ADRF KOREA ADX-HPR-P DAS (Distributed Antenna System) User Manual

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ADX DAS HPR User Manual
Version 0.1
3116 West Vanowen St.
Burbank, CA 91505
Tel: 818‐840‐8131
Fax: 818‐840‐8138
www.adrftech.com
Advanced RF Technologies, Inc.
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.
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Revision History
Version
0.1
Author
CCK
Descriptions
Date
Initial Release
05/13/15
Change List
Version
Change list
Advanced RF Technologies, Inc.
Contents
iii
Table of Contents
1.
Introduction ......................................................................................................................................................14
1.1
1.2
Highlights ...................................................................................................................................................14
Head End Parts List ....................................................................................................................................15
1.2.1 ADX‐H‐NMS‐PKG Parts List ................................................................................................................. 15
1.2.2 ADX‐H‐BCU Parts List .......................................................................................................................... 16
1.2.3 ADX‐H‐RFU Parts List .......................................................................................................................... 16
1.2.4 ADX‐RACK‐ODU Parts List ................................................................................................................... 17
1.2.5 ADX‐H‐ODU4‐X Parts List .................................................................................................................... 17
1.2.6 ADX‐H‐ODU1‐X Parts List .................................................................................................................... 17
1.3
High Power Remote Unit Parts List ............................................................................................................ 18
1.3.1 ADX‐R‐xxx46/44.8/43M (HPR) Parts List ............................................................................................ 18
1.4
ADX DAS Quick View ..................................................................................................................................19
1.4.1 HE Quick View ....................................................................................................................................19
1.4.3 RU Quick View ....................................................................................................................................20
1.5
2.
Warnings and Hazards ............................................................................................................................... 21
ADX‐DAS Configuration .....................................................................................................................................24
2.1
2.2
ADX DAS Topology .....................................................................................................................................24
Configuration .............................................................................................................................................25
2.2.1 Single band or multi‐band configuration (1~8 bands) ........................................................................ 25
2.3
3.
ADX‐DAS Scalability ...................................................................................................................................26
ADX Overview ...................................................................................................................................................27
3.1
Head End ....................................................................................................................................................27
3.1.1 NMS (Network Management System)................................................................................................ 28
3.1.1.1
LEDs ..........................................................................................................................................28
3.1.1.2
Ethernet Port ............................................................................................................................ 29
3.1.1.3
Host/Remote Switch ................................................................................................................. 29
3.1.1.4
HE View/RU View Switch .......................................................................................................... 29
3.1.2 RFU (ADX‐H‐RFU‐x) ............................................................................................................................. 30
3.1.2.1
LEDs ..........................................................................................................................................30
3.1.2.2
RF Ports .....................................................................................................................................31
3.1.2.3
Communication Port................................................................................................................. 31
3.1.3 Channel Combiner (ADX‐H‐CHC) ........................................................................................................ 31
3.1.3.1
RF ports .....................................................................................................................................31
3.1.4 Optic Unit (ADX‐RACK‐ODU, ADX‐H‐ODU4/ADX‐H‐ODU1)................................................................. 32
3.1.4.1
LEDs ..........................................................................................................................................32
3.1.4.2
RF Ports .....................................................................................................................................32
3.1.4.3
Optic Ports ................................................................................................................................33
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3.1.4.4
Communication Port................................................................................................................. 33
3.1.5 Power Supply Unit (ADX‐H‐PSU)......................................................................................................... 33
3.1.5.1
LEDs ..........................................................................................................................................33
3.1.5.2
AC Input On/Off Switch, AC Input Port and AC Input Selection Switch ....................................34
3.1.5.3
Battery Backup Port, Battery Install Port and Battery Backup Switch ...................................... 34
3.1.6 Optional Band Combiner Unit (ADX‐H‐BCU‐x) ................................................................................... 35
3.2
3.1.6.1
LEDs ..........................................................................................................................................35
3.1.6.2
RF Ports .....................................................................................................................................36
3.1.6.3
Communication Port................................................................................................................. 36
HPR ............................................................................................................................................................36
3.2.1 Port .....................................................................................................................................................36
3.2.1.1
3.2.1.1.1
3.2.1.1.2
RF Port ......................................................................................................................................36
Antenna server port (DIN type) .............................................................................................. 36
Extension Filter port (N type) ................................................................................................. 37
3.2.1.2
Optic port..................................................................................................................................37
3.2.1.3
GUI, RS 485 port ....................................................................................................................... 38
3.2.2 LEDs ....................................................................................................................................................38
3.2.3 AC On/Off Switch, AC Port.................................................................................................................. 39
3.2.4 DC On/Off Switch, DC Port ................................................................................................................. 40
4.
Cable Connection ..............................................................................................................................................41
4.1
Head End Connection Diagrams ................................................................................................................ 41
4.1.1 Front/Rear Head End Connection View with Optional BCU unit ........................................................ 41
4.1.2 Rear Head End Connection View with (4) ADX‐RACK‐ODU units ....................................................... 42
4.2
5.
High Power Remote Unit Connection Diagrams ........................................................................................ 43
Mounting method .............................................................................................................................................44
5.1
Head End ....................................................................................................................................................44
5.1.1 Rack Mount ........................................................................................................................................44
5.1.2 Wall Mount .........................................................................................................................................45
5.2
HPR ............................................................................................................................................................46
5.2.1 Wall Mount .........................................................................................................................................46
6.
Installation ........................................................................................................................................................46
6.1
6.2
Pre‐Installation Inspection ......................................................................................................................... 46
ADX DAS Installation Procedure ................................................................................................................ 47
6.2.1 HE Installation Procedure ................................................................................................................... 47
6.2.1.1
Installing a ADX DAS HE in a rack .............................................................................................. 47
6.2.1.2
Wall mounting the ADX DAS HE................................................................................................ 49
6.2.2 RU Installation Procedure................................................................................................................... 51
6.3
Grounding ..................................................................................................................................................53
6.4
Optic Port Cleaning ....................................................................................................................................54
Advanced RF Technologies, Inc.
7.
Commissioning ..................................................................................................................................................55
7.1
Pre‐Commissioning Check ......................................................................................................................... 55
7.1.1 Verify cable connections .................................................................................................................... 55
7.1.2 Connect to the Web‐GUI .................................................................................................................... 55
7.1.3 Check Navigation Tree Status ............................................................................................................. 56
7.1.4 Set Location Info, Installer Info and Date & Time............................................................................... 56
7.1.5 Verify Navigation Tree Links ............................................................................................................... 56
7.1.6 BOM Comparison & Check Band Configuration ................................................................................. 57
7.1.7 Lock current navigation tree .............................................................................................................. 57
7.2
Commissioning...........................................................................................................................................58
7.2.1 Optic Commissioning .......................................................................................................................... 58
7.2.1.1
How to compensate the optic loss ........................................................................................... 58
7.2.2 HE Commissioning .............................................................................................................................. 60
7.2.2.1
Composite power ..................................................................................................................... 60
7.2.3 HPR Commissioning ............................................................................................................................ 66
7.3
DAS Install Verification .............................................................................................................................. 67
7.3.1 Setting SNMP & Remote IP................................................................................................................. 67
7.3.2 Verification through Web based GUI ................................................................................................. 67
7.3.3 UL noise power detection .................................................................................................................. 67
8.
Web‐GUI ...........................................................................................................................................................68
8.1
Web‐GUI Setup ..........................................................................................................................................68
8.1.1 DAS system/PC Connection Using Web‐GUI ...................................................................................... 68
8.2
Administrator/User Mode ......................................................................................................................... 69
8.2.1 Common .............................................................................................................................................69
8.2.1.1
Navigation tree Lock/Unlock .................................................................................................... 69
8.2.1.2
Navigation Tree ........................................................................................................................ 69
8.2.1.3
Power Status ............................................................................................................................. 70
8.2.1.4
Commissioning Status............................................................................................................... 70
8.2.1.5
Information ............................................................................................................................... 70
8.2.2 Status Tab ...........................................................................................................................................71
8.2.2.1
Status – NMS ............................................................................................................................ 71
8.2.2.2
Status – BCU ............................................................................................................................. 74
8.2.2.3
Status – RFU .............................................................................................................................. 76
8.2.2.4
Status – ODU............................................................................................................................. 78
8.2.2.5
Status – RU Hub ........................................................................................................................ 81
8.2.2.6
Status – Remote module .......................................................................................................... 82
8.2.3 Control Tab .........................................................................................................................................85
8.2.3.1
Control – NMS .......................................................................................................................... 85
Advanced RF Technologies, Inc.
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8.2.3.2
Control – BCU ........................................................................................................................... 86
8.2.3.3
Control – RFU ............................................................................................................................ 87
8.2.3.4
Control – ODU........................................................................................................................... 91
8.2.3.5
Control – RH Hub ...................................................................................................................... 92
8.2.3.6
Control – Remote Module (Master or Slave RU) ...................................................................... 93
8.2.4 Install Tab ...........................................................................................................................................96
8.2.4.1
Install – NMS ............................................................................................................................. 96
8.2.4.2
Install – BCU .............................................................................................................................. 99
8.2.4.3
Install – RFU ............................................................................................................................ 100
8.2.4.4
Install – ODU ........................................................................................................................... 102
8.2.4.5
Install – HPR Hub .................................................................................................................... 103
8.2.4.6
Install – Remote Module (Master or Slave RU) ...................................................................... 104
8.2.5 System ..............................................................................................................................................106
8.2.5.1
System: Account ..................................................................................................................... 106
8.2.5.2
System: Logs ........................................................................................................................... 107
8.2.5.3
System: Update ...................................................................................................................... 108
8.2.5.4
System: System Information................................................................................................... 109
8.2.5.5
System: Backup/Restore ......................................................................................................... 110
8.2.5.6
System: SNMP......................................................................................................................... 112
8.2.5.7
System: Closeout Package ...................................................................................................... 113
8.2.6 Help ..................................................................................................................................................114
8.2.7 Logout ...............................................................................................................................................114
8.3
9.
Guest Mode .............................................................................................................................................114
System‐Wide Specification (to be connected to HE via Optic line) ................................................................ 115
700LTE/CELL/SMR800 Specifications. .......................................................................................................... 115
2. PCS/AWS/BRS Specifications. ................................................................................................................... 116
3. SMR900 Specifications. .............................................................................................................................. 117
4. WCS Specifications. ....................................................................................................................................118
10.
Mechanical Drawing .......................................................................................................................................119
Advanced RF Technologies, Inc.
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Figures
Figure 1‐1
Figure 1‐2
ADX DAS HE Quick View ..................................................................................................................... 19
ADX DAS HPR Quick View ................................................................................................................... 20
Figure 2‐1
Figure 2‐2
Figure 2‐3
ADX DAS Block Diagram (4BANDS) ................................... 오류! 책갈피가 정의되어 있지 않습니다.
ADX DAS Topology .............................................................................................................................. 24
ADX DAS 3bands Configuration .......................................................................................................... 25
Figure 2‐4
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 3‐25
Figure 3‐26
Figure 3‐27
ADX DAS 4bands Configuration ........................................ 오류! 책갈피가 정의되어 있지 않습니다.
Head End Front View .......................................................................................................................... 27
ADX‐H‐NMS Front View ...................................................................................................................... 28
NMS LED .............................................................................................................................................28
Ethernet Port ......................................................................................................................................29
Host/Remote Switch ........................................................................................................................... 29
HE View/RU View Switch .................................................................................................................... 29
RFU Front & Rear View ....................................................................................................................... 30
RFU LED ..............................................................................................................................................30
Communication Port (RFU) ................................................................................................................. 31
ADX‐H‐CHC Front & Rear View ........................................................................................................... 31
ADX‐RACK‐ODU Front & Rear view .................................................................................................... 32
ADX‐H‐ODU4 and ADX‐H‐ODU1 Installed in ADX‐RACK‐ODU............................................................ 32
ADX‐RACK‐ODU LED............................................................................................................................ 32
ODU RF Ports ......................................................................................................................................32
ODU Optic Ports .................................................................................................................................33
Communication Port (ODU)................................................................................................................ 33
ADX‐H‐PSU Front & Rear View ........................................................................................................... 33
HE PSU LED .........................................................................................................................................34
HE PSU AC Input On/Off Switch, AC Input Port and AC Input Selection Switch .................................34
Battery Backup Port, Battery Install Port and Battery Backup Switch ................................................ 34
ADX‐H‐BCU Front & Rear View ........................................................................................................... 35
BCU LED ..............................................................................................................................................35
Communication Port (BCU) ................................................................................................................ 36
ADX‐HPR Single enclosure (bottom view) .......................................................................................... 36
Inner Optic port connection ............................................................................................................... 37
Optic connection ................................................................................................................................38
ADX‐HPR 3bands GUI connection (Single enclosure) ......................................................................... 38
Figure 3‐28
Figure 3‐29
Figure 3‐30
Figure 3‐31
Figure 4‐1
Figure 4‐2
Figure 4‐3
ADX‐HPR 4bands GUI, RS 485 connection (2 enclosures) 오류! 책갈피가 정의되어 있지 않습니다.
HPR LED ..............................................................................................................................................39
HPR AC Port ........................................................................................................................................39
HPR AC Switch ....................................................................................................................................39
