ADRF KOREA ADXV-R-25VUNA DAS (Distributed Antenna System) User Manual ADXV DAS

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Application ID	MwK18GjcFTdJsidfO0ZdPw==
Document Description	ADXV DAS_User Manual_V1.1_0814
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Date Submitted	2017-08-18 00:00:00
Date Available	2018-02-18 00:00:00
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Document Lastmod	2017-08-14 17:25:37
Document Title	ADXV DAS User Manual
Document Creator	Wordìš© Acrobat PDFMaker 11
Document Author:	YH Ko

ADXV DAS User Manual
Version 1.1
DL IN1
DL IN2
DL IN3
DL IN4
DL IN1
DL IN4
DL OUT
UL
UL
DL IN2
E911
E911
DL OUT
VHF UL
VHF UL
DL IN5
DL IN6
DL IN7
DL IN8
DL IN5
DL IN6
DL IN7
SERVICE
BTS
DL/UL
UL IN
OPTIC4
UL OUT
DL IN8
DL OUT
UL
BTS
DL/UL
BTS
DL/UL
PWR
SERVICE
OPTIC3
LD
BTS
DL/UL
BTS
DL/UL
UL IN
OPTIC2
PD4
DL OUT5 DL OUT6 DL OUT7 DL OUT8
PD3
E911
E911
SERVICE
OPTIC1
PD1 PD2
DL OUT
DL OUT
-48V
UL
UL
RTN
VHF DL
BTS
DL/UL
BTS
DL/UL
DL OUT5 DL OUT6 DL OUT7 DL OUT8
BTS
DL/UL
N(-)
P(+)
AAI
DL IN
SERVICE
01
02
03
04
05
SERVICE
LINK
SERVICE
SERVICE
LAN1
BTS
DL/UL
ADXV-H-ODU-4
DL OUT1 DL OUT2 DL OUT3 DL OUT4
BTS
DL/UL
ADXV-H-CHC-88-DL ADXV-H-CHC-88-UL
UL IN
UL IN
UL IN
LAN0
ADXV-H-POI-X
ADXV-H-POI-X
DL IN3
ADXV-H-POI-X
E911
ADXV-H-POI-X
DL OUT1 DL OUT2 DL OUT3 DL OUT4
REMOTE
DL IN 1
ADXV-H-POI-X
LAN0
DL IN 1
ADXV-H-NMS-DC
HOST
SERVICE
DC IN
ADXV-H-POI-X
UL OUT
DL IN
UL OUT
DL IN
UL OUT
DL IN
UL OUT
E-UL
DL IN
SERVICE
SERVICE
SERVICE
SERVICE
CPL(-30dB)
CPL(-30dB)
CPL(-30dB)
CPL(-30dB)
CPL(-30dB)
SERVER
SERVER
SERVER
SERVER
SERVER
ALARM
SERVICE
VHF-UL
LINK
SERVICE
E-DL
SERVICE
VHF-DL
UL 3
UL 6
UL 5
UL 4
UL 2
UL 1
DL 1
DL 2
DL 3
DL 4
DL 5
ADXV-H-POI-X
DL 6
ADXV-H-POI-X
ADXV-R-ORU
ADXV-H-POI-X
OPTIC
UL OUT
ADXV-H-POI-X
DL IN
ADXV-H-CHC-88-UL ADXV-H-CHC-88-DL
UL IN
ADXV-H-ODU-4
DL OUT
ADXV-R-3XX
ADXV-R-3XX
ADXV-R-3XX
ADXV-R-3XX
3116 West Vanowen St.
Burbank, CA 91505
Tel: 818-840-8131
Fax: 818-840-8138
www.adrftech.com
Advanced RF Technologies, Inc.
ADXV-R-3XX
ADXV-R-PSU
Information in this document is subject to change without notice.
Advanced RF Technologies, Inc. 1996-2015.
All rights reserved.
• Please send comments to:
E-Mail:
Phone:
Fax:
info@adrftech.com
(818) 840-8131
(800) 313-9345
(818) 840-8138
• Address:
Advanced RF Technologies, Inc.
Attention: Technical Publications Department
3116 Vanowen St.
Burbank, CA 91505
USA
www.adrftech.com
Advanced RF Technologies, Inc.
ii
Revision History
Version
0.1
0.9
1.0
1.1
Author
YH Ko
YH Ko
CK Jo
CK Jo
Descriptions
Date
Initial Release
VU, WCS, BRS, PS78 added
VU External Filter, Frequency Range Change Update
Add Warning Statement
03/07/16
06/06/17
07/05/17
07/25/17
Change List
Version
Change list
Advanced RF Technologies, Inc.
Contents
iii
Table of Contents
1.
Introduction ......................................................................................................................................................11
1.1
Highlights ...................................................................................................................................................11
1.2
ADXV DAS Quick View ................................................................................................................................12
1.2.1 HE Quick View ....................................................................................................................................12
1.2.2 RU Quick View ....................................................................................................................................13
1.3
2.
3.
Warnings and Hazards ...............................................................................................................................13
Block Diagram ...................................................................................................................................................18
2.1
ADXV DAS Block Diagram...........................................................................................................................18
2.2
ADXV-DAS Scalability .................................................................................................................................19
ADXv Overview .................................................................................................................................................20
3.1
Head End....................................................................................................................................................20
3.1.1 NMS (Network Management System) ................................................................................................21
3.1.1.1
LEDs ..........................................................................................................................................22
3.1.1.2
AAI (only for DC type) ...............................................................................................................22
3.1.1.3
Ethernet Port ............................................................................................................................23
3.1.1.4
Host/Remote Switch .................................................................................................................23
3.1.1.5
Power Connection ....................................................................................................................24
3.1.1.6
POI (ADXV-H-POI-x)...................................................................................................................25
3.1.2 POIL (ADXV-H-POIL-x) .........................................................................................................................26
3.1.3 POIL-VU (ADXV-H-POIL-VU) ................................................................................................................27
3.1.3.1
LED ............................................................................................................................................27
3.1.3.2
RF Ports .....................................................................................................................................28
3.1.4 Channel Combiner (CHC, ADXV-H-CHC) .............................................................................................28
3.1.4.1
RF ports .....................................................................................................................................29
3.1.5 Optical Donor Unit (ODU, ADXV-H-ODU-4) ........................................................................................29
3.2
3.1.5.1
LED ............................................................................................................................................29
3.1.5.2
RF Ports .....................................................................................................................................30
3.1.5.3
Optic Ports ................................................................................................................................30
Remote Unit (RU) .......................................................................................................................................30
3.2.1 Remote Module (RM, ADXV-R-3xx) ....................................................................................................32
3.2.1.1
RM ID numbering and RF line connection scheme ...................................................................32
3.2.1.2
RF port ......................................................................................................................................33
3.2.1.3
Power port ................................................................................................................................33
3.2.1.4
LED ............................................................................................................................................33
3.2.2 Optical Remote Unit (ORU, ADXV-R-ORU)..........................................................................................33
3.2.2.1
Front port..................................................................................................................................33
3.2.2.2
Rear port ...................................................................................................................................34
Advanced RF Technologies, Inc.
iv
3.2.2.3
LED ............................................................................................................................................34
3.2.3 PSU (ADXV-R-PSU) ..............................................................................................................................34
3.3
3.2.3.1
Port ...........................................................................................................................................34
3.2.3.2
LED ............................................................................................................................................35
3.2.3.3
AC Switch ..................................................................................................................................35
Remote Unit (RU) for N4X..........................................................................................................................35
3.3.1 Port .....................................................................................................................................................37
4.
5.
Cable Connection ..............................................................................................................................................38
4.1
Head End Connection Diagrams ................................................................................................................38
4.2
Remote Unit Connection Diagrams ...........................................................................................................39
Mounting method .............................................................................................................................................40
5.1
Head End....................................................................................................................................................40
5.1.1 Rack Mount ........................................................................................................................................40
5.2
RU ..............................................................................................................................................................41
5.2.1 Rack Mount ........................................................................................................................................41
6.
Installation ........................................................................................................................................................41
6.1
Pre-Installation Inspection .........................................................................................................................41
6.2
ADXV DAS Installation Procedure ..............................................................................................................42
6.2.1 HE Installation Procedure ...................................................................................................................42
6.2.1.1
Installing a ADXV DAS HE in a rack............................................................................................42
6.2.2 RU Installation Procedure ...................................................................................................................44
6.2.3 RF coaxial cable and antenna connection ..........................................................................................46
7.
6.3
Grounding ..................................................................................................................................................46
6.4
Optic Port Cleaning ....................................................................................................................................47
Web-GUI ...........................................................................................................................................................48
7.1
Web-GUI Setup ..........................................................................................................................................48
7.1.1 DAS system/PC Connection Using Web-GUI ......................................................................................48
7.2
Administrator/User Mode .........................................................................................................................49
7.2.1 Common .............................................................................................................................................49
7.2.1.1
Navigation Tree.........................................................................................................................49
7.2.1.2
Power Status .............................................................................................................................49
7.2.1.3
Commissioning Status ...............................................................................................................49
7.2.1.4
Information ...............................................................................................................................49
7.2.2 Status Tab ...........................................................................................................................................51
7.2.2.1
Status – NMS ............................................................................................................................51
7.2.3 System ................................................................................................................................................54
7.2.3.1
System: Account .......................................................................................................................54
7.2.3.2
System: Logs .............................................................................................................................55
7.2.3.3
System: Update.........................................................................................................................56
Advanced RF Technologies, Inc.
7.2.4 Help ....................................................................................................................................................56
7.2.5 Logout .................................................................................................................................................57
7.3
Guest Mode ...............................................................................................................................................57
8.
System-Wide Specification ...............................................................................................................................58
9.
