EN 60825-1
(2007). It also meets the requirements for a
Hazard Level 1 laser product to IEC/EN 60825-2:
2004 to the same degree.

MobileAccessQX complies with 21 CFR 1040.10
and 1040.11 except for deviations pursuant to
Laser Notice NO. 50 (2007).

MobileAccessQX employs a Class 3B laser and
therefore the following label is affixed inside the
unit adjacent to the laser:

Preface Material

P/N: 709C0011101

Page III

Standards and Certi f ication

Corning MobileAccess produc ts have met the approvals of the following certifying organizat ions:

Company Certification

ISO ISO 9001: 2 000 and ISO 13485: 2003

Product Certifications

US

Radio Equipment and Systems:

• FCC 47 CFR Part 22 – for CELL Frequency Band

• FCC 47 CFR Part 24 – for PCS Frequency Band

• FCC 47 CFR Part 27 – for 700 LTE and AWS Frequency Bands

EMC

• FCC 47 CFR Part 15 Subpart B

Note: This equipment has been tested and found to comply with the limits for a Class B digital device,
pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection
against harmful interference in a residential installation. This equipment generates, uses and can
radiate radio frequency energy and, if not installed and used in accordance with the instructions, may
cause harmful interference to radio or television reception, which can be determined by turning the
equipment off and on, the user is encouraged to try to correct the interference by one or more of the
following measures:

- Reorient or relocate the receiving antenna.

- Increase the separation between the equipment and receiver.

-Connect the equipment into an outlet on a circuit different from that to which the receiver is
connected.

-Consult the dealer or an experienced radio/TV technician for help.

Warning! Changes or modifications to this equipment not expressly approved by Corning
MobileAccess could void the user’s authority to operate the equipment.

Europe

Radio Equipment and Systems

EN 301 502 – for GSM / EGSM Frequency Bands

Standards and Certification

P/N: 709C0011101

Page IV

EN 300 328 – for WLAN 802.11b/g 2.4GHz Frequency Band

EN 301 893 – for WLAN 802.11a 5GHz Frequency Band

EMC

EN 301 489

Safety

EN 60950UL 60950
CAN/CSA-C22.2 No.60950
UL 2043

Laser

CDRH 21 CFR 1040.10, 1040.11 (Except for deviations per notice No.50, July 26, 2001)

Safety

IEC 60825-1, Amendment 2 (January 2001)

EN 60825-1

About this Guide and Other Relevant Documentation

This user guide describes how to perform the physical installation of the MA2000 systems. The installation
procedures of other units (e.g. RIU, SC-450) relevant to the system are detailed in their user manuals (see
Additional Relevant Documentation below).

Additional Relevant Documents

The following documents are required if the corresponding units are included in your system.

Document Name

RIU Installation and Configuration Guide
System Controller (SC-450) User Manual
MobileAccessQX Datasheet
MA Software Version Update Tool

About this Guide and Other

Relevant Documentation

P/N: 709C0011101

Page V

List of Acronyms

BDA Bi-Direc tional Am plifier
BTS Base Transceiver Station
BTSC Base Transceiver Station Conditioner
BU Base Unit
DL Downlink
RU Remote (Hub )Unit
RIU Radio Interface Unit
RBS Radio Base Station
UL Uplink

List of Acronyms

P/N: 709C0011101

Page VI

Table of Contents

Preface Material ........................................................................................................................ II

RF Safety .......................................................................................................................................... II

Laser Safety ..................................................................................................................................... III

Care of Fiber Optic Connectors .......................................................................................................... III

Standards and Certification ................................................................................................... IV

Company Certification ....................................................................................................................... IV

Product Certifications ........................................................................................................................ IV

About this Guide and Other Relevant Documentation .......................................................... V

List of Acronyms ..................................................................................................................... VI

Table of Contents ................................................................................................................... VII

1 Introduction ........................................................................................................................ 1

1.1 Key Features and Capabilities ....................................................................................................... 1

1.2 System Architecture ..................................................................................................................... 2

1.3 QX Interfaces and Internal Modules .............................................................................................. 4

1.3.1 QX Interfaces ..................................................................................................................... 4

1.3.2 QX Main Internal Modules ................................................................................................... 6

1.4 SCU-F Interfaces .......................................................................................................................... 7

2 Installation Guidelines ....................................................................................................... 8

2.1 Infrastructure Preparation ............................................................................................................ 8

2.2 Installation Requirements ............................................................................................................. 8

2.3 Coaxial Cable Connections ............................................................................................................ 8

2.3.1 General Cable Installation Procedures .................................................................................. 8

2.3.2 RF Rules ............................................................................................................................ 9