HE Cable connection (1 ADX‐RACK‐ODU +1 BCU) .............................................................................. 42
HE Cable connection (4 ADX‐RACK‐ODUs).......................................................................................... 43
ADX‐HPR 3bands connection (Single enclosure) ................................................................................ 43
Figure 4‐4
Figure 5‐1
Figure 5‐2
Figure 5‐3
Figure 6‐1
Figure 6‐2
Figure 6‐3
Figure 6‐4
ADX‐HPR 4bands connection (2 enclosures) .................... 오류! 책갈피가 정의되어 있지 않습니다.
HE Rack Mount (Front & Rear view) ................................................................................................... 44
HE Wall Mount (Top View) ................................................................................................................. 45
HPR Wall Mount .................................................................................................................................46
ADX HE 19” Rack Mount Instructions ................................................................................................. 48
ADX HE Wall Mount Instructions ........................................................................................................ 49
Wall Mount Instructions for ADX‐HE added 1U Unit .......................................................................... 50
HPR Wall Mount Instructions ............................................................................................................. 52
Advanced RF Technologies, Inc.
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Figure 6‐5
Figure 6‐6
Figure 6‐7
Figure 6‐8
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 8‐1
Figure 8‐2
Figure 8‐3
Figure 8‐4
Figure 8‐5
Figure 8‐6
Figure 8‐7
Figure 8‐8
Figure 8‐9
Figure 8‐10
Figure 8‐11
Figure 8‐12
Figure 8‐13
Figure 8‐14
Figure 8‐15
Figure 8‐16
Figure 8‐17
Figure 8‐18
Figure 8‐19
Figure 8‐20
Figure 8‐21
Figure 8‐22
Figure 8‐23
Figure 8‐24
Figure 8‐25
Figure 8‐26
Figure 8‐27
Figure 8‐28
Figure 8‐29
Figure 8‐30
Figure 8‐31
Figure 8‐32
Figure 8‐33
Figure 8‐34
Figure 8‐35
Figure 8‐36
Figure 8‐37
Figure 8‐38
Figure 8‐39
Figure 8‐40
Figure 8‐41
Ground Cable Connection (HE rear side) ............................................................................................ 53
Ground Cable Connection (HPR dual side) ......................................................................................... 53
Optic Connector Cleaning (left) and Optic Port Cleaning (right) ........................................................ 54
SC/APC Optic Connector Dust Cap ..................................................................................................... 54
Login window......................................................................................................................................55
Navigation tree Lock/Unlock .............................................................................................................. 56
Navigation tree ...................................................................................................................................56
ODU Install page .................................................................................................................................58
measured optic loss display ................................................................................................................ 58
BCU Install Window ............................................................................................................................ 64
RFU Install Window ............................................................................................................................ 65
Remote Module Install Window ......................................................................................................... 66
Login screen ........................................................................................................................................68
Navigation tree Lock/Unlock .............................................................................................................. 69
Navigation tree ...................................................................................................................................69
ADX DAS General Information ............................................................................................................ 70
Status ‐ NMS .......................................................................................................................................71
System Summary ................................................................................................................................71
System scan time, HE view/RU view................................................................................................... 72
HE alarm status ...................................................................................................................................72
HE Commissioning status ................................................................................................................... 73
Status – BCU .......................................................................................................................................74
Status – BCU Band .............................................................................................................................. 74
Status – BCU Power & Atten............................................................................................................... 74
Status – BCU Power Ratio ................................................................................................................... 75
Status – BCU Alarm ............................................................................................................................. 75
Status – RFU........................................................................................................................................76
Status – RFU Band...............................................................................................................................76
Power & Gain Display (Admin) ........................................................................................................... 76
Power & Gain Display (User) .............................................................................................................. 77
Status ‐ ODU .......................................................................................................................................78
Summary (Status – ODU) .................................................................................................................... 78
RF Status (Status – ODU) .................................................................................................................... 79
Optic Status (Status – ODU) ................................................................................................................ 79
Optic Attenuation (Status – ODU) ...................................................................................................... 80
Optic Path Status (Status – ODU) ....................................................................................................... 80
Status ‐ HPR Hub .................................................................................................................................81
RU Alarm Status (Status ‐ HPR Hub) ................................................................................................... 81
RU Commissioning Status (Status ‐ HPR Hub) .................................................................................... 81
Status – Remote Module .................................................................................................................... 82
PCS Band Information (Status – Remote Module) ............................................................................. 83
Power & Gain (Admin) ........................................................................................................................ 83
Power & Gain (User) ........................................................................................................................... 83
Optic Power (Status – Master HPR only) ............................................................................................ 84
Control ‐ NMS .....................................................................................................................................85
Heartbeat (Control – NMS) ................................................................................................................. 85
HE System Reboot & Factory Setting (Control – NMS) ....................................................................... 85
NMS System Reboot & Factory Setting (Control – NMS) ................................................................... 85
Control – BCU .....................................................................................................................................86
Control – BCU Manual ATT Control .................................................................................................... 86
Control – BCU Reboot/Factory Setting ............................................................................................... 87
Control – BCU Alarm Setting............................................................................................................... 87
Control ‐ RFU ......................................................................................................................................87
Advanced RF Technologies, Inc.
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Figure 8‐42
Figure 8‐43
Figure 8‐44
Figure 8‐45
Figure 8‐46
Figure 8‐47
Figure 8‐48
Figure 8‐49
Figure 8‐50
Figure 8‐51
Figure 8‐52
Figure 8‐53
Figure 8‐54
Figure 8‐55
Figure 8‐56
Figure 8‐57
Figure 8‐58
Figure 8‐59
Figure 8‐60
Figure 8‐61
Figure 8‐62
Figure 8‐63
Figure 8‐64
Figure 8‐65
Figure 8‐66
Figure 8‐67
Figure 8‐68
Figure 8‐69
Figure 8‐70
Figure 8‐71
Figure 8‐72
Figure 8‐73
Figure 8‐74
Figure 8‐75
Figure 8‐76
Figure 8‐77
Figure 8‐78
Figure 8‐79
Figure 8‐80
Figure 8‐81
Figure 8‐82
Figure 8‐83
Figure 8‐84
Figure 8‐85
Figure 8‐86
Figure 8‐87
Figure 8‐88
Figure 8‐89
Figure 8‐90
Figure 8‐91
Figure 8‐92
Figure 8‐93
Figure 8‐94
General Setting (Control – RFU) (Admin)............................................................................................ 88
General Setting (Control – RFU) (User) ............................................................................................... 88
Reboot & Factory Setting (Control – RFU) .......................................................................................... 88
UL Noise Detection (Control – RFU) ................................................................................................... 88
UL Noise Detection ‐ PCS band ........................................................................................................... 89
Manual Attenuator Control Setting (Control – RFU) .......................................................................... 89
Alarm Threshold Setting (Control – RFU) ........................................................................................... 90
Control – ODU.....................................................................................................................................91
Optic Attenuation – ODU.................................................................................................................... 91
Reboot & factory Setting (Control – ODU) ......................................................................................... 92
Control – HPR Hub .............................................................................................................................. 92
Reboot & Factory Setting (Control – HPR Hub) .................................................................................. 92
Control – Remote Module .................................................................................................................. 93
General Setting (Control ‐ RU) ........................................................................................................... 93
Reboot & factory Setting (Control ‐ RU) ............................................................................................. 94
Optic Setting (Control ‐ RU) ................................................................................................................ 94
Manual Atten Control (Control ‐ RU) .................................................................................................. 94
Alarm Setting (Control ‐ RU) ............................................................................................................... 95
Install ‐ NMS .......................................................................................................................................96
HE Commissioning Status (Install – NMS) ........................................................................................... 96
SNMP (Install – NMS).......................................................................................................................... 97
Location Setting (Install – NMS) ......................................................................................................... 97
External Modem Box Setting (Install – NMS) ..................................................................................... 97
Description (Install – NMS) ................................................................................................................. 98
SNMP Agent False Alarm Test (Install – NMS) .................................................................................... 98
Location Info / Installer Info (Install – NMS) ....................................................................................... 98
Date & Time Setting (Install – NMS) ................................................................................................... 99
Install – BCU ........................................................................................................................................99
Install – BCU Commissioning ............................................................................................................ 100
Install – BCU Description .................................................................................................................. 100
Install ‐ RFU .......................................................................................................................................101
RFU Commissioning (Install – RFU) ................................................................................................... 102
Description (Install – RFU) ................................................................................................................ 102
Install – ODU .....................................................................................................................................102
Optic control (Control – ODU) .......................................................................................................... 103
Description (Install – ODU) ............................................................................................................... 103
Install‐RU Hub ...................................................................................................................................104
RU Commissioning Status (Install‐RU Hub) ...................................................................................... 104
Description (Install‐RU Hub) ............................................................................................................. 104
Install‐Remote Module ..................................................................................................................... 105
RU Output Commissioning (Install‐RU) ............................................................................................ 105
Description (Install‐Remote Module) ............................................................................................... 106
Account Management ...................................................................................................................... 106
New Account ....................................................................................................................................106
Change Password.............................................................................................................................. 107
Event Log ..........................................................................................................................................107
User Log ............................................................................................................................................108
System update ..................................................................................................................................108
Message after System update is complete ....................................................................................... 109
System Information .......................................................................................................................... 109
System Notification .......................................................................................................................... 110
Bill of material ..................................................................................................................................110
Setting Backup (Before) .................................................................................................................... 111
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Figure 8‐95
Figure 8‐96
Figure 8‐97
Figure 8‐98
Figure 8‐99
Figure 8‐100
Figure 8‐101
Figure 10‐1
Figure 10‐2
Setting Backup (After)....................................................................................................................... 111
Setting Restore .................................................................................................................................112
SNMP V1/V2 .....................................................................................................................................112
SNMP V3 ...........................................................................................................................................113
System‐ Closeout Package ................................................................................................................ 113
System‐ Closeout Package after the file upload ............................................................................... 113
Help ..................................................................................................................................................114
HE Drawing .......................................................................................................................................119
Master HPR Drawing.........................................................................................................................120
Advanced RF Technologies, Inc.
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Tables
Table 1‐1
Table 1‐2
Table 1‐3
Table 1‐4
Table 1‐5
Table 1‐6
Table 1‐7
ADX‐H‐NMS Parts List ......................................................................................................................... 15
ADX‐H‐BCU Parts List .......................................................................................................................... 16
ADX‐H‐RFU Parts List .......................................................................................................................... 16
ADX‐RACK‐ODU Parts List ................................................................................................................... 17
ADX‐H‐ODU4 Parts List ....................................................................................................................... 17
ADX‐H‐ODU1 Parts List ....................................................................................................................... 17
Main HPR Parts List............................................................................................................................. 18
Table 1‐8
Table 2‐1
Table 3‐1
Table 3‐2
Table 3‐3
Table 3‐4
Table 3‐5
Table 3‐6
Table 7‐1
Table 7‐2
Table 7‐3
Table 7‐4
Table 7‐5
Table 7‐6
Table 7‐7
Table 7‐8
Table 7‐9
Table 7‐10
Table 8‐1
Table 8‐2
Table 8‐3
Table 8‐4
Table 8‐5
Table 8‐6
Table 8‐7
Table 8‐8
Table 8‐9
Table 8‐10
Table 8‐11
Table 8‐12
Table 8‐13
Table 8‐14
Table 8‐15
Table 8‐16
Table 8‐17
Table 8‐18
Table 8‐19
Table 8‐20
Table 8‐21
Table 8‐22
Table 8‐23
Extended HPR Parts List .................................................... 오류! 책갈피가 정의되어 있지 않습니다.
ADX‐DAS Scalability ............................................................................................................................ 26
NMS LED Specifications ...................................................................................................................... 28
RFU LED Specifications ....................................................................................................................... 30
ODU LED Specifications ...................................................................................................................... 32
HE PSU LED Specifications .................................................................................................................. 34
BCU LED Specifications ....................................................................................................................... 35
Master HPR LED Specifications ........................................................................................................... 39
Optic loss compensation table ........................................................................................................... 59
Back‐off value for each technology due to traffic breathing .............................................................. 60
Input signal conditions @HE RFU downlink input .............................................................................. 61
HE maximum downlink input level without 10dB attenuator ............................................................ 61
HE downlink input signal conditions after adding 10dB attenuator to HE downlink input port ........61
HE maximum downlink input level after adding 10dB attenuator to HE downlink input port ..........62
Input signal conditions @HE BCU downlink input .............................................................................. 62
HE maximum downlink input level ..................................................................................................... 62
Targeted maximum input power ........................................................................................................ 62
Maximum Output Power per carrier .................................................................................................. 63
Account Information for Login ........................................................................................................... 68
Navigation tree ...................................................................................................................................69
Power Supply Status ........................................................................................................................... 70
Commissioning ICON .......................................................................................................................... 70
System Summary Description ............................................................................................................. 72
Description for HE Commissioning status........................................................................................... 73
Description for NMS alarm ................................................................................................................. 73
RFU Alarm Status ................................................................................................................................77
Summary Description ......................................................................................................................... 79
Description for optic path status ........................................................................................................ 80
Description for HPR Commissioning status ........................................................................................ 82
Alarm Status (Status ‐ HPR Hub) ......................................................................................................... 82
Operating Status (Status – Remote Module)...................................................................................... 84
Description for General Setting .......................................................................................................... 88
Description for Main Gain Control Setting (Control – RFU) ................................................................ 89
Description for Alarm Threshold Setting (Control – RFU)................................................................... 90
Description for Optic Attenuation (Control – ODU) ........................................................................... 92
Description for General Setting (Control ‐ RU) ................................................................................... 93
Description for Optic Setting (Control ‐ RU) ....................................................................................... 94
Description for Manual Atten Control (Control ‐ RU) ......................................................................... 95
Description for HE Commissioning Status (Install – NMS) .................................................................. 96
Description for Optic control (Control – ODU) ................................................................................. 103
Description for HPR Commissioning status ...................................................................................... 104
Advanced RF Technologies, Inc.
xii
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
PSU
RF
RFU
RU
HPR
Remote Module
SW
UL
Uplink
VSWR
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
Optic Distribution Unit which is located in ADX‐RACK‐ODU. An ADX‐RACK‐ODU has two
ODUs.
Optic Expansion Unit
Phased Locked Loop
Power Supply Unit
Radio Frequency
RF Channel Unit
Remote Unit which is composed of master HPR and multiple slaves RU
High Power RU
generic term for master HPR and Master RU, slave RU
Software
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.
xiii
1.
INTRODUCTION
Up to (8) frequency bands in one body: Currently the ADX supports 700 MHz (Lower A, Lower B, Lower C,
and Upper C), 700MHz Public Safety & Upper D support, Cellular, PCS, SMR800/SMR900, AWS, WCS and
BRS‐TD LTE bands.
ADX‐HPR‐7F43, ADX‐HPR‐C43, ADX‐HPR‐W, ADX‐HPR‐P46, ADX‐HPR‐A46, ADX‐HPR‐BT46
메모 [C1]: 표기 방법 검토
W43‐>W44.8‐>W 로 수정
1.1 Highlights

