Corning Optical Communication Wireless VEAWSM VE DISTRIBUTED ANTENNA SYSTEM User Manual EnCOVER Dual Band

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MobileAccessVE
AWS MIMO
Instant Coverage Solution
User Manual
P/N: 709C007601
REV: A00
Date: MAR 07, 2011
Preface Material
MobileAccess
8391 Old Courthouse Road, Suite 300, Vienna, VA 22182
Tel: +1(866)436-9266, +1(703)848-0200 TAC: +1(800)787-1266, Fax: +1(703)848-0280
http://www.MobileAccess.com
AWS MIMO MobileAccessVE Instant Coverage Solution User Manual
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Preface Material
Preface Material
© Copyright 2010, MobileAccess Networks Inc. All Rights Reserved.
This document contains confidential and proprietary information of MobileAccess and may not be copied, transmitted,
stored in a retrieval system or reproduced in any format or media, in whole or in part, without the prior written consent of
MobileAccess. Information contained in this document supersedes any previous manuals, guides, specifications, data
sheets or other information that may have been provided or made available to the user.
This document is provided for informational purposes only, and MobileAccess does not warrant or guarantee the
accuracy, adequacy, quality, validity, completeness or suitability for any purpose of the information contained in this
document. MobileAccess reserves the right to make updates, improvements and enhancements to this document and the
products to which it relates at any time without prior notice to the user. MOBILEACCESS MAKES NO WARRANTIES,
EXPRESS OR IMPLIED, INCLUDING, WITHOUT LIMITATION, THOSE OF MERCHANTABILITY AND FITNESS FOR A
PARTICULAR PURPOSE, WITH RESPECT TO THIS DOCUMENT OR ANY INFORMATION CONTAINED HEREIN.
Policy for Warrantee and Repair
MobileAccess tests and inspects all its products to verify their quality and reliability. MobileAccess uses every reasonable
precaution to ensure that each unit meets their declared specifications before shipment. Customers should advise their
incoming inspection, assembly, and test personnel about the precautions required in handling and testing our products.
Many of these precautions can be found in this manual.
The products are covered by the following warranties:
General Warranty
MobileAccess warrants to the original purchaser all standard products sold by MobileAccess to be free of defects in
material and workmanship for one (1) year from date of shipment from MobileAccess. During the warranty period,
MobileAccess will repair or replace any product that MobileAccess proves to be defective. This warranty does not apply to
any product that has been subject to alteration, abuse, improper installation or application, accident, electrical or
environmental over-stress, negligence in use, storage, transportation or handling.
Specific Product Warranty Instructions
All MobileAccess products are warranted against defects in workmanship, materials and construction, and to no further
extent. Any claim for repair or replacement of units found to be defective on incoming inspection by a customer must be
made within (30) days of receipt of shipment, or within (30) days of discovery of a defect within the warranty period.
This warranty is the only warranty made by MobileAccess and is in lieu of all other warranties, expressed or implied.
MobileAccess sales agents or representatives are not authorized to make commitments on warranty returns.
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Preface Material
Returns
In the event that it is necessary to return any product against above warranty, the following procedure shall be followed:
1. Return authorization is to be received from MobileAccess prior to returning any unit. Advise MobileAccess of the model,
serial number, and discrepancy. The unit may then be forwarded to MobileAccess, transportation prepaid. Devices
returned collect or without authorization may not be accepted.
2. Prior to repair, MobileAccess will advise the customer of our test results and any charges for repairing customer-caused
problems or out-of-warranty conditions etc.
3. Repaired products are warranted for the balance of the original warranty period, or at least 90 days from date of
shipment.
Limitations of Liabilities
MobileAccess's liability on any claim, of any kind, including negligence for any loss or damage arising from, connected
with, or resulting from the purchase order, contract, quotation, or from the performance or breach thereof, or from the
design, manufacture, sale, delivery, installation, inspection, operation or use of any equipment covered by or furnished
under this contact, shall in no case exceed the purchase price of the device which gives rise to the claim.
EXCEPT AS EXPRESSLY PROVIDED HEREIN, MOBILEACCESS MAKES NO WARRANTY, EXPRESSED OR IMPLIED, WITH
RESPECT TO ANY GOODS, PARTS AND SERVICES PROVIDED IN CONNECTION WITH THIS AGREEMENT INCLUDING,
BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
MOBILEACCESS SHALL NOT BE LIABLE FOR ANY OTHER DAMAGE INCLUDING, BUT NOT LIMITED TO, INDIRECT,
SPECIAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF OR IN CONNECTION WITH FURNISHING OF GOODS, PARTS
AND SERVICE HEREUNDER, OR THE PERFORMANCE, USE OF, OR INABILITY TO USE THE GOODS, PARTS AND SERVICE.
Reporting Defects
The units were inspected before shipment and found to be free of mechanical and electrical defects.
Examine the units for any damage that may have been caused in transit. If damage is discovered, file a claim with the
freight carrier immediately. Notify MobileAccess as soon as possible.
Note: Keep all packing material until you have completed the inspection
Safety Warnings
To comply with FCC RF exposure compliance requirement, adhere to the following warnings:
Warning! The Access Pod with its built-in antenna must be installed with a separation distance of at least 20cm from all
persons and must not be located in conjunction with any other antenna.
Warning! The outside antenna must be installed with a separation of at least 20cm from all persons and must not be
located in conjunction with any other antenna.
Warning! Use of this Access Pod with antennas other than those illustrated could be hazardous. Before using other
antennas, contact MobileAccess Support.
Caution: Double pole/neutral fusing (two fuses in the appliance inlet)
Approved Antennas for use with the MobileAccessVE Solution
The gain of external antennas connected to the VAPs should not exceed 10 dBi.
Compliance with RF Safety Requirements
MobileAccess products have no inherent significant RF radiation.
The RF level on the down link is very low at the downlink ports. Therefore, there is no dangerous RF radiation when the
antenna is not connected.
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Preface Material
Certification and Compliance to Standards
Category
Standards
Safety:
IEC 60950-1: 2003; UL-60950-1:2003; CAN/CSA – C22.2 No 60950-1-03
EMC:
47CFR 15.109 FCC Part 15
Radio:
FCC Part 27
ISO 9001
2000 and ISO 13485: 2003
AWS MIMO MobileAccessVE Instant Coverage Solution User Manual
Preface Material
About This Guide
This guide provides essential product functionality with all the information necessary for proper
installation and configuration of the MobileAccessVE system.
List of Acronyms
Abbreviation
Description
AWS
Advanced Wireless Services
MIMO
Multiple Input Multiple Output
PoE
Power Over Ethernet
PSE
Power Sourcing Equipment
SME
Small / Medium Enterprise
STP
Shielded Twisted Pair
UTP
Unshielded Twisted Pair
VAP
VE Access Pod
VCU
VE Control Unit
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Table of Contents
Overview ............................................................................................................................... 1
1.1 Key Features and Capabilities ..................................................................................................... 2
1.2 System Architecture .................................................................................................................. 3
1.3 System Elements ...................................................................................................................... 4
1.3.1 VE Control Unit (VCU) ...................................................................................................... 4
1.3.1.1 VCU Front Panel .................................................................................................. 4
1.3.1.2 VCU Rear Panel ................................................................................................... 6
1.3.2 VE Access Pod (VAP) ........................................................................................................ 6
1.4 System Monitoring and Management .......................................................................................... 8
1.4.1 Integration with an External Fault Management System ...................................................... 8
Installation Workflow ........................................................................................................... 9
Infrastructure Requirements and Layout Planning ........................................................ 10
3.1 General Information on Location and Connections ..................................................................... 10
3.2 Infrastructure Requirements .................................................................................................... 11
3.3 Coverage and Installation Planning ........................................................................................... 12
3.3.1 Types of Environments ................................................................................................... 12
3.3.1.1 Standard Environment ........................................................................................ 13
3.3.1.2 Open Environment ............................................................................................. 13
3.3.1.3 Dense Environment:........................................................................................... 13
3.3.1.4 Combination of Environments ............................................................................. 13
3.4 Planning VAP Layout ............................................................................................................... 14
3.4.1 RF Coverage Factors ...................................................................................................... 14
3.4.2 Mapping Locations ......................................................................................................... 14
3.4.3 Optional Directional Antennas ......................................................................................... 14
3.4.4 Installation Plan Example ............................................................................................... 15
VCU Unit Installation and Provisioning ........................................................................... 17
4.1 VCU Kit Contents .................................................................................................................... 17
4.2 VCU Physical Installation.......................................................................................................... 18
4.2.1 Master VCU Installation .................................................................................................. 18
4.2.1.1 Master VCU Alarm Output Connections ................................................................ 19
4.2.2 Slave VCU Installation .................................................................................................... 20
4.3 Ethernet Cable Connections to VAPs ......................................................................................... 21
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Table of Contents
4.3.1 Shifting Relevant Ethernet LAN Connections ..................................................................... 21
4.3.2 Operation with LAN utilizing Power over Ethernet (PoE) .................................................... 23
4.4 Provisioning the VE Control Unit ............................................................................................... 23
4.4.1 Configure the Computer IP Parameters ............................................................................ 23
4.4.2 Provisioning the Master VCU Unit .................................................................................... 25
4.4.3 Setting RF Parameters.................................................................................................... 29
4.4.4 Verifying System Operation ............................................................................................ 31
4.4.5 Provisioning the Slave VCUs ............................................................................................ 34
VAP Installation and Provisioning ................................................................................... 35
5.1 VAP Installation ...................................................................................................................... 35
5.2 Desk and Wall Mount VAP Installations ..................................................................................... 36
5.2.1 VAP Kit Contents............................................................................................................ 36
5.2.2 Desk Mount Installation .................................................................................................. 37
5.2.3 Wall Mount Installation................................................................................................... 38
5.3 Horizontal Ceiling Mount VAP Installations ................................................................................. 39
5.3.1 VAP Kit Contents............................................................................................................ 39
5.3.2 Lowered Ceiling Installation ............................................................................................ 40
5.3.3 Concrete/Wood Ceiling Installation .................................................................................. 41
5.3.4 Connecting VAP and Verifying Normal Operation .............................................................. 43
5.4 Vertical Ceiling Mount VAP Installations..................................................................................... 44
5.4.1 VAP Kit Contents............................................................................................................ 44
5.4.2 Lowered Ceiling Installation ............................................................................................ 45
5.4.3 Concrete/Wood Ceiling Installation .................................................................................. 47
5.4.4 Connecting VAP and Verifying Normal Operation .............................................................. 49
5.5 Verifying VAP Coverage Area.................................................................................................... 49
5.6 Naming the VAPs, Verifying Connections and Monitoring ............................................................ 50
5.7 Provisioning the VAPs .............................................................................................................. 50
5.7.1 Verifying Normal VAP Operation ...................................................................................... 50
5.7.2 Naming the VAP ............................................................................................................ 51
Navigating the Web Access Application.......................................................................... 52
6.1 Opening a Session and Authentication Levels ............................................................................ 52
6.2 About the MobileAccessVE Web Access Window ........................................................................ 53
6.3 Configuration Tab ................................................................................................................... 54
6.3.1 Network Topology Tree .................................................................................................. 55
6.3.1.1 Removing Network Element from Baseline ........................................................... 56
6.3.2 Configuration Display Area.............................................................................................. 57
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Table of Contents
6.4 Management Tab .................................................................................................................... 58
VCU Monitoring and Configuration .................................................................................. 59
7.1 Viewing VCU General Information ............................................................................................. 59
7.2 Viewing VCU Alarms ................................................................................................................ 60
7.3 Master VCU RF Parameters ...................................................................................................... 61
VAP Monitoring and Configuration .................................................................................. 63
8.1 Viewing VAP General Information ............................................................................................. 63
8.2 Viewing VAP Alarms ................................................................................................................ 64
8.3 VAP RF Parameters ................................................................................................................. 65
Administrative Operations ................................................................................................ 67
9.1 Changing Password ................................................................................................................. 67
9.2 Retrieving VCU IP Address ....................................................................................................... 68
9.3 IP Settings ............................................................................................................................. 70
9.4 SNMP Configuration Parameters ............................................................................................... 71
9.5 Upgrading (or Downgrading) VCU and VAP Software.................................................................. 72
9.5.1 Upgrading the VAP SW ................................................................................................... 73
9.5.2 Upgrading the VCU SW .................................................................................................. 75
10 Troubleshooting ................................................................................................................. 76
10.1 Finding a Specific VAP in the Building ....................................................................................... 76
10.2 Wireless Service is Not Available ............................................................................................... 78
10.3 PoE is Not Working ................................................................................................................. 78
10.4 Ethernet Service is Degraded ................................................................................................... 79
10.5 No Service from Connected Access Pod ..................................................................................... 79
10.6 VCU Cannot be monitored via SNMP ......................................................................................... 81
Appendix A - Traps ................................................................................................................... 82
Appendix B – MobileAccess VE MIB Tree Structure (Version 1.8)....................................... 83
MobileAccess Version 1.8 MIBs/OID Descriptions .............................................................................. 86
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1
Overview
The MobileAccessVE AWS MIMO solution provides enhanced, cost effective, in-building AWS
MIMO coverage for any small-to-large sized enterprise environment. This solution is quickly and
easily deployed using the existing Ethernet cabling infrastructure without affecting existing LAN
services or performance.
The VE solution distributes the supported AWS MIMO service to VE Access Pods (VAPs) installed
throughout the enterprise, which distribute the services via external antennas and provide
Ethernet connectivity (and PoE pass-through) to LAN terminals. MobileAccessVE seamlessly
coexists with the Enterprise LAN and does not consume LAN capacity.
