Alvarion Technologies IF-24-SYNC Broadband Wireless Access System User Manual

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Date Submitted	2004-01-08 00:00:00
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Creation Date	2003-06-01 19:18:32
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Document Lastmod	2003-06-01 20:44:46
Document Title	BreezeACCESS Version 4.3 System Manual Revision 3.0
Document Creator	FrameMaker 6.0
Document Author:	Alvarion

BreezeACCESS II
Version 4.3
Revision 3.0
June 2003
System Manual
Cat. No. 213397 Revision 3.0
© 2003 by Alvarion Ltd. All rights reserved.
No part of this publication may be reproduced in any material form without the written permission of
the copyright owner.
Trade Names
Alvarion®, BreezeACCESS®, BreezeCOM®, BreezeLINK®, BreezePHONE®, BreezeNET®,
WALKair®, WALKnet®, are trade names or trademarks of Alvarion Ltd. Other brand and product
names are trade names or trademarks of their respective owners.
Statement of Conditions
The information contained in this manual is subject to change without notice. Alvarion shall not be
liable for errors contained herein or for incidental or consequential damages in connection with the
furnishing, performance, or use of this manual or equipment supplied with it.
Warranties; Disclaimers
All Alvarion Ltd. (Alvarion) products purchased from Alvarion or through any of Alvarion’s
authorized resellers are subject to the following warranty and product liability terms and conditions.
Exclusive Warranty
Alvarion warrants that the Product hardware it supplies and the tangible media on which any software
is installed, under normal use and conditions, will be free from significant defects in materials and
workmanship for a period of fourteen (14) months from the date of shipment of a given Product to
Purchaser (the Warranty Period). Alvarion will, at its sole option and as Purchaser’s sole remedy,
repair or replace any defective Product in accordance with Alvarion’ standard RMA procedure.
Disclaimer
(a) UNITS OF PRODUCT (INCLUDING ALL THE SOFTWARE) DELIVERED TO
PURCHASER HEREUNDER ARE NOT FAULT-TOLERANT AND ARE NOT DESIGNED,
MANUFACTURED OR INTENDED FOR USE OR RESALE IN APPLICATIONS WHERE THE
FAILURE, MALFUNCTION OR INACCURACY OF PRODUCTS CARRIES A RISK OF DEATH
OR BODILY INJURY OR SEVERE PHYSICAL OR ENVIRONMENTAL DAMAGE (HIGH
RISK ACTIVITIES). HIGH RISK ACTIVITIES MAY INCLUDE, BUT ARE NOT LIMITED TO,
USE AS PART OF ON-LINE CONTROL SYSTEMS IN HAZARDOUS ENVIRONMENTS
REQUIRING FAIL-SAFE PERFORMANCE, SUCH AS IN THE OPERATION OF NUCLEAR
FACILITIES, AIRCRAFT NAVIGATION OR COMMUNICATION SYSTEMS, AIR TRAFFIC
CONTROL, LIFE SUPPORT MACHINES, WEAPONS SYSTEMS OR OTHER APPLICATIONS
REPRESENTING A SIMILAR DEGREE OF POTENTIAL HAZARD. ALVARION
SPECIFICALLY DISCLAIMS ANY EXPRESS OR IMPLIED WARRANTY OF FITNESS FOR
HIGH RISK ACTIVITIES.
(b) PURCHASER’S SOLE REMEDY FOR BREACH OF THE EXPRESS WARRANTIES
ABOVE SHALL BE REPLACEMENT OR REFUND OF THE PURCHASE PRICE AS SPECIFIED
ABOVE, AT ALVARION’S OPTION. TO THE FULLEST EXTENT ALLOWED BY LAW, THE
WARRANTIES AND REMEDIES SET FORTH IN THIS AGREEMENT ARE EXCLUSIVE AND
IN LIEU OF ALL OTHER WARRANTIES OR CONDITIONS, EXPRESS OR IMPLIED, EITHER
IN FACT OR BY OPERATION OF LAW, STATUTORY OR OTHERWISE, INCLUDING BUT
NOT LIMITED TO WARRANTIES, TERMS OR CONDITIONS OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE, SATISFACTORY QUALITY, CORRESPONDENCE
WITH DESCRIPTION, NON-INFRINGEMENT, AND ACCURACY OF INFORMATION
GENERATED. ALL OF WHICH ARE EXPRESSLY DISCLAIMED. ALVARION’ WARRANTIES
HEREIN RUN ONLY TO PURCHASER, AND ARE NOT EXTENDED TO ANY THIRD
PARTIES. ALVARION NEITHER ASSUMES NOR AUTHORIZES ANY OTHER PERSON TO
ASSUME FOR IT ANY OTHER LIABILITY IN CONNECTION WITH THE SALE,
INSTALLATION, MAINTENANCE OR USE OF ITS PRODUCTS.
BreezeACCESS Version 4.3 System Manual
ii
(c) ALVARION SHALL NOT BE LIABLE UNDER THIS WARRANTY IF ITS TESTING AND
EXAMINATION DISCLOSE THAT THE ALLEGED DEFECT IN THE PRODUCT DOES NOT
EXIST OR WAS CAUSED BY PURCHASER’S OR ANY THIRD PERSON'S MISUSE,
NEGLIGENCE, IMPROPER INSTALLATION OR IMPROPER TESTING, UNAUTHORIZED
ATTEMPTS TO REPAIR, OR ANY OTHER CAUSE BEYOND THE RANGE OF THE
INTENDED USE, OR BY ACCIDENT, FIRE, LIGHTNING OR OTHER HAZARD.
Limitation Of Liability.
(a) ALVARION SHALL NOT BE LIABLE TO THE PURCHASER OR TO ANY THIRD PARTY,
FOR ANY LOSS OF PROFITS, LOSS OF USE, INTERRUPTION OF BUSINESS OR FOR ANY
INDIRECT, SPECIAL, INCIDENTAL, PUNITIVE OR CONSEQUENTIAL DAMAGES OF ANY
KIND, WHETHER ARISING UNDER BREACH OF CONTRACT, TORT (INCLUDING
NEGLIGENCE), STRICT LIABILITY OR OTHERWISE AND WHETHER BASED ON THIS
AGREEMENT OR OTHERWISE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
DAMAGES.
(b) TO THE EXTENT PERMITTED BY APPLICABLE LAW, IN NO EVENT SHALL THE
LIABILITY FOR DAMAGES HEREUNDER OF ALVARION OR ITS EMPLOYEES OR
AGENTS EXCEED THE PURCHASE PRICE PAID FOR THE PRODUCT BY PURCHASER,
NOR SHALL THE AGGREGATE LIABILITY FOR DAMAGES TO ALL PARTIES
REGARDING ANY PRODUCT EXCEED THE PURCHASE PRICE PAID FOR THAT
PRODUCT BY THAT PARTY (EXCEPT IN THE CASE OF A BREACH OF A PARTY’S
CONFIDENTIALITY OBLIGATIONS).
Electronic Emission Notice
This device complies with Part 15 of the FCC rules. Operation is subject to the following two
conditions:
1. This device may not cause harmful interference.
2. This device must accept any interference received, including interference
that may cause undesired operation.
FCC Radio Frequency Interference Statement
This equipment has been tested and found to comply with the limits for a class A digital device,
pursuant to Part 15 of the FCC rules. These limits are designed to provide reasonable protection
against harmful interference when the equipment is operated in a commercial environment. This
equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in
accordance with the instruction manual, may cause harmful interference to radio communications.
Operation of this equipment in a residential area is likely to cause harmful interference in which case
the user will be required to correct the interference at his own expense.
FCC Radiation Hazard Warning
To comply with FCC RF exposure requirements in section 1.1307, a minimum separation distance as
defined in the following table is required between the antenna and all persons:
Product
SU-A/E and AU-A/E
SU-I/I-D and AU-I/I-D
SU-R
Minimum Separation Distance
2 m (79 inches)
20 cm (8 inches)
20 cm (8 inches)
Important Notice
iii
R&TTE Compliance Statement
This equipment complies with the appropriate essential requirements of Article 3 of the R&TTE
Directive 1999/5/EC.
Safety Considerations
For the following safety considerations, “Instrument” means the BreezeACCESS units’ components
and their cables.
Caution
To avoid electrical shock, do not perform any servicing unless you are qualified to do so.
BS-GU Lithium Battery
Caution: Danger of battery explosion if incorrectly replaced or disposed of. Replace only with the
same or equivilant type battery, as recommended by the manufactuer. Dispose of used batterys
according to manufactuer’s instructions.
Line Voltage
Before connecting this instrument to the power line, make sure that the voltage of the power source
matches the requirements of the instrument.
Power Cord
Use only the power cord supplied with the unit.
Radio
The instrument transmits radio energy during normal operation. To avoid possible harmful exposure
to this energy, do not stand or work for extended periods of time in front of its antenna. The long-term
characteristics or the possible physiological effects of Radio Frequency Electromagnetic fields have
not been yet fully investigated.
Outdoor Unit and Antenna Installation and Grounding
Be sure that the outdoor unit, the antenna and the supporting structure are properly installed to
eliminate any physical hazard to either people or property. Verify that the outdoor unit and the
antenna mast (when using external antenna) are grounded so as to provide protection against voltage
surges and static charges. Make sure that the installation of the outdoor unit, antenna and cables is
performed in accordance with all relevant national and local building and safety codes.
BreezeACCESS Version 4.3 System Manual
iv
Important Notice
This user manual is delivered subject to the following conditions and
restrictions:
This manual contains proprietary information belonging to Alvarion
Ltd. Such information is supplied solely for the purpose of assisting
properly authorized users of the respective Alvarion Ltd. products.
No part of its contents may be used for any other purpose, disclosed
to any person or firm or reproduced by any means, electronic and
mechanical, without the express prior written permission of
Alvarion Ltd.
The text and graphics are for the purpose of illustration and
reference only. The specifications on which they are based are
subject to change without notice.
The software described in this document is furnished under a
license. The software may be used or copied only in accordance with
the terms of that license.
Information in this document is subject to change without notice.
Corporate and individual names and data used in examples herein
are fictitious unless otherwise noted.
Alvarion Ltd. reserves the right to alter the equipment specifications
and descriptions in this publication without prior notice. No part of
this publication shall be deemed to be part of any contract or
warranty unless specifically incorporated by reference into such
contract or warranty.
The information contained herein is merely descriptive in nature,
and does not constitute an offer for the sale of the product described
herein.
Any changes or modifications of equipment not expressly approved
by Alvarion Ltd. could void the user’s authority to operate the
equipment.
Some of the equipment provided by Alvarion and specified in this
manual, is manufactured and warranted by third parties. All such
equipment must be installed and handled in full compliance with the
instructions provided by such manufacturers as attached to this
manual or provided thereafter by Alvarion or the manufacturers. Noncompliance with such instructions may result in serious damage and/
or bodily harm and/or void the user’s authority to operate the
equipment and/or revoke the warranty provided by such manufacturer
Table of Contents
Table of Contents
System Manual Book 1:
System Description
Introduction ............................................................. 1-1
Introducing BreezeACCESS ..................................................... 1-2
System Components ................................................ 2-1
Subscriber Units (Customer Premises Equipment) ............... 2-2
SU-A/E Units with an Outdoor Radio Unit and Antenna .... 2-2
SU-I/I-D Miniature Indoor Units .......................................... 2-4
SU-R High-Power Indoor Units .......................................... 2-6
Base Station Equipment ........................................................... 2-6
Modular Base Station Equipment ...................................... 2-7
AU-A/E-NI Standalone “Micro-Cell” Access Unit ............. 2-10
AU-I/I-D Miniature Indoor Units ........................................ 2-11
Networking Equipment ........................................................... 2-12
Management Systems ............................................................. 2-12
BreezeMANAGE .............................................................. 2-13
BreezeCONFIG ................................................................ 2-14
Specifications .......................................................... 3-1
System Specifications .............................................................. 3-2
BreezeACCESS II Radio Regulatory Standards ................ 3-3
Data Communication ......................................................... 3-3
Voice/Fax (Subscriber Units with voice support) ............... 3-4
Telephony (Subscriber Units with voice support) ............... 3-4
IF Indoor – Outdoor Communication .................................. 3-4
(SU-A/E, AU-A/E-NI, AU-A/E-BS) ...................................... 3-4
Configuration and Management ......................................... 3-5
GU-RA GPS Radio ............................................................ 3-5
GU-RA to BS-GU Communication ..................................... 3-5
Environmental .................................................................... 3-6
Standards Compliance, General ........................................ 3-6
Physical Specifications ............................................................ 3-7
SU-A/E Subscriber Unit ..................................................... 3-7
AU-A/E-NI Stand-Alone Access Unit ................................. 3-8
Modular Base Station Equipment ...................................... 3-9
Manual Revision 3.0
BreezeACCESS 4.3 System Manual
ii
SU-I/I-D ............................................................................ 3-11
AU-I/I-D ............................................................................ 3-12
SU-R Subscriber Units ..................................................... 3-13
System Manual Book 2:
Installation
IF-Based Equipment ................................................ 1-1
Modular Base Station Equipment ...................................... 1-2
Standalone AU-A/E-NI Access Unit ................................... 1-3
Other Items Required for Installation ................................. 1-3
Guidelines for Selection of Equipment Locations ................. 1-5
AU-RA and AU-RE ............................................................. 1-5
SU-RA and SU-RE ............................................................. 1-5
IF Cable ............................................................................. 1-6
Indoor Equipment ............................................................... 1-6
Installing the Outdoor Unit ....................................................... 1-7
The Outdoor Unit Bottom Panel ......................................... 1-7
Pole Mounting the Outdoor Unit ......................................... 1-9
Connecting the Antenna Cable (SU-RE and AU-RE) ...... 1-12
Installing the SU-NI and AU-NI Indoor Unit ........................... 1-13
Installing the SU-NI/AU-NI Unit ........................................ 1-14
Installing Modular Base Station Equipment ......................... 1-15
BS-SH Slot Assignments ................................................. 1-15
The BS-PS ....................................................................... 1-16
The BS-PS-AC ................................................................. 1-17
The BS-AU ....................................................................... 1-18
BS-SH Chassis and Modules Installation Procedure ....... 1-19
Installing the GU-A-BS GPS and Alarms System ................. 1-21
BS-GU Front Panel .......................................................... 1-21
Installing the GU-RA GPS Antenna ................................. 1-23
Installing the BS-GU module ............................................ 1-24
Daisy-chaining Two or More BS-GU Modules ................. 1-24
Indoor SU-R Units .................................................... 2-1
Packing Lists ............................................................................. 2-2
SU-R Subscriber Unit ......................................................... 2-2
Other Items Required for Installation ................................. 2-2
Installation Guidelines .............................................................. 2-3
Location of the Unit ............................................................ 2-3
Table of Contents
Location of the Antenna(s) ................................................. 2-3
Antenna Diversity ............................................................... 2-4
Antenna Polarization .......................................................... 2-4
Antenna Seal ..................................................................... 2-4
Lightning Protection ........................................................... 2-4
Installing SU-R Indoor Units ..................................................... 2-5
Wall Mounting the Unit ....................................................... 2-5
Connecting the Omni Antennas ......................................... 2-6
Connecting a Detached Antenna ....................................... 2-6
Connecting the Unit to the Power Supply and to the CPE . 2-6
Indoor SU-I and AU-I Units ...................................... 3-1
Packing Lists ............................................................................. 3-2
SU-I/I-D Subscriber Unit ................................................... 3-2
AU-I/I-D Access Unit .......................................................... 3-2
Other Items Required for Installation ................................. 3-2
Installation Guidelines .............................................................. 3-4
Location of the Unit ............................................................ 3-4
Location of the Antenna(s) ................................................. 3-4
Antenna Diversity ............................................................... 3-4
Antenna Polarization .......................................................... 3-5
Antenna Seal ..................................................................... 3-5
Lightning Protection ........................................................... 3-5
Installing SU-I/I-D and AU-I/I-D Units ....................................... 3-7
Connectors and LEDs ........................................................ 3-7
Wall Mounting the Unit ....................................................... 3-9
Connecting Antenna(s) to the Units ................................. 3-11
Connecting the Unit to the Power
Supply and to the CPE
3-11
Manual Revision 3.0
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BreezeACCESS 4.3 System Manual
iv
System Manual Book 3:
Commissioning
Setting Basic Parameters ....................................... 1-1
Accessing the Monitor Program .............................................. 1-2
Accessing the Monitor Program using
the RS 232 MON Connector .............................................. 1-2
Accessing the Monitor Program using Telnet .................... 1-3
Operating the Monitor Program ......................................... 1-4
Configuring Basic Parameters in Access
and Subscriber Units ............................................................... 1-5
Configuring Parameters in GU-A-BS Units ............................. 1-6
Introduction ........................................................................ 1-6
Optimizing the Wireless Link .................................. 2-1
Configuring the Maximum Data Rate (Subscriber Units) ... 2-2
Aligning the Antenna of the SU-A/E Subscriber Unit ............ 2-3
Configuring the Transmit Power of the AU-RE ...................... 2-4
Positioning the SU-I or SU-R Subscriber Unit
with Omni Antennas for Optimal Operation ........................... 2-5
Aligning the External Antenna of SU-R and SU-I-D Units ..... 2-6
BS-GU Connectors ................................................... 3-1
Connecting External Devices to the BS-GU AL IN
and/or AL OUT Connectors ...................................................... 3-2
Alarms In Cable ................................................................. 3-2
Alarms Out Cable ............................................................... 3-3
GPS Cable ......................................................................... 3-3
SYNC Cable ....................................................................... 3-5
Verifying Proper Operation ...................................... 4-1
Verifying Connectivity .............................................................. 4-2
Verifying the Ethernet Connection ..................................... 4-2
Verifying Data Connectivity (Subscriber Unit) .................... 4-2
Verifying Telephone Connectivity
(Subscriber Units with Voice support) ............................... 4-2
Verifying Proper Operation of the GU-A-BS GPS Unit ...... 4-3
LED Indicators ........................................................................... 4-4
SU-RA/RE Outdoor Units LEDs ......................................... 4-4
AU-RA/RE Outdoor Units LEDs ......................................... 4-4
SU-NI and AU-NI Indoor Units LEDs ................................. 4-5
Table of Contents
BS-PS DC Power Supply Module LEDs ............................ 4-5
BS-PS-AC AC Power Supply Module LEDs ...................... 4-5
BS-AU LEDs ...................................................................... 4-6
BS-GU LEDs ...................................................................... 4-6
SU-R LEDs ........................................................................ 4-7
SU-I/SU-I-D LEDs .............................................................. 4-7
AU-I/AU-I-D LEDs .............................................................. 4-8
System Manual Book 4:
Operations and Administration
Accessing the Monitor Program .............................. 1-1
Accessing the Monitor Program using
the RS 232 MON Connector ...................................................... 1-2
Accessing the Monitor Program using Telnet ........................ 1-3
Operating the Monitor Program ............................................... 1-4
Menus and Parameters ............................................ 2-1
Main Menu .................................................................................. 2-2
Info Screens Menu .................................................................... 2-3
Show Unit Status ............................................................... 2-3
Show Basic Parameters ..................................................... 2-5
Show Advanced Parameters ............................................. 2-5
Show All Parameters ......................................................... 2-5
Unit Control Menu ..................................................................... 2-6
Basic Configuration Menu ...................................................... 2-13
Site Survey Menu .................................................................... 2-15
Traffic Statistics (AU and SU) .......................................... 2-15
Voice Statistics (SU with Voice Support Only) ................. 2-18
Per Hop Statistics (AU and SU) ....................................... 2-18
Ping Test (AU, SU and GU) ............................................. 2-19
Continuous Link Quality Display (Available in SU Only) .. 2-20
MAC Address Database (Available in AU Only) .............. 2-20
Per-rate Counters (AU and SU) ....................................... 2-23
RSSI Display Option (AU and SU) ................................... 2-23
ATPC Counter (AU and SU) ............................................ 2-23
AU Alarms (IF-based AU Only) ........................................ 2-24
Advanced Configuration Menu .............................................. 2-36
IP Parameters (AU, SU and GU) ..................................... 2-36
Air Interface Parameters (AU and SU) ............................. 2-37
Manual Revision 3.0
BreezeACCESS 4.3 System Manual
vi
Network Management Parameters (AU, SU and GU) ..... 2-53
Bridge Parameters (AU, SU and GU) .............................. 2-56
Performance Parameters (AU and SU) ........................... 2-69
Service Parameters (AU and SU) .................................... 2-73
RADIUS Parameters Menu (Subscriber Units only) ....... 2-77
Security Parameters (AU and SU) ................................... 2-81
Voice Parameters (Subscriber Units
with Voice Support Only) ................................................ 2-83
Dialing Parameters (Subscriber Units
with Voice Support Only) ................................................ 2-84
Telephony Signals (Subscriber Units
with Voice Support Only) ................................................. 2-91
Hopping Parameters (GU) ............................................... 2-97
Alarm Parameters (GU) ................................................... 2-99
System Manual: Appendices
Appendix A: ..............................................................A-1
Configuration Download/Upload ..............................A-1
Appendix B: Software Version Loading Procedure B-1
General ...................................................................................... B-1
Loading an Upgrade to a Unit with FLASH Type: F .............. B-2
Loading an Upgrade to a Unit with FLASH Type: S .............. B-4
Appendix C: Supported MIBs and Traps .................C-1
BreezeACCESS System Object Identifiers ............................ C-2
brzAccessMIB ........................................................................... C-3
Service Parameters .......................................................... C-3
RADIUS General Parameters ........................................... C-4
Accounting Parameters ..................................................... C-4
RADIUS Authentication Parameters ................................. C-5
User Filtering Parameters ................................................. C-5
Network Management Parameters ................................... C-7
Bridge Parameters ............................................................ C-9
Air Interface Parameters ................................................. C-11
Performance Parameters ................................................ C-22
Site Survey Parameters .................................................. C-24
Special Operations Parameters ...................................... C-33
Unit Control Parameters ................................................. C-34
Table of Contents
IP Parameters ................................................................. C-36
System Information Parameters ..................................... C-36
Alarms Parameters ......................................................... C-38
brzPhoneMIB (applicable to SU with voice only) ................ C-39
Dialing Parameters ......................................................... C-39
Voice Parameters ........................................................... C-42
Telephony Signals .......................................................... C-43
General Info MIB ............................................................. C-44
Supported Traps ..................................................................... C-44
Trap Associated Parameters .......................................... C-44
Traps ............................................................................... C-46
Appendix D: RSSI to dBm Conversion Table ...........D-1
SU-A/E, AU-A/E ......................................................................... D-1
SU-R and SU-I ........................................................................... D-2
Appendix E: Parameters List ...................................E-1
Unit Control Parameters .......................................................... E-1
Site Survey Parameters ........................................................... E-2
IP Parameters ........................................................................... E-3
Air Interface Parameters .......................................................... E-4
Network Management Parameters .......................................... E-7
Bridge Parameters ................................................................... E-9
Performance Parameters ....................................................... E-11
Service Parameters ................................................................ E-12
RADIUS Parameters ............................................................... E-13
Security Parameters ............................................................... E-13
Voice Parameters ................................................................... E-14
Dialing Parameters ................................................................. E-15
Telephony Signals .................................................................. E-17
Hopping Parameters .............................................................. E-19
Alarm Parameters ................................................................... E-19
Appendix F: Hopping Sequences ............................ F-1
Hopping Standard: Australia ..............................................F-1
Hopping Standards: Canada, Mexico ................................F-3
Hopping Standards: Europe ETSI, US FCC, International F-4
Hopping Standards: France ...............................................F-6
Hopping Standards: Israel .................................................F-7
Hopping Standards: Japan ................................................F-8
Hopping Standards: Korea ...............................................F-10
Hopping Standards: Spain ...............................................F-12
Manual Revision 3.0
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viii
BreezeACCESS 4.3 System Manual
BreezeACCESS II
Version 4.3
Revision 3.0
System Manual Book 1:
System Description
System Description
Table of Contents
Introduction .............................................................1-1
Introducing BreezeACCESS .....................................................1-2
System Components ................................................2-1
Subscriber Units (Customer Premises Equipment) ...............2-2
SU-A/E Units with an Outdoor Radio Unit and Antenna .....2-2
SU-I/I-D Miniature Indoor Units ..........................................2-4
SU-R High-Power Indoor Units ..........................................2-6
Base Station Equipment ...........................................................2-6
Modular Base Station Equipment .......................................2-7
AU-A/E-NI Standalone “Micro-Cell” Access Unit ..............2-10
AU-I/I-D Miniature Indoor Units ........................................2-11
Networking Equipment ............................................................2-12
Management Systems .............................................................2-12
BreezeMANAGE ..............................................................2-13
BreezeCONFIG ................................................................2-14
Specifications ..........................................................3-1
System Specifications ...............................................................3-2
BreezeACCESS II Radio Regulatory Standards ................3-3
Data Communication ..........................................................3-3
Voice/Fax (Subscriber Units with voice support) ................3-4
Telephony (Subscriber Units with voice support) ...............3-4
IF Indoor – Outdoor Communication ..................................3-4
(SU-A/E, AU-A/E-NI, AU-A/E-BS) ......................................3-4
Configuration and Management .........................................3-5
GU-RA GPS Radio .............................................................3-5
GU-RA to BS-GU Communication .....................................3-5
Environmental ....................................................................3-6
Standards Compliance, General ........................................3-6
Physical Specifications .............................................................3-7
SU-A/E Subscriber Unit ......................................................3-7
AU-A/E-NI Stand-Alone Access Unit ..................................3-8
Modular Base Station Equipment .......................................3-9
SU-I/I-D ............................................................................3-11
AU-I/I-D ............................................................................3-12
ii
BreezeACCESS Version 4.3 System Description
SU-R Subscriber Units ..................................................... 3-13
Chapter 1
Introduction
About This Chapter
This chapter introduces the BreezeACCESS system, its components and
its functions.
BreezeACCESS Version 4.3 System Description
1-2
Introducing BreezeACCESS
BreezeACCESS IP Broadband Wireless Access system is an IP based
access system that supports wireless data and voice services, employing
wireless packet-switched data technology to support high-speed IP
services, including fast access to the Internet and Virtual Private
Networks.
BreezeACCESS users are provided with a network connection that is
always on, supporting access to the Internet and other IP services at
data rates of up to 3 Mbps. BreezeACCESS can also support high
quality telephony using the ITU-T H.323 industry standard for Voice
over IP communications. The system is designed for cellular-like
deployment, allowing systems of various sizes and structures to be
constructed. A system may include any number of cells, each
containing several Access Units, to better cover densely populated
areas.
The BreezeACCESS system allows the Maximum (data burst)
Information Rate (MIR) and Committed Information Rate (CIR) for both
uplink and downlink to be defined separately for each subscriber.
This enables a variety of Class of Service (CoS) packages, bandwidth
allocations and traffic-shaping schemes. In addition, the system
supports Virtual LANs based on IEEE 802.1Q, enabling secure
operation and Virtual Private Network (VPN) services as well as allowing
tele-workers or remote offices to conveniently access their enterprise
networks. The system also supports Layer 2 traffic prioritization
according to IEEE 802.1p and ToS based Layer 3 traffic prioritization
according to RFC791.
BreezeACCESS II operates in the 2.4 GHzTime Division Duplex (TDD)
mode. It employs wireless packet data switching technology, utilizing
Frequency Hopping Spread Spectrum (FH-SS) radios.
A BreezeACCESS-based system consists of the following:
Customer Premise Equipment (CPE) – BreezeACCESS Subscriber
Units.
Base Station Equipment (BSE) – BreezeACCESS Access Units and
supporting equipment.
Networking Equipment – Standard Routers and/or
Gateways/Gatekeepers supporting connections to the Internet
and/or the PSTN or private telephony network.
Management Systems – SNMP based Management, Billing and
Customer Care, and other Operations Support Systems.
Manual Revision: 3.0
Chapter 2
System
Components
About This Chapter
This chapter describes BreezeACCESS system components. It includes
the following sections:
Subscriber Units (Customer Premises Equipment)‚ page 2-2,
describes BreezeACCESS equipment installed at the customer’s
premises.
Base Station Equipment‚ page 2-6, describes the equipment used
in BreezeACCESS Base Stations.
Networking Equipment‚ page 2-12, describes how BreezeACCESS
Base Station units are connected to one another and to other
equipment in a network environment.
Management Systems‚ page 2-12, introduces the management
features built into the BreezeACCESS system and describes the use
of various standard and proprietary management systems.
BreezeACCESS Version 4.3 System Description
2-2
Subscriber Units (Customer
Premises Equipment)
The BreezeACCESS Subscriber Unit (SU) installed at the customer
premises provides data only or data and telephone connections. The
data connection is a standard IEEE 802.3 Ethernet 10BaseT (RJ 45)
interface while the voice connection (in units that support voice) is a
standard RJ 11 Plain Old Telephone (POTS) interface.
The Subscriber Unit provides an efficient platform for high rate Internet
and Intranet services, providing subscribers with fast access to IP based
services at a burst data rate of up to 3 Mbps. The use of packet
switching technology provides the user with a connection to the network
that is practically always on, allowing for immediate access to services.
There are 3 lines of Subscriber Units with different architectures:
SU-A/E units with an outdoor radio unit
SU-I miniature indoor units
SU-R high-power, small-footprint indoor units.
SU-A/E Units with an Outdoor Radio
Unit and Antenna
SU-A and SU-E series Subscriber Units are comprised of an indoor unit
(SU-NI) and an outdoor unit.
In the SU-A series, the outdoor unit (SU-RA) contains the radio
module and an integral flat antenna.
In the SU-E series, the outdoor unit (SU-RE) contains the radio
module and an RF connector for an external antenna.
The indoor SU-NI unit connects to the user’s equipment and is powered
from the mains via its SU-PS power supply unit. The SU-NI is connected
to the outdoor unit via a 50-ohm coaxial Intermediate Frequency (IF)
cable. This cable carries 440 MHz IF signals between the indoor and the
outdoor units and also serves for transferring power (12 VDC),
management and control signals from the indoor unit to the outdoor
unit.
Manual Revision: 3.0
System Components
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Figure 2-1: BreezeACCESS SU-A/E Outdoor and Indoor Units
BreezeACCESS II SU-A/E units are available with several different
levels of output power at the antenna port:
26 dBm (HP)
15 dBm (GP)
7 dBm (MP)
4 dBm (LP)
The following products are available:
Data-only Units:
SU-X-1D-2.4-YP
The unit supports one Ethernet device.
SU-X-BD-2.4-YP
The unit provides bridge functionality and can
support up to a full LAN.
Data and Voice Units:
SU-X-1D1V-2.4-YP
The unit supports one Ethernet device and has
an interface to a standard analog telephone set
(POTS).
SU-X-BD1V-2.4-YP
The unit provides bridge functionality and
can support a full LAN. It also has an
interface for a standard analog telephone
(POTS).
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X=A: The outdoor radio unit includes an integral high gain flat antenna
X=E: The outdoor radio unit has a connector for an external antenna.
Y=H: HP model. The maximum output power at the antenna port is 26
dBm
Y=G: GP model. The maximum output power at the antenna port is 15
dBm
Y=M: MP model. The maximum output power at the antenna port is 7
dBm
Y=L: LP model. The maximum output power at the antenna port is 4
dBm
SU-I/I-D Miniature Indoor Units
The SU-I/I-D line includes miniature units that are designed for indoor
desktop or wall-mount installations.
Figure 2-2: BreezeACCESS SU-I Unit
The SU-I products include two integral 2dBi omni antennas.
The SU-I-D products have two RF connectors for connecting to one
or two detached antennas.
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System Components
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The following types of units are available:
Data-only Units:
SU-X-1D-2.4
The unit supports one Ethernet device
SU-X-BD-2.4
The unit provides bridge functionality and can
support up to a full LAN
Data and Voice Units:
SU-X-1D1V-2.4
The unit supports one Ethernet device and has
an interface to a standard analog telephone set
(POTS).
SU-X-BD1V-
The unit provides bridge functionality and can
support a full LAN. It also has an interface for
a standard analog telephone (POTS).
X=I: The unit is supplied with two integral 2 dBi omni antennas
X=I-D: The unit is supplied with two connectors for detached antenna(s)
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SU-R High-Power Indoor Units
The SU-R line includes small-footprint, high-power units that are
designed for indoor desktop or wall-mount installations.
SU-R units are available with three different antenna configurations:
Two clip-on omni antennas.
A wall mountable antenna.
An outdoor high-gain antenna.
Figure 2-3: BreezeACCESS SU-R Unit
The following types of units are available:
Data-only Units:
SU-R-1D
The unit supports one Ethernet device.
SU-R-BD
The unit provides bridge functionality and can
support up to a full LAN.
Data and Voice Units:
SU-R-1D1V
The unit supports one Ethernet device and has
an interface to a standard analog telephone set
(POTS).
Base Station Equipment
The BreezeACCESS Access Units (AU) installed at the base station site
provide all the functionality necessary to communicate with the remote
Subscriber Units as well as to connect to the backbone of the service
provider. Each AU connects to the network through a standard IEEE
802.3 Ethernet 10BaseT (RJ 45) interface.
There are 3 lines of Access Units with different architectures:
Modular Base Station Equipment
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System Components
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Standalone “Micro-Cell” Access Unit
AU-I/I-D miniature indoor units
Modular Base Station Equipment
The Base Station equipment is based on the BS-SH 3U chassis, which is
suitable for installation in 19” racks. The chassis contains one or two
power supply modules, up to six active Access Unit Network Interface
(BS-AU) modules and an optional BS-GU GPS and Alarms module.
Two different types of power supply modules are available: the BS-PS
which is powered from a –48 VDC power source, and the BS-PS-AC,
powered from the 110/230 VAC mains. The optional use of two power
supply modules is for fail-safe operation through power supply
redundancy.
Each BS-AU module, together with its outdoor radio unit comprises an
AU-A/E-BS Access Unit that serves a single sector.
In the AU-A-BS series, the AU-RA outdoor unit contains a radio unit
and an integral antenna.
In the AU-E-BS series, the AU-RE outdoor unit contains the radio
module and a RF connector for a separate external antenna.
The BS-AU modules connect to the network through standard IEEE
802.3 Ethernet 10BaseT (RJ 45) interfaces. A coaxial Intermediate
Frequency (IF) cable connects the indoor module to the outdoor unit.
This cable carries 440 MHz IF signals, power (12 VDC) and management
and control signals from the indoor unit to the outdoor unit.
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Figure 2-4: BreezeACCESS Base Station Module and Outdoor Units
BreezeACCESS II AU-A/E-BS units are available with several different
levels of maximum output power at the antenna port:
26dBm (HP)
15dBm (GP)
7dBm (MP)
2dBm (LP)
GU-A-BS GPS and Alarms System
The optional GU-A-BS system can be used to synchronize the frequency
hopping mechanisms of collocated AU-A/E-BS BreezeACCESS units
(where such synchronization is permitted by local regulations) as well as
to provide alarm management.
The GU-A-BS system is comprised of two units:
An outdoor GPS Receiver and Antenna unit, the GU-RA.
An indoor GPS and Alarms module, the BS-GU.
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System Components
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Figure 2-5: BreezeACCESS GU-A-BS System Components
The BreezeACCESS BS-GU module is designed to be inserted into the
BS-SH 19” base station chassis to provide hopping synchronization
signals to the BS-AU Access Unit modules. The card uses timing signals
derived from signals received from the GU-RA GPS antenna. These
signals, generated by the GPS global satellites network, allow accurate
synchronization of systems located in different locations. Any number of
base stations can be synchronized, guaranteeing that all AUs (Access
Units) hop in unison from frequency to frequency. In addition, the GPS
signal insures that all units begin their pre-defined hopping sequence at
the same time.
The BS-GU module is connected to the GU-RA GPS antenna via a cable
that carries power from the module to the antenna, timing signals from
the antenna to the module and management signals between the two
units.
The BS-GU also provides synchronization signals to other BS-GU
modules by daisy-chaining any number of modules, using a single
GU-RA GPS antenna to synchronize multiple AUs in several collocated
BS-SH chassis.
When a GU-RA GPS antenna is not connected to the module (or if the
connected GPS antenna is not functioning properly), the BS-GU module
provides self-generated synchronization signals to all AUs.
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Daisy-chained BS-GU modules use the synchronization signals
generated by the first module in the chain (the Master module.
The BS-GU module also supports the management of alarm inputs and
outputs. The module receives Alarms In indications from other
BreezeACCESS modules in the base station shelf (internal alarms) and
external alarms from other devices via the AL IN connector. Alarms Out
management allows activation of external devices upon occurrence of
user-defined events, using relays via the AL OUT connector.
AU-A/E-NI Standalone “Micro-Cell”
Access Unit
The AU-A/E-NI line includes standalone Access Units that are very
similar to the AU-A/E-BS units, the only difference being that the
indoor unit, the AU-NI, is a standalone desktop or wall-mountable unit
rather than a 19” module.
Figure 2-6: BreezeACCESS AU-NI Unit
The AU-RA/RE outdoor units are identical to those of the AU-A/E-BS
line. The AU-NI indoor unit is powered from the mains (100-250 VAC)
through an external power transformer and connects to the network
through a standard IEEE 802.3 Ethernet 10BaseT (RJ 45) interface. A
coaxial Intermediate Frequency (IF) cable connects between the AU-NI
indoor unit and the outdoor unit. This cable carries 440 MHz IF signals,
power (12 VDC) and management and control signals from the indoor
unit to the outdoor unit.
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AU-I/I-D Miniature Indoor Units
The AU-I/I-D line includes miniature units that are designed for indoor
desktop or wall-mount installations and comprise a single unit that is
powered from the mains (100-250 VAC).
The AU-I products include two integral 2 dBi omni antennas.
The AU-I-D products have two RF connectors for detached diversity
antennas.
Figure 2-7: BreezeACCESS AU-I-D Unit
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Networking Equipment
The base station equipment is connected to the backbone through
standard data communication and telecommunication equipment. For
improved security, the 10BaseT ports of the AU modules are connected
directly to a multi-port router. This router is connected by any means of
point-to-point link to the backbone. In cases where security is less
important and cost is the main concern, the Access Units can be
connected to an Ethernet switch and then to a single port router.
The point-to-point link from the base station to the backbone may be
wired or wireless links. The data to the Internet is routed to the Internet
backbone through standard routers. The voice traffic is routed via
standard Gateways/Gatekeepers to the PSTN.
Management Systems
The end-to-end IP based architecture of the system allows full
management of all components from any point in the system.
BreezeACCESS components can be managed using standard
management tools through SNMP (Simple Network Management
Protocol) agents that implement standard and proprietary MIBs for
remote setting of operational modes and parameters. The same SNMP
management tools can also be used for management of other system
components including Switches, Routers, Gateways/Gatekeepers and
transmission equipment.
The Ethernet WAN can also be used to connect to other Operation
Support Systems including servers, Customer Care systems and AAA
(Authentication, Authorization and Admission) tools.
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BreezeMANAGE
Alvarion’s SNMP-based BreezeMANAGE network management
application provides a powerful tool for configuring, controlling,
monitoring and effectively managing BreezeACCESS networks from a
single, central network management station. BreezeMANAGE, together
with the powerful tools available through its use under leading network
management platforms, provides numerous benefits to operators of
BreezeACCESS networks.
BreezeMANAGE system requirements are:
BreezeMANAGE for SNMPc: Castle Rock Computing SNMPc
version 5.0.7d or higher (excluding 5.0.8), running under Windows
98/2000/NT.
BreezeMANAGE for HP-OV under UNIX: HP OpenView version
5.0.1 or higher running on a UNIX machine under Solaris Version
2.5 or higher.
BreezeMANAGE for HP-OV under NT: HP OpenView version 5.0.1
or higher running on a PC under Windows NT version 4.0 or higher
with service pack 5.
Client: Any system supported by the network management platform
such as HP-UX Xterm (HP-OV) or Windows 95/98/2000/NT.
Database: Any database supported by the network management
platform such as Oracle, Sybase, Informix or Ingress.
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BreezeCONFIG
The BreezeCONFIG ACCESS configuration utility can also be used to
manage BreezeACCESS system components. It is an SNMP-based
application that provides a consistent view of the network and
the system administrator can use it to control a large number of units
from a single location.
BreezeCONFIG has the following system requirements:
Windows 95/98/NT/2000/ME/XP
128 MB RAM recommended, 64 MB Minimum
Some of the features BreezeCONFIG supports are:
Verifying units’ status and current configuration
Changing the configuration of a selected unit
Simultaneously changing the configuration of multiple units
Viewing traffic statistics and performance data
Monitoring traps
Performing firmware upgrade to a single or multiple units
NOTES:
The BreezeCONFIG utility can be downloaded from the Alvarion Web site:
www.alvarion.com.
Manual Revision: 3.0
Chapter 3
Specifications
About This Chapter
This chapter lists the technical specifications of BreezeACCESS and
includes the following sections:
System Specifications‚ page 3-2, outlines the technical
specifications of the BreezeACCESS system.
Physical Specifications‚ page 3-7, lists the physical and electical
specifications for different types of BreezeACCESS units.
BreezeACCESS Version 4.3 System Description
3-2
System Specifications
Radio and Modem
Parameter
Value
Frequency
2.400-2.500 GHz (according to country standard)
Operation Mode
Time Division Duplex
Radio Access Method
FH-CDMA
Standard Compliance
FCC Part 15.247, ETS 300 328
Channel Bandwidth
1 MHz
Central Frequency
Resolution
1 MHz
Antenna
SU-RA
16 dBi, 20o horizontal x 20 o vertical, vertical
polarization, EN 301 525, Class TS 2 compliant
AU-RA
16 dBi, 60o horizontal x 10o vertical, vertical
polarization, EN 302 085 V1.1.1 Class CS3
compliant
SU-RE, AU-RE
N-Type connector, 50 ohm
SU-I, AU-I
2 integral 2 dBi omni antennas
SU-I-D, AU-I-D
2 50 ohm SMA connectors
SU-R
2 proprietary connectors, 50 ohm
SU-A/E, AU-A/E
2dBm typical (LP model)
7dBm typical (MP model)
15dBm typical (GP model)
26dBm typical (HP model)
Output control range: 20dB typical
SU-I/I-D,
AU-I/I-D
17 dBm (H) or 10 dBm (L),
software configurable.
SU-R
27 dBm typical
Output Power
(at antenna port)
Maximum Input Power
(at antenna port)
-20 dBm
Gross Bit Rate
1, 2, 3 Mbps
Receive Nominal
Sensitivity
(at antenna port,
BER 10E-6)
1 Mbps
2 Mbps
3 Mbps
SU-A/E, AU-A/E
-87 dBm
-81 dBm
-73 dBm
SU-I/I-D,
AU-I/I-D
-81 dBm
-74 dBm
-67 dBm
SU-R
-84 dBm
-77 dBm
-68 dBm
Modulation
GFSK modulation, with 2, 4, 8 modulation states (1, 2, 3 bits / symbol).
Symbol rate
1 Msymbol/sec.
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Specifications
3-3
BreezeACCESS II Radio Regulatory
Standards
The systems support different “country standards” for compliance with
the applicable local radio regulations.
The country standards are configured at the factory. The country
standards determine the following:
a: Hopping frequency band and hopping sequences
b: Support of synchronization among Access Units (AU-A/E-BS units).
In some countries such synchronization is not permitted.
The following table provides a summary of the supported country
standards:
Channels’
Frequency Range
[MHz]
Number of
Channels
Australia
2402 to 2461
60
20
Not Available
Canada
2452 to 2481
30
10
Not Available
Europe ETSI
2402 to 2480
79
26
Yes
France
2448 to 2482
35
11
Yes
Israel
2421 to 2452
35
11
Yes
Korea
2430 to 2454
23
Yes
Japan
2473 to 2495
23
Yes
Netherlands
2454 to 2468
15
Yes
US FCC
2402 to 2480
79
26
Not Available
Spain
2447 to 2473
27
yes
Mexico
2452 to 2481
30
10
Yes
International
2402 to 2480
79
26
Yes
Country
Standard
Hopping
Sequences per
Hopping Set
Hopping Sync
Support
Data Communication
Parameter
Value
Standard Compliance
IEEE 802.3 CSMA/CD
VLAN support
Based on IEEE 802.1Q
Layer-2 Traffic Prioritization
Based on IEEE 802.1p
Layer-3 Traffic Prioritization
ToS according to RFC791
MIR (Maximum Information Rate)
and CIR (Committed Information
Rate)
Programmable for each user, separately for uplink and
downlink. Range: 0 – 2200 Kbps, 1 Kbps resolution.
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Voice/Fax (Subscriber Units with
voice support)
Parameter
Value
Standard Compliance
ITU-T H.323 Ver. 2 VoIP standard
Compression
G.711 (A-Law and µ-Law) - 64 Kbps (transparent)
G.723.1 - 6.3 Kbps
G.729 - 8 Kbps (G.729, G.729 with Annex A and/or Annex B)
Silence Compression
G.723.1 - Voice Activity Detection (VAD), G.729 - Annex B
Echo Cancellation
ITU-T G.168 and G.131
Fax Transmission
According to T.38 Protocol
Telephony (Subscriber Units with
voice support)
Parameter
Value
Call Progress Tones
Selectable per country standard or user definable
Line Type
Loop Start
On-hook Voltage
-48 V
Ringer Voltage
Min. 50 V r.m.s. unbalanced
Ringer Frequency
Selectable: 17, 20, 25, 50 Hz
REN
Max. 2
Off-hook DC current
30mA
Off-hook impedance
600 ohm or complex
Maximum input level
+3 dBm
Cable length
Max. 300 m, 26 AWG
IF Indoor – Outdoor Communication
(SU-A/E, AU-A/E-NI, AU-A/E-BS)
Parameter
Value
IF Frequency
440 MHz
IF Cable Impedance
50 ohm
Maximum IF Cable Attenuation
15 dB
Maximum IF Cable DC Resistance 1.5 ohm
Manual Revision: 3.0
Specifications
3-5
Configuration and Management
Parameter
Value
Management Options
a. Via the MON port, using terminal emulation with the built-in
monitor program
b. Telnet, using the monitor program
c. TFTP, using the Configuration upload/download utility
d. SNMP
Remote Management Access From Wired LAN, Wireless Link
Management Access
Protection
a. Multilevel password
b. Configuration of remote access direction (from Ethernet only,
from wireless link only or from both sides)
c. Configuration of IP addresses of authorized stations
SNMP Agents
SNMP ver 1 client.
MIB II, Bridge MIB, Private BreezeACCESS MIB
Security
a. Association protocol – ESSID
b. RC4 WEP option (encryption of the authentication process)
c. VLAN according to IEEE 802.1Q
d. IP level filtering for user addresses or protocols
e. Access direction and IP address filtering for management
Authentication and
Accounting
RADIUS client in the SU according to RFC 2865 and 2866
Allocation of IP Parameters
Configurable or automatic (DHCP client)
Software Upgrade
Via TFTP
GU-RA GPS Radio
Parameter
Value
General
L1 frequency, C/A code (SPS) continuous tracking receiver
Update Rate
1 Hz
GU-RA to BS-GU Communication
Parameter
Value
Physical interface
RS 422
Cable Type
EIA RS 422 3 x 2 x 26AWG + 1 x 2 x 24 AWG FTP Shielded.