Mechanical Drawing .........................................................................................................................................61
9.1
HE ...............................................................................................................................................................61
9.2
RU ..............................................................................................................................................................62
9.3
N4X RU for PS78 ........................................................................................................................................63
9.4
N4X RU for VU............................................................................................................................................64
Advanced RF Technologies, Inc.
vi
Figures
Figure 2-1
Figure 2-2
Figure 2-1
Figure 3-1
Figure 3-2
Figure 3-3
Figure 3-4
Figure 3-5
Figure 3-6
Figure 3-7
Figure 3-8
Figure 3-9
Figure 3-10
Figure 3-11
Figure 3-12
Figure 3-13
Figure 3-14
Figure 3-15
Figure 3-16
Figure 3-17
Figure 3-18
Figure 3-19
Figure 3-20
Figure 3-21
Figure 3-22
Figure 3-23
Figure 3-24
Figure 4-1
Figure 4-2
Figure 5-1
Figure 5-2
Figure 6-1
Figure 6-2
Figure 6-3
Figure 6-4
Figure 6-5
Figure 6-6
Figure 7-1
Figure 7-2
Figure 7-3
Figure 7-4
Figure 7-5
Figure 7-6
Figure 7-7
Figure 7-8
Figure 7-9
Figure 7-10
Figure 7-11
Figure 7-12
Figure 7-13
ADXV DAS HE Quick View (Front and Rear) ........................................................................................12
ADXV DAS RU Quick View (Front and Rear)........................................................................................13
ADXV DAS Block Diagram ...................................................................................................................18
Head End Front View ..........................................................................................................................20
ADXV-H-NMS-DC Front View ..............................................................................................................21
ADXV-H-NMS-AC Front View ..............................................................................................................22
NMS LED .............................................................................................................................................22
NMS AAI ..............................................................................................................................................23
Ethernet Port ......................................................................................................................................23
Host/Remote Switch ...........................................................................................................................24
POI front View ....................................................................................................................................25
POIL front View ...................................................................................................................................26
POIL-VU front View .............................................................................................................................27
POI LED ...............................................................................................................................................27
ADXV-H-CHC Front View .....................................................................................................................28
ADXV-H-ODU-4 Front view ................................................................................................................29
ADXV-H-ODU-4 LED ............................................................................................................................30
ODU RF Ports ......................................................................................................................................30
ODU Optic Ports..................................................................................................................................30
ADXV-R Front and Rear (without FAN and with FAN) View ................................................................31
ADXV-R-3XX (RM) Front and Rear View..............................................................................................32
RM ID numbering and RF connection between ORU and RM ............................................................32
ADXV-R-ORU Front and Rear View .....................................................................................................33
ADXV-R-PSU Front and Rear View ......................................................................................................34
ADXV-R-PSU Front and Rear View ......................................................................................................35
ADXV-R-3378P-N4X Front and Bottom View ......................................................................................36
ADXV-R-25VU-N4X Front and Bottom View .......................................................................................37
HE Cable connection (4 ADXV-H-POIs, 2 ADXV-H-ODUs) ...................................................................38
ADXV-RU 5ands connection................................................................................................................39
HE Rack Mount (Front & Rear view) ...................................................................................................40
RU Rack Mount Front and Rear View .................................................................................................41
HE Installation Procedure ...................................................................................................................43
RU Installation Procedure ...................................................................................................................45
HE Ground Cable Connection, Protective Earthing Conductor (HE chassis rear side) ........................46
RU Ground Cable Connection, Protective Earthing Conductor (RU chassis rear side) .......................46
Optic Connector Cleaning (left) and Optic Port Cleaning (right) ........................................................47
SC/APC Optic Connector Dust Cap .....................................................................................................47
Login screen ........................................................................................................................................48
ADXV DAS General Information ..........................................................................................................50
SNMP (Install – NMS)..........................................................................................................................51
Location Setting (Install – NMS) .........................................................................................................52
External Modem Box Setting (Install – NMS) .....................................................................................52
Description (Install – NMS) .................................................................................................................52
SNMP Agent False Alarm Test (Install – NMS) ....................................................................................53
Location Info / Installer Info (Install – NMS) .......................................................................................53
Date & Time Setting (Install – NMS) ...................................................................................................54
Description (Install-Remote Module) .................................................................................................54
Account Management ........................................................................................................................54
New Account ......................................................................................................................................55
Change Password................................................................................................................................55
Advanced RF Technologies, Inc.
vii
Figure 7-14
Figure 7-15
Figure 7-16
Figure 7-17
Figure 9-1
Figure 9-2
Figure 9-3
Figure 9-4
User Log ..............................................................................................................................................56
System update ....................................................................................................................................56
Message after System update is complete .........................................................................................56
Help.....................................................................................................................................................57
HE Drawing .........................................................................................................................................61
RU Drawing .........................................................................................................................................62
PS78 N4X RU Drawing .........................................................................................................................63
VU N4X RU Drawing ............................................................................................................................64
Advanced RF Technologies, Inc.
viii
Tables
Table 2-1
Table 3-1
Table 3-2
Table 3-3
Table 3-4
Table 3-5
Table 7-1
Table 7-2
Table 7-3
Table 7-4
Table 7-5
ADXV-DAS Scalability ..........................................................................................................................19
NMS LED Specifications ......................................................................................................................22
NMS AAI Specifications .......................................................................................................................23
POI LED Specifications ........................................................................................................................27
POI RF port..........................................................................................................................................28
ODU LED Specifications ......................................................................................................................30
Account Information for Login ...........................................................................................................48
Navigation tree ...................................................................................................................................49
Power Supply Status ...........................................................................................................................49
Commissioning ICON ..........................................................................................................................49
System Summary Description .............................................................................................................51
Terms and Abbreviations
The following is a list of abbreviations and terms used throughout this document.
Abbreviation/Term
AGC
ALC
AROMS
BCU
BTS
CDMA
CHC
CW
DAS
DL
Downlink
HE
HPA
HW
IF
LNA
LTE
MS
NMS
ODU
OEU
PLL
POI
PSU
RF
RU
RM
SW
Definition
Automatic Gain Control
Automatic Level Control
ADRF’ Repeater Operation and Management System
Band Combiner Unit
Base Transceiver Station
Code Division Multiple Access
Channel combiner
Continuous Wave (un-modulated signal)
Distributed Antenna System
Downlink
The path covered from the Base Transceiver Station (BTS) to the subscribers’ service area
via the repeater
Head End
High Power Amplifier
Hardware
Intermediate Frequency
Low Noise Amplifier
Long Term Evolution
Mobile Station
Network Management System
Optical Donor Unit which is located in ADXV-HE.
Optic Expansion Unit
Phased Locked Loop
Point Of Interface
Power Supply Unit
Radio Frequency
Remote Unit which is composed of master RU and multiple slaves RU
Remote Module
Software
Advanced RF Technologies, Inc.
ix
UL
Uplink
VSWR
Uplink
The path covered from the subscribers’ service area to the Base Transceiver Station (BTS)
via the repeater
Voltage Standing Wave Ratio
Advanced RF Technologies, Inc.
10
1.
INTRODUCTION
Currently the ADXV supports 700 MHz (Lower A, Lower B, Lower C,
and Upper C), SMR800/Cellular, PCS, AWS, WCS, BRS, PS700, PS800, VHF and UHF band.
1.1 Highlights
• Modular Structure (HE)
Supports multi bands service in one body
Supports up to 12 slot available for POI, ODU, CHC card, etc.
• Supports up to a of maximum of 96 Remote Units(using Optical Expansion Unit)
• 33/37dBm of downlink composite output power
• Requires only single strand of fiber per remote unit
• Operates with up to 5dBo optical loss
• Supports SNMP v1, v2, v3 (get, set & traps)
• Web-based GUI Interface; No 3rd party GUI software required
• Web-GUI connectivity via DHCP in host mode
• Versatility and Usability: ADXV gives total control to the user. Control parameters such as gain, output power,
and alarm threshold can be changed using Web-GUI interface allowing the user to fine tune the system to
the given RF environment.
Advanced RF Technologies, Inc.
11
1.2 ADXV DAS Quick View
HE Quick View
DL IN1
DL IN2
DL IN3
DL IN4
DL IN1
DL IN2
DL IN3
BTS
DL/UL
DL IN5
DL IN6
DL IN7
DL IN5
DL IN6
BTS
DL/UL
SERVICE
DL IN7
DL IN8
DL IN8
SERVICE
VHF UL
BTS
DL/UL
BTS
DL/UL
E911
VHF UL
UL IN
OPTIC4
UL OUT
SERVICE
OPTIC3
PWR
UL IN
OPTIC2
DL IN4
E911
DL OUT
UL
UL
DL OUT
DL OUT
UL
OPTIC1
LD
DL OUT
BTS
DL/UL
E911
SERVICE
PD4
UL
DL OUT
-48V
Optical Donor Unit (ODU)
DL OUT5 DL OUT6 DL OUT7 DL OUT8
BTS
DL/UL
PD3
BTS
DL/UL
UL
RTN
PD1 PD2
BTS
DL/UL
ADXV-H-ODU-4
VHF DL
N(-)
DL OUT5 DL OUT6 DL OUT7 DL OUT8
P(+)
AAI
SERVICE
SERVICE
01
02
03
04
05
ADXV-H-CHC-88-DL ADXV-H-CHC-88-UL
DL IN
BTS
DL/UL
SERVICE
LINK
ADXV-H-POI-X
UL IN
BTS
DL/UL
SERVICE
LAN1
Point Of Interface (POI)
DL Channel Combiner
(CHC)
UL Channel Combiner
(CHC)
ADXV-H-POI-X
UL IN
UL IN
LAN0
ADXV-H-POI-X
E911
ADXV-H-POI-X
E911
ADXV-H-POI-X
DL OUT1 DL OUT2 DL OUT3 DL OUT4
REMOTE
DL OUT1 DL OUT2 DL OUT3 DL OUT4
LAN0
HOST
DL IN 1
ADXV-H-NMS-DC
Network Management System
(NMS)
DL IN 1
1.2.1
DC IN
ADXV-H-POI-X
ADXV-H-POI-X
ADXV-H-POI-X
AUX 5
AUX 5
AUX 7
AUX 7
ADXV-H-POI-X
AUX 3
ADXV-H-POI-X
AUX 3
ADXV-H-CHC-88-UL ADXV-H-CHC-88-DL
AUX 1
ADXV-H-ODU-4
AUX 1
AUX Port
Ground Terminal
Fan Unit
Figure 2-1
Advanced RF Technologies, Inc.