The VAPs are distributed on each floor and plug into existing standard Ethernet jacks. They are
powered via PoE technology and managed via a VE Control Unit (VCU) located in the floor’s
IDF/Telco closet. For site coverage that requires more than one VCU, several VCUs can be
aggregated under a single Master VCU. The Master VCU provides the interface to the carrier’s
capacity sources and management.
This enhanced AWS MIMO coverage solution can be quickly and easily installed with minimal
disturbance to the enterprise. In less than a few hours and with no additional cables being
required, a scalable and flexible solution is provided at a significantly lower total installation cost.
The following figures illustrate single-tier and multi-tier VE installations.
In a single-tier installation the VCU is connected to both the service provider’s equipment and
the Ethernet switch, and distributes Ethernet and mobile services to up to 12 VAPs distributed
over one more adjacent floors.
Figure 1-1. Single-Tier VE Installation
AWS MIMO MobileAccessVE Instant Coverage Solution User Manual
Overview
Multi-tier installation includes the Master VCU that supports up to 12 Slave VCUs. In this type of
installation the provider’s services are fed to the Master VCU through which the Slave VCUs are
controlled and managed.
Figure 1-2. Multi-Tier VE Installation
1.1
Key Features and Capabilities
• Supports the following AWS frequency range:
• UL – 1710-1755 MHz
• DL – 2110-2155 MHz
• Simple installation - Deployed in only a few hours, with minimum disturbance to the
enterprise.
• VAPs connect over existing CAT-5e/6 cabling infrastructure and existing Ethernet jacks.
• VAPs are remotely powered using Power-over-Ethernet (PoE). Local power is not required.
• Minimum macro-network impact with low power distributed coverage.
• Seamlessly coexists with the Enterprise LAN and does not consume LAN capacity.
• Connects to all types of capacity sources, including BTS, picocells, femtocells, and BDAs.
• VAPs can easily be relocated for coverage modifications as needed.
• Ease of expansion provides “pay as you grow” scalability.
• Support of connected IP devices (Wi-Fi APs, IP phones, etc.) with Ethernet/IP pass through
and PoE maximizes placement flexibility.
• Remote end-to-end system monitoring, management, and configuration via a single
connection to the master VCU using a standard web browser and SNMP.
• Base Line feature that clearly shows VAPs/VCUs where communication has been lost.
AWS MIMO MobileAccessVE Instant Coverage Solution User Manual
Overview
1.2
System Architecture
Main Elements - The MobileAccessVE solution is based on the following main elements:
• VE Control Unit (VCU) – Provides interface to up to 12 VAPs, and the central interface for
managing the VE deployment. In Master/Slave mode, it can serve to expand the network
coverage with additional VCUs serving as Slaves and a single control point at the Master.
Slave mode is automatically detected when a Slave VCU detects that it is connected to the
Master VCU.
• Master VE Control Unit (Master VCU) – Installed in the main IDF/Telco closet, the
Master VCU interfaces with the service provider’s RF capacity sources and provides
secure, central management to up to twelve VCUs and VAP devices in any combination.
The Master and Slave VCUs are connected using dedicated CAT-6/7 cables.
• Slave VE Control Unit (Slave VCU) – Installed in the IDF/Telco closet and used to
expand coverage to additional floors. Each VCU interfaces the Master VCU and up to 12
VAPs and 12 Ethernet connections.
VCUs distribute wireless service signals to each VAP along with PoE and (where relevant)
Ethernet signals from the Ethernet switch, throughout the existing CAT-5e/6 infrastructure.
• VE Access Pod (VAP) – VAPs are pluggable antennas distributed at strategic locations on the
floor to provide Ethernet connection to an IP device and wireless coverage of the service via
external antennas. Power to VAPs is provided via PoE from the VCU.
Up to twelve VAPs can be connected to a single VCU using LAN cables (CAT-5e or higher).
Note: When the total number of VAPs in the deployment exceeds 72, consult with
MobileAccess support.
The following figure shows the Multi-tier VE AWS MIMO solution architecture.
Note: If the Master VCU supports VAPs (in addition to
VCUs), the relevant Ethernet ports are also connected
to an Ethernet switch.
Figure 1-3. VE Multi-Tier Basic Architecture
AWS MIMO MobileAccessVE Instant Coverage Solution User Manual
Overview
The Master VCU distributes the wireless MIMO services from the service provider’s equipment to
the Slave VCUs. At the Slave VCUs, the wireless MIMO services are converged with Ethernet
service and routed to the VAPs via the Ethernet LAN CAT-5e/6 cabling infrastructure.
The AWS VAPs are equipped (only) with external antennas, allowing support of dual MIMO
arrays for any of the available mounting configurations and provide Ethernet/IP connectivity
(and PoE pass-through) to the connected appliances such as WiFi APs and IP phones.
1.3
System Elements
This chapter describes the interfaces of the VE Control Units and Access Pods.
1.3.1
VE Control Unit (VCU)
While operating as a Master VCU:
• Interfaces to RF source(s) and to VCUs/VAPs.
• Converges Wireless services and distribution to Slave VCUs.
• Slave VCUs and VAP management and control.
• Remote management of the entire deployment.
While operating as a Slave VCU:
• Interfaces to Master VCU.
• Converges Wireless services, Ethernet and PoE and interfaces to VAPs.
• Management and control of connected VAPs.
1.3.1.1
VCU Front Panel
The front panel supports the interfaces to the wireless AWS MIMO service (two channels –
corresponding to the two supported TDD MIMO channels) and includes interfaces to VAPs or
Slave VCUs depending on the configuration.
The following provides the front panel ports.
Management
MIMO 1
MIMO 2
Master
Port
VAP Ports 1-12
Ethernet Ports 1-12
Figure 1-4. VCU Front Panel
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Overview
Table 1: VCU Ports Description
Ports
MIMO1
MIMO2
Description
RF connections (two TDD MIMO channels) to the service provider
AWSSignal Source equipment. N-Type female connectors. Coax cables.
Management
VE Access Pod
Ports 1-12
RJ45 web management connection.
VAP/VCU port connections.
For Master VCU – Connections to Slave VCUs or VAPs.
For Slave VCU – Connections to VAPs.
Relevant only for Slave VCUs. Ethernet switch connections.
Ethernet
1-12
Master
Reset
Ports
Note: When supporting SISO service – only MIMO 1 connector is relevant.
Used for connecting a Slave VCU to the Master VCU in a multi-tier
deployment (connects to one of the VAP ports of the Master VCU).
N/A in current version.
The following provides a description of the front panel LEDs.
VAP (1-12)
Status LEDs
MIMO1
LED
MIMO2
LED
Master LED
ACT LED
PWR LED
Table 2: VCU LEDs Description
LED
PWR
Description
Indicates whether the VCU receives power:
Green
- Power OK
Disabled
- No power received by VCU
ACT
VCU activity LED:
Solid Green
– During initialization
Blinking Green
– Normal system operation
Fast Blinking Green – User activated VCU Identify on this VCU
VAP Status (One LED Indicates the status of the corresponding unit (VAP or VCU)
per Port)
Blinking Green
– Unit is initializing
Solid Green
– Normal operation of unit
Solid Orange
– Unit is faulty, or unmanaged. This can be due to
mismatch type, VoIP phone, etc.
Fast Blinking Green – User invoked “Identify” command on the unit
Off
– No VAP or VCU connected to this port.
MIMO (One LED per Indicates the status of connected RF capacity source:
Channel)
Green
– Master VCU only. Normal RF level
Orange
– Master VCU only. RF level is either too low, too
high, or service has been turned off by the user.
Off
– VCU is Slave.
Master
Indicates the status of the connection to the Master VCU:
Off
– Master mode (not connected to VCU)
Blinking Green
– During Attachment process with Master VCU
Solid green
– Slave (IF-IF) mode and connected to Master
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Overview
1.3.1.2
VCU Rear Panel
The rear panel includes the following: power switch, AC input, AUX alarms, and service
personnel connections.
Console
Connector
AUX Alarms
Figure 1-5. VCU Rear Panel
PWR On/Off
Switch
AC Connector
Table 3: VCU Rear Panel Description
Connector
Description
Console
RS232 local connection for service personnel (D-Type 9)
Alarms
Power Input
1.3.2
AUX alarms connections - see section 4.2.1.1. In Master/Slave
configuration - relevant only for Master VCU.
Standard 3-pins AC power connector equipped with an ON/OFF switch.
90-264V AC, 47-63 Hz AC; 350W power consumption maximum.
VE Access Pod (VAP)
Each VAP supports:
• Two interfaces for external antennas. By default, the VAP is set to transmit through the
external antennas.
Note: Do not change the “External Antenna” option in VAP Config-Service RF tab of the VE
Web GUI application (See section 8.3).
• An Ethernet port for physical Ethernet connection to devices such as a computer, IP phone or
WiFi Access Point.
• Two LED status indictors
The VAP is provided with brackets for either hanging the device on the wall or placing it on a flat
surface (such as a desk).
Note: Ceiling Mount Kits can be ordered separately for installing the VAP on the ceiling (P/N: AKCEILING-MT-H (Horizontal mount) or AK-CEILING-MT-V (Vertical mount)).
AWS MIMO MobileAccessVE Instant Coverage Solution User Manual
Overview
The following figure shows the desktop VAP.
Front View
Blue LED (Activity and
Identify)
Green Led (Power)
External Antenna SMA
Connector
External Antenna SMA
Connector
Figure 1-6. VE Access Pod-Front
Table 4: VAP LEDs
LED
Power
Activity
Description
Solid Green
Off
Off
- Power supplied to VAP
- No power supplied to VAP
- No power supplied to VAP or Overall Status of VAP is
faulty
Blinking Blue
- Power on, VAP is initializing (connecting to VCU)
Solid Blue
- Power on, unit operating normally
Fast Blinking Blue - User invoked “Identify” command on corresponding VAP
The following figure shows the desktop VAP rear side and the underside view with the CAT-5e/6
patch-cord cable.
R ear View
RJ-45 Connector to
VCU
RJ-45 Connector to LAN
terminal (e.g. computer)
Figure 1-7. VE Access Pod-Rear
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Overview
1.4
System Monitoring and Management
The MobileAccessVE system (Master VCU, Slave VCUs, and VAPs) is centrally managed via a
single Web connection to the Master VCU. The basic screen in the GUI is the Config tab, which
enables the user to view the system topology and setup parameters, Control Units, and all
Access Pods connected to the Control Units.
Note: When locally connecting to a specific Slave VCU, only the VAPs connected to this VCU can
be monitored. However, when connected to the Master, the entire deployment can be
monitored.
1.4.1
Integration with an External Fault Management System
The MobileAccessVE system can be seamlessly integrated into any existing Fault Management
(FM) system that supports SNMP events. The Master VCU generates a SNMP event for each
relevant system alarm and forwards this trap to the pre-configured IP address of the external
Fault Management system.
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Installation Workflow
Installation Workflow
The following figure summarizes the main steps of the installation procedure:
Installation Workflow
1. Infrastructure Preparation
2. Installation Procedure
Plan the floor coverage and VAP locations
according to the type/density of the site.
Install the Master VCU in the IDF/telco shaft.
Check that Ethernet jacks are available
in all planned VAP locations.
Determine the communication rooms to which the VAP
infrastructure is connected (locations for the Slave VCUs).
Verify that all infrastructure requirements are met (includes
verifying that the jacks are wired to the patch panel in the
communication rooms).
Open a local session to the Master VCU and configure the system
parameters (IP, and service parameters: Central Frequency , Max
expected Pin).
Install the RF signal sources, connect them to the master VCU
(through passive interfaces) and check that the RF signals are
received by the VCU (i.e. that the RF LEDs are green).
Install the Slave VCUs and connect them to the Master VCU (verify
that the VCU/VCH LED is green, and RF LEDs turned OFF).
Connect the VCU VAP ports to the patch panel, and
the Ethernet Switch to the VCU Ethernet ports.
Install the VAPs and connect them to the Ethernet jacks. Connect
the Ethernet appliance (if exists) to the VAP. Check that the VAP is
operational (Blue LED lit). Check that Ethernet connection is OK.
Perform a “walk test” and verify coverage around the floor.
Met
Coverage?
No
Change VAPs locations or
add VAPs
Yes
Complete
AWS MIMO MobileAccessVE Instant Coverage Solution User Manual
Infrastructure Requirements and Layout Planning
Infrastructure Requirements and Layout
Planning
3.1
General Information on Location and Connections
• Service provider’s RF equipment - macrocell, microcell, picocell, femtocell, BDA, etc. connects
to the VCU through a passive interface.
• VCUs:
• Master VCU installed at the main IDF/Telco cabinet and connected to all VCUs.
• Slave VCUs installed at the IDF/Telco cabinet of each covered floor and connected to the
Master VCU, the Ethernet switch, and the VAPs through the cabling patch panel.
• Wireless service signals from Master VCU to VCUs – Routed through dedicated Ethernet CAT6/7 cabling.
• Wireless service signals from VCUs to the VAPs – Routed through existing Ethernet CAT-5e/6
cabling infrastructure.
• VAP location and mounting. Connection to existing Ethernet jack and external antennas.
• VAP power source - No power connections required. VAPs are power fed from VCU using PoE
(Power over Ethernet) technology.
Note: If the Master VCU supports VAPs (in addition to
VCUs), the relevant Ethernet ports are also connected
to an Ethernet switch.
Figure 3-1. VE Multi-Tier Basic Architecture
Note: Connecting both VAPs and slave VCUs simultaneously to the master VCU is supported
for VE networks running SW version 2.6 and above.