3 x 26 AWG twisted pairs for RS 422 communication and 1x 24 AWG
pair for power supply
Cable Impedance
100 +/- 15 ohm @ 1 MHz (RS 422 pairs)
DC Resistance
RS 422 pairs: 145 ohm/km
Power supply pair: 94 ohm/km
Maximum Cable Length
120 meters
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BreezeACCESS Version 4.3 System Description
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Environmental
Parameter
Unit
Value
Operating
Temperature
Outdoor Units
-400C to 550C (GU-RA: -400C to 850C)
Indoor equipment
00C to 400C
Operating Humidity
Outdoor Units
5%-95% non-condensing, weather protected
Indoor equipment
5%-95% non-condensing
Standards Compliance, General
Type
Standard
EMC
FCC part 15.247, EN 300 826
Safety
UL 1950, EN 60950
Environmental
ETS 300 019 part 2-3 class 3.2E for indoor units
ETS 300 019 part 2-4 class 4.1E for outdoor units
Radio
FCC part 15.247, ETSI ETS 300 328
Manual Revision: 3.0
Specifications
3-7
Physical Specifications
SU-A/E Subscriber Unit
Connectors
Unit
Connector
SU-NI
SU-RE
SU-RA
Description
IF
TNC jack, 50 ohm, lightning protected
ETH
10BaseT Ethernet (RJ 45) with 2 embedded LEDs.
Cable connection to a PC: SU-A/E-1D/1D1V – straight
SU-A/E-BD/BD1V - crossed
TEL (units with
voice support)
RJ 11 jack (POTS)
DC-12 V
DC phone jack for the SU-PS power supply
MON
RS 232, 3-pin low profile jack
IF
TNC jack, 50 ohm, lightning protected
ANT
N-Type jack, 50 ohm, lightning protected
IF
TNC jack, 50 ohm, lightning protected
Electrical
Unit
Details
General
Power consumption: 25 W
SU-NI
External power supply
AC input power: 100-240 Vr.m.s., 47-63 Hz
DC power output: 12 V, 4 A
SU-RA, SU-RE
12 VDC from the SU-NI unit over the IF cable
Mechanical
Unit
Structure
Dimensions
Weight
General
An indoor SU-NI unit with an external SU-PS
power supply unit and an outdoor SU-RE or
SU-RA radio unit
SU-NI
Metal box, desktop or wall mountable
15 x 8.7 x 3.7 cm
0.34 kg.
SU-PS
Desktop unit, 1.5 m DC cable
12 x 6 x 3.6 cm
0.28 kg.
SU-RE
Metal box, pole or wall mountable
30.8 x 12 x 4.7 cm 1.58 kg.
SU-RA
Metal box plus an integral antenna in plastic
enclosure, pole or wall mountable
30.6 x 30.6 x 7.2
cm
(30.6 x 12 x 4.7
cm + 30.6 x 30.6 x
2.5 cm)
3.1 kg.
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AU-A/E-NI Stand-Alone Access Unit
Connectors
Unit
Connector
AU-NI
AU-RE
AU-RA
Description
IF
TNC jack, 50 ohm, lightning protected
ETH
10BaseT Ethernet (RJ 45) with 2 embedded LEDs
Cable connection to a PC: crossed
DC-12 V
DC phone jack for the AU-PS power supply
MON
RS 232, 3-pin low profile jack
IF
TNC jack, 50 ohm, lightning protected
ANT
N-Type jack, 50 ohm, lightning protected
IF
TNC jack, 50 ohm, lightning protected
Electrical
Unit
Details
General
Power consumption: 25 W
AU-NI
External power supply
AC input power: 100-240 Vr.m.s., 47-63 Hz
DC power output: 12 V, 4 A
AU-RA/AU-RE
12 VDC from the AU-NI unit over the IF cable
Mechanical
Unit
Structure
Dimensions
Weight
General
An indoor AU-NI unit with an external AU-PS
power supply unit and an outdoor AU-RE radio
unit
AU-NI
Metal box, desktop or wall mountable
15 x 8.7 x 3.7 cm
0.34 kg
AU-PS
Desktop unit, 1.5 m DC cable
12 x 6 x 3.6 cm
0.28 kg
AU-RE
Metal box, poll or wall mountable
30.6 x 12 x 4.7 cm
1.58 kg
AU-RA
Metal box plus an integral antenna, poll or wall
mountable
72.5 x 13 x 6.2 cm
(30.6 x 12 x 4.7 cm
+ 72.5 x 13 x 1.5
cm)
2.8 kg
Manual Revision: 3.0
Specifications
3-9
Modular Base Station Equipment
Connectors
Unit
AU-A/E-BS
Connector
AU-BS
Description
IF
TNC jack, 50 ohm, lightning protected
ETH
10BaseT Ethernet (RJ 45) with 2 embedded LEDs
Cable connection to a PC: crossed
MON
RS 232, 3-pin low profile jack
IF
TNC jack, 50 ohm, lightning protected
ANT
N-Type jack, 50 ohm, lightning protected
IF
TNC jack, 50 ohm, lightning protected
BS-PS
-48V
3 pin DC power plug
BS-PS-AC
AC IN
3 pin AC power plug
BS-GU
ETH
10BaseT Ethernet (RJ 45) with 2 embedded LEDs
Cable connection to a PC: straight
SYNC IN
9-pin Micro D-Type jack, Molex 83619-9003
(mates with Molex 83421-9014 or similar);
4 contact closure alarm indicators
SYNC OUT
9-pin Micro D-Type jack, Molex 83619-9003
(mates with Molex 83421-9014 or similar);
3 non-latching relays, rating = 24 V (DC or AC) @
1 A max.
AL IN
9-pin Micro D-Type jack, Molex 83619-9003
(mates with Molex 83421-9014 or similar)
AL OUT
9-pin Micro D-Type jack, Molex 83619-9003
(mates with Molex 83421-9014 or similar)
AU-RE
AU-RA
GU-RA
12-pin round
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Specifications
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SU-I/I-D
Connectors
Connector
Description
Antenna (SU-I-D)
2 x SMA jacks, 50 ohm
ETH
10Base-T Ethernet (RJ-45) with 2 embedded LEDs.
Cable connection to a PC: SU-I/I-D -1D/1D1V – straight
SU-I/I-I-D-BD/BD1V - crossed
TEL (units with voice
support)
RJ 11 jack (POTS)
DC IN 5V
Standard DC phone jack to external power supply
MON
RS 232, 3-pin low profile jack
Electrical
Unit
Data only units
(SU-I/I-D-xD)
Details
Power consumption:
External power supply
AC input power: 100-240Vr.m.s.,47-63 Hz
DC power output: 5.1V, 2A max.
Data and voice units Power consumption:
(SU-I/I-D-xD1V)
External power supply
AC input power: 100-240Vr.m.s., 47-63 Hz
DC power output: 5V, 5A max.
Mechanical
Unit
Structure
Dimensions
Weight
General
An indoor unit with an external
power supply unit
SU-I/I-D
(excluding antennas)
Metal box, desktop or wall
mountable.
15 x 8.7 x 3.7 cm
0.35 kg.
Power supply, Data
only units
(SU-I/I-D-xD)
Plugged directly into the mains
socket (3 AC power pins), 1.5 meter
DC cable with a right angle phone
plug.
7.5 x 3.1 x 5 cm
0.38 kg.
12 x 5.9 x 3.5 cm
0.5 kg.
Power supply, Data and Desktop unit, 1.5m DC cable.
voice units
(SU-I/I-D-xD1V)
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AU-I/I-D
Connectors
Connector
Description
Antenna (AU-I-D)
2 x SMA jacks, 50 ohm
ETH
10Base-T (RJ-45) with 2 embedded LEDs.
Cable connection to a PC: crossed
DC IN 5V
Standard DC phone jack to external power supply
MON
RS 232, 3-pin low profile jack
Electrical
Unit
AU-I/I-D
Details
Power consumption:
External power supply
AC input power: 100-240Vr.m.s., 47-63 Hz
DC power output: 5.1V, 2A max.
Mechanical
Unit
Structure
Dimensions
General
An indoor unit with an external power
supply unit
AU-I/I-D
Metal box, desktop or wall mountable.
Power supply
unit
Plugged directly into the mains socket (3 AC 7.5 x 3.1 x 5 cm
power pins), 1.5 meter DC cable with a right
angle phone plug.
Manual Revision: 3.0
15 x 8.7 x 3.7 cm
Weight
0.35 kg.
0.38 kg.
Specifications
3-13
SU-R Subscriber Units
Connectors
Connector
Description
Antenna
2 proprietary jacks, 50 ohm (with special SMA adapters if needed)
ETH
10BaseT Ethernet (RJ 45) with 2 embedded LEDs
Cable connection to a PC: straight
TEL
(units with voice support)
RJ 11 jack (POTS)
DC IN
Standard DC phone jack to external power supply
MON
RS 232, 3-pin low profile jack
Electrical
Unit
All SU-R units
Details
External power supply
AC input power: 100-240 Vr.m.s., 47-63 Hz
DC power output: , max.
Mechanical
Unit
Structure
Dimensions
SU-R
(excluding
antennas)
Metal box, desktop or wall mountable
Power Supply
Desktop unit, 1.m DC cable
15.5 x 11.5 x 3.5 cm
Weight
0.7 kg
0.5 kg
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Manual Revision: 3.0
BreezeACCESS Version 4.3 System Description
BreezeACCESS II
Version 4.3
Revision 3.0
System Manual Book 2:
Installation
Installation
Table of Contents
IF-Based Equipment .................................................1-1
Modular Base Station Equipment .......................................1-2
Standalone AU-A/E-NI Access Unit ...................................1-3
Other Items Required for Installation ..................................1-3
Guidelines for Selection of Equipment Locations ..................1-5
AU-RA and AU-RE .............................................................1-5
SU-RA and SU-RE .............................................................1-5
IF Cable ..............................................................................1-6
Indoor Equipment ...............................................................1-6
Installing the Outdoor Unit .......................................................1-7
The Outdoor Unit Bottom Panel .........................................1-7
Pole Mounting the Outdoor Unit .........................................1-9
Connecting the Antenna Cable (SU-RE and AU-RE) .......1-12
Installing the SU-NI and AU-NI Indoor Unit ...........................1-13
Installing the SU-NI/AU-NI Unit ........................................1-14
Installing Modular Base Station Equipment ..........................1-15
BS-SH Slot Assignments ..................................................1-15
The BS-PS .......................................................................1-16
The BS-PS-AC .................................................................1-17
The BS-AU .......................................................................1-18
BS-SH Chassis and Modules Installation Procedure .......1-19
Installing the GU-A-BS GPS and Alarms System .................1-21
BS-GU Front Panel ..........................................................1-21
Installing the GU-RA GPS Antenna ..................................1-23
Installing the BS-GU module ............................................1-24
Daisy-chaining Two or More BS-GU Modules ..................1-24
Indoor SU-R Units ....................................................2-1
Packing Lists ..............................................................................2-2
SU-R Subscriber Unit .........................................................2-2
Other Items Required for Installation ..................................2-2
Installation Guidelines ..............................................................2-3
Location of the Unit ............................................................2-3
Location of the Antenna(s) .................................................2-3
Antenna Diversity ...............................................................2-4
Antenna Polarization ..........................................................2-4
ii
BreezeACCESS Version 4.3 Installation
Antenna Seal ..................................................................... 2-4
Lightning Protection ........................................................... 2-4
Installing SU-R Indoor Units ..................................................... 2-5
Wall Mounting the Unit ....................................................... 2-5
Connecting the Omni Antennas ......................................... 2-6
Connecting a Detached Antenna ....................................... 2-6
Connecting the Unit to the Power Supply and to the CPE . 2-6
Indoor SU-I and AU-I Units ...................................... 3-1
Packing Lists ............................................................................. 3-2
SU-I/I-D Subscriber Unit ................................................... 3-2
AU-I/I-D Access Unit .......................................................... 3-2
Other Items Required for Installation ................................. 3-2
Installation Guidelines .............................................................. 3-4
Location of the Unit ............................................................ 3-4
Location of the Antenna(s) ................................................. 3-4
Antenna Diversity ............................................................... 3-4
Antenna Polarization .......................................................... 3-5
Antenna Seal ..................................................................... 3-5
Lightning Protection ........................................................... 3-5
Installing SU-I/I-D and AU-I/I-D Units ....................................... 3-7
Connectors and LEDs ........................................................ 3-7
Wall Mounting the Unit ....................................................... 3-9
Connecting Antenna(s) to the Units ................................. 3-11
Connecting the Unit to the Power
Supply and to the CPE ..................................................... 3-11
Chapter 1
IF-Based
Equipment
About This Chapter
This chapter describes the basic installation of BreezeACCESS IF-based
equipment, including SU-A/E subscriber units, modular base station
equipment and stand-alone AU-A/E-NI access units. It includes the
following sections:
Packing Lists‚ page 1-2, lists the equipment that is packed with
each BreezeACCESS IF-based unit.
Guidelines for Selection of Equipment Locations‚ page 1-5, gives
tips and guidence for locating BreezeACCESS equipment for
optimum performance.
Installing the Outdoor Unit‚ page 1-7, explains how to install the
outdoor elements of BreezeACCESS systems.
Installing the SU-NI and AU-NI Indoor Unit‚ page 1-13, outlines
the installation procedures for SU-NI and AU-NI units.
Installing Modular Base Station Equipment‚ page 1-15, outlines
the installation procedures for modular base station equipment.
Installing the GU-A-BS GPS and Alarms System‚ page 1-21,
outlines the installation procedures for a GPS and Alarms system.
BreezeACCESS Version 4.3 Installation
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Packing Lists
SU-A/E Subscriber Unit
SU-NI Indoor unit
Outdoor unit:
SU-RA with integral antenna
–Or–
SU-RE with a connector to an external antenna (not included)
SU-PS power supply with a mains power cord
Pole mounting kit for the outdoor unit
Wall mounting kit for the SU-NI unit
Modular Base Station Equipment
BS-SH Base Station Chassis
BS-SH chassis (with blank panels)
Rubber legs for optional desktop installation
BS-PS DC power supply
DC power cable
Documentation CD
BS-SH-AC Base Station Chassis
BS-SH-AC Chassis (with blank panels)
Rubber legs for optional desktop installation
BS-PS-AC AC Power Supply
AC Power Cable
Documentation CD
AU-A/E-BS Access Units (up to six per
chassis)
Outdoor unit:
AU-RA with integral antenna
–Or–
AU-RE with a connector to an external antenna (not included)
Pole mounting kit for the outdoor unit
BS-AU Network Interface module
Monitor cable
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BreezeACCESS Version 4.3 Installation
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GPS cable (30, 60 or 120 meter – supplied separately according to
order)*
SYNC cable* – for daisy-chaining GPS modules (if necessary)
Alarms-In and Alarms-Out cables* for the GPS module (if necessary)
Installation tools and materials
For local configuration of parameters:
A portable PC with Terminal Emulation software and Monitor cable*
(Monitor cable is supplied with Access Units)
–Or–
A portable PC equipped with an Ethernet card and with Telnet
software, and an Ethernet cable (see Table 1-1‚ page 1-4)
Items marked with an asterisk (*) are available as options from Alvarion.
NOTE:
The BS-GU does not have an external Monitor port and it should be configured via the
Ethernet port using Telnet.
Table 1-1: Required Type of Ethernet Cable
Unit Type
Connection to a
PC
Connection to a
Hub
Subscriber Unit that supports a single Ethernet
device (SU-1D, SU-1D1V)
Straight
NA
Subscriber Unit that supports multiple Ethernet
devices (SU-BD, SU-BD1V)
Crossed
Straight
Access Units
Crossed
Straight
GPS module
Straight
Crossed
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IF Based Equipment
1-5
Guidelines for Selection of
Equipment Locations
NOTE:
Outdoor units and antennas should be installed ONLY by experienced installation
professionals who are familiar with local building and safety codes and, wherever
applicable, are licensed by the appropriate government regulatory authorities.
Failure to do so may void the BreezeACCESS product warranty and may expose the
end user or the service provider to legal and financial liabilities. Alvarion and its resellers
or distributors are not liable for injury, damage or violation of regulations associated with
the installation of outdoor units or antennas.
Select appropriate locations for the outdoor unit and for the indoor
equipment using the following guidelines:
The outdoor unit can be pole or wall mounted. Its location should
allow easy access to the unit for installation and testing.
The higher the antenna, the better the achievable link quality.
Units with an external antenna should be installed as near as possible
to the antenna.
AU-RA and AU-RE
The AU-RA unit with its integrated antenna or the external antenna
connected to the AU-RE unit, should be installed where it provides
coverage of all Subscriber Units in the area it is intended to serve. The
higher the AU-RA or the antenna, the better coverage it can provide.
NOTE:
The distance between any two antennas should be greater than 40 cm.
SU-RA and SU-RE
The SU-RA outdoor unit with its integrated antenna, or the external
antenna connected to the SU-RE unit, should be installed where it has
a direct line of sight with the Base Station antenna.
The antenna (integrated on the front side of the SU-RA outdoor unit or
external if using SU-RE) should be directed towards the Base Station.
The unit should be installed in a way that allows optimal alignment
towards the Base Station.
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IF Cable
The outdoor unit is connected to the indoor unit by means of an IF cable
carrying signaling, control signals and power. The IF frequency is
440 MHz. The maximum allowed attenuation of the IF cable connecting
the outdoor unit to the indoor unit is 15 dB at 440 MHz, and the
maximum allowed DC resistance (the sum of the DC resistance of the
inner and outer conductors) is 1.5 ohm. This allows for cable length of
up to 30 m when using the standard RG 58 cable.
If longer cables are required, a cable with lower attenuation and/or DC
resistance should be used. Table 1-2‚ page 1-6 provides details
regarding some popular cables such as the RG 58 and RG 213. If the
spectral environment is polluted with noise in the 440 MHz band, it is
recommended to use a higher quality double-shielded cable such as the
LMR 200, LMR 240 and LMR 400 (manufactured by Times
Communications).
Table 1-2: IF Cables
Cable Type
RG 58
RG 213
LMR 200
LMR 240
LMR 400
Maximum cable length (m)
30
100
45
65
150
Indoor Equipment
The Indoor unit should be installed as close as possible to the point
where the IF cable enters the building. The location of the indoor unit
should also take into account the need to connect it to a power mains
outlet and to the CPE.
NOTE:
The system complies with the ETS 300 385 standard and is protected against secondary
lightning strikes when its outdoor unit is properly grounded according to the applicable
country-specific industry standards for protection of structures against lightning. The
system complies with EN 61000-4-5, test level 3 (2kV).
Manual Revision: 3.0
IF Based Equipment
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Installing the Outdoor Unit
NOTE:
Outdoor units must be installed by a professional installer only.
The Outdoor Unit Bottom Panel
The SU-RA and AU-RA outdoor units include the radio and an integral
high-gain flat antenna located on the front of the unit. The SU-RE and
AU-RE outdoor radio units have an RF connector for connection to an
external antenna.
Figure 1-1: SU-RA/RE Bottom Panel
Table 1-3: SU-RA/RE LEDs
LED
Description
Functionality
ETH
Ethernet activity
Blinking – Data received from or transmitted to Ethernet
LAN
Off – No activity on the Ethernet LAN
WLNK
Wireless link
activity
Blinking – Receiving packet from the wireless link
Off – No reception of packets from the wireless link
ALARM
Alarm indication
On – A problem with the power amplifier or in the locking
process of any of the synthesizers
Off – Normal operation
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Table 1-4: SU-RA/RE Bar Display Description
LED
Description
Functionality
Yellow LED
Power
On – power is present
Off – power is not received from the
indoor unit
8 Green LEDs
Received signal strength
indication
Received RF signal level indication in
4 dB resolution, starting from –91
dBm
Red LED
High RF signal level
Received signal level is
–40 dBm or higher
Figure 1-2: AU-RA/RE Bottom Panel
Table 1-5: AU-RA/RE LEDs
LED
Description
Functionality
ETH
Ethernet activity
Blinking – Data received from or transmitted to Ethernet
LAN
Off – No activity on the Ethernet LAN
12V IN
Power
On – 12 VDC power is supplied to the unit
Off – 12 VDC power is not available
ALARM
Alarm indication
On – A problem with the power amplifier or in the locking
process of any of the synthesizers
Off – Normal operation
Manual Revision: 3.0
IF Based Equipment
1-9
Pole Mounting the Outdoor Unit
The outdoor unit can be secured to the pole using one of the following
options:
Special brackets and open-ended bolts (supplied with each unit).
There are two pairs of threaded holes on the back of the unit,
allowing use of the special brackets with various pole widths.
Metal bands (9/16" wide, minimum 12" long).
Figure 1-3‚ page 1-10 shows the locations of the band grooves and
threaded holes on the rear side of the outdoor unit.
Figure 1-4‚ page 1-10 illustrates the method of installing an outdoor
unit on a pole, using the brackets and open-ended bolts.
NOTE:
Make sure to install the unit with the bottom panel (the panel with the IF connector)
facing downward.
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Figure 1-3: Grooves/Threaded Holes
Figure 1-4: 3" Pole Mounting Installation Using the Special Brackets
NOTE:
When inserting the open-ended bolts, make sure to insert them with the grooves
pointing outwards; these grooves are intended to allow fastening of the bolts with a
screwdriver.
Manual Revision: 3.0
IF Based Equipment
1-11
The integral antenna of the AU-RA is relatively long. The top of the
antenna should also be secured to the pole, as shown in Figure 1-5:.
Figure 1-5:: Pole Mounting the AU-RA
Figure 1-6:: Pole Mounting the AU-RA (Top View)
NOTE:
The top of the AU-RA antenna must be secured to the pole only in order to keep it from
moving due to strong winds or other adverse conditions. Do not over tighten the screws in
order to avoid damaging the antenna.
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1-13
Installing the SU-NI and AU-NI
Indoor Unit
Figure 1-7: SU-NI with Voice Support Rear Panel
Figure 1-8: SU-NI/AU-NI Front Panel
NOTE:
The rear panel pictured above in Figure 1-7 is a SU-NI with voice support; AU-NI units
and SU-NI units that belong to Subscriber Units without voice support are identical,
except that they have no TEL port.
Table 1-6: SU-NI/AU-NI LEDs
LED
Description
Functionality
PWR
Power Supply
On – After successful power up, indicating that 12
VDC is supplied to the outdoor unit.
Off – Power off or failure to supply 12 VDC to the
outdoor unit.
WLNK
Wireless Link Activity
Blinking – Receiving packets from the wireless
media
Off – No reception of packets from the wireless
media
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BreezeACCESS Version 4.3 Installation
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The SU-NI/AU-NI provides the following interfaces:
An Ethernet connector (marked ETH) for connecting the unit to the
network. See Table 1-1‚ page 1-4 for information on the required
type of Ethernet cable.
An IF connector for connecting the unit to an outdoor unit.
A DC-12V connector for the power supply.
A MON connector for connecting an ASCII terminal with terminal
emulation software for configuration and maintenance purposes.
A TEL connector (Sunscriber Units with voice support only) for
connecting a regular telephone.
Installing the SU-NI/AU-NI Unit
1. Place the unit in an appropriate location on a shelf or a table. The unit can be
wall mounted using the installation materials provided with the unit. Use a 6
mm (1/4") drill and the supplied template plate for easy and accurate marking
of the holes.
2. Connect the power supply DC power cord to the DC In jack (marked
DC-12V) located on the rear panel of the unit
(shown in Figure 1-7‚ page 1-13).
3. Connect the IF cable to the IF connector (marked IF). The other side of the
IF cable should already be connected to the outdoor unit.
4. Connect the mains power cord to the power supply unit. Connect the mains
power plug to a mains power outlet.
5. Verify that the Power LED (marked PWR) located on the front panel of the
unit, as shown in Figure 1-8‚ page 1-13, is lit.
Manual Revision: 3.0
IF Based Equipment
1-15
Installing Modular Base
Station Equipment
BS-SH Slot Assignments
The base station chassis has ten slots.
Figure 1-9: BS-SH Chassis Slot Assignments
The two wide slots on both sides of the shelf accommodate the BS-PS or
BS-PS-AC power supply modules. The shelf is designed to support
power supply redundancy through the use of two power supply
modules. If a single power supply is used, it can be inserted in any of
the two available slots. When using two power supply modules, both
modules must be the same type (either both BS-PS or both BS-PS-AC).
The remaining eight slots can accommodate up to six active BS-AU
modules. Two extra slots are for an optional BS-GU GPS module and/or
for future use. BS-AU and BS-GU modules can be installed in any of the
eight slots. Unused slots should be covered by blank panels.
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The BS-PS
The BS-PS provides power to all the modules installed in the BS-SH
chassis. The BS-PS front panel is shown in Figure 1-10‚ page 1-16.
Figure 1-10: BS-PS Front Panel
The BS-PS provides a power input connector (marked -48V) for
connecting the -48VDC power source to the module. The color codes of
the cable wires are:
Black
Red
-48 VDC
+ (Return)
The power switch turns the mains power to the power supply ON and
OFF.
Table 1-7: BS-PS LEDs
LED
Description
ON
-48 VDC is available and power supply is on
5V
The 5V power supply module is OK and power is consumed (at least one BS-AU
module is inserted)
12V
The 12V power supply module is OK and power is consumed (at least one
AU-RA/RE unit is connected)
Manual Revision: 3.0
IF Based Equipment
1-17
The BS-PS-AC
The BS-PS-AC is an AC to DC converter that provides power to all the
modules installed in the BS-SH chassis. The BS-PS-AC front panel is
shown in Figure 1-11‚ page 1-17.
Figure 1-11: BS-PS-AC Front Panel
The BS-PS-AC provides a power input connector (marked AC IN) for
connecting the AC power cable to the mains.
The ON/OFF power switch controls the connection of the mains power
to an AC to DC converter.
Table 1-8: BS-PS-AC LEDs
LED
Description
3.3V
Green LED. Indicates that the 3.3V power supply module is OK (3.3V power
supply is not used by current BreezeACCESS modules)
5V
Green LED. Indicates that the 5V power supply module is OK
12V
Green LED. Indicates that the 12V power supply module is OK
OVER TEMP
Red LED. Indicates an Over Temperature condition in the power supply module
NOTE:
If the Over Temp indication stays on for more than 10 seconds, the power supply
module will shut itself offautomatically to prevent damage.
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BreezeACCESS Version 4.3 Installation
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WARNING:
If two power supply modules are used in the same chassis for redundancy, both power
supplies must be of the same type. Do not use a mix of AC and DC power supply
modules in the same chassis.
The BS-AU
Figure 1-12: BS-AU Front Panel
Table 1-9: BS-AU LEDs
Name
Description
Functionality
PWR
Power supply
12 VDC
On – After successful power up, indicating that
12 VDC is supplied to the outdoor unit.
Off – Power off or DC/DC converter failure
(12 VDC not supplied to the outdoor unit)
WLNK
Wireless link activity
Blinking – Receiving packets from the
wireless media
Off – No reception of packets from the
wireless media
ALRM
Alarm
On – Loss of hopping synchronization (in
Slave mode)
MASTER
Master unit
On – The unit is configured as Master
Manual Revision: 3.0
IF Based Equipment
1-19
The BS-AU provides the following interfaces:
An Ethernet connector (marked ETH) for connecting the BS-AU to
the network. A straight Ethernet cable should be used to connect
the module to a hub, router or switch.
An IF connector for connecting the BS-AU to an outdoor unit
(AU-RE or AU-RA).
A MON connector for connecting an ASCII terminal with terminal
emulation software for configuration and maintenance purposes.
The switch on the BS-AU front panel controls the supply of 12 VDC
power to the outdoor unit via the IF cable. The momentary RESET
position of this switch is for resetting the outdoor unit. In the OFF
position, power is not supplied to the outdoor unit, even when the
BS-AU unit is still on.
BS-SH Chassis and Modules
Installation Procedure
1. Install the BS-SH chassis in a 19" cabinet (or place on an appropriate
shelf/table). When mounting the BS-SH chassis on a desktop, screw on the
rubber legs shipped with the unit. To prevent over-heating, leave a free space
of at least 1 U between the upper/lower covers of the chassis and other units.
2. Connect a ground cable between the ground terminal (located on the back
panel of the BS-SH chassis) and a grounding point (or to the rack when
appropriate).
3. Carefully insert the BS-PS or BS-PS-AC Power Supply and the BS-AU
modules into their intended slots and push firmly until they are securely
locked. Before inserting the modules, verify that the switches of all BS-AU
modules are in the OFF position. Close the captive screws attached to each
module. Place blank covers over all the unused slots.
4. Connect the IF cable(s) to the connector(s) marked IF located on the front
panel(s) of the BS-AU module(s) as shown in Figure 1-12‚ page 1-18. The
other side of the IF cable should already be connected to the outdoor unit.
5. If a BS-PS DC power supply is used, connect the DC power cable to the –
48 VDC In jack (marked –48V) located on the front panel of the BS-PS
power supply. If a redundant power supply module is installed, connect a
power cable to it as well. Connect the power cable(s) to the –48 VDC
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BreezeACCESS Version 4.3 Installation
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power source and the black wire to the
-48 VDC contact of the power source. Connect the red wire to the
+ (Return) contact. Connect the shield to the ground.
6. If a BS-PS-AC AC power supply is used, connect the AC power cable to
the AC jack (marked AC IN) located on the front panel of the BS-PS-AC
power supply. If a redundant power supply module is installed, connect a
power cable to that unit as well. Connect the power cable(s) to the AC
mains.
7. Switch the BS-PS or BS-PS-AC power supplies to ON. Verify that all the
power indicator LEDs on the front panel are on. If you are using a
BS-PS-AC power supply module, verify that the OVERTEMP alarm
indicator is off.
8. Configure the basic parameters in all BS-AU modules as described in
Book 3: Commissioning. Set the switches on the front panel of all BS-AU
modules in the chassis to ON only after all the basic parameters have been
configured properly. This is to avoid transmitting at undesired frequencies.
NOTE:
Disconnect the IF cable from the BS-AU module before inserting or removing it to/from
the BS-SH chassis.
Manual Revision: 3.0
IF Based Equipment
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Installing the GU-A-BS GPS
and Alarms System
BS-GU Front Panel
Figure 1-13: BS-GU Front Panel
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Table 1-10: BS-GU Connectors
Connector Name
Functionality
SYNC IN
Receives signals from the GPS antenna unit.
If more than one collocated BS-GU module is daisy-chained, this
connector is used by a “Slave” module to receive signals from the
“Master” module’s SYNC OUT connector.
SYNC OUT
Transfers the signals received on the SYNC IN port.
If the module is a “Master” operating in “local” mode, the internally
generated synchronization signals are also transferred to the “Slave”
via this connector.S
AL IN
Four connections to receive indications from external devices.
AL OUT
Three relay outputs to external devices.
ETH
Ethernet 10BaseT interface. Use a straight cable to connect directly to
a PC. Use a crossed cable to connect to a hub.
Table 1-11: BS-GU LEDs and Switches
LED Name
Functionality
LED Name
Functionality
PWR (green)
On – Power supply functioning properly.
Off – Power supply not functioning properly.
OK (green)
On – Proper signals are being received from the GPS antenna.
Off – The GPS antenna is not connected or it is not functioning
properly.
A1 (red)
On – Alarm In 1 (external) is activated.
A2 (red)
On – Alarm In 2 (external) is activated.
A3 (red)
On – Alarm In 3 (external) is activated.
A4 (red)
On – Alarm In 4 (external) is activated.
A5, A6 (red)
Reserved for future use.
Ethernet Activity -Ethernet
Connector embedded LED
(green)
On – Receiving traffic on the Ethernet port.
Off – No activity on the Ethernet port.
Ethernet Integrity -Ethernet On – Unit is connected to an Ethernet segment.
Connector Embedded LED Off – Unit is not connected to an Ethernet segment.
(orange)
Reset
Manual Revision: 3.0
Press this button with a paper clip or similar object in order to reset
the unit.
IF Based Equipment
1-23
Installing the GU-RA GPS Antenna
1. Screw the GPS antenna firmly to the special 1” threaded pole.
2. Use the mounting kit supplied with the unit (or any other suitable means)
to secure the GPS antenna pole to an existing pole (e.g. any pole used for
mounting base station antennas or the outdoor units of the BreezeACCESS
Access Units). Choose the location to ensure an obstacle-free line of sight
from the GPS antenna to the sky, extending at least 30 degrees in all
directions.
Figure 1-14: GPS Installation
3. Secure the GPS cable to the mounting pole, leaving a free length of cable
(with the 12-pin round connector at the end) sufficient for connecting to the
antenna module.
WARNING:
The cable is very heavy and connecting it to the antenna without first securing it to the
pole may damage the connector.
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BreezeACCESS Version 4.3 Installation
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4. Connect the 12-pin round connector to the GPS antenna.
5. Route the cable to the location intended for installation of the BS-GU
module.
NOTE:
Outdoor units and antennas should be installed ONLY by experienced installation
professionals who are familiar with local building and safety codes and, wherever
applicable, are licensed by the appropriate government regulatory authorities.
Failure to do so may void the BreezeACCESS product warranty and may expose the
end user or the service provider to legal and financial liabilities. Alvarion and its resellers
or distributors are not liable for injury, damage or violation of regulations associated with
the installation of outdoor units or antennas.
Installing the BS-GU module
NOTE:
When adding the BS-GU to an active base station, it is recommended to start by
reconfiguring the AU previously defined as Master to Slave, then immediately inserting
and configuring the Number of Hopping Frequencies parameter in the BS-GU
module. Otherwise both the Master AU and the BS-GU will send conflicting
synchronization signals to the Slave AUs. During this process, connectivity with the
Subscriber Units will be interrupted. It is recommended to perform the upgrade during a
planned downtime or at a time of minimal traffic. Properly configuring the value of the
Number of Hopping Frequencies parameter in the BS-GU is mandatory for proper
operation of the base station. All other parameters of the BS-GU module may be
configured later as they do not impact the operation of the system.
Inserting the BS-GU Module and Connecting
It to the Antenna
1. Carefully insert the BS-GU module into any of the free suitable slots in the
BS-SH chassis and push firmly until it is securely locked. Close the captive
screws attached to the module.
2. Connect the 9-pin micro D-Type connector of the GPS cable to the
SYNC IN connector (the top-left connector) of the BS-GU module.
WARNING:
Deactivate the power to the BS-GU unit before connecting it to a GPS antenna. Switch
on the BS-GU only after the GPS antenna has been connected.
Daisy-chaining Two or More BS-GU
Modules
If two or more BS-GU modules are installed in different collocated
BS-SH chassis, use a synchronization cable (supplied separately) to
connect the SYNC OUT connector of the first (Master) module to the
SYNC IN connector of the second module. The SYNC OUT of this second
module may be connected to the SYNC IN of a third module, and so on.
Manual Revision: 3.0
Chapter 2
Indoor
SU-R Units
About This Chapter
This chapter explains how to install BreezeACCESS SU-R units and
includes the following sections:
Packing Lists‚ page 2-2, lists the equipment that is packed with
each BreezeACCESS SU-R unit.
Installation Guidelines‚ page 2-3, gives general tips and
instructions for installing BreezeACCESS SU-R units.
Installing SU-R Indoor Units‚ page 2-5, outlines the installation
procedures for SU-R units.
BreezeACCESS Version 4.3 Installation
2-2
Packing Lists
SU-R Subscriber Unit
The SU-R units are shipped with the following units and accessories.
The exact packing list varies depending on system configuration and
ordered equipment.
SU-R unit
Antenna unit:
Two clip-on omni antennas
–Or–
A wall/window mountable antenna
–Or–
A high-gain outdoor antenna
A power supply
Wall mounting kit for the SU-R unit
An Ethernet cable (straight)
Other Items Required for
Installation
Antenna* and RF cable* according to specific installation
conditions.
Ethernet cable to connect the equipment to the Ethernet outlet (see
Table 2-1‚ page 2-3)
Telephone cord for connecting a Subscriber Unit with voice support
to a telephone set (RJ 11 connector at the Subscriber Unit side)
Installation tools and materials.
For local configuration of parameters:
A portable PC with terminal emulation software and monitor cable*
(monitor cable is supplied with Access Units)
–Or–
A portable PC equipped with an Ethernet card and with Telnet
software, and an Ethernet cable (see Table 2-1‚ page 2-3)
Items marked with an asterisk (*) are available as options from Alvarion.
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Indoor SU-R Units
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Table 2-1: Required Type of Ethernet Cable
Unit Type
SU-R Subscriber Unit
Connection to a
PC
Connection to a
Hub
Straight
Crossed
Installation Guidelines
This section describes the installation guidelines and the various
considerations that must be taken into account when planning the
installation.
Location of the Unit
The unit can be placed on a desktop or a shelf, or can be attached to
a wall.
The unit should be installed as near as possible to the antenna
(models with detached antenna). The RF cable connecting the unit
to the antenna should be as short as possible to guarantee
minimum power loss.
Keep the units well away from sources of heat, such as radiators,
air-conditioners, and so on.
Units with voice support should be installed at a distance of at least
3m from an indoor antenna to prevent interference to telephony
services. If a directional indoor antenna is used, do not install the
unit in the area covered by the antenna’s radiation pattern.
Location of the Antenna(s)
Any physical object in the path between two units can cause signal
attenuation. Common obstructions are buildings and trees. If a
unit’s antenna is installed indoors, the walls and/or windows
between the two sites are physical obstructions. Any buildings or
other physical structure, such as trees, mountains or other natural
geographic features higher than the antenna and situated in the
path between the two sites, can constitute obstructions.
Install indoor antennas as close as possible to a window (or wall if a
window is not accessible) facing the required direction. Avoid metal
obstacles such as metal window frames or metal film anti-glare
windows in the transmission path. Install outdoor antennas high
enough to avoid any obstacles, which may block the signal.
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Position the antennas clear of metal furniture and away from
moving metal objects such as metal fans or doors.
Antenna Diversity
Multipath propagation is to be expected when there are potential
reflectors between the Access Unit and Subscriber Units. These
reflectors may be buildings or moving objects such as airplanes and
motor vehicles. If this is the case, the radio signal does not travel in a
straight line, but is reflected or deflected off of the object, creating
multiple propagation paths.
In applications where no multipath propagation is expected, a single
antenna is sufficient to ensure good performance levels. However, in
cases where multipath propagation exists, Alvarion recommends that
two antennas be used. This takes advantage of space diversity
capabilities. By using two antennas per unit, the system can select the
best antenna on a per-packet basis (every several milliseconds).
When installing a single antenna, configure the Transmit Antenna
option to either Antenna 1 or Antenna 2, according to the antenna
being used. When using two antennas, configure the Transmit
Antenna option to Both Antennas.
Antenna Polarization
Antenna polarization must be the same at either end of the link. In most
applications, the preferred orientation is vertical polarization. Above
ground propagation of the signal is better when the antenna is polarized
vertically. For omni antennas, make sure that the antennas are
extended upward vertically in relation to the floor to achieve vertical
polarization. To verify polarization of detached antennas, refer to the
assembly instructions supplied with the antenna set.
Antenna Seal
When using outdoor antennas, you must seal the antenna connectors
against rain. Otherwise the antennas are not suitable for use in outdoor
installations.
Lightning Protection
Lightning protection is designed to protect people, property and
equipment by providing a path to the ground for the lightning’s energy.
The lightning arrestor diverts the strike energy to the ground along a
deliberate and controlled path instead of allowing it to choose a random
path. Lightning protection for a building is more forgiving than
protection of electronic devices. A building can withstand up to 100,000
volts, but electronic equipment may be damaged by just a few volts.
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Indoor SU-R Units
2-5
Lightning protection entails connecting an antenna discharge unit (also
called an arrestor) to each cable as close as possible to the point where
it enters the building. It also entails proper grounding of the arrestors
and of the antenna mast (if the antenna is connected to one).
The lightning arrestor should be installed and grounded at the point
where the cable enters the building. The arrestor is connected to the
unit at one end and to the antenna at the other end.
The professional installer you choose must be knowledgeable about
lightning protection. The installer must install the lightning protector in
a way that maximizes lightning protection.
Installing SU-R Indoor Units
Wall Mounting the Unit
NOTE:
To avoid drilling unnecessary holes, it is recommended to verify connectivity with the
base station prior to drilling holes in the locations intended for the SU-R unit and/or the
indoor antenna.
The template on the packaging box can be used to mark the locations of
the screws on the wall (drill right through the markings on the box).
After insertion of the anchors and screws, hang the unit on the two
screws with the bottom panel (the side with the connectors) facing
downward.
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Connecting the Omni Antennas
1. Connect the omni antennas to antenna ports 1 and/or 2 on the sides of the
unit. Push each antenna connection carefully into a port with the antenna
facing downward and carefully turn the antenna upward to firmly lock it.
2. Extend the antennas upward vertically in relation to the floor to achieve
vertical polarization.
Connecting a Detached Antenna
1. Connect the special adapter to antenna port 1 (marked 1) on the side of the
unit. Push the adapter carefully into the hole using the alignment markings
on the adapter and the unit, and turn it 180 degrees to firmly lock it.
2. Connect the antenna cable to the adapter. If you use a heavy cable, secure
the cable so as to prevent applying excessive force on the adapter and
connector.
Connecting the Unit to the Power
Supply and to the CPE
The unit operates on a power input of 5VDC, supplied by the power
transformer included with the unit.
Figure 2-1: SU-R Unit with Voice Support
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Indoor SU-R Units
2-7
1. Plug the output jack of the power transformer into the DC input jack (marked
DC IN) located on the bottom panel of the unit.
2. Connect the supplied universal power transformer to a power outlet -110/
220VAC.
3. Use a straight Ethernet 10BaseT cable to connect the Ethernet port (marked
ETH) to a PC or to a hub’s uplink port. Use a crossed Ethernet10BaseT
cable to connect to a hub.
4. For units with voice support, use the standard RJ 11 cable connected to the
telephone set to connect the telephone to the telephone port (marked TEL).
BreezeACCESS Version 4.3 System Manual
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Manual Revision: 3.0
BreezeACCESS Version 4.3 Installation
Chapter 3
Indoor
SU-I and AU-I Units
About This Chapter
This chapter explains how to install BreezeACCESS SU-I and AU-I units
and includes the following sections:
Packing Lists‚ page 3-2, lists the equipment that is packed with
each BreezeACCESS SU-I and AU-I units.
Installation Guidelines‚ page 3-4, give general tips and
instructions for installing BreezeACCESS SU-I and AU-I units.
Installing SU-I/I-D and AU-I/I-D Units‚ page 3-7, outlines the
installation procedures for SU-I and AU-I units.
BreezeACCESS Version 4.3 Installation
3-2
Packing Lists
SU-I/I-D Subscriber Unit
Subscriber Unit:
SU-I with 2 integral omni antennas
–Or–
SU-I-D with connectors to external antenna(s)
Power Supply
5 VDC universal power adaptor (Data only units)
–Or–
Desktop universal power transformer with an AC power cable (Data
+ Voice units)
Mounting bracket for wall or ceiling installation
A torque key for the antenna connectors (SU-I-D units)
AU-I/I-D Access Unit
Access Unit:
AU-I with 2 integral omni antennas
–Or–
AU-I-D with connectors to external antenna(s)
5 VDC universal power adaptor
Mounting bracket for wall or ceiling installation
A torque key for the antenna connectors (AU-I-D units)
Monitor cable
Documentation CD
Other Items Required for
Installation
Antenna* and RF cable* according to specific installation conditions
for units with external separate antennas
Ethernet cable to connect the equipment to the Ethernet outlet (see
Table 3-1‚ page 3-3)
Telephone cord for connecting a Subscriber Unit with voice support
to a telephone set (RJ 11 connector at the Subscriber Unit side)
Installation tools and materials.
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Indoor SU-R Units
3-3
For local configuration of parameters:
A portable PC with Terminal Emulation software and Monitor cable*
(Monitor cable is supplied with Access Units)
–Or–
A portable PC equipped with an Ethernet card, Telnet software and
an Ethernet cable (see Table 3-1‚ page 3-3)
Items marked with an asterisk (*) are available as options from Alvarion.
Table 3-1: Required Type of Ethernet Cable
Unit Type
Connection to a
PC
Connection to a
hub
SU-I/I-D Subscriber Unit that supports a single Ethernet Straight
devices (SU-1D, SU-1D1V)
NA
SU-I/I-D Subscriber Unit that supports multiple
Ethernet devices (SU-8D, SU-8D1V, SU-BD,
SU-BD1V)
Crossed
Straight
AU-I/I-D Access Units
Crossed
Straight
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BreezeACCESS Version 4.3 Installation
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Installation Guidelines
This section describes the installation guidelines and the various
considerations that must be taken into account when planning the
installation.
Location of the Unit
The unit can be placed on a desktop or a shelf, or can be attached to
a wall.
The unit should be installed as near as possible to the antenna
(models with detached antenna). The RF cable connecting the unit
to the antenna should be as short as possible to guarantee
minimum power loss.
Keep the units well away from sources of heat, such as radiators,
air-conditioners, etc.
Location of the Antenna(s)
Any physical object in the path between two units can cause signal
attenuation. Common obstructions are buildings and trees. If a
unit’s antenna is installed indoors, the walls and/or windows
between the two sites are physical obstructions. Any buildings or
other physical structure such as trees, mountains or other natural
geographic features higher than the antenna and situated in the
path between the two sites can constitute obstructions.
Install indoor antennas as close as possible to a window (or wall if a
window is not accessible) facing the required direction. Avoid metal
obstacles such as metal window frames or metal film anti-glare
windows in the transmission path. Install outdoor antennas high
enough to avoid any obstacles, which may block the signal.
Position the antennas clear of metal furniture and away from
moving metal objects such as metal fans or doors.
Antenna Diversity
Multipath propagation is to be expected when there are potential
reflectors between the Access Unit and Subscriber Units. These
reflectors may be buildings or moving objects such as airplanes and
motor vehicles. If this is the case, the radio signal does not travel in a
straight line, but is reflected or deflected off of the object, creating
multiple propagation paths.
In applications where no multipath propagation is expected, a single
antenna is sufficient to ensure good performance levels. However, in
cases where multipath propagation exists, Alvarion recommends that
two antennas be used. This takes advantage of space diversity
Manual Revision: 3.0
Indoor SU-R Units
3-5
capabilities. By using two antennas per unit, the system can select the
best antenna on a per-packet basis (every several milliseconds).
When installing a single antenna, configure the Transmit Antenna
option to either Antenna 1 or Antenna 2, according to the antenna
being used. When using two antennas, configure the Transmit
Antenna option to Both Antennas.
Antenna Polarization
Antenna polarization must be the same at either end of the link. In most
applications, the preferred orientation is vertical polarization. Above
ground propagation of the signal is better when it is polarized vertically.
For omni antennas, make sure that the antennas are extended upward
vertically in relation to the floor to achieve vertical polarization. To verify
polarization of detached antennas, refer to the assembly instructions
supplied with the antenna set.
Antenna Seal
When using outdoor antennas, you must seal the antenna connectors
against rain. Otherwise the antennas are not suitable for use in outdoor
installations.
Lightning Protection
Lightning protection is designed to protect people, property and
equipment by providing a path to ground for the lightning’s energy. The
lightning arrestor diverts the strike energy to the ground along a
deliberate and controlled path instead of allowing it to choose a random
path. Lightning protection for a building is more forgiving than
protection of electronic devices. A building can withstand up to 100,000
volts, but electronic equipment may be damaged by just a few volts.
Lightning protection entails connecting an antenna discharge unit (also
called an arrestor) to each cable as close as possible to the point where
it enters the building. It also entails proper grounding of the arrestors
and of the antenna mast (if the antenna is connected to one).