Modular Structure (HE)
‐
‐
Supports multi bands service (700MHz, 700MHz PS, Cell, PCS, AWS, SMR800/SMR900, WCS, BRS‐
TD LTE, etc.) in one body
Supports up to 8 RF units

Supports optional combining/balancing of multiple carriers’ signals via BCU (Band Combiner Unit)

Supports up to a of maximum of 8 High Power Remote Units

Up to 6 Band in HPR enclosure

46/44.8/43dBm of downlink composite output power

Requires only single strand of fiber per remote unit

Operates with up to 5dBo optical loss (with ADX‐H‐ODU4, single mode), up to 10dBo optical loss possible(with
ADX‐H‐ODU1, single mode)

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: ADX 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.

Uplink noise measurement routine

Support RU View mode, refer to section 3.1.1.4

Incremental Automatic Shutdown/Resume Time: ADX gradually increases the time span between automatic
shutdown and resume period before it permanently shuts itself down

Support ALC function to prevent ADX DAS from input overload or output overpower
Advanced RF Technologies, Inc.
메모 [C2]: 수정
메모 [H3]: 8 ‐>6 로 수정
14
1.2 Head End Parts List
1.2.1
ADX‐H‐NMS‐PKG Parts List
Table 1‐1
Label
ADX‐H‐NMS Parts List
Quantity
Description
28
ADX‐H‐NMS‐PKG (Network Management System Package)
ADX‐H‐NMS
ADX‐H‐PSU (AC to DC Supply)
ADX‐H‐CHC (Head End Channel Combiner)
AC Power Cord
RJ‐45 Crossover Cable
Ground Cable
Documentation CD (User Manual, Quick Start Guide and Troubleshooting Guide)
Wall Anchor Bolt Set
SMA terminators
L‐mounting Brace
A.
B.
C.
D.
G.
Advanced RF Technologies, Inc.
E.
H.
15
F.
1.2.2
ADX‐H‐BCU Parts List
Table 1‐2
ADX‐H‐BCU Parts List
Label
Quantity
Description
ADX‐H‐BCU (Band Combiner Unit)
N‐Type terminators
NM to NM RF Jumper Cables (3ft)
Data/Power Cable
Chassis mounting brace
A.
B.
1.2.3
C.
D.
ADX‐H‐RFU Parts List
Table 1‐3
ADX‐H‐RFU Parts List
Label
Quantity
Description
ADX‐H‐RFU (RF Unit)
N‐Type Terminators
SMA Male RF Jumper Cables
A.
Advanced RF Technologies, Inc.
B.
C.
16
E.
1.2.4
ADX‐RACK‐ODU Parts List
Table 1‐4
ADX‐RACK‐ODU Parts List
Label
Quantity
Description
ADX‐RACK‐ODU
Data/Power Cable
Chassis Mounting Brace
A.
B.
1.2.5
C.
메모 [H4]: ‐X 추가
ADX‐H‐ODU4‐X Parts List
Table 1‐5
ADX‐H‐ODU4 Parts List
Label
Quantity
Description
ADX‐H‐ODU4 (4‐port Optical Unit)
SMA‐M Terminators
SMA‐M to SMA‐M RF Jumper Cable (3ft)
A.
B.
1.2.6
C.
메모 [H5]: ‐X 추가
ADX‐H‐ODU1‐X Parts List
Table 1‐6
ADX‐H‐ODU1 Parts List
Label
Quantity
Description
ADX‐H‐ODU1 (1‐port Optical Unit)
SMA‐M Terminators
SMA‐M to SMA‐M RF Jumper Cable (3ft)
A.
Advanced RF Technologies, Inc.
17
B.
C.
1.3 High Power Remote Unit Parts List
1.3.1
ADX‐R‐xxx46/44.8/43M (HPR) Parts List
Table 1‐7
HPR Parts List
Label
Quantity
Description
ADX‐R‐xxx46/44.8/43M (Main HPR)
N type‐M terminators
USB Cable
AC cable
Ground cable
Anchor Bolt
Manual CD
Install guide
Wall mount template
Advanced RF Technologies, Inc.
18
1.4 ADX DAS Quick View
1.4.1
HE Quick View
1.4.2
Band Combiner Unit
(BCU)
19” rack mount
Holes
Optic Unit (ODU)
Channel Combiner
(CHC)
TT
-R
IL
-R
FA
IL
-H
FA
LIN
FA
IL
HA
LIN
BA
FA
IL
DC
-H
-R
FA
IL
RD
FA
IL
ST
FA
IL
LO
CH
PO
-H
SO
FT
FA
IL
SO
FT
NMS Unit
PO
ER
Power Supply Unit
(PSU)
ER
RF Channel Unit
(RFU)
Host / Remote Switch,
HE view/RU view Switch
& RJ‐45 port
BCU Sum Port
RF Ports
connected to CHC
Optic Ports
RF Ports connected to
ODU
RFU Simplex
Port
RFU Duplex Port
Battery Backup
Port
Battery Backup
On/Off Switch
ODU Interface Ports
AC Input &
On/Off Switch
BCU Interface Ports
AC Input Voltage
Selection Switch
(110V/220V)
Ground terminal
AUX CH Interface
Ports
Figure 1‐1
Advanced RF Technologies, Inc.
ADX DAS HE Quick View
19
1.4.3
RU Quick View
메모 [C6]: 사진 수정 필요
Controller per band
RAU
Duplexer
HPA
ORU
RCU
Optic port
PSU
Splitter Unit
Filter extension port_1
BAN D 1 SER VER
BAN D2 SER VER
EX_ F1 _ IN
BAN D 3 SER VER
EX_ F1 _ O U T
BAN D4 SER VER
Filter extension port_2
C PL
(-3 0 d B)
Server antenna port
C PL
(- 3 0d B )
C PL
(-3 0 d B )
EX _F 2 _IN
C PL
( -3 0 d B)
EX _ F2 _ O U T
Local GUI port
AC IN 1 1 0 V
Optic port
BAN D5 SER VER
BAN D6 SER VER
PO WER
O PTIC
A= AC_L
B= AC_N
C= F. G
AC(DC) port
C PL
(- 3 0d B )
C PL
( -3 0 d B)
GUI
RUN
Ground terminal
Fan unit
Figure 1‐2
Advanced RF Technologies, Inc.
ADX DAS HPR Quick View
20
메모 [C7]: 수정 해당 도면 그림의 경우
김현기 선임이 추가해주시기 바랍니다.
1.5 Warnings and Hazards
WARNING! ELECTRIC SHOCK
Opening the ADX DAS could result in electric shock and may cause
severe injury.
WARNING! EXPOSURE TO RF
Working with the ADX 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.
RF EXPOSURE & ANTENNA PLACEMENT Guidelines
Actual separation distance is determined upon gain of antenna used. We recommend that the maximum antenna gain
should not be exceed 2 dBi for 698‐960 MHz and 3 dBi for 1710‐2690 MHz.
RF exposure compliance should be addressed at the time of licensing.
Antennas must be installed in accordance with FCC rule. The height of the antenna above average terrain
(HAAT) is permitted over 1372m. For different gain antennas refer to the relevant rules.
WARRANTY
Opening or tampering the ADX 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.
Advanced RF Technologies, Inc.
21
Ethernet Instructions: This equipment is for indoor use only. All cabling should be limited to
inside the building.
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
메모 [H8]: 추가 15/5/18
WANRNING. 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.
메모 [H9]: 추가 15/5/18
Advanced RF Technologies, Inc.
22
Laser Safety
Fiber optic ports of the ADX 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 ADX DAS and the associated cables.
The ADX 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).
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.
Advanced RF Technologies, Inc.
23
2.
메모 [C10]: Block Diagram 삭제(15.07.28)
ADX‐DAS CONFIGURATION
_조찬기
2.1 ADX DAS Topology
HE(Head End Unit)
Service Carrier #1
Service Carrier #3
Service Carrier #1
PCS RFU
(Band Combiner Unit
with BTS or BDA)
(RF Interface Unit
with BTS or BDA)
RU(Remote Unit)
PCS Master RU
Cellular Slave RU
AWS Slave RU
OPT-H
(RF to Optical)
Cellular RFU
(RF Interface Unit
with BTS or BDA)
OPT-H
700M Slave RU
(RF to Optical)
Service Carrier #2
CHC-H
AWS RFU
(RF to Optical)
PCS Master RU
Cellular Slave RU
AWS Slave RU
OPT-H
700M Slave RU
OPT-H
Combiner
(HE Channel
Combiner)
(RF Interface Unit
with BTS or BDA)
700M RFU
Service Carrier #2
Combiner
Service Carrier #2
BCU(optional)
(RF to Optical)
(RF Interface Unit
with BTS or BDA)
Combiner
PCS Master RU
Cellular Slave RU
AWS Slave RU
RF
Optic
700M Slave RU
(Optic Expansion
Unit)
PCS Master RU
Cellular Slave RU
AWS Slave RU
Combiner
OEU
700M Slave RU
Combiner
PCS Master RU
Cellular Slave RU
AWS Slave RU
700M Slave RU
700M Slave RU
Figure 2‐1
Advanced RF Technologies, Inc.
ADX DAS Topology
24
Combiner
PCS Master RU
Cellular Slave RU
AWS Slave RU
2.2 Configuration
2.2.1
Single band or multi‐band configuration (1~8 bands)
메모 [C11]: 수정
메모 [C12]: 수정(CK)
ADX -RACK -ODU
P O WE R
LD FA I L
LI N K 1
LI N K2
700LTE
LI N K3
LI N K 4
LD FA I L
LI N K1
O D U1
U L1
LI N K 2
LI N K3
LI N K4
O D U2
U L2
U L3
U L4
U L5
U L6
U L7
U L8
D L2
D L3
D L4
D L5
D L6
D L7
D L8
ADX- H-CHC
BAN D 1 SER VER
PCS
D L1
BAN D 2 SER VER
C PL
(-30 dB)
ADX- H-RFU- P
ADX-H -RFU- 7
P O WE R
UL IN
CELL
D L OU T
P O WE R
UL IN
D L OUT
EX_F 1_ IN
EX_ F 1_O U T
EX _F2_ IN
EX _F2_ O U T
C PL
(-3 0d B)
ADX-H -RFU-C
BAN D 3 SER VER
C PL
(- 30 dB)
BAN D 4 SER VER
C PL
(-30 dB)
P O WE R
UL IN
D L OUT
BAN D 5 SER VER
AC IN 1 10V
S O FT FA I L
S O FT FA I L
S O FT FA I L
H A R D FA I L
H A R D FA I L
H A R D FA I L
D L S I G LO W
D L S I G LO W
D L S I G LO W
BAN D 6 SER VER
PO WER
O PTIC
A =AC L
B =AC _N
C =F. G
C PL
(-3 0d B)
C PL
(-30 dB)
GUI
RUN
BTS
IL
IL
TS
BAT
FA
FA
CH
AC
LO
S OF
OW
ER
FA
ADX- H-NMS
S O I L- H
FT
AI L
HA
-R
RD
FA
IL-H
AR
FA
IL-R
LI N
KF
AI
L- H
LI N
FA
ILR
OW
ER
ADX- H-PSU
HOST
HE VIEW
REMOTE RU VIEW
Figure 2‐2
‐
‐
ADX DAS 6bands Configuration
HPR is composed of only Main HPR for 1~6 bands configuration
In this case, HPR has two ORU.
Advanced RF Technologies, Inc.
25
메모 [H13]: 8‐>6 으로 수정함.
2.3 ADX‐DAS Scalability
Table 2‐1
HE
ADX‐DAS Scalability
Unit
Scalability
Supported band
700M, Cellular, AWS, PCS, SMR800/900,
PS700, WCS, BRS TD‐LTE
RFU
Up to 8
NMS
Channel Combiner
Remarks
up to 6: card type
7th & 8th RFU: 19” rack type
Optic Unit
Up to 4
Band Combiner Unit
Up to 4
To support multiple carriers
Capable of supplying power to 8 RFUs, 4
BCUs, 4 ODU racks and NMS.
Power Supply Unit
(AC or DC)
RU or HPR
OEU
RU or HPR
PSU
(RU)
Adaptor type
19” rack mount
(AC or DC)
Advanced RF Technologies, Inc.
Up to 60
Up to 4
1 per remote module
Capable of supplying power to 6 Remote
Modules
26
메모 [H14]: 8‐>6 으로 수정
3.
ADX OVERVIEW
3.1 Head End
The head end unit must always 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.
Head end components include:
 ADX‐H‐NMS (Network Management System)
 ADX‐H‐CHC (Head End Channel Combiner)
 ADX‐H‐PSU (Head End Power Supply)
 Up to [4] ADX‐H‐BCU (Band Combiner Unit)
 Up to [8] ADX‐H‐RFU‐x (RF Unit)
 Up to [4] ADX‐RACK‐ODU (Optical Unit)
Specifications
‐
‐
‐
‐
‐
Size: 19.0 x 14.6 x 12.2 inches (482 x 370 x 311 mm)
Weight: 83.7 lbs (38.0 Kg)@4 RFU, CHC‐H, PSU and NMS
Power Consumption: 52W@4 RFU, 1 ADX‐H‐ODU4 and NMS, 28W@1 RFU, 1 ADX‐H‐ODU4 and
NMS
Power Input: 110VAC or ‐48VDC(optional)
Supports the ADRF‐BBU for external battery backup solution
ADX- H-BCU -P
P O WE R
ADX- H-RACK -ODU
P O WE R LD FA I L1- 4 LI N K1
S O FT FA I L
LI N K 2
LI N K3
LI N K4
LD FA I L5- 8 LI N K5
LI N K 6
LI N K7
LI N K8
U L1
U L2
U L3
U L4
U L5
U L6
U L7
U L8
D L1
D L2
D L3
D L4
D L5
D L6
D L7
D L8
ADX- H-CHC
ADX-H -RFU-P
ADX-H -RFU-7
P O WE R
DL OUT
U L IN
DL OUT
ADX -H- RFU-A
P O WE R
UL IN
DL OUT
P O WE R
UL IN
DL OUT
S O FT FA I L
S O FT FA I L
S O FT FA I L
H A R D FA I L
H A R D FA I L
H A R D FA I L
H A R D FA I L
D L S I G LO W
D L S I G LO W
D L S I G LO W
D L S I G LO W
ST
ER
LO
HG
PO
ER
OF
FA
ILSO
TF
ILHA
RD
FA
IL
-H
AR
FA
I LIN K
FA
IL
LIN
-H
FA
IL
-R
ADX- H-NMS
BA
TT
ADX- H-PSU
FA
IL
CF
A IL
S O FT FA I L
AC
UL IN
ADX-H -RFU-C
P O WE R
HOST
HE VIEW
PO

REMOTE RU VIEW
Figure 3‐1
Advanced RF Technologies, Inc.
Head End Front View
27
메모 [Y15]: 추가
15/05/18
3.1.1
‐
‐
‐
‐
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
‐
‐
Size: 19.0 x 12.1 x 1.7 inches
Weight: 5.5 lbs
IL-
HE VIEW
FA
FA
IL
-R
FA
IL
-H
HOST
LI
NK
LI
NK
HA
FT
FT
SO
PO
ER
FA
IL
-H
ADX -H- NMS
FA
IL
-R
AR
DF
A IL
-H
Spec

Functions and features
SO

NMS (Network Management System)
REMOTE RU VIEW
Figure 3‐2
ADX‐H‐NMS Front View
3.1.1.1 LEDs
PO
WE
SO
FT
-F
S O AI L
-H
FT
-FA
IL
HA
RD -R
-FA
HA
RD I L-H
-FA
LIN I LKF R
LIN ILKF H
ILR
NMS has LEDs on the front panel as shown in Figure 3‐3.
Figure 3‐3
Table 3‐1
NMS LED
NMS LED Specifications
ADX DAS‐NMS
Power
SOFT FAIL‐H
SOFT FAIL‐R
HARD FAIL‐H
HARD FAIL‐R
LINK FAIL‐H
LINK FAIL‐R
Solid Green
OFF
Solid Yellow
Solid Green
Solid Yellow
Solid Green
Solid Red
Solid Green
Solid Red
Solid Green
Solid Yellow
Solid Green
Solid Yellow
Solid Green
Advanced RF Technologies, Inc.
Specifications
NMS power is ON
NMS power is OFF
HE Soft Fail alarm exists in the system
No HE Soft Fail alarms are present in the system
RU Soft Fail alarm exists in the system
No HPR Soft Fail alarms are present in the system
HE Hard Fail alarm exists in the system
No HE Hard Fail alarms are present in the system
RU Hard Fail alarm exists in the system
No HPR Hard Fail alarms are present in the system
HE Link Fail alarm exists in the system
No HE Link Fail alarms are present in the system
RU Link Fail alarm exists in the system
No HPR Link Fail alarms are present in the system
28
3.1.1.2 Ethernet Port
The Ethernet port can be used to communicate directly with the ADX DAS using a RJ‐45 crossover cable or can
also be used to connect the ADX DAS to an external modem box.
HOST HE VIEW
Figure 3‐4
REMOTE RU VIEW
Ethernet Port
3.1.1.3 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 ADX 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.
HOST
HE VIEW
REMOTE RU VIEW
Figure 3‐5
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)
3.1.1.4 HE View/RU View Switch
The HE View/RU View Switch allows the user to disable the periodic monitoring performed by the NMS. In the
HE view mode, the NMS monitors the status of all subordinate units connected to NMS but when switched to HPR
view the NMS does not monitor the subordinate units. HPR View mode will allow the user to go to a HPR and
monitor/control the HE. If the NMS is set to the HE View mode and tries to connect to a HPR to monitor the HE,
data collisions between the NMS and HPR may prevent the user from properly monitoring or configuring the HE
when at the RU.
HOST
HE VIEW
REMOTE RU VIEW
Figure 3‐6
Advanced RF Technologies, Inc.
HE View/RU View Switch
29
3.1.2
RFU (ADX‐H‐RFU‐x)
ADX -H- RFU-P
DL IN
UL O UT
P O WE R
UL IN
DL OUT
S O FT FA I L
H A R D FA I L
DPX
D L S I G LO W
ADX -H- RFU-P
Figure 3‐7

Functions and features
‐
‐
‐
‐
‐
‐

RFU Front & Rear View
Provide RF interface with BTS
Each RFU has independent gain control and filtering
Modular type and hot swappable
Supports duplex port or simplex TX & RX ports
Easily support additional frequency bands by adding a single RFU
Reduces complexity and overall equipment size
Specifications
‐
‐
Size: 12.8 x 6.2 x 2.8 inches
Weight: 7.3 lbs
3.1.2.1 LEDs
RFU has LEDs on the front panel as shown in Figure 3‐8.
P O WE R
S O FT FA I L
H A R D FA I L
D L S I G LO W
Figure 3‐8
Table 3‐2
RFU LED
RFU LED Specifications
ADX DAS‐Module
Power
Soft Fail
Hard Fail
DL SIG LOW
Solid Green
OFF
Solid Yellow
Solid Green
Solid Red
Solid Green
Solid Yellow
Solid Green
Advanced RF Technologies, Inc.
Specifications
Module power is ON.
Module power is OFF.
Soft Fail alarm exists in the RFU.
No Soft Fail alarms are present in the RFU.
Hard Fail alarm exists in the RFU.
No Hard Fail alarms are present in the RFU.
When DL input signal level is lower than the defined threshold
level. (default threshold value: ‐5dBm)
When DL input signal level is upper than the defined threshold
level.
30
3.1.2.2 RF Ports
3.1.2.2.1
DL IN/UL OUT & DPX ports
DL IN/UL OUT & DPX Ports (refer to Figure 3‐7) are located at the back of RFU and can be connected directly to
the BTS. The RFU can support incoming signal strength from 0 to 25dBm.
DL OUT/UL IN
3.1.2.2.2
DL OUT/UL IN Ports (refer to Figure 3‐7) are located at the front of the RFU and connect directly to the HE
Channel Combiner (ADX‐H‐CHC).
3.1.2.3 Communication Port
The ADX‐H‐NMS monitors and controls the RFU via this port. DC Power is also provided to the RFU via this port.
Figure 3‐9
3.1.3
Communication Port (RFU)
Channel Combiner (ADX‐H‐CHC)
U L1
U L2
U L3
U L4
U L5
U L6
U L7
U L8
D L1
D L2
D L3
D L4
D L5
D L6
D L7
D L8
ADX -H- CHC
U L8
U L7
U L6
U L5
U L4
U L3
U L2
U L1
D L8
D L7
D L6
D L5
D L4
D L3
D L2
D L1
Figure 3‐10 ADX‐H‐CHC Front & Rear View

Functions & Features
‐
‐
‐

Combines DL signals received from each RFU and feeds the combined signals to the ADX‐RACK‐
ODU
Combines UL signals received from each HPR and feeds the combined signal to the ADX‐H‐RFU
Supports up to 8 RFUs and (4) ADX‐RACK‐ODU
Specifications
‐
‐
Size: 16.9 x 12.9 x 1.7 inches
Weight: 11.0 lbs
3.1.3.1 RF ports
3.1.3.1.1
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 RFU.