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Infrastructure Requirements and Layout Planning
3.2
Infrastructure Requirements
Ethernet standards specify that the maximum distance between an Ethernet switch and an
appliance (computer, WLAN AP etc) should not exceed 100m (300ft). Therefore, when VE
shares the IT LAN, the maximum distance for a given cable run cannot be longer than 100m
(300ft) between the Ethernet switch and appliance, including all patch cords (from switch to
VCU, from VCU to patch panel, from RJ-45 outlet to VAP, and from VAP to appliance).
Typically the horizontal cabling system will be connected to patch-panels in the communication
rooms. The entire cabling system, including the patch panels and patch cords, should adhere to
the CAT-5e/6 standard. Specifically all pairs of the CAT-5e cable should be wired in the patch
panels (and patch cords).
1. IDF/Telco closet space for one or more VCUs depending on the number and locations of the
installed VCUs: (48.3cm x 51.3cm x 8.88cm) per VCU.
Note: When planning the IDF/Telco shaft, take the RF equipment (picocell/microcell or BDA)
and the VCU into consideration.
2. 350 Watts of AC power to the VCU IDF/Telco closet.
3. Building infrastructure:
• CAT-5e/6 cabling, Shielded Twisted Pair (STP)
• 24 AWG minimum diameter for CAT-5e cabling
• Dedicated CAT-6/7 STP cable from Master VCU to Slave VCUs with run lengths NOT
exceeding 100m (300ft) and no shorter than 10m (33ft).
• CAT-5e/6 STP cable from VCU to each VAP with run lengths NOT exceeding 100m
(300ft) and no shorter than 10m (33ft). VAPs can be connected over existing CAT-5e/6
cabling infrastructure and existing Ethernet jacks without affecting the LAN.
Note: Verify with the IT department that the existing cables can support the VE installation.
If available, review the infrastructure documentation to determine cable types and lengths.
If the infrastructure documentation is not available, attempt to visually identify the cable
type. Depending on the cable vendor, the cable type may be listed on the cable sheath. It is
recommended to use a Fluke cable tester to measure the cable length of the most remote
VAPs.
4. Master VCU Cable Connections:
• 2 x N-type female, 50 ohm interfaces to carrier equipment
• Up to 12 x RJ-45 interfaces to Slave VCUs and/or VAPs
• 1 x RJ-45 interface to Management
• 1 x D-Type 9 pins RS-232 interface for local craft
• 1 x D-Type 15 pins interface for External Alarms (dry contacts)
5. Slave VCU Cable Connections:
• 1 x RJ-45 interface to Master VCU (Not used in small single-tier deployments)
• 12 x RJ-45 interfaces to VAPs
• 12 x RJ-45 interfaces to Ethernet Switch for LAN service
• 1 x D-Type 9 pins RS-232 interface for local craft
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3.3
Coverage and Installation Planning
Note: The following section provides information required for planning the VAP installation on a
single floor. In a multi-tier installation, this procedure is performed for each individual floor.
The maximal coverage area of each VAP is affected by the density and type of environment
being covered. Therefore, it is recommended to determine the location in two phases:
• Plan the ideal location of each VAP in order to achieve complete coverage of the floor.
• Select the exact location according to the location feasibility, where each VAP unit may be wall
or desk mounted and an option for an external antenna is available.
The supplied services (wireless only or Ethernet and wireless) depend on the jack to which the
VAP is connected:
• If the jack supports an active Ethernet connection, the VAP will distribute LAN traffic along
with the wireless service (See section 4.3.)
• If the jack is not currently active (not connected to an Ethernet switch), the VAP will distribute
only the wireless services.
This section provides information on coverage criteria in various types of environments (Open,
Standard, Dense and Merged) and provides rules-of-thumb for various installations of the VAPs.
Note: Section 3.4 provides a detailed example of installation planning in various types of
environment. It is recommended to review this example after reading this section.
3.3.1
Types of Environments
This section describes the different types of installation environments and provides guidelines for
best coverage of each type of space.
The coverage guidelines in this section are conservative “rule of thumb” estimates of RF
coverage per VAP, meant to be used in scenarios in which detailed designs are not performed.
When the coverage layout is designed, the coverage per VAP is expected to increase by up to
33%. Coverage estimates in this section assume 25% overlap between the coverage areas of
neighboring VAPs to ensure robust, full coverage throughout the enterprise with no “dead
zones”.
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3.3.1.1
Standard Environment
A traditional office environment with offices, hallways and scattered cubicles.
Table 5: Standard Environment Installation Distances
3.3.1.2
Signal Propagation from VAP
56 feet (19 m)
Recommended Spacing between VAPs
112 feet (38 m)
Recommended Maximum distance of
VAPs from outer walls
56 feet (19 m)
Coverage area per VAP
9,900 sqft (920 sqm)
Open Environment
An environment with minimal obstacles (e.g. walls). This type of space can be a large
conference or meeting room, cubical areas, lobby, or atrium.
Table 6: Open Environment Installation Distances
3.3.1.3
Signal Propagation from VAP
64 feet (21 m)
Recommend spacing between VAPs
128 feet (42 m)
Recommended maximum distance of
VAPs from outer walls
64 feet (21 m)
Coverage area per VAP
12,750 sqft (1,185 sqm)
Dense Environment:
A dense environment consists of a relatively large amount of walls, offices, equipment, tall file
cabinets, bookshelves, and other items that could potentially impact the wireless signal.
Examples include dense offices, hospitals, and manufacturing spaces.
Table 7: Dense Environment Installation Distances
3.3.1.4
Signal Propagation from VAP
41 feet (13.5 m)
Recommended Spacing between VAPs
82 feet (27 m)
Recommended Maximum distance of
VAPs from outer walls
41 feet (13.5 m)
Coverage area per VAP
5,300 sqft (495 sqm)
Combination of Environments
In areas with a combination of environments, place VAPs on the border between the different
environment types slightly closer to the denser area.
For example, in a cubical area with the outside wall having offices, simply locate the VAPs a little
closer to the outside offices to provide coverage through the office walls. (See VAPs 11 and 13 in
the floor plan map in section 3.4.3.). To ensure maximal coverage, VAPs can be re-located or
added. If a coverage gap is detected, the VAPs can be re-located until coverage gaps are filled.
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3.4
Planning VAP Layout
The following section describes the steps of planning VAPs along the covered floor. At the end of
this section an example of a planning map is provided.
Note: It is highly recommended to use a floor plan when planning the VAPs locations.
3.4.1
RF Coverage Factors
It is important to note the type of factors that can severely impact RF coverage, and should be
avoided:
• Metallic Structures such as elevators, high file cabinets, and some moveable metallic
partitions severely degrade RF signals. All efforts should be made to locate VAPs in front of, or
above metallic objects (desks, filing cabinets) to allow the signal to propagate.
• Wall Materials such as concrete, tile, and cinderblock, as well as bathroom fixtures typically
have fairly high signal attenuation and should be considered as dense spaces.
• Types of Glass that have metallic coatings can affect RF coverage, typically exterior or
mirrored. However this issue is not normally encountered inside a building.
3.4.2
Mapping Locations
To map the VAP Locations
1. Map out the available Ethernet jack locations and mark all CAT-5e/6 drop locations on the
floor plan map.
TIP: The size and number of the ceiling tiles can be used to measure distances.
2. Using the floor plan and the VAPs coverage guidelines as provided in section 3.4.3, mark
approximately where you would like to place each VAP in the facility.
VAPs may be added (or removed) at anytime for optimal coverage.
3. For each jack being used to connect a VAP, check if the jack is already connected to the
Ethernet switch. .
4. Connect the Ethernet cables corresponding to the selected jacks according to section 4.3.
5. It is also recommended to check the area where each VAP will be installed to ensure the
installation is feasible.
3.4.3
Optional Directional Antennas
Each VAP is equipped with external antennas that provide isotropic radiation. To prevent
interference and improve coverage, connect directional antennas to VAPs installed near outer
walls. The VAP antenna parameter must be set accordingly via the Web GUI (See section 8.3.)
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3.4.4
Installation Plan Example
The Following figure shows a floor plan map with all required marks:
Figure 3-2. Floor Plan Example
Notes:
• The red VAP coverage circles have an approximate radius of 41, 56 and 64 foot (13.5, 19 and
21 meters) for the small, medium and large circles respectively (which are drawn according to
the guidelines given in section 3.3.1.
• VAP 3 is surrounded by the bathroom and stairwell which are considered dense objects and
would reduce coverage in that area by the other VAPs.
• VAP 5 is an example of a unit that provides good coverage down the hallways in an Open
Environment.
• VAPs 11 and 13 are placed closer to the offices to provide better coverage to them, but on the
open side will actually cover a much greater area. This is why the coverage is larger and
shown here more as an oval than a circle.
• The area between VAPs 7 and 14 would probably be the lowest coverage spot in the building
because of the bathrooms and stairwell on either side. If after the system is installed, this
area is still a little low on coverage, a VAP can be added, but it may also be covered by VAP
14.
Note: The plan can be modified at any time by moving the units around or by adding units.
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The following figure depicts an actual measured quantified coverage of a floor area planned
according to the above rules.
Figure 3-3. Distributed VAPs propagation, 12dBm output power @ 1.8 GHz
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VCU Unit Installation and Provisioning
VCU Unit Installation and Provisioning
This chapter describes the installation and basic configuration procedures for VE Control Units
(VCU) located on each floor.
In addition, this chapter describes the how to shift the relevant Ethernet connections required
for the VAPs.
These steps should only be performed after planning the floor coverage and installation
locations, as described in the previous sections.
4.1
VCU Kit Contents
The VE VCU Kit includes:
Table 8: VCU Kit
Description
Unit
AWS MIMO Control Unit (VCU) Kit
Power Cord
VE SW CD
Local Configuration Cable (crossed RJ45 cable)
Brackets Used to secure the VCU to a
19” rack (shipped assembled to the
VCU)
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4.2
VCU Physical Installation
This section describes the physical installation and connections of the Master VCU, Slave VCUs
and the VAP Ethernet connections to the relevant VCUs.
4.2.1
Master VCU Installation
The VE Control Unit can be installed as a Master VCU and control up to (12) Slave VCUs and
VAPs and is installed in the main IDF/Telco closet. This section describes the Master VCU
installation procedures.
Note: When Master VCU only supports Slave VCUs (no VAPs), the control units’ Ethernet Ports
are not relevant and are not in use.
1. Install the Master VCU in the main Telco closet. The Master VCU can be installed in a rack,
placed on a shelf, or secured using the supplied bracket.
2. Apply power to the Master VCU and verify that the PWR LED is lit. Also verify that the unit
ACT LED completes initialization (blinking light) and shows a solid green light.
3. Connect (or request the service provider’s service personnel to connect) the provider’s AWS
signal source to the Master VCU front panel RF ports (through passive interface).
Power on the signal sources.
Note: The RF Source LED (See following figure) of the connected port on the Master VCU
should be lit GREEN, indicating that the Master VCU senses the RF signal from the source at
the expected level (according to Max Expected Pin). After connecting the capacity source, if
the LED remains RED verify that the Max Expected Pin is configured properly and service is
enabled.
4. To connect VCU Slaves to the Master VCU: connect the Master VCU VAP ports to the
Slave VCUs Master ports via the patch-panel that feeds the dedicated CAT-6/7 cabling
system.
5. To connect Auxiliary alarms (connector located on the controller rear panel), refer to section
4.2.1.1
6. According to VAPs layout plan (as explained in section 3.4.2) connect the Ethernet switch
cables (See section 4.3 for more detailed explanation).
• If the requested jack is already in use, disconnect it from the Ethernet switch and reconnect it to the corresponding Ethernet port in the Slave VCU front panel.
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VCU Unit Installation and Provisioning
VAP Status
LEDs
RF ports
ACT LED
VAP Ports 1-4; 5-8; 7-12
Note: When functioning as a Master VCU and
supporting only Slaves (no VAPs), the control
units’ Ethernet Ports are not relevant. The
Ethernet ports are only relevant when supporting
mixed mode – Slave VCUs and VAPs.
Note: After the Slave VCUs are connected (according to section 4.2.2), verify that that the
Master VCU VAP Status LEDs which correspond to the connected Slave VCUs complete
initialization (blinking light) and show a solid green light.
4.2.1.1
Master VCU Alarm Output Connections
Note: For Master/Slave VCU configuration, the Alarms are relevant only for the Master VCU.
The auxiliary connections are performed through the Master VCU rear panel Alarms port. See
following figure.
The controller can provide Major and Minor Output Alarms. These alarms can be connected
directly to either the auxiliary input of the Base Station or to any additional dry-contact
application.
Alarms port for auxiliary
connections
A Major Alarm is generated when there is an alarm condition in one or more VCUs, while a Minor
Alarm is generated when there is an alarm condition in one or more of the VAPs.
Note: If only one alarm is required (Minor or Major) an external connection of a wire jumper
between pins 8 and 13 is necessary (Normally closed).
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VCU Unit Installation and Provisioning
Connect the relevant alarms according to the connector pinout below.
11
15
12
13
Major Alarm
Minor Alarm
Table 9. Alarms Connector – used pins
4.2.2
8 – Major Error Signal (Normally closed)
7 – Minor Error Signal (Normally open)
11 – Major COM
12 – Minor COM
15 –Major Error Signal (Normally open)
13 – Minor Error Signal (Normally closed)
Slave VCU Installation
1. Install the Slave VE Control Unit (VCU) in the Telco closet corresponding to the floor being
covered. The Slave VCU can be installed in the rack using the supplied bracket. Apply power
to the Slave VCUs and note that the VCU PWR LED is lit. Note that the unit ACT LED
completes initialization (solid light) and shows a blinking green light. See Figure 4-1.