The lightning arrestor should be installed and grounded at the point
where the cable enters the building. The arrestor is connected to the
unit at one end and to the antenna at the other end.
The professional installer you choose must be knowledgeable about
lightning protection. The installer must install the lightning protector in
a way that maximizes lightning protection.
AL 1 Lightning Arrestor - Part No. 872905 5 ft (1.5m), “N” Male to “N”
Female is available from Alvarion.
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BreezeACCESS Version 4.3 Installation
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NOTE:
Detached outdoors antennas should be installed ONLY by experienced antenna
installation professionals who are familiar with local building and safety codes and,
wherever applicable, are licensed by the appropriate government regulatory
authorities.
Failure to do so may void the BreezeACCESS Product Warranty and may expose
the end user to legal and financial liabilities. Alvarion and its resellers or distributors
are not liable for injury, damage or violation of government regulations associated
with the installation of detached antennas.
Manual Revision: 3.0
Indoor SU-R Units
3-7
Installing SU-I/I-D and AU-I/I-D
Units
Connectors and LEDs
The unit provides the following interfaces:
Figure 3-1: SU-I Rear Panel
An Ethernet connector (marked ETH) for connecting the unit to the
network. See Table 3-1‚ page 3-3 for information on the required
type of Ethernet cable.
A TEL connector (Subscriber Units with voice support only) for
connecting a regular telephone.
Figure 3-2:: SU-I/AU-I Side View
A DC-IN 5V connector for the power transformer.
A MON connector for connecting an ASCII terminal with terminal
emulation software for configuration and maintenance purposes.
Two ANT connectors for external antennas (SU-I-D/AU-I-D units
only)
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BreezeACCESS Version 4.3 Installation
3-8
Figure 3-3: SU-I Front Panel
Table 3-2: SU-I LEDs
Name
Description
Functionality
POWER
Power supply
On – After successful power up
Off – Power off
WIRELESS LINK
Wireless Link
Activity
Blinking – Receiving packets from the wireless link
Off – no reception of packets from the wireless link
ETHERNET
Ethernet activity
Blinking – Reception of data from Ethernet LAN
Off – No reception of data from Ethernet LAN
SIGNAL
QUALITY
Quality of received
RF signal
Very low quality reception or not
synchronized with Access Unit.
Low quality reception (usually enabling
1Mbps traffic).
Medium quality reception (usually enabling
2 Mbps traffic).
High quality reception (usually enabling 3
Mbps traffic).
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Indoor SU-R Units
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Figure 3-4:: AU-I Front Panel
Table 3-3: AU-I LEDs
Name
Description
Functionality
POWER
Power supply
On – After successful power up
Off – Power off
WIRELESS LINK
Wireless Link
Activity
Blinking – Receiving packets from the wireless link
Off – no reception of packets from the wireless link
LOAD
Number of active
subscriber units
No subscribers
1-8 subscribers
9-16 subscribers
17 or more subscribers
Wall Mounting the Unit
Use the supplied brackets for wall mounting to install the unit on a wall
or a ceiling.
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BreezeACCESS Version 4.3 Installation
3-10
1. Turn the unit so the rear panel is facing you.
2. Unscrew the two screws located at the antennas end of the unit (the top
screws).
3. Align the Unit Mounting Slots (see Figure 3-6) with the slots you have just
unscrewed.
4. Using the longer screws supplied with the wall mounts, screw the wall
mount to the unit.
5. Align the Convenience Mounting Slots (see Figure 3-2) with the nails, push
the wall mount against the wall and let it slide down until it rests on the
nails.
Figure 3-5: Wall Mounting the Unit
Special slots have been added to the wall mounts to allow for
unobtrusive cable installation. These slots should be used to fasten
cables coming out of the unit to the wall mounts, eliminating loose or
tangled cable installations.
Convenience Mounting Slots
Unit Mounting Slots
Cable Fastening Slots
Figure 3-6: Wall Mounting Plate
Manual Revision: 3.0
Indoor SU-R Units
3-11
Connecting Antenna(s) to the Units
For installation convenience, a torque key is included with all
BreezeACCESS SU-ID and AU-ID units.
WARNING:
The use of improper tools for tightening antenna connection cables to BreezeACCESS
units may result in damage to the cable connectors.
Use the included torque key to tighten the cable(s) to the connector(s)
on the side of the unit. The key is designed to prevent over tightening of
the screws and protects the connectors from damage.
Tighten the cable(s) to the connector(s) using the torque key.
Figure 3-7: Tightening the Cable(s) to the Connector(s)
If excessive pressure is applied to tighten the screws, the torque key will
break.
NOTE:
Do not attempt to tighten the screws any further. This may damage the connectors on
the BreezeACCESS unit.
Connecting the Unit to the Power
Supply and to the CPE
The unit operates on a power input of 5VDC, supplied by the power
transformer included with the unit.
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BreezeACCESS Version 4.3 Installation
3-12
1. Plug the output jack of the power transformer into the DC input jack (marked
DC IN 5V) located on the side of the unit.
2. Connect the power transformer to a power outlet - 110/ 220VAC.
3. Use an Ethernet 10BaseT cable to connect a PC or a hub to the Ethernet port
located on the rear panel of the unit. See Table 3-1‚ page 3-3 for details on
the required type of the Ethernet cable.
4. For Subscriber Units that support voice, use the telephone cord to connect
the telephone port, located on the rear panel of the unit, to the user’s
telephone set.
Manual Revision: 3.0
BreezeACCESS II
Version 4.3
Revision 3.0
System Manual Book 3:
Commissioning
Commissioning
Table of Contents
Setting Basic Parameters .......................................1-1
Accessing the Monitor Program ..............................................1-2
Accessing the Monitor Program using
the RS 232 MON Connector ..............................................1-2
Accessing the Monitor Program using Telnet .....................1-3
Operating the Monitor Program ..........................................1-4
Configuring Basic Parameters in Access
and Subscriber Units .................................................................1-5
Configuring Parameters in GU-A-BS Units .............................1-6
Introduction .........................................................................1-6
Optimizing the Wireless Link ...................................2-1
Configuring the Maximum Data Rate (Subscriber Units) ....2-2
Aligning the Antenna of the SU-A/E Subscriber Unit .............2-3
Configuring the Transmit Power of the AU-RE .......................2-4
Positioning the SU-I or SU-R Subscriber Unit
with Omni Antennas for Optimal Operation ............................2-5
Aligning the External Antenna of SU-R and SU-I-D Units ......2-6
BS-GU Connectors ...................................................3-1
Connecting External Devices to the BS-GU AL IN
and/or AL OUT Connectors ......................................................3-2
Alarms In Cable ..................................................................3-2
Alarms Out Cable ...............................................................3-3
GPS Cable .........................................................................3-3
SYNC Cable .......................................................................3-5
Verifying Proper Operation ......................................4-1
Verifying Connectivity ...............................................................4-2
Verifying the Ethernet Connection ......................................4-2
Verifying Data Connectivity (Subscriber Unit) ....................4-2
Verifying Telephone Connectivity
(Subscriber Units with Voice support) ...............................4-2
Verifying Proper Operation of the GU-A-BS GPS Unit .......4-3
LED Indicators ...........................................................................4-4
SU-RA/RE Outdoor Units LEDs .........................................4-4
ii
BreezeACCESS Version 4.3 Commissioning
AU-RA/RE Outdoor Units LEDs ......................................... 4-4
SU-NI and AU-NI Indoor Units LEDs ................................. 4-5
BS-PS DC Power Supply Module LEDs ............................ 4-5
BS-PS-AC AC Power Supply Module LEDs ...................... 4-5
BS-AU LEDs ...................................................................... 4-6
BS-GU LEDs ...................................................................... 4-6
SU-R LEDs ........................................................................ 4-7
SU-I/SU-I-D LEDs .............................................................. 4-7
AU-I/AU-I-D LEDs .............................................................. 4-8
Chapter 1
Setting
Basic Parameters
About This Chapter
This chapter explains how to configure the basic parameters of the
BreezeACCESS system and includes the following section:
Accessing the Monitor Program‚ page 1-2, explains how to
accessyour BreezeACCESS units for configuration.
Configuring Basic Parameters in Access and Subscriber Units‚
page 1-5, outlines the basic configuration process for
BreezeACCESS AU and SUs.
Configuring Parameters in GU-A-BS Units‚ page 1-6, outlines the
basic configuration process for BreezeACCESS BS-GU units.
BreezeACCESS Version 4.3 Commissioning
1-2
Accessing the Monitor
Program
Accessing the Monitor Program
using the RS 232 MON Connector
1. Use the monitor cable to connect the MON connector of the unit to the COM
port of your ASCII ANSI terminal or PC. The COM port connector on the
monitor cable is a 9-pin D-type plug.
2. Run a terminal emulation program (such as HyperTerminal™).
3. Set the communication parameters as follows:
Baud Rate
9600
Data Bits
Stop Bits
Parity
None
Flow Control
Xon/Xoff
Connector
Connected COM port
4. Press Enter. The Select Access Level menu appears. Select the access level
according to your authorized access level. You will be requested to enter
your password. After entering the correct password, press Enter.
Table 1-1‚ page 1-2 lists the default passwords for each of the access
levels.
Table 1-1: Default Passwords
Access Rights
Password
Read Only
public
Installer
user
Administrator
private
NOTE:
Following three unsuccessful login attempts (using incorrect passwords) from either the
monitor port or via Telnet, the monitor program will be blocked for five minutes. To
access the monitor program during this time, the unit must be reset (via SNMP or by
disconnecting/reconnecting power).
Manual Revision: 3.0
Setting Basic Parameters
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BreezeACCESS/AU-BS
Official Release Version – 4.0.40
Release Date: Thu Dec 20 20:21:36 2001
Main Menu
=====================
1 – Info Screens
2 – Unit Control
3 – Basic Configuration
4 – Site Survey
5 – Advanced Configuration
X – Exit
>>>
Figure 1-1: Main Menu – Administrator Access Rights (SU and AU)
The appearance of the Main Menu varies in accordance with the set
access level.
For users with Read Only access rights, only the Info Screens option
is displayed. Users with this access level cannot access the Unit
Control, Basic Configuration, Site Survey and Advanced
Configuration menus.
For users with Installer access rights, the first four menu items (Info
Screens, Unit Control, Basic Configuration and Site Survey) are
displayed. Users with this access level cannot access the Advanced
Configuration menu.
For users with Administrator access rights, the full Main Menu will
be displayed. These users can access all the menu items.
NOTE:
The Main Menu of the BS-GU (GPS and Alarms module) does not include the Basic
Configuration option.
Accessing the Monitor Program
using Telnet
1. Connect a PC to the Ethernet port of the unit. See the table below to
determine the type of cable. Configure the PC’s IP parameters to enable
connectivity with the unit (the default IP Address is 10.0.0.1). Run the Telnet
application.
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Table 1-2: Required Type of Ethernet Cable
Unit Type
Connection to a
PC
Connection to a
Hub
All SU-R Units and Subscriber Units that support a
single Ethernet device (SU-1D, SU-1D1V)
Straight
NA
Subscriber Units (excluding SU-R Units) that
support multiple Ethernet devices
(SU-BD, SU-BD1V)
Crossed
Straight
Access Units
Crossed
Straight
GPS module
Straight
Crossed
2. The Select Access Level menu appears. Select the access level according to
your authorized access rights. You will be requested to enter your
password. After entering the correct password press Enter. Default
passwords are listed in Table 1-1‚ page 1-2.
3. The Main Menu appears. Proceed as you would after connecting via the
MON port.
Operating the Monitor Program
1. Type an option number to open/activate the option. You may need to press
Enter in some cases.
2. Press Esc to exit a menu or option.
3. You can log-out and exit the monitor program from the Main Menu by
selecting X (exit). (To get to the Main Menu from anywhere in the program,
press the Esc key several times). You can also exit the monitor program
from anywhere in the program by simultaneously pressing the Ctrl and X
keys.
NOTE:
The program will terminate automatically after a given period of inactivity specified by
the Log-Out Timer parameter.
4. Reset the unit after making configuration changes for the new values to take
effect.
Manual Revision: 3.0
Setting Basic Parameters
1-5
Configuring Basic Parameters
in Access and Subscriber
Units
The Basic Configuration menu in the Monitor program includes all the
parameters necessary for the initial operation of BreezeACCESS
Subscriber and Access Units. In many installations, most of these
parameters should not be changed from their default values. The
following list includes the basic parameters and their default values:
Table 1-3: Subscriber and Access Units Basic Parameters
Parameter
Default Value
Comment
IP Address
10.0.0.1
Subnet Mask
255.0.0.0
Default Gateway Address
0.0.0.0
DHCP Option
Disable
Access to DHCP
AU: From Ethernet Only
SU: From Wlan Only
Hopping Set (AU)
Hopping Sequence (AU)
Hopping Sync
(AU-BS only)
Idle
Transmit Antenna
(SU-R, SU-I/AU-I)
Antenna 1
Transmit Power Control
(IF-based units)
15
Power Level
(SU-R, SU-I/AU-I with HW
revision C or lower)
High
Transmit Level (SU-I/AU-I
with HW revision D or higher)
17
ATPC Option
(IF-based units)
AU Disable
SU: Enable
1. Cannot be changed in units
configured to country standard
US FCC, Canada and Australia.
2. If synchronization without
GPS is to be supported, one AU
should be configured to Master,
all other AUs should be
configured to Slave.
3. When GPS is used for
synchronization, all AUs should
be configured to Slave.
Cannot be changed in units
configured in the factory to
“Low” for compliance with local
regulations.
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1-6
Table 1-3: Subscriber and Access Units Basic Parameters
Parameter
Default Value
Receive Attenuation Control
(IF-based SU)
Scanning Mode (SU)
Active
ESSID
ESSID1
Operator ESSID Option (AU)
Enable
Operator ESSID (AU)
ESSID1
Best AU Support (SU)
Disable
Preferred AU MAC Address
(SU)
00-00-00-00-00-00 (none)
VLAN Link Type
Hybrid Link
VLAN ID – Management
65535
Authentication Algorithm
Open System
Default Key ID (SU)
WEP Key 1-4
0000000000 (none)
Comment
Applicable only when Best AU
Support is enabled
In the SU, can be changed to
Shared Key only after
configuring the WEP Key and
the applicable Default Key ID.
In the AU at least one WEP key
must be configured.
: Subscriber and Access Units Basic Parameters: Once the basic
parameters are configured, the unit must be reset in order to activate
the new configuration.
Configuring Parameters in
GU-A-BS Units
Introduction
This section describes all the parameters that are necessary for the
initial installation and operation of GU-A-BS units. Once the unit is
properly installed and operational, other parameters can be configured
using the monitor program via Telnet or SNMP management.
NOTE:
The BS-GU does not have an external MON port, and therefore must be configured
using Telnet.
Since all the parameters needed are found in the Advanced
Configuration menu, Administrator level access is required in order to
configure a GU-A-BS unit.
Manual Revision: 3.0
Setting Basic Parameters
1-7
Refer to Book 4: Operation and Administration for detailed information
on the applicable parameters.
In many installations, most of these parameters should not be changed
from their default values. The following list includes the basic
parameters and their default values:
Table 1-5: GU-A-BS Units Basic Parameters
Parameter
Default Value
IP Address
10.0.0.1
Subnet Mask
255.0.0.0
Default Gateway Address
0.0.0.0
DHCP Option
Disable
Number of Hopping
Frequencies
Comment
According to the Number of
Hopping Frequencies in the AUs
Automatic Recovery Option
Disable
VLAN ID – Management
65535
Not Applicable to “slave”
modules.
Once the basic parameters are configured, the unit must be reset in
order to activate the new configuration.
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Manual Revision: 3.0
BreezeACCESS Version 4.3 Commissioning
Chapter 2
Optimizing
the Wireless Link
About This Chapter
This chapter explains how to optimize the performance of the wireless
link of BreezeACCESS Subscriber Units and includes the following
sections:
Configuring the Maximum Data Rate (Subscriber Units)‚
page 2-2, explains how to read the RSSI measurement and to
configure the optimum value for the Maximum Data Rate parameter.
Aligning the Antenna of the SU-A/E Subscriber Unit‚ page 2-3,
gives tips and instructions for aligning the antenna of the SU-A/E
for optimum performance.
Configuring the Transmit Power of the AU-RE‚ page 2-4, gives
instructions on configuring the transmit power for compliance with
FCC rules.
Positioning the SU-I or SU-R Subscriber Unit with Omni
Antennas for Optimal Operation‚ page 2-5, gives tips and
instructions for setting up units for optimum signal strength.
Aligning the External Antenna of SU-R and SU-I-D Units‚
page 2-6, gives tips and instructions for setting up the external
antennas of units for optimal signal strength.
BreezeACCESS Version 4.3 Commissioning
2-2
Configuring the Maximum
Data Rate (Subscriber Units)
The BreezeACCESS units transmit at data rates of 3 Mbps, 2 Mbps and
1Mbps. If the quality of the link is not sufficient, it is recommended to
decrease the value of the Maximum Data Rate. Note that the higher the
data rate, the higher the error rate.
Before reaching a decision on the optimum value for the Maximum Data
rate for a specific SU, it is recommended to acquire the RSSI results
from the AU. These indicate the level at which the AU receives
transmissions from the specific SU (uplink RSSI).
The per SU uplink RSSI can be viewed at the AU as follows:
1. From the Main Menu, select Site Survey.
2. In the MAC Address Database submenu, select the Display Association
Info option.
If the installer cannot access the AU (e.g. using Telnet) and cannot
obtain the measurements from the system administrator, the link
quality can be estimated based on the RSSI measurement in the SU as
follows:
1. From the Main Menu, select Site Survey.
2. Select the Continuous Link Quality Display option.
Using the assumption that the link is more or less symmetrical,
this value is a good indication to the level at which the SU is
received by the AU.
Once the RSSI results have been obtained, proceed as follows:
1. If the measured RSSI is less than a certain threshold, it is
recommended to decrease the Maximum Data Rate of the SU in
accordance with the following table (including a 3 dB safety margin
above the applicable sensitivity thrshold).
Table 2-1: Maximum Data Rates and RSSI
Maximum Data
Rate
3 Mbps
2 Mbps
1 Mbps
SU-A/E
RSSI>-70dBm
-78dBm-64dBm
-71dBm-65dBm
-74dBm>>
Figure 1-1: Main Menu – Administrator Access Rights (SU and AU)
The appearance of the Main Menu varies in accordance with the set
access level.For users with Read Only access rights, only the Info
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Screens option is displayed. Users with this access level cannot
access the Unit Control, Basic Configuration, Site Survey and
Advanced Configuration menus.
For users with Installer access rights, the first four menu items
(Info Screens, Unit Control, Basic Configuration and Site Survey) are
displayed. Users with this access level cannot access the Advanced
Configuration menu.
For users with Administrator access rights, the full Main Menu will
be displayed. These users can access all the menu items.
NOTE:
The Main Menu of the GU-BS (GPS and Alarms module) does not include the Basic
Configuration option.
Operating the Monitor
Program
1. Type an option number to open/activate the option. You may need to press
Enter in some cases.
2. Press Esc to exit a menu or option.
3. You can log-out and exit the monitor program from the Main Menu by
selecting X (exit). To get to the Main Menu from anywhere in the program,
press the Esc key several times. You can also exit the monitor from
anywhere in the program by simultaneously pressing the Ctrl and X keys.
NOTE:
The program will terminate automatically after a given period of inactivity specified by
the Log-Out Timer parameter.
4. Reset the unit after making configuration changes for the new values to take
effect.
NOTE:
Most parameters take effect only after the unit is reset. However, some parameters
take effect immediately (run-time configurable). Appendix D includes information on all
parameters, including which are run-time configurable.
Manual Revision: 3.0
Chapter 2
Menus
and Parameters
About This Chapter
This chapter describes the BreezeACCESS configuration menus and
parameters. It includes the following sections:
Main Menu‚ page 2-2.
Info Screens Menu‚ page 2-3.
Unit Control Menu‚ page 2-6.
Basic Configuration Menu‚ page 2-13.
Site Survey Menu‚ page 2-15.
Advanced Configuration Menu‚ page 2-36.
BreezeACCESS Version 4.3 Operations and Administration
2-2
Main Menu
From the Main Menu you can access the following menus, depending on
your access level:
Info Screens – Provides read-only display of current parameter
values. Available at all access levels.
Unit Control – Enables access to general operations such as
resetting the unit, loading the default parameters, changing
passwords and switching between software versions. Available at
the Installer and Administrator access levels.
Basic Configuration – Enables access to the set of parameters that
should be configured as a part of the installation process. These
parameters are also accessible from the Advanced Configuration
menu. Available at the Installer and Administrator access levels in
SU and AU (does not exist in GU).
Site Survey – Enables activation of certain tests and viewing of
various system counters. Available at the Installer and
Administrator access levels.
Advanced Configuration – Enables access to all system
parameters, including the parameters that are included in the Basic
Configuration menu. Available only at the Administrator access
level.
Exit – Enables log-out and exit from the monitor program. Available
at all access levels.
Manual Revision: 3.0
Menus and Parameters
2-3
Info Screens Menu
BreezeACCESS/AU-BS
Official Release Version – 4.0.40
Release Date: Thu Dec 20 21:05:08 2001
Info Screens
====================
1 – Show Unit Status
2 – Show Basic Parameters
3 – Show Advanced Parameters
S – Show All Parameters
>>>
Figure 2-1: Info Screens Menu
The Info Screens menu enables viewing of the current values of various
parameter sets. The parameter sets are identical to the main parameter
groups in the configuration menus. The user can view a specific
parameter set or can elect to view all parameters (S). This menu is
available for all access levels.
Show Unit Status
The Show Unit Status menu displays the current values of the following
parameters:
Unit Type – Identifies the unit’s function as one of the following:
Access Unit, Subscriber Unit or GPS and Alarms Module.
Unit MAC Address – Displays the unit’s unique IEEE MAC address.
Unit Hardware Version – Displays the hardware version of the unit
(the indoor module of IF based products).
Flash Type – Displays the type and size of the Flash memory.
Flash Versions
Current Version – Displays the software version that is
currently active.
Shadow Version – Displays the software version currently
defined as the shadow (backup) version.
Version After Reset – Displays the software version that will be
used after the next reset.
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Console Speed – Displays the speed defined in the unit for the
connected terminal, used for running the terminal emulation
program.
Number of Associations Since Last Reset – For SUs - displays the
total number of associations with any AU since the last reset,
including duplicate associations with the same AU.
For AUs - displays the number of SUs that have associated with the
AU since the last reset, including duplicate associations with the
same SU.
The following parameters appear for Subscriber Units only:
Voice Hardware Version (SU with voice support only) – Displays
the hardware version of the voice module.
Unit Status – Displays the current status of the SU. There are two
possible values:
SCANNING – The SU is searching for an AU with which to
associate.
ASSOCIATED – The SU is associated with an AU.
AU MAC Address – Displays the MAC address of the AU with which
the unit is currently associated. If the unit is not associated with
any AU, the address will be that of the IEEE broadcast address:
FF-FF-FF-FF-FF-FF.
The following parameter appears for Access Units only:
Current Number of Associations – Displays the total number of
SUs associated with this AU. This number may include units that
are not currently active, as there is no aging algorithm for
associated SUs.
NOTE:
An SU will be removed from the list of associated SUs only upon occurrence of any of
the following: (1) The AU received from another AU a SNAP frame with the SU MAC
address indicating that the SU has become associated with the other AU, or (2) The AU
has decided that the SU aged out following its failure to acknowledge a certain number
of consecutive frames transmitted to it.
Manual Revision: 3.0
Menus and Parameters
2-5
The following parameter appears for GPS Modules only:
Unit Status – Indicates the status of the GPS antenna. Either one of
the following messages may be displayed:
UTC is available; date..; time..: This message indicates
that the GPS antenna has synchronized with the satellite system
and that the BS-GU is functioning properly. The message may
include an incorrect time and date, such as a date in 1999. This
indicates that the GPS antenna has not yet synchronized with
the GPS satellites system.
–Or–
UTC time is not available: This message indicates that the
BS-GU is not getting timing signals from the GPS antenna. If the
antenna is functioning and properly connected to the module,
this may be because the antenna has not yet synchronized with
the GPS satellite system.
Show Basic Parameters
The Show Basic Parameters menu displays the current values of the
parameters included in the Basic Configuration menu
(see Basic Configuration Menu‚ page 2-13). When using Read-Only
access rights the ESSID parameters (ESSID, Operator ESSID, Run Time
ESSID and Neighboring AU ESSID) and WEP Keys are not displayed.
The display includes some additional useful read-only information such
as the Number of Hopping Frequencies in SU and AU.
Show Advanced Parameters
The Show Advanced Parameters menu enables access sub-menus that
display the current values of the parameters included in the applicable
sub-menus of the Advanced Configuration menu
(see Advanced Configuration Menu‚ page 2-36). When using Read-Only
access rights the ESSID parameters (ESSID, Operator ESSID, Run Time
ESSID and Neighboring AU ESSID in Air Interface Parameters), WEP
Keys (Security Parameters) and User Password and Shared Secret
(RADIUS Parameters) are not displayed. The display includes some
additional read-only information such as Number of Hopping
Frequencies (Air Interface Parameters).
Show All Parameters
The Show All Parameters menu displays the current values of all the
parameters included in the Advanced Configuration menu.When using
Read-Only access rights the ESSID parameters (ESSID, Operator
ESSID, Run Time ESSID and Neighboring AU ESSID in Air Interface
Parameters), WEP Keys (Security Parameters) and User Password and
Shared Secret (RADIUS Parameters) are not displayed. The display
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BreezeACCESS Version 4.3 Operations and Administration
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includes some additional useful read-only information such as the
Number of Hopping Frequencies (SU and AU).
Unit Control Menu
The Unit Control menu includes the following options:
Reset Unit – Resets the BreezeACCESS unit and applies any
changes made to the system parameters.
Defaults Settings – Resets the unit to a predefined set of default
parameters or to save the current configuration as Operator
Defaults. The available options are:
Set Defaults – Resets the unit to a set of default parameters.
The following options are available:
Cancel Request – Exits to the Unit Control menu without
any change.
Set Complete Factory Defaults – Available only with
Administrator access rights. Resets the unit to the set of
Alvarion’s standard default values. These are the default
values as defined in this manual for each of the parameters.
After the next reset all parameters will revert to their Factory
Defaults value, except for the parameters that are marked in
the “Complete” column of Table 2-1‚ page 2-7.
NOTE:
Activating Set Complete Factory Defaults will result in loss of connectivity.
If the unit is managed remotely, you may lose the ability to communicate
with it.
Set Partial Factory Defaults – Reverts all parameters to the
values of the Factory Defaults configuration after the next
reset, except for parameters that are necessary to maintain
connectivity and to enable management of the unit and some
other sensitive parameters. The exact list of parameters that
are not changed depends on the access rights of the user.
Referring to Table 2-1‚ page 2-7, the parameters that are
not changed after activating Set Partial Factory
Defaults using Administrator access rights are marked
in the “Partial-Admin” Column. The parameters that are
not changed after activating Set Partial Factory
Defaults using Installer access rights are marked in the
“Partial-Installer” Column.
Manual Revision: 3.0
Menus and Parameters
2-7
Table 2-1: Parameters not changed after Set Complete/Partial Factory Defaults
Parameter
Complete
Partial –
Admin
Partial Installer
Unit Control Parameters
√
Passwords
√
√
Event Log Policy
√
Auto Configuration Option
√
IP Parameters
IP Address
√
√
Subnet Mask
√
√
Default Gateway Address
√
√
DHCP Option
√
√
Access to DHCP
√
√
ESSID
√
√
Operator ESSID Option
√
√
Operator ESSID
√
√
Best AU Support
√
√
Preferred AU MAC Address
√
√
ACSE Option
√
√
Dwell Time
√
√
√
√
Hopping Set
√
√
Hopping Sequence
√
√
Transmit Antenna (SU-R, SU-I, AU-I)
√
√
Acknowledge Delay Limit
√
√
MAC Address Black List
√
√
VLAN Link Type
√
√
VLAN ID – Data
√
√
VLAN ID – Management (or Management
& Voice)
√
√
VLAN Forwarding Support
√
√
Forwarding VLAN IDs
√
√
VLAN Relaying Support
√
√
Relaying VLAN IDs
√
√
VLAN Priority – Data
√
√
VLAN Priority – Management
√
√
Air Interface Parameters
√
VLAN Parameters
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BreezeACCESS Version 4.3 Operations and Administration
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(Continued)
Parameter
Complete
Partial –
Admin
Partial Installer
VLAN Priority – Voice
√
√
VLAN Priority Threshold
√
√
VLAN Priority Tag
√
√
Authentication Algorithm
√
√
Default Key ID
√
√
WEP Key 1 to 4
√
√
Security Parameters
Network Management Parameters
Access To Network Management
√
Network Management Filtering
√
Network Management IP Addresses
√
Send SNMP Traps
√
Per Trap Control (all Send Trap Parameters)
√
SNMP Traps IP destination
√
SNMP Traps Community
√
Ports Control Parameters
Ethenet Port Control
√
√
Voice Port Control
√
√
RADIUS Parameters
√
RADIUS User Name
√
RADIUS User Password
√
RADIUS Shared Secret
√
Authentication Option
√
RADIUS Server Authentication IP address
√
RADIUS Server Authentication Port
√
Accounting Option
√
RADIUS Server Accounting IP address
√
RADIUS Server Accounting Port
√
Accounting Interval
√
Manual Revision: 3.0
Menus and Parameters
2-9
Set Complete Operator Defaults – Available only with
Administrator access rights. Set the unit to its’ Operator
Defaults configuration. After the next reset, all parameters
will revert to their Operator Defaults values, except for the
parameters that are marked in the “Complete” column of
Table 2-1‚ page 2- . Operator Defaults configuration can be
defined by the Administrator (see Save Current
Configuration As Operator Defaults below). It may also be
defined at the factory according to customer’s definition. The
default Operators Defaults configuration is the Factory
Defaults configuration.
The complete Operator Defaults Configuration file can be
downloaded/uploaded using TFTP with the SNMP Write
community string. The procedure is the same as for
downloading/uploading configuration files, except that
the extension used for the file name is .cmr.
Examples (using the default SNMP Write community
string):
To upload the configuration file using DOS based TFTP
Client to an SU whose IP address is 206.25.63.65:
tftp 206.25.63.65 put Suconf private.cmr.
To download the configuration file from the same unit:
tftp 206.25.63.65 get private.cmr Suconf
NOTE:
Activating Set Complete Operator Defaults will result in loss of connectivity.
If the unit is managed remotely, you may lose the ability to communicate with it.
Set Partial Operator Defaults – Reverts all parameters to the
values of the Operator Defaults configuration after the next
reset, except for parameters that are necessary to maintain
connectivity and to enable management of the unit and some
other sensitive parameters. The exact list of parameters that are
not changed depends on the access rights of the user.
Referring to Table 2-1‚ page 2-7, the parameters that are not
changed after activating Set Partial Operation Defaults using
Administrator access rights are marked in the “Partial-Admin”
Column. The parameters that are not changed after activating
Set Partial Operator Defaults using Installer access rights are
marked in the “Partial-Installer” Column.
Save Current Configuration As Operator Defaults – Defines
the current configuration of the unit as the Operator Defaults
configuration. This option is only available with Administrator
access rights.
Change Unit Name – Changes the name of the unit, which is also
the system name in MIB2. This name is also used as the prompt of
the monitor program menus.
Valid values: A string of up to 32 printable ASCII characters.
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Change Password – Changes the password(s). A user with Installer
access rights can change the passwords for Read Only and Installer
levels. A user with Administrator access rights can change the
passwords of all levels.
Valid values: A string of up to 8 printable ASCII characters.
Table 1-1‚ page 1-2 lists the default passwords for each of the access
levels.
NOTE:
The Passwords are not changed upon setting the unit to default values (either Partial
or Complete).
Flash Memory Control – Selects the active software version. The
following options are available:
Reset and Boot from Shadow Version – Activates the Shadow
(backup) software version. The unit resets automatically and
loads the shadow firmware.
Use Current Version After Reset – Defines the current version
as the one that will be activated and used after the next reset.
The flash memory can store two software versions. One version is
called Current and the other is called Shadow. New software
versions are loaded as the Shadow version. You can select the
Shadow version as the new active version by selecting Reset and
Boot from Shadow Version. However, after the next reset, the
Current version will be activated again. If you wish to continue
using the currently active version after the next reset, select Use
Current Version After Reset.
The parameters configured in the unit are not changed as a result of
downloading new software versions (unless the new version includes
additional parameters or other changes in the list of parameters).
New parameters are loaded with their default values.
Console Speed – Defines the speed at which the unit communicates
with the terminal running the terminal emulation program. This
parameter must be changed prior to changing the speed of the
terminal connected to it.
The allowed speeds are: 9600, 19200, 38400, 57600 and 115200
baud.
The default value is 9600 baud.
Log Out Timer – Enters a new Log Out Timer value. If the monitor
program is not used for the specified time, the unit will
automatically exit the monitor program.
The allowed range is 1 to 999 minutes.
The default value is 5 minutes.
Event Log Menu – Controls the event log feature. The event log is
an important debugging tool and a flash memory sector is dedicated
Manual Revision: 3.0
Menus and Parameters
2-11
for storing it. Events are classified according to their severity level:
Trace (lowest severity), Message, Warning, Error or Fatal (highest
severity).
The severity at which events are saved in the Event Log is
configurable. Events from the configured severity and higher are
saved and may be displayed upon request. Log history can be
displayed up to the full number of current active events. In the log
an event is defined as active as long as it has not been erased (a
maximum of 1000 events may be displayed). The error log may be
read using TFTP, with remote file name .log (the default SNMP Read Community is public).
The Event Log Menu includes the following options:
Event Log Policy – Determines the minimal severity level. All
events whose severity is equal to or higher than the defined
severity are logged.
Valid values are: Log All (TRC) Level, Message (MSG) Level,
Warning (WRN) Level, Error (ERR) Level, Fatal (FTL) Level,
Log None.
The default selection is Fatal (FTL) Level.
Display Event Log – Displays how many events are logged and
selects the number of events to be displayed (up to 1000). The
display of each event includes the event time (elapsed time since
last reset), the severity level and a message string. The events
are displayed in descending order, with the most recent event
displayed first.
Erase Event Log – Clears the event log.
Auto Configuration Parameters – A sub-menu that contains the
parameters related to using the Auto Configuration mechanism. The
Auto Configuration mechanism is intended to simplify the
configuration process through automatic loading of a configuration
file from a TFTP server. The Auto Configuration process is based on
getting from a DHCP server the address of the TFTP server and the
name of the configuration file to be loaded. This information is used
by the unit to initiate a session with the TFTP server, requesting
transfer of the applicable configuration file. Upon completing the
process of loading the new configuration file, the unit will reset
automatically so that the new configuration will take effect.
The following conditions must be met to enable the use of the Auto
Configuration process:
a.
The DHCP Option (see page 2-37) in the unit must be
configured to either DHCP Only or Automatic mode to enable
communication with the DHCP server.
b.
The unit must be able to communicate with the DHCP server,
according to the configured option of the Access to DHCP
parameter (see page 2-37).
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BreezeACCESS Version 4.3 Operations and Administration
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c.
The address of the TFTP server and the proper name of the
configuration file must be configured in the DHCP server:
The Server Address should be specified in the ‘sname’ field of
the DHCP header. The code for this option is 66, and the
minimum length is 1. It must include a legal IP address, with
a maximum length of 64 characters (maximum length
includes spaces. Extra characters will be ignored).
The Configuration File Name should be specified in the ‘file’
field of the DHCP header. The code for this option is 67, and
the minimum length is 1. The maximum length is 128
characters (maximum length includes spaces. Extra
characters will be ignored).
The unit shall initiate a request for a configuration file in the
following cases (provided the DHCP Option is enabled):
a.
After power-up reset (HW reset), provided the Auto
Configuration Option is enabled.
b.
Upon enabling the Auto Configuration Option.
c.
Upon a user initiated request.
NOTE:
If the response messages from the DHCP server after the requests for TFTP Server
Name and Boot File Name do not include these options, or if invalid values have been
received, this DHCP server will not be used for automatic IP parameters assignment.
The Auto Configuration Parameters sub-menu includes the
following options:
Auto Configuration Option – To disable or enable the Auto
Configuration mechanism.
The default is Disable.
Request Auto Configuration – To initiate an Auto
Configuration process.
NOTE:
Upon completion of the Auto Configuration process the unit will reset
automatically.
Show Auto Configuration Parameters – Displays the status of
the Auto Configuration Option and the Auto Configuration
Received Status (Received/Not Received), indicating whether
an Auto Configuration File has been received.
SNMP Read ESSID – This parameter is available only under
Administrator access rights. For security reasons, the values of
some parameters, including ESSID and Run Time ESSID, can be
viewed (get) using SNMP only with the Write Community string, and
are not available with the Read Community string. When this
parameter is enabled, it allows viewing (get) the values of ESSID and
Run Time ESSID with the Read Community string as well.
Manual Revision: 3.0
Menus and Parameters
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Basic Configuration Menu
The Basic Configuration menu includes all the parameters that are
necessary for the initial installation and operation of the unit. Once the
unit is properly installed and operational, other parameters can be
configured either locally using the monitor program or remotely using
Telnet, SNMP management or TFTP for loading to the unit a
pre-prepared configuration file.
For more information about the initial configuration of BreezeACCESS
units, see Book 3: Commissioning.
The Basic Configuration menu includes the following submenu
parameters:
IP Parameters
IP Address (see page 2-36)
Subnet Mask (see page 2-36)
Default Gateway Address (see page 2-36)
DHCP Client (see page 2-37)
Air Interface Parameters
ESSID (see page 2-40)
Operator ESSID Parameters (AU) (see page 2-40)
Hopping Sequence (see page 2-37)
Hopping Set (see page 2-38)
Hopping Sync (AU-BS) (see page 2-39)
Transmit Antenna (SU-R, SU-I/I-D) (see page 2-50)
Transmit Power Control (IF-based units) (see page 2-44)
ATPC Option (IF-based units) (see page 2-47)
Receive Attenuation Control (IF-based SU) (see page 2-50)
Power Level (SU-R and SU-I/AU-I only) (see page 2-45)
Best AU Parameters (SU) (see page 2-41)
Best AU Support
Preferred AU MAC Address
Maximum Data Rate (SU) (see page 2-47)
Scanning Mode (SU) (see page 2-52)
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VLAN Parameters
VLAN ID – Management (AU and SU without voice support)
(see page 2-57)
VLAN ID – Voice & Management (SU with voice support)
(see page 2-58)
VLAN Link Type (see page 2-59)
Security Parameters
Authentication Algorithm (see page 2-81)
Default Key ID (see page 2-82)
WEP Key # 1 (see page 2-82)
WEP Key # 2 (see page 2-82)
WEP Key # 3 (see page 2-82)
WEP Key # 4 (see page 2-82)
NOTE:
All parameters in the Basic Configuration menu are also available in the appropriate
submenus of the Advanced Configuration menu.
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Menus and Parameters
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Site Survey Menu
The Site Survey menu provides various tests and counters for verifying
the quality of the wireless link and the proper operation of the unit.
These tests can be used to help determine where to position the units
for optimal coverage, to align antennas and to assist in troubleshooting.
Traffic Statistics (AU and SU)
The traffic statistics can be used to monitor, interpret and analyze the
wired and wireless links performance. The traffic statistics counters
display statistics concerning wireless link and Ethernet frames. The
menu includes the following options:
Display Counters – Choose this option to display the current value
of the Ethernet and Wireless Link Counters.
Reset Counters – Choose this option to reset all the counters.
Ethernet Counters
The unit receives Ethernet frames from its Ethernet port and forwards
them to its internal bridge which decides whether the frame should be
transmitted to the wireless media. Frames that were discarded by the
unit’s hardware filter are not counted by the Ethernet counters.
The unit transmits valid data frames that were received from the
wireless media to the Ethernet port, as well as some internally
generated frames (e.g. responses to management queries and pings that
reached the unit from the Ethernet port).
Total received frames via Ethernet – Displays the total number of
frames received from the Ethernet port.
Transmitted wireless to Ethernet – Displays the number of frames
transmitted by the unit to the Ethernet port. These are usually
frames that have been received from the wireless side, but also
frames generated by the unit itself.
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Wireless Link Counters
The unit transmits data frames received from the Ethernet port, as well
as self-generated control and wireless management frames, to the
wireless media. After transmission of a unicast frame, the unit waits for
an acknowledgement (ACK) message from the receiving unit. Some
control and wireless management frames as well as broadcast and
multicast frames that are sent to more than one unit are not
acknowledged. If an ACK is not received after a predefined time
(determined by the Acknowledge Delay Limit parameter, see
page 2-48), the unit will retransmit the frame until it receives an ACK. If
an ACK is not received before the number of retransmissions has
reached a maximum predefined number (Number of Retransmissions
parameter, see page 2-69), it stops retransmitting and drops the frames.
Total transmitted frames to wireless – Displays the number of
frames transmitted to the wireless media. The total includes one
count for each data or RTP frame (internally generated voice frame)
that was transmitted successfully (excluding retransmissions) as
well as the number of transmitted control and wireless management
frames.
If the ACSE Option (see page 2-51) is enabled, then in addition to
the total count, there are also separate counters for the total
number of data frames, voice (RTP) frames and beacon frames. The
voice frames include fax frames. This is true also for Subscriber
Units that do not support voice in cells where the ACSE Option
parameter in the AU is enabled. In this case the Voice count should
be 0.
Total transmitted unicast frames to wireless - Displays the
number of unicast frames successfully transmitted to the wireless
media, excluding retransmissions. This count is useful for
calculating the rates of retransmissions or dropped frame, since
only unicast frames are retransmitted if not acknowledged.
Total submitted frames (bridge) – Displays the total number of
data and RTP frames submitted to the bridge for transmission to the
wireless media. The count does not include control frames, wireless
management frames, and retransmissions.
In addition to the total count, there are also separate counts for
frames according to the priority queue to which they were routed
(Low, Mid, or High).
If the ACSE Option is enabled, then the Low, Mid and High counts
are for data frames only and there is an additional counter for voice
(RTP) frames. The voice frames count includes fax frames. This is
true also for Subscriber Units that do not support voice in cells
where the ACSE Option in the AU is enabled. In this case the Voice
count should be 0.
Frames dropped (too many retries) – Displays the number of
dropped frames. The frames that were retransmitted to the extent of
the maximum allowed number of retransmissions without being
acknowledged.
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Menus and Parameters
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If the ACSE Option is enabled, then in addition to the total count,
there are also separate counters for total number of data frames and
voice (RTP) frames. The voice frames count includes fax frames. This
is true also for Subscriber Units that do not support voice in cells
where the ACSE Option in the AU is enabled. In this case the Voice
count should be 0.
Total retransmitted frames – Displays the total number of
retransmissions of frames (counts all unsuccessful
transmissions/retransmissions).
If the ACSE Option is enabled, then in addition to the total count,
there are also separate counters for total number of Data frames
and Voice (RTP) frames. This is true also for Subscriber Units that
do not support voice in cells where the ACSE Option in the AU is
enabled. In this case the Voice count should be 0.
Total Tx errors – Displays the number of transmit errors that have
occurred. The total number of Tx errors includes transmissions that
were not acknowledged properly, transmissions that were aborted
and transmissions that were delayed for various reasons (e.g. not
enough time until the end of the current dwell period).
In addition, the following special counters are displayed to indicate
the reason for the error:
H/W: An internal hardware problem in the modem.
ABR: The transmission was aborted before completion because
of internal problems in the DSP.
CSL: The transmission was cancelled because the modem was
busy in receiving data.
ACKTOUT (Acknowledge Timeout): The frame was not
acknowledged within the time defined by the Acknowledge
Delay Limit parameter.
FAIL: There was an internal timeout in the modem.
ACKCRC: There was a CRC error in the ACK message.
RTSC: The RTS was sent but no CTS was received (RTS
collision).
EOD (End of Dwell): There was not enough time left to transmit
the message
Total received frames from wireless – Displays the total number
of frames that were received from the wireless media. The count
includes data, control and wireless management frames, including
beacons received from the AU. The count does not include frames
that were discarded internally, bad frames and duplicate frames.
Total received data frames – Displays the total number of data
frames received from the wireless media, including duplicate frames
(see Duplicate frames discarded, below). In addition to the total
count, there are also separate counts for data frames according to
the receive priority queue to which they were routed (Low or High).
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Bad fragments received – Displays the number of frames received
from the wireless media with errors (CRC errors).
Duplicate frames discarded – Displays the number of frames
discarded due to receiving multiple copies. If an acknowledge
message was not received by the originating unit, the same data
frame can be properly received twice (or more). Although duplicate
frames are included in all counters that count data frames, only the
first copy is forwarded to the Ethernet port.
Internally discarded MIR/CIR – Displays the number of data
frames received from the Ethernet port that were discarded by the
MIR/CIR mechanism to avoid exceeding the maximum allowed
information rate.
Voice Statistics (SU with Voice
Support Only)
The voice statistics counters display information concerning voice and
fax traffic, including T.38 redundant fax traffic. The displayed
information includes the accumulated numbers since the last reset for
transmitted and received RTP frames and bytes.
Display Counters – Displays the current value of the following voice
counters.
Voice Frames Transmitted
Voice Frames Received
Voice Bytes Transmitted
Voice Bytes Received
Reset Counters – Resets the voice counters.
Per Hop Statistics (AU and SU)
The Per Hop Statistics provide information on performance of the
wireless signal at different hopping frequencies. The Per Hop Statistics
menu includes the following options:
Display Counters – Displays the continuously updated statistics.
Reset Counters – Resets the Per Hop Statistics counters.
The Display Counters option displays various statistics for each of the
hopping frequencies. In addition, it displays some general wireless link
performance statistics.
Manual Revision: 3.0
Menus and Parameters
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Hopping Statistics
Num
The number of the information row, assigned automatically and
sequentially by the program.
Freq
The hopping frequency, according to the hopping sequence.
Rx
The accumulated number of frames received at the specified frequency
since last reset.
Tx
The accumulated number of frames transmitted successfully at the
specified frequency since last reset.
RTx
The accumulated number of frames re-transmitted at the specified
frequency since last reset.
avrDBM
(avrRSSI)
The average RSSI (Received Signal Strength Indication) in dBm or
RSSI units (according to the RSSI Display Option) of all the frames
received at the specified frequency since the last reset. If no frames have
been received, the avrRSSI is NA (Not Available).
The Rx, Tx and RTx per hop counters accumulate the number of
applicable frames since last reset. The counters can also be reset using
the Reset Counters option in either the Per Hop Statistics menu or in
the Traffic Counters menu.
The general rate (Frames per second) statistics is the average rate
during the last 64 hops.
The display is continuously updated. Press any key to exit.
Ping Test (AU, SU and GU)
The Ping Test menu includes the following options:
Destination IP Address – Displays the IP address of the destination
unit for pinging. Allows entering an IP address (4 x 3 digit octets,
separated by dots).
The default IP address is 192.000.000.001.
No. of Pings – Enter the number of ping attempts per session.
The allowed range is from 0 to 9999. Select 0 for continuous
pinging.
The default value is 1.
Ping Frame Length – Enter the ping packet size.
The allowed range is from 60 to 1472 bytes.
The default value is 64 bytes.