Receive the downlink signal from each RFU

Split the uplink signal received from ODU to each RFU
3.1.3.1.2
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
Advanced RF Technologies, Inc.
31
3.1.4
Optic Unit (ADX‐RACK‐ODU, ADX‐H‐ODU4/ADX‐H‐ODU1)
Figure 3‐11
VHF UL
UL OUT
VHF DL
ADX‐RACK‐ODU Front & Rear view
DL IN
VHF UL
UL OUT
VHF DL
DL IN
OPT
LINK 4
LINK 3
Figure 3‐12

LINK 1
LINK 4
LINK 3
LINK 2
LINK 1
ADX‐H‐ODU4 and ADX‐H‐ODU1 Installed in ADX‐RACK‐ODU
Functions & Features
Converts signal from RF to optic and transports signals up to a maximum of 10Km (optical 5dBo
loss including optical connection loss).
ADX‐H‐ODU4‐X can supports up to (4) Main HPRs and up to 5dBo optical loss.
ADX‐H‐ODU1‐X can supports up to 10dBo optical loss.
Minimizes the number of optic fiber cable need by transporting multi band signals over a single
strand of fiber using WDM technology.
‐
‐
‐
‐

LINK 2
Spec
‐
‐
Size: 19.0 x 12.9 x 1.7 inches (482 x 327 x 44 mm)
Weight: 13.2 lbs (6.0 kg)
3.1.4.1 LEDs
The ADX‐RACK‐ODU has the following LEDs on the front panel as shown in Figure 3‐13.
Figure 3‐13 ADX‐RACK‐ODU LED
Table 3‐3
ODU LED Specifications
ADX DAS‐Module
Power
LD FAIL
LINK1 to LINK4
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
3.1.4.2 RF Ports
V H F U L1
U L O U T1
V H F D L1
D L I N1
Figure 3‐14 ODU RF Ports
Advanced RF Technologies, Inc.
32
메모 [H16]: ‐X 추가
메모 [H17]: ‐X 추가
3.1.4.2.1
DL IN/UL OUT
The combined downlink signal received from ADX‐H‐CHC is transferred to the DL IN 1(or 2) at the back of ODU.
The UL OUT port connects any of the ports on back of the ADX‐H‐CHC labeled UL 1 ~8.
3.1.4.2.2
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 ADX‐H‐CHC and connect directly to the VHF DL/UHF UL ports of the ADX‐H‐ODU.
3.1.4.3 Optic Ports
LI N K 4
LI N K 3
LI N K 2
LI N K 1
Figure 3‐15 ODU Optic Ports
The ADX‐H‐ODU4 has (4) optic ports and can support up to (4) Main HPR’s. Likewise, the ADX‐H‐ODU1 has (1)
optic ports and can support up to (1) Main HPR.
3.1.4.4 Communication Port
ADX‐H‐NMS monitors and controls the ADX‐RACK‐ODU via this port. DC power is provided from the ADX‐H‐
PSU to the ADX‐RACK‐ODU via this port.
OPT
Figure 3‐16 Communication Port (ODU)
Power Supply Unit (ADX‐H‐PSU)
ADX -H- PSU
PO
ER
CH
ST
LO
AT
FA
IL
DC
FA
IL
3.1.5
OFF
Figure 3‐17 ADX‐H‐PSU Front & Rear View

Functions & Features





‐ Capable of supporting up to:
(8) ADX‐H‐RFUs
(4) ADX‐H‐BCU
(4) ADX‐H‐ODU
ADX‐H‐NMS
‐ Support the ADRF‐BBU for an external battery backup solution
Specificaitons
‐
‐
‐
Size: 16.9 x 13.1 x 1.7 inches
Weight: 7.7lbs
Power Input: 110V or 220VAC, selectable by switch
3.1.5.1 LEDs
Advanced RF Technologies, Inc.
33
PO
WE
HG
LO TS
BA
A C TT
FA
DC L
FA
IL
ADX‐H‐PSU has the following LEDs on the front panel as shown in Figure 3‐18.
Figure 3‐18 HE PSU LED
Table 3‐4
HE PSU LED Specifications
ADX DAS‐Module
Power
CHG STS
LOW BATT
AC FAIL
DC FAIL
Specifications
Solid Green
OFF
Solid Yellow
Blinking Green
Solid Green
OFF
Solid Yellow
Solid Green
Solid Yellow
Solid Green
Solid Yellow
Solid Green
ADX‐H‐PSU power is ON
ADX‐H‐PSU power is OFF
No AC power is available and ADRF‐BBU is being used
PSU is charging the ADRF‐BBU
ADRF‐BBU is completely charged
Battery is not connected
Low Battery alarm exist in the PSU
No Low Battery alarm is present in the PSU
AC Fail alarm exists in the PSU
No AC Fail alarm is present in the PSU
DC Fail alarm exists in the RFU
No DC Fail alarms is present in the PSU
3.1.5.2 AC Input On/Off Switch, AC Input Port and AC Input Selection Switch
AC IN
O N/O FF
AC SEL ECT
Figure 3‐19 HE PSU AC Input On/Off Switch, AC Input Port and AC Input Selection Switch
The AC Power on/off switch is located at the back panel of HE PSU. The ADX‐H‐PSU can operate at 110V AC
and 220V AC. The user should verify that the AC input voltage switch is set to the correct voltage before powering
on the ADX‐H‐PSU.
3.1.5.3 Battery Backup Port, Battery Install Port and Battery Backup Switch
O FF
O FF
BATTERY
24V
1A
BATTERY
S/W
ON
BATTERY
INSTAL L
Figure 3‐20 Battery Backup Port, Battery Install Port and Battery Backup Switch
The Battery Switch can be used to provide power to the optional External Backup Battery (ADRF‐BBU) (Figure
3‐20).
The ADX‐H‐PSU can be connected to an ADRF‐BBU (ADRF Battery Backup Unit) which can provide power
during a power outage. If an ADRF‐BBU is utilized, connect the ADRF‐BBU to the ADX‐H‐PSU via the external
battery backup port as shown in Figure 3‐20.
Advanced RF Technologies, Inc.
34
(WARNING: The circuit switch on the ADRF‐BBU must be set to the OFF position before connecting the ADRF‐
BBU to the ADX‐H‐PSU to prevent damage to the ADX‐H‐PSU or the ADRF‐BBU and personal injury.)
Note: Please contact ADRF Technical Support for assistance if you are unfamiliar with the installation
procedure of our battery box.
The Battery Install port is used to let ADX‐H‐NMS know if an ADRF‐BBU is connected to the ADX‐H‐PSU or not.
If an ADRF‐BBU is connected without the cable connection to Battery Install port, the ADX‐H‐NMS will not detect
the ADRF‐BBU.
The procedure for connecting HE PSU to BBU



3.1.6
BATT S/W OFF
Connect ADRF‐BBU to HE PSU Battery port and Battery Install port using HE battery
cable
BATT S/W ON
메모 [C18]: BCUH 추가 필요 검토
Optional Band Combiner Unit (ADX‐H‐BCU‐x)
ADX- H-BCU -P
P O WE R
CH3
S O FT FA I L
CH2
CH1
SUM
BAND COM
DL IN3
D P X3
U L O U T3
D L I N2
D P X2
U L O U T2
D L I N1
DPX1
U L O U T1
DL OUT
U L IN
Figure 3‐21 ADX‐H‐BCU Front & Rear View

Functions & Features
‐
‐
‐
‐

Combines and balances up to 3 carriers’ signals
Easily supports multiple carriers’ signals by adding a single piece of equipment
Reduces complexity and expansion costs to support multiple carriers’ signals in a single system
Input range: +5 ~ +25dBm
Specifications
‐
‐
Size: 19.0 x 12.9 x 1.7 inches
Weight: 9.9 lbs
3.1.6.1 LEDs
The ADX‐H‐BCU has the following LEDs on the front panel as shown in Figure 3‐22.
POWER SOFT FAIL
Figure 3‐22 BCU LED
Table 3‐5
BCU LED Specifications
ADX DAS‐Module
Power
Solid Green
OFF
Advanced RF Technologies, Inc.
Specifications
Module power is ON
Module power is OFF
35
Soft Fail
Solid Yellow
Solid Green
Soft Fail alarm exist in the RFU
No Soft Fail alarms are present in the RFU
3.1.6.2 RF Ports
3.1.6.2.1
DL IN/UL OUT & DPX ports
DL IN/UL OUT & DPX Ports are located at the back of BCU and connect directly to a BTS.
3.1.6.2.2
DL OUT/UL IN
DL OUT/UL IN Ports are located on the back of ADX‐H‐BCU and connect directly to the ADX‐H‐RFU.
3.1.6.3 Communication Port
ADX‐H‐NMS monitors and controls the ADX‐H‐BCU via this port. DC Power is provided from ADX‐H‐PSU to the
ADX‐H‐BCU via this port.
BAND COM
Figure 3‐23 Communication Port (BCU)
3.2 HPR
‐
‐
The High power remote unit is composed of a (1) Main HPR and up to (1) Extended HPR.
Main HPR and Extended HPR use same enclosure.
메모 [C19]: 수정(CK)
Figure 3‐24 ADX‐HPR Single enclosure (bottom view)
3.2.1
Port
3.2.1.1 RF Port
3.2.1.1.1 Antenna server port (DIN type)
Advanced RF Technologies, Inc.
36
BAN D 1 SER VER
BAN D2 SER VER
C PL
(-3 0 d B)
EX _ F1 _ IN
C PL
( -3 0 d B)
C PL
(- 3 0d B )
EX_ F2 _ IN
AC IN 1 1 0V
BAN D 3 SER VER
EX_ F1 _ O U T
C PL
(-3 0 d B)
EX _ F2 _ O U T
BAN D5 SER VER
BAN D 6 SER VER
O PTIC
A =AC _L
B= AC N
C =F. G
C PL
( -3 0 d B)
PO WER
GUI
C PL
(-3 0 d B)
RUN
3.2.1.1.2 Extension Filter port (N type)
‐
‐
BAN D 4 SER VER
EX_F1_IN, EX_F1_OUT: extension of additional Filter Port
EX_F2_IN, EX_F2_OUT: extension of additional Filter Port
3.2.1.2 Optic port
Figure 3‐25 Inner Optic port connection
Advanced RF Technologies, Inc.
37
OPTIC
Figure 3‐26 Optic connection
3.2.1.3 GUI, RS 485 port
‐
‐
‐
GUI_A, RS 485_A is for additional band (SISO, MIMO_1)
GUI_B, RS 485_B is for additional band (MIMO_2)
GUI connectivity is along with optic line position (See the pictures below of various combinations)
BAN D1 SER VER
OPTIC LINE
BAN D 2 SER VER
C PL
(- 3 0d B )
EX _ F_ IN
BAN D3 SER VER
EX _ F_ O U T
C PL
(-3 0 d B)
C PL
(-3 0 d B)
BAN D 4 SER VER
C PL
(-3 0 d B)
O PTIC
AC IN 1 1 0 V
BAN D 5 SER VER
BAN D 6 SER VER
PO WER
A = AC_L
B = AC_N
C = F.G
C PL
(-3 0 d B)
GUI
C PL
(-3 0 d B)
RUN
Usable GUI PORT (SISO/MIMO_1)
Usable GUI PORT (MIMO_2)
Figure 3‐27 ADX‐HPR 6bands GUI connection (Single enclosure)
3.2.2
LEDs
HPR has the following LEDs on the front panel as shown in Figure 3‐28.
Advanced RF Technologies, Inc.
38
Figure 3‐28 HPR LED
Table 3‐6
Master HPR LED Specifications
ADX DAS‐Module
Power
3.2.3
Solid Green
OFF
Specifications
Module power is ON
Module power is OFF
AC On/Off Switch, AC Port
Figure 3‐29 HPR AC Port
Figure 3‐29 HPR AC Switch
The AC Power on/off switch is located on PSU in the enclosure of each ADX‐HPR.
Advanced RF Technologies, Inc.
39
The ADX‐HPR is operated at the only 110V AC.
The socket‐outlet shall be installed near the equipment and shall be easily accessible
(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 ADX‐HPR.)
(CAUTION: DOUBLE POLE/NEUTRAL FUSING.)
The procedure for connecting HPR
 AC S/W OFF
 AC cable connection
 Optic connection
 RF cable connection
 RS 485 connection
 AC S/W ON
3.2.4
메모 [C20]: DC 고려 사항 추가
DC On/Off Switch, DC Port
Figure 3‐30 HPR DC Port
Figure 3‐31 HPR DC Switch
The DC Power on/off switch is located on PSU in the enclosure of each ADX‐HPR.
The ADX‐HPR is operated at the only ‐48V DC.
The socket‐outlet shall be installed near the equipment and shall be easily accessible
Advanced RF Technologies, Inc.
40
(WARNING: The DC switch must be set to OFF before cable connection to avoid equipment damage and
personal injury.)
(WARNING: To avoid damage, be sure ‐48V(‐36~‐76V) DC for operation of ADX‐HPR.
(CAUTION: DOUBLE POLE/NEUTRAL FUSING.)
The procedure for connecting HPR
 DC S/W OFF
 DC cable connection
 Optic connection
 RF cable connection
 RS 485 connection
 DC S/W ON
4.
CABLE CONNECTION
4.1 Head End Connection Diagrams
4.1.1
Front/Rear Head End Connection View with Optional BCU unit
ADX- H-BCU -P
P O WE R
ADX- H-OPT
P O WE R LD FA I L1- 4 LI N K1
S O FT FA I L
LI N K 2
LI N K3
LI N K4
LD FA I L5- 8 LI N K5
LI N K 6
LI N K7
LI N K8
U L1
U L2
U L3
U L4
U L5
U L6
U L7
U L8
D L1
D L2
D L3
D L4
D L5
D L6
D L7
D L8
ADX- H-CHC
ADX-H -RFU-P
ADX-H -RFU-7
P O WE R
DL OUT
ADX-H -RFU-C
P O WE R
U L IN
DL OU T
ADX -H- RFU-A
P O WE R
UL IN
P O WE R
D L OUT
UL IN
DL OUT
S O FT FA I L
S O FT FA I L
S O FT FA I L
H A R D FA I L
H A R D FA I L
H A R D FA I L
H A R D FA I L
D L S I G LO W
D L S I G LO W
D L S I G LO W
D L S I G LO W
ADX- H-NMS
ST
FA
AC
HG
PO
PO
ER
OF
FA
ILSO
TF
ILHA
RD
FA
IL
-H
AR
FA
I LIN K
FA
IL
LIN
-H
FA
IL
-R
LO
ER
ADX- H-PSU
IL
CF
A IL
S O FT FA I L
BA
TT
UL IN
HOST
HE VIEW
REMOTE RU VIEW
Advanced RF Technologies, Inc.
41
Figure 4‐1
4.1.2
HE Cable connection (1 ADX‐RACK‐ODU +1 BCU)
Rear Head End Connection View with (4) ADX‐RACK‐ODU units
Advanced RF Technologies, Inc.
42
Figure 4‐2
HE Cable connection (4 ADX‐RACK‐ODUs)
4.2 High Power Remote Unit Connection Diagrams
‐
Ethernet cable for RS 485 is crossover type
메모 [C21]: 수정(CK)
BAN D1 SER VER
OPTIC LINE
BAN D 2 SER VER
C PL
(- 3 0d B )
BAN D3 SER VER
EX _ F_ O U T
EX _ F_ IN
C PL
(-3 0 d B)
C PL
(-3 0 d B)
BAN D 4 SER VER
C PL
(-3 0 d B)
O PTIC
BAN D 5 SER VER
AC IN 1 1 0 V
BAN D 6 SER VER
PO WER
A = AC_L
B = AC_N
C = F.G
C PL
(-3 0 d B)
GUI
C PL
(-3 0 d B)
RUN
Usable GUI PORT (SISO/MIMO_1)
Usable GUI PORT (MIMO_2)
Figure 4‐3
ADX‐HPR 6bands connection (Single enclosure)
 WARNING! The RS‐485 ports should NEVER be connected to the Enthernet port of laptop or Ethernet
Network Equipment. Doing so may cause serious damage to the Remote Modules or network equipments.
Advanced RF Technologies, Inc.
43
5.
MOUNTING METHOD
5.1 Head End
BA
TT
STS
FA
IL
FA
IL
LO
DC
AC
CH
FA
IL
-H
ER
FA
IL
HA
-R
RD
FA
IL
HA
-H
RD
FA
IL
LI
-R
NK
FA
IL
-H
LI
NK
FA
IL
-R
SO
FT
OW
ER
Rack Mount
SO
FT
5.1.1
Figure 5‐1

HE Rack Mount (Front & Rear view)
Expandable up to 4 ADX‐RACK‐ODUs, 4 BCUs and 2 AUX CHs
Advanced RF Technologies, Inc.
44
FA
IL
-H
FA
IL
-R
LIN
LIN
FA
IL
-R
IL
-H
HA
AT
ST
FA
IL
FA
FA
IL
-R
AR
HG
LO
PO
FA
IL
-H
ER
FT
FT
PO
Figure 5‐2

FA
IL
Wall Mount
SO
5.1.2
HE Wall Mount (Top View)
Expandable up to 3 units (ODU, BCU) or max 3U (132mm)
‐
ODU or BCU will be stacked up above basic 19” HE chassis which includes NMS, RFU, PSU and
CHC
Advanced RF Technologies, Inc.
45
5.2 HPR
5.2.1
Wall Mount
ADX‐HPR is support only wall mount.
Figure 5‐3
6.
HPR Wall Mount
INSTALLATION
6.1 Pre‐Installation Inspection
Please follow these procedures before installing ADX HPR 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
ADX 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)
OVC II
Pollution degree (PD)
PD2
Advanced RF Technologies, Inc.
46
6.2 ADX DAS Installation Procedure
6.2.1
HE Installation Procedure
CAUTION: ADX DAS HE should be installed inside building only.
6.2.1.1 Installing a ADX DAS HE in a rack
The ADX 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 ADX HE to attach it to the 19” rack. The ADX 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 ADX HE
Detach the wall mount bracket assembled located at the base of the ADX‐HE chassis
Verify that the HE and Mounting holes are in good condition
Set the ADX DAS HE against the 19”rack and secure the unit with screws
Verify that ADX HE is securely attached
Connect the GND cable
Connect the RF cable
Connect the Power
Connect the Optic cable
Advanced RF Technologies, Inc.
47
Figure 6‐1
Advanced RF Technologies, Inc.
ADX HE 19” Rack Mount Instructions
48
6.2.1.2 Wall mounting the ADX DAS HE
If the ADX HE chassis is being mounted to a wall, then allow clearance of at least 17” (430mm) on the top
(front side of HE) and 2” (51mm) on the bottom (rear side of HE) and 2” (51mm) on both sides and front for air
circulation.