PWR LED
Master LED
RF Source LEDs
(One per service)
Figure 4-1. VCU PWR, RF and Master LEDs
2. Connect the Slave VCU front panel Master port to the Master VCU VAP port via the patch
panel using dedicated CAT6 cables. Verify that the Master LED completes initialization
(blinking light) and shows a solid green light. The (RF) MIMO LEDs (of both services) should
turn OFF.
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VCU Unit Installation and Provisioning
Figure 4-2. Master and Slave VCU Connections
3. Connect the Slave VCU VAP ports to the patch-panel that feeds the existing structured CAT5e/6 cabling system.
4. According to VAPs layout plan (as explained in section 3.4.2) connect the Ethernet switch
cables (See section 4.3 for more detailed explanation).
• If the requested jack is already in use, disconnect it from the Ethernet switch and reconnect it to the corresponding Ethernet port in the Slave VCU front panel.
4.3
Ethernet Cable Connections to VAPs
This section describes the how to perform the relevant Ethernet LAN connections to the VAPs
from the VCUs via the Ethernet switch (See section 4.3.1) and provides a description of the PoE
transferred between the VCU and the VAPs (See section 4.3.2).
4.3.1
Shifting Relevant Ethernet LAN Connections
For VAPs installed on currently ACTIVE Ethernet ports, shift the relevant Ethernet LAN
connections to the Ethernet ports on the Master or Slave VCU.
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VCU Unit Installation and Provisioning
For VAPs installed on currently INACTIVE Ethernet ports, connect as follows.
Note: After the Slave VCUs are installed and connected to the correct ports in the patch panels,
please proceed with the VAP installation as described in chapter 5 . However, it is recommended
to complete the VCU provisioning first (See section 4.4) because when installing the VAPs they
will instantly provide the wireless service (and the installer will be able to check the coverage).
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VCU Unit Installation and Provisioning
4.3.2
Operation with LAN utilizing Power over Ethernet (PoE)
Power over Ethernet (PoE) is a technology that enables passing electrical power over the
Ethernet cabling. Power can either come from a PoE-enabled Ethernet device (e.g. switch) or
from a “mid-span” device built specifically for "injecting" power into the Ethernet cabling.
PoE can operate over two different pairs in a CAT-5e/6 cable. These two methods are referred to
as “alternative a” and ”alternative b”. All PoE compatible appliances, such as WLAN APs and IP
phones, support both alternatives and automatically detect and use the power on the
appropriate pairs (alternative a or b).
MobileAccessVE supports sharing LAN infrastructures that use either 802.3af PoE or 802.3at
PoE.
In the current release MobileAccessVE supports operation with “alternative a” PoE.
Note: For coexistence with “alternative b” PoE the VE PoE Alternative B PoE Adaptor is required
(ordered separately). If this is currently required, consult MobileAccess.
4.4
Provisioning the VE Control Unit
This chapter describes how to set the basic parameters required for operation and remote
management of the Master VCU using the Web GUI. The configuration dialogs are fully
described in Chapter 6 .
The Master or Slave mode is automatically detected according to the VCU's physical connection.
If a connection to another VCU is detected, the VCU will be identified as a Slave, otherwise it will
assume the role of a Master.
Notes:
1. The initial configuration of the Master VCU is performed via local connection using a crosscable and connecting to VCUs default IP address. After performing the initial configuration
and assigning the Master VCU an IP address, the system can be connected, monitored, and
configured via a remote management connection.
2. The configuration and management of all of the system units (VCUs and VAPs) is performed
via local or remote connection to the Master VCU unit.
4.4.1
Configure the Computer IP Parameters
Configure the computer local LAN connection to operate in the same subnet as the default VCU
IP address. Note that the procedure may vary slightly depending on the operating system
installed on your computer. The following procedure is for Windows 7.
To Configure the Computer’s IP Parameters:
1. Click the Start menu and choose Control Panel.
2. In the Control Panel, click Network and Internet.
3. Click Network and Sharing Center and then click Local Area Connection.
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VCU Unit Installation and Provisioning
The Local Area Connections Status dialog box appears with the General tab displayed by
default.
4. Click the Properties button in the displayed Local Area Connection Status dialog.
5. In the Items list, double-click the Internet Protocol Version 4 (TCP*IPv4) item.
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VCU Unit Installation and Provisioning
The Internet Protocol Version 4 (TCP/IPv4) Properties dialog appears.
Note: The Master VCU is supplied with the default IP address 192.168.1.1.
• In order to communicate with the unit, it is necessary to assign your computer a Static
IP address in the same subnet: 192.168.1.2 to 192.168.1.250.
(i.e. 192.168.1.9 as shown in the example).
• Define the subnet mask as shown: 255.255.255.0
6. Click OK.
7. The computer communication parameters are now defined and you can open a session to
the Master VCU and provision the unit.
4.4.2
Provisioning the Master VCU Unit
1. Perform a local connection to the Master VCU unit by connecting the Master VCU front panel
Management port and a laptop computer.
2. Open a web browser and type the Master VCU IP address in the address bar (Default:
192.168.1.1).
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VCU Unit Installation and Provisioning
Note: If you have forgotten the VCU IP address (or want to change it) it can be retrieved via
the IP Recovery Tool application provided on the Setup CD. See 9.2.
The Login window appears.
3. Type the User Name “engineer” and enter the Password “eng”.
The MobileAccessVE Web GUI appears.
Main Menu
Bar
Network
Topology Tree
Sub-tabs that
correspond to
each main tab
4. Choose the Management tab in the main menu bar and click the IP Settings tab on the
side bar.
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VCU Unit Installation and Provisioning
IP Settings
Modify Button
Note: See section 6.4 for a description of the Management tab.
5. Click the Modify button to define the STATIC IP Address according to existing LAN.
Note: After the initial IP configuration, the Master VCU can be accessed remotely via
Ethernet.
• Set the Static IP address parameter (DHCP is not currently available)
Default definitions:
•
The Default IP Address : 192.168.1.1
•
The Default Subnet Mask: 255.255.255.0
•
The Default Gateway: 192.168.1.254
• Click OK.
6. Log out and then log in again with the new IP settings.
7. Select the Config tab in the main menu bar.
Note: See section 6.3 for a complete description of the Config tab.
8. The Master VCU appears in the Network Topology Tree as VCU-M. Select the Master VCU
by clicking on it.
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VCU Unit Installation and Provisioning
Config Tab
Master VCU
9. Before configuring the Master VCU it is recommended to give the unit an identifiable name.
To assign the Master VCU an identifiable name:
• Select the Module Info Tab and click the Modify button.
Click Modify button
to define the unit a
name.
Uplink Cable
Compensation option
Figure 4-3. Module Info Tab
• Type the unit name (up to 17 alpha-numeric characters) in the Controller Name dialog and
click OK.
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VCU Unit Installation and Provisioning
10. Uplink Cable Compensation – enable this parameter ONLY if the bonded cable lengths vary
between the VCU and VAPs (reduces noise). See Figure 4-3. It is NOT recommended to
enable this option for similar cable lengths between the VCU and the connected VAPs.
4.4.3
Setting RF Parameters
In a Master-Slave mode (multi-tier architecture) the RF parameters are only configured for the
Master VCU unit.
Set the RF parameters according to the AWS Signal Source transmission configuration (MIMO or
SISO). Each type of configuration is defined through a dedicated tab.
This section describes the MIMO and the SISO configuration procedures.
To Configure the MIMO RF Parameters:
1. Select the Master VCU in the topology tree and then select the RF Parameters tab. Verify
that the Service Mode parameter is defined as MIMO.
Note 1: The Type field (Read Only) shows the supported Band (AWS).
Note 2: The MIMO DL CF parameter is Read Only and pre-defined for the supported 10MHz
block. The MIMO DL CF parameter defines the same DL central frequency from the Base
Station for Channel 1 and Channel 2.
2. Define Max expected power of BTS (0-33dBm).
3. Define UL System Gain (-15 to 5dB)
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VCU Unit Installation and Provisioning
Notes: Max expected Pin parameter can be obtained from your service provider. The remaining
parameters are predefined to their default values. (Service Bandwidth is set to 10MHz per
channel). Any updates of the service definition (Service Mode) are sent to all connected VAPs.
To Configure the SISO RF Parameters:
Note: The RF tab is displayed for MIMO by default.
1. Select the Master VCU in the topology tree and select the SISO option in the Service Mode
drop-down list. The RF parameters tab will display the SISO RF parameters.
Service Mode
drop-down list
2. Define Max expected power of BTS (0-33dBm).
3. Define UL System Gain (-15 to 5dB)
Note 1: The Type field (Read Only) shows the supported Band (i.e. AWS).
Note 2: Max expected Pin and SISO DL CF parameters can be obtained from your service
provider.
Note 3: The remaining parameters are predefined to their default values. (Service
Bandwidth is set to 10MHz).
Any updates of the service definition (DL CF or Service Mode) are sent to connected VAPs.
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VCU Unit Installation and Provisioning
4.4.4
Verifying System Operation
To verify proper operation of the system, refer to the VCU Alarms and Mask sub-tab (in the
Config tab). The following figure illustrates the MIMO alarms.
1. Verify that all the alarms are GREEN. Refer to the alarm descriptions in section 7.2.
Note: When SISO service is used only the Channel 1 alarms are relevant.
Note: To briefly check the VCU status, click on the VCU name in the Topology Tree. The VCU
icon will appear, showing the LEDs status.
Click VCU Master
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VCU Unit Installation and Provisioning
2. Mask irrelevant alarm conditions to avoid affecting the overall status of the unit. See
following example.
For Example
Note: Channel DL signal refers to the MIMO/SISO DL signal from the BS side towards the
remote units (VAPs).
In the example below “Channel 2 RF DL Pwr High” alarm is masked (disabled) – this is the
alarm for the DL signal (from the BS side).
The left dialog shows the alarm response when Channel 2 DL RF Pwr High alarm is enabled
and a fault corresponding to that alarm is detected. (MIMO 2 DL RF Power exceeds the
defined range). The Overall Status will be RED indicating a fault.
The right side dialog shows the alarm response when Channel 2 DL RF Pwr High alarm is
masked (disabled). The Channel 2 DL RF Pwr High LED will appear RED; but, the Overall
Status will be GREEN – showing NO Fault.
Channel2 RF DL Pwr
High alarm unmasked
(enabled)
Channel2 RF DL
Pwr High alarm
masked (disabled)
Overall status RED
Overall status
GREEN
Figure 4-4. Unmasked Alarm (Enabled)
Figure 4-5. Masked Alarm (Disabled)
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Note: To briefly check the VCU status, click on the VCU name in the Topology Tree. The VCU
icon will appear, showing the LEDs status.
Master VCU icon
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VCU Unit Installation and Provisioning
4.4.5
Provisioning the Slave VCUs
Note: The Slave VCUs management and configuration is performed through a remote connection
to the Master VCU, via the web management. Before provisioning the Slave VCUs verify that the
Master VCU unit, to which it is connected, has been provisioned (See section 4.4.1).
The Slave VCU RF parameters are set via the Master VCU, therefore there is no need to
configure the RF parameters individually for each connected Slave VCU. It is recommended to
assign each Slave VCU an identifiable name.
To Assign a Name to a Slave VCU:
1. Connect to the Master VCU unit (either locally as explained in section 4.4.1 or remotely) and
select the Slave VCU to be provisioned from the Network Topology Tree.
Selected Slave
VCU-
Click Modify to
assign name
Each VCU has a default name of the form “VCUPx-name”, where:
• Px - Master VCU port number to which the Slave VCU is connected
• Name - user-defined name
2. To assign the Slave VCU an identifiable name:
• Select the Module Info Tab
• Click the Modify button
• Type the unit name (up to 17 alpha-numeric characters) and click OK.
3. Uplink Cable Compensation – enable this parameter ONLY if the bonded cable lengths vary
between the VCU and VAPs (reduces noise). It is NOT recommended to enable this option
for similar cable lengths between the VCU and the connected VAPs.
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VAP Installation and Provisioning
VAP Installation and Provisioning
This section provides a description of the VE Access Pods (VAPs) installation, verification, and
monitoring procedures.
5.1
VAP Installation
The VAPs installation procedure consists of connecting each VAP to the Ethernet jack in the
appropriate location to provide optimal coverage (See sections 3.4.
It is recommended to install the VAPs in places located high up so as to maximize the provided
coverage per VAP.
Note: Mounting a VAP beneath a desk or in another secluded location (e.g. office corner)
decreases the effective coverage of the VAP increasing the need for a higher number of VAPs to
cover the same area.
There are three main types of VAP mounting installations:
• Desk top – for VAPs mounted on locations such as desks, cubical walls and filing cabinets. See
5.2.2.
• Wall mount – for VAPs mounted on walls (recommended high up). See 5.2.3.
• Ceiling mount – for VAPs to be installed in the ceiling. Two types of ceiling mount installations:
• Horizontal –See 5.3.
• Vertical –See 5.4.
The AWS VAP is provided with the Desk/Wall mount kit, which also includes the RJ-45 cable for
connecting the VAP to the Ethernet jacks (See 5.2.1). If the VAP is to be installed on the ceiling
then an additional kit is provided, depending on whether the installation is horizontal (See 5.3.1)
or vertical (See 5.4.1).
VAP Installation Considerations
• Placing units in an open area.
• Availability of CAT-5e/6 infrastructure.
• The VAPs plug into standard (RJ-45) Ethernet connection jacks.