Ping Frame Timeout – Enter the ping frame timeout, which is the
amount of time (in ms) to wait between ping attempts.
The allowed range is from 200 to 60000 ms, in increments of 200
milliseconds (200, 400, 600,……60000).
The default value is 200 ms.
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Start Sending – Starts transmission of ping frames.
Stop Sending – Stops the transmission of ping frames. The test will
end automatically once the number of pings that were sent has
reached the value specified in the No. of Pings parameter (described
above). The Stop Sending option can be used to end the test before
completing the specified number of pings, or if continuous pinging
was selected.
Show Ping Test Values – To display the current values of the ping
test parameters, the transmission status (sending or not), the
number of pings sent, and the number of pings received
(acknowledged frames).
Continuous Link Quality Display
(Available in SU Only)
This option displays continuously updated entries that include
information on the quality of the received signal (Received Signal
Strength Indication or RSSI). Press any key to abort the test.
Each line includes the number of Beacon frames that were received
since the last measurement (total Rx), the average RSSI in dBm or RSSI
units (according to the RSSI Display Option) for these frames
(avrDBM/avrRSSI) and the Error rate (number of retransmitted frames
in the last 100 transmitted frames).
The Error rate is meaningful only when there is traffic from the SU to
the AU. It is recommended to use the Ping Test (see page 2-19) with a
Ping Frame Length of 1472 bytes.
MAC Address Database (Available
in AU Only)
The MAC Address Database displays information on the subscriber
units associated with the AU as well as bridging (forwarding)
information. The following options are available:
Display Bridging & Association Info – Displays a list of all the
Subscriber Units and stations in the Forwarding Database of the
AU. For stations behind an SU, the SU’s MAC address is also
displayed.
Each MAC address entry is followed by a description, as follows:
Et (Ethernet): Addresses that have been learned from the
Ethernet port.
Vp (Virtual port): Addresses of the nodes behind an associated
SU. For these addresses, the address of the SU is displayed in
parenthesis.
St (Static): An associated SU. These entries also include the SW
Version of the SU.
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Menus and Parameters
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Sp (Special): 5 Addresses that always exist:
The MAC address of the AU (appears twice as it is learned
from both the Ethernet and the wireless ports)
Alvarion’s Multicast address (01:20:D6:00:00:01, also twice).
The system handles this address as a Broadcast address.
The Ethernet Broadcast address (FF-FF-FF-FF-FF-FF)
In addition, a summary table displays information about the
Forwarding Database (Bridging Info), the Associated Subscriber
Units Database (Association Info) and the Subscriber Units that are
currently conducting a voice call (Call Info). For each of these
databases, the displayed information includes:
The current number of entries. The number of entries in the
Bridging Info includes the Et (Ethernet) and the Vp (Virtual
ports) entries. The number of entries in the Association Info
includes the associated units.
NOTE:
There is no aging algorithm for associated SUs. An SU will be removed
from the associations database only upon occurrence of any of the following:
(1) The AU received from another AU a SNAP frame with the SU MAC
address indicating that the SU has become associated with the other AU, or
(2) The AU has decided that the SU aged out following its failure to
acknowledge a certain number of consecutive frames transmitted to it.
The aging time specified for entries in these tables (the
defaults are 300 seconds for the Bridge Aging Time, No Aging
for the Association Aging Time and 1800 seconds for the Call
Info table).
The maximum allowed number of entries for these tables
(1019 for the Bridging Info and as specified by the Maximum
Number of Associations parameter for the Association Info
and the Call Info. The default value of the Maximum
Number of Associations is 512).
Display Association Info – Displays details of the associated SUs.
Each entry in the list includes the following information:
The MAC address of the associated Subscriber Unit
The Maximum Data Rate of the SU.
The average level of RF signals received from the Subscriber
Unit.
The wireless status of the SU. There are three options:
Associated
Authenticated
Not Authenticated (a temporary status)
Refer to Table 2-2 for details on the status of the SU during the
various stages of the association process.
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The SW version of the SU.
Table 2-2: Association Process (Active Scanning)
Message
Direction
Status in AU
SU Scanning*
Probe Request
(including ESSID) - Scanning
SU → AU
Probe Response (only if correct ESSID in Probe
Request)
AU → SU
Authentication Request
SU → AU
Not Authenticated
Challenge Text
AU → SU
Not Authenticated
Challenge Text Encrypted
SU → AU
Not Authenticated
Authentication Successful
AU → SU
Authenticated
Association Request
SU → AU
Authenticated
Association Successful
AU → SU
Associated
ACK
SU → AU
Associated
Data Traffic
SU ↔ AU
Associated
SU Synchronized
SU Authenticated
* When passive scanning is used, the Scanning Phase is comprised of
searching for a Beacon frame with the correct ESSID.
Display CIR/MIR Info: Displays details of the CIR/MIR parameters
of the associated SUs. Each entry in the list includes the following
information:
The MAC address of the associated Subscriber Unit.
The SW version of the SU.
MIR/CIR info for the SU:
CIR Tx (SU to AU)
MIR Tx (SU to AU)
CIR Rx (AU to SU)
MIR Rx (AU to SU)
Max. Delay.
Manual Revision: 3.0
Menus and Parameters
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Per-rate Counters (AU and SU)
Resets or displays the per-rate counters. The per-rate counters display
the number of frames (excluding retransmissions) transmitted since the
last reset at each of the rates (1 Mbps, 2 Mbps, 3 Mbps) and the total
number of frames that were retransmitted at each of the rates. In the
AU the information is provided for each of the associated SUs, identified
by their MAC address. The counters in the AU are reset when there is a
new association with an SU (including reassociations).
RSSI Display Option (AU and SU)
In BreezeACCESS units running SW versions 3.X and below, all
measurements of received RF signal levels are displayed using arbitrary
RSSI units. From version 4.0 onward, the conventional dBm
measurement units can be used. However, to support users that prefer
to continue using RSSI units, the RSSI Display option enables selecting
the measurement units to be used for displaying received signal level
values.
Available selections: dBm, RSSI.
Default selection: RSSI.
ATPC Counter (AU and SU)
The ATPC Counter display information related to the number of ATPC
power-up/power-down messages sent or received by the unit since last
reset.
Display Counter – Displays the current value of the ATPC Counter:
ATPC Transmitted Messages (IF-based AU only) – The number
of ATPC power-up/power-down messages that were sent by the
AU since last reset.
ATPC Received Messages (SU only) - The number of ATPC
power-up/power-down messages that were received by the SU
since last reset. This counter is displayed also in units that do
not use ATPC, since the AU sends ATPC messages to all SUs,
including SUs in which the ATPC Option is disabled and SUs
that do not support the ATPC option.
Reset Counter – Resets the ATPC Counter.
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AU Alarms (IF-based AU Only)
The AU Alarms feature enables to identify and alert upon the detection
of a potential problem in the outdoor unit of the AU, or another problem
that causes significant degradation in the performance of the wireless
link.
When the AU Alarms Option is enabled, three types of tests are
performed: Traffic Statistics tests, Power tests and Associations test.
Information is gathered continuously and various calculations used for
decision making are performed each test cycle period that is defined by
the configurable Test Cycle parameter. Alarms can be generated only
after a sufficient time, defined by the configurable Learning Period
parameter, has elapsed since the last reset (or since the AU Alarm
Option was enabled).
Traffic Statistics Tests
The AU gathers traffic information that is used to calculate various
traffic statistics. The calculated statistics are used for estimating the
performance of the wireless link. The following traffic statistics rates are
calculated for each test cycle period:
a. Current Retransmission Rate - Defined as Nr/(Nt+ Nr),
Where:
Nr - Number of retransmissions during the last test cycle
period.
Nt - Number of successfully transmitted unicast frames
during the last test cycle. The minimum value of Nt+ Nr for a
meaningful test is 50 (otherwise the result is NA).
b. Current Dropped Frames Rate - Defined as Nd/Nt, where
Nd is the number of dropped frames during the last test
cycle period. Dropped frames are frames that were drooped
because they were retransmitted to the extent of the
maximum allowed number of retransmissions without being
acknowledged. The minimum value of Nt for a meaningful
test is 50 (otherwise the result is NA).
c. Current CRC Error Rate - Defined as Ncrc/(Nrx+Ncrc),
where:
Ncrc - Number of frames received with a CRC error during
the last test cycle period.
Nrx - Number of successfully received frames during the last
test cycle period.
The minimum value of Nrx+Ncrc for a meaningful test is 50
(otherwise the result is NA).
d. Current Duplicate Frames Rate - Defined as Ndup/Nrx,
where Ndup is the number of dropped frames during the last
test cycle period. The minimum value of Nrx for a meaningful
test is 50 (otherwise the result is NA).
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Based on the RSSI information responses from the SUs, the AU
performs a calculation of the SU Rx Power Average Delta, defined as
the average difference for all SUs between the last RSSI at the SU and
the previous (one before last) RSSI. The average is calculated only for
SUs that responded to both of the last two polling message. The average
is calculated as: Σn=1-N [SURSSIn(t) - SURSSIn(t-1)]/N, where:
SURSSIn(t) - The last RSSI value received from responding
SU number n.
SURSSIn(t-1) - The previous RSSI value received from responding
SU number n.
N - The number of SUs that responded to both last and previous polling
requests.
A Tx Power Level Decrease major severity alarm is generated if the
decrease in the SU Rx Power Average Delta is higher than the value of
the configurable SU Rx Power Decrease Threshold parameter:
-(SU Rx Power Average Delta) > SU Rx Power Decrease Threshold.
The alarm is generated only if the number of SUs used in calculating the
SU Rx Power Average Delta (responded to both of the last two polling
messages) is at least 5.
NOTE:
SUs with SW version below 4.3 will respond to the polling message. However,
the last RSSI value will not be included in the response message. Therefore,
this test is not applicable to cells where all SUs use SW version below 4.3.
The AU also gathers for all responding SUs the RSSI level at which each
SU was received by the AU. Based on these measurements, the AU
performs a calculation of the AU Rx Power Average Delta, defined as
the average difference for all responding SUs between the last RSSI at
he AU and the previous (one before last) RSSI:
Σn=1-N [AURSSIn(t) - AURSSIn(t-1)]/N, where:
AURSSIn(t) - The last RSSI value at which the responding SU number n
was received by the AU.
AURSSIn(t-1) - The previous RSSI value at which the responding SU
number n was received by the AU.
An Rx Signal Strength Decrease major severity alarm is generated if
the decrease in the AU Rx Power Average Delta is higher than the
value of the configurable AU Rx Power Decrease Threshold parameter:
-(AU Rx Power Average Delta) > AU Rx Power Decrease Threshold.
The alarm is generated only if the number of responding SUs used in
calculating the AU Rx Power Average Delta (responded to both of the
last two polling messages) is at least 5.
Manual Revision: 3.0
Menus and Parameters
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Association Tests
If the AU was reset 3 times because no SU became associated with it, a
No Associations critical alarm will be generated, provided that
previously the AU was associated with at least Minimum Number Of
SUs.
An All Associations Lost major alarm is generated if no response was
received by the AU to the last three polling messages, provided that
prior to that, the average number of responding SUs was not lower than
the Minimum Number Of SUs.
AU Alarms Summary
A prerequisite for all alarms except the No Associations alarm, is that
the elapsed time since last power-up (or since the AU Alarms Option
was enabled) is not lower than the Learning Period.
The AU Alarms are summarized below.
No Associations Alarm
Severity:
Critical
On Conditions:
Three consecutive resets due to no response from any SU, and
prior to that the AU was associated with at least Minimum
Number Of SUs.
Off Conditions:
a. At lease one SU became associated with the AU
-ORb. All alarms were cleared,
-ORc. AU Alarms Option was disabled
Possible Problem:
Unlocked synthesizer, very low Tx power or another major HW
problem.
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All Associations Lost Alarm
Severity:
Major
On Conditions:
No response from any SU to the last 3 polling messages, and
prior to that the average number of responding SUs was not
lower than the Minimum Number Of SUs.
Off Conditions:
a. At lease one SU became associated with the AU
-ORb. All alarms were cleared
-ORc. AU Alarms Option was disabled
Possible Problem:
Unlocked synthesizer, very low Tx power or another major HW
problem.
Tx Power Level Decrease Alarm
(not applicable if SUs use SW version lower than 4.3)
Severity:
Major
On Conditions:
The inverse (minus) of SU Rx Power Average Delta is higher
than SU Rx Power Decrease Threshold, and the number of
SUs that responded to the last two polling messages is at least 5.
Off Conditions:
a. All alarms were cleared
-ORb. AU Alarms Option was disabled
Possible Problem:
A transmitter fault resulting in a significant decline of the Tx
power level.
Rx Signal Strength Decrease Alarm
Severity:
Major
On Conditions:
The inverse (minus) of AU Rx Power Average Delta is higher
than AU Rx Power Decrease Threshold, and the number of
SUs that responded to the last two polling messages is at least 5.
Off Conditions:
a. All alarms were cleared,
-ORb. AU Alarms Option was disabled
Possible Problem:
Manual Revision: 3.0
A receiver fault.
Menus and Parameters
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High Retransmissions Rate Alarm
Severity:
Minor, Major
On Conditions:
Minor Severity Alarm:
a. The Retransmissions Current Rate exceeds the
Retransmissions Minor Alarm Threshold, and is
higher than the Retransmissions Average Rate by at
least Retransmissions Minor Alarm Minimum Delta,
-ORb. The Retransmissions Current Rate has dropped below
the Retransmissions Major Alarm Threshold but is still
higher than the Retransmissions Minor Alarm
Threshold.
Major Severity Alarm: The Retransmissions Current Rate is
higher than the Retransmissions Major Alarm Threshold.
Off Conditions:
a. The Retransmissions Current Rate has dropped below
the Retransmissions Minor/Major Alarm Threshold,
-ORb. All alarms were cleared,
-ORc. AU Alarms Option was disabled
Possible Problem:
a. Transmitter or receiver fault
b. Poor link conditions, strong interference, or an
overloaded network.
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High Dropped Frames Rate Alarm
Severity:
Minor, Major
On Conditions:
Minor Severity Alarm:
a. The Dropped Frames Current Rate exceeds the Dropped
Frames Minor Alarm Threshold, and is higher than the
Dropped Frames Average Rate by at least Dropped
Frames Minor Alarm Minimum Delta,
-ORb. The Dropped Frames Current Rate has dropped below
the Dropped Frames Major Alarm Threshold, but is
still higher than the Dropped Frames Minor Alarm
Threshold.
Major Severity Alarm: The Dropped Frames Current Rate is
higher than the Dropped Frames Major Alarm Threshold.
Off Conditions:
a. The Dropped Frames Current Rate has dropped below
the Dropped Frames Minor/Major Alarm Threshold,
-ORb. All alarms were cleared
-ORc. AU Alarms Option was disabled
Possible Problem:
Manual Revision: 3.0
a. Transmitter or receiver fault
Menus and Parameters
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High CRC Error Rate Alarm
Severity:
Minor, Major
On Conditions:
Minor Severity Alarm:
a. The CRC Error Current Rate exceeds the CRC Error
Minor Alarm Threshold, and is higher than the CRC
Error Average Rate by at least CRC Error Minor
Alarm Minimum Delta,
-ORb. The CRC Error Current Rate has dropped below the
CRC Error Major Alarm Threshold but is still higher
than the CRC Error Minor Alarm Threshold.
Major Severity Alarm: The CRC Error Current Rate is
higher than the CRC Error Major Alarm Threshold.
Off Conditions:
a. The CRC Error Current Rate has dropped below the
CRC Error Minor/Major Alarm Threshold,
-ORb. All alarms were cleared,
-ORc. AU Alarms Option was disabled
Possible Problem:
a. Receiver fault
b. Strong interference
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High Duplicate Frames Rate Alarm
Severity:
Minor, Major
On Conditions:
Minor Severity Alarm:
a. The Duplicate Frames Current Rate exceeds the
Duplicate Frames Minor Alarm Threshold, and is
higher than the Duplicate Frames Average Rate by at
least Duplicate Frames Minor Alarm Minimum Delta,
-ORb. The Duplicate Frames Current Rate has dropped below
the Duplicate Frames Major Alarm Threshold but is
still higher than the Duplicate Frames Minor Alarm
Threshold.
Major Severity Alarm: The Duplicate Frames Current Rate
is higher than the Duplicate Frames Major Alarm Threshold.
Off Conditions:
a. The Duplicate Frames Current Rate has dropped below
the Duplicate Frames Minor/Major Alarm Threshold,
-ORb. All alarms were cleared,
-ORc. AU Alarms Option was disabled
Possible Problem:
a. Transmitter fault
b. Strong interference, preventing the SU from receiving
the AU’s ACKs.
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The AU Alarms Menu
The AU Alarms menu enables to configure relevant parameters and to
view current statistics. The AU Alarms menu is available only with
Administrator access rights, except for Show All AU Alarms
Parameters and Data that is also available with Installer access rights.
AU Alarms Option - Enables to enable or disable the AU Alarms
feature. The default is Disable.
Learning Period - Enables to define the period dedicated to
accumulating information without generating alarms (except for the
No association alarm).
Valid values: 1 to 1440 (minutes)
Default: 30 (minutes)
Test Cycle - Enables to define the time between two consecutive
transmissions of a polling message and for calculating the current
averages for the various traffic statistics.
Valid values: 1 to 1440 (minutes)
Default: 10 (minutes)
Traffic Statistics - A sub menu that includes the following options:
Retransmissions Rate Parameters
Dropped Frames Rate Parameters
CRC Error Rate Parameters
Duplicate Frames Rate Parameters
For each of these traffic statistics types, a sub menu enables to
configure three parameters:
Minor Alarm Minimum Delta - The minimum difference
between the Current Rate and the previous Average Rate,
for activating a minor severity alarm, for the relevant
statistics type. Another prerequisite for activating the alarm
is that the relevant Current Rate exceeds the applicable
Minor Alarm Threshold.
Valid range: 0 to 100 (%)
Minor Alarm Threshold - The threshold for activating a
minor severity alarm for the relevant traffic statistics type.
Another prerequisite for activating the alarm is that the
difference between the applicable Current Rate and the
previous Average Rate exceeds the Minor Alarm Minimum
Delta.
Valid range: 1 to 100 (%)
Major Alarm Threshold - The threshold for activating a
major severity alarm for the relevant statistics type.
Valid range: 1 to 100 (%)
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The default parameters for these alarms is as follows:
Parameter
Default (%)
Retransmission Minor Alarm Minimum Delta
20
Retransmission Minor Alarm Threshold
30
Retransmission Major Alarm Threshold
60
Dropped Frames Minor Alarm Minimum Delta
10
Dropped Frames Minor Alarm Threshold
10
Dropped Frames Major Alarm Threshold
20
CRC Error Minor Alarm Minimum Delta
20
CRC Error Minor Alarm Threshold
40
CRC Error Major Alarm Threshold
70
Duplicate Frames Minor Alarm Minimum Delta
Duplicate Frames Minor Alarm Threshold
Duplicate Frames Major Alarm Threshold
15
NOTE:
The value of the Major Alarm Threshold must be higher than the applicable
Minor Alarm Threshold. The system will not accept a Major Alarm Threshold
that is lower than the current Minor Alarm Threshold, and vice versa.
Show Traffic Statistics Parameters and Data - Displays for each
statistics type the configured parameters as well as the
applicable Current and Average Rates.
SU Rx Power Test - A sub menu that includes the following
options:
SU Rx Power Decrease Threshold - The minimum inverse
(negative) value of the SU Rx Power Average Delta that will
trigger an alarm.
Valid values: 1 to 99 (dBm).
Default value: 15 (dBm).
Show SU Rx Power Test Parameters and Data - Displays the
value of the SU Rx Power Decrease Threshold and the current
SU Rx Power Average Delta.
AU Rx Power Test - A sub menu that includes the following
options:
AU Rx Power Decrease Threshold- The minimum inverse
(negative) value of the AU Rx Power Average Delta that will
trigger an alarm.
Valid values: 1 to 99 (dBm).
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Default value: 15 (dBm).
Show AU Rx Power Test Parameters and Data - Displays the
value of the AU Rx Power Decrease Threshold and the current
AU Rx Power Average Delta.
Responding SUs - a sub menu that includes the following options:
Minimum Average Number Of SUs - Enables to define the
minimum average number of SUs required for association tests.
Valid values: 1 to 254 (SUs)
Default value: 5 (SUs)
Show Responding SUs Parameters and Data - Displays the
value of the Minimum Average Number Of Responding SUs
and the Current and Average Number Of Responding SUs.
Alarms Status - a sub menu that includes the following options:
Clear All alarms - Enable to clear (set off) all the AU Alarms.
Show Turned On Alarms - Displays a list of all the alarms that
are turned on and the severity of each of these alarms.
Show All AU Alarms Parameters and Data - Displays the values of
all AU Alarms parameters as well as all the current results available
in Show Traffic Statistics Parameters and Data, in Show SU Rx
Power Test Parameters and Data, in Show AU Rx Power Test
Parameters and Data and in Show Turned On Alarms.
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Advanced Configuration Menu
The Advanced Configuration menu provides access to all the
parameters, including the parameters that are available through the
Basic Configuration menu.
The Advanced Configuration menu provides access to the following
menus:
IP Parameters (AU, SU and GU) (see page 2-36)
Air Interface Parameters (AU and SU) (see page 2-37)
Network Management Parameters (AU, SU and GU) (see page 2-53)
Bridge Parameters (AU and SU) (see page 2-56)
VLAN Parameters (GU) (see page 2-56)
Performance Parameters (AU and SU) (see page 2-69)
Service Parameters (AU and SU) (see page 2-73)
RADIUS Parameters (SU) (see page 2-77)
Security Parameters (AU and SU) (see page 2-81)
Voice Parameters (SU with voice support) (see page 2-83)
Dialing Parameters (SU with voice support) (see page 2-84)
Telephony Signals Parameters (SU with voice support)
(see page 2-91)
Hopping Parameters (GU) (see page 2-97)
Alarm Parameters (GU) (see page 2-99)
IP Parameters (AU, SU and GU)
The IP Parameters sub-menu allows configuration of the following
parameters:
IP Address – Displays the current IP address of the unit and allows
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DHCP Client
DHCP Options – Displays the current status of the DHCP
(Dynamic Host Configuration Protocol) support, and allows
selecting a new operation mode. The available options are:
Disable – Use manual procedure for configuring the IP
parameters.
DHCP Only – Search for a DHCP Server and obtain the IP
parameters from it (IP Address, Subnet Mask and Default
Gateway Address).
Automatic – Search for a DHCP Server for configuration of
the IP parameters. If a DHCP Server is not found within
approximately 40 seconds, use the currently configured IP
parameters.
The default is Disable.
Access to DHCP – To define the port through which the unit is
allowed to communicate with a DHCP server. The options are:
From Wlan Only
From Ethernet Only
From Both Ethernet & WLAN
The default for an Access Unit is From Ethernet Only. The
default for a Subscriber Unit is From Wlan Only.
NOTE:
The Access to DHCP option is not available in the GU, as this module does
not have a wireless link interface.
Show IP Parameters – Displays the current values of the IP
Parameters.
Air Interface Parameters (AU and
SU)
Hopping Frequencies Setting Parameters
Hopping Sequence –Displays the Hopping Sequence of the unit.
A hopping sequence is a pre-defined series of channels (frequencies)
that are used in a specific, pseudo-random order as defined in the
sequence. The unit “hops” from frequency to frequency according to
the selected sequence. When more than one AU is co-located in the
same area, it is recommended to assign different hopping sequences
to each AU.
Hopping Sequences are grouped in three hopping sets (see Hopping
Set parameter below). When setting up multiple AUs in the same
site, always choose hopping sequences from the same Hopping Set
to reduce the possibility of collisions on the wireless media. This
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parameter is only set in the AU. All the SUs learn it from the AU
during the association process.
The valid values depend on the applicable hopping standard (see
Table ý3-2 on page 31).
The default value is 1.
Hopping Set –Displays the selected hopping set. Each hopping
standard has 3 hopping sets. The Hopping Set selected in this
screen determines which hopping sequences are available in the
Hopping Sequence screen. Always use the same hopping set per site
(with different hopping sequences) to minimize the possibility of
collisions on the wireless media. This parameter is set only in the
AU. All the associated SUs learn its value from the AU during the
association process.
Valid values are from 1 to 3.
The default value is 1.
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Table 2-3: Country Standards Supported by BreezeACCESS II
Country
Standard
Frequency
Range [MHz]
Number of
Channels
Hopping
Sequences per
Hopping Set
Hopping
Sync
Support
Australia
2402 to 2461
60
20
No
Canada
2452 to 2481
30
10
No
Europe ETSI
2402 to 2480
79
26
Yes
France
2448 to 2482
35
11
Yes
Israel
2421 to 2455
35
11
Yes
Korea
2430 to 2452
23
Yes
Japan
2473 to 2495
23
Yes
Netherlands
2454 to 2468
15
Yes
Spain
2447 to 2473
27
Yes
US FCC
2402 to 2480
79
26
No
Mexico
2452 to 2481
30
10
Yes
International
2402 to 2480
79
26
Yes
Refer to Appendix F for the basic hopping sequence (Hopping Set=1,
Hopping Sequence=1) and the formula for calculating the
operational hopping sequences for other Hopping Set/Hopping
Sequence combinations for each country standard.
Hopping Sync (BS-AU only) –Displays the current Hopping Sync
status of the unit and allows defining a new status. When several
AUs that use the same hopping set and different hopping sequences
are co-located, their operation should be synchronized in terms of
hopping sequence initialization and timing. If a BS-GU GPS module
is not used for synchronization, then one AU must be specified as a
Master unit and all other units must be specified as Slave units.
When a BS-GU is used, all AUs must be configured to Slave mode.
Available options are:
Idle – No synchronization (stand-alone operation)
Master – The AU that serves as a Master unit providing
synchronization signals to the Slave units
Slave – An AU that operates as a Slave
The default is Idle.
WARNING:
When using a GPS system for synchronization, all AUs in the chassis must be set
to Slave.
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NOTE:
Synchronization is not allowed by the radio regulations in certain countries. In units
using such standards, the Hopping Sync option is not supported. See Table 2-3‚
page 2-39 for information on synchronization support in the standards of various
countries.
ESSID Parameters
The ESSID is a string used to identify a wireless network. It prevents the
unintentional merging of two co-located wireless networks. An SU can
only associate with an AU that has an identical ESSID. To facilitate easy
additions of SUs to existing deployments, where different ESSIDs are
used in neighboring sectors, a secondary “global” ESSID, namely
Operator ESSID, is available in the AU.
ESSID – The ESSID (Extended Service Set ID) of the unit. Use
different ESSIDs to segment the wireless access network and add
security to your network.
Valid values: A string of up to 31 printable ASCII characters, case
sensitive.
The default value is ESSID1.
Operator ESSID Parameters (AU only) – The Operator ESSID is a
secondary ESSID that can only be configured in the AU. The
Operator ESSID can be used to enhance flexibility and reduce
configuration effort when adding new Subscriber Units to
operational installations in which different ESSIDs were configured
for different sectors that actually belong to the same network. In
such installations, all AUs should be configured with the same
Operator ESSID. The ESSID as well as the Operator ESSID are
included in the AU’s Beacon & Probe Response management frames.
The SU shall regard such frames if the ESSID or Operator ESSID
matches its own ESSID. The ESSID of the AU with which the SU is
associated is defined as the Run-Time ESSID, to be used by the SU
when communicating with the AU. The Run-Time ESSID is included
in the list displayed upon selecting either Show Air Interface
Parameters or Show Basic Parameters options in the SU.
In new installations where all units are configured with the same
ESSID, Operator ESSID need not be used.
The following parameters are available:
Operator ESSID Option – Enables/disables the use of the
Operator ESSID when communicating with SUs.
The default is Enable.
Operator ESSID – Defines the Operator ESSID.
Valid values: a string of up to 31 printable ASCII characters,
case sensitive.
The default value is ESSID1.
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Best AU Selection Parameters
In BreezeACCESS systems with software version 3.0 and below an SU
can associate with any AU it can communicate with, provided they both
use the same ESSID. An SU that can communicate with more than one
AU using the same ESSID becomes associated with the first AU it
“finds”, not necessarily the best choice in terms of quality of
communication or other factors such as number of SUs serviced by
each AU. The same limitation also exists if only one AU in the
neighborhood has an ESSID identical to the one used by the SU, since it
is not always necessarily the best choice.
The topology of a fixed access network is constantly changing. Changes
in base station deployment and subscriber density can accumulate to
create substantial changes in SU performance. The quest for load
sharing together with the desire to create best throughput conditions for
the SU created the need for the Best AU feature, to enable a SU to
connect to the best AU in its neighborhood.
When the Best AU feature is used, each of the AUs are given a quality
mark based on the level at which it is received by the SU. The SU scans
for a configured number of cycles, gathering information from all the
AUs it can communicate with. At the end of the scanning period, the SU
reaches a Best AU decision according to the information gathered. The
AU with the highest quality mark is selected as the Best AU, and the SU
will immediately try to associate with it.
The quality mark given to each AU depends on the level at which it is
received by the SU., as follows:
The Best AU selection mechanism can be overridden by defining a
specific AU as the preferred AU.
NOTE:
Although the SU selects the Best AU based on long-term conditions prior to the decision
time, it may not always be connected to the instantaneous Best AU at any given time.
Note also that the decision is done only once during the scanning interval. The decision
may not remain the optimal one for ever. If there are significant changes in deployment
of neighboring AUs and the SUs served by them, overall performance may be improved
if the applicable SUs are reset intentionally so as to re-initiate the Best AU decision
process.
Best AU Parameters in SU
Best AU Support – Enables or disables the Best AU selection
feature.
The default is Disable.
NOTE:
If the Best AU feature is not used, the SU associates with the first AU it finds
whose ESSID or Operator ESSID is identical to its own ESSID.
Number of Scanning Attempts – Defines the number of
scanning cycles to be used for gathering information on
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neighboring AUs. A higher number may result in a better
decision at the cost of an increased scanning time during which
the SU is not operational.
Valid values: 1 - 255.
Default value: 20.
The scanning time can be calculated based on the following
formula:
Scanning Time (seconds) = N * C * 0.019
N = Number of scanning attempts
C = Number of channels in the hopping sequence
0.019 seconds is the time spent on each channel (dwell time)
while in scanning mode.
NOTE:
When Best AU support is enabled, it is recommended to use Active Scanning.
If passive scanning is used, the SU may not hear the best AU (or the preferred
AU). The higher the number of hopping channels, the higher the probability
that the SU will not hear the best (or preferred) AU when passive scanning is
used.
Preferred AU MAC Address – Defines a specific AU with which
the SU should associate. Gaining control of the SUs association
is a powerful tool in network management. The Preferred AU
MAC Address parameter is intended for applications where there
is a need to dictate the preferred AU with whom the SU should
associate. To prevent the SU from associating with the first
viable AU it finds, the Best AU Support mechanism should be
enabled. Once the SU has identified the preferred AU based on
its MAC address, it will associate with it and terminate the
scanning process. If the preferred AU is not found, the SU will
associate with an AU according to the decision reached using
the best AU algorithm.
Valid values: MAC address string
The default value for the Preferred AU MAC Address is
00-00-00-00-00-00 (12 zeros), meaning that there is no
preferred AU.
Show Best AU Parameters and Data – Displays the applicable
information:
Neighboring AU Data table - Displayed for each AU that the
unit can communicate with the following parameters:
MAC Address
Received signal strength – RSSI or dBm
Mark – The computed quality mark for the AU.
Full – The association load status of the AU. It is defined
as full if the number of SUs associated with the AU has
reached the maximum allowed according to the value of
the Maximum Number of Associations parameter (see
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page 2-48). An AU whose associations load status is full
cannot be selected as the Best AU, even if its’ computed
mark is the highest.
ESSID – The ESSID of the AU
In addition to the neighboring AU data table, the following
information is displayed:
Best AU Support
Preferred AU MAC Address
Number of Scanning Attempts
Associated AU MAC Address (the MAC address of the
selected AU)
Run Time ESSID (the ESSID of the selected AU).
Power Control Parameters
The power control parameters enable to optimize the performance of the
system through controlling the transmitted power level of
BreezeACCESS units. The transmitted power level of the unit should be
decreased from the maximum level that is supported by the unit in the
following cases:
In a Subscriber Unit that is relatively close to the Access Unit, in
order to minimize the interference to signals received by the AU from
other subscriber units as well as interference to neighboring cells.
In an Access Unit typically the maximum supported transmit power
is used to enable maximum coverage. However, there may be a need
to decrease the transmitted power level in order to support relatively
small cells and to minimize the interference with the operation of
neighboring cells.
If required for compliance with local regulations or other restrictions
related to maximum allowable transmitted power.
In addition to the ability to set the transmit power to a certain fixed
level, IF-Based units (SU-A/E, AU-BS and AU-NI) support an
Automatic Transmit Power Control (ATPC) algorithm. The ATPC
algorithm automatically adjusts the power level transmitted by each SU
according to the actual level at which it is received by the AU. To
support proper operation of the system with optimal performance and
minimum interference between neighboring sectors, the ATPC algorithm
should be enabled in all units.
The algorithm is controlled by the AU that calculates for each received
frame the average RSSI at which it receives transmissions from the
specific SU. The average calculation takes into account the previous
calculated average, thus reducing the effect of short temporary changes
in link conditions. The weight of history (the previous value) in the
formula used for calculating the average RSSI is determined by a
configurable parameter. In addition, the higher the time that has passed
since last calculation, the lower is the impact of history on the
calculated average. If the average RSSI is not in the optimal range
(typically between -74dBm to -64dBm), the AU transmits to the SU a
power-up or a power-down message. The target is that each SU will be
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received at an optimal level, or as high as possible if the optimal range
cannot be reached because of specific link conditions.
Each time that the SU tries to associate with the AU (following either a
reset or loss of synchronization), it will initiate transmissions using the
Current Transmit Power Control, which is the last value that was
previously used by the ATPC mechanism. If after a certain configurable
time the SU did not succeed to synchronize with the AU, it will start
transmitting using the level configured for the Transmit Power Control
parameter. (If this is the first time that the SU is powered up, or if the
ATPC algorithm was not used, the Current Transmit Power Control
equals the value of Transmit Power Control).
Transmit Power Control (IF-based units only – SU-A/E, AU-BS
and AU-NI) – Controls the relative gain of the Tx power circuits.
A value of 15 represents the highest transmit power level, which is
the maximum level supported by the specific unit. A lower value
represents a lower transmit power level. The effect of this parameter
on the transmitted power is not linear, since it is affected by the
length (attenuation) of the IF cable.
In SUs, if the ATPC Option is enabled this parameter serves for
setting the initial value to be used by the ATPC algorithm after the
first time of powering-up the unit. It will also be used in the
following cases:
a.
If the unit does not succeed to associate with the AU after reset
b.
If the unit does not succeed to re-synchronize with the AU after
losing synchronization
c.
If the SU is associated with the AU but there are too many
successive dropped frames, indicating that it transmits at a
level that may be too low.
The actual run-time value that is used to control the transmit power
level is determined by the ATPC process.
The allowed range is from 0 to 15.
The default value is 15 (maximum power)
The following tables displays the transmitted power output as a
function of the value of the Transmit Power Control parameter and
the attenuation of the IF cable.
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Table 2-4 -.: Transmit Power Output
Cable
attenuation
0dB
5dB
10dB
15dB
Transmit power
Control
Outdoor power
(dBm)
Outdoor power
(dBm)
Outdoor power
(dBm)
Outdoor power
(dBm)
15
24+/- 2
24+/- 2
24+/- 2
24+/- 2
14
24+/- 2
24+/- 2
24+/- 2
24+/- 2
13
24+/- 2
24+/- 2
24+/- 2
24+/- 2
12
23+/- 3
23+/- 3
23+/- 3
23+/- 3
11
23+/- 3
23+/- 3
23+/- 3
23+/- 3
10
23+/- 3
23+/- 3
23+/- 3
23+/- 3
23+/- 3
23+/- 3
22+/- 3
22+/- 3
23+/- 3
23+/- 3
22+/- 4
21+/- 4
22+/- 4
23+/- 3
21+/- 4
20+/- 4
22+/- 4
22+/- 4
20+/- 4
17+/- 4
22+/- 4
21+/- 4
19+/- 4
15+/- 4
21+/- 4
20+/- 4
18+/- 4
12+/- 4
21+/- 4
19+/- 4
16+/- 4
10+/- 4
20+/- 5
18+/- 5
14+/- 5
8+/- 5
19+/- 5
17+/- 5
13+/- 5
7+/- 5
18+/- 5
16+/- 5
11+/- 5
6+/- 5
Power Level - Applicable to all SU-R units and to SU-I/AU-I units.
Sets the transmit level according to the unit’s specifications.
In SU-R units there are two options:
High – An output power level to the antenna port of 28 dBm
Low – An output power level to the antenna port of 17 dBm
In SU-I/I-D and AU-I/I-D there are two options:
High– An output power level to the antenna port of 17 dBm
Low – An output power level to the antenna port of 10 dBm
The default is High.
NOTE:
To comply with specific regulatory requirements, certain units may be supplied with
the Power Level parameter set to Low, without the option to change it to High. In
such units the Power Level parameter is not available.
ATPC Parameters in IF Based AU
ATPC Option: To enable or disable the Automatic Transmit
Power Control (ATPC) algorithm.
The default is Disable.
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Minimum RSSI Level: Enables you to define the lowest level at
which you want each SU to be received at the AU (the lower limit
of the optimal reception level range).
Available values: -100 to 0dBm.
Default value: -74 dBm
Maximum RSSI Level: Enables you to define the highest level
at which you want each SU to be received at the AU (the higher
limit of the optimal reception level range).
Available values: -100 to 0 dBm.
Default value: -64 dBm
NOTE:
The value of the Maximum RRSI Level must be higher than the value of the
Minimum RRSI Level. The system will not accept a Maximum RRSI Level value
that is lower than the current Minimum RRSI Level value, and vice versa.
RSSI Memory Factor: Enable you to define the parameter that
determines the weight of history (value of last calculated average
RSSI) in the formula used for calculating the average RSSI. The
higher the value of this parameter, the higher is the weight of
history in the formula.
Available values: -1 to 32. -1 is for no weight for history,
meaning that average RSSI equals the last measured RSSI.
Default value: 5
Minimum Interval Between ATPC Messages: To set the
minimal time between consecutive power-up/power-down
messages to a specific SU. Setting a low value for this parameter
may lead to a higher overhead and an excessive rate of power
level changes at the SUs. High values for this parameter
increase the time it will take until the SUs reach optimal
transmit power level.
Available values: 0 to 3600 seconds.
Default value: 120 seconds.
ATPC Power Level Step - The step size in percentages of
maximum number of available levels that the SU will use when
receiving an ATPC Power-Up/Power-Down message. The formula
for calculating the step size is:
Step=max{1, [ATPC Step*(No. of Levels-1)/100]} (rounded down).
In SU-A/E the number of available levels is 16. Therefore, if
ATPC Power Level Step is 14, than
Step=2 [ATPC Step*(No. of Levels-1)/100= 14*15/100=2.1],
meaning that the SU will increase/decrease the value of the
Transmit Power Control parameter by 2. Any value lower than
14 will result in Step=1.
Available values: 1-100 (%)
Default value: 1
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ATPC Parameters in IF Based SU
ATPC Option: To enable or disable the Automatic Transmit
Power Control (ATPC) algorithm. The parameter takes effect
immediately. However, when changed from Enable to Disable,
the transmit power level shall remain at the last level
determined by the ATPC algorithm before it was disabled. It will
change to the value configured for the Transmit Power Control
parameter only after the next reset.
The default is Enable.
ATPC Maximum Last Level Time After Reset: The maximum
time (in seconds) of attempting to associate with an AU after
reset, using the last value of the Current Transmit Power
Control. If this time had elapsed without succeeding to
associate with the AU, the unit will use the configured value of
the Transmit Power Control parameter .
Available values: 0-3600 (seconds)
Default value: 30 (seconds)
ATPC Maximum Last Level Time After Synchronization
Loss: The maximum time (in seconds) of attempting to associate
with an AU after losing synchronization, using the last value of
the Current Transmit Power Control. If this time had elapsed
without succeeding to associate with the AU, the unit will use
the configured value of the Transmit Power Control parameter.
Available values: 0-3600 (seconds)
Default value: 120 (seconds)
Other Air Interface Parameters
Maximum Data Rate – Displays the current maximum data rate,
and allows entry of a new value for the maximum data rate.
BreezeACCESS units operate at data rates of 3 Mbps, 2 Mbps, and
1 Mbps. Under certain conditions (compatibility reasons or
range/speed trade-off), you may decide to limit the use of higher
rates. If the quality of the link is not good enough, it is
recommended to decrease the value of this parameter (the higher
the data rate, the higher the error rate). Otherwise, there is a high
probability that the unit will have to retransmit many frames several
times before temporarily reducing the data rate (see Number of
Retransmissions to Decrease Rate on page 2-69). A high number
of retransmissions reduces the overall throughput for the selected
SU as well as for all the other SUs served by the same AU. It is
recommended to also configure the Maximum Data Rate
parameter when the Multi-Rate mechanism is enabled, to avoid
unnecessary trials to transmit at higher rates when the probability
of successful transmissions at these rates is low.
In the SU, the link quality can be estimated based on the RSSI
measurement, using the assumption that the link is more or less
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symmetrical and that this value is a good indication to the level at
which the SU is received by the AU. If the measured RSSI is less
than a certain threshold, it is recommended to decrease the
Maximum Data Rate of the SU in accordance with Table 2-5
(including a 3 dB safety margin). For best results it is recommended
to acquire the RSSI results from the AU, indicating the level at
which the AU receives transmissions from the specific SU (uplink
RSSI), and to use this value for reaching a decision on the
recommended Maximum Data Rate.
Allowed values are 1, 2, 3 Mbps.
The default value is 3 Mbps.
Table 2-5: Recommended Maximum Data Rate
Maximum Data Rate
3Mbps
2Mbps
1Mbps
BreezeACCESS 5.7 GHz RSSI>-70 dBm
-78 dBm-73 dBm
-81 dBm-64dBm
-71dBm-65dBm
-74dBm Reverse Battery – Change the polarity from forward
to reverse
Reverse -> Forward Battery – Change the polarity from reverse
to forward
The default is Forward Battery.
Caller ID: Defines whether the unit will support generation of Caller
ID (CID) signaling and if CID generation is supported, which
standard will be used. The unit supports two CID signaling
standards:
Voice band Frequency Shift Keying (FSK) signaling in
accordance with ETSI ETS 300 659 – 1
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1200-baud tone modulation in accordance with Bellcore 202
standard.
The Caller ID parameter is supported only by units using a Voice card
HW revision D and higher.
The following options are available:
Disable
ETSI DT-AS: CID signaling in accordance with ETSI
ETS 300 659 -1, using Dual Tone Alerting Signal to indicated to
the called terminal that CID data transmission is to be expected.
ETSI RP-AS: CID signaling in accordance with ETSI
ETS 300 659 -1, using Ringing Pulse Alerting Signal to indicate
to the called terminal that CID data transmission is to be
expected.
ETSI – During Ringing: CID signaling in accordance with ETSI
ETS 300 659 -1, transmitting CID data during the first long
silence between two ring patterns.
Bellcore MDMF: CID signaling in accordance with Bellcore 202,
using Multiple Data Message Format (MDMF), which includes a
name field in addition to the date, time and number.
Bellcore SDMF: CID signaling in accordance with Bellcore 202,
using Single Data Message Format (SDMF), which includes the
date, time and number.
The default selection is Disable.
Stop Dialing Timeout: The inactivity time following the last dialed
digit that will be identified by the unit as an indication to end of
dialing.
Valid range: 3 to 60 seconds
Default value: 5 seconds
Stop Dialing Indicator: Uses the # sign to indicate end of dialing,
thus to speed the dialing process. The options are:
Disable: The # sign is interpreted as a part of the dialed
sequence. End of dialing is determined by the Stop Dialing
Timeout parameter.
Enable: The # sign is interpreted as indicating end of dialing
sequence.
The default is Disable.
Overlap Sending - To enable or disable the overlap sending feature.
A gatekeeper or a gateway supporting overlap sending does not
require dialing termination signaling for setting up a call. Otherwise
a dialing termination signal must be supplied by the unit.
When Overlap Sending is enabled, each dialed digit is transmitted
immediately. When disabled, dialed digits are accumulated and
transmitted according to the rules set by other dialing parameters.
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Menus and Parameters
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Upon enabling overlap sending, the settings of other dialing
parameters are overridden as follows:
a.
IP Dialing Option, Dialing Prefix Option and Stop Dialing
Indicator are disabled even if the applicable parameter is set to
Enable.
b.
Automatic Prefix is not used and Stop Dialing Timeout has
no effect.
The default selection is Disable.
Telephony Signals (Subscriber
Units with Voice Support Only)
The Telephony Signals menu defines the various call progress tones that
indicate the status of a telephone call, the ringer parameters and some
timeouts. The call progress tones are generated by the Subscriber Unit
in accordance with call progress information as received from the AU or
the telephony network.
The parameters in the Telephony Signals menu include the following
options:
Telephony Country Standard – Selects the call progress tones
standard. The following options are available:
Proprietary – Allows definition of specific tones (see below).
Germany
Sweden
France
United Kingdom
Belgium
USA
Chile
The default selection is USA.
Dial Tone –Defines the dial tone transmitted to the earphone to
indicate that the call can be supported by the system and that the
caller may start dialing.
Ring-Back Tone – Defines the tone transmitted to the earphone to
indicate that the telephone of the called party is ringing.
Busy Tone – Defines the tone transmitted to the earphone to
indicate that the telephone of the called party is busy.
Congestion Tone - Defines the tone transmitted to the earphone to
indicate that the system cannot currently support the call (e.g. if a
line is not available since the AU currently supports the maximum
allowed number of voice sessions).
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Error Tone – Defines the tone transmitted to the earphone to
indicate that the system cannot currently support the call (e.g. if for
any reason the call was disconnected because of a problem in the
wireless link or incompatible capabilities) or if the user did not hang
up after exceeding the specified duration of the Dial, Ring Back,
Busy or Congestion Tones.
High Level Error Tone – Defines the high level tone transmitted to
the earphone to better attract the attention of the user if he did not
hang up after exceeding the specified duration of the Error Tone.
The various tones are defined by specifying the following
parameters:
Frequency 1 – One of two frequencies that can be used for
generating the applicable tone.
Valid values are 0-3000 (in Hz).
Frequency 2 – The second of the two frequencies to be used for
generating the applicable tone.
Valid values are 0-3000 (in Hz).
Level 1 – The level (in dBm) of Frequency 1.
Valid values are –32 to +3.
Level 2 – The level (in dBm) of Frequency 2.
Valid values are –32 to +3.
Cadence On – The ringing time (on) in the tones-silence
sequence of the tone.
Valid values are 100 – 10,000 milliseconds, 0 (0 means that
the tone is not used).
Cadence Off – The silence time (off) in the tones-silence
sequence of the tone.
Valid values are 100 – 10,000 milliseconds, 0 (0 means no
silence – a continuous tone).
Duration – The maximum duration of transmitting the tone to
the earphone. Tone generation will cease upon hang-up.
Valid values are 0 – 10,000 seconds.