Mount procedure


‐ The following steps should be followed when wall mounting the ADX HE
Verify that the HE and Mounting hole are in good condition
Place the ADX HE against the wall and mark of the mounting holes







Drill holes(4holes, 18Φmm, 50mm depth) in the installation surface and insert the anchor bolts
Bolt the ADX HE to the wall
Make sure the ADX HE is securely attached
Connect the GND cable
Connect the RF cable
Connect the Power
Connect the Optic cable
Figure 6‐2
Advanced RF Technologies, Inc.
ADX HE Wall Mount Instructions
49
6.2.1.2.1
Installing added rack type modules into basic HE chassis
Additional modules such as the ADX‐RACK‐ODU and ADX‐H‐BCU can be mounted to the Chassis (ADX‐H‐CHA)
using the included mounting brackets that come with the add‐on modules.

A maximum of up to 3 addon modules (ODU, BCU) can be mounted to the chassis
‐
ODU or BCU will be stacked up above basic 19” HE chassis which includes NMS, RFU, PSU and
CHC
Figure 6‐3
Advanced RF Technologies, Inc.
Wall Mount Instructions for ADX‐HE added 1U Unit
50
6.2.2
RU Installation Procedure
Wall mounting the ADX HPR

Mount procedure
‐
The following steps should be followed while mounting the Remote Module



Verify that the HPR and Mounting hole are in good condition
Separate the wall mount bracket from the HPR
Placed the wall mount bracket against the wall and mark off the mounting holes








Drill holes(4holes, 18Φmm) in the installation surface then insert the enclosed anchor bolts
Bolt the mounting bracket to the wall
Install the HPR to the mounting bracket
Fasten the HPR to the mounting bracket using the included screws
Verify that the HPR is securely attached
Connect the Antenna cable
Connect the Power
Connect the Optic cable (if applicable)
Advanced RF Technologies, Inc.
51
Figure 6‐4
Advanced RF Technologies, Inc.
HPR Wall Mount Instructions
52
6.3 Grounding
A ground cable is included in the box. The grounding terminals are located at the rear of the ADX HE and RU.
The grounding cable should be properly connected before powering on the equipment.
Figure 6‐5
Figure 6‐6
Ground Cable Connection (HE rear side)
Ground Cable Connection (HPR dual side)
Round terminals located on the side of a 1.25mm²(16AWG)or more wires Using permanently connected to
earth.
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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 6‐7)

When optic connector are not in use, the port should be covered with a protective dust cap. (Figure 6‐8)
Figure 6‐7
Optic Connector Cleaning (left) and Optic Port Cleaning (right)
Figure 6‐8
Advanced RF Technologies, Inc.
SC/APC Optic Connector Dust Cap
54
7.
COMMISSIONING
The commissioning process is composed of the following:
‐ Pre‐Commissioning Check (refer to section 7.1)
‐ Optic Commissioning (Optic loss compensation) (refer to section 7.2.1)
‐ HE commissioning (refer to section 7.2.2)
‐ RU commissioning (refer to section 0)
‐ Commissioning verification (refer to section 0)
7.1 Pre‐Commissioning Check
7.1.1
Verify cable connections

Before powering up units, check all RF cables, fiber cables, and power cables connections.

All power LEDs should be lit 1 minute after the components have been turned on.

Check whether LD & PD LEDs of HE ODU modules are solid GREEN. (PD LED will be lit green when connected to
a Master RU).
‐
‐
7.1.2

If the PD LED for the link with a connection with to a HPR is OFF, then check the optic cable
connection.
If the optic cable is good and the PD LED is not lit green, the try another optic port on the ADX‐
RACK‐ODU to see if the other port lights up green.
Connect to the Web‐GUI
Confirm that the NMS Host/Remote switch is set to the Host position

Confirm that the HE View/RU View switch is set to the HE View position

Connect the RJ‐45 crossover cable from the Ethernet port of NMS to the Ethernet port of laptop

Launch a standard Internet browser like IE or Google Chrome and type the System Controller’s IP address
(192.168.63.1) into the addess bar

On the login screen use the following default login/password to gain access:
‐
‐
Username: adrf
Password: adrf
Figure 7‐1
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Login window
55
7.1.3
Check Navigation Tree Status

Check whether the status of navigation tree is Lock or Unlock.

The navigation tree should be in the “Unlock” state in when adding or removing active ADX components.
Figure 7‐2
Navigation tree Lock/Unlock
When the system is locked:
 Unable to detect any hardware that is added
 Able to detect any link fails (communication errors between NMS and components)
 System should be locked after final commissioning
When the system is unlocked:
 Unable to perform BCU, RFU, or HPR commissioning
 System is continually scanning for new hardware
7.1.4
Set Location Info, Installer Info and Date & Time

Go to the Install page of NMS

Enter Location & installer information

Set current Date & Time
7.1.5

Verify Navigation Tree Links
Check whether all units connected to HE & HPR are being displayed in the navigation tree.
‐
Navigation tree is located on the left side of Web‐GUI (Figure 7‐3 )
Figure 7‐3

Navigation tree
Check whether link fails exist. Link fails status can be seen on the front panel of NMS module via the Link Fail‐
H and Link Fail‐R LED lights.
‐
‐
If LINK‐H fail exists, power cycle the HE PSU and check if LINK‐H fail is still present and repeat this
step up to 3 times or until the alarm clears. If LINK‐H fail still exists after 3 power cycles, then
contact ADRF Technical support.
If LINK‐R fail exists, power cycle the ADX‐H‐ODU module which is connected to the Master HPR
with link fail and check to see if the LINK‐R fail is still present and repeat this step up to 3 times or
until the alarm clears. If LINK‐R fail still exists after 3 power cycles, contact ADRF Technical
support.
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56
7.1.6

BOM Comparison & Check Band Configuration
BOM comparison
‐

Check Band Configuration
‐
‐
7.1.7

On the System information page in the System menu, the list of all components connected to the
ADX‐H‐NMS should match the ADX Navigation tree. This list can be used to verify BOM generated
by designer or installer for all active components. Please note that passive components such as
the ADX‐H‐CHC, ADX‐R‐CHC, ADX‐H‐PSU, and the ADX‐R‐4WS will not show up on this report.
Check whether the band configuration of ADX‐H‐RFU is identical to the band configuration of the
ADX HPR units. Any discrepancies will appear in the System Information report.
Check to see if there are multiple remote modules with the same frequency bands within 1
remote unit. This information is displayed on the System Information page in the System menu
as notification message.
Lock current navigation tree
If there are no errors in the process of BOM Comparison & Check Band Configuration, then lock the Navigation
Tree by cliking on the “Lock System” button.
‐
‐
After locking the Navigation Tree, link fail alarms should not appear. If link fail alarms are
present, please check the physical connection of the device with the link fail alarm.
The system must first be placed in the “Unlock” state before adding any new devices. Newly
added devices will appear in the Navigation Tree when the page is refreshed. Once all new
hardware has been added to the Navigation Tree, the tree must be locked before commissioning
the system.
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57
7.2 Commissioning
7.2.1
Optic Commissioning
Figure 7‐4
ODU Install page

Navigate to the Install page of ADX‐H‐ODU (Figure 7‐4)

Compare the values of measured optic loss (LD power – PD power) in the Web‐GUI with the actual optic loss
which is typically measured at the time of installation of the fiber.
‐
The calculated optic loss is displayed when the mouse pointer is placed over the Status indicator
of each link
Figure 7‐5
‐

If the difference between the measure optic loss and the calculated loss is larger than 1.5dBo,
then clean the optic connector and optic port using optical cleaning swab. (refer to section 6.4)
The following is the definiton of the Status indicator of each link:
‐
‐
‐

measured optic loss display
Green: Indicates that optic loss is less than 5dBo
Orange: Indicates that optic loss is greater than 5dBo
Gray: No Master HPR is connected to this link.
The following is the definition for the background color of the Commissioning button:
‐
‐
‐
Green: Indicates that no optic loss compensation is needed.
Orange: Indicates that optic loss compensation is needed.
Gray: No Master HPR is connected to this link.
7.2.1.1 How to compensate the optic loss
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Optic loss compensation should be performed when the color of “Commissioning” button is orange. The
“Commissioning” button will turn orange when the difference between the compensated attenuation and the
actual compensated attenuation level is greater than 1.5 dB. Optic compensation can be performed by clicking the
orange “Commissioning” button.

The optic loss compensation for uplink and downlink are performed separately.
‐
‐

The optic loss compensation for downlink will be performed based on the LD level of the ODU
and the PD level of the Master RU.
The optic loss compensation for uplink will be performed based on the LD level of the Master
HPR and the PD level of the ODU.
Optic loss compensation adjusts the attenuation based on Table 7‐1 and the calculated optic loss (LD level‐PD
Level).
‐
‐
‐
‐
The calculated optic loss is displayed when a mouse is placed on the circle of each link. (Refer to
section 7.2.1.1)
Based on the table below, when the calculated optic loss is 1dB, the attenuation will be set to
11dB.
The attenuator for downlink optic loss compensation is located at the Master RU.
The attenuators for uplink optic loss compensation are located at the ODU.
Table 7‐1

Optic loss compensation table
Optic Loss (dBo)
Compensated Attenuation (dB)
0.5
13
12
11
Example: Let’s say that this ADX‐H‐ODU had previously been commissioned in a system where the optic loss
was 3 dBo. In the previous system, the correct amount of attenuation is 7dB. The ADX‐H‐ODU was moved to
another site and the new system has an optic loss of only 1dBo. At 1dBo of loss, the correct amount of
attenuation should be 11 dB. When this system powers on, optic commissioning will need to be performed
because the difference between the old attenuation level and the new attenuation level is 4dB which exceeds
the 1.5 dB threshold. Once optic commissioning is performed, it will set the attenaution level to 11 dB.
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7.2.2
HE Commissioning
HE commissioning is composed of HE BCU and HE RFU commissioning. The HE BCU is an optional component
and should be used when WPSs’ signals are being used in the same frequency band.
7.2.2.1 Composite power
To perform HE commissioning, the user should calculate downlink composite input level and add the proper
amount of breath room required for rise in traffic.

Information that is needed to calculate commissioning levels are:
‐
‐
‐
‐
‐
7.2.2.1.1
7.2.2.1.1.1

DL Composite Input Level Calculations for HE Commissioning
Single WSP in a frequency band
Measure the output power of the BTS signal that will be inserted into the RFU using a Spectrum Analyzer.
‐

Service frequency band
Service technology
The number of wireless service provider
The number of carriers per technology
The number of band sharing same amplifier
If input signal includes more than one technology, then measure the composite power of each
technology.
Based on Table 7‐2, calculate the maximum composite input level by using the following formula:
“Output power of BTS of technology being used” + “back‐off value” (refer to Table 7‐2)
‐
If calculated composite HE DL input power exceeds the permitted maximum input range, then
additional attenuation will need to be added so that the calculated HE DL input power does not
exceed 25dBm.
Table 7‐2
7.2.2.1.1.2
Back‐off value for each technology due to traffic breathing
Technology
Connected to BTS
CDMA
1xEVDO
WCDMA
HSPA
iDEN
GSM
LTE
6~8dB
6~8dB
8~10dB
8~10dB
0~3dB
0~3dB
8~10dB
Multiple WSPs in a frequency band
When multiple WSPs exist in a frequency band at the same time, the ADX‐H‐BCU can be used to
combine/divide the signals received from multiple WSPs.
‐
‐
‐
‐

Measure the output power of the BTS signal that will be inserted into the BCU using a Spectrum Analyzer.
‐

The ADX‐H‐BCU can receive up to 3 incoming DL signals. Each incoming signal can be attenuated
individually allowing the user to specify power ratios to control the power per carrier.
The downlink path of BCU has the input range from 0 to 25dBm.
If the downlink output of BCU exceeds DL output ALC level set by user, ALC function will activate
and limit the DL output from exceeding the defined ALC level.
The DL output of ADX‐H‐BCU is transferred to the DL input of RFU.
If input signal includes more than one technology, then measure the composite power of each
technology.
Based on Table 7‐2, calculate the maximum composite input level by using the following formula:
“Output power of BTS of technology being used” + “back‐off value” (refer to Table 7‐2)
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‐

If calculated composite HE DL input power exceeds the permitted maximum input range, then
additional attenuation will need to be added to the BCU input port so that the calculated HE DL
input power does not exceed 25dBm.
The RFU DL input commission level is the combined DL Output ALC Level of the ADX‐H‐BCU which can be
obtained from the Control page of the ADX‐H‐BCU.
‐
7.2.2.1.2
7.2.2.1.2.1
The maximum input level of HE RFU will not exceed 10dBm (= 5dBm + 10*log10 (3)) because the
maximum output of BCU each path is limited to 5dBm by the ALC function.
Example of commissioning value calculation
AT&T signal in the PCS band with multiple technologies (without attenuation)
Table 7‐3 shows 2 technologies being used by AT&T within the same band which are inputted into the HE RFU.
Table 7‐3
Input signal conditions @HE RFU downlink input
WSP
AT&T
Technology
GSM
WCDMA
Total input per band
20.0dBm
20.0dBm
HE Total Input
23.0dBm

The downlink input level for each technology should be measured because two technologies (GSM & WCDMA)
are being used by AT&T in the PCS band.

The HE DL maximum input level for each technology can be calculated by adding the back‐off value per
technology due to traffic load change (breathing).

Estimated Total Max Input per band = Total input per band + back‐off value per band for breathing.