• If the jack being used is already connected to Ethernet switch. For more information see 3.4.2
and 4.3.
• Aesthetics of the VAP location.
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VAP Installation and Provisioning
5.2
Desk and Wall Mount VAP Installations
5.2.1
VAP Kit Contents
The VE AWS Access Pod (VAP) Kit includes:
Note: The provided VAP kit includes two mounting options: Desk Mount and Wall Mount. See
sections 5.2 and 5.4 for Ceiling Mount options (kits are ordered separately).
Table 10: Desk and Wall Mount VAP Kit
Kit Items
UNIT
VE Access Pod (VAPs)
Wall Mount Adaptor (with double
sided sticky tape located on rear for
fast installation)
Front
Rear – showing tape
Desk Mount Adaptor
8 Screws:
o 4 Short Screws – Used to secure
adaptor to pod
o 4 Longer Screws – Used to secure
wall mount adaptor to the wall
(“anti-theft” installation)
Long screws
Short screws
RJ-45 Jumper Cable
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VAP Installation and Provisioning
5.2.2
Desk Mount Installation
Note: All components (adaptor, screws, and cables) are included in the VAP Kit.
• Place the VAP on the Desk Mount.
• Secure the Desk Mount adaptor to the VE Access Pod using the (4) short screws.
• Connect the VAPs RJ-45 VCU connector to the Ethernet jack leading to the VCU (via RJ-45
cable supplied with VAP).
• Place the VAP on a flat surface according to the planned location.
• Plug the other end of the cable into the VCUs (RJ-45) Ethernet jack.
• When using an external antenna, connect the Ext. Antenna SMA connector(s) to the external
antenna(s). (Note: External antenna is enabled by default).
Note: The maximum external antenna gain should not exceed 10 dBi.
• Verify that the VAP receives power and connects to the VCU via the LEDs on the unit (both
the GREEN LED and the BLUE LED should be lit).
Assembly - Rear View
Assembly - Front View
Access Pod
Activity –
Blue LED
Desk Mount Adaptor
Ext. Antenna SMA
connectors
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Green LED
RJ-45 to
VCU
RJ-45 to LAN
connection (e.g.
computer)
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VAP Installation and Provisioning
5.2.3
Wall Mount Installation
Note: All components (adaptor, screws, and cables) are included in the VAP Kit.
• Attach the VAP’s wall mount adaptor to the wall in the planned location, using the double
sided sticky tape located on the rear or secure it using the longer screws.
• Place the VAP on the Wall Mount.
• Secure the Wall Mount adaptor to the VE Access Pod using the (4) short screws.
Access Pod
Wall Mount
Assembly
• Connect the VAPs RJ-45 VCU connector to the Ethernet jack leading to the VCU (via RJ-45
cable supplied with VAP).
• Plug the other end of the cable into the VCUs (RJ-45) Ethernet jack.
• Connect the Ext. Antenna SMA connector(s) to the external antenna(s). (Note: External
antenna is enabled by default).
Note: The maximum external antenna gain should not exceed 10 dBi.
• Verify that the VAP receives power and connects to the VCU via the LEDs on the unit (both
the GREEN LED and the BLUE LED should be lit).
Blue LED
Green LED
Figure 5-1. VAP Mounted on Wall
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VAP Installation and Provisioning
5.3
Horizontal Ceiling Mount VAP Installations
Note: The VAP and required RJ-45 cable are supplied in the provided VE AWS VAP kit (See
5.2.1).
The Horizontal installation procedure varies depending on the type of ceiling:
• Lowered ceilings – See 5.3.2.
• Concrete/Wood ceilings – See 5.3.3.
5.3.1
VAP Kit Contents
Please verify that the VAP Ceiling Mount Installation kit (P/N AK-VAP-CEILING-MT-H)
includes the items listed below.
Table 11: Horizontal Ceiling Mount VAP Kit
Kit Items
Description
Mounting Brackets
A) Ceiling Bracket
B) Locke Bracket
“Twist on” Track Light
Clip assembly
Used for installation on lowered
ceilings.
A) Track light Track Light Clip
B) Screw, Bolt and Washer
3 x Screw,Flat Head,
100', 4/40 x 1/4
[NEROSTA]
Used for assembling brackets
together
4 x Self Screw,3dim L=8
,Flat HD 90', PHILIPS,
[steel zinc]
Used Used to secure bracket
assembly to VAP
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VAP Installation and Provisioning
5.3.2
Lowered Ceiling Installation
To install VAP in lowered ceiling
1. Loosely assemble the two brackets (Ceiling and Locke) using the 3 provided Flat Head, 100',
4/40 x ¼ screws. (The assembly will be secured at a later stage.)
2. Assemble the Track Light Clip to the Ceiling Bracket (top side) using the provided washer
and bolt.
3. Hook the assembly onto the VAP rear panel grid and fit to the bottom of VAP.
4. Secure the assembled brackets to the bottom of the VAP using the four supplied Self Screw,
3dim L=8, Flat HD 90', PHILIPS screws.
5. Adjust the bracket assembly to firmly fit the VAP and tighten the three screws securing the
assembly.
6. Mount the VAP on the lowered ceiling as follows:
• Enlarge large flanges over opposite sides of T-bar. Note: Apply slight pressure as Twist
Clip is made of spring steel.
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VAP Installation and Provisioning
• Twist flanges clockwise until small flanges snap over edges. The Twist Clip is now in
position.
• Place stud through 1/2" knock-out. Use 4WN washer-nut combination and tighten
securely.
Figure 5-2. VAP Installed Horizontally on Ceiling
7. Continue to section 5.3.4 for connections and verifying normal operation.
5.3.3
Concrete/Wood Ceiling Installation
To install VAP in lowered ceiling
1. Mark the location of the 4 screws on the ceiling according to the four (larger) holes on the
bracket assembly.
2. Drill the screws in to the marked locations on the ceiling.
3. Align the three screw holes of each of the brackets (Ceiling and Locke) as shown in the
adjacent figure and using the supplied Flat Head, 100', 4/40 x 1/4 screws, loosely assemble
the brackets. Note: To be adjusted at a later stage.
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VAP Installation and Provisioning
4. Fit the assembled brackets on to the VAP by inserting the 5 hooks in corresponding top rear
grid of the VAP and fit the other side on to the underside of the VAP.
5. Secure the assembled brackets to the bottom of the VAP using the four supplied Self Screw,
3dim L=8 ,Flat HD 90', PHILIPS screws.
6. Adjust the bracket to the VAP and tighten the assembly screws.
7. Hang the VAP (using the four larger screw holes) on to the four screws located on the
ceiling.
8. Continue to section 5.3.4 for connections and verifying normal operation.
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VAP Installation and Provisioning
5.3.4
Connecting VAP and Verifying Normal Operation
After the VAP has been mounted on the ceiling continue as follows:
• Connect the VAPs RJ-45 VCU connector to the Ethernet jack leading to the VCU (via RJ-45
cable supplied with VAP).
• Connect the Ext. Antenna SMA connector(s) to the external antennas. (Note: External
antenna is enabled by default).
Note: The maximum external antenna gain should not exceed 10 dBi.
• Verify that the VAP receives power and connects to the VCU via the LEDs on the unit (both
the GREEN LED and the BLUE LED should be lit).
Blue LED
Green LED
VAP RJ-45 VCU
connector
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VAP Installation and Provisioning
5.4
Vertical Ceiling Mount VAP Installations
Note: The VAP and required RJ-45 cable are supplied in the provided VE AWS VAP kit (See
5.2.1).
The Vertical installation procedure varies depending on the type of ceiling:
• Lowered ceilings – See 5.4.2.
• Concrete/Wood ceilings – See 5.4.3.
5.4.1
VAP Kit Contents
Please verify that the VAP Ceiling Mount Installation kit (P/N AK-VAP-CEILING-MT-V) includes
the items listed below.
Table 12: Vertical Mount VAP Kit
Kit Items
Description
Mounting Brackets
A) Ceiling Bracket
B) Locke Bracket
“Twist on” Track Light
Clip assembly
A) Track light Track Light Clip
B) Screw, Bolt and Washer
(3) Screw, Flat Head,
100', 4/40 x 1/4
[NEROSTA]
Used for assembling brackets
together
(4) Self Screw,3dim L=8
,Flat HD 90', PHILIPS,
[steel zinc]
Used to secure bracket assembly
to VAP
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VAP Installation and Provisioning
5.4.2
Lowered Ceiling Installation
To install VAP in lowered ceiling
1. Loosely assemble the two brackets using the 3 provided Flat Head, 100', 4/40 x ¼ screws.
(The assembly will be secured at a later stage.)
2. Assemble the Track Light Clip to the Large Horizontal Bracket (top side) using the provided
washer and bolt.
3. Hook the assembly onto the VAP rear panel bottom grid and fit to underside of the VAP.
4. Secure the assembled brackets to the bottom of the VAP using the 4 supplied Self
Screw,3dim L=8 ,Flat HD 90', PHILIPS screws.
5. Adjust the bracket to firmly fit the VAP and tighten the x3 bracket assembly screws.
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VAP Installation and Provisioning
6. Mount the VAP on the lowered ceiling as follows:
• Enlarge large flanges over opposite sides of T-bar. Note: Apply slight pressure as Twist
Clip is made of spring steel.
• Twist flanges clockwise until small flanges snap over edges. The Twist Clip is now in
position.
• Place stud through 1/2" knock-out. Use 4WN washer-nut combination and tighten
securely.
Figure 5-3. VAP Mounted Vertically on Ceiling
7. Continue to section 5.4.4 for connections and verifying normal operation.
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VAP Installation and Provisioning
5.4.3
Concrete/Wood Ceiling Installation
To install VAP in lowered ceiling
1. Mark the location of the 4 screws on the ceiling according to the four (larger) holes on the
bracket assembly.
2. Drill the screws in to the marked locations on the ceiling.
3. Align the three screw holes of each of the brackets (Ceiling and Locke) as shown in the
adjacent figure and using the supplied Flat Head, 100', 4/40 x 1/4 screws, loosely assemble
the brackets. Note: To be adjusted at a later stage.
4. Fit the assembled brackets on to the VAP by inserting the 3 hooks in corresponding bottom
rear grid of the VAP and fit the other side on to the underside of the VAP.
5. Secure to the underside of the VAP using the 4 supplied Self Screw,3dim L=8 ,Flat HD 90',
PHILIPS screws.
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VAP Installation and Provisioning
6. Tightly adjust the bracket to the VAP and secure the bracket assembly.
7. Hang the VAP on to the four screws located on the ceiling, and secure the screws.
8. Hang the VAP (using the four larger screw holes) on to the four screws located on the
ceiling.
9. Continue to section 5.4.4 for connections and verifying normal operation.
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VAP Installation and Provisioning
5.4.4
Connecting VAP and Verifying Normal Operation
After the VAP has been mounted on the ceiling continue as follows:
• Connect the VAPs RJ-45 VCU connector to the Ethernet jack leading to the VCU (via RJ-45
cable supplied with VAP).
• Connect the Ext. Antenna SMA connector(s) to the external antenna(s). This option must
be SW configured via the web GUI. (Note: External antenna is enabled by default).
Note: The maximum external antenna gain should not exceed 10 dBi.
• Verify that the VAP receives power and connects to the VCU via the LEDs on the unit (both
the GREEN LED and the BLUE LED should be lit).
Blue LED
Green LED
VAP RJ-45 VCU
connector
5.5
Verifying VAP Coverage Area
Verify coverage in the areas, adding and moving VAPs for optimal coverage according to the
principles described in 3.3.
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VAP Installation and Provisioning
5.6
Naming the VAPs, Verifying Connections and
Monitoring
5.7
Provisioning the VAPs
Note: This section provides only the information required for provisioning the VAPs. For a full
description of the VAP configuration options, refer to Chapter 8 .
The VAPs are auto-discovered by the VCU and can be monitored via a remote or a local
connection (to the Master VCU). The VAPs are auto-configured by the VCU without user
intervention (no configuration procedure is required). However, if you wish, you may assign
each VAP an identifiable name corresponding to its physical location.
5.7.1
Verifying Normal VAP Operation
Use the RF Parameters and Module Info sub-tabs to review the VAP information and status.
1. If a session in not already open to the MobileAccessVE Web GUI application, open a session
to the Master VCU according to section 4.4.2.
2. Select a VAP from the Network Topology Tree.
Each VAP has a default name showing the number of the Slave VCU port to which the VAP is
connected.
3. To verify normal operation of the VAP:
• In the Network Topology Tree, under the Control Unit, verify that an LED is displayed
(either RED or GREEN) for each connected VAP.
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VAP Installation and Provisioning
• If the VAP LED is RED, select the VAP from the network topology tree then select the
Config tab. Refer to the Alarms tab work area. Use the displayed alarms to identify the
problems.
Note 1: VAP alarm mask is saved in the VCU, associated with the port to which the VAP is
connected. In case you replace the VAP, the newly installed VAP will automatically be set
with same alarm mask.
Note 2: For more information on the VAP Alarms, refer to section 8.2.
5.7.2
Naming the VAP
To assign the VAP an identifiable name:
1. Open the Config Module info tab.
2. Click the Modify button.
3. Type the unit name (up to 17 alpha-numeric characters) and click OK.
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Navigating the Web Access Application
Navigating the Web Access Application
The MobileAccessVE Web management application is accessed through any standard web
browser connected to the Master VCU via a network within the same subnet as the Master VCU
or a different subnet which is routable.
6.1
Opening a Session and Authentication Levels
After the initial configuration (as explained in 4.4.1) the MobileAccessVE system can be accessed
via the network.