Ring Frequency - Defines the ring frequency parameters (that
define the ringing of the telephone set), if the selected Telephony
Country parameter is Proprietary. The following parameters can be
defined:
Ringer Frequency – the frequency of activating the Ringer.
Valid values are: 17Hz, 20Hz, 25Hz, 50Hz.
Cadence On – The ringing time (on) in the ringing-silence
sequence of the Ringer.
Valid values are 100 – 10,000 milliseconds.
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Menus and Parameters
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Cadence Off – The silence time (on) in the ringing-silence
sequence of the Ringer.
Valid values are 100 – 10,000 milliseconds.
Duration - The maximum duration of activating the ringer.
Ringing will cease upon detecting off-hook condition.
Valid values are 0 – 10,000 seconds.
Timeouts – Defines the following timeouts:
Min. Flash Detect Timeout and Max. Flash Detect Timeout –
A short on-hook time that is between the values of these two
parameters will be considered as Hook Flash.
Valid values: 0 – 2,000 milliseconds
Disconnect Timeout – The minimum time for decision on an
on-hook condition.
Valid values: 0 – 2,000 milliseconds
Inter-Digit Timeout – Applicable only for pulse dialing. The
minimum time between two consecutive pulses to be considered
as separating between two digits.
Valid values: 0 – 2,000 milliseconds
Called Party Release Timeout – The minimum time for an
on-hook signal on the called party side to be considered as call
disconnect.
Valid values: 0 – 10,000 seconds
The following tables provide details concerning the values of the
parameters of the various call progress tones and the ringer as well as
the Timeouts for the available country standards.
Table 2-14: Parameters of Call Progress Tones and Ringer - Germany
Frequency 1
Frequency 2
Cadence
On (ms)
Duration (s)
Tone
Freq
(Hz)
Level
(dB)
Freq
(Hz)
Level
(dB)
Off (ms)
Dial Tone
450
-18
Ring Back
450
-18
1000
4000
60
Busy
450
-18
500
500
15
Congestion
450
-18
250
250
Error
450
-18
200
200
High Level
Error
Ring
Frequency
25
1000
5000
60
15
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Table 2-15: Parameters of Call Progress Tones and Ringer - USA
Frequency 1
Frequency 2
Cadence
On (ms)
Duration (s)
Tone
Freq
(Hz)
Level
(dB)
Freq
(Hz)
Level
(dB)
Off (ms)
Dial Tone
350
-13
440
-13
Ring Back
440
-19
480
-19
1000
3000
60
Busy
480
-24
620
-24
500
500
15
Congestion
480
-24
620
-24
1000
1000
Error
480
-24
620
-24
200
200
High Level
Error
Ring
Frequency
20
1000
3000
60
15
Table 2-16: Parameters of Call Progress Tones and Ringer - Sweden
Frequency 1
Frequency 2
Cadence
On (ms)
Duration (s)
Tone
Freq
(Hz)
Level
(dB)
Freq
(Hz)
Level
(dB)
Off (ms)
Dial Tone
425
-18
Ring Back
425
-18
1000
5000
60
Busy
425
-18
250
250
15
Congestion
425
-18
250
750
Error
425
-18
200
200
High Level
Error
Ring
Frequency
25
1000
5000
60
15
Table 2-17: Parameters of Call Progress Tones and Ringer - France
Frequency 1
Frequency 2
Cadence
Tone
Freq
(Hz)
Level
(dB)
Freq
(Hz)
Level
(dB)
Dial Tone
425
-18
Ring Back
425
-18
1500
3500
60
Busy
425
-18
500
500
15
Congestion
425
-18
500
500
Error
425
-18
200
200
High Level
Error
Ring
Frequency
25
1500
3500
60
Manual Revision: 3.0
On (ms)
Duration (s)
Off (ms)
15
Menus and Parameters
2-95
Table 2-18: Parameters of Call Progress Tones and Ringer – United Kingdom
Frequency 1
Frequency 2
Cadence
On (ms)
Duration (s)
Tone
Freq
(Hz)
Level
(dB)
Freq
(Hz)
Level
(dB)
Off (ms)
Dial Tone
350
-18
440
-18
Ring Back
400
-18
450
-18
400
200
60
Busy
400
-18
375
375
15
Congestion
400
-18
400
350
Error
400
-18
200
200
High Level
Error
Ring
Frequency
25
400
200
60
15
Table 2-19: Parameters of Call Progress Tones and Ringer - Belgium
Frequency 1
Frequency 2
Cadence
On (ms)
Duration (s)
Tone
Freq
(Hz)
Level
(dB)
Freq
(Hz)
Level
(dB)
Off (ms)
Dial Tone
425
-12
Ring Back
425
-18
1000
3000
60
Busy
425
-18
500
500
15
Congestion
425
-18
167
167
Error
425
-18
200
200
High Level
Error
Ring
Frequency
25
1000
3000
60
15
Table 2-20: Parameters of Call Progress Tones and Ringer – Chile
Frequency 1
Frequency 2
Cadence
On (ms)
Duration (s)
Tone
Freq (Hz) Level
(dB)
Freq
(Hz)
Level
(dB)
Off (ms)
Dial Tone
400
-6
Ring Back
400
-6
1000
3000
120
Busy
400
-6
500
500
20
Congestion
400
-6
200
200
20
Error
400
-6
500
500
20
High Level
Error
400
500
500
20
Ringer
20
1000
3000
120
20
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Table 2-21: Timeouts
Min. Flash
Detect (ms)
Max Flash
Detect (ms)
Disconnect
(ms)
Inter-digit
(ms)
Called
Party
Release (s)
Germany
120
1000
1000
100
USA
120
1000
1000
100
Sweden
120
1000
1000
100
France
120
1000
1000
100
United Kingdom
120
1000
1000
100
Belgium
120
1000
1000
100
Chile
220
320
320
500
60
Country
Manual Revision: 3.0
Menus and Parameters
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Hopping Parameters (GU)
The Hopping Parameters Menu allows configuration of the hopping
mechanism. The GPS modules deliver signals to the Access Units that
insure that their hopping patterns are fully synchronized. This includes
synchronizing the time each unit starts a new hop and ensuring that
units start the hopping sequence simultaneously.
Number of Hopping Frequencies – Configures the Number of
Hopping Frequencies parameter to guarantee that all the Access
Units managed by the GPS module will start their hopping sequence
simultaneously.
To determine the correct number of hopping frequencies, access the
monitor program in one of the AU units, select Show Basic
Configuration in the Info Screens menu and view the Number of
Hopping Frequencies value displayed.
You can also determine the Number of Hopping Frequencies using
Table ý3-18:
Table 2-22: Number of Hopping Frequencies
Number of Hopping Frequencies
(hopping sequence length)
Hopping Standard
Australia
60
Canada
30
Europe ETSI
79
France
35
Israel
35
Korea
23
Japan
23
Netherlands
15
Spain
27
US FCC
79
Mexico
30
Rest of America
79
Dwell Time – Applicable only when the ACSE Option is disabled.
When the ACSE Option is enabled this parameter is not applicable
and the dwell time is the ACSE Dwell Time, set to a fixed value of
60 milliseconds (see page 2-72).
ACSE Option – see page 2-51
NOTE:
The values of the ACSE Option and Dwell Time (if the ACSE Option is disabled)
parameters must be the same for all GPS modules and Access Units in the system to
enable synchronized hopping.
GPS Antenna Recovery - Under normal operating conditions, the
BS-GU module uses the time signals it receives from the GPS
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antenna to generate the synchronization signals for the AUs. When
two or more BS-GU modules are daisy-chained, the signals from the
GPS antenna are transferred to all "slave" BS-GU modules via the
SYNC OUT - SYNC IN cable, and all BS-GUs use these signals to
generate synchronization signals for their AUs.
The BS-GU can detect whether a daisy-chaining cable is connected
to its' SYNC IN port; If a daisy-chaining cable is connected to the
SYNC IN port, the unit is a "slave" unit. If a daisy-chaining cable is
not connected to the SYNC IN port, the unit will behave like a
"master".
The BS-GU continuously checks whether it receives proper PPS
(Pulse Per Second) signals from the GPS antenna. Proper PPS
signals are exactly one second apart. When a BS-GU detects that it
does not receive proper timing signals from the GPS antenna, it will
behave as follows:
a.
If the BS-GU is a "master", it will start generating
synchronization signals using its internal clock. The
synchronization signals will also be transferred to the SYNC
OUT port.
b.
If a BS-GU is a "slave", it will use the synchronization signals it
receives from the "master" via the SYNC IN port. It will also
transfer these signals to its SYNC OUT port for use by the next
slave module if applicable.
A slave module continuously monitors the lines from the GPS
antenna in its SYNC IN port. If it determines that proper PPS signals
are received (at least three consecutive PPS signals one second
apart), it will automatically revert to the regular operating mode,
using the PPS signals for generating its synchronization signals.
A master BS-GU must enter a special antenna recovery mode to
check the validity of the signals it receives from the GPS antenna.
NOTE:
During Antenna Recovery mode the master BS-GU module stops generating
synchronization signals for several seconds. Therefore, the rate of entering this mode
should be minimal.
The antenna recovery mode can be activated either manually or
automatically, using the GPS Antenna Recovery menu:
Manual Recovery Mode - Enables to initiate a single antenna
recovery process during which the unit checks the signals it
receives from the GPS antenna. The manual recovery mode is
completely independent of the automatic recovery mode,
meaning that a manual recovery process can be initiated by the
user regardless of the selected option in Automatic Recovery
Option. Typically, manual recovery will be initiated after
connecting/re-connecting or fixing a problem in the GPS
antenna.
Manual Revision: 3.0
Menus and Parameters
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Automatic Recovery Mode - Enables to control an automatic
recovery process:
Automatic Recovery Option - To enable or disable
automatic initiation of antenna recovery process. If a GPS
antenna is not used, the Automatic Recovery Option should
be disabled.
The default selection is Enable.
Automatic Recovery Interval - To define the time interval
between two consecutive initiations of automatic antenna
recovery processes.
Valid values: 5 to 1440 (minutes)
Default value: 15 (minutes)
NOTE:
The GPS Antenna Recovery menu is applicable only to a "master" BS-GU module.
Alarm Parameters (GU)
The GU module serves also as the alarms control unit for the
BreezeACCESS system and auxiliary equipment. It has dry contact
connections to 4 external alarm inputs (Alarm In 1 through Alarm In 4),
that turn on upon contact closure. It also receives alarm indications
from BreezeACCESS power supply module (Alarm In 7 through Alarm
In 10), that turn on to indicate a power failure or over temperature
problem in any of the two optional power supplies. PS1 alarms refer to a
power supply module inserted in the left-most slot of the chassis. PS2
alarms refer to a power supply module inserted in the right-most slot of
the chassis. Alarm In 5 (GPS Antenna Status) is generated internally in
the GU module, and it is turned on to indicate that proper PPS (pulse
per second) timing signals are received from the GPS antenna.
NOTES:
Over Temperature alarm indication is only supported by the AC power supply module.
In installations with a single power supply module, the GU module doesn’t function
(and therefore will not provide an alarm indication) upon total failure of the power
supply or upon failure of the 5 V module.
The GU module can also control 3 Alarm Out relay, where each relay
has a common contact, a normally open (NO) contact and a normally
closed (NC) contact.
The Alarm Parameters menu allows access to the following sub-menus:
Alarms In Names.
Alarms Out Names.
Automatic Alarms Out Definition.
Alarms Out Control.
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Show Alarm Parameters.
Alarms In Names
The Alarms In Names menu allows names for each of the four external
alarm indications that can be connected to the AL IN connector to be
defined. These names can reflect the specific environment in which the
module is being used (e.g. “Smoke Detector 1” or “Main Door”).
Each Alarms In Name can contain up to 31 printable ASCII characters
(case sensitive).
The default names are Alarm In 1 through Alarm In 4.
Alarms Out Names
The Alarms Out Names menu allows names for each of the three
external devices that can be connected to the AL OUT connector to be
defined. These names can reflect the specific environment in which the
module is being used (e.g. “Alarm Light 1”).
Each Alarms Out Name can contain up to 31 printable ASCII characters
(case sensitive).
The default names are Alarm Out 1 through Alarm Out 3.
Automatic Alarms Out Definition
The Automatic Alarms Out Definition menu allows you to define the
conditions under which each of the 3 Alarms Outs is to be activated
(when operating in Automatic mode). The available options for each of
the three Alarms Out are:
1 – Activate if Alarm In 1 turns ON.
2 – Activate if Alarm In 2 turns ON.
3 – Activate if Alarm In 3 turns ON.
4 – Activate if Alarm In 4 turns ON.
5 - Activate if Alarm In 5 (GPS Antenna Status) turns ON
6 - Not Applicable (Alarm In 6 is not defined)
7 - Activate if Alarm In 7 (PS1Over Temperature) turns ON
8 - Activate if Alarm In 8 (PS2 Over Temperature) turns ON
9 - Activate if Alarm In 9 (PS1 Power) turns ON
10 - Activate if Alarm In 10 (PS2 Power) turns ON
N – None (never activate this Alarm Out).
A - Activate if ANY of the Alarms In turns ON.
The default for all three Alarms Out is 0 (None – never activate the
alarm).
Manual Revision: 3.0
Menus and Parameters
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Alarms Out Control
The Alarms Out Control menu allows the functionality of the Alarms Out
control mechanism to be defined. Its main purpose is to support
“manual” activation/deactivation of each of the Alarms Out either
locally or remotely using Telnet or SNMP. For each of the three Alarms
Out, the following control options are available:
0 – Turn Alarm OFF (even if it should be ON according to the
definition in the Automatic Alarms Out Definition Menu).
1 – Turn Alarm ON (even if it should be OFF according to the
definition in the Automatic Alarms Out Definition Menu).
2 – Automatic (activate/deactivate according to the definition in the
Automatic Alarms Out Definition Menu).
The default for all three Alarms Out is 2 (Automatic).
Show Alarm Parameters
Shows the current values of the Alarms In and Alarms Out parameters
as well as their current status:
Alarms In Names And Status
Displays the names and current status (ON or OFF) for all Alarm In
indications, including “internal” alarms, as follows:
Alarm In 1 through Alarm In 4: Name according to the name
defined in the Alarms In Names Menu.
Alarm In 5: GPS Antenna Status.
Alarm In 6: NA (reserved for future use).
Alarm In 7: PS1 Over Temperature (over temperature indication
for BS-PS Power Supply module 1, which is the module inserted
in the left-most slot of the chassis).
Alarm In 8: PS2 Over Temperature (over temperature indication
for BS-PS Power Supply module 2, which is the module inserted
in the right-most slot of the chassis).
Alarm In 9: PS1 Power (power fail indication for BS-PS Power
Supply module 1, which is the module inserted in the left-most
slot of the chassis).
Alarm In 10: PS2 Power (power fail indication for BS-PS Power
Supply module 2, which is the module inserted in the right-most
slot of the chassis).
NOTE:
In some installations only one Power Supply module (either PS1 or PS2) may
be used.
Alarms Out Names, Definitions, Control and Status
Displays the following information for each of the three Alarms Out:
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Name: Name according to the name defined in the Alarms In
Names Menu.
Definition: NONE, Alarm In # or ANY, according to the
configuration in the Automatic Alarms Out Definition Menu.
Control: OFF, ON or AUTO, according to the configuration in the
Alarms Out Control Menu.
Status: ON or OFF.
Manual Revision: 3.0
BreezeACCESS II
Version 4.3
Revision 3.0
System Manual:
Appendices
Appendix A:
Configuration
Download/Upload
This appendix describes the method of configuring a large number of
BreezeACCESS units at once.
BreezeACCESS Version 4.3 System Manual
A-2
The Configuration Download/Upload feature in BreezeACCESS units
simplifies the task of remotely configuring a large number of units using
TFTP protocol.
By downloading the configuration file to a PC it is possible to view all the
parameters configured at the unit, as it is a plain text ASCII file.
It is necessary to edit the file by a using simple editor and to remove
certain parameters or change their values prior to uploading the
configuration to another unit.
When multiple configuration is performed (uploading the file to several
units) it is recommended that only the relevant parameters be included
in the file .
Each parameter is represented in the file by three fields:
A symbolic string similar to the name of the parameter in the
monitor program, followed by “=”.
The value of the parameters (using the same values that are used in
the monitor program).
A comment (optional). If used, it should start with a “;” character.
The unit will ignore an unknown parameter. In the case of a known
parameter with an out of range value, the default value will be used.
Use the SNMP write community string (the default is “private”) to define
both the uploaded file (put) and the downloaded file (get):
SnmpWriteCommunity.cfg
The file should be transferred in ASCII mode.
Example:
To upload the configuration file using DOS based TFTP Client to an SU
whose IP address is 206.25.63.65:
tftp 206.25.63.65 put Suconf private.cfg
To download the configuration file from the same unit:
tftp 206.25.63.65 get private.cfg Suconf
Manual Revision: 3.0
Appendix B:
Software Version
Loading Procedure
General
Firmware upgrades to the unit's FLASH memory are performed by a
simple loading procedure using a TFTP application. Before performing
an upgrade procedure, be sure you have the correct files and latest
instructions.
NOTE:
Shutting down power to the unit before completion of the loading procedure may cause
the unit to be inoperable.
Verify that you have IP connectivity to the unit to be loaded with a new
version. Verify that the IP address of the PC from which you intend to
perform the upgrade belongs to the same subnet as the unit to be
upgraded (unless the unit is behind a router). If the unit is behind a
router, verify that the unit is configured with the correct Default
Gateway Address.
To view the current IP parameters of the unit, use the monitor program
by connecting the PC to the unit either directly or via Telnet and use the
following procedure:
1. From the Main Menu select 1 – Info Screens.
The Info Screens menu opens.
2. From the Info Screen menu select 2 – Show Basic Configuration.
A display of the current configuration of the basic parameters
appears, including the IP Address, Subnet Mask and Default
Gateway Address parameters.
To configure any of the IP parameters, use the following procedure:
1. From the Main Menu select 3 – Basic Configuration.
The Basic Configuration menu opens.
2. To configure the IP Address, select: 1 – IP Address.
3. To configure the Subnet Mask, select 2 – Subnet Mask.
4. To configure the Default Gateway Address select 3 – Default
Gateway Address.
5. Reset the unit in order for the new configuration to apply.
BreezeACCESS Version 4.3 System Manual
B-2
6. To verify the connection, ping the unit’s IP address. Verify that ping
replies are being received.
The procedure to be used depends on the unit’s FLASH memory type.
Identify the FLASH memory type by using the monitor program,
connecting the PC to the unit either directly or via Telnet.
From the Main Menu, select 1 – Info Screens. From the Info Screen
menu select 1 – Show Unit Status. The last line of the Unit Status
display will indicate the FLASH type (type F or type S).
Use the TFTP utility, with the following syntax, to perform the upgrade:
tftp –i hostaddress put sourcefile [destinationfile]
Where -i is for binary mode, hostaddress is the IP address of the
unit to be upgraded, put defines that the PC (client) will send a file to
the hostaddress and destinationfile is the name of the file to be
loaded.
Loading an Upgrade to a Unit
with FLASH Type: F
Use the following table to determine which source file name to use,
according to the unit’s type.
Unit Type
Source File Name
AU
AXF.BS
SU
AXF.SU
SU with Voice
AXF.SUV
GU
AXF.GU
X, refers to the software version number, up to 5 decimal digits
(e.g. for software release 4.0.40, X=4040).
Use the SNMP write community .dwn (the
default write community is private) to define the destination filename.
For example, to load the upgrade file A3011F.BS to an AU whose IP
address is 206.25.63.65 use the following syntax:
tftp –i 206.25.63.65 put A3011F.BS private.dwn
Manual Revision: 3.0
Appendix B
B-3
NOTE:
If you are upgrading a Subscriber Unit which is not associated with an AU, the unit will
reset every five minutes (approximately) and the following message will be displayed:
FTL: file src\wpscan.c line 262 Too large number of scanning
attempts
The unit will reset and it will take more than a minute before you can re-establish the
connection to it. You should either have the SU associated with an AU before starting
the loading process or complete the loading process before the unit resets. Otherwise
you will have to try again until you complete the loading process.
When version loading is completed the following message is displayed:
Loading operation has been completed successfully
The FLASH memory can store two software versions. One version is
called Current and the second version is called Shadow. The new
version is loaded into the Shadow (backup) FLASH memory.
To check that the new firmware was loaded properly, view the firmware
versions stored in the FLASH using the following procedure:
1. From the Main Menu, select 2 – Unit Control.
The Unit Control menu opens.
2. From the Unit Control menu, select 5 – Flash Memory Control.
The Flash Memory Control menu opens.
3. From the Flash Memory Control menu, select S – Show Flash
Versions.
The display appears as follows:
Flash Versions
===========
Current Version: 3.0.39
Shadow Version:
4.0.40
Version After Reset:3.0.39
From the Flash Memory Control menu select the active software version,
using the following procedures:
To activate the backup (shadow) version:
1. From the Flash Memory Control menu select 1 - Reset and Boot from
Shadow Version.
The Reset and Boot from Shadow Version menu opens.
2. Select 1 – Reset Now and press ENTER.
3. The unit resets and the Shadow version is used as the newactive
version. Note that after the next reset, the Current version will be
activated again.
If the active version is the Shadow version and you wish to
continue using it after the next Reset, use the following procedure:
BreezeACCESS Version 4.3 System Manual
BreezeACCESS Version 4.3 System Manual
B-4
1. From the Flash Memory Control menu select 2 - Use Current Version
After Reset.
The Use Current Version After Reset menu opens.
2. Select 1 – Set As Default Now and press ENTER. This will actually
cause the names of the two versions to switch. The previous Shadow
version will now be called Current and vise versa. The following
message will be displayed:
UP (DOWN) Image FLASH will be operational (UP or DOWN
refers to the location in the flash memory).
The loading procedure is protected. An attempt to load an invalid
version (e.g. using .fmr when trying to load a
new version to units with a FLASH Type: F) will be rejected.
Loading an Upgrade to a Unit
with FLASH Type: S
Use the following table to determine which source file name to use,
according to the unit’s type.
Unit Type
File Name
AU
AXS.BS
SU
AXS.SU
SU with Voice
AXS.SUV
GU
AXS.GU
X refers to the software version number, up to 5 decimal digits (e.g. for
software release 4.0.40, X=4040).
Use the SNMP write community .fmr (default
write community is private) to define the destination filename. For
example: to load the upgrade file A3011S.SU to an SU whose IP address
is 206.25.63.55 use the following syntax:
>tftp –i 206.25.63.55 put A3011S.SU private.fmr
Manual Revision: 3.0
Appendix B
B-5
NOTE:
If you are upgrading a Subscriber Unit which is not associated with an AU, the unit will
reset every five minute (approximately) and the following message will be displayed:
FTL: file src\wpscan.c line 262 Too large number of scanning
attempts
The unit will reset and it will take more than a minute before you can re-establish the
connection to it. You should either have the SU associated with an AU before starting
the loading process or complete the loading process before the unit resets. Otherwise
you will have to try again until you complete the loading process.
When loading is completed the following message is displayed: Loading
operation has been completed successfully.
The FLASH memory can store two software versions. One version is
called Current and the second version is called Shadow. The new
version is loaded into the Shadow (backup) FLASH memory.
To check that the new firmware was loaded properly, view the firmware
versions stored in the FLASH using the following procedure:
1. From the Main Menu, select 2 – Unit Control.
The Unit Control menu opens.
2. From the Unit Control menu, select 5 – Flash Memory Control.
The Flash Memory Control menu opens.
3. From the Flash Memory Control menu, select S – Show Flash
Versions.
The display appears as follows:
Flash Versions
===========
Current Version: 3.0.39
Shadow Version:
4.0.40
Version After Reset:3.0.39
From the Flash Memory Control menu select the active software version,
using the following procedures:
To activate the backup (shadow) version:
1. From the Flash Memory Control menu select 1 - Reset and Boot from
Shadow Version.
The Reset and Boot from Shadow Version menu opens.
2. Select 1 – Reset Now and press ENTER.
3. The unit resets and the Shadow version is used as the newactive
version. Note that after the next reset, the Current version will be
activated again.
If the active version is the Shadow version and you wish to
continue using it after the next Reset, use the following procedure:
BreezeACCESS Version 4.3 System Manual
BreezeACCESS Version 4.3 System Manual
B-6
1. From the Flash Memory Control menu select 2 - Use Current Version
After Reset.
The Use Current Version After Reset menu opens.
2. Select 1 – Set As Default Now and press ENTER. This will actually
cause the names of the two versions to switch. The previous Shadow
version will now be called Current and vise versa. The following
message will be displayed:
UP (DOWN) Image FLASH will be operational (UP or DOWN
refers to the location in the flash memory).
The loading procedure is protected. An attempt to load an invalid
version (e.g. using .fmr when trying to load a
new version to units with a FLASH Type: S) will be rejected.
Manual Revision: 3.0
Appendix C:
Supported MIBs
and Traps
BreezeACCESS agents support the following MIBs:
MIB-II (RFC1213)
BRIDGE-MIB (RFC1286)
BreezeCOM brzAccessMib
BreezeCOM brzPhoneMib
BreezeCOM brznetmib
Appendix C
C-3
Object
OID (Location in parenthesis)
Description
breezecomAU_I
breezecomBreezeACCESS_ACCESS 21
(710.10.2.1.21)
AU-I
breezecomSU_BS
breezecomBreezeACCESS_ACCESS 22
(710.10.2.1.22)
SU-BS
breezecomAU_BS_WA
breezecomBreezeACCESS_ACCESS 23
(710.10.2.1.23)
AU-BS-WA
breezecomGU_BS
breezecomBreezeACCESS_GENERAL 1
(710.10.2.2.1)
GU-BS
brzAccessMIB
Path:
breezecom
OBJECT IDENTIFIER =1.3.6.1.4.1.710
{(iso(1) org(3) dod(6) internet(1) private(4) enterprises(1) breezecom(710)}
breezecomPrvRev
{breezecom 3}
OBJECT IDENTIFIER = 1.3.6.1.4.1.710.3
brzAccessMib
{breezecomPrvRev 3}
OBJECT IDENTIFIER = 1.3.6.1.4.1.710.3.3
Note:
* is used instead of the brzacc prefix
Service Parameters
MIB Parameter
(Location in Parenthesis)
Description
Values/Range
*ServiceParameters
710.3.3.1
(brzAccessMib 1)
MIR/CIR Parameters.
*MirCirOption
710.3.3.1.1
(*ServiceParameters 1)
Applicable to SU and AU only. The setting in the
AU enables/disables the MIR/CIR support
feature for all SUs served by the AU, regardless
of the setting in the SU.
The option exists in the SU only for compatibility
with AUs running SW versions 3.X and lower, in
which case the MIR/CIR support feature is
controlled at the SU.
Integer
disable (0)
enable (1)
na (255)
*MirAUtoSU
710.3.3.1.2
(*ServiceParameters 2)
Applicable to SU only. Sets the Maximum
Information Rate (MIR) from AU to SU.
Integer
32–2200 (Kbps)
Must be higher than *CirAUtoSU
*MirSUtoAU
710.3.3.1.3
(*ServiceParameters 3)
Applicable to SU only. Sets the Maximum
Information Rate (MIR) from SU to AU.
Integer
32–2200 (Kbps)
Must be higher than *CirSUtoAU
*CirAUtoSU
710.3.3.1.4
(*ServiceParameters 4)
Applicable to SU only. Sets the Committed
Information Rate (CIR) from AU to SU.
Integer
0–2200 (Kbps)
Must be lower than *MirAUtoSU
*CirSUtoAU
710.3.3.1.5
(*ServiceParameters 5)
Applicable to SU only. Sets the Committed
Information Rate (CIR) from SU to AU.
Integer
0–2200 (Kbps)
Must be lower than *MirSUtoAU
*MaxDelay
710.3.3.1.6
(*ServiceParameters 6)
Applicable to SU only. Sets the maximal time
packets may be delayed by the CIR\MIR
mechanism. Above the configured maximal
period the packets are discarded.
Integer
300 – 10,000 (milliseconds)
*MaxBurstDuration
710.3.3.1.7
(*ServiceParameters 7)
Applicable to SU and AU. Sets the maximum
time during which ìinactivity bonusî time can be
accumulated for future burst transmissions.
Integer
0 – 2000 (milliseconds)
*GracefulDegradationLimit
710.3.3.1.8
(*ServiceParameters 8)
Applicable to AU only. Sets the maximum limit
for activating the graceful degradation algorithm.
Integer
0 – 70 (%)
BreezeACCESS Version 4.3 System Manual
BreezeACCESS Version 4.3 System Manual
C-4
MIB Parameter
(Location in Parenthesis)
Description
Values/Range
*RunTimeMirCirOption
710.3.3.1.9
(*ServiceParameters 9)
Applicable to SU only. Indicates the actual status
of the MIR/CIR option, which may be different
from the setting of this parameter in the SU since
it is controlled by the AU.
Integer
disable (0)
enable (1)
na (255)
*MirOnlyOption
710.3.3.1.10
(*ServiceParameters 10)
Applicable only to AU when CIR/MIR option is
enabled.
When enabled, the MIR/CIR algorithm fo
determining the actual information rate is
overridden and operates only with the configured
MIR values. The graceful degradation algorithm
is disabled.
disable (0)
enable (1)
na (255)
RADIUS General Parameters
MIB Parameter
(Location in Parenthesis)
Description
Values/Range
*RadiusGeneralParameters
710.3.3.22
(brzAccessMib 22)
Applicable to SU only. General RADIUS
parameters.
*RadiusUserName
710.3.3.22.1
(*RadiusGeneralParameters 1)
Applicable to SU only. A string that is
used as the User Name when
communicating with the RADIUS server.
DisplayString (SIZE(64))
Up to 64 printable ASCII characters, case
sensitive.
*RadiusUserPassword
710.3.3.22.2
(*RadiusGeneralParameters 2)
Applicable to SU only. A string that is
used as the User Password when
communicating with the RADIUS server.
Accessible only with SNMP Write
Community.
DisplayString (SIZE(64))
Up to 64 printable ASCII characters, case
sensitive.
*RadiusSharedSecret
710.3.3.22.3
(*RadiusGeneralParameters 3)
Applicable to SU only. A string that is
used to encrypt the User Password when
communicating with the RADIUS server.
Accessible only with SNMP Write
Community.
DisplayString (SIZE(20)
Up to 20 printable ASCII characters, case
sensitive.
Accounting Parameters
MIB Parameter
(Location in Parenthesis)
Description
Values/Range
*AccountingParameters
710.3.3. 3
(brzAccessMib 3)
Applicable to SU only. Accounting parameters.
*AccountingOption
710.3.3.3.1
(*AccountingParameters 1)
Applicable to SU only. Enables or disables the
transmission of accounting records to a Radius
Server.
Integer
disable (0)
enable (1)
na (255)
*RadiusServerAccounting IpAddress
710.3.3.3.2
(*AccountingParameters 2)
Applicable to SU only. IP Address of the
Accounting RADIUS server.
IP address
*AccountingInterval
710.3.3.3.3
(*AccountingParameters 3)
Applicable to SU only. Maximum interval, in
seconds, between consecutive transmissions
of accounting records.
Integer
60–6000 (seconds)
*RadiusServerAccountingPort
710.3.3.3.4
(*AccountingParameters 4)
Applicable to SU only. The accounting port of
the RADIUS server.
Integer
1000 – 65535
na (255)
Manual Revision: 3.0
Appendix C
C-5
RADIUS Authentication Parameters
MIB Parameter
(Location in Parenthesis)
Description
Values/Range
*RadiusAuthParameters
710.3.3. 21
(brzAccessMib 21)
Applicable to SU only. RADIUS Authentication
parameters.
*RadiusAuthOption
710.3.3. 21.1
(*RadiusAuthParameters 1)
Applicable to SU only. Enables or disables the
RADIUS Authentication support feature.
Integer
disable (0)
enable (1)
na (255)
* RadiusServerAuthIpAddress
710.3.3. 21.2
(*RadiusAuthParameters 2)
Applicable to SU only. IP Address of the authentication
RADIUS server.
IP address
*RadiusServerAuthPort
710.3.3. 21.3
(*RadiusAuthParameters 3)
Applicable to SU only. The authentication port of the
RADIUS server.
Integer
1000 – 65535
na (255)
*RadiusAuthenticationStatus
710.3.3. 21.3
(*RadiusAuthParameters 3)
Applicable to SU only. A read-only status of the
authentication process.
Integer
idle (0)
sendingRequest (1)
waitForResponse(2)
sendingChallenge(3)
authenticated (4)
rejected (5)
User Filtering Parameters
MIB Parameter
(Location in
Parenthesis)
Description
Values/Range
*UserFilterParams
710.3.3. 2
(brzAccessMib 2)
Applicable to SU only. User Filtering parameters.
*UserFilterOption
710.3.3.2.1
(*UserFilterParams 1)
Applicable to SU only. Defines user-filtering options.
disable: No filtering.
iPOnly: Only IP protocol frames pass.
userDefinedAddrOnly: Only IP messages to/from user
defined IP addresses pass.
pPPoE Only: Only PPPoE frames pass.
*IpFilterTable
710.3.3.2.2
(*UserFilterParams 2)
Applicable to SU only. An IP Filter Table of up to 8 user
defined addresses, or address groups, to be used if the
selected User Filtering option is userDefinedAddrOnly.
Not accessible.
*IpFilterEntry
710.3.3.2.2.1
(*IpFilterTable 1)
Applicable to SU only. An IP Filter Table entry. Not
accessible.
*IpID
710.3.3.2.2.1.1
(*IpFilterEntry 1)
Applicable to SU only. An IP address of an IP Filter Table
entry.
IP Address
*MaskID
710.3.3.2.2.1.2
(*IpFilterEntry 2)
Applicable to SU only. An IP Mask of an IP Filter Table
entry.
Either a mask or a range, but not both can be used to
define an address group.
IP Address
*IpFilterRange
710.3.3.2.2.1.3
(*IpFilterEntry 3)
Applicable to SU only. An addresses range for the IP
Filter Table entry. The first address in the range is the IP
address (*iPID).
Either a mask or a range, but not both can be used to
define an address group.
Integer
0 - 255
*IpFilterIdx
710.3.3.2.2.1.4
(*IpFilterEntry 4)
Applicable to SU only. Read-only. A table index for the IP
Filter Table entry.
Integer
1-8
Integer
disable (0)
iPOnly (1)
userDefinedAddrOnly(2)
pPPoEOnly (3)
na (255)
BreezeACCESS Version 4.3 System Manual
BreezeACCESS Version 4.3 System Manual
C-6
MIB Parameter
(Location in
Parenthesis)
Description
Values/Range
*DeleteOneUserFilter
710.3.3.2.3
(*UserFilterParams 3)
Applicable to SU only. Deletes a single selected entry
from the IP Filter Table.
Integer
off (0)
firstEntry (1)
secondEntry (2)
thirdEntry (3)
fourthEntry (4)
fifthEntry (5)
sixthEntry (6)
seventhEntry (7)
eighthEntry (8)
na (255)
*DeleteAllUserFilters
710.3.3.2.4
(*UserFilterParams 4)
Applicable to SU only. Deletes all entries from the IP
Filter Table.
Integer
off (0)
deleteAll (1)
off (2)
na (255)
Manual Revision: 3.0
Appendix C
C-7
Network Management Parameters
MIB Parameter
(Location in Parenthesis)
Description
Values/Range
*NwMngParameters
710.3.3. 4
(brzAccessMib 4)
Network Management parameters.
*AccessToNwMng
710.3.3. 4.1
(*NwMngParameters 1)
Applicable to AU and SU. The port to be
used for remote management.
wlanOnly: Management E from Wireless
port only.
ethOnly: Management enabled from
Ethernet port only.
bothWlanEth: Management enabled from
both Wireless and Ethernet ports.
Integer
wlanOnly (0)
ethOnly (1)
bothWlanEth (2)
na (255)
*NwMngFilter
710.3.3. 4.2
(*NwMngParameters 2)
Applicable to AU, SU and GU. Disables or
enables IP address based filtering of
management messages (SNMP/Telnet/
TFTP) on one of the ports, or on both
ports.
In GU only disable and activateOnEthPort
options are available.
Integer
disable (0)
activateOnEthPort (1)
activateOnWlanPort (2)
activateOnBothWlanAndEth(3)
na (255)
mngIpFilterTable
710.3.3. 4.3
(*NwMngParameters 3)
Applicable to AU, SU and GU. A
Management IP Filter Table of up to 3 IP
addresses of devices that are authorized
to access the unit for management
purposes. Not accessible.
mngIpFilterEntry
710.3.3. 4.3.1
(mngIpFilterTable 1)
Applicable to AU, SU and GU. A
Management IP Filter Table entry. Not
accessible.
*NwMngIpAddress
710.3.3. 4.3.1.1
(mngIpFilterEntry 1)
Applicable to AU, SU and GU. An IP
address in the Management IP Filter
Table.
IP address
*NwMngIpTableIdx
710.3.3. 4.3.1.2
(mngIpFilterEntry 2)
Applicable to AU, SU and GU. Read-only.
A table index for an entry in the
Management IP Filter Table.
Integer
1-3
*DeleteOneNwIpAddr
710.3.3. 4.4
(*NwMngParameters 4)
Applicable to AU, SU and GU. Deletes a
single selected entry from the
Management IP Filter Table.
Integer
off (0)
firstEntry (1
secondEntry (2)
thirdEntry (3)
na (255)
*DeleteAllNwIpAddrs
710.3.3. 4.5
(*NwMngParameters 5)
Applicable to AU, SU and GU. Deletes all
entries from the Management IP Filter
Table.
Integer
off (0)
on (1)
na (255)
*AccessToNwTrap
710.3.3. 4.6
(*NwMngParameters 6)
Applicable to AU, SU and GU. Enables or
disables sending of SNMP traps.
Integer
disable (0)
enable (1)
mngTrapTable
710.3.3. 4.7
(*NwMngParameters 7)
Applicable to AU, SU and GU. A
Management Trap Table of up to 3 IP
addresses of devicess to send traps to.
Not accessible.
mngTrapEntry
710.3.3. 4.7.1
(mngTrapTable 1)
Applicable to AU, SU and GU. A
Management Trap Table entry. Not
accessible.
*NwMngTrapCommunity
710.3.3. 4.7.1.1
(mngTrapEntry 1)
Applicable to AU, SU and GU. The trap
community associated with the applicable
entry in the Management Trap Table.
DisplayString (SIZE(14))
Up to 14 printable ASCII characters, case
sensitive.
*NwMngTrapAddress
710.3.3. 4.7.1.2
(mngTrapEntry 2)
Applicable to AU, SU and GU. An IP
address in the Management Trap Table
entry.
IP address
*NwMngTrapTableIdx
710.3.3. 4.7.1.3
(mngTrapEntry 3)
Applicable to AU, SU and GU. Read only.
Tables Index for an entry in the
Management Trap Table.
Integer
1-3
*DeleteOneTrapAddr
710.3.3. 4.8
(*NwMngParameters 8)
Applicable to AU, SU and GU. Deletes a
single selected entry from the
Management Trap Table.
Integer
off (0)
firstEntry (1)
secondEntry (2)
thirdEntry (3)
na (255)
BreezeACCESS Version 4.3 System Manual
BreezeACCESS Version 4.3 System Manual
C-8
MIB Parameter
(Location in Parenthesis)
Description
Values/Range
*DeleteAllTrapAddrs
710.3.3.4.9
(*NwMngParameters 9)
Applicable to AU, SU and GU. Deletes all
entries from the Management Trap Table.
*PerTrapControl
710.3.3.4.10
(*NwMngParameters 10)
Applicable to AU, SU and GU. Per Trap
Control parameters.
*SendSUAssociatedAUTrap
710.3.3.4.10.1
(*PerTrapControl 1)
Applicable to AU only. Enables\Disables
the sending of
brzaccSUassociatedAUTRAP.
Integer
disable (0)
enable (1)
*SendAUDissassociatedTrap
710.3.3.4.10.2
(*PerTrapControl 2)
Applicable to AU only. Enables\Disables
the sending of
brzaccAUdisassociatedTRAP.
Integer
disable (0)
enable (1)
*SendAUAgingTrap
710.3.3.4.10.3
(*PerTrapControl 3)
Applicable to AU only. Enables\Disables
the sending of brzaccAUagingTRAP.
Integer
disable (0)
enable (1)
*SendAUWirelessQualityTrap
710.3.3.4.10.4
(*PerTrapControl 4)
Applicable to AU only. Enables\Disables
the sending of
brzaccAUwirelessQualityTRAP.
Integer
disable (0)
enable (1)
*SendSUAssociatedTrap
710.3.3.4.10.5
(*PerTrapControl 5)
Applicable to SU only. Enables\Disables
the sending of brzaccSUassociatedTRAP.
Integer
disable (0)
enable (1)
*SendSUWirelessQualityTrap
710.3.3.4.10.6
(*PerTrapControl 6)
Applicable to SU only. Enables\Disables
the sending of
brzaccSUwirelessQualityTRAP.
Integer
disable (0)
enable (1)
*SendParameterChangedTrap
710.3.3.4.10.7
(*PerTrapControl 7)
Applicable to SU and AU.
Enables\Disables the sending of
brzaccParameterChangedTRAP.
Integer
disable (0)
enable (1)
*SendGPSAlarmInTrap
710.3.3.4.10.8
(*PerTrapControl 8)
Applicable to GU only. Enables\Disables
the sending of brzaccGpsAlarmInTRAP.
Integer
disable (0)
enable (1)
*SendGPSAlarmOutTrap
710.3.3.4.10.9
(*PerTrapControl 9)
Applicable to GU only. Enables\Disables
the sending of brzaccGpsAlarmOutTRAP.
Integer
disable (0)
enable (1)
*SendGPSUTCstatusTrap
710.3.3.4.10.10
(*PerTrapControl 10)
Applicable to GU only. Enables\Disables
the sending of
brzaccGpsUTCstatusTRAP.
Integer
disable (0)
enable (1)
*SendPowerUpFromResetTrap
710.3.3.4.10.11
(*PerTrapControl 11)
Applicable to AU, SU and GU.
Enables\Disables the sending of
brzaccPowerUpFromResetTRAP.
Integer
disable (0)
enable (1)
*SendMonitorStatusTrap
710.3.3.4.10.12
(*PerTrapControl 12)
Applicable to AU, SU and GU.
Enables\Disables the sending of
brzaccMonitorStatusTRAP.
Integer
disable (0)
enable (1)
*SendColdOrWarmStartTrap
710.3.3.4.10.13
(*PerTrapControl 13)
Applicable to AU, SU and GU.
Enables\Disables the sending of Generic
Start (Cold\Warm) Trap.
Integer
disable (0)
enable (1)
*SendAULossOfSyncTrap
710.3.3.4.10.14
(*PerTrapControl 14)
Applicable to BS-AU in slave mode only.
Enables\Disables the sending of
brzaccAULossOfSyncTRAP.
Integer
disable (0)
enable (1)
*SendAUAlarmsTraps
710.3.3.4.10.15
(*PerTrapControl 15)
Applicable to IF-based AU.
Enables\Disables the sending of all AU
Alarms traps.
Integer
disable (0)
enable (1)
Manual Revision: 3.0
Integer
0=off
1=on
2=off
255=na
Appendix C
C-9
Bridge Parameters
MIB Parameter
(Location in Parenthesis)
Description
Values/Range
*BridgeParameters
710.3.3. 5
(brzAccessMib.5)
Bridge parameters.
*EthBroadcastFiltering
710.3.3. 5.1
(*BridgeParameters 1)
Applicable to SU only.
Enables/disables the filtering of Ethernet
(layer2) broadcasts.
disable: No filtering.
ethOnly: Filter broadcasts received on the
Ethernet port only.
wlanOnly: Filter broadcasts received on the
Wlan port only.
bothWlanAndEth: Filter broadcasts received on
both ports.
*VLANSupport
710.3.3. 5.2
(*BridgeParameters 2)
Applicable to AU, SU and GU. VLAN Support
Parameters.
*VlanID
710.3.3. 5.2.1
(*VLANSupport 1)
Applicable to SU only. VLAN ID for data frame
tagging. Applicable to Access Link only.
Integer
1-4094.
0 means not applicable
*EthernetLinkType
710.3.3. 5.2.2
(*VLANSupport 2)
Applicable to AU and SU. VLAN support mode
(Link Type).
The Access Link option is not available for AU.
Integer
accessLink (1)
trunkLink (2)
hybridLink (3)
*ManagementVID
710.3.3. 5.2.5
(*VLANSupport 5)
Applicable to AU, SU and GU. VLAN ID for
management frame tagging. For SUs with voice
support it is also used for tagging voice frames
(RTP packets).
Integer
1-4094
65535 means no VLAN
tagging.
*VoicePriorityTag
710.3.3. 5.2.6
(*VLANSupport 6)
Applicable to SU with voice only. Enables
prioritization tagging of voice (RTP) frames
according to IEEE 802.1p when
*ManagementVID is 65535 (No VLAN).
Integer
disable (0)
enable (1)
na (255)
*VLANForwarding
710.3.3. 5.2.7
(*VLANSupport 7)
VLAN Forwarding Feature Parameters
*VlanForwardingSupport
710.3.3. 5.2.7.1
(*VLANForwarding 1)
Applicable to AU and SU. Enables or disables
VLAN Forwarding. (applicable in Trunk links
only)
*VlanForwardingTable
710.3.3. 5.2.7.2
(*VLANForwarding 2)
Applicable to AU and SU. A VLAN Forwarding
Table of up to 20 VLAN IDs of devices to which
data frames are forwarded when VLAN
Forwarding is Enabled. (applicable in Trunk
links only). Not accessible.
*VlanForwardingEntry
710.3.3. 5.2.7.2.1
(*VlanForwardingTable 1)
Applicable to AU and SU. A VLAN Forwarding
Table entry. (applicable in Trunk links only). Not
accessible.
*VlanForwardingIdx
710.3.3. 5.2.7.2.1.1
(*VlanForwardingEntry 1)
Applicable to AU and SU. A read only table
index for a VLAN entry in the VLAN Forwarding
Table.
Integer
1 - 20
*VlanIdForwarding
710.3.3. 5.2.7.2.1.2
(*VlanForwardingEntry 2)
Applicable to AU and SU. The list of VLAN ID's
in the VLAN ID Forwarding Table. To Remove a
VLAN ID - SET the corresponding entry to 0. To
Add a new VLAN ID SET an entry which is
currently 0.
Integer
1-4094
0=remove entry.
*VLANRelaying
710.3.3. 5.2.8
(*VLANSupport 8)
VLAN Relaying Feature Parameters
*VlanRelayingSupport
710.3.3. 5.2.8.1
(*VLANRelaying 1)
Applicable to AU only. Enables or disables
VLAN Relaying. (applicable in Trunk links only)
*VlanRelayingTable
710.3.3. 5.2.8.2
(*VLANRelaying 2)
Applicable to AU only. A VLAN Relaying Table
of up to 20 VLAN IDs of devices to which data
frames are relayed when VLAN Relaying is
Enabled. (applicable in Trunk links only). Not
accessible.
Integer
disable (0)
ethOnly (1)
wlanOnly (2)
bothWlanAndEth(3)
na (255)
Integer
disable (0)
enable (1)
na (255)
Integer
disable (0)
enable (1)
na (255)
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BreezeACCESS Version 4.3 System Manual
C-10
MIB Parameter
(Location in Parenthesis)
Description
Values/Range
*VlanRelayingEntry
710.3.3. 5.2.8.2.1
(*VlanRelayingTable 1)
Applicable to AU only. A VLAN Relaying Table
entry. (applicable in Trunk links only). Not
accessible.