HE DL maximum input level becomes the sum of HE DL maximum input level for each technology.
‐
‐
‐
Total measured input power for GSM is 20dBm and for WCDM is 20dBm.
The sum of HE DL maximum input level for each technology is 28dBm (25.0dBm for GSM +
25.0dBm for WCDMA = 28.0dBm) and this value is 3dB (28dBm – 25dBm) larger than the
maximum DL input of HE RFU.
If the calculated HE downlink commissioning value exceeds the maximum DL input of HE RFU,
attenuation will need to be added have the calculated HE downlink commissioning level not
exceed 25dBm.
Table 7‐4
HE maximum downlink input level without 10dB attenuator
WSP
AT&T
Total input per band
20.0dBm
Back off per band for breathing
5.0dB
20.0dBm
5.0dB
Estimated Total Max Input per band
25.0dBm
25.0dBm
Estimated Total Max Input
28.0dBm
Available Max Input
25.0dBm
7.2.2.1.2.2
AT&T signals in the PCS band with multiple technologies (with 10dB of attenuation)
After adding 10dB of attenuation to the system, the input levels per band and HE Total Input can be seen
below:
Table 7‐5
HE downlink input signal conditions after adding 10dB attenuator to HE downlink input port
WSP
Technology
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AT&T
GSM
WCDMA
61
Total input per band
10.0dBm
10.0dBm
HE Total Input
13.0dBm
The RFU can now be commissioned with the 10dB of attenuation by using a DL input commission level of
18dBm.
Table 7‐6
HE maximum downlink input level after adding 10dB attenuator to HE downlink input port
WSP
AT&T
Total input per band
10.0dBm
Back off per band for breathing
5.0dB
10.0dBm
5.0dB
Estimated Total Max Input per band
15.0dBm
15.0dBm
Estimated Total Max Input
18.0dBm
Available Max Input
25.0dBm
7.2.2.1.2.3
Multiple WSPs’ signals exist in the PCS band (with power ratio)
Table 7‐7 displays all the various incoming DL signals that are entering into the HE PCS BCU. The ADX‐H‐BCU
has total 3 input ports and in the example below each port has been assigned to Sprint, AT&T, and VzW.
Table 7‐7
Input signal conditions @HE BCU downlink input
WSP
Sprint‐ CH1
Technology
CDMA
GSM
AT&T‐ CH2
WCDMA
CDMA
Total input per band
5.0dBm
10.0dBm
10.0dBm
7.0dBm
BCU Total Input

14.5dBm
Calculate maximum DL input level for each WSP factoring in the back‐off values.
Table 7‐8
WSP
Sprint‐ CH1
5.0dBm
10.0dBm
10.0dBm
7.0dBm
Back off per band for breathing
4.0dB
5.0dB
5.0dB
4.0dB
15.0dBm
15.0dBm
AT&T‐ CH2
9.0dBm
18.0dBm
VZW‐ CH3
11.0dBm
Based on the calculated maximum DL input level for each port, the user should decide on a target maximum
Input power for each BCU port.
‐
Targeted maximum Input power for each BCU port should not be less than the calculated
maximum DL input level for each port and should not exceed the maximum input level, 25dBm.
Table 7‐9
WSP
Targeted maximum input power
Targeted DL Output Power Ratio set by user

HE maximum downlink input level
Total input per carrier
Estimated Total Max Input per carrier

VzW‐ CH3
Targeted maximum input power
Sprint‐ CH1
9.0dBm
AT&T‐ CH2
VZW‐ CH3
18.0dBm
11.0dBm
19.2dBm
30.0%
20.0%
50.0%
Calculate the DL maximum output power of BCU based on targeted maximum Input power for each BCU port.
‐
The highest power ratio that has been set is VZW‐ CH3 @ 50%. The ADX‐H‐BCU will apply
attenuation to this port to set the maximum output power to 5dBm, therefore 6dB of
attenuation will be applied to this port.
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‐





The attenuation and DL output ALC level for the other ports are set based on the formula below
to keep the power ratio between BCU ports.
The maximum output power for the specified path = 10*log10[10^(Max_ALC/10)x(Pwr_Ratio)/
Max_Ratio]
 Max_ALC: DL output ALC level for the path with maximum power ratio = 5dBm
 Pwr_Ratio: Targeted DL output power ratio value for the specified path
 Max_Ratio: maximum power ratio value
The attenuation for the specified path = The targeted maximum input power for the specified path ‐
The maximum output power for the specified path
DL output ALC level = The targeted maximum input power for the specified path ‐ The attenuation
for the specified path
The path for AT&T‐ CH2
 The maximum output power = 10*log10[10^(5/10)x20%/50%] = 1.02dBm
 The ATT value = 18.0dBm‐1.02dBm=16.98dB  16.5dB(the control step of used attenuator is
0.5dB)
 DL output ALC level = 18dBm – 16.5dB = 1.5dBm
The path for Sprint‐ CH1
 The maximum output power = 10*log10[10^(5/10)x30%/50%] = 2.78dBm
 The ATT value = 9.0dBm‐2.78dBm=6.22dB  6.0dB(the control step of used attenuator is 0.5dB)
 DL output ALC level = 9.0dBm – 6.0dB = 3.0dBm
‐ The DL maximum output power of BCU is the sum of maximum output power for each port and
this power becomes the HE RFU input commissioning level.
‐ The maximum input level of HE RFU should be less than 10dBm (= 5dBm + 10*log10 (3)) because
the maximum output of BCU per each path doesn’t exceed 5dBm by ALC function.
Table 7‐10
WSP
Targeted maximum input power
Targeted DL Output Power Ratio set by user
DL maximum output power
(ATT control step, 0.5dB is not considered)
ATT value
DL output ALC level or
DL Maximum output power
(ATT control step, 0.5dB is considered)
DL Output Power Ratio
considering ATT control step 0.5dB
Advanced RF Technologies, Inc.
Maximum Output Power per carrier
Sprint
AT&T
VZW
9.0dBm
18.0dBm
11.0dBm
19.2dBm
30.0%
20.0%
50.0%
2.78dBm
1.02dBm
5.0dBm
6.0dB
16.5dB
6.0dB
3.0dBm
1.5dBm
5.0dBm
8.2dBm(RFU DL Input commissioning level)
30.37%
21.50%
63
48.13%
7.2.2.1.3
HE BCU Commissioning
When performing BCU commissioning, the user will need to enter the DL input commissioning level and
Targeted DL Output Power Ratio for each RF path. Refer to section 7.2.2.1 to calculate DL input commissioning
level. If a port is not being used, the DL Input Commissioning Level should be set to “disabled”.
7.2.2.1.3.1

HE BCU Commissioning Procedure
Go to Install page of the BCU on the Web‐GUI
Figure 7‐6
BCU Install Window

Select a DL Input Commissioning Level for each RF path

Enter HE BCU downlink output power ratio for each port

Press the “Apply” button

The attenuation value and output ALC level for each DL/UL path will be set automatically based on the HE BCU
downlink input commissioning level and downlink output power ratio for each port.

The BCU will check to see if ALC is active on any of the ports.
‐
‐

DL Input Commissioning Levels range is 0~+25dBm (0.5dB step)
During the commissioning routine, if ALC is activated, a popup message will appear stating that
ALC is running. If this is the case, then there is a chance that the “back‐off” value needs to be
increase to allow more breathing room.
The BCU checks to see if the BCU has any alarms.
‐
‐
If a soft fail is present, the system will prompt the user whether or not they would like to
continue.
If hard fail is present, the commissioning process will stop immediately.
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7.2.2.1.4
HE RFU commissioning
If a BCU is being used in the system, the BCU should be commissioned before commissioning the HE RFU.
For RFU commissioning, the user will need to calculate the DL input commissioning level. Refer to section
7.2.2.1 to for information to determine the DL input commissioning level.
7.2.2.1.4.1
HE RFU commissioning Procedure

Go to Install page of RFU on the Web‐GUI

Enter HE RFU downlink input commissioning level
Figure 7‐7
‐

RFU Install Window
Input range: 0~+25dBm, 0.5dB step
Press the “Apply” button

The attenuation levels will be set automatically based on DL Input Commissioning Level that is selected.

Checks to see if DL input is low.
‐

Checks to see if ALC is active.
‐

During the commissioning routine, if ALC is activated, a popup message will appear stating that
ALC is running. If this is the case, then there is a chance that the “back‐off” value needs to be
increase to allow more breathing room.
Checks to see if the RFU has any alarms.
‐
‐

During the commissioning routine, if DL input level is 10dB less than commissioning level, a
popup message will appear stating that DL input is low. If this is the case, then there is a chance
that the “back‐off” value needs to decrease breathing room.
If a soft fail is present, the system will prompt the user whether or not they would like to
continue.
If hard fail is present, the commissioning process will stop immediately.
Commissioning is successfully completed.
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7.2.3
HPR Commissioning
HPR composite downlink output level can be determined using simulation tools like iBwave. User should
simulate this output level in order to ensure that all service areas have sufficient coverage.

The simulated composite DL output power value should not exceed the maximum output level of the HPR,
which is 46/44.8/43dBm.

The simulated composite DL output power value would be used as HPR DL commissioning output level. DL
attenuation value will be adjusted automatically based on this simulated value HPR commissioning level.
For HPR commissioning, user should enter information on DL output commissioning level. Refer to section
7.2.2.1 to calculate DL output commissioning level.

Go to Install page of Remote Module on the webGUI
Figure 7‐8

Remote Module Install Window
Enter HPR downlink output commissioning level
‐
Output range: 5~+46/44.8/43dBm, 0.5dB step

Press the “Apply” button

The attenuation level for each DL/UL path will be set automatically based on DL Output Commissioning Level
that is entered

Checks to see if DL output is low.
‐

Checks to see if ALC is is active.
‐

During the commissioning routine, if ALC is activated, a popup message will appear stating that
ALC is running. If this is the case, then there is a chance that the “back‐off” value needs to be
increase to allow more breathing room.
Checks to see if the Sub‐RU has any alarms.
‐
‐

During the commissioning routine, if DL output level is 10dB less than commissioning level, a
popup message will appear stating that DL output is low. If this is the case, then there is a chance
that the “back‐off” value needs to decrease breathing room.
If a soft fail is present, the system will prompt the user whether or not they would like to
continue.
If hard fail is present, the commissioning process will stop immediately.
Commissioning is successfully completed.
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7.3 DAS Install Verification
7.3.1
Setting SNMP & Remote IP

Go to Install page of NMS (refer to section 8.2.4.1.4)

When external modem box is connected, user should set SNMP & Remote IP information.
7.3.2

Verification through Web based GUI
Go to System information page of System (refer to section 8.2.5.4.1)
‐
‐
‐
7.3.3
Check if Remote Module with same frequency band exist more than one within one HPR.
Check if there are any noncommissioned modules in HE or RU.
Check if any critical alarms are present.
UL noise power detection
When the UL noise levels is larger than the expected value, ADX DAS has a function that will measure the
uplink noise for each HPR and will generates a report with the UL noise levels. This will help the user determine
which HPR might be the cause of the elevated UL noise.

UL noise power measurement can be performed for only one frequency band at a time.

For more information, refer to section 8.2.3.3.3.
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8.
WEB‐GUI
8.1 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 ADX system must have and
external modem box connected to the ADX.
8.1.1
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

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 (use of a modem), then skip this and next step.
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 8‐1
Login screen
If you are not the Administrator, please type in your assigned username & password which you should have
received from the Administrator.
Table 8‐1
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
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8.2 Administrator/User Mode
8.2.1
Common
8.2.1.1 Navigation tree Lock/Unlock
When the system is “Locked”, a green lock icon will appear above the navigation tree. When the system is
locked, new devices cannot be added. Any devices added to the system when the system is “Locked” will not be
detected by the NMS. After a system has been commissioned properly, the system should be left in the “Locked”
position. To unlock the system, click on the “Unlock System” button to the right of the icon.
When the system is “Unlocked”, an orange icon will appear above the navigation tree. When the system is
unlocked, new devices added to the system will be automatically detected. Once the new hardware appears in the
system tree, then the system can be locked. To lock the system, click on the “Lock System” button to the right of
the icon.
Figure 8‐2
Navigation tree Lock/Unlock
8.2.1.2 Navigation Tree
Figure 8‐3
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 8‐2
Parameters
Navigation tree
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
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8.2.1.3 Power Status
Display the power source that is currently being used.
Table 8‐3
Input Power Status
Power Supply Status
Display Image
AC
Battery
8.2.1.4 Commissioning Status
Display whether or not the module has successfully been commissioned.
Table 8‐4
Status
Commissioning ICON
Display Image
Commissioned
Not‐Commissioned
8.2.1.5 Information
Figure 8‐4
ADX 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 ADX 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.
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8.2.2
Status Tab
8.2.2.1 Status – NMS
Figure 8‐5
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 ADX DAS. In addition, the user can see if any alarms are present
in the system and also the commissioning status of each module.
8.2.2.1.1
System Summary
Figure 8‐6
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.
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Table 8‐5
Description
Connected
Display the number of modules physically connected to ADX DAS
Soft Fail
Display the number of soft fail present on each module
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 View / HPR View, System Scan Time
HE View/RU View
‐
‐

Parameters
Hard Fail
8.2.2.1.2

System Summary Description
Displays whether the NMS is set to HE view or HPR view.
Refer to section 3.1.1.4
System Scan Time
‐
‐
Displays the time it takes to scan and update the information of all the modules that are on the
navigation tree. This time will increase as more components are added to the system.
When Navigation Tree is unlocked, the user should wait at least the “System Scan Time” for the
system to detect newly added hardware.
Figure 8‐7
8.2.2.1.3
System scan time, HE view/RU view
HE Alarm Status
Display the alarm status of each HE component.
Figure 8‐8
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8.2.2.1.4
HE Commissioning Status
Display commissioning status of each HE component.
Figure 8‐9
Table 8‐6
HE Commissioning status
Description for HE Commissioning status
Status
Installed Status
Commissioning Status
8.2.2.1.5
Display
Description
Physically Installed
Physically Not‐Installed
Success
Failed or not commissioned
Text is black
Text is gray
Green
Gray
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.
Table 8‐7
Alarm
System
Power Alarm
Description for NMS alarm
Severity
Description
Over Temperature
Hard Fail /
Soft Fail
Temperature of NMS is higher than the threshold
level for over temperature alarm
Temperature of the NMS is lower than the threshold
level for under temperature alarm
Under Temperature
Soft Fail
System Halt
Hard Fail
HE system halt
AC Fail
Soft Fail
AC power is operating outside of its normal range
DC Fail
Soft Fail
DC power is operating outside of its normal range
Over Current
Hard Fail
Total current of HE is higher than the threshold level
for over current alarm
Battery Low
Soft Fail
Voltage of battery connected to HE PSU is lower than
the defined threshold
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8.2.2.2 Status – BCU
Figure 8‐10 Status – BCU
8.2.2.2.1
Band
Displays the bandwidth and the frequency ranges for DL and UL of the BCU module.
Figure 8‐11 Status – BCU Band
8.2.2.2.2
Power & Atten
Figure 8‐12 Status – BCU Power & Atten

DL Commissioning Level: Displays the commissioning level for each individual RF path. If unit has not
been commissioned, “Not Commissioned” will be displayed.
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


8.2.2.2.3
DL Input: Displays the currently incoming signal strength of each RF path along with the composite DL
input power of all 3 RF paths.
Atten: Displays the attenuation values that the system is currently using which is defined by the
power ratios specified by the user.
DL Output: Displays the output value for each RF path along with the composite DL output power of
all 3 RF paths. The DL Output level for each RF path will not exceed 5dBm and the composite output
power will not exceed 10 dBm.
Power Ratio
Figure 8‐13 Status – BCU Power Ratio


8.2.2.2.4
Targeted DL Output Power: Displays desired power ratios specified by the user. If unit has not been
commissioned, “Not Commissioned” will be displayed.
Actual DL Output Power: Displays the currently power ratios that the system is using. These values
will fluctuate based on the amount of traffic that is in the system.
Alarm
Displays the current alarm status of each individual RF path. Parameters for both DL Signal Low and DL Input
Overload can be specified from the Control tab.
Figure 8‐14 Status – BCU Alarm
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8.2.2.3 Status – RFU
Figure 8‐15 Status – RFU
8.2.2.3.1
Band
Displays the bandwidth and the frequency ranges for DL and UL of the RFU module.
Figure 8‐16 Status – RFU Band
8.2.2.3.2
Power & Gain (Admin/User)


Admin Mode‐ Displays the Downlink Input/output, Downlink/Uplink Attenuation, and Uplink
Output.
User Mode‐ Displays the Downlink Input, Downlink/Uplink Attenuation, and Uplink Output.
Figure 8‐17 Power & Gain Display (Admin)
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Figure 8‐18 Power & Gain Display (User)

Input [dBm]: Displays the Downlink RF input level which comes from the ADX‐H‐BCU or BTS. This value should
be between 0 to 25 dBm.

ALC Atten [dB]: The amount of attenuation that is being used by the system when ALC is active.

Atten [dB]: The amount of attenuation that has been set manually by the user.