To access the system:
1. Open a web browser. In the address bar type the Master VCU’s IP address as you set it in
the Master VCU configuration operation (See section 4.4.1).
2. The Login pane appears.
Enter your User Name and password. The following authentication levels are available:
Level
operator
engineer
admin
Default
Password
oper
eng
Provided by
MobileAccess
Access
This user has Read Only access.
This user has access to basic configuration options.
This user has Field Engineer permissions, in addition
to access to changing passwords.
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Navigating the Web Access Application
6.2
About the MobileAccessVE Web Access Window
The MobileAccessVE Web window includes six main tabs that provide access to the applications’
main options. Here the Config tab is displayed by default.
Note: The Monitor, Events, Setup, and Help tab are future options.
The appearance of the each screen varies according to the tab displayed. The Main Menu Bar
tabs are:
• Config(uration) – Displayed by default upon login. Provides the selected units’ configuration
parameters and alarms
• Management - Provides upgrade, IP configuration and security options
Both of these tabs are described in detail in the following sections
Menu bar
Sub-tabs
corresponding
to menu bar
options
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Navigating the Web Access Application
6.3
Configuration Tab
The Configuration tab provides the general information and service RF parameters for
configuration of the units appearing in the Network Topology tree.
To access a VCU Configuration tab
On the left hand side of the window select a Master VCU/Slave VCU from the network topology
tree. Select the Configuration tab from the menu-bar. The information and parameters
displayed in the Configuration sub-tabs vary depending on whether a VCU or VAP is selected in
the topology tree.
The Configuration tab is divided in to three main areas:
• Network Topology Tree – Displays the system units (Master VCU, Slave VCUs and VAPs) and
their status
• Display Area – Displays the icon of the selected unit including the LED statuses
• Work Area – Displays the Module Info, alarms, and RF tabs corresponding to the unit selected
in the topology tree (Master VCU, Slave VCU or VAP)
Configuration tab
Selected VCU
VCU Icon display
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Navigating the Web Access Application
6.3.1
Network Topology Tree
The Configuration Network Topology Tree appears on the left hand side when the Config tab is
selected. Connected Slave VCUs and VAPs are automatically detected and displayed in the
topology. The MobileAccessVE Web Access Application includes a Baseline feature providing an
indication on network elements (VCUs or VAPs) which were disconnected from the VE network.
Connected Slave VCUs, and VAPs are automatically added to the Baseline upon detection, and
will appear in the topology as grayed out in case they get disconnected. The network elements
are displayed in two levels:
• First Level – up to 12 VCUs
• Second Level – Up to 12 VAPs connected to each VCU
Note: The root is MobileAccessVE.
Root
Master VCU –
first level
VAP – second level
Disconnected unit
Each unit is assigned a Type Px-name:
• Type – VCU-M, VCU or VAP (for Master VCU, Slave VCU or VE Access Pod)
• Px - VCU port number
• Name – user defined
Each unit is displayed with a colored bullet that indicates its’ status:
Color
Green
Red
Gray
Indicates
OK
Alarm Condition
Disconnected unit (e.g. faulty connection)
Generates RED Baseline alarm in Alarms tab
(see 7.2).
The root (the entire MobileAccessVE site) is also associated with a colored bullet that indicates
the overall status of the deployment:
Color
Green
Red
Indicates
OK
Alarm Condition in one or more VCUs or VAPs
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Navigating the Web Access Application
6.3.1.1
Removing Network Element from Baseline
The Baseline automatically detects the connected units (VCUs and VAPs) and when for some
reason a unit is disconnected or the connection is no longer detected it will not disappear from
the topology but will appear in gray. In addition, the Baseline alarm in the Alarm tab will appear
in Red.
In order to remove a unit from the baseline so that it no longer appears in the network topology,
it must be done via the GUI from either the Topology Tree or unit icon.
To remove a unit from the baseline
1.
Click on the unit in the Topology Tree or on the unit icon (for example, VAP). The following
dialog appears:
2. Click OK. The unit will no longer be displayed in the Network Topology Tree.
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Navigating the Web Access Application
6.3.2
Configuration Display Area
When selecting an element (Master VCU/Slave VCU or VAP) in the network topology tree, an
icon representing the unit is displayed in the Configuration tab display area.
Icon display
area
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Navigating the Web Access Application
6.4
Management Tab
Note: The displayed options depend on the user access level.
The Management tab provides user administrative management options and includes the submenu tabs:
• Firmware – Used for upgrading/downgrading SW to VCUs
• Distribute – Used for distributing the upgrade/downgrade SW files to the VAPs
• Security – Used for changing user passwords
• SNMP Config – Used for defining the SNMP communities and trap destinations
• IP Settings – Used for viewing and modifying the network parameters
• Sys(tem) Log – N/A
The following figure shows the Management screen with the menu options on left.
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VCU Monitoring and Configuration
VCU Monitoring and Configuration
7.1
Viewing VCU General Information
The VCUs general information (such as unit name and SW versions) can be viewed in the Config
Module Info sub-tab.
The tab includes two additional options:
• Identify button - Enabling this option enables finding the physical location of the selected
element (See 10.1). When this option is set to ON, the LEDs on the corresponding VCU
flickers.
• Reset button - SW reset of the unit
To view VCU general information
• Click the Config tab from the main menu and select the VCU from the network topology tree.
The Module Info sub-tab is displayed by default.
The following information is displayed:
Field
Name
Description
User defined name for system element (up to 17 characters)
Serial Number
Factory set ID number
Product Revision
Revision number of VCU/VAP
SW Active Version
Version of the SW currently being used to manage and monitor
the system
SW Inactive Version
Version of other system SW version not in use
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VCU Monitoring and Configuration
7.2
Field
Identify Button
Description
Enabling this option enables finding the physical location of the
selected element (See 10.1). When this option is set to ON, the
LEDs on the corresponding VAP/VCU flickers.
Reset Button
SW reset of the unit
Viewing VCU Alarms
The alarms displayed in the Alarms tab correspond to the VCU (Master/Slave) selected in the
topology tree. When a VCU element is selected in the topology tree, the Alarm tab displays the
main alarms in the unit.
To view VCU Alarms
In the Topology Tree select the Control Unit (VCU) then click the Config(uration) tab in the
menu bar located at the top of the window. Refer to the VCU Alarms and Mask sub tab.
If one or more alarms occur, the corresponding Status indicator will be illuminated in RED. If the
VCU is OK and no fault occurs, the Overall Status indicator will show GREEN.
The following table provides a description of the VCU alarms.
Alarm
Description
VCU Faulty
RED - VCU fault. Remove and re-apply power to VCU. If
problem persists, replace VCU.
Over Temperature
Temperature of unit exceeds normal range.
Mismatch
Red – Mismatch of services (e.g. between VCU and connected
VAPs).
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VCU Monitoring and Configuration
7.3
Alarm
Description
Channel 1 RF DL Pwr Low
RED - DL RF Power is lower by 15dBm (or more) from the Max
Expected Pin.
Channel 1 RF DL Pwr
High
RED - the input power exceeds the maximum expected Pin by
more than 3 dB.
Service Off
User has disabled the service.
Channel 2 RF DL Pwr Low
RED - DL RF Power is lower by 15dB (or more) from the Max
Expected Pin.
Channel 2 RF DL Pwr
High
RED - the input power exceeds the maximum expected Pin by
more than 3 dB.
VCUs in Baseline
RED – Communication lost with VCU defined in baseline
VAPs in Baseline
RED - Communication lost with VAP defined in baseline
Overall Status
Indicates Fault (RED) level or GREEN if there are no faults.
Master VCU RF Parameters
Note: The RF parameters are not displayed for control units functioning as Slave VCUs.
To access the Service RF tab
Click the Config tab from the main menu bar and then select the Master control unit from the
network topology and click the RF Parameters tab. The parameters displayed in RF Parameters
tabs correspond to the selected element. The displayed parameters are similar for MIMO and
SISO service modes, however in SISO mode only the Channel 1 Pin parameter is displayed.
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VCU Monitoring and Configuration
The following table provides a description of the RF parameters displayed in the Service RF tabs.
Parameter
Type
Service Mode
DL CF*
UL System Gain
Max Exp Pin*
Channel1/ Channel
2 Pin
Description
Set (read only) according to unit type (i.e. AWS)
Provides the service options: MIMO/SISO/Off. The selected option
determines the displayed RF parameters.
Set (read only) Center frequency (from BTS) according to AWS range. The
CF is the same for both UL and DL signals.
Used for adjusting the UL system gain. Range: -15 dB to +5 dB
Maximum expected input power from the BTS. Used for adjustment
procedure. Range: 0-33 dBm. User defined.
Actual measured Pin (read only). In SISO mode only Channel 1 Pin is
relevant.
* Required parameters to be provisioned by the user.
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VAP Monitoring and Configuration
VAP Monitoring and Configuration
8.1
Viewing VAP General Information
The VAPs general information (such as unit name and SW versions) can be viewed in the Config
Module Info sub-tab.
The tab includes two additional options:
• Identify button - Enabling this option enables finding the physical location of the selected
element. When this option is set to ON, the LEDs on the corresponding VAP flickers.
• Reset button - SW reset of the unit
To view VAP general information
Click the Config tab in the main menu and select the VAP from the network topology tree. The
Module Info sub-tab will be displayed by default.
The following information is displayed:
Field
Name
Serial Number
Product Revision
Description
User defined name for system element (up to 17 characters)
Factory set ID number
Revision number of VCU/VAP
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VAP Monitoring and Configuration
Field
SW Active Version
SW Inactive Version
Identify Button
Reset Button
Description
Version of the SW currently being used to manage and monitor
the system
Version of other system SW version not in use
Enabling this option enables finding the physical location of the
selected element (See 10.1). When this option is set to ON, the
LEDs on the corresponding Access POD/VCU flickers.
SW reset of the unit
Note: VAP Name is saved in the VCU associated to the port to which the VAP is connected, such
that in case you replace a VAP, the new one will be associated with the same name. In case you
do not want to keep the configuration of the replaced VAP, remove it from the topology baseline
before connecting the new VAP.
8.2
Viewing VAP Alarms
When a VAP element is selected in the topology tree, the Alarm tab displays the main alarms in
the unit.
To access VAP Alarms Tab
Click the Config tab in the main menu and select the VAP from the network topology tree.
Select the VAP Alarms sub tab.
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VAP Monitoring and Configuration
If one or more alarms occur, the corresponding Status indicator will be illuminated in RED. If the
VAP is OK and no fault occurs, the Overall Status indicator will show GREEN.
Alarm
Description
DL Adjustment
RED - Cable (between VCU to VAP) is too long (over 100m/300ft)
Over temperature
RED - Temperature of unit exceeds normal range
VAP Faulty
RED - A fault has been detected in the VAP
Overall status
Indicates Fault (RED) level or GREEN if there are no faults
Note: DL adjustment alarm is raised when a VAP is connected over a cable exceeding system
cable length limitation. In such cases, the system continues to provide the wireless services, but
you should check the coverage of the VAP (as output power may be degraded due to excess
cable loss) and check the Ethernet connection (as Ethernet standard maximum cable length has
probably been exceeded).
8.3
VAP RF Parameters
The VAP RF Parameters sub-tab provides the configurable RF parameters corresponding to the
VAP element selected in the network topology tree. The displayed RF parameters are similar for
both MIMO and SISO service modes (in SISO service mode only Channel 1 parameters are
displayed).
To view the VAP RF Parameters
Click the Config tab from the main menu bar and then select the VAP from the network
topology and click the RF Parameters sub-tab. The parameters displayed in RF tab correspond to
the selected element.
Selected VAP
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VAP Monitoring and Configuration
The following table provides a description of the displayed VAP RF parameters (in SISO service
mode, only Channel 1 parameters are displayed).
Parameter
Type
Description
Set (Read Only) according to unit type (AWS)
Channel 1/ Channel 2
Antenna
External only (default).
DL Pout Level
Level of from BS side.
Normal = output power will be at required (normal) level
Low = output power will be attenuated by 5 dB less than the
required level. This option can be used for smaller coverage areas
that do not require the full power of the VAP for coverage.
Channel 1/ Channel 2
DL Pout
Measured output power. Normal output power is approximately
14dBm.
Note: VAP RF settings (Service Mode, DL Pout Level, Antenna) are saved in the VCU associated
to the port to which the VAP is connected, such that in case you replace a VAP all parameters
are automatically set to the new VAP. In case you do not want to keep the configuration of the
replaced VAP, remove it from the topology baseline before connecting the new VAP.
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Administrative Operations
Administrative Operations
This chapter describes the following Administrative operations (accessible to “Admin” access
level only):
• Changing password
• IP configuration parameters
• SNMP Configuration parameters
• Unit software upgrade and software management procedures
9.1
Changing Password
The Management - Security tab provides password change options.
To set the application password or change an existing password
1. Select the Security option of the Management tab at the top of the window.
2. Click the Modify button beside the User Name whose password is being modified.
3. Enter the New Password and re-enter in the Confirm New Password field.
4. Click OK.
Note: Passwords can only be changed when connected as an administrator.
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Administrative Operations
9.2
Retrieving VCU IP Address
The IP Recovery Tool enables viewing and/or changing the VCU IP address.
To install IP Recovery Tool
1. Install the IP Recovery Tool application (provided by MobileAccess on the Setup CD) on the
computer to which the VCU is to be connected.
2. Double-click on the Recovery Tool Setup and follow the prompts – standard installation
procedure.
To retrieve the VCU IP address
1. Connect the computer, on which the Recovery Tool is installed, to the VCU RS-232 Console
port located on the rear panel (See 1.3.1.2).