ADXV DAS HE Quick View (Front and Rear)
12
RU Quick View
UL IN
ADXV-R-ORU
UL OUT
DL IN
UL OUT
SERVICE
SERVICE
SERVICE
SERVICE
CPL(-30dB)
CPL(-30dB)
CPL(-30dB)
CPL(-30dB)
CPL(-30dB)
SERVER
SERVER
SERVER
SERVER
SERVER
ALARM
SERVICE
ADXV-R-3XX
ADXV-R-3XX
DC IN
ADXV-R-3XX
ADXV-R-3XX
DC IN
DC IN
ADXV-R-PSU
ALARM
GUI
ORU
PSU ALARM
RU5
DC IN
RU4
DC IN
ADXV-R-3XX
FAN
OFF – AC - ON
Figure 2-2
DL IN
AC IN 110V
RU1
RU2
RU3
BATTERY
Ground Terminal
Optical Remote Unit
(ORU)
UL OUT
SERVICE
DC IN
Remote Module
(RM)
DL IN
UL OUT
E-UL
UL 1
OPTIC
Power Supply Unit
(PSU)
DL IN
UL OUT
E-DL
UL 2
UL 3
UL 4
UL 5
UL 6
DL 6
Power Supply Unit
(PSU)
SERVICE
DL 2
DL 3
DL 4
DL 5
Remote Module
(RM)
DL IN
LINK
DL 1
DL OUT
VHF-UL
Optical Remote Unit
(ORU)
VHF-DL
1.2.2
ADXV DAS RU Quick View (Front and Rear)
1.3 Warnings and Hazards
WARNING! ELECTRIC SHOCK
Opening the ADXV DAS could result in electric shock and may cause
severe injury.
WARNING! EXPOSURE TO RF
Working with the ADXV DAS while in operation, may expose the technician to RF
electromagnetic fields that exceed FCC rules for human exposure. Visit the FCC website at
www.fcc.gov/oet/rfsafety to learn more about the effects of exposure to RF electromagnetic
fields.
Advanced RF Technologies, Inc.
13
RF EXPOSURE & ANTENNA PLACEMENT Guidelines
Actual separation distance is determined upon gain of antenna used.
Please maintain a minimum safe distance of at least 200 cm while operating near the donor and the server antennas.
ANTENNA INSTALLATION Guidance
- Part 90.635 requirement
Antennas must be installed in accordance with FCC 90.635. With 17 dBi gain antennas the height of the antenna
above average terrain (HAAT) is permitted over 3253m. For different gain antennas refer to the relevant rules.
WARRANTY
Opening or tampering the ADXV DAS will void all warranties.
Lithium Battery: CAUTION. RISK OF EXPLOSION IF BATTERY IS REPLACED BY INCORRECT TYPE.
DISPOSE OF USED BATTERIES ACCORDING TO INSTRUCTIONS.
Ethernet Instructions: This equipment is for indoor use only. All cabling should be limited to inside
the building.
Advanced RF Technologies, Inc.
14
FCC Part 15 Class A
NOTE: This equipment has been tested and found to comply with the limits for a Class A digital
device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable
protection against harmful interference when the equipment is operated in a commercial
environment. This equipment generates, uses, and can radiate radio frequency energy and, if not
installed and used in accordance with the instruction manual, may cause harmful interference to
radio communications. Operation of this equipment in a residential area is likely to cause harmful
interference in which case the user will be required to correct the interference at their own
expense.
FCC Part 20
WARNING. THIS is NOT a CONSUMER device. It is designed for installation by FCC LICENSEES and
QUALIFIED INSTALLERS. You MUST have an FCC LICENSE or express consent of an FCC Licensee to
operate this device. Unauthorized use may result in significant forfeiture penalties, including
penalties in excess of $100,000 for each continuing violation.
Laser Safety
Fiber optic ports of the ADXV DAS emit invisible laser radiation at the 1310, 1550nm wavelength
window.
To avoid eye injury never look directly into the optical ports, patch cords or optical cables. Do not
stare into beam or view directly with optical instruments. Always assume optical output is on.
Only technicians familiar with fiber optic safety practices and procedures should perform optical
fiber connections and disconnections of the ADXV DAS and the associated cables.
The ADXV DAS complies with 21 CFR 1040.10 and 1040.11 except for deviations pursuant to laser
notice No.50 (July26. 2001)@IEC 60825-1, Amendment2 (Jan. 2001).
Advanced RF Technologies, Inc.
15
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 connectors should not come into contact with any object or dust.
Refer to the cleaning procedure for information on the cleaning of the fiber tip.
Use of unauthorized antennas, cables, and/or coupling devices not conforming with
ERP/EIRP and/or indoor-only restrictions is prohibited.
Home/ personal use are prohibited
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.
- Part 90 Signal Boosters
FCC Part 90.219 Class A DEVICE
WARNING. THIS is NOT a CONSUMER device. It is designed for installation by FCC LICENSEES and
QUALIFIED INSTALLERS. You MUST have an FCC LICENSE or express consent of an FCC Licensee to
operate this device. You MUST register Class B signal boosters (as defined in 47 CFR 90.219) online
at www.fcc.gov/signal-boosters/registration. Unauthorized use may result in significant forfeiture
penalties, including penalties in excess of $100,000 for each continuing violation.
WARNING: This is NOT a CONSUMER device. It is designed for installation by an installer approved by
an ISED licensee. You MUST have an ISED LICENCE or the express consent of an ISED licensee to operate
this device.
Advanced RF Technologies, Inc.
16
RSS-GEN, Sec. 7.1.2 – (transmitters)
Under Industry Canada regulations, this radio transmitter may only operate using an antenna of a type and
maximum (or lesser) gain approved for the transmitter by Industry Canada. To reduce potential radio
interference to other users, the antenna type and its gain should be so chosen that the equivalent
isotropically radiated power (e.i.r.p.) is not more than that necessary for successful communication.
Conformément à la réglementation d’Industrie Canada, le présent émetteur radio peut fonctionneravec
une antenne d’un type et d’un gain maximal (ou inférieur) approuvé pour l’émetteur par Industrie Canada.
Dans le but de réduire les risques de brouillage radioélectrique à l’intention desautres utilisateurs,
il faut choisir le type d’antenne et son gain de sorte que la puissance isotroperayonnée quivalente (p.i.r.e.)
ne dépassepas l’intensité nécessaire à l’établissement d’une communication satisfaisante.
RSS-GEN, Sec. 7.1.2 – (detachable antennas)
This radio transmitter (identify the device by certification number, or model number if Category II)has been
approved by Industry Canada to operate with the antenna types listed below with the maximum permissible
gain and required antenna impedance for each antenna type indicated. Antenna types not included in this list,
having a gain greater than the maximum gain indicated for that type, are strictly prohibited for use with this
device.
Le présent émetteur radio (identifier le dispositif par son numéro de certification ou son numéro de
modèle s’il fait partie du matériel de catégorie I) a été approuvé par Industrie Canada pour fonctionner
avec les types d’antenne énumérés ci-dessous et ayant un gain admissible maximal et l’impédance requise
pour chaque type d’antenne. Les types d’antenne non inclus dans cette liste,ou dont le gain est supérieur
au gain maximal indiqué, sont strictement interdits pour l’exploitation de l’émetteur.
RF Radiation Exposure
This equipment complies with RF radiation exposure limits set forth for an uncontrolled environment.
This equipment should be installed and operated with a minimum distance of 200 cm between the radiator
and your body. This transmitter must not be co-located or operating in conjunction with any other antenna or
transmitter. RF exposure will be addressed at time of installation and the use of higher gain antennas
require larger separation distances.
RSS-102 RF Exposure
L’antenne (ou les antennes) doit être installée de façon à maintenir à tout instant une distance
minimum de au moins 200 cm entre la source de radiation (l’antenne) et toute personne physique.
Cet appareil ne doit pas être installé ou utilisé en conjonction avec une autre antenne ou émetteur.
Advanced RF Technologies, Inc.
17
2.
BLOCK DIAGRAM
2.1 ADXV DAS Block Diagram
HE
TX
Common
RX
AWS
POI
DL
UL
DL IN
V/UHF(136~512)
DL IN
(698~2690)
TX
Common
RX
UL
TX
Common
RX
S8C
POI
UL
TX
Common
RX
700L
POI
UL
TX
Common
RX
UL
PCS
POI
700U
POI
DL
UL OUT
V/UHF(136~512)
ODU#1
UL OUT
(698~2690)
CHC
DL
DL
CHC
DL
RU
ORU
RF
7F
RM
Duplexer
RF
S8C
RM
Duplexer
RF
PCS
RM
Duplexer
RF
AWS
RM
Duplexer
PSU
Figure 2-1
Advanced RF Technologies, Inc.
ADXV DAS Block Diagram
18
2.2 ADXV-DAS Scalability
Table 2-1
Unit
Scalability
Supported band
700F, Cellular, AWS, PCS, SMR800, PS78,
VU(VHF, UHF), BRS FDD, BRS TDD, WCS
HE
POI
No limitation in 12 slots except NMS
CHC
No limitation in 12 slots except NMS
No limitation in 12 slots except NMS
In case of Aux, No limit in 8 Aux ports
64
RU
PSU
(RU)
Remarks
NMS
Optic Unit
RU
ADXV-DAS Scalability
Adaptor type
1 per Remote Module(RM)
19” rack mount
(AC or DC)
Advanced RF Technologies, Inc.