2.3.3 Coax Cable Lengths and Losses ........................................................................................... 9

2.4 Fiber Optic Rules ....................................................................................................................... 10

2.5 Power Consumption, Connections and Power Supplies ................................................................. 11

2.5.1 Power Safety Instructions ................................................................................................. 11

2.5.2 Types of Power Supplies ................................................................................................... 11

2.6 Installation Conventions ............................................................................................................. 11

3 System Installation .......................................................................................................... 12

3.1 Overview of Physical Installation ................................................................................................. 12

3.2 Unpacking and Inspection .......................................................................................................... 12

Table of Contents I P/N: 709C0011101 I Page VII

3.3 Inserting an RHU/AO Module in to QX Chassis ............................................................................. 14

3.4 Mounting ................................................................................................................................... 16

3.4.1 Rack Mount Installations ................................................................................................... 16

3.4.1.1 Plan the rack installation ....................................................................................... 16

3.4.1.2 Rack Installation Safety Instructions ...................................................................... 17

3.4.1.3 Mounting QX Unit in 19-IN R ack ............................................................................ 17

3.4.1.4 Mounting SCU-F Unit ............................................................................................ 17

3.4.2 Wall Mount Installation ..................................................................................................... 18

3.4.2.1 QX Horizontal Wall Mount Installation .................................................................... 19

3.4.2.2 QX Vertical Wall Mount Installation ........................................................................ 21

3.5 Connections ............................................................................................................................... 24

3.5.1 QX Fiber Optic Connections ............................................................................................... 24

3.5.1.1 MIMO Configurations ............................................................................................ 25

3.5.2 RF Connections ................................................................................................................ 26

3.5.2.1 QX RF and Antenna Monitor ing Connections .......................................................... 26

3.5.2.2 RF MIMO Connections to SCU-F ............................................................................ 28

3.5.2.3 Daisy Chaining the AMU modules of Multiple QX Units to a Single SCU-F ................. 29

3.5.2.4 SCU-F to Broadband Antenna Connections ............................................................. 30

3.5.3 Grounding the QX Unit ...................................................................................................... 30

3.5.4 Power Connections ........................................................................................................... 31

3.6 Verifying Normal Operation ........................................................................................................ 32

4 Maintenance ..................................................................................................................... 34

4.1 Replacing an RHU/AO Module ..................................................................................................... 34

4.2 Replacing Fan Module ................................................................................................................ 36

5 Appendix A: System Specifications ............................................................................... 38

RF Parameters .................................................................................................................................. 38

Supported Services .................................................................................................................... 38

RF Parameters per Service at Antenna Port of Four Port Se rvice Combiner Uni t (SCU-F) ................. 39

Absolute Maximum Rating .......................................................................................................... 40

Optical Specifications ........................................................................................................................ 40

Environmental Specifications.............................................................................................................. 40

Standards and Approvals ................................................................................................................... 41

System Component Specifications ...................................................................................................... 42

Quad-Service Package (QX) ........................................................................................................ 42

Four - Port Service Combiner Unit (SCU-F) .................................................................................. 42

6 Appendix B: Ordering Information .................................................................................. 43

Table of Contents I P/N: 709C0011101I Page VIII

supporting up to four services (currently,

Service support can be quickly added as

the chassis without any downtime or

e cascaded to provide various
combinations of SISO and MIMO services
distributed over the same antenna

MA2000 QX is managed by opening a Web

MobileAccessQX

four services. Currently supported:

or by different units and distributed
over a common DAS antenna

to a QX unit are routed over a single

Seamless service

the

QX (and the parallel service

All connections

swap, field

1 Introduction

MobileAccess2000 QX (QX) is a member of
the MobileAccess2000 family. It is a compact,
modular, cel lular i ndoor cov erage rem ote uni t

CELL/PCS, LTE and AWS).
All services are received from the head-end,

over a single optic fiber and reconverted to
RF for convergence and distribution over a
common DAS antenna infrastructure.

needed by inserting card like modules into

additional cabling. In addition, two QX units
can b

infrastructure.

session to the SC-450 Controller.

MA2000 QX operates along with an SCU-F
unit, which converges the services from one
or more MA2000 QX units and provides the
interface to the DAS infrastructure. Both QX
and SCU-F are described in this manual.

Figure 1-1

1.1 Key Features and

Capabilities

The following benefits are achieved with
the QX platform:

• Multi-S ervice Platform - Supports up to

CELL, PCS, AWS, 700 MHz LTE

• Multi-Operator Optimized Platform ­Services from a number of operators
can be supported by the same chassis

infrastructure.