2. Run the IP Recovery Tool application from the computer Start menu.
The Connection dialog appears.
3. Select the Comm. Port corresponding to the connection on the computer.
4. Enter the password Eng and click Connect.
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The current IP parameters dialog appears showing the VCI IP address.
5. To modify the current IP Parameters: click Change. The Change IP Parameters dialog
appears:
6. Enter the new parameter value and click OK and Exit.
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Administrative Operations
9.3
IP Settings
The IP Settings tab is used for viewing and modifying the network parameters. The default
parameter settings are as follows:
• IP Address: 192.168.1.1
• Subnet Mask: 255.255.255.0
• Default Gateway: 192.168.1.254
Click Modify button to
change settings
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Administrative Operations
9.4
SNMP Configuration Parameters
The SNMP Config tab is used for defining the SNMP communities in which the devices and
management station belongs and to where the traps are sent. The SNMP default communities
are:
• Read - public
• Write - private
• The Community Names can be modified by clicking the Modify button in the SNMP
Configuration display area.
• Additional Trap Destinations can be added by clicking the Add New button in the Trap
Destination List display area:
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9.5
Upgrading (or Downgrading) VCU and VAP Software
Note: Before you start, verify that the VCU and VAPs upgrade files are located in an accessible
location (i.e. on your computer).
The software for each VCU and its hosted VAPs can be upgraded through access to the VCU,
where the VAPs must be upgraded first and only then the VCU.
Note: In installations with Slave VCUs, a session should be opened to the IP address of the Slave
VCU in order to upgrade the SW of the Slave VCU and associated VAPs.
Two types of files are stored on the VCU and on individual VAPs: Active software on which the
unit operates, and Standby software. The Active and Standby software can be swapped on each
individual unit.
In addition, the VCU holds two software images for VAPs – to be used in download process to
VAPs.
The upgrade procedure consists of the following main phases:
1. Uploading the new VCU and VAP software to the host VCU.
2. Setting the new software as the Active software.
3. Downloading the new software to selected VAPs and activating it as the Active software on
those VAPs.
4. Activating the new VCU software on the VCU.
The procedure is performed via two screens:
• Firmware Screen – used to manage the software files stored on the VCU.
• Distribute Screen – used to download the VAP software version to selected VAPs.
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Administrative Operations
9.5.1
Upgrading the VAP SW
To Upgrade the VAPs SW Version:
1. Upload the VAP upgrade files from your storage location (i.e. computer) to the VCU as
follows:
• Click the Management menu tab and then select the Firmware sub-menu option
located on the left side.
• In the Load New Firmware display area, click the Browse button.
• Browse for the file to be loaded from your computer location. The Download button
appears and the progress bar will show the download status.
Load New
Firmware display
area
• After the download is complete, the downloaded SW version will appear in the Standby
Bank column of the VAP display area.
Notes:
1. Locate the Firmware files on your local hard-drive prior to the download process.
2. During the download process DO NOT disconnect the Web GUI connection to the VCU.
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Administrative Operations
2. To distribute the new software to selected VAPs:
• Select the Distribute sub-menu option found on the left side.
Management tab
Distribute subtab
3. Download the new version to the selected VAPs (Note: The downloaded version is stored as
Inactive in the VAPs until a Swap procedure is performed.)
• In the VAP Distribute Table display area, checkmark the VAPs to be upgraded. The
Active and Inactive SW versions for each VAP are listed in the relevant columns.
• Click the Distribute button to download the new software to the selected VAPs. The
software is stored as the Inactive version in the VAPs.
• Set the new software as the Active version in the selected VAPs by clicking the Swap
button.
• The VAP upgrade procedure is complete.
Notes:
1. As during the distribution process service may be interrupted, it is advised to perform the SW
download and distribution in a maintenance window scheduled at off-peak hours (e.g. nights
and/or weekends).
2. During the distribution process DO NOT perform configuration changes, connect or disconnect
VAPs, and/or disconnect the web GUI.
3. After the distribution process is complete and swapping between VAP SW images, the VCU will
restart automatically. After restart, the VAP firmware distribution table will be empty. Within
several seconds it will re-populate as the VCU re-discovers connected VAPs.
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Administrative Operations
9.5.2
Upgrading the VCU SW
To Upgrade the VCU SW Version:
1. Upload the VCU upgrade files from your storage location (i.e. computer) to the VCU as
follows:
• Click the Management menu tab and then select the Firmware sub-menu option
found on the left side.
Firmware Sub- tab
Management Tab
• In the Load New Firmware display area, click the Browse button.
• Select the file to be loaded from your computer location. The Download button appears
and the progress bar will show the download status.
• After the download is complete the downloaded SW version will appear in the Standby
Bank column of the VCU display area.
2. Define the downloaded version as the Active version (to be used for upgrade) as follows:
• (In the VCU display area), click Swap. The downloaded version appears in the Active
Bank column and the Controller is automatically restarted.
• The VCU Upgrade procedure is complete.
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Troubleshooting
10
Troubleshooting
10.1
Finding a Specific VAP in the Building
It is recommended to assign each VAP an identifiable name corresponding to its physical
location, as explained in section 5.6. If a name was not configured, or for some other reason a
specific VAP cannot be physically located, identify the VAP according to the instructions in the
following example.
To locate a VAP
1. Select the Config tab from the main menu bar and then select the VAP to be located from
the topology tree.
Selected VAP
Module Info
2. Click the Module Info sub-tab.
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Troubleshooting
3. Set Identify to ON. The Activity LED (Blue) on the corresponding Access Pod will start
blinking fast. (You will need to physically locate the VAP to see the blinking LED).
Blue LED (Activity)
Green LED (PWR)
4. Locate the Access Pod.
5. It is advisable to assign it an identifiable name via the Access Pod Module Info tab, as
described in section 5.6 (e.g. floor 3, room 2) and set the Identify field to Off again.
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10.2
Wireless Service is Not Available
1. Verify that the Master VCU is connected to the BTS, powered up, and configured.
2. Verify that the Max Expected Power setting is correct by either:
A) Viewing the actual VCU Power Measurement (Channel 1/Channel 2 Pin) in the VCU
RF Parameters sub-tab (See below).
Config tab
Service Pin
B) or by measuring the actual BTS output using a Spectrum Analyzer.
3. Verify correct settings of center frequency and system gain (See DL CF and UL System
Gain parameters in RF Parameters sub-tab – see example displayed above).
4. Verify that the RF cables are properly connected to the VCU.
5. View the VCU Alarms (above image) and verify that the VCU is working properly.
10.3
PoE is Not Working
Verify that the PoE used is “alternative a”. The MobileAccessVE system currently only supports
this alternative. Verify that all pairs are wired in the patch panels and jumper cords.
Note: For coexistence with “alternative b” PoE the VE PoE Alternative B PoE Adaptor is required
(ordered separately). If this is currently required, consult MobileAccess.
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Troubleshooting
10.4
Ethernet Service is Degraded
Ethernet standards specify that 100m (300ft) is the maximum distance between an Ethernet
switch and appliance (computer, WLAN AP, etc). This is relevant when MobileAccessVE shares
the IT LAN. The distance includes all patch cords (from switch to VCU, from VCU to patch panel,
from RJ-45 outlet to VAP, and from VAP to appliance).
1. Review the IT documentation, which may be available from your IT department, to
determine cable types and lengths.
2. Check the lengths of the patch cords being used and verify the end-to-end distance does not
exceed 100m (300ft).
3. A Fluke cable tester can be used to measure cable length.
10.5
No Service from Connected Access Pod
This requires physically accessing the Access Pod to check the LEDs, and accessing the Access
Pod through the Web GUI to verify the Access Pod configuration.
1. Physically view the Access Pod and confirm that both LEDs on the Access Pod are lit:
• Power LED (Green) is OFF – either no connectivity to the VCU or the VAP is faulty. Try
replacing the VAP. Try connecting the VAP directly to the VCU – if the Power LED is lit
check the cable and the patch cords.
• Activity LED is constantly blinking – the Access Pod cannot initialize due to exceeded
cable length. Try using the closest free RJ-45 jack fed with a different cable.
2. Check other Access Pods connected to the same VCU.
3. Verify that the VAP configuration as follows:
• Connect to the VCU using the MobileAccessVE Web GUI application (See 6.1).
• In the VCU Config tab, click the RF Parameters sub-tab and verify that the Service
Mode parameter is set (MIMO/SISO).
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Troubleshooting
Config tab
Service Mode
(MIMO/SISO)
• Select the VAP from the topology tree and click the RF Parameters sub-tab.
Selected
VAP
•
Confirm that the VCU port is functioning (VAP status LED - top LED in VAP icon
associated with this Pod is green).
Note: The Activity LED on the actual VAP is BLUE.
•
Verify the VAP was NOT configured by mistake to use the internal antennas (See
Channel 1/ Channel 2 Antenna parameter in RF Parameters sub-tab, shown in
previous figure).
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10.6
VCU Cannot be monitored via SNMP
VE traps are not received by the external Fault Monitoring system.
1. Verify that the VCU is powered ON.
2. Verify that the SNMP traps destination address is configured correctly.
3. Verify the IP connectivity to the Fault Monitoring server using “ping.”
4. Verify that SNMP port is not blocked or fire-walled in the IP network.
5. Initiate an Alarm and confirm the trap is received by external Fault Monitoring server. For
example:
• Access the VAP Service RF sub-tab (See section 8.3).
Unmasked
VAP Faulty
alarm
• Verify that the alarm is unmasked.
• Set the Service Control parameter to Off.
• Confirm the trap is received by external Fault Monitoring server.
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Appendix A - Traps
This section lists the MobileAccessVE LTE Controller and Access Pod Traps.
VE Control Unit (VCU) Traps
No
Trap Name
Trap Description
vcuChannel_1_DLPowerLow
Input RF power is Low (or no signal)
vcuChannel_1_DLPowerHigh
Input RF power is above the max expected Pin
vcuChannel_1_ServiceOff
Service is off
vcuChannel_2_DLPowerLow
Input RF power is Low (or no signal)
vcuChannel_2_DLPowerHigh
Input RF power is above the max expected Pin
vcuChannel_2_ServiceOff
Service is off
vcuFaulty
VCU HW is faulty
vcuOverTemperature
Temperature is above threshold
vcuAdjustment
Adjustment is failed
10
vcuMismatchType
VCU service is different than VAP services
VE Access Pod (VAP) Traps
No
Trap Name
Trap Description
vapAdjustment
when adjustment is failed
vapFaulty
when VAP HW is faulty
vapOverTemperature
when temperature is above threshold
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Appendix B – MobileAccess VE MIB Tree
Structure (Version 1.8)
The following MIB is used for managing the MobileAccess VE VCU and VAPs across the network infrastructure. This MIB
Structure and OIDs are specifically related to MIB Release 1.8 with the expectation that New OIDs will be added with the
release of future Firmware Versions.
MIB Tree Structure is on the following pages.