Capable of supplying power to 5 Remote
Modules
19
3.
ADXV OVERVIEW
3.1 Head End
The head end unit always has to be connected to the Base Station using a direct cabled connection. This
system has not been approved for use with a wireless connection via server antenna to the base station.
• Specifications
Size: 19.0 x 19.7 x 7inches (482 x 500 x 178 mm)
Weight: 64.8lbs @5 POI, 2 CHC, ODU and NMS
Power Input: 110VAC(optional) or -48VDC
VHF UL
DL IN1
DL IN2
DL IN3
DL IN4
DL IN1
DL IN2
DL IN3
DL OUT
UL
BTS
DL/UL
DL IN5
DL IN5
DL IN6
DL IN6
DL IN7
DL IN8
BTS
DL/UL
SERVICE
DL IN7
DL IN8
BTS
DL/UL
UL IN
OPTIC4
BTS
DL/UL
SERVICE
OPTIC3
UL IN
OPTIC2
DL IN4
E911
DL OUT
UL
UL
OPTIC1
VHF UL
SERVICE
UL OUT
E911
BTS
DL/UL
E911
SERVICE
PWR
DL OUT
DL OUT
-48V
LD
UL
UL
RTN
PD4
BTS
DL/UL
DL OUT5 DL OUT6 DL OUT7 DL OUT8
BTS
DL/UL
PD3
BTS
DL/UL
PD1 PD2
N(-)
DL OUT5 DL OUT6 DL OUT7 DL OUT8
P(+)
AAI
ADXV-H-ODU-4
VHF DL
SERVICE
01
02
03
04
05
ADXV-H-CHC-88-DL ADXV-H-CHC-88-UL
SERVICE
DL OUT
BTS
DL/UL
SERVICE
LINK
ADXV-H-POI-X
UL IN
BTS
DL/UL
SERVICE
LAN1
ADXV-H-POI-X
UL IN
UL IN
LAN0
ADXV-H-POI-X
DL IN
E911
ADXV-H-POI-X
E911
ADXV-H-POI-X
DL OUT1 DL OUT2 DL OUT3 DL OUT4
REMOTE
DL OUT1 DL OUT2 DL OUT3 DL OUT4
LAN0
DL IN 1
ADXV-H-NMS-DC
HOST
DL IN 1
DC IN
ADXV-H-CHC-88-UL ADXV-H-CHC-88-DL
ADXV-H-POI-X
ADXV-H-POI-X
ADXV-H-POI-X
ADXV-H-POI-X
ADXV-H-POI-X
Advanced RF Technologies, Inc.
ADXV-H-ODU-4
Figure 3-1
Head End Front View
20
3.1.1
NMS (Network Management System)
• Functions and features
Supports SNMP v1, v2, and v3 (get, set & trap) and web-based GUI Interface.
Monitors alarms and status
Provides control interfaces with all subordinate modules
Provides overall DAS structure via the auto tree update function
ADXV-H-NMS-DC is for DC type
ADXV-H-NMS-AC is for AC type
HE’s battery backup option is available only in ADXV-H-NMS-AC
Size: 19.0 x 12.1 x 1.7inches
Weight: 3.5lbs
• Spec
ADXV-H-NMS-DC
LAN0
HOST
REMOTE
LAN0
LAN1
LINK
SERVICE
01
02
03
04
05
P(+)
N(-)
AAI
RTN
-48V
DC IN
Figure 3-2
Advanced RF Technologies, Inc.
ADXV-H-NMS-DC Front View
21
ADXV-H-NMS-AC
LAN0
HOST
REMOTE
LAN0
LAN1
LINK
SERVICE
BATTERY
OFF - AC - ON
AC IN 110V
Figure 3-3
ADXV-H-NMS-AC Front View
3.1.1.1 LEDs
NMS has LEDs on the front panel as shown in Figure 3-4.
POWER LINK
Figure 3-4
Table 3-1
NMS LED
NMS LED Specifications
ADXV DAS-NMS
POWER
LINK
Solid Green
OFF
Solid Red
Solid Green
Specifications
NMS power is ON
NMS power is OFF
HE Link Fail alarm exists in the system
No HE Link Fail alarms are present in the system
3.1.1.2 AAI (only for DC type)
Advanced RF Technologies, Inc.
22
01
02
03
04
05
P(+)
Figure 3-5
N(-)
NMS AAI
NMS has 5 external alarms out interface pins on the front panel.
Table 3-2
NMS AAI Specifications
AAI Alarm Status
Normal
Alarm
Output
High Impedance (Open)
Low Impedance (Short)
3.1.1.3 Ethernet Port
The Ethernet port can be used to communicate directly with the ADXV DAS using a RJ-45 crossover cable or can
also be used to connect the ADXV DAS to an external modem box.
LAN0
LAN1
Figure 3-6
Ethernet Port
3.1.1.4 Host/Remote Switch
The Host/Remote Switch allows the user to switch the default Repeater IP, Subnet Mask, and Gateway of the
repeater to an alternative setup. These settings can be adjusted by logging into the ADXV DAS in HOST mode and
configuring the settings under the Modem Box Setting section under the Install Page of NMS.
Once the settings are set, flipping the switch to the REMOTE position will reboot NMS module with the new
alternate settings. Please note that when the NMS is set to the REMOTE position, DHCP is disabled and the NMS will
not automatically assign an IP address to any device that connects directly to the NMS.
Advanced RF Technologies, Inc.
23
LAN0
HOST
REMOTE
Figure 3-7
Host/Remote Switch
• Host IP: 192.168.63.1 (Fixed IP, unable to modify this IP address)
• Remote IP: 192.168.63.5 (Default IP, but can be modified in Host mode)
3.1.1.5 Power Connection
•
For DC type(-48VDC)
ADXV-H-NMS-DC has terminal block for DC power connection on the front panel.
You should verify voltage and power polarity of each power line and should turn on the power after power
connection necessarily.
RTN
-48V
DC IN
Advanced RF Technologies, Inc.
24
0
OS
•
For AC type(AC 110V)
ADXV-H-NMS-AC has two push-lock connectors for battery backup and AC power connection on the front
panel.
You should verify voltage and should turn on the power
Cafter power connection necessarily
BATTERY
OFF - AC - ON
AC IN 110V
3.1.1.6 POI (ADXV-H-POI-x)
E911
ADXV-H-POI-X
UL
SERVICE
DL OUT
UL IN
BTS
DL/UL
BTS
DL/UL
ADXV-H-POI-X
Figure 3-8
POI front View
• Functions and features
Provide RF interface with BTS
Each POI has independent gain control and filtering
Modular type and hot swappable
Supports duplex port and simplex RX port
Advanced RF Technologies, Inc.
25
-
Easily support additional frequency bands by adding a POI
Reduces complexity and overall equipment size
• Specifications
3.1.2
Size: 1.3 x 17.0 x 6.85 (in)
Weight: 6.17lbs
POIL (ADXV-H-POIL-x)
E911
ADXV-H-POIL-X
DL OUT
UL IN
SERVICE
UL
UL
DPX
DPX
ADXV-H-POIL-X
Figure 3-9
POIL front View
• Functions and features
Provide RF interface with BTS
Each POIL has independent gain control and filtering
Modular type and hot swappable
Supports duplex port and simplex RX port
Easily support additional frequency bands by adding a POIL
Reduces complexity and overall equipment size
• Specifications
Size: 1.3 x 17.0 x 6.85 (in)
Weight: 5.0 lbs
Advanced RF Technologies, Inc.
26
3.1.3
POIL-VU (ADXV-H-POIL-VU)
ADXV-H-POIL-VU
UL IN1
DL OUT1
UL IN2
DL OUT2
UL IN3
DL OUT3
SERVICE
UL IN4
DL OUT4
UL
UL IN5
DL OUT5
UL IN6
DL OUT6
UL
DL
UL IN7
DL OUT7
UL IN8
DL OUT8
DL
ADXV-H-POIL-VU
Figure 3-10 POIL-VU front View
• Functions and features
Supports VHF/UHF frequency band
Provide RF interface with BTS
Modular type and hot swappable
Supports simplex TX and RX port
• Specifications
Size: 2.6 x 17.1 x 6.85 (in)
Weight: 8.85 lbs
3.1.3.1 LED
POI has LEDs on the front panel as shown in Figure 3-11.
POWER
Figure 3-11 POI LED
Table 3-3
Advanced RF Technologies, Inc.
POI LED Specifications
27
POI
Power
Specifications
Solid Green
Solid Red
Solid Yellow
POI power is ON and POI/POIL is normal status
POI power is ON and POI/POIL is hard fail alarm status
POI power is ON and POI/POIL is soft fail alarm status
3.1.3.2 RF Ports
BTS DL/UL, DL OUT, UL IN, E911 Ports (refer to Figure 3-8) are located at the front of the POI
Table 3-4
RF Port
BTS DL/UL
DL OUT
UL IN
UL OUT
E911
Function
BTS Interface, DL duplexer Input, UL duplexer output
DL output
UL input
UL output not passing through duplexer
E911 RF interface
Channel Combiner (CHC, ADXV-H-CHC)
DL IN1
DL IN2
DL IN3
DL IN4
DL IN5
DL IN5
DL IN6
DL IN6
DL IN7
DL IN8
DL IN2
DL IN3
DL IN4
DL IN 1
DL IN7
DL OUT5 DL OUT6 DL OUT7 DL OUT8
DL OUT5 DL OUT6 DL OUT7 DL OUT8
DL IN8
ADXV-H-CHC-88-UL
DL OUT1 DL OUT2 DL OUT3 DL OUT4
DL OUT1 DL OUT2 DL OUT3 DL OUT4
DL IN1
ADXV-H-CHC-88-DL
DL IN 1
3.1.4
POI RF port
SERVICE
SERVICE
ADXV-H-CHC-88-DL
ADXV-H-CHC-88-UL
Figure 3-12 ADXV-H-CHC Front View
• Functions & Features
Combines DL signals received from each POI and feeds the combined signals to the ADXV-H-ODU
Combines UL signals received from each RU and feeds the combined signal to the ADXV-H-POI
No limit of installation number and location to install POI/POIL, ODU, CHC card in 12 slots except
NMS card
• Specifications
Advanced RF Technologies, Inc.