Output [dBm]: The downlink/uplink output power of the RFU and NOT the output power of the RU.
8.2.2.3.3
Alarm
Displays System, RF, and Power Alarms. If an alarm is present in the system, then the color of the tab will
change according to the type of failure.
Table 8‐8
Alarm
Severity
Link Fail
Soft Fail
Over Temperature
Hard Fail /
Soft Fail
Under Temperature
Soft Fail
System Halt
Hard Fail
DL Signal not detected
Soft Fail
System
RF Alarm
RFU Alarm Status
DL Signal Low
Input Overload
Overpower
Power Alarm
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Soft Fail
Hard Fail /
Soft Fail
Hard Fail /
Soft Fail
Description
A component is physically connected, but the
NMS is unable to communicate with it.
The temperature of NMS is higher than the
threshold level for over temperature alarm.
The temperature of NMS is lower than the
threshold level for under temperature alarm.
System will go into a “System Halt” state when a
hard fail alarm does not clear after 10 checks.
System Halt can only be cleared with a power
cycle, reboot, or factory settings.
Downlink input signal is lower than the defined
threshold by user.
Downlink input signal is lower than the defined
threshold by user.
Downlink input signal is higher than the defined
threshold.
Uplink output signal is higher than the defined
threshold by user.
AC Fail
Soft Fail
AC power is not operating within parameters.
DC Fail
Soft Fail
DC power is not operating within parameters.
Over Current
Hard Fail
Total current of HE is higher than the threshold
level for over current alarm.
Battery Low
Soft Fail
Voltage of battery connected to HE PSU is lower
than the defined threshold.
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8.2.2.4 Status – ODU
Figure 8‐19 Status ‐ ODU
8.2.2.4.1
Summary
The Summary section displays the number of remote modules that are physically connected, the number of
soft/hard/link fail alarms, and the number of Remote Module that have been commissioned and the number of
Remote Module that need to be commissioned.
Figure 8‐20 Summary (Status – ODU)
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Table 8‐9
8.2.2.4.2
Summary Description
Parameters
Description
Connected
Displays the number of Remote Module’s connected to the ADX‐RACK‐ODU.
Soft Fail
Displays the total number of soft fail present.
Hard Fail
Displays the number of hard fail present on each module.
Link Fail
Displays the number of link fail present on each module.
Not Commissioned
Displays the number of non‐commissioned or commission failed module.
Commissioned
Display the number of successfully commissioned module
RF Status
Displays the DL input power and the UL output power for each ODU.
An ADX‐RACK‐ODU is composed of 2 ODUs.
Figure 8‐21 RF Status (Status – ODU)
8.2.2.4.3
Optic Status
Display LD Power and PD Power for each optic path. LD Power is the power that is being sent to the HPR and
PD Power is the power that is being received from the RU.
Figure 8‐22 Optic Status (Status – ODU)
8.2.2.4.4
Optic Atten (Admin Only)
The ADX‐H‐ODU has 3 types of attenuators.
 Downlink Common Attenuator‐ Displays the common attenuation level on the DL path.
 Uplink Common Attenuator‐ Displays the common attenuation level on the UL path.
 Uplink Optic Attenuator‐ Displays the amount of attenuation used at each optical link.
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Uplink
Common attenuator
Downlink
Common attenuator
Uplink
Optic attenuator
Figure 8‐23 Optic Attenuation (Status – ODU)
8.2.2.4.5
Optic Path Status
Displays the optic status for each optic path
Figure 8‐24 Optic Path Status (Status – ODU)
Table 8‐10
Status
LD Status
PD Status
Normal
LD fail
Not Connected
Normal
PD fail
Comm Fail or Not Connected
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Description for optic path status
Display
Description
Green, optic signal being sent to Master HPR is > ‐5dBm
Orange, optic signal being sent to Master HPR is < ‐5dBm
Gray, no connection between ODU and Master RU
Green, optic signal being received from Master HPR is > ‐10dBm
Orange, optic signal being received from Master HPR is < ‐10dBm
Gray, no connection between ODU and Master RU
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8.2.2.5 Status – RU Hub
RU‐Hub is not separate module but is integrated into the master RU. The picture of HPR Hub displayed on
web based GUI is same as the picture of master RU.
Figure 8‐25 Status ‐ RU Hub
8.2.2.5.1
RU Alarm Status
The HPR Hub can support up to 8 remote modules. The HPR alarm status displays the alarm status of each
remote module.
Figure 8‐26 RU Alarm Status (Status ‐ HPR Hub)
8.2.2.5.2
RU Commissioning Status
Display the Commissioning status of each Remote Module.
Figure 8‐27 RU Commissioning Status (Status ‐ RU Hub)
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Table 8‐11
Description for RU Commissioning status
Status
Installed Status
Commissioning Status
8.2.2.5.3
Display
Description
Installed
Not‐Installed
Success
Fail or not yet
Text is black
Text is gray
Green
Gray
Alarm
Table 8‐12
Alarm
System
Power Alarm
Alarm Status (Status ‐ RU Hub)
Severity
Description
Link Fail
Soft Fail
Present when a module cannot communicate with the
NMS
System Halt
Hard Fail
System will go into a “System Halt” state when a hard
fail alarm does not clear after 10 checks. System Halt
can only be cleared with a power cycle, reboot, or
factory settings.
AC Fail
Soft Fail
AC power is not within parameters.
DC Fail
Soft Fail
DC power is not within parameters.
Over Current
Hard Fail
Total current of HPR is higher than the threshold level
for over current alarm
Battery Low
Soft Fail
Voltage of battery connected to HPR PSU is lower than
the defined threshold
8.2.2.6 Status – Remote module
Figure 8‐28 Status – Remote Module
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8.2.2.6.1
Band
Display the spectrum that is being used. The band column displays the bandwidth that has been used. The
downlink column displays the center frequency of the used downlink band. The uplink column displays the center
frequency of the used uplink band.
Figure 8‐29 PCS Band Information (Status – Remote Module)
8.2.2.6.2
Power & Gain (Admin/User)
Display the Downlink output, Downlink/Uplink Attenuation, and Uplink Input/output.
Figure 8‐30 Power & Gain (Admin)
Figure 8‐31 Power & Gain (User)


Admin
Input [dBm]: Displays the RF input level for Uplink only for the Remote Module.
ALC Atten [dB]: The amount of attenuation used when ALC is activate.
Atten [dB]: The amount of attenuation manually set by the user.
[M]Output [dBm]: Output power of RF transceiver (1st stage amplification).
[H]Output [dBm]: Output power of downlink HPA (2nd stage amplification).
Input [dBm]: Displays the RF input level for Uplink only for the Remote Module.
Atten [dB]: The amount of attenuation manually set by the user.
Output [dBm]: Displays the total composite output power.
User
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8.2.2.6.3
Optic Power (Master‐RU Only)
Display the LD Power and PD Power of optic module inside the Master RU.
Figure 8‐32 Optic Power (Status – Master HPR only)
8.2.2.6.4
Operating Status
Table 8‐13
Operating Status (Status – Remote Module)
Alarm
System
Link Fail
Over Temperature
RF Alarm
Power Alarm
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Severity
Description
Soft Fail
Hard Fail
/ Soft Fail
No communication with NMS.
Temperature is higher than the threshold level for
over temperature alarm.
Temperature is lower than the threshold level for
under temperature alarm.
System halt on either the Master HPR or Slave RU.
System halt occurs when a hard fail alarm fails to
clear after 10 checks.
LD Fail present in the Master RU’s optic unit.
PD Fail present in the Master RU’s optic unit.
Uplink input signal is higher than the defined
threshold.
Downlink output signal is higher than the defined
threshold by user.
Under
Temperature
Soft Fail
System Halt
Hard Fail
ORU LD Fail
ORU PD Fail
Soft Fail
Soft Fail
Input Overload
Hard Fail
Over Power
Hard Fail
/ Soft Fail
VSWR
Soft Fail
Triggered when power is being reflected back to
the system, typically due to a loose connector.
AC Fail
Soft Fail
AC power is not operating within parameters.
DC Fail
Soft Fail
DC power is not operating within parameters.
Over Current
Hard Fail
Total current of HPR is higher than the threshold
level for over current alarm.
Battery Low
Soft Fail
Voltage of battery connected to HE PSU is lower
than the defined threshold.
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8.2.3
Control Tab
8.2.3.1 Control – NMS
Figure 8‐33 Control ‐ NMS
8.2.3.1.1
Heartbeat Time
Allows the user to enable or disable SNMP traps from being sent out and also specify the Heartbeat interval.
Time and date stamps of the last 2 heartbeats will be displayed in the “Last heartbeat sent out” section.
Figure 8‐34 Heartbeat (Control – NMS)
8.2.3.1.2
HE System
Allows the user to perform a HE system reboot or HE full system factory settings
Figure 8‐35 HE System Reboot & Factory Setting (Control – NMS)
8.2.3.1.3
NMS System
Allows the user to perform a NMS Unit reboot or NMS factory settings
Figure 8‐36 NMS System Reboot & Factory Setting (Control – NMS)
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메모 [C22]: BCUH 추가 여부 검토
8.2.3.2 Control – BCU
Figure 8‐37 Control – BCU
8.2.3.2.1
Manual ATT Control
Figure 8‐38 Control – BCU Manual ATT Control



Downlink: Allows the user to manually adjust the DL attenuation levels for each RF path. Adjusting
these settings is not recommended since it will change the power ratios set by the user.
Uplink: Allows the user to manually adjust the UL attenuation levels for each RF path. Adjusting these
settings is not recommended, unless additional attenuation is needed on the UL path.
DL Output ALC Level: Allows the user to manually set the DL Output ALC Levels for each RF path.
Adjusting these settings is not recommended since it will change the power ratios set by the user.
These settings are automatically set by the system during the BCU commissioning process. This
section also displays the composite DL Output ALC Level which is the value that can be used to
commission the RFU.
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8.2.3.2.2
Reboot / Factory Setting
Allows the user reboot or restore factory settings of the BCU.
Figure 8‐39 Control – BCU Reboot/Factory Setting
8.2.3.2.3
Alarm Setting
Figure 8‐40 Control – BCU Alarm Setting




Downlink Input Overload: Allows the user to specify the level at which the DL Input Overload alarm is
triggered. Values range from 0 dBm to +25 dBm.
Downlink Signal Low: Allows the user to specify the level at which the DL Signal Low alarm is triggered.
Values range from ‐10 dBm to +20 dBm.
Downlink Input Overload Alarm On: Allows to user to enable or disable the Input Overload Alarm
[Path – A/B/C] Downlink Signal Low Alarm On: Allows the user to enable or disable the DL Signal Low
alarm for each RF path.
8.2.3.3 Control – RFU
Figure 8‐41 Control ‐ RFU
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8.2.3.3.1
General Setting
To enable any of the settings, click on the checkbox and click the Apply button.
Figure 8‐42 General Setting (Control – RFU) (Admin)
Figure 8‐43 General Setting (Control – RFU) (User)
Table 8‐14
Name
Description for General Setting
Description
Available Accounts
Downlink ALC
Enables or disables Downlink ALC
Uplink ALC
Downlink ON
Enables or disables Uplink ALC
Enables or disables the RFU Downlink path
Administrator
Administrator, User
Enables or disables the RFU Uplink path
Administrator, User
Uplink ON
Uplink Noise Det
8.2.3.3.2
Administrator
Displays if the module is turned on or off due to the UL Noise Detection
Routine
Reboot / Factory Setting
Allows the user reboot or restore factory settings of the RFU.
Figure 8‐44 Reboot & Factory Setting (Control – RFU)
8.2.3.3.3
Uplink Noise Detection (Admin Only)
Figure 8‐45 UL Noise Detection (Control – RFU)
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Administrator
The “UL Noise Det” button will take you to the UL Noise Detection page which will allow you to run the UL Noise
Detection routine.
Figure 8‐46 UL Noise Detection ‐ PCS band
The Auto UL noise measurement routine can be run by clicking on the Check button. After all UL noise
measurement have been taken, the levels for each UL path will be displayed and along with the difference
between minimum detect level and measured detect level.
The user will be able to see which path is generating the elevated UL noise level based on the measured detect
level and difference value.
To navigate back to the RFU control page, click on the Control tab again.
8.2.3.3.4
Manual Atten Control
(Admin)
(User)
Figure 8‐47 Manual Attenuator Control Setting (Control – RFU)
Table 8‐15
Description for Main Gain Control Setting (Control – RFU)
Name
Description
Range
Step
Available Accounts
Downlink Attenuator
Downlink Attenuator to be adjusted manually
0 ~ 25dB
0.5dB
Administrator, User
Uplink Attenuator
DL Output ALC Level
Uplink Attenuator to be adjusted manually
To set the Max output ALC level
0 ~ 35dB
‐10 ~ 0dBm
0.5dB
0.5dBm
Administrator, User
Administrator
UL Output ALC Level
To set the Max output ALC level
‐20 ~ 0dBm
0.5dBm
Administrator, User
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DL Output ALC Offset
To set the Max output ALC Offset
‐10 ~ 0dBm
0.5dBm
Administrator
UL Output ALC Offset
To set the Max output ALC Offset
‐20 ~ 0dBm
0.5dBm
Administrator
8.2.3.3.5
Alarm Setting
Figure 8‐48 Alarm Threshold Setting (Control – RFU)
Table 8‐16
Name
Downlink Signal Low
Downlink Signal Not
Detected
Uplink Over Power
Description for Alarm Threshold Setting (Control – RFU)
Description
Allows the user to specify the minimum incoming DL input signal level
before triggering a “Downlink Signal Low” soft‐fail alarm.
Allows the user to specify the minimum incoming DL input signal level
before triggering a “Downlink Signal Not Detected” soft‐fail alarm.
Allows the user to specify the how strong the output signal of uplink can
be before triggering an “Uplink Over Power” Hard Fail alarm.
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Range
Default
threshold
‐10 ~ 20dBm
‐5dBm
‐10 ~ 20dBm
‐10dBm
‐20 ~ 0dBm
0dBm
8.2.3.4 Control – ODU
Figure 8‐49 Control – ODU
8.2.3.4.1
Optic Attenuation (Admin Only)
Figure 8‐50 Optic Attenuation – ODU
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Table 8‐17
Description for Optic Attenuation (Control – ODU)
Name
Description
DL/UL common ATT
DL ATT
UL ATT
8.2.3.4.2
Allows the user to control overall optic DL/UL path gain.
Used to compensate DL optic loss.
Used to compensate UL optic loss.
Reboot/Factory Setting
Allow the user to perform ODU reboot or ODU factory settings.
Figure 8‐51 Reboot & factory Setting (Control – ODU)
8.2.3.5 Control – RH Hub
Figure 8‐52 Control – RU Hub
8.2.3.5.1
Reboot/Factory Setting
Allows the user to perform HPR Hub reboot or HPR Hub factory settings
Figure 8‐53 Reboot & Factory Setting (Control – RU Hub)
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Range
Default
threshold
0 ~ 30dB
0 ~ 13dB
0 ~ 13dB
5dB
13dB
13dB
8.2.3.6 Control – Remote Module (Master or Slave RU)
Figure 8‐54 Control – Remote Module
8.2.3.6.1
General Setting (Admin/User)
(Admin)
(User)
Figure 8‐55
Table 8‐18
Name
Downlink ALC
Downlink On
Uplink ALC
Uplink On
General Setting (Control ‐ RU)
Description for General Setting (Control ‐ RU)
Description
Available Accounts
This setting allows you to enable or disable the downlink ALC function. When
ALC is enabled, the downlink output power will not exceed the Downlink
Output Level specified in the Manual Atten Control section.
This setting allows you to enable or disable the Downlink path.
This setting allows you to enable or disable the uplink ALC function. When ALC
is enabled, the Uplink output power will not exceed the Uplink Output Level
specified in the Manual Atten Control section.
This setting allows you to enable or disable the Uplink path.
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Administrator
Administrator, User
Administrator
Administrator, User
8.2.3.6.2
Reboot/Factory Setting
Allows the user to Reboot or restore Factory Settings on the remote module.
Figure 8‐56 Reboot & factory Setting (Control ‐ RU)
8.2.3.6.3
Optic Setting (Only Master RU) (Admin Only)
Figure 8‐57 Optic Setting (Control ‐ RU)
Table 8‐19
Name
Description
Downlink Optic Atten
PD Power
LD Power
8.2.3.6.4
Description for Optic Setting (Control ‐ RU)
RF attenuator to compensate the optic loss of
downlink
Incoming power level from the ODU
Outgoing power level to the ODU
Range
Step
0~ 13.0 dB
0.5 dB
(User)
Figure 8‐58 Manual Atten Control (Control ‐ RU)
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Administrator
Administrator
Administrator
Manual Attenuator Control
(Admin)
Available
Accounts
Table 8‐20
Name
Description for Manual Atten Control (Control ‐ RU)
Description
Range
Default
Available Accounts
threshold
Downlink Atten
Allows the user to specify how much attenuation to use.
0 ~ 30dB
30dB
Administrator, User
Uplink Atten
DL Output ALC
Level
UL Output ALC
Level
Allows the user to specify how much attenuation to use.
The remote module will prevent the downlink output
power from exceeding the specified value.
The system will prevent the output power to exceed the
specified value.
When the incoming signal level increases, the system will
not adjust the gain levels until it reaches the ALC Offset
Level.
When the incoming signal level increases, the system will
not adjust the gain levels until it reaches the ALC Offset
Level.
0 ~ 25dB
25dB
Administrator, User
5~43dBm
43dBm
Administrator, User
0 ~ 10dBm
5 or
6dBm
Administrator
0 ~ 10dB
5dB
Administrator, User
0 ~ 10dB
3dB
Administrator
DL Output ALC
Offset
UL Output ALC
Offset
8.2.3.6.5
Alarm Setting
Figure 8‐59 Alarm Setting (Control ‐ RU)