• Optic Fiber savings - All se rvices r outed

optic fiber

• Modular Design ­upgrades – simply add a card in

conditioning module at the head end)

• Scalable MIMO Upgrades - U pg rad e an y
or all services from SISO to MIMO by
cascading another QX unit

• Small Footprint - 3 U height rack

• Simple maintenance -

and monitoring LEDs located on front
panel, Modular, hot­replaceable service modules, including
fan modules

• Web Management - Web management
via the SC-450 controller

Introduction I P/N: 709C0011101I Page 1

1.2 System Architecture

The QX and SCU-F are located at the floor level remote end. QX receives RF over optic service
signals from the head end, reconverts the signals to RF over copper, adjusts them to the
required level and outputs each service to dedicated interfaces. The signals are combined by
the SCU-F (along with services from other QX units) and distributed over a common DAS
(Distributed Antenna System) infrastructure.

In the uplink, cellular service signals received at the DAS are separated by the SCU-F and
routed to their dedicated QX ports. The signals are then converted to optic and forwarded to
the head-end for reconversion to RF and distribution to the relevant BTS or BDA systems.

Note: 3rd party equipment is sold separately (i.e. cabling, antennas).

QX Architecture Diagram Figure 1-2

Headend:

At the headend CMA elements provide interface to the wireless service provider’s network,
condition the signals and convert them to optical signals for transportation over fiber optics
towards the rem ote ends.

• Radio Interfac e Unit (RIU) - the RIU conditions and custom tunes the RF Downlink (DL)
signals from an ope rator’s si gnal source (BTS o r BDA) to ensu re a con stant RF level . In the
Uplink (UL), the signal (at the required level) is routed back to the operator’s signal source.

System Architecture I P/N 709C011101 I Page 2

• RF to Optic converter unit – this can eit her be a Base Un it (BU) or an Optic al Contro l
Head End Unit (OCH), where th e OCH is QX model speci fic. These are wideband units that

convert the RF Downlink (DL) signals from the RIU into optical signals for routing over
single or multi-mode fiber optic cabling (SMF/MMF) to/from the QX units located at the
remote locations up to 2Km away.

• System Controller (SC-450) - the system controller enables centralized remote
management and control of MobileAccess elements. This unit connects directly to the RIU
and BU and/ or OC H an d all ow s man agem en t o f t hese as wel l as th ei r host ed el e ments (e.g.
QX) via a controller Web session.

Remote End:

At the remote end, the optical signal is reconverted to RF, filtered, amplified to the appropriate
level, combined with other signals and distributed over the b roadband antenna infrastructure.
The QX unit is installed, along with the Four Port Service Combiner Unit (SCU-F). The QX
system remote end consists of the following elements:

• QX - each QX unit provides coverage for four RF services (e.g. CELL, PCS, 700LTE and
AWS) via two types of service dedicated internal modules (RHU and AO). Each of these
modules is monitored via the Controller as an independent unit.

• Service Combiner Unit (SCU-F): a passive module that combines and distributes the UL
and DL signals from one or more QX units to (up to) four broadband antennas.

QX Solution System Architecture Figure 1-3

System Architecture I P/N 709C011101 I Page 3

1.3 QX Interfaces and I nternal Modules

Service specific

F High band and Low Band

AMU service

Fan modules

AC power
slot

1.3.1 QX Interfaces

This section provides a full, detailed description of the QX unit and relevant interface
connections (Table

1-2) and LED indicators.

AMU connection

ports

ports

MobileAccessQX Front Panel Figure 1-4

Table 1-1. QX Front Panel Interfaces

Interface Description

DB-15 AMU (Antenna Monitoring Unit) port. Connect to parallel port on SCU-F.

Note that only one QX unit port can be connected to the parallel SCU-F
port. For installations with more than one QX, cascade QX AMU ports
using IN/OUT ports.

IN/OUT AMU cascading ports. Use in case there are more than one QX units

connected to the SCU-F.

DB-9 RS232 serial connection (D-Type 9); Serves as AMU console port for

service personnel

Optic port

DC power

Console Connect to network for AMU SW upgrade – for tech support personnel

QMA connectors
Optic Port Slot Slot used to guide the optic fiber to the RHU module fiber optic SC/APC

AC In Local AC power connection: 100-240VAC (use either AC or DC)
DC In Remote DC power connection: 25 to 48VDC (u s e either AC or DC)

only
Used for connecting to corresponding SCU-

QMA connectors.

port inside the chassis.

QX Interfaces and Internal Modules I P/N 709C011101 I Page 4

The QX front p an el sup port s t hre e grou p s of LEDs: sy st em l evel , fo r t he R HU and for each Ad d -

(blinks for

no external

on unit.