28
-
Size: 1.3 x 17.0 x 6.85 (in)
Weight: 4.4lbs per CHC
3.1.4.1 RF ports
3.1.4.1.1
RF ports at the front panel (DL 1 to DL 8, UL 1 to UL 8)
DL 1(to DL 8) & UL 1(to UL 8) RF ports are connected to DL OUT/UL IN Ports at the front panel of POI.
• Receive the downlink signal from each POI
• Split the uplink signal received from ODU to each POI
3.1.4.1.2
RF ports at the back panel (DL 1 to DL 8, UL 1 to UL 8)
DL 1(to DL 8) & UL 1(to UL 8) RF ports are connected to DL IN/UL OUT Ports at the back panel of ODU.
• Transfer the combined downlink signals to ODU
• Receive the uplink signal from ODU
3.1.5
Optical Donor Unit (ODU, ADXV-H-ODU-4)
ADXV-H-ODU-4
DL IN
OPTIC1
VHF DL
PD3
OPTIC2
PD1 PD2
PD4
OPTIC3
LD
PWR
OPTIC4
UL OUT
VHF UL
VHF UL
ADXV-H-ODU-4
Figure 3-13
ADXV-H-ODU-4 Front view
• Functions & Features
Converts signal from RF to optic and transports signals up to a maximum of 10Km (optical 5dBo
loss including optical connection loss).
One ADXV-H-ODU-4 supports up to 4 RUs
Minimizes the number of optic fiber cable need by transporting multi band signals over a single
strand of fiber using WDM technology.
• Spec
Size: 1.3 x 17.0 x 6.85 (in)
Weight: 5.3lbs
3.1.5.1 LED
Advanced RF Technologies, Inc.
29
The ADXV-H-ODU-4 has the following LEDs on the front panel as shown in Figure 3-14.
PD1
PD2
PD3
PD4
LD
PWR
Figure 3-14 ADXV-H-ODU-4 LED
Table 3-5
ODU LED Specifications
ADXV DAS-Module
PWR
LD
PD1 to PD4
Solid Green
OFF
OFF
Solid Yellow
Solid Green
Solid Yellow
Solid Green
Specifications
Module power is ON
Module power is OFF
ODU is not installed
LD Fail alarm exists in the ODU
No LD Fail alarm is present in the ODU
PD Fail alarm exists
No PD Fail alarm is present
3.1.5.2 RF Ports
DL IN
VHF DL
UL OUT
VHF UL
Figure 3-15 ODU RF Ports
3.1.5.2.1
DL IN/UL OUT
The combined downlink signal received from ADXV-H-CHC is transferred to the DL IN at the back of ODU.
The UL OUT port connects any of the ports on back of the ADXV-H-CHC labeled UL 1 ~8.
3.1.5.2.2
VHF DL/VHF UL
VHF DL/UHF UL ports are used to support Public Safety in the VHF & UHF frequency bands. VHF/UHF signals for
Public Safety bypass the ADXV-H-CHC and connect directly to the VHF DL/UHF UL ports of the ADXV-H-ODU.
3.1.5.3 Optic Ports
LINK 4
LINK 3
LINK 2
LINK 1
Figure 3-16 ODU Optic Ports
The ADXV-H-ODU4 has (4) optic ports and can support up to (4) Main RU’s. Likewise, the ADXV-H-ODU1 has (1)
optic ports and can support up to (1) Main RU.
3.2 Remote Unit (RU)
A remote unit (single RU chassis base) is composed of an ORU (Optical Remote Unit), a PSU (Power
Supply Unit) and plural band’s RM (Remote Module).
• Specifications
Size: 19.0 x 15.0 x 7 inches (482 x 380 x 178 mm)
Weight: 62.17lbs (28.2 Kg)@4 RM(337F/33S8C/37P/37A), ORU and PSU
Power Input: 110VAC(optional) or -48VDC
Advanced RF Technologies, Inc.
30
UL IN
DL IN
UL OUT
DL IN
UL OUT
DL IN
UL OUT
SERVICE
SERVICE
SERVICE
SERVICE
CPL(-30dB)
CPL(-30dB)
CPL(-30dB)
CPL(-30dB)
CPL(-30dB)
SERVER
SERVER
SERVER
SERVER
SERVER
ALARM
SERVICE
LINK
SERVICE
E-DL
SERVICE
ADXV-R-3XX
ADXV-R-3XX
ADXV-R-3XX
ADXV-R-3XX
ADXV-R-3XX
DC IN
DC IN
DC IN
DC IN
DC IN
DC IN
DC IN
DC IN
DC IN
AC IN 110V
ALARM
GUI
ORU
PSU ALARM
RU5
DC IN
RU4
FAN
AC IN 110V
ALARM
GUI
ORU
PSU ALARM
RU5
DC IN
RU4
DC IN
ADXV-R-PSU
FAN
UL 6
UL OUT
VHF-UL
UL 3
UL 5
UL 4
BATTERY
RU3
RU2
RU1
OFF – AC - ON
BATTERY
RU3
RU2
RU1
ADXV-R-ORU
OFF – AC - ON
DL IN
VHF-DL
UL 2
DL 1
DL 2
DL 3
DL 4
DL 5
DL 6
OPTIC
UL OUT
E-UL
DL IN
UL 1
DL OUT
Figure 3-17 ADXV-R Front and Rear (without FAN and with FAN) View
Advanced RF Technologies, Inc.
31
3.2.1
Remote Module (RM, ADXV-R-3xx)
DL IN
UL OUT
DC IN
SERVICE
CPL(-30dB)
SERVER
ADXV-R-3XX
Figure 3-18 ADXV-R-3XX (RM) Front and Rear View
• Spec
Size: 2.3 x 13.8 x 6.85 (in)
Weight: 9.92 lbs
3.2.1.1 RM ID numbering and RF line connection scheme
RM ID right next to ORU is RM #1, RM 2nd next is RM #2 and the rest of RMs’ ID numbering is in the same order.
With RF connection between ORU and RM, it is necessary RM ID number should be equal to DL/UL port number
of ORU because of RM ID management and normal serial communication.
UL IN
UL 1
UL 2
DL IN
UL OUT
DL IN
UL OUT
DL IN
UL OUT
SERVICE
SERVICE
SERVICE
SERVICE
SERVICE
CPL(-30dB)
CPL(-30dB)
CPL(-30dB)
CPL(-30dB)
CPL(-30dB)
SERVER
SERVER
SERVER
SERVER
SERVER
ALARM
SERVICE
E-DL
UL 3
SERVICE
UL 4
UL OUT
LINK
UL 5
UL 6
ADXV-R-ORU
DL IN
VHF-UL
DL 1
DL 2
DL 3
DL 4
DL 5
DL 6
OPTIC
UL OUT
E-UL
DL IN
VHF-DL
DL OUT
ADXV-R-3XX
ADXV-R-3XX
ADXV-R-3XX
ADXV-R-3XX
ADXV-R-3XX
RM #1
RM #2
RM #3
RM #4
RM #5
ADXV-R-PSU
Figure 3-19 RM ID numbering and RF connection between ORU and RM
Advanced RF Technologies, Inc.
32
3.2.1.2 RF port
DL IN/UL OUT connect to ORU’s DL port and UL port, it is necessary to connect UL’s port number equal to DL’s
because of serial communication with ORU.
CPL (-30dB): DL output 30dB coupling
SERVER: DL output, UL input, Server Duplexer port
3.2.1.3 Power port
DC IN: Port for power supply (+27VDC) and communication with Controller inside PSU.
3.2.1.4 LED
LED color
Green
Yellow
Red
Optical Remote Unit (ORU, ADXV-R-ORU)
DC IN
PSU ALARM
E-DL
SERVICE
FAN
GUI
LINK
VHF-UL
UL 6
UL 5
UL 4
UL 3
UL 2
DL 1
DL 2
DL 3
DL 4
DL 5
DL 6
OPTIC
E-UL
UL IN
UL 1
DL OUT
VHF-DL
3.2.2
Status
Normal
Soft fail
Hard fail
ADXV-R-ORU
Figure 3-20 ADXV-R-ORU Front and Rear View
• Spec
Size: 2.3 x 13.8 x 6.85 (in)
Weight: 9.26lbs
3.2.2.1 Front port
- DL1-DL6: DL port connect to ‘DL IN’ of RM (Remote Module) (see 3.2.1.1)
- UL1-UL6: UL port connect to ‘UL OUT’ of RM (Remote Module) (see 3.2.1.1)
- E-DL/E-UL ports connect to external splitter for extension of band RM
- VHF-DL/VHF-UL ports connect to the ADXV VHF/UHF RM
- OPTIC port connects with optic line with waterproof optical connector (provided by ADRF)
Advanced RF Technologies, Inc.
33
3.2.2.2 Rear port
- DC IN port connects to PSU’s ORU port.
- PSU ALARM port connects to PSU’s ALARM port.
- GUI port for connection to Lap- top.
- FAN port for connection to FAN unit.