*VlanRelayingIdx
710.3.3. 5.2.8.2.1.1
(*VlanRelayingEntry) 1
Applicable to AU only. A read only table index
for a VLAN entry in the VLAN Relaying Table.
Integer
1 - 20
*VlanIdRelaying
710.3.3. 5.2.8.2.1.2
(*VlanRelayingEntry 2)
Applicable to AU only. The list of VLAN ID's in
the VLAN ID Relaying Table. To Remove a
VLAN ID - SET the corresponding entry to 0. To
Add a new VLAN ID SET an entry which is
currently 0.
Integer
1-4094
0=remove entry.
*VLANTrafficPriority
710.3.3. 5.2.9
(*VLANSupport 9)
VLAN Traffic Priority Parameters
*VlanDataPriority
710.3.3. 5.2.9.1
(*VLANTrafficPriority 1)
Applicable to SU only.
Priority tagging for data frames. Applicable to
Access Link only.
Integer
0–7
na (255)
*VlanVoicePriority
710.3.3. 5.2.9.2
(*VLANTrafficPriority 2)
Applicable to SU with voice only. Priority
tagging for voice frames. Applicable to Access
Link and Trunk Link only.
Integer
0–7
na (255)
*VlanManagementPriority
710.3.3. 5.2.9.3
(*VLANTrafficPriority 3)
Applicable to AU, SU and GU. Priority tagging
for management frames. Applicable to units
with a *ManagementVID other than 65535.
Integer
0–7
na (255)
*PriorityQueueThreshold
710.3.3. 5.2.9.4
(*VLANTrafficPriority 4)
Applicable to AU and SU. Priority threshold for
tagged frames received from Ethernet port.
Applicable to Hybrid Link and Trunk Link only.
Integer
0–7
na (255)
*BridgeAgingTime
710.3.3. 5.3
(*BridgeParameters 3)
Applicable to AU and SU. Bridge aging time for
devices learned from both the Ethernet and
wireless link ports.
Integer
100 – 2000
(seconds)
*LanToWirelessLinkBridgeMode
710.3.3. 5.4
(*BridgeParameters 4)
Applicable to AU only.
Controls the flow of information from Ethernet
to Wlan.
rejectUnknown: Permits only transmission to
addresses known to be on the Wlan side.
forwardUnknown: Forwards all frames, except
those sent to addresses known to be on the
Ethernet side.
Integer
rejectUnknown (0)
forwardUnknown (1)
na (255)
*BroadcastRelaying
710.3.3. 5.5
(*BridgeParameters 5)
Applicable to AU only.
Enables/disables the relaying of broadcast
messages to the wireless link.
Integer
disable (0)
enable (1)
na (255)
*UnicastRelaying
710.3.3. 5.6
(*BridgeParameters 6)
Applicable to AU only.
Enables/disables the relaying of unicast
messages to the wireless link.
Integer
disable (0)
enable (1)
na (255)
*EthBroadcastingParameters
710.3.3. 5.7
(*BridgeParameters 7)
Applicable to SU only. Ethernet Broadcasting
parameters.
*DHCPBroadcastOverrideFilter
710.3.3. 5.7.1
(*EthBroadcastingParameters 1)
Applicable to SU only. Enables or disables the
broadcasting of DHCP messages, overriding
the general *EthBroadcastFiltering Ethernet
broadcast filtering option
Integer
no (0)
yes (1)
na (255)
* PPPoEBroadcastOverrideFilter
710.3.3. 5.7.2
(*EthBroadcastingParameters 2)
Applicable to SU only. Enables or disables the
broadcasting of PPPoE messages, overriding
the general *EthBroadcastFiltering Ethernet
broadcast filtering option.
Integer
no (0)
yes (1)
na (255)
* ARPBroadcastOverrideFilter
710.3.3. 5.7.3
(*EthBroadcastingParameters 3)
Applicable to SU only. Enables or disables the
broadcasting of ARP messages, overriding the
general *EthBroadcastFiltering Ethernet
broadcast filtering option.
Integer
no (0)
yes (1)
na (255)
*VoicePacketsToS
710.3.3. 5.8.1
(*ToSPriorityParameters 1)
Applicable to SU with voice only.
The Type of Service value to be inserted in the
IP header of voice (RTP) packets.
Integer
0-255
*ToSPrecedenceThreshold
710.3.3. 5.8.2
(*ToSPriorityParameters 2)
Applicable to SU and AU only. Priority threshold
(based on the ToS) for frames received from
Ethernet port.
Integer
0-7
*ToSPriorityParameters
710.3.3. 5.8
(*BridgeParameters 8)
Manual Revision: 3.0
Appendix C
C-11
MIB Parameter
(Location in Parenthesis)
Description
Values/Range
*PortsControl
710.3.3. 5.9
(*BridgeParameters 9)
Applicable to SU only. Port Control parameters
*EthernetPortControl
710.3.3. 5.9.1
(*PortsControl 1)
Applicable to SU only. Enable/disable the
Ethernet port. When disabled, only data frames
are blocked. Management frames are
accepted.
Integer
disable (0)
*VoicePortControl
Applicable to SU with voice only. Enable/
Integer
710.3.3. 5.9.2
(*PortsControl 2)
disable the voice port.
disable (0)
enable (1)
enable (1)
Air Interface Parameters
MIB Parameter
(Location in Parenthesis)
Description
Values/Range
*AirInterface
710.3.3. 6
(brzAccessMib 6)
*ESSID
710.3.3. 6.1
(*AirInterface 1)
Applicable to SU and AU. The
Extended Service Set ID (ESSID)
used to prevent the merging of
collocated systems. Accessible only
with SNMP Write Community.Can be
viewed (get) with the SNMP Read
Community only if
*SNMPReadESSID is enabled.
DisplayString (SIZE(31))
Up to 31 printable case sensitive ASCII
characters.
*AckDelayLimit
710.3.3. 6.2
(*AirInterface 2)
Applicable to SU and AU. Defines
the maximum time the unit waits for
a response message to a
transmission (e.g. ACK, CTS,
response during association
process) before deciding that the
transmission failed
Defining a higher range causes the
unit to wait a longer time for a
response before retransmission.
Low: Up to 10km
Medium: Up to 20km
High: Greater than 20km.
Integer
Low (0)
Medium (1)
High (2)
na (255)
*FreqOffset
710.3.3. 6.3
(*AirInterface 3)
Applicable to SU and AU in
BreezeACCESS XL and
BreezeACCESS V 5..7GHz families.
Not applicable to
BreezeACCESS XL units that
support only Flexible Hopping
Definition for setting the hopping
frequencies (e.g. 3.3a band).
Not applicable in Flexible Hopping
Definition mode.
Integer
na (255)
In BreezeACCESS XL it determines
the beginning of the actual hopping
band or single channel frequency
relative to the beginning of the radio
band.
Start of hopping band (channel) =
Start of radio band+2 X Frequency
Offset.
In BreezeACCESS XL the valid range of
values is dependent on the bandwidth of the
radio and on the selected Hopping Band.
Max. Frequency Offset = [Overall radio
bandwidth-Hopping Band]/2
In BreezeACCESS V 5.7GHz, the permitted
range is 0 to 45 (MHz) in ISM US FCC mode
and 0 to 70 (MHz) in ISM International mode.
In BreezeACCESS V 5.7GHz
operating in ISM US FCC or ISM
International mode, it determines the
shift in MHz of each channel’s
frequency relative to the channel’s
frequency in the basic hopping
sequence.
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BreezeACCESS Version 4.3 System Manual
C-12
MIB Parameter
(Location in Parenthesis)
Description
Values/Range
*TransmitDiversity
710.3.3. 6.4
(*AirInterface 4)
Applicable to SU-R, SU-I and AU-I
units only.
Enables the selection of the
antenna(s) to be used for
transmission.
Integer
use2Antennasn (0)
antenna1 (1)
antenna2 (2)
na (255)
*HoppingSequence
710.3.3. 6.5
(*AirInterface 5)
Applicable to AU in BreezeACCESS
II family only.
Determines the hopping sequence to
be used. Different AUs in the same
geographical area should use
different Hopping Sequences from
the same Hopping Set.
The valid range is dependant on the
Country Standard.
Integer
Na (255)
Australia: 1-20
Canada: 1-10
Europe ETSI: 1-26
France: 1-11
Israel: 1-11
Japan: 1-4
Korea: 1-4
Netherlands: 1-5
Spain: 1-9
US FCC: 1-26
Mexico: 1-10
International: 1-26
*HoppingSet
710.3.3. 6.6
(*AirInterface 6)
Applicable to AU in BreezeACCESS
II family only.
Determines the hopping set to be
used. All AUs in the same
geographical area should use the
same Hopping Set.
Integer
1-3
na (255)
*HoppingSync
710.3.3. 6.7
(*AirInterface 7)
Applicable to BS-AU only.
Inter-AU hopping sync functionality
of the unit.
In the BreezeACCESS II family,
synchronization among AUs is not
available with the following Country
Standards: US FCC, Australia,
Canada.
In the BreezeACCESS V family,
synchronization is not available if the
selected hopping band is
ISM US FCC.
Integer
idle (0)
slave (1)
master (2)
na (255)
*HoppingShift
710.3.3. 6.8
(*AirInterface 8)
Applicable to AU in BreezeACCESS
V, XL and MMDS families and in
BreezeACCESS II if *HoppingBands
is frqFlexibleHopping.
Defines a hopping pattern different
from the basic hopping sequence
(Hopping Shift=0). Different
collocated AUs should use different
hopping shifts.
Integer
na (255)
Range 0 to [number of operational channels-1]
Manual Revision: 3.0
Appendix C
MIB Parameter
(Location in Parenthesis)
*HoppingBands
710.3.3. 6.9
(*AirInterface 9)
C-13
Description
Values/Range
Applicable to SU and AU only.
In BreezeACCESS II units set in the
factory to “Country Standard
Protected” this is read-only, showing
the Country Standard set in the
factory.
Integer
na (255)
The available values represent settings that
are dependent on the specific radio band.
BreezeACCESS II (read only when
configured in factory to “Country Standard
Protected”):
frqSiteProprietary (3)
frqISMEuropeETSI (4)
frqISMUsFCC (5)
frqISMJapan (6)
frqISMKorea (7)
frqISMAustralia (8)
frqISMIsrael (9)
frqISMNetherlands (11)
frqISMFrance (12)
frqISMSpain (13)
frqISMCanada (14)
frqInternational (22)
frqFlexibleHopping (37)
frqSingleChannel2_4GHz (41)
frqISMMexico (67)
MMDS (read only):
frqFlexibleHopping (37)
BreezeACCESS 2.6b:
frqFlexibleHopping (37)
frq2_6GhzHoppingSequence10MHz (44)
frq2_6GhzHoppingSequence12MHz (45)
frq2_6GhzHoppingSequence14MHz (46)
frq2_6GhzHoppingSequence24MHz (47)
frq2_6GhzHoppingSequence28MHz (48)
frq2_6GhzHoppingSequence36MHz (49)
frq2_6GhzHoppingSequence42MHz (50)
frqSingleChannel2_6Ghz (51)
BreezeACCESS 3.3a, 3.5e, 3.6b: (read only)
frqFlexibleHopping (37)
BreezeACCESS 3.5a:
frq3_5aGHzHoppingSequence10MHz (15)
frq3_5aGHzHoppingSequence12MHz (16)
frq3_5aGHzHoppingSequence14MHz (17)
frq3_5aGHzHoppingSequence24MHz (18)
frq3_5aGHzHoppingSequence28MHz (19)
frq3_5aGHzHoppingSequence36MHz (20)
frq3_5aGHzHoppingSequence42MHz (21)
frqFlexibleHopping (37)
frqSingleChannel3_5GHz (40)
frq3_5aGHzHoppingSequence24MhzPropriet
ary(69)
BreezeACCESS 3.5a1:
frq3_5a1GHzHoppingSequence10MHz (23)
frq3_5a1GHzHoppingSequence12MHz (24)
frq3_5a1GHzHoppingSequence14MHz (25)
frq3_5a1GHzHoppingSequence24MHz (26)
frq3_5a1GHzHoppingSequence28MHz (27)
frq3_5a1GHzHoppingSequence36MHz (28)
frq3_5a1GHzHoppingSequence42MHz (29)
frq3_5a1GHzHoppingSequence50MHz (33)
frqFlexibleHopping (37)
frqSingleChannel3_5a1GHz (39)
frq3_5a1GHzHoppingSequence24MhzProprie
tary(70)
In BreezeACCESS MMDS it is readonly, showing Flexible Hopping
Definition.
In BreezeACCESS XL products that
support only Flexible Hopping
Definition for setting the hopping
frequencies (e.g. 3.3a band), it is
read-only, showing Flexible Hopping
Definition.
In other BreezeACCESS XL
products, supporting the use of the
Hopping Band parameter for setting
the hopping frequencies, this is readwrite, enabling the selection of a
fixed Hopping Band, Single Channel
operation or Flexible Hopping
Definition.
In BreezeACCESS V units in the
5.7GHz band that are configured to
support only ISM US FCC hopping
standard, it is read-only. Otherwise it
is read-write, supporting the
selection of ISM US FCC,
ISM International and Flexible
Hopping Definition,
In BreezeACCESS V units in the
5.2GHz band it is read-only, showing
Flexible Hopping Definition.
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BreezeACCESS Version 4.3 System Manual
C-14
MIB Parameter
(Location in Parenthesis)
Description
*HoppingBands (continued)
Values/Range
BreezeACCESS 3.5b, 3.5ab:
frq3_5aGHzHoppingSequence10MHz (15)
frq3_5aGHzHoppingSequence12MHz (16)
frq3_5aGHzHoppingSequence14MHz (17)
frq3_5aGHzHoppingSequence24MHz (18)
frq3_5aGHzHoppingSequence28MHz (19)
frq3_5aGHzHoppingSequence36MHz (20)
frq3_5aGHzHoppingSequence42MHz (21)
frq3_5bGHzHoppingSequence50MHz (32)
frqFlexibleHopping (37)
frqSingleChannel3_5GHz (40)
frq3_5aGHzHoppingSequence24MhzPropriet
ary(69)
BreezeACCESS 3.8:
frq3_8GHzBand1 (0)
frq3_8GHzSelectable (1)
frq3_8GHzApprovalSpectrumMask (2)
frqFlexibleHopping (37)
frqSingleChannel3_8GHz (42)
BreezeACCESS 5.2: (read only)
frqFlexibleHopping (37)
BreezeACCESS 5.7
frg5_7GHzISMUsFCC(74)
frg5_7GHzInternational(75)
frg5_7GHzFlexibleHopping(37)
*MaxDataRate
710.3.3. 6.10
(*AirInterface 10)
Applicable to SU and AU. The
maximum transmission data rate.
Integer
max1Mbps (1)
max2Mbps (2)
max3Mbps (3)
na (255)
*TransmitPowerControl
710.3.3. 6.11
(*AirInterface 11)
Applicable to IF based units only.
Not applicable to AlvariBase,
AU-BS-WA Enables reducing the
transmit power level.
The maximum available value is for
maximum power. A lower value
reduces the transmitted power. The
resulting transmit power level
depends on the unit type (band) and
on the attenuation of the IF cable. In
SU, If ATPC is enabled the algorithm
Integer
BreezeACCESS II, XL and MMDS: 0-15
BreezeACCESS V: 0-7
na (255)
*RxAttenuationControl
710.3.3. 6.12
(*AirInterface 12)
Applicable to IF-based SU (SU-A/E)
only.
Enables to set the attenuation in the
receive path to 0, 10 or 25dB. The
effect of inserting such attenuation in
the receive circuit is equivalent to
reducing the level of the received
signal (including both signal and
noise) by 2dB when selecting 10dB
attenuation and 12dB when selecting
25dB attenuation.
Integer
low0dB (0)
med10dB (1)
high25dB (2)
na (255)
*MaximumVoiceSessions
710.3.3. 6.14
(*AirInterface 14)
Applicable to AU only.
The maximum number of
simultaneous voice sessions
permitted to guarantee minimum
quality.
Integer
0-50
na (255)
*FlexSubBandDef
710.3.3. 6.15
(*AirInterface 15)
Applicable to SU and AU only.
Flexible Hopping Definition
parameters.
uses it as the initial power level.
Manual Revision: 3.0
Appendix C
MIB Parameter
(Location in Parenthesis)
C-15
Description
Values/Range
*AddSubBand
710.3.3. 6.15.1
(*FlexSubBandDef 1)
Applicable to SU and AU only.
In BreezeACCESS II, V and MMDS
families it adds sub-bands (f1-f2) or
discrete frequencies to the list of
sub-bands/frequencies to be used
for generating the basic Hopping
Sequence after the next reset.
In BreezeACCESS XL it defines a
new set of sub-bands/frequencies to
be used for generating the basic
Hopping Sequence after the next
reset.
DisplayString (SIZE(244))
Up to 244 printable ASCII characters.
Use either MHZ resolution ìaaaaî or kHz
resolution ìaaaa.bbbî.
Use a hyphen between two entries defining a
sub-band. Use a comma between sub-bands
and/or discrete frequency entries. Do not use
spaces.
*DelSubBand
710.3.3. 6.15.2
(*FlexSubBandDef 2)
Applicable to SU and AU in
BreezeACCESS II, V and MMDS
families only.
Deletes sub-bands (f1-f2) or discrete
frequencies from the list of subbands/frequencies to be used for
generating the basic Hopping
Sequence after the next reset.
DisplayString (SIZE(244))
Up to 244 printable ASCII characters.
Use either MHZ resolution ìaaaaî or kHz
resolution ìaaaa.bbbî.
Use a hyphen between two entries defining a
sub-band. Use a comma between sub-bands
and/or discrete frequency entries. Do not use
spaces.
*ErazeAllSubBands
710.3.3. 6.15.3
(*FlexSubBandDef 3)
Applicable to SU and AU in
BreezeACCESS II, V and MMDS
families only.
Deletes all entries from the table of
the frequencies to be used.
Integer
eraseAll (0)
noOperation (1)
na (255)
*SubBandTable
710.3.3. 6.15.4
(*FlexSubBandDef 4)
Applicable to SU and AU only. The
list of sub-bands to be supported
after next reset. Not accessible.
*SubBandEntry
710.3.3. 6.15.4.1
(*SubBandTable 1)
Applicable to SU and AU only. A
Sub-Band Table entry. Not
accessible.
*SubBand
710.3.3. 6.15.4.1.1
(*SubBandEntry 1)
Applicable only to SW version 2.6.
Applicable to SU and AU only. Readonly. A Sub-Band in the Sub-Bands
Table.
Integer
*SubBandsTableIdx
710.3.3. 6.15.4.1.2
(*SubBandEntry 2)
Applicable to SU and AU only. Readonly. A Sub-Band Table entry index.
Integer
*SubBandExp
710.3.3. 6.15.4.1.3
(*SubBandEntry 3)
Applicable to SU and AU only. Readonly. A Sub-Band in the Sub-Bands
Table.
DisplayString (SIZE(10))
*CurrentHoppingSeqTable
710.3.3. 6.15.5
(*FlexSubBandDef 5)
Applicable to SU and AU only. The
list of hopping frequencies in the
Current Hopping Sequence. Not
accessible.
*CurrentHoppingSeqEntry
710.3.3. 6.15.5.1
(*CurrentHoppingSeqTable 1)
Applicable to SU and AU only. A
Current Hopping Sequence Table
entry. Not accessible.
*HopSeqSubBand
710.3.3. 6.15.5.1.1
(*CurrentHoppingSeqEntry 1)
Applicable only to SW version 2.6.
Applicable to SU and AU only. Readonly. A frequency in the Current
Hopping Sequence Table.
Integer
*CurrHopSeqTableIdx
710.3.3. 6.15.5.1.2
(*CurrentHoppingSeqEntry 2)
Applicable to SU and AU only. Readonly. A Current Hopping Sequence
Table index.
Integer
*CurrSubBandExp
710.3.3. 6.15.5.1.3
*CurrentHoppingSeqEntry 3)
Applicable to SU and AU only. Readonly. A frequency in the Current
Hopping Sequence Table.
DisplayString (SIZE(10))
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BreezeACCESS Version 4.3 System Manual
C-16
MIB Parameter
(Location in Parenthesis)
Description
Values/Range
*ChannelSpacing
710.3.3. 6.15.5
(*FlexSubBandDef 5)
Applicable to SU and AU in
BreezeACCESS XL family only.
Applicable only in Flexible Hopping
Definition mode. Defines the
minimum distances between two
frequencies. (Not available in some
products that only support a 2MHz
Channel Spacing)
Integer
space1_75MHz (0)
space1MHz (1)
space2MHz (2)
na (255)
*AddFlexHopChannels
710.3.3. 6.15.7
(*FlexSubBandDef 7)
Applicable to SU and AU in
BreezeACCESS MMDS family only.
Adds MMDS channels to the list of
channels to be used.
DisplayString (SIZE(244))
Up to 244 printable ASCII characters in one of
the following formats:
1. A1
2. B2,C3,G4 (no spaces)
*DelFlexHopChannels
710.3.3. 6.15.8
(*FlexSubBandDef 8)
Applicable to SU and AU in
BreezeACCESS MMDS family only.
Deletes MMDS channels from the list
of channels to be used.
DisplayString (SIZE(244))
Up to 244 printable ASCII characters in one of
the following formats:
1. A1
2. B2,C3,G4 (no spaces)
*ScramblingDefinition
710.3.3. 6.15.9
(*FlexSubBandDef 9)
Applicable to SU and AU.
Scrambling parameters.
*ScramblingMode
710.3.3. 6.15.9.1
(*ScramblingDefinition 1)
Applicable to SU and AU.
The
method of scrambling the
frequencies defined in the Flexible
Hopping Definition process for
generating the basic hopping
sequence.
Standard mode - this mode
automatically scrambles the
frequencies according to the
algorithm used in SW version 3.x
and lower. It is suitable for up to 6
frequencies.
Enhanced mode - this mode
automatically scrambles the
frequencies according to a new
algorithm.
Manual mode - The user defines the
hopping sequence using the
frequencies indexes.
Integer
standardMode (1)
manualMode (2)
enhancedMode(3)
*ManualSequenceDefinition
710.3.3. 6.15.9.2
(*ScramblingDefinition 2)
Applicable to SU and AU.
Manual scrambling definition.
Configuring the sequence using the
frequencies indexes.
Display String.
Up to 244 printable ASCII characters.
Allowed Range of Indexes: '1' to 'Number of
Channels'.
Sequence Length must be equal to 'Number of
Channels'.
Use a comma to separate between entries.
*EraseManualSequence
710.3.3. 6.15.9.3
(*ScramblingDefinition 3)
Applicable to SU and AU. Erase the
manually configured sequence.
Integer
cancelOperation (0)
eraseAll (1)
*SpanningFactor
710.3.3. 6.15.9.4
(*ScramblingDefinition 4)
Applicable to AU only. The Spanning
Factor to be used by the Enhanced
Scrambling mechanism. The
Spanning Factor should be chosen
so that the GCD (Greater Common
Divisor) of the Spanning Factor and
the Number of Frequencies would be
1 (e.g. for 8 frequencies possible
values for the Spanning Factor are 1,
3, 5 and 7). The SU learns the value
of the Spanning Factor from the AU.
Integer
From 1 to ‘Number of Frequencies’, provided it
meets the GCD requirement.
*ScrambledSeqTable
710.3.3. 6.15.9.5
(*ScramblingDefinition 5)
Applicable to SU and AU only. The
scrambled sequence to be
supported after next reset. Not
accessible.
*ScrambledSeqEntry
710.3.3. 6.15. 9.5.1
(*ScrambledSeqTable 1)
Applicable to SU and AU only. A
Scrambled Sequence Table entry.
Not accessible.
Manual Revision: 3.0
Appendix C
MIB Parameter
(Location in Parenthesis)
C-17
Description
Values/Range
*ScrambledSeqTableIdx
710.3.3. 6.15. 9.5.1.1
(**ScrambledSeqEntry 1)
Applicable to SU and AU only. Readonly. A Scrambled Sequence Table
entry index.
Integer
*ScrambledSeqFreqIdx
710.3.3. 6.15. 9.5.1.2
(**ScrambledSeqEntry 2)
Applicable to SU and AU only. Readonly. A Frequency Index in the
Scrambled Sequence Table.
DisplayString (SIZE(10))
*CallAgingTime
710.3.3. 6.16
(*AirInterface 16)
Applicable to AU only. The aging
time for a voice call in the Call Info
database.
Integer
1-50,000 (seconds)
1=No aging
*SecurityParameters
710.3.3. 6.17
(*AirInterface 17)
Security Parameters
*PrivacyOptionImplemented
710.3.3. 6.17.1
(*SecurityParameters 1)
Applicable to SU and AU. Read
Only. Enable/disable the privacy
option. Normally set to active.
Integer
notActive (0)
active (1)
*AuthenticationAlgorithm
710.3.3. 6.17.2
(*SecurityParameters 2)
Applicable to SU and AU only.
Enables/disables the authentication
option.
Integer
openSystem (0)
sharedKey (1)
openSystem: authentication
messages are not encrypted.
supportAll (2) (AU only)
sharedKey: Authentication
messages are encrypted.
supportAll: Applicable for AU only.
Allows authentication of all SUs,
regardless of the Authentication
Algorithm and WEP Key used in the
SU.
*DefaultKeyID
710.3.3. 6.17.3
(*SecurityParameters 3)
Applicable to SU only. The ID of the
key to be used for encryption the
authentication messages.
Integer
1-4
*WEPKey1
710.3.3. 6.17.4
(*SecurityParameters 4)
Applicable to SU and AU only.
Encryption WEP Key#1. Accessible
only with SNMP Write Community.
DisplayString (SIZE(10))
Ten hexadecimal digits
*WEPKey2
710.3.3. 6.17.5
(*SecurityParameters 5)
Applicable to SU and AU only.
Encryption WEP Key#2. Accessible
only with SNMP Write Community.
DisplayString (SIZE(10))
Ten hexadecimal digits
*WEPKey3
710.3.3. 6.17.6
(*SecurityParameters 6)
Applicable to SU and AU only.
Encryption WEP Key#3. Accessible
only with SNMP Write Community.
DisplayString (SIZE(10))
Ten hexadecimal digits
*WEPKey4
710.3.3. 6.17.7
(*SecurityParameters 7)
Applicable to SU and AU only.
Encryption WEP Key#4. Accessible
only with SNMP Write Community.
DisplayString (SIZE(10))
Ten hexadecimal digits.
*CurrentTxPwrLvl
710.3.3. 6.18
(*AirInterface 18)
Applicable only to SU-R units and to
SU-I and AU-I units with HW version
C or lower.
Enables setting the transmitted
power level according to the unit
capabilities.
In SU-R-3.5ab, If ATPC is enabled
the algorithm uses it as the initial
Integer
Low (0)
*WirelessTrapThreshold
710.3.3. 6.19
(*AirInterface 19)
A wireless link quality threshold for
sending the *WirelessStatusTRAP,or
*WirelessStatusOfSUsTRAP.
These traps indicate whether the
quality has gone below or above the
specified threshold.
Integer
SU: 0-255 (RSSI units)
AU: 0-100 (% retransmissions)
*NumberOfHoppingFrequenciess
710.3.3. 6.20
(*AirInterface 20)
Applicable to SU and AU. Read-only.
The Number of Hopping
Frequencies used in the AU.
Integer
0-151
na (255)
high (1)medium (2)
SU-R-3.5ab
– applicable only to
power level.
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BreezeACCESS Version 4.3 System Manual
C-18
MIB Parameter
(Location in Parenthesis)
Description
Values/Range
*OperatorESSID
710.3.3. 6.21
(*AirInterface 21)
Applicable to AU only. A secondary
ESSID to support upgrade of
existing installations. All AUs in the
region should be configured to the
same Operator ESSID to allow a
new SU to associate with any AU.
Accessible only with SNMP Write
Community
DisplayString (SIZE(31))
Up to 31 printable ASCII characters, case
sensitive.
*RunTimeESSID
710.3.3. 6.22
(*AirInterface 22)
Applicable to SU only. Read-only.
The ESSID of the associated AU.
Accessible only with SNMP Write
Community.Can be viewed (get) with
the SNMP Read Community only if
*SNMPReadESSID is enabled.
DisplayString (SIZE(31))
Up to 31 printable ASCII characters, case
sensitive.
*BestAu
710.3.3. 6.23
(*AirInterface 23)
Best AU Parameters
*BestAuSupport
710.3.3. 6.23.1
(*BestAu 1)
Applicable to SU only. Disable/
enable the Best AU selection
mechanism.
Integer
disable (0)
enable (1)
na (255)
*BestAuNoOfScanningAttempts
710.3.3. 6.23.2
(*BestAu 2)
Applicable to SU only. The number
of scanning attempts to collect
information for the Best AU decision.
Integer
1 – 255
*NeighborAuTable
710.3.3. 6.23.3
(*BestAu 3)
Applicable to SU only. A table of
data on neighboring AUs. Not
accessible.
*NeighborAuEntry
710.3.3. 6.23.3.1
(*NeighborAuTable 1)
Applicable to SU only. An entry in
the Neighbor AU Table. Not
accessible.
*NeighborAuMacAdd
710.3.3. 6.23.3.1.1
(*NeighborAuEntry 1)
Applicable to SU only. Read-only. A
MAC address of an AU in the
Neighbor AU Table.
MAC address
*NeighborAuESSID
710.3.3. 6.23.3.1.2
(*NeighborAuEntry 2)
Applicable to SU only. Read-only.
The ESSID of an AU in the Neighbor
AU Table. Accessible only with
SNMP Write Community
DisplayString (SIZE(31))
Up to 31 printable ASCII characters, case
sensitive.
*NeighborAuRssi
710.3.3. 6.23.3.1.3
(*NeighborAuEntry 3)
Applicable to SU only. Read-only.
The received signal strength in RSSI
units of an AU in the Neighbor AU
Table.
Integer
*NeighborAuAssocLoadStatus
710.3.3. 6.23.3.1.4
(*NeighborAuEntry 4)
Applicable to SU only. Read-only.
Neighbor AU association load status
in the Neighbor AU Table.
Integer
notFull (0)
full (1)
na (255)
*NeighborAuMark
710.3.3. 6.23.3.1.5
(*NeighborAuEntry 5)
Applicable to SU only. Read-only.
Neighbor AU mark in the Neighbor
AU Table.
Integer
*NeighborAuIdx
710.3.3. 6.23.3.1.6
(*NeighborAuEntry 6)
Applicable to SU only. Read-only. An
index of an entry in the Neighbor AU
Table.
Integer
*NeighborAuDbm
710.3.3. 6.23.3.1.7
(*NeighborAuEntry 7)
Applicable to SU only. Read-only.
The received signal strength in dBm
of an AU in the Neighbor AU Table.
Integer
*PreferredAuMacAddress
710.3.3. 6.23.5
(*BestAu 5)
Applicable to SU only. The MAC
address of the preferred AU
(overriding the Best AU selection
process. 00...00 (all zeros in
address) means no preferred AU is
set.
MAC Address
Manual Revision: 3.0
Appendix C
MIB Parameter
(Location in Parenthesis)
C-19
Description
Values/Range
*TransmitLevel
710.3.3. 6.24
(*AirInterface 24)
Applicable only to SU-I and AU-I
units with HW version D and higher.
Sets the level in dBm of the
transmitted power at the antenna
port.
* brzaccAtpc
710.3.3. 6.25
(*AirInterface 25)
ATPC Parameters
*AtpcOption
710.3.3. 6.25.1
(*Atpc 1)
Applicable to IF based units and SUR-3.5ab units only. Enabling/
disabling the ATPC Algorithm.
Integer
disable (0)
enable (1)
na (255)
*AtpcMaximumRSSI
710.3.3. 6.25.2
(*Atpc 2)
Applicable to IF based AU only.
Defines the maximum desired level
of the average RSSI at the AU.
Above this level, if *AtpcOption is
enabled, the AU will transmit ATPC
Power-Down messages to the
applicable SU. The
*AtpcMaximumRSSI cannot be lower
than *AtpcMinimumRSSI.
Display String
-100 to 0 [dBm]
AtpcMinimumRSSI
710.3.3. 6.25.3
(*Atpc 3)
Applicable to IF based AU only.
Defines the minimum desired level of
the average RSSI at the AU. Below
this level, if *AtpcOption is enabled,
the AU will transmit ATPC Power-Up
messages to the applicable SU. The
*AtpcMinimumRSSI cannot be
higher than *AtpcMaximumRSSI.
Display String
-100 to 0 [dBm]
AtpcMinimumIntervalBetweenMessage
710.3.3. 6.25.4
(*Atpc 4)
Applicable to IF based AU only. The
minimum interval between two
consecutive AU to SU ATPC PowerUp/Power-Down messages.
Integer
0 to 3600 (seconds)
na (255)
RssiMemoryFactor
710.3.3. 6.25.5
(*Atpc 5)
Applicable to IF based AU only. The
weight of history in average RSSI
calculation. The higher is the value,
the higher is the weight of history
Display String
-1 (disregard history) to 32
AtpcLevelSteps
710.3.3. 6.25.6
(*Atpc 6)
Applicable to IF based AU only. The
step size in percentages of
maximum number of available levels
that the SU will use when receiving
an ATPC Power-Up/Power-Down
message.
Integer
1-100(%)
na (255)
AtpcMaxLastLevelTimeAfterReset
710.3.3. 6.25.7
(*Atpc 7)
Applicable to IF based SU and SUR-3.5ab units only. The maximum
time (in seconds) of scanning
attempts after reset, using the last
value of
*CurrentTransmitPowerControl,
before returning to the configured
value of *TransmitPowerControl (IFbased SU) or *CurrentTxPwrLvl (SUR-3.5ab).
Integer
0 to 3600 [Seconds]
AtpcMaxLastLevelTimeAfterSyncLoss
710.3.3. 6.25.8
(*Atpc 8)
Applicable to IF based SU and SUR-3.5ab units only. The maximum
time (in seconds) of scanning
attempts after synchronization loss,
using the last value of
*CurrentTransmitPowerControl,
before returning to the configured
value of *TransmitPowerControl (IFbased SU) or
brzaccCurrentTxPwrLvl (SU-R3.5ab).
Integer
0 to 3600 [Seconds]
*ACSEParameters
710.3.3. 6.27
(*AirInterface 27)
Applicable for AU, SU and GU.
ACSE Voice Scheduler parameters.
Integer
0-21dBm
na (255)
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BreezeACCESS Version 4.3 System Manual
C-20
MIB Parameter
(Location in Parenthesis)
Description
Values/Range
*ACSEOption
710.3.3. 6.27.1
(*ACSEParameters 1)
Applicable for AU, SU and GU.
Read-only in the SU. Disable/enable
the ACSE Voice Scheduler
mechanism.
Integer
disable (0)
enable (1)
*ACSEDwellTime
710.3.3. 6.27.2
(*ACSEParameters 2)
Applicable for AU, SU and GU.
Read-only. The dwell time when the
*ACSEOption is enabled. Currently
set to 60 milliseconds.
Integer
60 (mseconds)
na (255)
*ACSEMaximumVoiceSessions
710.3.3. 6.27.3
(*ACSEParameters 3)
Applicable to AU only.
The maximum number of
simultaneous ACSE voice sessions
permitted to guarantee minimum
quality. Applicable only when the
*ACSEOption is enabled.
Integer
0-15
na (255)
*ACSENumberOfDataRetransmissions
710.3.3. 6.27.4
(*ACSEParameters 4)
Applicable to SU and AU. Maximum
times to retransmit an
unacknowledged data packet.
Applicable only when the
*ACSEOption is enabled.
Integer
0-100
*ACSENumberOfVoiceRetransmission
710.3.3. 6.27.5
(*ACSEParameters 5)
Applicable to SU with voice and AU.
Maximum times to retransmit an
unacknowledged voice packet.
Applicable only when the
*ACSEOption is enabled.
Integer
0-100
*OperatorESSIDOption
710.3.3. 6.28
(*AirInterface 28)
Applicable for AU only. The
Enabling/disabling the use of the
Operator ESSID.
Integer
disable (0)
enable (1)
na (255)
*MaxNumOfAssociations
710.3.3. 6.29
(*AirInterface 29)
Sets the upper limit for the number of
Subscriber Units that can be
associated with the AU.
Integer
0-512
*CurrentTransmitPowerControl
710.3.3. 6.30
(*AirInterface 30)
Applicable for both AU and SU IF
based SU units (SU-A/E) and SU-R3.5ab units. Displays the current
value that is used to control the
transmit power level of the unit. If
brzaccAtpcOption is disabled, it
equals the value of
brzaccTransmitPowerControl
(SU-A/E units) or
brzaccCurrentTxPwrLvl (SU-R-3.5ab
units).
If brzaccAtpcOption is enabled, its'
value may change depending on the
ATPC algorithm.
Integer
SU-A/E in BreezeACCESS II, XL and MMDS:
0-15,
SU-A/E in BreezeACCESS V: 0-7
SU-R-3.5ab:0-2
* SiteProprietary
710.3.3. 6.31
(*AirInterface 31)
Site Proprietary parameters.
Applicable only to BreezeACCESS II
SU and AU configured to work in the
special Site Proprietary hopping
standard.
*SPNumOfFreqs
710.3.3. 6.31.1
(* SiteProprietary 1)
Number of frequencies in the
proprietary hopping sets parameters.
*FirstSetNumOfFreqs
710.3.3. 6.31.1.1
(*SPNumOfFreqs 1)
Read-Only. Number of frequencies
in the first set.
Integer
na (255)
*SecondSetNumOfFreqs
710.3.3. 6.31.1.2
(*SPNumOfFreqs 2)
Read-Only. Number of frequencies
in the second set.
Integer
na (255)
*ThirdSetNumOfFreqs
710.3.3. 6.31.1.3
(*SPNumOfFreqs 3)
Read-Only. Number of frequencies
in the third set.
Integer
na (255)
Manual Revision: 3.0
Appendix C
C-21
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BreezeACCESS Version 4.3 System Manual
C-22
MIB Parameter
(Location in Parenthesis)
Description
Values/Range
*ScanningMode
710.3.3.6.35
(*AirInterface 35)
Applicable to SU only. Not applicable
if *ACSEOption is enabled. Sets the
scanning mode.
passive (1)
active (2)
na (255)
*SendRoamingSNAP
710.3.3.6.37
(*AirInterface 37)
Applicable to all SUs, except to SUBD and SU-BD1V. Disables/enables
the Send Roaming SNAP feature.
Integer
disable (0)
enable (1)
na (255)
*AUTransmissionRateContro
l710.3.3.6.38
(*AirInterface 38)
Applicable to SU only.
When enabled, the maximum rate of
transmissions from the AU to this SU
is determined by the value of the
Maximum Data Rate in the SU.
Integerdisable (0)
enable (1)
na (255)
*MacAddressBlackList
710.3.3.6.39
(*AirInterface 36)
Applicable to AU only. Not
Accessible. MAC Address Black List
parameters
* MacAddressBlackListTable
710.3.3.6.39.1
(*MacAddressBlackList 1)
Applicable to AU only. Not
Accessible. A list of up to 100 MAC
Addresses of SUs that will not be
served by the AU.
*MacAddressBlackListTableEntry
710.3.3.6.39.1.1
(*MacAddressBlackListTable 1)
Applicable to AU only. Not
Accessible. An entry in the Mac
Address Black List Table.
*MacAddressBlackListTableIdx
710.3.3.6.39.1.1.1
(*MacAAddressBlackListTableEntry 1)
Applicable to AU only. A read only
table index for a MAC Address entry
in the Mac Address Black List Table.
Integer
1-100
*MacAddressBlackListId
710.3.3.6.39.1.1.2
(*MacAddressBlackListTableEntry 2)
Applicable to AU only. The list of
MAC Addresses in the Mac Address
Black List Table. To Remove a MAC
Address - SET the corresponding
entry to 0. To Add a new MAC
Address - SET an entry which is
currently 0.
MacAddress
Performance Parameters
MIB Parameter
(Location in Parenthesis)
Description
Values/Range
*PerformanceParams
710.3.3. 7
(brzAccessMib 7)
*NumOfRetransmissions
710.3.3. 7.1
(*PerformanceParams 1)
Applicable to SU and AU. Maximum times
to retransmit an unacknowledged packet.
Applicable only when the *ACSEOption is
disabled.
Integer
0-100
*NumOfDwellToRetransmit
710.3.3. 7.2
(*PerformanceParams 2)
Applicable to SU and AU. Minimum dwell
periods during which an unacknowledged
packet is retransmitted.
Integer
0-9
*NumOfRetransToDecRate
710.3.3. 7.3
(*PerformanceParams 3)
Applicable to SU and AU. Number of
unsuccessful retransmissions to decrease
the transmission rate.
Integer
0-10
*MinContentionWin
710.3.3. 7.5
(*PerformanceParams 5)
Applicable to SU and AU. Determines the
size of the contention window, which is the
time to wait before transmission for
collision avoidance.
Integer
7-255.
*MaxMulticastRate
710.3.3. 7.6
(*PerformanceParams 6)
Applicable to SU and AU. Maximum rate
for transmission of multicast and
broadcast messages.
Integer
max1Mbps (1)
max2Mbps (2)
max3Mbps (3)
na (255)
Manual Revision: 3.0
Appendix C
MIB Parameter
(Location in Parenthesis)
C-23
Description
Values/Range
*CarrierSenseLevel
710.3.3. 7.7
(*PerformanceParams 7)
Applicable to SU and AU. Threshold level
for decision on existence of a carrier
signal, indicating a transmission from
another unit.
DisplayString
-100 to -40 (dB)
*DwellTime
710.3.3. 7.9
(*PerformanceParams 9)
Applicable to AU and GU.
The time spent on each radio channel
(hop). Applicable only when the
*ACSEOption is disabled.
Integer
t32KiloMicroseconds(32)
t64KiloMicroseconds(64)
t128KiloMicroseconds(128)
na (255)
*RTSThreshold
710.3.3. 7.10
(*PerformanceParams 10)
Applicable to SU and AU. The minimum
frame size that requires an RTS/CTS
handshake.
Integer
20-1600 (bytes)
*MultiRate
710.3.3. 7.11
(*PerformanceParams 11)
Applicable to SU and AU. Multi-Rate
parameters
*MultiRateSupport
710.3.3. 7.11.1
(*MultiRate 1)
Applicable to SU and AU. Enables/
disables the multi-Rate decision
mechanism.
Integer
disable (0)
enable (1)
na (255)
*MultiRateDecisionWinSize
710.3.3. 7.11.2
(*MultiRate 2)
Applicable to SU and AU. The size of the
decision window for the multi-Rate
mechanism (the number of consecutive
transmission or retransmission attempts).
Integer
1-50
na (255)
*NoOfFailuresInDecisionWindow
710.3.3. 7.11.3
(*MultiRate 3)
Applicable to SU and AU. The number of
failures in the decision window that will
cause the window to be defined as
unsuccessful.
Integer
1 to Decision Window Size.
na (255)
*GpsHoppingParams
710.3.3. 7.12
(*PerformanceParams 12)
GPS Hopping Parameters
*NumberOfHoppingFreqs
710.3.3. 7.12.1
(*GpsHoppingParams 1)
Applicable to GU Only. The Number of
Hopping Frequencies used in the AUs
controlled by the GU.
*GpsAntennaRecovery
710.3.3. 7.12.3
(*GpsHoppingParams 3)
Applicable to GU only. Antenna Recovery
parameters.
*ManualRecoveryMode
710.3.3. 7.12.3.1
(*GpsAntennaRecovery 1)
Applicable to GU only. Enables to initiate
an antenna recovery process. Applicable
only to master GU.
*AutomaticRecoveryMode
710.3.3. 7.12.3.2
(*GpsAntennaRecovery 2)
Applicable to GU only. Automatic Antenna
Recovery parameters.
*AutomaticRecoveryOption
710.3.3. 7.12.3.2.1
(*AutomaticRecoveryMode 1)
Applicable to GU only. Enables or
disables the automatic GPS antenna
recovery mode. Applicable only for a
master GU.
disable (0)
enable (1)
na (255)
*AutomaticRecoveryInterval
710.3.3. 7.12.3.2.2
(*AutomaticRecoveryMode 2)
Applicable to GU only. Defines the time
interval in minutes between two
consecutive activations of the automatic
recovery process.
Integer
5-1440 (minutes)
*NoiseFloor
710.3.3. 7.13
(*PerformanceParams13)
Applicable to SU and AU. Noise Floor
Level.
Display String
-115 to -50[dBm]
*CarrierToInterferenceDifference
710.3.3. 7.15
(*PerformanceParams 15
Applicable to SU and AU. The minimal
difference between the current estimated
noise level and a signal identified as a
valid carrier.
Integer
6-60 (dB)
Integer
0-151
na (255)
cancel (0)
activateRecoveryProcedureNow (1)
na (255)
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BreezeACCESS Version 4.3 System Manual
C-24
Site Survey Parameters
MIB Parameter
(Location in Parenthesis)
Description
Values/Range
*SiteSurvey
710.3.3. 8
(brzAccessMib 8)
PerHopStatisticsTable
710.3.3. 8.1
(*SiteSurvey 1)
Applicable to SU and AU. Statistics
accumulated since last reset and
average RSSI per frequency for all
hopping frequencies in the
(sequence). Not Accessible.
hopSeqEntry
710.3.3. 8.1.1
(perHopStatisticsTable 1)
Applicable to SU and AU. A Per
Hop Statistics Table entry. Not
accessible.
wPperHopStatisticsTable
710.3.3. 8.1.1.1
(hopSeqEntry 1)
Applicable to SU and AU. Readonly. The channel number
according to the hopping sequence.
Integer
hopTracerRx
710.3.3. 8.1.1.2
(hopSeqEntry 2)
Applicable to SU and AU. Readonly. The accumulated number of
frames received since last reset at
the applicable frequency.
Integer
hopTracerTx
710.3.3. 8.1.1.3
(hopSeqEntry 3)
Applicable to SU and AU. Readonly. The accumulated number of
frames transmitted since last reset
at the applicable frequency.
Integer
hopTracerRetries
710.3.3. 8.1.1.4
(hopSeqEntry 4)
Applicable to SU and AU. Readonly. The accumulated number of
frames retransmitted since last
reset at the applicable frequency.
Integer
hopTracerRSSI
710.3.3. 8.1.1.5
(hopSeqEntry 5)
Applicable to SU and AU. Readonly. The average RSSI of frames
received at the applicable
frequency.
DisplayString (SIZE(20))
* hopTracerFreq
710.3.3. 8.1.1.6
(hopSeqEntry 6)
Applicable to SU and AU. Readonly. The frequency in MHz of the
entry.
DisplayString (SIZE(9))
*TrafficStatistics
710.3.3. 8.2
(*SiteSurvey 2)
Applicable to SU and AU. Traffic
Statistics parameters.
*ResetTrafficCounters
710.3.3. 8.2.1
(*TrafficStatistics 1)
Applicable to SU and AU. Resets
the Ethernet Counters
(*EthCounters) and the Wireless
Link Counters (*WlanCounters).
*EthCounters
710.3.3. 8.2.2
(*TrafficStatistics 2)
Applicable to SU and AU. Ethernet
counters.