DL Over Power Limit: The overpower alarm threshold can be adjusted from 5~43dBm. +2dB from the DL
overpower limit will trigger a soft fail and >2dB will trigger a hard fail alarm

VSWR Alarm ON : Enable or disables the VSWR Alarm.
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8.2.4
Install Tab
8.2.4.1 Install – NMS
Figure 8‐60 Install ‐ NMS
8.2.4.1.1
HE Commissioning Status
Figure 8‐61 HE Commissioning Status (Install – NMS)
Table 8‐21
Description for HE Commissioning Status (Install – NMS)
Status
Installed Status
Commissioning Status
Display
Description
Physically Installed
Text is black
Physically Not‐Installed
Success
Fail or not
commissioned
Text is gray
Green
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8.2.4.1.2
SNMP
Figure 8‐62 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.
8.2.4.1.3
Location
This section allows the user to input the latitude and the longitude of the repeater.
Figure 8‐63 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 “.”
8.2.4.1.4
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 8‐64 External Modem Box Setting (Install – NMS)
8.2.4.1.5
Description
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This section allows the user to save the description of NMS.
Figure 8‐65 Description (Install – NMS)
8.2.4.1.6
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 ADX to see if alarms are present. All alarms generated during this test are false alarms.
Figure 8‐66 SNMP Agent False Alarm Test (Install – NMS)
8.2.4.1.7
Location Info / Installer Info
This section allows the user to specify the address of the repeater and also the information of the installer.
Figure 8‐67 Location Info / Installer Info (Install – NMS)
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8.2.4.1.8
Date & Time
This section allows the user to specify the current date and time.
Figure 8‐68 Date & Time Setting (Install – NMS)
8.2.4.2 Install – BCU
Figure 8‐69 Install – BCU
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8.2.4.2.1
BCU Commissioning
Figure 8‐70 Install – BCU Commissioning







8.2.4.2.2
Current DL Input Level:
DL Input Commissioning Level:
Targeted DL Output Power Ratio:
Commissioning Progress:
Previous DL Commissioning Level:
Last Commissioning Date:
Last Commissioning Time:
Description
Figure 8‐71 Install – BCU Description


BCU: This section allows the user to set the description of BCU.
Path A/B/C: Allows the user to specify a name for each RF path. The names of each RF path will
appear in the column headers.
8.2.4.3 Install – RFU
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Figure 8‐72 Install ‐ RFU
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8.2.4.3.1
RFU Commissioning
This section allows the user to perform RFU commission. To perform RFU commissioning, select a DL Input
Commissioning Level from the dropdown menu and click Apply. The commissioning progress is displayed on the
Commissioning Progress bar. Any errors, warnings, and messages will appear via a popup window. Please refer to
the ADX Installation Guide to determine the proper RFU commissioning levels.
Figure 8‐73 RFU Commissioning (Install – RFU)
8.2.4.3.2
Description
This section allows the user to set the description of RFU.
Figure 8‐74 Description (Install – RFU)
8.2.4.4 Install – ODU
Figure 8‐75 Install – ODU
8.2.4.4.1
Optic Commissioning
This section will allow the user to perform any optic compensation if it is necessary. The Commissioning
button will turn orange if optic compensation is needed.
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Figure 8‐76 Optic control (Control – ODU)
Table 8‐22
Description for Optic control (Control – ODU)
Display & Control
Description
Optic loss is less than 5dBo
Optic loss is more than 5dBo
Not connected to a RU
No optic loss compensation is needed.
Optic loss compensation is needed.
Not connected to a RU
8.2.4.4.2
Description
This section allows the user to save the description of ODU.
Figure 8‐77 Description (Install – ODU)
8.2.4.5 Install – HPR Hub
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Figure 8‐78 Install‐RU Hub
8.2.4.5.1
RU Commissioning Status
Figure 8‐79 RU Commissioning Status (Install‐RU Hub)
Table 8‐23
Description for HPR Commissioning status
Status
Installed Status
Commissioning Status
8.2.4.5.2
Display
Physically Installed
Physically Not‐Installed
Success
Fail or not commissioned
Description
This section allows the user to save the description of HPR Hub.
Figure 8‐80 Description (Install‐RU Hub)
8.2.4.6 Install – Remote Module (Master or Slave RU)
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Description
Text is black
Text is gray
Green
Gray
104
Figure 8‐81 Install‐Remote Module
8.2.4.6.1
RU Output Commissioning
This section allows the user to perform HPR commission. To perform HPR commission, select a DL Output
Commissioning Level from the dropdown menu and then click Apply. The commissioning progress is displayed on
the Commissioning Progress bar. Any errors, warnings, and messages will appear via a popup window.
Figure 8‐82 RU Output Commissioning (Install‐RU)
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8.2.4.6.2
Description
This section allows the user to save the description of remote module.
Figure 8‐83 Description (Install‐Remote Module)
8.2.5
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.
8.2.5.1 System: Account
8.2.5.1.1
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 8‐84 Account Management
8.2.5.1.2
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.
Figure 8‐85 New Account
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8.2.5.1.3
System: Account ‐ Change Password
The Change Password section allows the current user who is logged into the system to change their login
credentials.
Figure 8‐86 Change Password
8.2.5.2 System: Logs
8.2.5.2.1
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
Figure 8‐87 Event Log
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8.2.5.2.2
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
Figure 8‐88 User Log
8.2.5.3 System: Update

To perform a firmware update, click on the System:Update tab and the following screen will show up.
Figure 8‐89 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.
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Figure 8‐90 Message after System update is complete
8.2.5.4 System: System Information
8.2.5.4.1

System: System Information
System Information Check
The System Information Check button will check the ADX configuation and report possible discrepancies.

System Information
This section displays the general system information of the ADX DAS.
Figure 8‐91 System Information
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
System Notification
This section is displayed only when the following conditions are present:
‐ When multiple remote modules with same frequency band exist in a RU.
‐ When the remote module does not match with the RFU being used.
Figure 8‐92 System Notification

BOM
BOM displays all parts that are connected to the ADX‐H‐NMS.
The BOM can be downloaded as a CSV file by clicking the ‘Download’ button at the bottom right.
Figure 8‐93 Bill of material
8.2.5.5 System: Backup/Restore
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
Settings Backup
Clicking the Backup will create a temporary backup file stored inside of the ADX. Once the file is created, it will
need to be downloaded to a computer. A download button will appear after the backup file has been created. If
the ADX is power cycled or rebooted, then the temporary backup file will be lost. We recommend downloading
the backup file immediately after it has been created. Click on the Download button to download the backup file.
Figure 8‐94 Setting Backup (Before)
Figure 8‐95 Setting Backup (After)

Setting Restore
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Restore function can be used to restore the saved settings from the backup file. Once the backup file is loaded,
the tree in the figure below will appear. Check the boxes of the modules that you would like to restore and then
click the “Restore” button at the bottom on this section.
We recommend creating a new backup file if adding or removing modules from the ADX. Discrepancies
between the backup file and the existing tree could cause restore errors.
Figure 8‐96 Setting Restore
8.2.5.6 System: SNMP

SNMP V1/V2
This section allows you to add community strings for SNMP v1 and v2.
Figure 8‐97 SNMP V1/V2
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
SNMP V3
This section allows the user to add accounts for SNMP v3.
Figure 8‐98 SNMP V3
8.2.5.7 System: Closeout Package
The closeout package section will allow the user to upload documents to the ADX‐H‐NMS. The maximum file
size for each upload is limited to 10 MB. The total amount of space available for uploading document is 100 MB.
Please do not use this section as the primary storage location of your documents. Documents may become
unavailable if the system goes down.
Figure 8‐99 System‐ Closeout Package
To upload documents to the module, click on the “Browse” button and locate the file that you would like to
upload, then enter in a Description of the file being uploaded. Afterwards, click on the “Add File” button to upload
the file. Below is what you will see after the file upload. To delete the file, click on the delete button located in the
last column.
Figure 8‐100 System‐ Closeout Package after the file upload
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8.2.6
Help
If an internet connection is available, clicking on the Help Tab will redirect the user to our Technical Support
page.
Figure 8‐101 Help
8.2.7
Logout
Clicking the Logout button will log the current user off the system.
8.3 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.
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9.
SYSTEM‐WIDE SPECIFICATION (TO BE CONNECTED TO HE VIA OPTIC LINE)
700LTE/CELL/SMR800 Specifications.
메모 [H23]: SMR800 의 경우
FCC 인증에서 제외함. ( ACP 문제점)
700F
Lower
ABC
Downlink
Upper
Frequency
Lower
ABC
Uplink
Upper
Gain
869-894MHz
851~869MHz
824-849MHz
806~824MHz
25MHz
18MHz
0~25dBm
0~25dBm
746-757MHz
698-716MHz
776-787MHz
(Lower ABC + Upper C)
DL Input Range
SMR800
728-746MHz
16+11MHz
Support Band Width
CELL
0~25dBm
D/L
18~43dB, 0.5dB step, ATT range: 0~25dB
U/L
-5~30dB, 0.5dB step, ATT range: 0~35dB
D/L
0~25dB
U/L
0~35dB
Range
Range
Attenuation
Accuracy
Gain Flatness
0~15dB: < ±0.5dB, 15~35dB: < ±1.0dB, 35dB~: < ±1.5dB
< ±2.0dB
< ±2.0dB
< ±2.0dB
5.0dB
5.0dB
5.0dB
@ Band Center
@ Band Center
@ Band Center
Composite Maximum
Downlink
43dBm±1dB
Output Power
Uplink
-15dBm±1dB
Noise Figure
@max gain
VSWR
< 1.5:1
EVM
LTE
Uplink (< 12.5%), downlink (< 8%)
EVDO
Uplink (< 14.75%), downlink (< 12.5%)
CDMA2000
Uplink (< 14.75%), downlink (< 14.75%)
Optical Loss
0~10dBo
System Delay
<2us @0dBo optic loss
Spurious
FCC, 3GPP TS 36.104, 3GPP2 C.S0010-C
Operating Temperature
-30~55C
Operating Humidity
5-90%
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Comments
SMR800 is not
for FCC approval
NOTE: Industry Canada Cellular band 20dB nominal band is from X MHz to Y MHz for Downlink and from X
MHz to Y MHz for Uplink.
2. PCS/AWS/BRS Specifications.
PCS
AWS
BRS
Downlink
1930~1995MHz
2110~2155 MHz
Uplink
1850~1915MHz
1710~1755 MHz
65MHz
45MHz
Frequency
2496~2690 MHz
Support Band Width
194MHz
+12~37dBm
DL Input Range
0~25dBm
(Medium Mode)
0~25dBm
-15~12dBm
(Low Mode)
Gain
D/L
21~46dB, 0.5dB step, ATT range: 0~25dB
U/L
-5~30dB, 0.5dB step, ATT range: 0~35dB
D/L
0~25dB
U/L
0~35dB
Range
Range
Attenuation
Accuracy
Gain Flatness
0~15dB: < ±0.5dB, 15~35dB: < ±1.0dB, 35dB~: < ±1.5dB
< ±2.0dB
Composite Maximum
Output Power
Noise Figure
< ±2.0dB
< ±2.0dB
5.0dB
5.0dB
5.0dB
@ Band Center
@ Band Center
@ Band Center
Downlink
46dBm±1dB
Uplink
-15dBm±1dB
@max gain
VSWR
< 1.5:1
EVM
LTE
Uplink (< 12.5%), downlink (< 8%)
EVDO
Uplink (< 14.75%), downlink (< 12.5%)
CDMA2000
Uplink (< 14.75%), downlink (< 14.75%)
Optical Loss
0~10dBo
System Delay
<2us @0dBo optic loss
Spurious
FCC, 3GPP TS 36.104, 3GPP2 C.S0010-C
Operating Temperature
-30~55C
Operating Humidity
5-90%
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Comments
메모 [Y24]: Addition 14/05/12
NOTE: Industry Canada Cellular band 20dB nominal band is from X MHz to Y MHz for Downlink and from X
MHz to Y MHz for Uplink.
메모 [H26]: 해당 제품의 SPEC 의 경우
3. SMR900 Specifications.
향후 추가될 제품의 SPEC 임.
SMR9000+Paging
Frequency
Downlink
929~942MHz
Uplink
896~903MHz
DL:13MHz,
Support Band Width
UL: 7MHz
DL Input Range
Gain
0~25dBm
Range
Range
Attenuation
D/L
18~43dB, 0.5dB step, ATT range: 0~25dB
U/L
-5~30dB, 0.5dB step, ATT range: 0~40dB
D/L
0~25dB
U/L
0~40dB
Accuracy
Gain Flatness
0~15dB: < ±0.5dB, 15~35dB: < ±1.0dB, 35dB~: <
±1.5dB
< ±2.0dB
Composite Maximum
Downlink
43dBm±1dB
Output Power
Uplink
-15dBm±1dB
Noise Figure
@max gain
5.0dB@ Band Center
VSWR
< 1.5:1
EVM
LTE
Uplink (< 12.5%), downlink (< 8%)
EVDO
Uplink (< 14.75%), downlink (< 12.5%)
CDMA2000
Uplink (< 14.75%), downlink (< 14.75%)
Optical Loss
0~10dBo
System Delay
<2us @0dBo optic loss
Spurious
FCC, 3GPP TS 36.104, 3GPP2 C.S0010-C
Operating Temperature
-30~55C
Operating Humidity
5-90%
Advanced RF Technologies, Inc.
메모 [Y25]: Addition 14/05/12
117
Comments
NOTE: Industry Canada Cellular band 20dB nominal band is from X MHz to Y MHz for Downlink and from X
MHz to Y MHz for Uplink.
메모 [C28]: 주파수 수정 2015.07.28
4. WCS Specifications.
WCS
Frequency
Downlink
2305-2315MHz
Uplink
2350-2360MHz
Support Band Width
Gain
Comments
10MHz
+12~37dBm(Medium)
DL Input Range
-15~12dBm(Low)
Range
Range
Attenuation
D/L
19.8~44.8dB, 0.5dB step, ATT range: 0~25dB
U/L
-5~30dB, 0.5dB step, ATT range: 0~40dB
D/L
0~25dB
U/L
0~40dB
Accuracy
Gain Flatness
0~15dB: < ±0.5dB, 15~35dB: < ±1.0dB, 35dB~: <
±1.5dB
< ±2.0dB
Composite Maximum
Downlink
44.8dBm±1dB
Output Power
Uplink
-15dBm±1dB
Noise Figure
@max gain
5.0dB@ Band Center
VSWR
< 1.5:1
EVM
메모 [Y27]: Addition 14/05/12
LTE
Uplink (< 12.5%), downlink (< 8%)
EVDO
Uplink (< 14.75%), downlink (< 12.5%)
CDMA2000
Uplink (< 14.75%), downlink (< 14.75%)
Optical Loss
0~10dBo
System Delay
<2us @0dBo optic loss
Spurious
FCC, 3GPP TS 36.104, 3GPP2 C.S0010-C
Operating Temperature
-30~55C
Operating Humidity
5-90%
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NOTE: Industry Canada Cellular band 20dB nominal band is from X MHz to Y MHz for Downlink and from X
MHz to Y MHz for Uplink.
10. MECHANICAL DRAWING
Figure 10‐1 HE Drawing
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메모 [Y29]: Addition 14/05/12
메모 [H30]: 6band 로 모델명
수정필요함
Figure 10‐2 HPR Drawing
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