3.2.2.3 LED
LED
LED color
Green
Yellow
Green
Yellow
Red
Link
Service
RU4
PSU (ADXV-R-PSU)
RU1
3.2.3
Status
Link normal
Link fail
Normal
Soft fail
Hard fail
RU5
SERVICE
AC IN 110V
OFF – AC - ON
ADXV-R-PSU
ALARM
BATTERY
RU3
ORU
RU2
ALARM
Figure 3-21 ADXV-R-PSU Front and Rear View
• Spec
Size: 2.3 x 13.8 x 6.8 (in)
Weight: 7.5lbs for DC PSU
3.2.3.1 Port
- RU1-RU5 ports connect respectively to RU’s rear port.
- ORU port connects to ORU.
- BATTERY port connects to optional battery box.
- ALARM port connects to ‘PSU ALARM’ port of ORU
- AC IN 110V port connects to AC 110V
Advanced RF Technologies, Inc.
34
3.2.3.2 LED
LED
ALARM
LED color
Green
Yellow
Green
Yellow
Red
SERVICE
Status
Normal
Link fail
Normal
Soft fail
Hard fail
3.2.3.3 AC Switch
The ADXV-RU is operated at 110 AC.
(WARNING: The AC switch must be set to OFF before cable connection to avoid equipment damage and
personal injury.)
(WARNING: To avoid damage, be sure 110V AC for operation of ADXV-RU.)
(CAUTION: DOUBLE POLE/NEUTRAL FUSING.)
The procedure for connecting RU
 AC S/W OFF
 AC cable connection
 Optic connection
 RF cable connection
 AC S/W ON
Figure 3-22 ADXV-R-PSU Front and Rear View
3.3 Remote Unit (RU) for N4X
N4X is for PS78 and VU
N4X RU is composed of an ORU, a PSU and an RM(PS78 or VU)
• Specifications
Size: 9.85 x 15 x 6.6 (in)
Weight: 26.5lbs
Power Input: 110VAC
Advanced RF Technologies, Inc.
35
ADXV-R-3378P-N4X
SERVER
AC IN
100-240V
OPTIC
GUI
Ext. ALARM
BATTERY
EF-UL IN EF-UL OUT EF-DL OUT EF-DL IN
ADRF-BBU ONLY
Figure 3-23 ADXV-R-3378P-N4X Front and Bottom View
Advanced RF Technologies, Inc.
36
ADXV-R-25VU-N4X
DL OUT
AC IN
100-240V
UL IN
OPTIC
GUI
Ext. ALARM
BATTERY
ADRF-BBU ONLY
Figure 3-24 ADXV-R-25VU-N4X Front and Bottom View
3.3.1
Port
78PS: SERVER, OPTIC, GUI, AC IN, BATTERY, EXTERNAL ALARM, EF-UL IN, EF-UL OUT, EF-DL OUT,
EF-DL IN
VU: DL OUT, UL IN, OPTIC, GUI, BATTERY, AC IN, EXTERNAL ALARM
Advanced RF Technologies, Inc.
37
4.
CABLE CONNECTION
4.1 Head End Connection Diagrams
DL IN1
DL IN2
DL IN3
DL IN4
DL IN1
DL IN2
DL IN3
DL OUT
UL
UL
DL IN4
E911
E911
DL OUT
DL IN5
DL IN6
DL IN7
DL IN8
DL IN5
DL IN7
DL IN6
DL OUT
BTS
DL/UL
BTS
DL/UL
DL IN8
OPTIC4
UL OUT
VHF UL
VHF UL
BTS
DL/UL
SERVICE
PWR
VHF UL
VHF UL
BTS
DL/UL
UL IN
OPTIC3
LD
OPTIC4
UL OUT
SERVICE
PD4
OPTIC3
PWR
UL IN
OPTIC2
PD3
OPTIC2
PD1 PD2
UL
OPTIC1
VHF DL
OPTIC1
LD
SERVICE
ADXV-H-ODU-4
PD4
E911
BTS
DL/UL
E911
SERVICE
PD3
DL OUT
DL OUT
-48V
UL
UL
RTN
PD1 PD2
BTS
DL/UL
BTS
DL/UL
DL OUT5 DL OUT6 DL OUT7 DL OUT8
BTS
DL/UL
ADXV-H-ODU-4
VHF DL
N(-)
DL OUT5 DL OUT6 DL OUT7 DL OUT8
P(+)
AAI
SERVICE
SERVICE
01
02
03
04
05
ADXV-H-CHC-88-DL ADXV-H-CHC-88-UL
DL IN
BTS
DL/UL
SERVICE
LINK
ADXV-H-POI-X
UL IN
BTS
DL/UL
SERVICE
LAN1
ADXV-H-POI-X
UL IN
UL IN
LAN0
ADXV-H-POI-X
DL IN
E911
ADXV-H-POI-X
DL IN 1
ADXV-H-POI-X
DL OUT1 DL OUT2 DL OUT3 DL OUT4
REMOTE
DL OUT1 DL OUT2 DL OUT3 DL OUT4
LAN0
DL IN 1
ADXV-H-NMS-DC
HOST
DC IN
ADXV-H-ODU-4
ADXV-H-ODU-4
ADXV-H-CHC-88-UL ADXV-H-CHC-88-DL
ADXV-H-POI-X
ADXV-H-POI-X
ADXV-H-POI-X
ADXV-H-POI-X
ADXV-H-POI-X
Figure 4-1
HE Cable connection (4 ADXV-H-POIs, 2 ADXV-H-ODUs)
Advanced RF Technologies, Inc.
38
4.2 Remote Unit Connection Diagrams
UL IN
DL IN
UL OUT
UL OUT
DL IN
UL OUT
SERVICE
SERVICE
SERVICE
SERVICE
CPL(-30dB)
CPL(-30dB)
CPL(-30dB)
CPL(-30dB)
CPL(-30dB)
SERVER
SERVER
SERVER
SERVER
SERVER
SERVICE
ADXV-R-3XX
ADXV-R-3XX
ADXV-R-3XX
ADXV-R-3XX
ADXV-R-3XX
ORU
RM #1
RM #2
RM #3
RM #4
RM #5
DC IN
DC IN
DC IN
DC IN
ADXV-R-PSU
PSU
DC IN
PSU
GUI
FAN
OFF – AC - ON
AC IN 110V
ALARM
BATTERY
RU3
ORU
PSU ALARM
RU5
DC IN
RU4
RU1
SERVICE
LINK
ADXV-R-ORU
RU2
ALARM
E-DL
SERVICE
VHF-UL
UL 5
UL 6
DL IN
UL OUT
VHF-DL
UL 3
UL 4
UL 2
DL 2
DL 3
DL 4
DL 5
DL 6
OPTIC
DL IN
UL OUT
E-UL
DL IN
UL 1
DL 1
DL OUT
RM #5
RM #4
Figure 4-2
Advanced RF Technologies, Inc.
RM #3
RM #2
ADXV-RU 5ands connection
39
RM #1
ORU
5.
MOUNTING METHOD
5.1 Head End
Rack Mount
SD
DL IN1
DL IN2
DL IN3
DL IN4
E911
DL IN1
DL IN2
DL IN3
DL OUT
UL
DL IN4
E911
DL IN5
DL IN6
DL IN7
DL IN8
DL IN5
DL IN7
UL OUT
OPTIC4
BTS
DL/UL
SERVICE
AUX 7
VHF UL
BTS
DL/UL
E911
VHF UL
BTS
DL/UL
SERVICE
AUX 5
AUX 7
PWR
UL IN
LD
SERVICE
AUX 3
AUX 5
OPTIC3
UL IN
PD4
DL IN6
DL OUT
DL OUT
UL
BTS
DL/UL
PD3
DL OUT
BTS
DL/UL
E911
SERVICE
AUX 1
AUX 3
OPTIC2
PD1 PD2
UL
DL OUT
-48V
AUX 1
OPTIC1
BTS
DL/UL
UL
RTN
ADXV-H-ODU-4
VHF DL
BTS
DL/UL
BTS
DL/UL
DL OUT5 DL OUT6 DL OUT7 DL OUT8
N(-)
DL OUT5 DL OUT6 DL OUT7 DL OUT8
P(+)
AAI
SERVICE
SERVICE
01
02
03
04
05
ADXV-H-CHC-88-DL ADXV-H-CHC-88-UL
UL IN
UL
ADXV-H-POI-X
BTS
DL/UL
SERVICE
SERVICE
LINK
ADXV-H-POI-X
UL IN
UL IN
LAN1
ADXV-H-POI-X
BTS
DL/UL
SD
DL IN
E911
ADXV-H-POI-X
DL IN8
ADXV-H-POI-X
DL OUT1 DL OUT2 DL OUT3 DL OUT4
REMOTE
DL OUT1 DL OUT2 DL OUT3 DL OUT4
LAN0
DL IN 1
ADXV-H-NMS-DC
HOST
LAN0
DL IN 1
DC IN
ADXV-H-ODU-4
ADXV-H-CHC-88-UL ADXV-H-CHC-88-DL
ADXV-H-POI-X
ADXV-H-POI-X
ADXV-H-POI-X
ADXV-H-POI-X
ADXV-H-POI-X
5.1.1
Figure 5-1
Advanced RF Technologies, Inc.
HE Rack Mount (Front & Rear view)
40
5.2 RU
5.2.1
Rack Mount
SD
DL IN
UL OUT
DL IN
UL OUT
DL IN
UL OUT
DL IN
UL OUT
CPL(-30dB)
RU2
BATTERY
ADXV-R-3XX
SERVER
ADXV-R-3XX
SERVER
ADXV-R-3XX
SERVER
ADXV-R-3XX
SERVER
ADXV-R-3XX
Figure 5-2
6.