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Troubleshooting
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Troubleshooting
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Troubleshooting
MobileAccess Version 1.8 MIBs/OID Descriptions
Module
Node Name
OID String
Description
MaVEMIB
enterprises
.1.3.6.1.4.1
Enterprise
MaVEMIB
mobileAccess
.1.3.6.1.4.1.15921
MobileAccess
MaVEMIB
maVE
.1.3.6.1.4.1.15921.11
MobileAccess VE
MaVEMIB
maVEVCU
.1.3.6.1.4.1.15921.11.1
MobileAccess VE VCU
MaVEMIB
maVEVCUTable
.1.3.6.1.4.1.15921.11.1.1
VCU Table
MaVEMIB
maVEVCUEntry
.1.3.6.1.4.1.15921.11.1.1.1
VCU Table Entries
MaVEMIB
vcuLocationLevelIndex1
.1.3.6.1.4.1.15921.11.1.1.1.1
1 for Master VCU and 2 to 13 are the Slave
VCUs
MaVEMIB
vcuName
.1.3.6.1.4.1.15921.11.1.1.1.2
MA VCU NAME
MaVEMIB
vcuSerialNumber
.1.3.6.1.4.1.15921.11.1.1.1.3
MA VCU Serial Number
MaVEMIB
vcuProductRevision
.1.3.6.1.4.1.15921.11.1.1.1.4
MA VCU Product revision
MaVEMIB
vcuSWVersionActive
.1.3.6.1.4.1.15921.11.1.1.1.5
MA VCU Active Software Version
MaVEMIB
vcuSWVersionInactive
.1.3.6.1.4.1.15921.11.1.1.1.6
MA VCU Inactive Software Version
MaVEMIB
vcuReset
.1.3.6.1.4.1.15921.11.1.1.1.7
MA VCU RESET
MaVEMIB
vcuIdentify
.1.3.6.1.4.1.15921.11.1.1.1.8
MA VCU Indetify
MaVEMIB
vcuChannel1ServiceType
.1.3.6.1.4.1.15921.11.1.1.1.9
MA VCU Service Type
MaVEMIB
vcuChannel1DLCF
.1.3.6.1.4.1.15921.11.1.1.1.10
MA VCU First channel DL CF in 100Khz
MaVEMIB
vcuChannel1ULCF
.1.3.6.1.4.1.15921.11.1.1.1.11
MA VCU First channel UL CF in 100Khz
MaVEMIB
vcuChannel1MaxExpectedPin
.1.3.6.1.4.1.15921.11.1.1.1.12
MA VCU First channel Max Expected Input
Power - in dBm ;when
vcuChannel1ServiceType >50(In
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Troubleshooting
Module
Node Name
OID String
Description
WiMAX/PHS)the value is (dBm value + 100))
MaVEMIB
vcuChannel1ActualPin
.1.3.6.1.4.1.15921.11.1.1.1.13
MA VCU First channel Actual Input Power In
- in 0.1 dBm means: (when
vcuChannel1ServiceType <50 the value is
(dBm value *10) ; when
vcuChannel1ServiceType >50(In
WiMAX/PHS) the value is (dBm value +
100)*10
MaVEMIB
vcuChannel1ULSystemGain
.1.3.6.1.4.1.15921.11.1.1.1.14
MA VCU First channel UL System Gain
MaVEMIB
vcuChannel1ServiceControl
.1.3.6.1.4.1.15921.11.1.1.1.15
MA VCU First channel Service control (N/A in
MIMO/SISO services)
MaVEMIB
vcuChannel2ServiceType
.1.3.6.1.4.1.15921.11.1.1.1.16
MA VCU Service Type
MaVEMIB
vcuChannel2DLCF
.1.3.6.1.4.1.15921.11.1.1.1.17
MA VCU Second channel DL CF in 100Khz (in
MIMO refer to relevant leaf at channel 1)
MaVEMIB
vcuChannel2ULCF
.1.3.6.1.4.1.15921.11.1.1.1.18
MA VCU Second channel UL CF in 100Khz (in
MIMO refer to relevant leaf at channel 1)
MaVEMIB
vcuChannel2MaxExpectedPin
.1.3.6.1.4.1.15921.11.1.1.1.19
MA VCU Second channel Max Expected
Input Power - in dBm (in MIMO refer to
relevant leaf at channel 1)
MaVEMIB
vcuChannel2ActualPin
.1.3.6.1.4.1.15921.11.1.1.1.20
MA VCU Second channel Actual Input Power
- in 0.1 dBm means: (when
vcuChannel2ServiceType <50 the value is
(dBm value *10) ; when
vcuChannel2ServiceType >50 the value is
(dBm value + 100)*10
MaVEMIB
vcuChannel2ULSystemGain
.1.3.6.1.4.1.15921.11.1.1.1.21
MA VCU Second channel UL System Gain (in
MIMO refer to relevant leaf at channel 1)
MaVEMIB
vcuChannel2ServiceControl
.1.3.6.1.4.1.15921.11.1.1.1.22
MA VCU Second channel Service control
(N/A in MIMO/SISO services)
MaVEMIB
vcuServiceMode
.1.3.6.1.4.1.15921.11.1.1.1.23
MA VCU Service mode ; set is relevant for
values of MIMO/SISO/OFF
.1.3.6.1.4.1.15921.11.1.1.1.24
MA VCU Alarms; Bits are as follow:
vcuChannel1ServiceType <50: 1 - VCU
Faulty; 2 - Over Temperature; 4 - Type
Mismatch; 8 - Channel1 RF DL low; 16 Channel1 RF DL High; 32 - Channel1 RF Off;
64 - Channel2 RF DL low; 128 - Channel2 RF
DL High; 256 - Channel2 Off ;
vcuChannel1ServiceType >50: 1 - VCU
Faulty; 2 - Over Temperature; 4 - Type
Mismatch; 8 - service Off; 16 - Channel1 RF
DL low; 32 - Channel1 RF DL High; ; 64 Channel2 RF DL low; 128 - Channel2 RF DL
MaVEMIB
vcuAlarms
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Troubleshooting
Module
Node Name
OID String
Description
High; 256 - Channel2 Off
MaVEMIB
vcuAlarmMask
.1.3.6.1.4.1.15921.11.1.1.1.25
MA VCU Alarm Mask; Bits refer to alarms
bits described above
MaVEMIB
vcuOverallStatus
.1.3.6.1.4.1.15921.11.1.1.1.26
MA VCU Overall Status
MaVEMIB
vcuMACaddress
.1.3.6.1.4.1.15921.11.1.1.1.27
MA VCU MAC Address
MaVEMIB
vcuIPAddress
.1.3.6.1.4.1.15921.11.1.1.1.28
MA VCU IP Address
MaVEMIB
vcuSubnetMask
.1.3.6.1.4.1.15921.11.1.1.1.29
MA VCU Subnet Mask
MaVEMIB
vcuDefaultGateway
.1.3.6.1.4.1.15921.11.1.1.1.30
MA VCU Default Gateway
MaVEMIB
vcuTrapDestinationIP1
.1.3.6.1.4.1.15921.11.1.1.1.31
MA VCU Trap Destination Ip address 1
MaVEMIB
vcuTrapDestinationIP2
.1.3.6.1.4.1.15921.11.1.1.1.32
MA VCU Trap Destination Ip address 2
MaVEMIB
vcuTrapDestinationIP3
.1.3.6.1.4.1.15921.11.1.1.1.33
MA VCU Trap Destination Ip address 3
MaVEMIB
maVEVAP
.1.3.6.1.4.1.15921.11.2
MobileAccess VE VAP
MaVEMIB
maVEVAPTable
.1.3.6.1.4.1.15921.11.2.1
VAP Table
MaVEMIB
maVEVAPEntry
.1.3.6.1.4.1.15921.11.2.1.1
VAP Table Entries
MaVEMIB
vapLocationLevelIndex1
.1.3.6.1.4.1.15921.11.2.1.1.1
1 to 12 the VAP port itself (single tier), or 2
to 13 for the Slave VCU port index
MaVEMIB
vapLocationLevelIndex2
.1.3.6.1.4.1.15921.11.2.1.1.2
MaVEMIB
vapName
.1.3.6.1.4.1.15921.11.2.1.1.3
MA VAP NAME
MaVEMIB
vapSerialNumber
.1.3.6.1.4.1.15921.11.2.1.1.4
MA VAP Serial Number
MaVEMIB
vapProductRevision
.1.3.6.1.4.1.15921.11.2.1.1.5
MA VAP Product revision
MaVEMIB
vapSWVersionActive
.1.3.6.1.4.1.15921.11.2.1.1.6
MA VAP Active Software Version
MaVEMIB
vapSWVersionInactive
.1.3.6.1.4.1.15921.11.2.1.1.7
MA VAP Inactive Software Version
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Troubleshooting
Module
Node Name
OID String
Description
MaVEMIB
vapReset
.1.3.6.1.4.1.15921.11.2.1.1.8
MA VAP RESET
MaVEMIB
vapIdentify
.1.3.6.1.4.1.15921.11.2.1.1.9
MA VAP Indetify
MaVEMIB
vapChannel1ServiceType
.1.3.6.1.4.1.15921.11.2.1.1.10
MA VAP Service Type
MaVEMIB
vapChannel1ServiceControl
.1.3.6.1.4.1.15921.11.2.1.1.11
MA VAP First channel Service control (N/A in
WiMAX)
MaVEMIB
vapChannel1DLPoutLevel
.1.3.6.1.4.1.15921.11.2.1.1.12
MA VAP first channel DL output attenuation
Level
MaVEMIB
vapChannel1DLPoutActual
.1.3.6.1.4.1.15921.11.2.1.1.13
MA VAP First channel DL Actual Output
Power - in 0.1 dBm means: (when
vapChannel1ServiceType <50 the value is
(dBm value *10) ; when
vapChannel1ServiceType >50 the value is
(dBm value + 100)*10
MaVEMIB
vapChannel1AntennaType
.1.3.6.1.4.1.15921.11.2.1.1.14
MA VAP First channel Antenna Type internal
- external
MaVEMIB
vapChannel2ServiceType
.1.3.6.1.4.1.15921.11.2.1.1.15
MA VAP Service Type
MaVEMIB
vapChannel2ServiceControl
.1.3.6.1.4.1.15921.11.2.1.1.16
MA VAP Second Band Service control(N/A in
MIMO/SISO)
MaVEMIB
vapChannel2DLPoutLevel
.1.3.6.1.4.1.15921.11.2.1.1.17
MA VAP Second channel DL output
attenuation Level
MaVEMIB
vapChannel2DLPoutActual
.1.3.6.1.4.1.15921.11.2.1.1.18
MA VAP Second channel DL Actual Output
Power - in 0.1 dBm means: (when
vapChannel2ServiceType <50 the value is
(dBm value *10) ; when
vapChannel2ServiceType>50 the value is
(dBm value + 100)*10
MaVEMIB
vapChannel2AntennaType
.1.3.6.1.4.1.15921.11.2.1.1.19
MA VAP Second channel Antenna Type
internal - external
MaVEMIB
vapAlarms
.1.3.6.1.4.1.15921.11.2.1.1.20
MA VAP Alarms; Bits are as follow: For non
SISO/MIMO services: 1 - Channel1 Off ; 2 Channel2 Off ; 4- DL Adjustment ; 8 - VAP
Faulty ; 16 - Over Temperature when
SISO/MIMO services: 1 - DL Adjustment ; 2
- Over Temperature; 4 - VAP Faulty
MaVEMIB
vapAlarmMask
.1.3.6.1.4.1.15921.11.2.1.1.21
MA VAP Alarm Mask
MaVEMIB
vapOverallStatus
.1.3.6.1.4.1.15921.11.2.1.1.22
MA VAP Overall Status
AWS MIMO MobileAccessVE Instant Coverage Solution User Manual
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Troubleshooting
Module
Node Name
OID String
Description
MaVEMIB
maVEEvents
.1.3.6.1.4.1.15921.11.9
MobileAccess VE Events
MaVEMIB
maVEEventsParams
.1.3.6.1.4.1.15921.11.9.1
MobileAccess VE Events Parameters
MaVEMIB
maVETrapDeviceType
.1.3.6.1.4.1.15921.11.9.1.1
Device Type
MaVEMIB
maVETrapDeviceSerial
.1.3.6.1.4.1.15921.11.9.1.2
MaVEMIB
maVETrapDeviceName
.1.3.6.1.4.1.15921.11.9.1.3
Name of the Trap
MaVEMIB
maVETrapDeviceIndex
.1.3.6.1.4.1.15921.11.9.1.4
Master VCU port
MaVEMIB
maVETrapDevicePortIndex
.1.3.6.1.4.1.15921.11.9.1.5
the unit itself or Slave VCU port
MaVEMIB
maVETrapEventText
.1.3.6.1.4.1.15921.11.9.1.6
Event description
MaVEMIB
maVETrapSeverity
.1.3.6.1.4.1.15921.11.9.1.7
Trap Severity
MaVEMIB
maVENotify
.1.3.6.1.4.1.15921.11.9.2
MobileAccess VE Notify
MaVEMIB
maVETraps
.1.3.6.1.4.1.15921.11.9.2.0
MobileAccess VE Traps
MaVEMIB
vcuChannel1DLPowerLow
.1.3.6.1.4.1.15921.11.9.2.0.1
The input RF power is 15 dB lower than max
expected power (or no signal)
MaVEMIB
vcuChannel1DLPowerHigh
.1.3.6.1.4.1.15921.11.9.2.0.2
when input RF power is above the defined
max expected power
MaVEMIB
vcuChannel2DLPowerLow
.1.3.6.1.4.1.15921.11.9.2.0.3
when input RF power is 15 dB lower than
max expected power (or no signal)
MaVEMIB
vcuChannel2DLPowerHigh
.1.3.6.1.4.1.15921.11.9.2.0.4
when input RF power is above the defined
max expected power
MaVEMIB
vcuChannel1ServiceOff
.1.3.6.1.4.1.15921.11.9.2.0.5
when service is off
MaVEMIB
vcuChannel2ServiceOff
.1.3.6.1.4.1.15921.11.9.2.0.6
when service is off
MaVEMIB
vcuFaulty
.1.3.6.1.4.1.15921.11.9.2.0.7
when VCU HW is faulty
MaVEMIB
vcuOverTemperature
.1.3.6.1.4.1.15921.11.9.2.0.8
when VCU temperature is above threshold
MaVEMIB
vcuMismatchType
.1.3.6.1.4.1.15921.11.9.2.0.9
When VCU services types is different than
VAP services types
AWS MIMO MobileAccessVE Instant Coverage Solution User Manual
Serial Number
90
Troubleshooting
Module
Node Name
OID String
Description
MaVEMIB
vcuAdjustment
.1.3.6.1.4.1.15921.11.9.2.0.10
when VCU adjustment has failed (or cable
too long)
MaVEMIB
vapAdjustment
.1.3.6.1.4.1.15921.11.9.2.0.11
when VAP adjustment has failed (or cable
too long)
MaVEMIB
vapChannel1ServiceOff
.1.3.6.1.4.1.15921.11.9.2.0.12
when VAP service is off
MaVEMIB
vapChannel2ServiceOff
.1.3.6.1.4.1.15921.11.9.2.0.13
when VAP service is off
MaVEMIB
vapFaulty
.1.3.6.1.4.1.15921.11.9.2.0.14
when VAP HW is faulty
MaVEMIB
vapOverTemperature
.1.3.6.1.4.1.15921.11.9.2.0.15
when VAP temperature is above threshold
MaVEMIB
vcuHeartbeat
.1.3.6.1.4.1.15921.11.9.2.0.16
system keep alive notification
MaVEMIB
vcuConnected
.1.3.6.1.4.1.15921.11.9.2.0.17
VCU connected
MaVEMIB
vcuDisconnected
.1.3.6.1.4.1.15921.11.9.2.0.18
VCU disconnected
MaVEMIB
vapConnected
.1.3.6.1.4.1.15921.11.9.2.0.19
VAP connected
MaVEMIB
vapDisconnected
.1.3.6.1.4.1.15921.11.9.2.0.20
VAP disconnected
AWS MIMO MobileAccessVE Instant Coverage Solution User Manual
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