*TotalRxFramesViaEthernet
710.3.3. 8.2.2.1
(*EthCounters 1)
Applicable to SU and AU.
Read-only. Total number of frames
received via the Ethernet port.
Counter
*TxWirelessToEthernet
710.3.3. 8.2.2.2
(*EthCounters 2)
Applicable to SU and AU.
Read-only. Total number of frames
transmitted to the Ethernet port.
Counter
*WlanCounters
710.3.3. 8.2.3
(*TrafficStatistics 3)
Applicable to SU and AU. Wireless
link counters.
*TotalTxFramesToWireless
710.3.3. 8.2.3.1
(*WlanCounters 1)
Applicable to SU and AU.
Read-only. The number of frames
transmitted to the wireless media.
The count includes one count for
each data or RTP frame that was
transmitted successfully (excluding
retransmissions), and also the
number of transmitted control and
management frames.
Manual Revision: 3.0
Integer
noReset (0)
reset (1)
Counter
Appendix C
MIB Parameter
(Location in Parenthesis)
C-25
Description
Values/Range
*TotalRxFramesFromWireless
710.3.3. 8.2.3.2
(*WlanCounters 2)
Applicable to SU and AU.
Read-only. The total number of
frames that were received from the
wireless media. The count includes
data and control and management
frames, including beacons received
from the AU. The count does not
include frames that were discarded
internally, bad frames and duplicate
frames.
Counter
*TotalRetransmittedFragments
710.3.3. 8.2.3.3
(*WlanCounters 3)
For future use
Counter
*WlanFramesDropped
710.3.3. 8.2.3.4
(*WlanCounters 4)
Applicable to SU and AU.
Read-only. The number of dropped
frames. The frames that were
retransmitted to the extent of the
maximum allowed number of
retransmissions without being
acknowledged.
Counter
*TransmittedFramesToWirelessDat
710.3.3. 8.2.3.5
(*WlanCounters 5)
Applicable to SU and AU only when
the ACSE Option is enabled.
Read-only. The number of data
frames transmitted to the wireless
media. The count includes one
count for each data frame that was
transmitted successfully (excluding
retransmissions).
Counter
*TransmittedFramesToWirelessVoi
ce
710.3.3. 8.2.3.6
(*WlanCounters 6)
Applicable to SU and AU only when
the ACSE Option is enabled.
Read-only. The number of voice
frames, including fax and redundant
T.38 frames, transmitted to the
wireless media. The count includes
one count for each frame that was
transmitted successfully (excluding
retransmissions).
Counter
*TransmittedFramesToWirelessBea
con
710.3.3. 8.2.3.7
(*WlanCounters 7)
Applicable to AU only when the
ACSE Option is enabled.
Read-only. The number of beacons
transmitted to the wireless media.
The count includes one count for
each beacon that was transmitted
successfully (excluding
retransmission attempts).
Counter
*TotalSubmittedFrames
710.3.3. 8.2.3.8
(*WlanCounters 8)
Applicable to SU and AU.
Read-only. The total number of data
and RTP frames submitted to the
bridge for transmission to the
wireless media. The count does not
include control and management
frames, and retransmissions.
Counter
*SubmittedFramesHigh
710.3.3. 8.2.3.9
(*WlanCounters 9)
Applicable to SU and AU.
Read-only. Counts the number of
frames submitted to the bridge via
the High queue for transmission to
the wireless media. When the
ACSE Option is enabled, it counts
data and RTP frames. When the
ACSE Option is disabled, it counts
only data frames.
Counter
*SubmittedFramesMid
710.3.3. 8.2.3.10
(*WlanCounters 10)
Applicable to SU and AU.
Read-only. Counts the number of
frames submitted to the bridge via
the Mid queue for transmission to
the wireless media. When the
ACSE Option is enabled, it counts
data and RTP frames. When the
ACSE Option is disabled, it counts
only data frames.
Counter
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MIB Parameter
(Location in Parenthesis)
Description
Values/Range
*SubmittedFramesLow
710.3.3. 8.2.3.11
(*WlanCounters 11)
Applicable to SU and AU.
Read-only. Counts the number of
frames submitted to the bridge via
the Low queue for transmission to
the wireless media. When the
ACSE Option is enabled, it counts
data and RTP frames. When the
ACSE Option is disabled, it counts
only data frames.
Counter
*SubmittedFramesVoice
710.3.3. 8.2.3.12
(*WlanCounters 12)
Applicable to SU and AU only when
the ACSE Option is enabled.
Read-only. Counts the number of
voice frames, including fax and T.38
redundant frames, submitted to the
bridge for transmission to the
wireless media.
Counter
*FramesDroppedData
710.3.3. 8.2.3.13
(*WlanCounters 13)
Applicable to SU and AU only when
the ACSE Option is enabled.
Read-only. The number of dropped
data frames. The data frames that
were retransmitted to the extent of
the maximum allowed number of
retransmissions for data frames
without being acknowledged.
Counter
*FramesDroppedVoice
710.3.3. 8.2.3.14
(*WlanCounters 14)
Applicable to SU and AU only when
the ACSE Option is enabled.
Read-only. The number of dropped
voice frames, including fax and T.38
redundant frames. The voice
frames that were retransmitted to
the extent of the maximum allowed
number of retransmissions for voice
frames without being
acknowledged.
Counter
*TotalRetransmittedFrames
710.3.3. 8.2.3.15
(*WlanCounters 15)
Applicable to SU and AU.
Read-only. The total number of
retransmissions of frames (counts
all unsuccessful transmissions/
retransmissions).
Counter
*RetransmittedFramesData
710.3.3. 8.2.3.16
(*WlanCounters 16)
Applicable to SU and AU only when
the ACSE Option is enabled.
Read-only. The total number of
retransmissions of data frames
(counts all unsuccessful
transmissions/retransmissions).
Counter
*RetransmittedFramesVoice
710.3.3. 8.2.3.17
(*WlanCounters 17)
Applicable to SU and AU only when
the ACSE Option is enabled.
Read-only. The total number of
retransmissions of voice frames,
including fax and T.38 redundant
frames (counts all unsuccessful
transmissions/retransmissions).
Counter
*TotalTxErrors
710.3.3. 8.2.3.19
(*WlanCounters 19)
Applicable to SU and AU.
Read-only. The number of transmit
errors that have occurred.
Counter
*TotalTxErrors
710.3.3. 8.2.3.20Hw
(*WlanCounters 20)
Applicable to SU and AU.
Read-only. The number of transmit
errors that have occurred due to an
hardware problem.
Counter
*TotalTxErrorsAbr
710.3.3. 8.2.3.21
(*WlanCounters 21)
Applicable to SU and AU.
Read-only. The number of transmit
errors that have occurred because
transmission has been aborted
before completion due to internal
problems in the DSP.
Counter
*TotalTxErrorsCsl
710.3.3. 8.2.3.22
(*WlanCounters 22)
Applicable to SU and AU.
Read-only. The number of transmit
errors that have occurred because
transmission was cancelled due to
the modem being busy receiving
data.
Counter
Manual Revision: 3.0
Appendix C
MIB Parameter
(Location in Parenthesis)
C-27
Description
Values/Range
*TotalTxErrorsAckTOut
710.3.3. 8.2.3.23
(*WlanCounters 23)
Applicable to SU and AU.
Read-only. The number of transmit
errors that have occurred because
of an Acknowledge Timeout–a
frame that was not acknowledged
within the time defined by the
Acknowledge Delay Limit
parameter.
Counter
*TotalTxErrorsFail
710.3.3. 8.2.3.24
(*WlanCounters 24)
Applicable to SU and AU.
Read-only. The number of transmit
errors that have occurred because
of an internal timeout in the modem.
Counter
*TotalTxErrorsAckCrc
710.3.3. 8.2.3.25
(*WlanCounters 25)
Applicable to SU and AU.
Read-only. The number of transmit
errors that have occurred because
of a CRC error in the ACK
message.
Counter
*TotalTxErrorsRtsc
710.3.3. 8.2.3.26
(*WlanCounters 26)
Applicable to SU and AU.
Read-only. The number of transmit
errors that have occurred because
RTS was sent but CTS was not
received (RTS collision).
Counter
*TotalTxErrorsEod
710.3.3. 8.2.3.27
(*WlanCounters 27)
Applicable to SU and AU.
Read-only. The number of transmit
errors that have occurred because
there was not enough time left to
transmit the message prior to the
end of the Dwell.
Counter
*TotalReceivedDataFrames
710.3.3. 8.2.3.28
(*WlanCounters 28)
Applicable to SU and AU.
Read-only. The total number of data
frames received from the wireless
media, including duplicate frames.
Counter
*ReceivedDataFramesHigh
710.3.3. 8.2.3.29
(*WlanCounters 29)
Applicable to SU and AU.
Read-only. The total number of data
frames received from the wireless
media and routed via the receive
High queue, including duplicate
frames.
Counter
*ReceivedDataFramesLow
710.3.3. 8.2.3.30
(*WlanCounters 30)
Applicable to SU and AU.
Read-only. The total number of data
frames received from the wireless
media and routed via the receive
Low queue, including duplicate
frames.
Counter
*BadFragmentsReceived
710.3.3. 8.2.3.31
(*WlanCounters 31)
Applicable to SU and AU.
Read-only. The number of frames
received from the wireless media
with errors (CRC errors).
Counter
*DuplicatedFramesDiscarded
710.3.3. 8.2.3.32
(*WlanCounters 32)
Applicable to SU and AU.
Read-only. The number of frames
discarded due to receiving multiple
copies.
Counter
*InternallyDiscardedMirCir
710.3.3. 8.2.3.33
(*WlanCounters 33)
Applicable to SU and AU.
Read-only. The number of data
frames received from the Ethernet
port that were discarded by the MIR/
CIR mechanism to avoid exceeding
the maximum allowed information
rate.
Counter
*TotalTxUnicastFramesToWireles
710.3.3. 8.2.3.34
(*WlanCounters 34)
Applicable to SU and AU.
Read-only. The number of unicast
frames successfully transmitted to
the wireless media, excluding
retransmissions.
Counter
*VoiceCounters
710.3.3. 8.2.4
(*TrafficStatistics 4)
Applicable to SU with voice support
only.
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MIB Parameter
(Location in Parenthesis)
Description
Values/Range
*VoiceTrafficTxFrames
710.3.3. 8.2.4.1
(*VoiceCounters 1)
Applicable to SU with voice support
only. Read-only. Counts the number
of voice frames, including fax and
T.38 redundant frames, that were
transmitted to the wireless link.
Counter
*VoiceTrafficRxFrames
710.3.3. 8.2.4.2
(*VoiceCounters 2)
Applicable to SU with voice support
only. Read-only. Counts the number
of voice frames, including fax and
T.38 redundant frames, that were
received from the wireless link.
Counter
*VoiceTrafficTxBytes
710.3.3. 8.2.4.3
(*VoiceCounters 3)
Applicable to SU with voice support
only. Read-only. Counts the number
of voice bytes, including fax and
T.38 redundant bytes, that were
transmitted to the wireless link.
Counter
*VoiceTrafficRxBytes
710.3.3. 8.2.4.4
(*VoiceCounters 4)
Applicable to SU with voice support
only. Read-only. Counts the number
of voice bytes, including fax and
T.38 redundant bytes, that were
received from the wireless link
Counter
*VoiceTrafficResetCounters
710.3.3. 8.2.4.5
(*VoiceCounters 5)
Applicable to SU with voice support
only. Reset the voice counters.
noReset (0)
reset (1)
na (255)
*PerRateCounters
710.3.3. 8.2.5
(*TrafficStatistics 5)
Applicable to SU and AU.
*ResetPerRateCounters
710.3.3. 8.2.5.1
(*PerRateCounters 1)
Applicable to AU and SU. Resets
the Per Rate Counters.
*PerRateCountersSU
710.3.3. 8.2.5.2
(*PerRateCounters 2)
SU Per Rate Counters.
*TxFrames1M
710.3.3. 8.2.5.2.1
(*PerRateCountersSU 1)
Applicable to SU only. Read-only.
Counts the total number of frames
(excluding retransmissions) that
were transmitted over the wireless
link at 1Mbps.
Counter
*TxFrames2M
710.3.3. 8.2.5.2.2
(*PerRateCountersSU 2)
Applicable to SU only. Read-only.
Counts the total number of frames
(excluding retransmissions) that
were transmitted over the wireless
link at 2Mbps.
Counter
*TxFrames3M
710.3.3. 8.2.5.2.3
(*PerRateCountersSU 3)
Applicable to SU only. Read-only.
Counts the total number of frames
(excluding retransmissions) that
were transmitted over the wireless
link at 3Mbps.
Counter
*ReTxFrames1M
710.3.3. 8.2.5.2.4
(*PerRateCountersSU 4)
Applicable to SU only. Read-only.
Counts the total number of frames
that were retransmitted over the
wireless link at 1Mbps.
Counter
*ReTxFrames2M
710.3.3. 8.2.5.2.5
(*PerRateCountersSU 5)
Applicable to SU only. Read-only.
Counts the total number of frames
that were retransmitted over the
wireless link at 2Mbps.
Counter
*ReTxFrames3M
710.3.3. 8.2.5.2.6
(*PerRateCountersSU 6)
Applicable to SU only. Read-only.
Counts the total number of frames
that were retransmitted over the
wireless link at 3Mbps.
Counter
*AveragePower
710.3.3. 8.3.1
(*ReceivingUnits 1)
Applicable to SU only. Read-only.
Represents the average Signal
Strength of received frames.
DisplayString (SIZE(32))
*RssiOrDbm
710.3.3. 8.3.2
(*ReceivingUnits 2)
Applicable to SU and AU. Selects
the measurement units used to
display the average received signal
strength.
Integer
rssi (0)
dBm (1)
noReset (0)
reset (1)
na (255)
*ReceivingUnits
710.3.3. 8.3
(*SiteSurvey 3)
Manual Revision: 3.0
Appendix C
MIB Parameter
(Location in Parenthesis)
C-29
Description
Values/Range
*PerHopStatistics
710.3.3. 8.4
(*SiteSurvey 4)
Applicable to SU and AU.
*ResetPerHopStatistics
710.3.3. 8.4.1
(*PerHopStatistics 1)
Applicable to SU and AU. Reset the
Per Hop Statistics counters.
*MacAddressDatabase
710.3.3. 8.5
(*SiteSurvey 5)
Applicable to AU only. Database by
MAC Addresses for all SUs
associated with the AU. The
databse include parameters learned
by the AU from the SUs and some
counters of wireless traffic between
the AU and the relevant SU, as
measured by the AU.
*AdbResetAllCounters
710.3.3. 8.5.1
(*MacAddressDatabase 1)
Applicable to AU only. To reset all
the counters for all SUs in the MAC
Address Database. This includes
the following counters:
*AdbTxFramesTotal
*AdbTxFrames1M
*AdbTxFrames2M
*AdbTxFrames3M
*AdbRTxFramesTotal
*AdbRTxFrames1M
*AdbRTxFrames2M
*AdbRTxFrames3M
*AdbTxDroppedFrames
*AdbRxFramesTotal
*AdbTable
710.3.3. 8.5.2
(*MacAddressDatabase 2)
Applicable to AU Only. Not
accessible. MAC Address Database
table.
*AdbEntry
710.3.3. 8.5.2.1
(*AdbTable 1)
Applicable to AU Only. Not
accessible. An entry in the MAC
Address Database table.
*AdbIndex
710.3.3. 8.5.2.1.1
(*AdbEntry 1)
Applicable to AU Only. Read only.
The index of an entry in the MAC
Address Database table.
Integer
*AdbMacAddress
710.3.3. 8.5.2.1.2
(*AdbEntry 2)
Applicable to AU Only. Read only.
The MAC Address of an SU entry in
the MAC Address Database table.
MAC Address
*AdbMaxRate
710.3.3. 8.5.2.1.3
(*AdbEntry 3)
Applicable to AU Only. Read only.
The value configured in the relevant
SU for the Maximum Data Rate
parameter.
Integer
1, 2 or 3 (Mbps)
*AdbCurrentTxRate
710.3.3. 8.5.2.1.4
(*AdbEntry 4)
Applicable to AU Only. Read only.
The current transmit rate to the SU.
Integer
1, 2 or 3 (Mbps)
*AdbTxFramesTotal
710.3.3. 8.5.2.1.5
(*AdbEntry 5)
Applicable to AU Only. Read-only.
Counts the total number of frames
(excluding retransmissions) that
were transmitted to the SU over the
wireless link.
Counter
*AdbTxFrames1M
710.3.3. 8.5.2.1.6
(*AdbEntry 6)
Applicable to AU Only. Read-only.
Counts the total number of frames
(excluding retransmissions) that
were transmitted to the SU over the
wireless link at 1Mbps.
Counter
*AdbTxFrames2M
710.3.3. 8.5.2.1.7
(*AdbEntry 7)
Applicable to AU Only. Read-only.
Counts the total number of frames
(excluding retransmissions) that
were transmitted to the SU over the
wireless link at 2Mbps.
Counter
*AdbTxFrames3M
710.3.3. 8.5.2.1.8
(*AdbEntry 8)
Applicable to AU Only. Read-only.
Counts the total number of frames
(excluding retransmissions) that
were transmitted to the SU over the
wireless link at 3Mbps.
Counter
*AdbRTxTotal
710.3.3. 8.5.2.1.9
(*AdbEntry 9)
Applicable to AU Only. Read-only.
Counts the total number of frames
that were retransmitted to the SU
over the wireless link.
Counter
Integer
noReset (0)
reset (1)
noReset (0)
reset (1)
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BreezeACCESS Version 4.3 System Manual
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MIB Parameter
(Location in Parenthesis)
Description
Values/Range
*AdbRTx1M
710.3.3. 8.5.2.1.10
(*AdbEntry 10)
Applicable to AU Only. Read-only.
Counts the total number of frames
that were retransmitted to the SU
over the wireless link at 1Mbps.
Counter
*AdbRTx2M
710.3.3. 8.5.2.1.11
(*AdbEntry 11)
Applicable to AU Only. Read-only.
Counts the total number of frames
that were retransmitted to the SU
over the wireless link at 2Mbps.
Counter
*AdbRTx3M
710.3.3. 8.5.2.1.12
(*AdbEntry 12)
Applicable to AU Only. Read-only.
Counts the total number of frames
that were retransmitted to the SU
over the wireless link at 3Mbps.
Counter
*AdbTxDroppedFrames
710.3.3. 8.5.2.1.13
(*AdbEntry 13)
Applicable to AU Only. Read-only.
Counts the total number of frames
intended to the SU that were
dropped because they were
retransmitted to the extent of the
maximum allowed number of
retransmissions without being
acknowledged.
Counter
*AdbRxFramesTotal
710.3.3. 8.5.2.1.14
(*AdbEntry 14)
Applicable to AU Only. Read-only.
Counts the total number of frames
that were received from the SU over
the wireless link.
Counter
*AdbCirTx
710.3.3. 8.5.2.1.16
(*AdbEntry 16)
Applicable to AU Only. Read only.
The value configured in the relevant
SU for the CIR: SU to AU
parameter.
Integer
0-2200
(Kbps)
*AdbMirTx
710.3.3. 8.5.2.1.17
(*AdbEntry 17)
Applicable to AU Only. Read only.
The value configured in the relevant
SU for the MIR: SU to AU
parameter.
Integer
32-2200
(Kbps)
*AdbCirRx
710.3.3. 8.5.2.1.18
(*AdbEntry 18)
Applicable to AU Only. Read only.
The value configured in the relevant
SU for the CIR: AU to SU
parameter.
Integer
0-2200
(Kbps)
*AdbMirRx
710.3.3. 8.5.2.1.194
(*AdbEntry 19)
Applicable to AU Only. Read only.
The value configured in the relevant
SU for the MIR: AU to SU
parameter.
Integer
32-2200 (Kbps)
*AdbCirMaxDelay
710.3.3. 8.5.2.1.20
(*AdbEntry 20)
Applicable to AU Only. Read only.
The value configured in the
applicable SU for *MaxDelay
parameter.
Integer
*AdbStatus
710.3.3. 8.5.2.1.21
(*AdbEntry 21)
Applicable to AU Only. Read only.
The status of the relevant SU.
Integer
associated (1)
authenticated (2)
notAuthenticated 3)
*AdbSwVersion
710.3.3. 8.5.2.1.22
(*AdbEntry 22)
Applicable to AU Only. Read only.
The SW version of the relevant SU.
DisplayString
*AdbRssi
710.3.3. 8.5.2.1.23
(*AdbEntry 23)
Applicable to AU Only. Read only.
The average received signal level
based on frames received by the
AU from the relevant SU, in RSSI
units.
Integer
*AdbDbm
710.3.3. 8.5.2.1.244
(*AdbEntry 24)
Applicable to AU Only. Read only.
The average received signal level
based on frames received by the
AU from the relevant SU, in dBm
units.
DisplayString
*AtpcCounters
710.3.3. 8.6.
(*SiteSurvey 6)
ATPC Messages Counters.
Applicable to IF based AU and to all
SU units.
*ResetAtpcCounters
710.3.3. 8.6.1
(*AtpcCounters 1)
Resets the ATPC Counters.
Manual Revision: 3.0
Integer
noReset (0)
reset (1)
Appendix C
MIB Parameter
(Location in Parenthesis)
C-31
Description
Values/Range
AtpcTransmittedMessages
710.3.3. 8.6.2
(*AtpcCounters 2)
Applicable to IF based AU. The total
number of ATPC messages
transmitted by the unit since last
reset.
Integer
AtpcReceivedMessages
710.3.3. 8.6.3
(*AtpcCounters 3)
Applicable to SU units only. The
number of ATPC messages
received by the unit since
last reset regardless of whether the
unit supports ATPC.
Integer
*AUAlarms
710.3.3. 8.7
(*SiteSurvey 7)
Applicable to IF-based AU only. AU
Alarms parameters.
*AUAlarmsOption
710.3.3. 8.7.1
(*AUAlarms 1)
Applicable to IF-based AU only.
Disable/enable the AU Alarms test
mechanism.
Integer
disable (0)
enable (1)
*AUAlarmsLearningPeriod
710.3.3. 8.7.2
(*AUAlarms 2)
Applicable to IF-based AU only.
The time period after reset or after
enabling the AU Alarms Option that
is dedicated to accumulating
information only. During this period
the AU does not activate alarms,
except to the No Associations
alarm.
Integer
1 – 1440 (minutes)
*AUAlarmsTestCycle
710.3.3. 8.7.3
(*AUAlarms 3)
Applicable to IF-based AU only.
The tine interval between two
consecutive polling message
transmissions. This is also the time
interval used for calculating the
current averages for the various
traffic statistics.
Integer
1 – 1440 (minutes)
*AUAlarmsTrafficStatistics
710.3.3. 8.7.4
(*AUAlarms 4)
Applicable to IF-based AU only.
Traffic Statistics parameters.
*TrafficStatisticsTable
710.3.3. 8.7.4.1
(*AUAlarmsTrafficStatistics 1)
Applicable to IF-based AU only. Not
accessible. AU Alarms Traffic
Statistic Table containing traffic
statistics parameters and test
results.
*TrafficStatisticsEntry
710.3.3. 8.7.4.1.1
(*TrafficStatisticsTable 1)
Applicable to IF-based AU only. Not
accessible. An entry in the AU
Alarms Traffic Statistic Table.
*TrafficStatisticsType
710.3.3. 8.7.4.1.1.1
(*TrafficStatisticsEntry 1)
Applicable to IF-based AU only.
Read-only. The traffic statistics’
type of an entry in the AU Alarms
Traffic Statistics Table. Serves also
as the index of the entry.
Integer
retransmissionsRate (1)
droppedFramesRate (2)
crcErrorRate (3)
duplicateFramesRate (4)
*TrafficStatisticsCurrentRate
710.3.3. 8.7.4.1.1.2
(*TrafficStatisticsEntry 2)
Applicable to IF-based AU only.
Read-only. The current rate
calculated for the relevant statistics
type.
Integer
0 – 100 (%)
na (255)
*TrafficStatisticsAverageRate
710.3.3. 8.7.4.1.1.3
(*TrafficStatisticsEntry 3)
Applicable to IF-based AU only.
Read-only. The average rate
calculated since the last time the
unit was reset (or since the AU
Alarms Option was enabled) for the
relevant statistics type.
Integer
0 – 100 (%)
na (255)
*MinorAlarmMinimumDelta
710.3.3. 8.7.4.1.1.4
(*TrafficStatisticsEntry 4)
Applicable to IF-based AU only.
Read-write. The minimum
difference between the Traffic
Statistics Current Rate and the
Traffic Statistics Average Rate for
activating a minor severity alarm for
the relevant statistics type. Another
prerequisite for activating the alarm
is that the Traffic Statistics Current
Rate exceeds the Traffic Statistics
Minor Alarm Threshold.
Integer
0 – 100 (%)
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BreezeACCESS Version 4.3 System Manual
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MIB Parameter
(Location in Parenthesis)
Description
Values/Range
*MinorAlarmThreshold
710.3.3. 8.7.4.1.1.5
(*TrafficStatisticsEntry 5)
Applicable to IF-based AU only.
Read-write. The threshold for
activating a minor severity alarm for
the relevant statistics type. Another
prerequisite for activating the alarm
is that the difference between the
Traffic Statistics Current Rate and
the previous Traffic Statistics
Average Rate exceeds the Traffic
Statistics Minor Alarm Minimum
Delta.
Integer
1 – 100 (%)
*MajorAlarmThreshold
710.3.3. 8.7.4.1.1.6
(*TrafficStatisticsEntry 6)
Applicable to IF-based AU only.
Read-write. The threshold for
activating a major severity alarm for
the relevant statistics type.
Integer
1 – 100 (%)
*AURxPowerTest
710.3.3. 8.7.5
(*AUAlarms 5)
Applicable to IF-based AU only. AU
Alarms AU Rx Power Tests
parameters and measurement
results.
*AURxPowerAverageDelta
710.3.3. 8.7.5.1
(*AURxPowerTest 1)
Applicable to IF-based AU only.
Read-only. The average for all SUs
that responded to the last two
polling messages of the difference
between the last RSSI at the AU
and the previous (one before last)
RSSI. (A negative value indicates
that the average RSSI was
decreased).
DisplayString
-99 to 99 (dBm)
*AURxPowerDecreaseThreshold
710.3.3. 8.7.5.2
(*AURxPowerTest 2)
Applicable to IF-based AU only.
Read-write. The Minimum decrease
in the value of the AU Rx Power
Average Delta that will trigger an
alarm. (If the AU Rx Power
Decrease Threshold is +X, an alarm
will be generated if the AU Rx
Power Average Delta is smaller
than or equal to –X)
Integer
1 – 99 (dBm)
*SURxPowerTest
710.3.3. 8.7.6
(*AUAlarms 6
Applicable to IF-based AU only. AU
Alarms SU Rx Power Tests
parameters and measurement
results.
*SURxPowerAverageDelta
710.3.3. 8.7.6.1
(*SURxPowerTest 1)
Applicable to IF-based AU only.
Read-only. The average for all SUs
that responded to the last two
polling messages of the difference
between the last RSSI at the SU
and the previous (one before last)
RSSI. (A negative value indicates
that the average RSSI was
decreased).
DisplayString
-99 to 99 (dBm)
*SURxPowerDecreaseThreshold
710.3.3. 8.7.6.2
(*SURxPowerTest 2)
Applicable to IF-based AU only.
Read-write. The Minimum decrease
in the value of the SU Rx Power
Average Delta that will trigger an
alarm. (If the SU Rx Power
Decrease Threshold is +X, an alarm
will be generated if the SU Rx
Power Average Delta is smaller
than or equal to –X)
Integer
1 – 99 (dBm)
*RespondingSUs
710.3.3. 8.7.7
(*AUAlarms 7)
Applicable to IF-based AU only.
Responding SUs parameters.
*CurrentNumberOfRespondingSUs
710.3.3. 8.7.7.1
(*RespondingSUs 1)
Applicable to IF-based AU only.
Read-only. The number of SUs that
responded to the last polling
message.
Integer
na (255)
*AverageNumberOfRespondingSU
710.3.3. 8.7.7.2
(*RespondingSUs 2)
Applicable to IF-based AU only.
Read-only. The average number of
SUs that responded to polling
message since power-up or since
the AU Alarms Option was enabled.
Integer
na (255)
Manual Revision: 3.0
Appendix C
C-33
Integer
1 – 254 (SUs)
*MinimumAverageNumberOfSUs
710.3.3. 8.7.7.3
(*RespondingSUs 3)
Applicable to IF-based AU only.
The minimum average number of
SUs required for association tests
*AUAlarmsStatus
710.3.3. 8.7.8
(*AUAlarms 8)
Applicable to IF-based AU only.
Alarms Status parameters.
*AlarmsStatusTable
710.3.3. 8.7.8.1
(*AUAlarmsStatus 1)
Applicable to IF-based AU only. Not
accessible. AU Alarms Status
Table containing the current status
of each of the alarms.
*AlarmsStatusEntry
710.3.3. 8.7.8.1.1
(*AlarmsStatusTable 1)
Applicable to IF-based AU only. Not
accessible. An entry in the AU
Alarms Status Table.
*AlarmType
710.3.3. 8.7.8.1.1.1
(*AlarmsStatusEntry 1)
Applicable to IF-based AU only.
Read only. The alarm type of an
entry in the AU Alarms Status
Table. Serves also as the index of
the entry.
Integer
noAssociations (1)
allAssociationsLost (2)
txPowerLevelDecrease (3)
rxSignalStrengthDecrease
(4)
highRetransmissionsRate (5)
highDroppedFramesRate (6)
highCRCErrorRate (7)
highDuplicateFramesRate (8)
*AlarmStatus
710.3.3. 8.7.8.1.1.2
(*AlarmsStatusEntry 2)
Applicable to IF-based AU only.
Read only. The status of the alarm
of an entry in the AU Alarms Status
Table. Serves also as the index of
the entry.
Integer
off (0)
minor (1)
major (2)
critical (3)
*ClearAllAlarms
710.3.3. 8.7.8.2
(*AUAlarmsStatus 2)
Applicable to IF-based AU only.
Read-write. Perform set with value
'clearAllalarms' in order to clear all
the alarms of the AU Alarms
feature. Setting any value other
than 'clearAllalarms' has no effect
Integer
cancelRequest (0)
clearAllAlarms (1)
Special Operations Parameters
Note: Additional Special Operations parameters are reserved for factory use only.
BreezeACCESS Version 4.3 System Manual
BreezeACCESS Version 4.3 System Manual
C-34
Unit Control Parameters
MIB Parameter
(Location in Parenthesis)
Description
Values/Range
*UnitControl
710.3.3. 10
(brzAccessMib 10)
*ResetUnit
710.3.3. 10.1
(*UnitControl 1)
Applicable to all products. Resets
the unit and applies new parameter
values.
Integer
cancel (0)
resetSystemNow (1)
*SetDefaults
710.3.3. 10.2
(*UnitControl 2)
Applicable to all products. Sets unit
configuration to Defaults values
after the next reset.
completeFactory: All parameters
revert to Factory Defaults values
partialFactory: All parameters revert
to Factory Defaults values, except
the parameters required for
maintaining wireless connectivity.
completeOperator: All parameters
revert to Operator Defaults values
partialOperator: All parameters
revert to Operator Defaults values,
except the parameters required for
maintaining wireless connectivity.
Integer
cancel (0)
completeFactory (1)
partialFactory (2)
completeOperator (1)
partialOperator (2)
*UnitName
710.3.3. 10.3
(*UnitControl 3)
Applicable to all products. The unit
name.
DisplayString (SIZE(32))
A string of up to 32 printable ASCII
characters.
*FlashMemoryControl
710.3.3. 10.4
(*UnitControl 4)
Applicable to all products. Reset
And Boot From Shadow Version:
Activates the backup version.
Use Current Version After Reset :
The currently active version is
activated after reset.
Integer
Cancel (0)
resetAndBootFrom
ShadowVersion (1)
useCurrentVersion
AfterReset (2)
*ConsoleSpeed
710.3.3. 10.5
(*UnitControl 5)
Applicable to all products. The
communication speed of the Monitor
port.
Integer
s9600bps (1)
s19200bps (2)
s38400bps (3)
s57600bps (4)
s115200bps (5)
*MonitorLogoutTimer
710.3.3. 10.6
(*UnitControl 6)
Applicable to all products. Time-out
of management programs (Monitor,
Telnet).
Automatic exit if the program is
inactive for the defined time.
Integer
1-999 (minutes)
*ReadOnlyPassword
710.3.3. 10.7.1
(*UnitPasswords 1)
Applicable to all products. The User
(read only) password.
DisplayString (SIZE(8)).
Up to 8 printable ASCII characters.
*InstallerPassword
710.3.3. 10.7.2
(*UnitPasswords 2)
Applicable to all products. The
Installer password.
DisplayString (SIZE(8)).
Up to 8 printable ASCII characters.
*AdminPassword
710.3.3. 10.7.3
(*UnitPasswords 3)
Applicable to all products. The
Administrator password. This is also
the SNMP Write Community String.
DisplayString (SIZE(8)).
Up to 8 printable ASCII characters.
*EventLog
710.3.3. 10.10
(*UnitControl 10)
Applicable to all products. Event Log
parameters
*EventLogPolicy
710.3.3. 10.10.1
(*EventLog 1)
Applicable to all products.
Determines which events will be
stored in the Event Log. Event from
the configured level and higher are
stored and can be displayed using
the Monitor or by getting a the log
file using TFTP.
Integer
logAll (1)
message (2)
warning (3)
error (4)
fatal (5)
logNone (6)
*NumberOfEventsInLogFile
710.3.3. 10.10.2
(*EventLog 2)
Applicable to all products. Readonly. The number of events in the
Event Log file.
Integer
*UnitPasswords
710.3.3. 10.7
(*UnitControl 7)
Manual Revision: 3.0
Appendix C
MIB Parameter
(Location in Parenthesis)
C-35
Description
Values/Range
*EraseEventLog
710.3.3. 10.10.3
(*EventLog 3)
Applicable to all products. Deletes
all entries from the Event Log file.
Integer
cancel (0)
erase (1)
*SaveCurrentConfigurationAs
OperatorDefaults
710.3.3. 10.12
(*UnitControl 12)
Applicable to all products. Saves the
current configuration as Operator
Defaults.
Integer
cancel (0)
saveAsDefaults (1)
*ExitMonitorOrTelnet
710.3.3. 10.13
(*UnitControl 13)
Applicable to all products. Exit the
monitor program.
Integer
cancelOperation (0)
exit (1)
*AutoConfig
710.3.3. 10.14
(*UnitControl 14)
Auto configuration Parameters
*AutoConfigOption
710.3.3. 10.14.1
(*AutoConfig 1)
Disable/enable the Auto
Configuration feature
Integer
disable (0)
enable (1)
na (255)
*RequestAutoConfig
710.3.3. 10.14.2
(*AutoConfig 2)
Initiate a request for an Auto
Configuration file.
Integer
cancelRequest (0)
request (1)
*AutoConfigReceived
710.3.3. 10.14.3
(*AutoConfig 3)
Indicates whether an Auto
Configuration file was received.
Integer
notReceived (0)
received (1)
*SNMPReadESSID
710.3.3. 10.15
(*UnitControl 15)
Applicable to AU and SU. Enables
or disables viewing (get) the values
of ESSID and RunTimeESSID with
the SNMP Read Community string.
Integer
disable (1)
enable (2)
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BreezeACCESS Version 4.3 System Manual
C-36
IP Parameters
MIB Parameter
(Location in
Parenthesis)
Description
Values/Range
*IpParams
710.3.3. 11
(brzAccessMib 11)
*UnitIpAddress
710.3.3. 11.1
(*IpParams 1)
Applicable to all products. IP address of the unit.
IP address
*SubNetMask
710.3.3. 11.2
(*IpParams 2)
Applicable to all products. Subnet mask of the unit.
IP address
*DefaultGWAddress
710.3.3. 11.3
(*IpParams 3)
Applicable to all products. Default gateway IP address of the
unit.
IP address
*UseDhcp
710.3.3. 11.4
(*IpParams 4)
Applicable to all products. DHCP client mode of operation.
disabled: Use regular (manual) methods to configure IP
parameters.
dHCP Only: Use DHCP server to configure IP parameters.
automatic: Use DHCP server to configure IP parameters. If a
DHCP server is not available, use configured values for
*UnitIpAddress, *SubNetMask and *DefaultGWAddress.
Integer
disable (0)
dHCPOnly (1)
automatic (2)
*RunIPaddr
710.3.3. 11.5
(*IpParams 5)
Applicable to all products. Read-only: The run-time IP
address. If DHCP is used the Run Time IP Address is the
address given to the unit by the server. Otherwise it is the
manualy configured address.
IP address
*RunSubNetMask
710.3.3. 11.6
(*IpParams 6)
Applicable to all products. Read-only: The run-time Subnet
Mask. If DHCP is used the Run Time Subnet Mask is the
mask given to the unit by the server. Otherwise it is the
manualy configured mask.
IP address
*RunDefaultIPGateway
710.3.3. 11.7
(*IpParams 7)
Applicable to all products. Read-only: The run-time Gateway
IP address. If DHCP is used the Run Time Gateway IP
Address is the address given to the unit by the server.
Otherwise it is the manualy configured address.
IP address
*AccessToDHCP
710.3.3. 11.8
(*IpParams 8)
Applicable to all products. The port to be used for
communicating with a DHCP server. (In GU only the
fromEthernetOnly option is available).
Integer
fromWlanOnly(0)
fromEthernetOnly(1)
fromBoth(2)
System Information Parameters
MIB Parameter
(Location in Parenthesis)
Description
Values/Range
*SysInfo
710.3.3. 13 (brzAccessMib 13)
*UnitHwVersion
710.3.3. 13.1
(*SysInfo 1)
Applicable to all products. Read-only:
Hardware platform version.
DisplayString
(SIZE(0..32))
*VoiceHwVersion
710.3.3. 13.2
(*SysInfo 2)
Applicable only to SU with voice. Read-only:
Voice hardware platform version.
DisplayString
(SIZE(0..32))
*SoftwareVersion
710.3.3. 13.3
(*SysInfo 3)
Applicable to all products. Read-only: Running
software version.
DisplayString
(SIZE(0..32))
*ShadowVersion
710.3.3. 13.4
(*SysInfo 4)
Applicable to all products. Read-only: Shadow
software version.
DisplayString
(SIZE(0..32))
*SupportedMibVersion
710.3.3. 13.5
(*SysInfo 5)
Applicable to all products. Read-only: The
supported private MIB versions.
DisplayString
(SIZE(0..32))
*UnitMacAddress
710.3.3. 13.6
(*SysInfo 6)
Applicable to all products. Read-only, Unit
hardware MAC address.
MAC address
Manual Revision: 3.0
Appendix C
MIB Parameter
(Location in Parenthesis)
C-37
Description
Values/Range
*UnitType
710.3.3. 13.7
(*SysInfo 7)
Applicable to all products. Read-only: Unit type.
DisplayString
(SIZE(0..32))
*AssociatedAU
710.3.3. 13.8
(*SysInfo 8)
Applicable to SU only.
Read-only: Associated AU MAC address.
MAC address
*NumOfAssociationsSinceLastReset
710.3.3. 13.9
(*SysInfo 9)
Applicable to AU and SU.
Read-only: The number of associations since
last reset, including duplicate associations (reassociations).
Integer
*FlashType
710.3.3. 13.10
(*SysInfo 10)
Applicable to all products. Read-only: Flash
memory type.
Type S - Strata Flash.
Type F – all other Flash types.
DisplayString
(SIZE(0..31))
*FlashSize
710.3.3. 13.11
(*SysInfo 11)
Applicable to all products. Read-only: Flash
size in Mb.
Integer
*SwVersionAfterReset
710.3.3. 13.12
(*SysInfo 12)
Applicable to all products. Read-only: The
software version to be used after next reset.
DisplayString
(SIZE(0..32))
*MaxPowerOutput
710.3.3. 13.13
(*SysInfo 13)
Applicable to SU and AU.
Read-only: The maximum output power to the
antenna port.
Integer
na (255)
*FrequencyDuplex
710.3.3. 13.14
(*SysInfo 14)
Applicable to SU and AU in BreezeACCESS
XL family only.
Read-only: The frequency separation between
uplink and downlink.
Integer
*UnitStatus
710.3.3. 13.15
(*SysInfo 15)
Applicable to GU only. The status of the GPS
antenna.
DisplayString
(SIZE(0..100))
*CurrentNumOfAssociations
710.3.3. 13.16
(*SysInfo 16)
Applicable to AU only. Read-only. The number
of subscriber units currently associated with the
AU.
Integer
*CurrentNumOfVoiceSessions
710.3.3. 13.17
(*SysInfo 17)
Applicable to AU only. Read-only. The number
of voice sessions currently conducted by SUs
served by the AU.
Integer
*ChannelSpacingApplicable
710.3.3. 13.18
(*SysInfo 18)
Applicable to AU and SU in BreezeACCESS
XL family only. Read-only. The applicability
status of brzaccChannelSpacing
Integer
no (0)
yes (1)
*PowerLevelApplicable
710.3.3. 13.19
(*SysInfo 19)
Applicable to AU-I and SU-I. Read-only.
The applicability status of
brzaccCurrentTxPwrLvl (for compliance with
certain regulations it may be configured in the
factory to low without the ability to change it to
high).
Integer
no (0)
yes (1)
*GpsMasterOrSlaveStatus
710.3.3. 13.20
(*SysInfo 20)
Applicable to GU only. Read-only. GPS Master/
Slave status indication.
Integer
master (1)
slave (2)
BreezeACCESS Version 4.3 System Manual
BreezeACCESS Version 4.3 System Manual
C-38
Alarms Parameters
MIB Parameter
(Location in Parenthesis)
Description
Values/Range
*Alarms
710.3.3. 20
(brzAccessMib 20)
Alarms parameters
*GpsAlarms
710.3.3. 20.1
(*Alarms 1)
Applicable to GU only. GPS Alarms parameters.
*AlarmInTable
710.3.3. 20.1.1
(*GpsAlarms 1)
Applicable to GU only. Names and status of Alarms-In. Not
accessible.
*AlarmInTableEntry
710.3.3. 20.1.1.1
(*AlarmInTable 1)
Applicable to GU only. An Alarms In table entry. Not
accessible.
*AlarmInIdx
710.3.3. 20.1.1.1.1
(*AlarmInTableEntry 1)
Applicable to GU only. Read-only. Alarms In table index
Integer
1-10
*AlarmInName
710.3.3. 20.1.1.1.2
(*AlarmInTableEntry 2)
Applicable to GU only. Alarm In name. Alarms 1 to 4 can
receive a name. The other are read-only.
DisplayString
(SIZE(0..31))
*AlarmInStatus
710.3.3. 20.1.1.1.3
(*AlarmInTableEntry 3)
Applicable to GU only. Read-only. The status (off or on) of
Alarm In entry.
Integer
off (0)
on (1)
na (255)
*AlarmOutTable
710.3.3. 20.1.2
(*GpsAlarms 2)
Applicable to GU only. Names, definition, control and status of
Alarms-Out. Not accessible.
*AlarmOutTableEntry
710.3.3. 20.1.2.1
(*AlarmOutTable 1)
Applicable to GU only. An Alarms Out table entry. Not
accessible.
*AlarmOutIdx
710.3.3. 20.1.2.1.1
(*AlarmOutTableEntry 1)
Applicable to GU only. Read-only. Alarms Out table index
Integer
1-3
*AlarmOutName
710.3.3. 20.1.2.1.2
(*AlarmOutTableEntry 2)
Applicable to GU only. Alarm Out name. The other are readonly.
DisplayString
(SIZE(0..31))
*AlarmOutDefinition
710.3.3. 20.1.2.1.3
(*AlarmOutTableEntry 3)
Applicable to GU only. Enter an Alarm-In number to activate
the Alarm-Out when this Alarm-In is ON. Enter A to activate the
Alarm-Out if ANY of the Alarms-In are ON.
Enter N for
NONE (never activate the Alarm Out).
DisplayString
(SIZE(0..2))
1-10, A, N
*AlarmOutControl
710.3.3. 20.1.2.1.4
(*AlarmOutTableEntry 4)
Applicable to GU only. Alarm out control:
off (0) – turn alarm off.
on (1) – turn alarm on.
auto (2)-activate according to status of relevant alarm-in in
accordance with Alarm Out Definition.
Integer
off (0)
on (1)
auto (2)
na (255)
*AlarmOutStatus
710.3.3. 20.1.2.1.5
(*AlarmOutTableEntry 5)
Applicable to GU only. Read-only. The status (off or on) of
Alarm Out entry.
Integer
off (0)
on (1)
na (255)
Manual Revision: 3.0
Appendix C
C-39
brzPhoneMIB (applicable to SU
with voice only)
breezecom
OBJECT IDENTIFIER =1.3.6.1.4.1.710
{(iso(1) org(3) dod(6) internet(1) private(4) enterprises(1) breezecom(710)}
breezecomPrvRev
{breezecom 3}
OBJECT IDENTIFIER = 1.3.6.1.4.1.710.3
brzPhoneMib
{breezecomPrvRev 4 }
OBJECT IDENTIFIER = 1.3.6.1.4.1.710.3.4
Note:
* is used instead of the phon prefix
Dialing Parameters
MIB Parameter
(Location in Parenthesis)
Description
Values
*DialingParams
710.3.4.1
(brzPhonMib 1)
*PulseDialing
710.3.4.1.1
(*DialingParams 1)
Enables/disables automatic pulse
dialing detection.
Integer
disable (0)
enable (1)
na (255)
*GateKeeperOption
710.3.4.1.2
(*DialingParams 2)
Enables/disables communicating
with the Gatekeeper for call
management purposes.
Integer
disable (0)
enable (1)
na (255)
*GkGwIpAddress
710.3.4.1.3
(*DialingParams 3)
IP Address of the Gateway/
Gatekeeper
The parameters must be specified if
the [*GateKeeperOption] is enabled.
IP address
*MyTelephoneNumber
710.3.4.1.4
(*DialingParams 4)
The telephone number as specified
in the Gateway, if
[*GateKeeperOption] is disabled. If
the [*GateKeeperOption] is enabled
the number is transmitted to the
Gatekeeper.
DisplayString (SIZE (0..10))
Up to 10 characters.
0 means no number
*H323TerminalID
710.3.4.1.5
(*DialingParams 5)
The H323 Terminal ID (name) to be
used for calling the unit if the feature
is enabled.
Applicable only if the
[*GateKeeperOption] is enabled.
DisplayString (SIZE (0..25))
Up to 24 characters.
X=NoID
*IpDialingOption
710.3.4.1.8
(*DialingParams 8)
Enables/disables dialing using IP
addresses.
Integer
disable (0)
enable (1)
na (255)
*IpDialingIndicator
710.3.4.1.9
(*DialingParams 9)
Specifies the prefix used to identify
an IP dialing string.
DisplayString (SIZE (0..15))
Up to three telephone pad digits (0-9, A-D,
*, #).
X means no IP Dialing Indicator
*AutomaticPrefix
710.3.4.1.10
(*DialingParams 10)
Specifies a default prefix (number of
Gateway trunk) to be automatically
inserted before the dialed number.
DisplayString (SIZE (0..15))
Up to eight telephone pad digits (0-9, A-D,
*, #).
X means no Automatic Prefix.