RU3
SERVICE
LINK
VHF-UL
SERVER
ADXV-R-ORU
DC IN
ADXV-R-PSU
RU5
CPL(-30dB)
DC IN
ORU
CPL(-30dB)
DC IN
ALARM
CPL(-30dB)
DC IN
SERVICE
AC IN 110V
CPL(-30dB)
ALARM
RU4
RU1
E-UL
SERVICE
E-DL
SERVICE
OFF – AC - ON
OPTIC
SERVICE
VHF-DL
UL 3
UL 2
DL 3
UL 4
UL 5
UL 6
DL 6
DL 5
DL 4
DL 2
UL 1
DL 1
DC IN
SERVICE
DC IN
UL OUT
SERVICE
PSU ALARM
DL IN
GUI
UL IN
FAN
DL OUT
SD
RU Rack Mount Front and Rear View
INSTALLATION
6.1 Pre-Installation Inspection
Please follow these procedures before installing ADXV RU equipment:
Verify the number of packages received against the packing list.
Check all packages for external damage; report any external damage to the shipping carrier. If
there is damage, a shipping agent should be present before you unpack and inspect the contents
because damage caused during transit is the responsibility of the shipping agent.
Open and check each package against the packing list. If any items are missing, contact ADRF
customer service.
If damage is discovered at the time of installation, contact the shipping agent.
Verify the AC voltage with DVM (Volt meter) is 110V AC. Incorrect AC voltage can damage the ADXV
equipment.
This power of this system shall be supplied through wiring installed in a normal building. If powered
directly from the mains distribution system, it shall be used additional protection, such as
overvoltage protection device.
Over voltage category(OVC) & Pollution degree(PD)
Over voltage category (OVC)
Advanced RF Technologies, Inc.
OVC II
41
Pollution degree (PD)
PD2
6.2 ADXV DAS Installation Procedure
6.2.1
HE Installation Procedure
CAUTION: ADXV DAS HE should be installed inside building only.
6.2.1.1 Installing a ADXV DAS HE in a rack
The ADXV HE chassis mounts in a standard 19” (483mm) equipment rack. Allow clearance of 3” (76mm) at the
front and rear, and 2” (51mm) on both sides for air circulation. No top or bottom clearance is required.
• Consideration:
Eight mounting holes are located on 4 corners of ADXV HE to attach it to the 19” rack. The ADXV
HE must be securely attached to a rack that can support the weight of the ADX.
• Mount procedure
The following steps should be followed while mounting the ADXV HE
Verify that the HE and Mounting holes are in good condition
Set the ADXV DAS HE against the 19”rack and secure the unit with screws
Verify that ADXV HE is securely attached
Connect the GND cable
Connect the RF cable
Connect the Power
Connect the Optic cable
Advanced RF Technologies, Inc.
42
Figure 6-1
Advanced RF Technologies, Inc.
HE Installation Procedure
43
6.2.2
RU Installation Procedure
The ADXV RU chassis mounts in a standard 19” (483mm) equipment rack. Allow clearance of 3” (76mm) at the
front and rear, and 2” (51mm) on both sides for air circulation. No top or bottom clearance is required.
• Consideration:
Eight mounting holes are located on 4 corners of ADXV RU to attach it to the 19” rack. The ADXV
RU must be securely attached to a rack that can support the weight of the ADXV.
External Cavity Filter Set(ADXV-R-25VU-N4X)
For actual operation of system for prevention from unnecessary frequency, external server cavity
filter set is needed which user can define specifications (frequency, bandwidth, rejection, etc.) of.
• Procedure
The following steps should be followed while mounting the ADXV RU
Verify that the RU and Mounting holes are in good condition
Set the ADXV DAS RU against the 19”rack and secure the unit with screws
Verify that ADXV RU is securely attached
Connect the GND cable
Connect the RF coaxial cable
Connect the Power
Connect the Optic cable
Procedure
External Cavity Filter Set(ADXV-R-25VU-N4X)
For actual operation of system for prevention from unnecessary frequency, external server cavity
filter set is needed which user can define specifications (frequency, bandwidth, rejection, etc.) of.
Our systems are provided with External cavity filter set in it.
Advanced RF Technologies, Inc.
44
Figure 6-2
Advanced RF Technologies, Inc.
RU Installation Procedure
45
6.2.3 RF coaxial cable and antenna connection
The coaxial cables which are connected to antenna port of RU. 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 15dB or VSWR have below 1.5
The part of antenna connection fasten to port not to be loosed and not to be injected the dusty and
insects
The antenna connected to RU is only serviced in in-building
6.3 Grounding
A ground cable is included in the box. The grounding terminals are located at the rear of the ADXV HE and RU.
The grounding cable should be properly connected before powering on the equipment.
ot
Ground Terminal
Figure 6-3
DC IN
AUX 3
AUX 3
AUX 5
AUX 5
AUX 7
AUX 7
Fan Unit
HE Ground
Cable Connection, Protective Earthing Conductor (HE chassis rear side)
DC IN
Ground Terminal
FAN
GUI
PSU ALARM
DC IN
DC IN
Figure 6-4
RU Ground Cable Connection, Protective Earthing Conductor (RU chassis rear side)
Round terminals located on the side of a 1.25mm²(16AWG)or more wires Using permanently connected to
earth(Protective earthing conductor).
Advanced RF Technologies, Inc.
46
6.4 Optic Port Cleaning
• We recommend cleaning optic connector using a dry optical cleaning swab or tissue in a dry environment as
needed. We recommend cleaning the optic connectors only if the expected optic loss is higher than the
loss reported in the Web-GUI by 1.5dBo. (Figure 6-5)
• When optic connector are not in use, the port should be covered with a protective dust cap. (Figure 6-6)
Figure 6-5
Optic Connector Cleaning (left) and Optic Port Cleaning (right)
Figure 6-6
Advanced RF Technologies, Inc.
SC/APC Optic Connector Dust Cap
47
7.
WEB-GUI
7.1 Web-GUI Setup
The Web-GUI allows the user to communicate with the DAS system either locally or remotely. To connect to
the DAS system locally, you will need a laptop with an Ethernet port and a RJ-45 crossover cable. To connect to the
DAS system remotely, you will need to have an active internet connection and the ADXV system must have and
external modem box connected to the ADX.
7.1.1
DAS system/PC Connection Using Web-GUI
• Verify that your Local Area Connection is set to Obtain an IP address automatically under the Internet
Protocol (TCP/IP) properties
If you are connecting to the unit remotely (use of a modem), then skip this and next step.
• Connect the RJ-45 crossover cable between the laptop’s Ethernet port and the repeater’s Ethernet port
• Launch an Internet Browser
• Type the following IP address into the address bar of Microsoft Internet Explorer: http://192.168.63.1
If you are connecting to the unit remotely, then type the IP address of the modem to connect to
the unit
• The following login screen will appear:
Figure 7-1
Login screen
If you are not the Administrator, please type in your assigned username & password which you should have
received from the Administrator.
Table 7-1
Account Information for Login
Account type
Show items
Control Items
Default ID
Default Password
Administrator
User
Guest
all Items
restricted items
restricted items
all items
restricted items
read-only
admin
adrf
guest
admin
adrf
guest
Advanced RF Technologies, Inc.
48
7.2 Administrator/User Mode
7.2.1
Common
7.2.1.1 Navigation Tree
The navigation tree located on the left hand side of the Web-GUI allows the user to switch between the
various modules that are connected to the system.
Table 7-2
Navigation tree
Parameters
Description
Expands the entire navigation tree
Collapses the entire navigation tree
The module has the expandable subordinate modules
The branch is currently expanded
The module has soft fail alarm
The module has hard fail alarm
The module has no alarms (normal)
The selected module will have orange colored text
7.2.1.2 Power Status
Display the power source that is currently being used.
Table 7-3
Input Power Status
Power Supply Status
Display Image
AC
Battery
7.2.1.3 Commissioning Status
Display whether or not the module has successfully been commissioned.
Table 7-4
Status
Commissioning ICON
Display Image
Commissioned
Not-Commissioned
7.2.1.4 Information
Advanced RF Technologies, Inc.
49
Figure 7-2
ADXV DAS General Information
• Information: Displays the serial number, latitude/longitude, firmware version of selected module, and Web
GUI version of the NMS.
• Location: Displays the address where the ADXV DAS is installed.
• Description: Displays the description of selected module. The description of each module can be edited from
the Install tab. It is recommended to use the location of the module as the description. This description
information can be seen when hovering over the device tree in order to easily identify each component.
• Technical Support: Displays ADRF’s Technical Support contact information.
• Installer Contact Info: Displays the contact information of the installer.
Advanced RF Technologies, Inc.
50
7.2.2
Status Tab
7.2.2.1 Status – NMS
The NMS Status page provides an overall view of how the system is performing. From the NMS Status page, the
user can see what modules are connected to ADXV DAS. In addition, the user can see if any alarms are present in
the system and also the commissioning status of each module.
7.2.2.1.1
System Summary
The Summary section provides the user with the number of components physically connected, the number of
soft/hard/link fails present in the system, and also the number of commissioned and non-commissioned componnets.
Table 7-5
7.2.2.1.2
System Summary Description
Parameters
Description
Connected
Display the number of modules physically connected to ADXV DAS
Soft Fail
Display the number of soft fail present on each module
Hard Fail
Display the number of hard fail present on each module
Link Fail
Display the number of link fail present on each module
Not Commissioned
Display the number of non-commissioned or commission failed module
Commissioned
Display the number of successfully commissioned module
HE Alarm Status
Display the alarm status of each HE component.
7.2.2.1.3
HE Commissioning Status
Display commissioning status of each HE component.
7.2.2.1.4
Alarm
Displays alarm status of the NMS. If an alarm is present in the system, the color of the system alarm tab will
change according to the type of failure.
7.2.2.1.5
SNMP
Figure 7-3
SNMP (Install – NMS)
The SNMP section allows you to specify the Site ID and Manager IP. The Site-ID is the code that is used to
identify a particular module. The Manager IP field is where the user inputs the IP address of the NOC system that is
being used to monitor the SNMP traps.
7.2.2.1.6
Location
This section allows the user to input the latitude and the longitude of the repeater.
Advanced RF Technologies, Inc.