MobileAccessQX Front Panel Figure 1-5

Table 1-2: LEDs Descriptions:

Module LED Description

QX (system
level)

Power Steady Gr e en : Required power is supplied to AMU module

of QX chassis

Off: No power supplied to AMU module of QX

chassis

Run Steady Green: AMU module SW initialized

Blinking Green: AMU module SW is initializing

the duration of approx. 1 minute)

Fan Steady Gre en : Fan status normal

Blinking Green: Faulty fan, alarm triggered

RHU Power Steady Gr e en : Power input detected for RHU module

Off: No power detected for RHU module

Comm Blinking Green: Active communication detected –

connected and discovered by the BU/OCH

Steady Slow Blink: Faulty communication link -

communication is received

Link Stea dy Gr e en : Normal optical link level from BU/OCH-QX

Blinking Green: Low opt ic a l l in k level from BU / O C H-QX
Off: No optic a l l in k is present

AO1/AO2 Power Steady Gr e en : Power inpu t detected for first/second Add-

On unit

Run Blinking Green: Indicates that the Add-On module is in

Table 1-3: LED Descriptions

QX Interfaces and Internal Modules I P/N 709C011101 I Page 5

Off: No power det ected for f irst/secon d Add-On

unit

normal operating mode.

1.3.2 QX Main Internal Modules

The QX main components consist of the following internal modules:

• Remote Hub Unit (RHU) – servi ce speci fic u nit , supports t wo voi ce ser vices, c onverts t he
optical signals received from the BU/OCH to RF signals (and vice versa) an d routes t hem t o
the coax antenna infrastructure (via the Four Port Service Combiner Unit – SCU-F).

• Add-On (AO) – adds an additional voice service to the host RHU (QX includes two AO
modules hosted by the RHU)

Note: The voice services are combined by the connected Service Combiner Unit (SCU).

• Antenna Mon itor ing Un it (AM U) – digital unit that enables antenna monitoring and relay
messaging of the following information:

• Antenna status

• Fans status

• Fans control

• AMU/QX alarms.

The AMU is connected to the SCU. The AMU modules of a number of QX units can be daisy
chained to a single SCU-F (see section

3.5.2.1).

• Fan Module – two extractable fans, simple to maintain and replace (see section

4.2).

QX Interfaces and Internal Modules I P/N 709C011101 I Page 6

1.4 SCU-F Interfaces

15 port

connect to the broadband

Low Band (1-4) ports;

Antenna Ports 1-4

The SCU-F is a passive unit which interfaces to the QX RF service ports and internal AMU
module and to the DAS infrastructure. All of the interfaces are located on the front panel

(shown in Figure

SCU-F Front Panel Figure 1-6

Table 1-4. SCU-F Front Panel Interfaces

1-6).

DB-15 port to
QX DB-15 port

High Band (5-8) ports

Interface Description

DB-15 DB-15 port used to connect the SCU-F to the QX DB-

(internal AMU module port)

Antenna Ports N-Type RF antenna ports used to

antenna infrastructure

QMA Ports (Low/High) QMA type RF ports used to connect to the QX service ports:

Low: Ports 1-4 support low band service connections from the QX
High: Ports 5-8 support high band service connections fro m the QX

SCU-F Interfaces I P/N 709C01110 1 I Page 7

2 Installation Guidelines

2.1 Infrastructure Prepar ati on

This following installation rules are based on the assumption that site survey and installation
planning (including power requirements) have been completed.

2.2 Installation Requ irements

The infrastructure preparation consists of two main phases:
Floor Planning : Planning the distribution of the antennas on each floor to provide the required

coverage.
Telecom Closet Planning : Planni ng the l ayout of th e devices an d cabl es in the tel ecom clos et

or shaft.

2.3 Coaxial Cable Connections

2.3.1 General Cable Installat ion Procedures

Observe the general cable installation procedures that meet with the building codes in your
area. The building code requires that all cabling be installed above ceiling level (where
applicable). The length of cable f rom the risers t o each antenna mu st be conceal ed above the
ceiling.

The cable must be properly supported and maintained straight using tie-wraps, cable trays and
clamps or hangers every 10 feet (where practical above ceiling level). Where this is not
practical, the following should be observed:

• The minimum bending radius of 7” is required for the supplied ½” coax cable.

• Cable that is kinked or has a bending radius smaller tha n 7” must be replaced.

• Cable runs that span less than two floors should be s ecured to suit ably located mechan ical

structures.

• The cables should be supported only from the building structure.

Installation Guidelines I P/N: 709C0011101I Page 8