51
Figure 7-4
Location Setting (Install – NMS)
• Select N or S from the dropdown menu for Latitude
• Select E or W from the dropdown menu for Longitude
• Input the first 3 numbers of the latitude/longitude in the text area after the “+” and before the “.”
• Input the last 6 numbers of the latitude/longitude in the text area after the “.”
7.2.2.1.7
External Modem Box Settings
This section allows the user to specify an alternative IP, Subnet Mask, and Gateway settings. These settings are
enabled when the Host/Remote switch is set to the Remote position.
Figure 7-5
7.2.2.1.8
External Modem Box Setting (Install – NMS)
Description
This section allows the user to save the description of NMS.
Figure 7-6
7.2.2.1.9
Description (Install – NMS)
SNMP Agent False Alarm Test
This section allows the user to generate both soft and hard fail alarms. After alarms are generated, the NOC can
poll the ADXV to see if alarms are present. All alarms generated during this test are false alarms.
Advanced RF Technologies, Inc.
52
Figure 7-7
7.2.2.1.10
SNMP Agent False Alarm Test (Install – NMS)
Location Info / Installer Info
This section allows the user to specify the address of the repeater and also the information of the installer.
Figure 7-8
Advanced RF Technologies, Inc.
Location Info / Installer Info (Install – NMS)
53
7.2.2.1.11
Date & Time
This section allows the user to specify the current date and time.
Figure 7-9
7.2.2.1.12
Date & Time Setting (Install – NMS)
Description
This section allows the user to save the description of remote module.
Figure 7-10 Description (Install-Remote Module)
7.2.3
System
The System tab allows the user to perform firmware updates, upload closeout packages, view any changes to
the system, backup existing configuration, and add/remove user accounts, and change the login credentials of the
Administrator.
7.2.3.1 System: Account
7.2.3.1.1
System: Account - Account Management (Admin Only)
The Account Management section allows the Administrator to delete any user/guest account. Please note that
the Account Management section is only available if you are logged into the system as the Administrator. To delete
a user/guest account click on the Account Management link and under the Delete column, click on the delete button.
Figure 7-11 Account Management
7.2.3.1.2
System: Account - New Account (Admin Only)
The New account section allows the Administrator to create a new user/guest account. Please note that the
new account section is only available if you are logged into the system as the Administrator. To create a new
user/guest account click on the new account link and fill in the fields highlighted in yellow as shown below.
Advanced RF Technologies, Inc.
54
Figure 7-12 New Account
7.2.3.1.3
System: Account - Change Password
The Change Password section allows the current user who is logged into the system to change their login
credentials.
Figure 7-13 Change Password
7.2.3.2 System: Logs
7.2.3.2.1
System: Logs - Event Log
This section displays system events that have taken place. The Event Log displays who has made the changes,
the time and date of when the event took place, and what changes were made to the system. The System Log tracks
the following events:
• System Initiation
• Alarm Set
• Alarm Clear
7.2.3.2.2
System: Logs - User Log
This section tracks user activity within the system. The User Log displays who has made the changes, the time
and date of when the event took place, and what changes were made to the system. The User Log tracks the
following items:
• Log in / Log out activity
• Changes to gain/attenuation/output values
• System event generated by user(firmware update, backup/resote, create/delete account)
• DAS Navigation Tree Lock/Unlock
• Description change
• Repeater/installer information change
• Setting date/time
Advanced RF Technologies, Inc.
55
Figure 7-14 User Log
7.2.3.3 System: Update
• To perform a firmware update, click on the System:Update tab and the following screen will show up.
Figure 7-15 System update
• Click on the ‘Browse’ button and locate the firmware file.
• Click on the Update button to perform the firmware update.
• Once the firmware update is complete, the following message will appear.
Figure 7-16 Message after System update is complete
7.2.4
Help
If an internet connection is available, clicking on the Help Tab will redirect the user to our Technical Support
page.
Advanced RF Technologies, Inc.
56
Figure 7-17 Help
7.2.5
Logout
Clicking the Logout button will log the current user off the system.
7.3 Guest Mode
When logging into the system as a guest, the guest will only have read-only privileges and will not be able to
make any changes to the system.
Advanced RF Technologies, Inc.
57
8.
SYSTEM-WIDE SPECIFICATION
S8C
Parameters
700MHz
(CELLUAR
& SMR800)
Downlink
Lower A
728-734
Lower B
734-740
Lower C
740-746
(MHz)
Frequency
(Bandwidth)
Upper C
746-757
Lower A
698-704
Lower B
704-710
Lower C
710-716
PS78
PCS
(PS700 & PS800)
AWS
WCS
VU
(TDD)
(VHF & UHF)
VHF:
PS700(FirstNet +
862-894
PS 700):
(32MHz)
758-768, 769~775
1930-1995
2110-2180
(65MHz)
(70MHz)
2350-2360
(10MHz)
PS800: 851-861
FCC:
TDD:
2496-2690
150~174MHz
(194MHz)
IC:
138~144,
148~174MHz
UHF
PS700(FirstNet +
Uplink
817-849
PS 700):
(MHz)
(32MHz)
788-798, 799~805
Upper C
BRS
1850-1915
1710-1780
(65MHz)
(70MHz)
2305-2315
(10MHz)
PS800: 806-816
776-787
TDD:
FCC:
2496-2690
406.1~470,
(194MHz)
470~512MHz
IC :
406.1~430
450~470MHz
Input Power
POI
Range (dBm)
POIL
System Gain/
Nominal pass
band gain
Downlink
(dB)
+48~0
+25~-15
Advanced RF Technologies, Inc.
+25~-15
POI to RM: -11~37/33(5W),
POIL to RM:
POIL to RM: 8~48(2W)
POIL to RM: 12~52(5W)
0~40(0.25W)
0~30
(dB)
(DL)
POI to RM: -15~33/33(2W),
Uplink
Rated mean output power
33dBm(2W)
37dBm(5W)
58
25dBm
(0.25W)
Maximum Composite Output
-15dBm(Typ.)
Power(UL)
≤ 5dB @Maximum gain, Center Frequency
Noise Figure
≤ 1.3:1 @ BTS interface port
VSWR
≤ 1.5:1 @ Internal interface port
Optical Loss
0~5dBo
System Delay
< 2us
Meet FCC rules, 3GPP TS 36.104, 3GPP2 C.S0010-C
Spurious
Head End
19 x 19.7 x 7.0
Chassis
1.3 x 17.0 x 6.85
POI/POIL
Dimension
(WXDXH, in)
RU(Remote
2.6 x 17.0 x
6.85
19 x 15.0 x 7.0
Unit) Chassis
RU Chassis
9.85 x 15.0 x 6.6 for PS78 and VU
RU(Remote
Unit) N4X
RM(Remote
2.3 x 13.8 x 6.85
Module)
Head End
20.9(including NMS-AC)
Chassis
6.17/5.0
POI/POIL
RU(Remote
Weight(lbs)
8.85
15.43
Unit) Chassis
RU Chassis
26.5
RU(Remote
Unit) N4X
RM(Remote
9.92
Module)
Optic Connectors
Advanced RF Technologies, Inc.
SC/APC (Green)
59
Optic Wavelength
1310nm for downlink, 1550nm for uplink
-40 - 140°F(-40~60°C)
Operating Temperature
5~90%RH
Operating Humidity
Head-End
Power Supply
RU
ADXV-H-NMS-AC: 100 to 240V, 50-60Hz with battery backup function
ADXV-H-NMS-DC: -36V to -72V DC
ADXV-R-PSU-AC: 100 to 240V, 50-60Hz with battery backup function
ADXV-R-PSU-DC: -36V to -72V DC
Network Management
Ethernet(RJ45)
System
POI
DIN (Female) | SMA (Female) | SMB (Female)
RF
POIL
4.3-10 (Female) | SMB (Female)
connector
Remote
4.3-10 (Female) | SMA (Female)
Modules
Weather Resistance
IP66
(Remote Modules)
"The Manufacturer's rated output power of this equipment is for single carrier operation. For situations when multiple carrier signals are present,
the rating would have to be reduced by 3.5 dB, especially where the output signal is re-radiated and can cause interference to adjacent band users.
This power reduction is to be by means of input power or gain reduction and not by an attenuator at the output of the device."
Advanced RF Technologies, Inc.
60
9.
MECHANICAL DRAWING
9.1 HE
Figure 9-1
Advanced RF Technologies, Inc.
HE Drawing
61
9.2 RU
Figure 9-2
Advanced RF Technologies, Inc.
RU Drawing
62
9.3 N4X RU for PS78
Figure 9-3
Advanced RF Technologies, Inc.
PS78 N4X RU Drawing
63
9.4 N4X RU for VU
Figure 9-4
Advanced RF Technologies, Inc.
VU N4X RU Drawing
64

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Source Exif Data:

File Type                       : PDF
File Type Extension             : pdf
MIME Type                       : application/pdf
PDF Version                     : 1.5
Linearized                      : Yes
Author                          : YH Ko
Company                         : ADRF Tech
Create Date                     : 2017:08:14 17:25:08+09:00
Modify Date                     : 2017:08:14 17:25:37+09:00
Source Modified                 : D:20170814082325
Version                         : 0.9
Tagged PDF                      : Yes
XMP Toolkit                     : Adobe XMP Core 5.4-c006 80.159825, 2016/09/16-03:31:08
Metadata Date                   : 2017:08:14 17:25:37+09:00
Creator Tool                    :  Word용 Acrobat PDFMaker 11
Document ID                     : uuid:81aaa8d8-9b31-43da-9e21-2ac08082e81b
Instance ID                     : uuid:6161398d-b0fb-4c63-a962-5b9ebb8304c7
Subject                         : 3
Format                          : application/pdf
Title                           : ADXV DAS User Manual
Creator                         : YH Ko
Producer                        : Adobe PDF Library 11.0
Page Layout                     : OneColumn
Page Count                      : 64

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