*FastStart
710.3.4.1.13
(*DialingParams 13)
Enables/disables the fast connect
protocol.
Integer
disable (0)
enable (1)
na (255)
BreezeACCESS Version 4.3 System Manual
BreezeACCESS Version 4.3 System Manual
C-40
MIB Parameter
(Location in Parenthesis)
Description
Values
*InformTransferCap
710.3.4.1.14
(*DialingParams 14)
Defines the value of the information
transfer capability in the SETUP
message.
Integer
speech (0)
unrestricted (1)
restricted (2)
audio (3)
unrestrictedTones (4)
video (5)
na (255)
*DTMFRelay
710.3.4.1.15
(*DialingParams 15)
Disable/enable DTMF Relay.
0 ñ Disable. DTMF is transferred inband.
1 ñ Enable. In-band DTMF is filtered.
DTMF is relayed via H.245
session.In case of 'Fast Start' H.245
session will be forced upon DTMF
detection.
2 - Enable Proprietary. In-band
DTMF is filtered. In case of 'Fast
Start' DTMF is relayed via Q.931
session. Otherwise DTMF is relayed
via H.245 session.
Integer
disable (0)
enable (1)
enableProprietary (2)
na (255)
*DialingPrfxOption
710.3.4.1.16 (
(*DialingParams 16)
Defines the Dialing Prefix Option for
handling prefixes according to the
dialing plan supported by the unit.
disable (0): Insert Automatic Prefix (if
defined). Otherwise forward as
dialed.
enable (1): Insert Automatic Prefix (if
defined) only if first digit differs from
*InterRegionalPrfx. Otherwise
forward as dialed.
enableBlockInterRegionalPrfx (2):
Insert Automatic Prefix (if defined)
only if first digit differs from
*InterRegionalPrfx. Remove the first
digit if it equals *InterRegionalPrfx
and the second digit differs from
*InterNationalPrfx. Otherwise
forward as dialed.
Integer
disable (0)
enable (1)
enableBlockInterRegionalPrfx (2)
na (255)
*InterRegionalPrfx
710.3.4.1.17
(*DialingParams 17)
To define the Inter Regional prefix to
be handled according to the dialing
plan supported by the unit.
DisplayString (SIZE (0..1))
One phone keypad digit (0-9, A-D, *, #) or
X. X means no Inter Regional Prefix is
defined
*InterNationalPrfx
710.3.4.1.18
(*DialingParams 18)
To define the International prefix to
be handled according to the dialing
plan supported by the unit.
DisplayString (SIZE (0..1))
One phone keypad digit (0-9, A-D, *, #) or
X. X means no International Prefix is
defined.
*RegistrationTTL
710.3.4.1.19
(*DialingParams 19)
To define the registration Time To
Live. (timeToLive request in the RRQ
message to the Gatekeeper).
Integer
0 ñ 65535
*EndpointType
710.3.4.1.20
(*DialingParams 20)
To define the EndpointType
components in H.323 messages for
interoperability with other equipment
using H.323.
Integer
terminal (1)
gateway (2)
na (255)
*FaxRelay
710.3.4.1.21
(*DialingParams 21)
Disable/enable T.38 fax relay
Integer
disable (0)
enable (1)
na (255)
*FaxRelayRedundancy
710.3.4.1.22
(*DialingParams 22)
Defines redundancy used for
transmitting IFP messages
Integer
0-5
na (255)
*BatteryPolarity
710.3.4.1.23
(*DialingParams 23)
To define the battery polarity for
supporting an external device, e.g.
for coins or tokens charging purpose.
This feature is only available in units
with voice card from Version D and
up.
Integer
forward (1)
reverse (2)
forwardToReverse (3)
reverseToForward (4)
na (255)
Manual Revision: 3.0
Appendix C
MIB Parameter
(Location in Parenthesis)
C-41
Description
Values
*AlternateGkOption
710.3.4.1.24
(*DialingParams 24)
Setting the Alternate Gatekeeper
feature.
EnableManualDiscovery: the
Alternate Gatekeeper IP address is
specified by the Alternate
Gatekeeper IP Address parameter.
EnableAutomaticDiscovery: the
Alternate Gatekeeper IP address is
received from the Primary GK.
Integer
disable (0)
enableManualDiscovery (1)
enableAutomaticDiscovery (2)
na (255)
*AlternateGkIPAddress
710.3.4.1.25
(*DialingParams 25)
To set the Alternate Gatekeeper IP
address when Alternate Gatekeeper
Option is set to
enableManualDiscovery.
IP Address
*CallerID
710.3.4.1.26
(*DialingParams 26)
To defines whether the unit will
support generation of Caller ID (CID)
signaling and if CID is supported,
which standard will be used.
disable (0): No CID signalling
etsiDtAs (1): CID signalling in
accordance with ETSI 300-659-1,
using Dual Tone Alerting Signal
etsiRpAs (2): CID signalling in
accordance with ETSI 300-659-1,
using Ringing Pulse Alerting Signal
etsiRinging (4): CID signalling in
accordance with ETSI 300-659-1,
transmitting data during the first long
silence between two ring patterns.
bellcoreMdmf (5): CID signaling in
accordance with Bellcore 202, using
Multiple Data Message Format
(MDMF) which includes a name field
in addition to the date, time and
number.
bellcoreSdmf (6): CID signaling in
accordance with Bellcore 202, using
Single Data Message Format
(SDMF) which includes the date,
time and number.
Integer
disable (0)
etsi3006591DtAs (1)
etsi3006591RpAs (2)
etsi3006591Ringing (4)
bellcore202Mdmf (5)
bellcore202Sdmf (6)
na (255)
*StopDialingIndicator
710.3.4.1.27
(*DialingParams 28)
To enable/disable the use of the #
sign to indicate end of dialing
disable: The # sign is interpreted as
a part of the dialed sequence. End of
dialing is determined by the
*StopDialingTimeOut parameter.
enable: The # sign is interpreted as
indicating end of dialing sequence.
Integer
disable (0)
enable (1)
na (255)
*StopDialingTimeOut
710.3.4.1.28
(*DialingParams 28)
To define the inactivity time following
the last dialed digit that will be
identified by the unit as an indication
to end of dialing.
Integer
3 – 60 (seconds)
na (255)
*OverlapSending
710.3.4.1.29
(*DialingParams 29)
Disable/enable overlap sending.
When enabled, each dialed digit is
transmitted immediately. When
disabled, dialed digits are
accumulated and transmitted
according to the rules set by other
dialing parameters.
When enabled, it overrides the
setting of other dialing parameters as
follows: IP Dialing Option, Dialing
Prefix Option and Stop Dialing
Indicator are disabled even if the
applicable parameter is set to
Enable. Automatic Prefix is not used
and Stop Dialing Timeout has no
effect.
Integer
disable (0)
enable (1)
na (255)
BreezeACCESS Version 4.3 System Manual
BreezeACCESS Version 4.3 System Manual
C-42
Voice Parameters
MIB Parameter
(Location in Parenthesis)
Description
Values
*VoiceParams
710.3.4.2
(brzPhonMib 2)
*VoiceVolume
710.3.4.2.1
(*VoiceParams 1)
Gain of signal to earphone.
Integer
0-20 (-dB)
na (255)
*EchoCancellation
710.3.4.2.3
(*VoiceParams 3)
Enables or disables the echo cancellation
feature.
Integer
disable (0)
enable (1)
na (255)
*VoiceCodec
710.3.4.2.4
(*VoiceParams 4)
The relative priority of voice codecs.
DisplayString (SIZE (0..120))
A priorities vector of up to 7 different
numbers in the range 1-7, where
1=G.723.1
2=G.729
3=G.711 uLaw 64k
4=G.711 Alaw 64k
5=G.729AnnexA
6= G.729wAnnexB
7= G.729AnnexAwAnnexB
*VoiceActivityDetection
710.3.4.2.5
(*VoiceParams 5)
Enables or disables the voice activity
detection (VAD) feature when using
G7231 codec.
off (0)
g7231 (1)
na (255)
*CompressionEfficiency
710.3.4.2.6
(*VoiceParams 6)
Compression Efficiency parameters
*G723FramesPerPacket
710.3.4.2.6.1
(*CompressionEfficiency 1)
Number of G723.1 voice frames in an
RTP packet.
Integer
1-8
na (255)
*G729FramesPerPacket
710.3.4.2.6.2
(*CompressionEfficiency 2)
Number of G729A voice frames in an RTP
packet.
Integer
1-8
na (255)
*G711uFramesPer
Packet
710.3.4.2.6.3
(*CompressionEfficiency 3)
Number of G11 u-Law voice frames in an
RTP packet.
Integer
1-16
na (255)
*G711aFramesPerPacket
710.3.4.2.6.4
(*CompressionEfficiency 4)
Number of G11 A-Law voice frames in an
RTP packet.
Integer
1-16
na (255)
Manual Revision: 3.0
Appendix C
C-43
BreezeACCESS Version 4.3 System Manual
C-44
MIB Parameter
(Location in Parenthesis)
Description
Values
*MinimumFlashDetectTimeOut
710.3.4.3.3.1
(*TimeOuts 1)
The minimum on-hook time for identifying it
as a Hook Flash.
Integer
0-2,000 (milliseconds)
*MaximumFlashDetectTimeOut
710.3.4.3.3.2
(*TimeOuts 2)
The maximum on-hook time for identifying
it as a Hook Flash.
Integer
0-2,000 (milliseconds)
*DisconnectTimeOut
710.3.4.3.3.3
(*TimeOuts 3)
The minimum time for decision on an onhook (disconnect) condition.
Integer
0-2,000 (milliseconds)
*InterDigitTimeOut
710.3.4.3.3.4
(*TimeOuts 4)
Applicable only for pulse dialing. The
minimum time between two consecutive
pulses to be considered as separating
between two digits.
Integer
0-2,000 (milliseconds)
*CalledPartyReleaseTimeOut
710.3.4.3.3.5
(*TimeOuts 5)
The minimum time for an on-hook signal on
the called party side to be considered as
call disconnect.
Integer
0-10,000 (milliseconds)
General Info MIB
MIB Parameter
(Location in Parenthesis)
Description
*GenInfo 710.3.4.9
(breezecomPrvRev 9)
General Info MIB
brzHoppingStandardProtected
Applicable to AU and SU in
BreezeACCESS II family. Read-only.
Indicates if the Hopping Standard (Band)
can be changed (if protected or not).
Values
Integer
notProtected (1)
protected (2)
Supported Traps
Note:
* is used instead of the brzacc prefix
Trap Associated Parameters
MIB Parameter
(Location in Parenthesis)
Description
Values
*Traps
710.3.3.14
(brzAccessMib 14)
*TrapSUMacAddr
710.3.3.14.1
(*Traps 1)
Applicable to AU only. SU MAC address.
MAC address
*TrapRssiQuality
710.3.3.14.2
(*Traps 2)
Applicable to SU only. RSSI level of the received signal.
Integer
*TrapLastRssiQuality
710.3.3.14.3
(*Traps 3)
Applicable to SU only. RSSI level of the received signal
from the last AU with which the SU was associated.
Integer
*TrapText
710.3.3.14.4
(*Traps 4)
Textual string for future use.
DisplayString
Manual Revision: 3.0
Appendix C
MIB Parameter
(Location in Parenthesis)
C-45
Description
Values
*TrapToggle
710.3.3.14.5
(*Traps 5)
An On/Off toggle status, indicating a change in status from
off to on or vice versa.
Integer
on (1)
off (2)
*LastAUMacAddress
710.3.3.14.6
(*Traps 6)
Applicable to SU only.
The MAC address of the last AU with which the SU was
associated.
MAC address
*TrapLog
710.3.3.14.7
(*Traps 7)
Login or logout to the monitor program via the Monitor port
or Telnet.
Integer
monitorLogin (1)
monitorLogout(2)
telnetLogin (3)
telnetLogout (4)
*TrapParameterChanged
710.3.3.14.8
(*Traps 8)
A modification to one of the parameters related to CIR/
MIR, IP Filtering, Accounting (Billing) or VLAN .
Integer
cirOrMir (1)
ipFilter (2)
billing (3)
vlan (4)
*TrapAccessRights
710.3.3.14.9
(*Traps 9)
The access rights used for login.
Integer
notLoggedIn (0)
readOnly (1)
installer (2)
administrator (3)
factory (4)
*TrapTelnetUserIpAddress
710.3.3.14.11
(*Traps 11)
The IP address of a Telnet user.
IP address
*TrapAlarmNumber
710.3.3.14.12
(*Traps 12)
Applicable to GU only. The number of the alarm whose
status has been changed.
Integer
1-10
*TrapAlarmName
710.3.3.14.13
(*Traps 13)
Applicable to GU only. The Name of the alarm whose
status has been changed.
DisplayString
*TrapRTx
710.3.3.14.14
(*Traps 14)
Applicable to AU only. Retransmissions as a percentage of
total transmissions.
Integer
0-100
*AUAlarmsTraps
710.3.3.14.15
(*Traps 15)
Applicable to IF-based AU only. Not accessible. AU
Alarms traps variables.
*TrapAUAlarmSeverity
710.3.3.14.15.1
(*AUAlarmsTraps 1)
Applicable to IF-based AU only. Read-only. The severity of
the alarm.
Integer
minor (1)
major (2)
critical (3)
*TrapCurrentNumberOfRespondingSUs
710.3.3.14.15.2
(*AUAlarmsTraps 2)
Applicable to IF-based AU only. Read-only. The number of
SUs that responded to the last polling message.
Integer
*TrapAverageNumberOfRespondingSUs
710.3.3.14.15.3
(*AUAlarmsTraps 3)
Applicable to IF-based AU only. Read-only. The average
number of SUs that responded polling message since
power-up or since the AU Alarms Option was enabled.
Integer
*TrapSURxPowerAverageDelta
710.3.3.14.15.4
(*AUAlarmsTraps 4)
Applicable to IF-based AU only. Read-only. The average
for all SUs that responded to both of the last two polling
messages of the difference between the last RSSI at the
SU and the previous (one before last) RSSI. (A negative
value indicates that the average RSSI was decreased).
DisplayString
-99 to 99 (dBm)
*TrapAURxPowerAverageDelta
710.3.3.14.15.5
(*AUAlarmsTraps 5)
Applicable to IF-based AU only. Read-only. The average
for all SUs that responded to both of the last two polling
messages of the difference between the last RSSI at the
AU and the previous (one before last) RSSI. (A negative
value indicates that the average RSSI was decreased).
DisplayString
-99 to 99 (dBm)
*TrapTrafficStatisticsCurrentRate
710.3.3.14.15.6
(*AUAlarmsTraps 6)
Applicable to IF-based AU only. Read-only. The current
rate calculated for the relevant statistics type.
Integer
0-100 (%)
na (255)
*TrapTrafficStatisticsAverageRate
710.3.3.14.15.7
(*AUAlarmsTraps 7)
Applicable to IF-based AU only. Read-only. The average
rate calculated since the last time the unit was reset (or
since the AU Alarms Option was enabled) for the relevant
statistics type.
Integer
0-100 (%)
na (255)
BreezeACCESS Version 4.3 System Manual
BreezeACCESS Version 4.3 System Manual
C-46
Traps
Trap (Number)
Description
Variables
*SUassociatedAUTRAP(2)
An AU trap indicating a new association
with an SU.
*TrapSUMacAddr
*AUdisassociatedTRAP(3)
An AU trap indicating that an SU has
been disassociated from the AU. The
AU decides that an SU has been
disassociated from it and remove it
from the ADB after receiving from
another AU a SNAP frame with the SU
MAC address. The SNAP frame
indicating a network topology change
where the SU has associated with
another AU will be received if both AUs
are connected to the same Ethernet
backbone.
*TrapSUMacAddr
*AUagingTRAP (4)
An AU trap indicating that an SU was
aged out and removed from the ADB
following its failure to acknowledge a
certain number of consecutive frames
transmitted to it.
*TrapSUMacAddr
*SUassociatedTRAP (6)
An SU trap indicating association with
an AU. In addition to the MAC address
information of the AU, the trap also
includes information on the average
RSSI of frames received from the AU.
*AssociatedAU
*LastAUMacAddress
*TrapRssiQuality
*TrapLastRssiQuality
*SUWirelessQualityTRAP(7)
An SU trap, indicating that the quality of
the wireless link has changed and
dropped below (On) or has improved
above (Off), defined by the
*WirelessTrapThreshold.
The threshold is in RSSI units.
*TrapToggle
*UnitMacAddress
*TrapRssiQuality
*AUWirelessQualityTRAP(20)
An AU trap, indicating that the quality of
the wireless link with a specific SU has
changed and dropped below (On) or
has improved above (Off) a threshold
defined by *WirelessTrapThreshold.
The threshold is a percents
(retransmissions as percentage of total
transmissions).
*TrapToggle
*TrapRTx
*PowerUpFromReset (101)
A trap indicating power up after Reset.
*UnitMacAddr
*AULossOfSyncTRAP (21)
A BS-AU trap indicating that the AU has
lost (alarm on) or regained (alarm off)
synchronization. Applicable only to
units in which the Hopping Sync is
configured to slave operation.
*TrapToggle
*MonitorStatusTRAP (102)
A trap indicating that a log-in or log-out
has been performed via the Monitor
port or Telnet. Includes the log-in
access right and the IP address of the
PC performing Telnet (if access is via
Monitor the address is 0)
*TrapLog
*TrapAccessRights
*TrapTelnetUserIpAddress
*ParameterChangedTRAP(103)
An AU or SU trap indicating a change in
a CIR/MIR, IP Filter, Accounting
(billing) or VLAN parameter.
*TrapParameterChanged
*GpsAlarmInTRAP (104)
A GU trap indicating a change in alarmin status
*brzaccTrapToggle
*AlarmName
*AlarmNumber
*GpsAlarmOutTRAP (105)
A GU trap indicating a change in alarmout status
*brzaccTrapToggle
*AlarmName
*AlarmNumber
*GpsUTCstatusTRAP (106)
A GU trap indicating a change in UTC
status. On status is when the GU
module receives UTC information from
the GPS antenna. This information is
useful only if the GU receives also PPS
signals from the GPS antenna,
indicated by an on status of Alarm In 5
(GPS Antenna Alarm).
*TrapToggle
Manual Revision: 3.0
*UnitMacAddress
Appendix C
C-47
Trap (Number)
Description
Variables
*NoAssociationsOnTRAP (201)
An IF-based AU alarm.
Alarm was set on: The AU
was reset 3 consecutive
times as a result of no
association with any SU, and
before that the AU was
associated with at least
Minimum Number Of SUs.
*TrapAUAlarmsSeverity
*NoAssociationsOffTRAP (202)
Alarm was set off: At least
one SU became associated
with the AU.
The alarm will be set off also
after activating Clear All
Alarms or after disabling the
AU Alarms Option.
*AllAssociationsLostOnTRAP (203)
Alarm was set on: No
response from any SU, and
the previous average
number of responding SUs
was at least Minimum
Number Of SUs.
*TrapAUAlarmsSeverity
*TrapAverageNumberOfRespondingSUs
*AllAssociationsLostOffTRAP (204)
Alarm was set off: At least
one SU responded to last
polling messages.
The alarm will be set off also
after activating Clear All
Alarms or after disabling the
AU Alarms Option.
*TrapCurrentNumberOfRespondingSUs
*AUTxPowerLevelDecreaseOnTRAP(205)
Alarm was set on: The
decrease in the SU Rx
Power Average Delta (the
inverse value of the SU Rx
Power Average Delta) is
higher than the SU Rx Power
Decrease Threshold, and the
number of SUs that
responded to both of the last
two polling messages is at
least 5.
*TrapAUAlarmsSeverity
*TrapSURxPowerAverageDelta
*AUTxPowerLevelDecreaseOffTRAP (206)
The alarm will be set off after
activating Clear All Alarms or
after disabling the AU Alarms
Option.
*AURxSignalStrengthDecreaseOnTRAP(207)
Alarm was set on: The
decrease in the AU Rx
Power Average Delta (the
inverse value of the AU Rx
Power Average Delta) is
higher than the AU Rx Power
Decrease Threshold, and the
number of SUs that
responded to both of the last
two polling messages is at
least 5.
*AURxSignalStrengthDecreaseOffTRAP (208)
The alarm will be set off after
activating Clear All Alarms or
after disabling the AU Alarms
Option.
*TrapAUAlarmsSeverity
*TrapAURxPowerAverageDelta
BreezeACCESS Version 4.3 System Manual
BreezeACCESS Version 4.3 System Manual
C-48
Trap (Number)
Description
Variables
*HighRetransmissionsRateOnTRAP (209)
Alarm was set on:
Minor Severity Alarm:
a. The Retransmissions
Current Rate exceeds the
Retransmissions Minor
Alarm Threshold, and is
higher than the
Retransmissions Average
Rate by at least
Retransmissions Minor
Alarm Minimum Delta.
b. The Retransmissions
Current Rate has dropped
below the Retransmissions
Major Alarm Threshold but is
still higher than the
Retransmissions Minor
Alarm Threshold.
Major Severity Alarm: The
Retransmissions Current
Rate became higher than the
Retransmissions Major
Alarm Threshold.
*TrapAUAlarmsSeverity
*TrapTrafficStatisticsCurrentRate
*TrapTrafficStatisticsAverageRate
*HighRetransmissionsRateOffTRAP (210)
Alarm was set off:
Minor Severity Alarm: The
Retransmissions Current
Rate dropped below the
Retransmissions Minor
Alarm Threshold.
Major Severity Alarm: The
Retransmissions Current
Rate dropped below the
Retransmissions Major
Alarm Threshold.
The alarm will be set off also
after activating Clear All
Alarms or after disabling the
AU Alarms Option.
*TrapTrafficStatisticsCurrentRate
*TrapTrafficStatisticsAverageRate
*HighDroppedFramesRateOnTRAP (211)
Alarm was set on:
Minor Severity Alarm:
a. The Dropped Frames
Current Rate exceeds the
Dropped Frames Minor
Alarm Threshold, and is
higher than the Dropped
Frames Average Rate by at
least Dropped Frames Minor
Alarm Minimum Delta.
b. The Dropped Frames
Current Rate has dropped
below the Dropped Frames
Major Alarm Threshold but is
still higher than the Dropped
Frames Minor Alarm
Threshold.
Major Severity Alarm: The
Dropped Frames Current
Rate became higher than the
Dropped Frames Major
Alarm Threshold.
*TrapAUAlarmsSeverity
*TrapTrafficStatisticsCurrentRate
*TrapTrafficStatisticsAverageRate
*HighDroppedFramesRateOffTRAP (212)
Alarm was set off:
Minor Severity Alarm: The
Dropped Frames Current
Rate dropped below the
Dropped Frames Minor
Alarm Threshold.
Major Severity Alarm: The
Dropped Frames Current
Rate dropped below the
Dropped Frames Major
Alarm Threshold.
The alarm will be set off also
after activating Clear All
Alarms or after disabling the
AU Alarms Option.
*TrapTrafficStatisticsCurrentRate
*TrapTrafficStatisticsAverageRate
Manual Revision: 3.0
Appendix C
C-49
Trap (Number)
Description
Variables
*HighCRCErrorRateOnTRAP (213)
Alarm was set on:
Minor Severity Alarm:
a. The CRC Error Current
Rate exceeds the CRC Error
Minor Alarm Threshold, and
is higher than the CRC Error
Average Rate by at least
CRC Error Minor Alarm
Minimum Delta.
b. The CRC Error Current
Rate has dropped below the
CRC Error Major Alarm
Threshold but is still higher
than the CRC Error Minor
Alarm Threshold.
Major Severity Alarm: The
CRC Error Current Rate
became higher than the CRC
Error Major Alarm Threshold.
*TrapAUAlarmsSeverity
*TrapTrafficStatisticsCurrentRate
*TrapTrafficStatisticsAverageRate
*HighCRCErrorRateOffTRAP (214)
Alarm was set off:
Minor Severity Alarm: The
CRC Error Current Rate
dropped below the CRC
Error Minor Alarm Threshold.
Major Severity Alarm: The
CRC Error Current Rate
dropped below the CRC
Error Major Alarm Threshold.
The alarm will be set off also
after activating Clear All
Alarms or after disabling the
AU Alarms Option.
*TrapTrafficStatisticsCurrentRate
*TrapTrafficStatisticsAverageRate
*HighDuplicateFramesRateOnTRAP (215)
Alarm was set on:
Minor Severity Alarm:
a. The Duplicate Frames
Current Rate exceeds the
Duplicate Frames Minor
Alarm Threshold, and is
higher than the Duplicate
Frames Average Rate by at
least Duplicate Frames
Minor Alarm Minimum Delta.
b. The Duplicate Frames
Current Rate has dropped
below the Duplicate Frames
Major Alarm Threshold but is
still higher than the Duplicate
Frames Minor Alarm
Threshold.
Major Severity Alarm: The
Duplicate Frames Current
Rate became higher than the
Duplicate Frames Major
Alarm Threshold.
*TrapAUAlarmsSeverity
*TrapTrafficStatisticsCurrentRate
*TrapTrafficStatisticsAverageRate
*HighDuplicateFramesRateOffTRAP (216)
Alarm was set off:
Minor Severity Alarm: The
Duplicate Frames Current
Rate dropped below the
Duplicate Frames Minor
Alarm Threshold.
Major Severity Alarm: The
Duplicate Frames Current
Rate dropped below the
Duplicate Frames Major
Alarm Threshold.
The alarm will be set off also
after activating Clear All
Alarms or after disabling the
AU Alarms Option.
*TrapTrafficStatisticsCurrentRate
*TrapTrafficStatisticsAverageRate
BreezeACCESS Version 4.3 System Manual
C-50
Manual Revision: 3.0
BreezeACCESS Version 4.3 System Manual
Appendix D:
RSSI to dBm
Conversion Table
SU-A/E, AU-A/E
RSSI
71
72
74
75
77
78
81
82
83
84
85
86
88
89
90
91
92
93
94
96
97
98
99
100
101
102
103
104
105
106
107
108
110
111
112
113
dBM
-100
-99
-98
-97
-96
-95
-94
-93
-92
-91
-90
-89
-88
-87
-86
-85
-84
-83
-82
-81
-80
-79
-78
-77
-76
-75
-74
-73
-72
-71
-70
-69
-68
-67
-66
-65
RSSI
114
115
116
118
119
120
121
122
123
125
126
127
128
129
130
131
133
134
135
136
137
138
139
141
142
143
144
145
146
148
149
150
151
152
153
dBM
-64
-63
-62
-61
-60
-59
-58
-57
-56
-55
-54
-53
-52
-51
-50
-49
-48
-47
-46
-45
-44
-43
-42
-41
-40
-39
-38
-37
-36
-35
-34
-33
-32
-31
-30
BreezeACCESS Version 4.3 System Manual
D-2
SU-R and SU-I
RSSI
26
27
29
30
32
33
35
36
38
39
41
42
44
45
47
48
50
51
53
54
56
57
59
60
62
63
65
66
68
69
71
72
74
75
77
78
Manual Revision: 3.0
dBM
-100
-99
-98
-97
-96
-95
-94
-93
-92
-91
-90
-89
-88
-87
-86
-85
-84
-83
-82
-81
-80
-79
-78
-77
-76
-75
-74
-73
-72
-71
-70
-69
-68
-67
-66
-65
RSSI
81
82
83
84
85
86
88
89
90
91
92
93
94
96
97
98
99
100
101
102
103
104
105
106
107
108
110
111
112
113
114
115
116
118
119
dBM
-64
-63
-62
-61
-60
-59
-58
-57
-56
-55
-54
-53
-52
-51
-50
-49
-48
-47
-46
-45
-44
-43
-42
-41
-40
-39
-38
-37
-36
-35
-34
-33
-32
-31
-30
Appendix E:
Parameters List
Unit Control Parameters
Parameter
Unit
Range
Default
Run-Time
Updated
Change Unit
Name
All
Up to 32 printable ASCII Empty String
characters
Yes
Change Readonly Password
All
Up to 8 printable ASCII
characters
public
Yes – For
access from
Monitor or
Telnet only
Change Installer
Password
All
Up to 8 printable ASCII
characters
user
Yes – For
access from
Monitor or
Telnet only
Change
Administrator
Password
All
Up to 8 printable ASCII
characters
private
Yes – For
access from
Monitor or
Telnet only
Console Speed
All
9600, 19200, 38400,
57600, 115200
9600
No
Log Out Timer
All
1-999 minutes
Yes
Event Log Policy All
Log All (TRC) Level,
Message (MSG) Level,
Warning (WRN) Level,
Error (ERR) Level,
Fatal (FTL) Level,
Log None
Fatal (FTL)
Level
Yes
Auto
Configuration
Option
All
Disable, Enable
Disable
Yes
SNMP Read
EESSID
AU, SU
Disable, Enable
Disable
No
BreezeACCESS Version 4.3 System Manual
E-2
Site Survey Parameters
Parameter
Unit
Range
Default
RunTime
Updated
RSSI Display
Option
AU, SU
RSSI, dBm
RSSI
Yes
AU Alarms
Option
IF-based AU
Disable, Enable
Disable
Yes
Learning Period
IF-based AU
1 – 1440 (minutes)
30 (minutes)
Yes
Test Cycle
IF-based AU
1 – 1440 (minutes)
10 (minutes)
Yes
Retransmissions
Minor Alarm
Minimum Delta
IF-based AU
0 – 100 (%)
20 (%)
Yes
Retransmissions
Minor Alarm
Threshold
IF-based AU
1 – 100 (%)
30 (%)
Yes
Retransmissions
Major Alarm
Threshold
IF-based AU
1 – 100 (%)
60 (%)
Yes
Dropped Frames
Minor Alarm
Minimum Delta
IF-based AU
0 – 100 (%)
10 (%)
Yes
Dropped Frames
Minor Alarm
Threshold
IF-based AU
1 – 100 (%)
10 (%)
Yes
Dropped Frames
Major alarm
Threshold
IF-based AU
1 – 100 (%)
20 (%)
Yes
CRC Error
Minor Alarm
Minimum Delta
IF-based AU
0 – 100 (%)
20 (%)
Yes
CRC Error
Minor Alarm
Threshold
IF-based AU
1 – 100 (%)
40 (%)
Yes
CRC Error
Major Alarm
Threshold
IF-based AU
1 – 100 (%)
70 (%)
Yes
Manual Revision: 3.0
Appendix E
E-3
Range
Default
RunTime
Updated
Parameter
Unit
Duplicate
Frames Minor
Alarm Minimum
Delta
IF-based AU
0 – 100 (%)
5 (%)
Yes
Duplicate
Frames Minor
Alarm
Threshold
IF-based AU
1 – 100 (%)
5 (%)
Yes
Duplicate
Frames Major
alarm Threshold
IF-based AU
1 – 100 (%)
15 (%)
Yes
SU Rx Power
Decrease
Threshold
IF-based AU
1 – 99 (dBm)
15 (dBm)
Yes
AU Rx Power
Decrease
Threshold
IF-based AU
1 – 99 (dBm)
15 (dBm)
Yes
Minimum
Number Of SUs
IF-based AU
1 – 254 (SUs)
5 (SUs)
Yes
IP Parameters
Parameter
Unit
Range
Default
RunTime
Updated
IP Address
All
IP address
10.0.0.1
No
Subnet Mask
All
IP address
255.0.0.0
No
Default Gateway All
Address
IP address
0.0.0.0
No
DHCP Option
Disable,
DHCP Only,
Automatic
Disable
No
From Wlan Only,
From Ethernet Only,
From Both Ethernet &
Wlan
AU: From
No
Ethernet Only
SU: From Wlan
Only
All
Access to DHCP AU, SU
BreezeACCESS Version 4.3 System Manual
BreezeACCESS Version 4.3 System Manual
E-4
Air Interface Parameters
Parameter
Unit
Range
Default
Run-Time
Updated
ESSID
AU, SU
Up to 31
printable
ASCII
characters
ESSID1
No
Operator ESSID
Option
AU
Disable,
Enable
Enable
No
Operator ESSID
AU
Up to 31
printable
ASCII
characters
ESSID1
No
Hopping Sequence
AU
Depends on
hopping
standard
No
Hopping Set
AU
1-3
No
AU, SU
Hopping Sync
AU
Idle, Master,
Slave
Idle
No
Best AU Support
SU
Disable,
Enable
Disable
No
Number of
Scanning Attempts
SU
1 – 255
20
Yes
MAC Address
00-00-00-00-00-00 (no Yes
preferred AU)
Preferred AU MAC SU
Address
Transmit Power
Control
AU-A/E,
0 – 15
SU-A/E (IF
based units)
15
Yes
Power Level
SU-R, SU-I/ Low, High
AU-I
units with
HW version
C or lower
High
No
Transmit Antenna
SU-R
SU-I/AU-I
Use Antenna Number
No
Manual Revision: 3.0
Use Two
Antennas,
Use Antenna
No. 1,
Use Antenna
No. 2
Appendix E
E-5
Parameter
Unit
Range
Receive
SU-A/E (IF 0, 10dB, 25dB
Attenuation Control based units)
Default
Run-Time
Updated
No
Maximum Data
Rate
AU, SU
1, 2 and 3Mbps 3Mbps
No
AU Transmission
Rate Control
SU
Disable,
Enable
No
Acknowledge
Delay Limit
AU, SU
Low, Medium, Low
High
No
Maximum Number
of Associations
AU
1 – 512
Yes
Call Aging Time
AU
1 (no aging), 2- 1800 seconds
50,000
(seconds)
No
Maximum Voice
Sessions
AU
0 – 50
12
Yes
ACSE Option
AU and GU Disable,
Enable
Disable
No
ACSE Maximum
Voice Sessions
AU
0 – 21
21
Yes
ACSE Number Of
Retransmissions
For Data
AU, SU
0 – 100
No
ACSE Number Of
Retransmissions
For Voice
AU, SU
with voice
0 – 100
30
No
ATPC Option
IF Based
AU, SU
Disable,
Enable
AU: Disable
SU: Enable
Yes
Maximum RSSI
Level
IF Based
AU
-100 to 0
(dBm)
-64 (dBm)
Minimum RSSI
Level
IF Based
AU
-100 to 0
(dBm)
Minimum Interval
Between ATPC
Messages
IF Based
AU
0-3600
(seconds)
120 (seconds)
Yes
RSSI Memory
Factor
IF Based
AU
-1 to 32
Yes
ATPC Power Level IF Based
Steps
AU
1-100 (%)
Yes
ATPC Maximum
Last Level Time
After Reset
0-3600
(seconds)
30 (seconds)
Yes
SU
Disable
512
Yes
Yes
-74 (dBm)
BreezeACCESS Version 4.3 System Manual
BreezeACCESS Version 4.3 System Manual
E-6
Parameter
Unit
Range
Default
ATPC Maximum
Last Level Time
After
Synchronization
Loss
SU
0-3600
(seconds)
Scanning Mode
SU
Active, Passive Active
MAC Address
Black List
AU
Send Roaming
SNAP
All SUs,
except
SU-BD,
SU-BD1V
Disable,
Enable
Wireless Trap
Threshold
AU, SU
AU: 0 to 100 % AU: 30 %
SU: 0 to 255
IF based SU: 95
RSSI units SU-R: 48
SU-I: 60
Manual Revision: 3.0
120 (seconds)
Run-Time
Updated
Yes
No
Empty List
Yes
SU-R: Enable
All others: Disable.
No
Yes
Appendix E
E-7
Network Management
Parameters
Parameter
Unit
Range
Default
RunTime
Updated
Access To
Network
Management
AU, SU
From Wlan Only,
From Ethernet Only,
From Both Ethernet &
Wlan
From Both
Ethernet &
Wlan
No
Network
Management
Filtering
All
Disable,
Activate Management
IP Filter On Ethernet
Port,
Activate Management
IP Filter On Wlan Port
(not available in GU),
Activate Management
IP Filter On Both
Ethernet & Wlan Ports
(not available in GU),
Disable
No
Set Network
Management IP
Address
All
IP address
0.0.0.0 (all 3
entries)
Yes
Send SNMP
Traps
All
Disable Traps Sending,
Enable Traps Sending
Disable Traps
Sending
Yes
SNPM Traps IP
Destination
All
IP address
0.0.0.0 (all 3
entries)
No
SNMP Traps
Community
All
Up to 14 printable
ASCII characters
public (all 3
entries)
No
Send SU
Associated AU
Trap
AU
Disable Trap Sending,
Enable Trap Sending
Enable Trap
Sending
Yes
Send AU
Disassociated
Trap
AU
Disable Trap Sending,
Enable Trap Sending
Enable Trap
Sending
Yes
Send AU Aging
Trap
AU
Disable Trap Sending,
Enable Trap Sending
Enable Trap
Sending
Yes
Send AU
Wireless Quality
Trap
AU
Disable Trap Sending,
Enable Trap Sending
Enable Trap
Sending
Yes
Send SU
Associated Trap
SU
Disable Trap Sending,
Enable Trap Sending
Enable Trap
Sending
Yes
BreezeACCESS Version 4.3 System Manual
BreezeACCESS Version 4.3 System Manual
E-8
Parameter
Unit
Range
Default
RunTime
Updated
Send SU
Wireless Quality
Trap
SU
Disable Trap Sending,
Enable Trap Sending
Enable Trap
Sending
Yes
Send Parameter
Changed Trap
AU, SU
Disable Trap Sending,
Enable Trap Sending
Enable Trap
Sending
Yes
Send GPS Alarm GU
In Trap
Disable Trap Sending,
Enable Trap Sending
Enable Trap
Sending
Yes
Send GPS Alarm GU
Out Trap
Disable Trap Sending,
Enable Trap Sending
Enable Trap
Sending
Yes
Send GPS UTC
Status Trap
GU
Disable Trap Sending,
Enable Trap Sending
Enable Trap
Sending
Yes
Send Power Up
From Reset Trap
All
Disable Trap Sending,
Enable Trap Sending
AU & GU:
Enable Trap
Sending
SU: Disable
Trap Sending
Yes
Send Monitor
Status Trap
All
Disable Trap Sending,
Enable Trap Sending
Enable Trap
Sending
Yes
Send Cold \
Warm Start Trap
All
Disable Trap Sending,
Enable Trap Sending
AU & GU:
Enable Trap
Sending.
SU: Disable
Trap Sending
Yes
Send AU Loss Of BS-AU
Sync Trap
Disable Trap Sending,
Enable Trap Sending
Enable Trap
Sending
Yes
Send AU Alarms IF-based AU
Traps
Disable Traps Sending,
Enable Traps Sending
Enable Traps
Sending
Yes
Manual Revision: 3.0
Appendix E
E-9
Bridge Parameters
Parameter
Unit
VLAN ID-Data
SU
VLAN ID –
Management
Range
1 – 4094
Default
Run-Time
Updated
No
AU, GU,
1 – 4094, 65535
SU without
voice
65535 (no
VLAN)
No
VLAN ID – Voice
& Management
SU with
voice
1 – 4094, 65535
65535 (no
VLAN)
No
VLAN Link Type
AU, SU
Hybrid Link,
Trunk Link,
Access Link (only in
SU)
Hybrid Link
No
Voice Priority Tag
Option
SU with
voice
Disable, Enable
Disable
No
VLAN Forwarding
Support
AU, SU
Disable, Enable
Disable
No
VLAN Forwarding
ID
AU, SU
1 – 4094 (up to 20
entries)
Empty list
No
VLAN Relaying
Support
AU
Disable, Enable
Disable
No
VLAN Relaying ID AU
1 – 4094 (up to 20
entries)
Empty list
No
VLAN Priority –
Data
AU, SU
0–7
No
VLAN Priority –
Voice
SU with
voice
0–7
Yes
VLAN Priority –
Management
AU, SU,
GU
0–7
SU with voice: 4 No
All other units: 0
VLAN Priority
Threshold
AU, SU
0–7
Yes
Voice Packets ToS
SU with
voice
0 – 255
Yes
ToS Precedence
Threshold
AU, SU
0–7
Yes
Filter Option
SU
Disable,
From Ethernet Only,
From Wlan Only,
Both From Ethernet &
Wlan
Disable
Yes
DHCP Broadcast
Override Filter
SU
Disable, Enable
Disable
Yes
BreezeACCESS Version 4.3 System Manual
BreezeACCESS Version 4.3 System Manual
E-10
Parameter
Unit
Range
Default
Run-Time
Updated
PPPoE Broadcast
Override Filter
SU
Disable, Enable
Disable
Yes
Parameter
Unit
Range
Default
Run-Time
Updated
ARP Broadcast
Override Filter
SU
Disable, Enable
Disable
Yes
LAN to WLAN
Bridging Mode
AU
Reject Unknown,
Forward Unknown
Forward
Unknown
Yes
Bridge Aging Time
AU, SU
100 – 2000 seconds
AU, SU-BD,
SU-BD1V: 300
All other SUs:
1800
No
Broadcast Relaying
AU
Disable, Enable
Enable
No
Unicast Relaying
AU
Disable, Enable
Enable
No
Ethernet Port
Control
SU
Disable, Enable
Enable
No
Voice Port Control
SU with
voice
Disable, Enable
Enable
No
Manual Revision: 3.0
Appendix E
E-11
Performance Parameters
Parameter
Unit
Range
Default
Run-Time
Updated
RTS Threshold
AU, SU
20 – 1600 bytes
AU: 1600
SU: 60
No
Number of
Retransmissions
AU, SU
1 – 100
No
Number of
Retransmissions
to Decrease Rate
AU, SU
0 – 10
No
Number of
Dwells to
Retransmit
AU, SU
0–9
No
Minimum
Contention
Window
AU, SU
7 - 255
31
No
Carrier Sense
Level
AU, SU
-100 to -40 (dBm)
-85 dBm
No
Maximum
Multicast Rate
AU
1, 2, 3Mbps
1Mbps
Yes
Multi-Rate
Support
AU, SU
Disable, Enable
Enable
No
Multi-Rate
Decision
Window Size
AU, SU
1 – 50
12
No
Number of
AU, SU
Failures in MultiRate Decision
Window
1 to Multi-Rate
Decision window
Size
No
Dwell Time
AU and
GU
32, 64, 128
128
No
Noise Floor
AU, SU
-115 to -50 (dBm)
IF-based units: 112(dBm)
SU-R: -101(dBm)
SU-I/AU-I:-97(dBm)
No
Carrier To
Interference
Difference Level
AU, SU
6 to 60 (dB)
IF-based units: 8(dB)
SU-R, SU-I, AU-I:
9(dB)
No
BreezeACCESS Version 4.3 System Manual
BreezeACCESS Version 4.3 System Manual
E-12
Service Parameters
Parameter
Unit
Range
Default
RunTime
Updated
User Filtering
Option
SU
Disable,
IP Only,
User Defined Addresses
Only,
PPPoE Protocol Only
Disable
Yes
Set User Filter
Address
SU
IP address (8 entries)
0.0.0.0 (all 8
entries)
Yes
Set User Filter
Mask
SU
IP address (8 entries)
255.255.255.25
5 (all 8 entries)
Yes
Set User Filter
Range
SU
0 - 255
0 (all 8 entries)
Yes
MIR/CIR Option AU, SU
Disable, Enable
Disable
No
MIR: AU to SU
SU
32 – 2200Kbps
128Kbps
No
MIR: SU to AU
SU
32 – 2200Kbps
128Kbps
No
CIR: AU to SU
SU
0 – 2200Kbps
64Kbps
No
CIR: SU to AU
SU
0 – 2200Kbps
64Kbps
No
Maximum Burst
Duration
AU, SU
0 – 2000 milliseconds
5 milliseconds
No
Maximum Delay
SU
300 – 10,000 milliseconds
5,000
milliseconds
No
Graceful
Degradation
Limit
AU
0 – 70 (%)
70 (%)
No
Disable, Enable
Disable
Yes
MIR Only Option AU
Manual Revision: 3.0
Appendix E
E-13
RADIUS Parameters
Parameter
Unit
Range
Default
RunTime
Updated
User Name
SU
Up to 64 printable
ASCII characters
The units’ MAC
Address
No
User Password
SU
Up to 64 printable
ASCII characters
RadiusPassword1
No
Shared Secret
SU
Up to 20 characters
RadiusSecret1234
No
Authentication
Option
SU
Disable, enable
Disable
No
RADIUS Server SU
Authentication IP
Address
IP Address
0.0.0.0
No
RADIUS Server
Authentication
Port
SU
1000 to 65535
1812
No
Accounting
Option
SU
Disable, enable
Disable
No
RADIUS Server
Accounting IP
Address
SU
IP Address
0.0.0.0
No
RADIUS Server
Accounting Port
SU
1000 to 65535
1813
No
Accounting
Interval
SU
60 to 6000 (seconds)
90 (seconds)
No
Security Parameters
Range
Default
Run-Time
Updated
Parameter
Unit
Authentication
Algorithm
AU, SU
Open System, Shared Key
Support All (AU only)
Open System
No
Default Key ID
SU
1–4
Yes
WEP Key # 1-4
AU, SU
10 Hexadecimal Digits
0000000000 (no No
key)
BreezeACCESS Version 4.3 System Manual
BreezeACCESS Version 4.3 System Manual
E-14
Voice Parameters
Parameter
Unit
Range
Default
Run-Time
Updated
Volume
SU with
voice
-20 to 0 (dB)
-3dB
Yes
Echo
Cancellation
SU with
voice
Disable, Enable
Enable
Yes
Voice Codec
SU with
voice
1 – 7654321 (use only the
digits 1 – 7)
2134
No
G723 Frames Per SU with
Packet
voice
1–8
No
G729 Frames Per SU with
Packet
voice
1 – 12
No
G711 u-Law
Frames Per
Packet
SU with
voice
1 – 16
12
No
G729 Frames Per SU with
Packet
voice
1 – 16
12
No
Voice Activity
Detection
Voice Activity Detection
OFF, Voice Activity
Detection G7231
Voice Activity
Detection OFF
No
SU with
voice
Manual Revision: 3.0
Appendix E
E-15
Dialing Parameters
Parameter
Unit
Range
Default
RunTime
Updated
Pulse Dialing
SU with
voice
Disable, Enable
Enable
No
Gatekeeper
Option
SU with
voice
Disable, Enable
Disable
No
Gatekeeper /
Gateway IP
Address
SU with
voice
IP address
0.0.0.0
No
Alternate
Gatekeeper
Option
SU with
voice
Disable, Enable
Disable
No
Alternate
Gatekeeper IP
Address
SU with
voice
IP address
0.0.0.0
No
Telephone
Number
SU with
voice
Up to 10 decimal digits
0000000000
No
H323 Terminal
ID
SU with
voice
Up to 24 characters
X (No terminal
ID)
No
IP Dialing Option SU with
voice
Disable, Enable
Enable
Yes
IP Dialing
Indicator
SU with
voice
up to 3 phone key-pad
digits
(0-9, *, #, A, B, C, D)
Yes
Automatic Prefix SU with
voice
up to 8 phone key-pad
digits
(0-9, *, #, A, B, C, D)
X (No prefix)
Yes
Fast Start
SU with
voice
Disable, Enable
Enable
Yes
Information
Transfer
Capability
SU with
voice
Speech,
Unrestricted,
Restricted,
3.1KHz audio,
Unrestricted with tones,
Video
Speech
No
Dialing Prefix
Option
SU with
voice
Disable, Enable, Enable & Disable
Block Inter-Regional Prefix
Yes
Inter-Regional
Prefix
SU with
voice
One phone key-pad digit
(0-9, *, #, A, B, C, D) and X
(no prefix).
Yes
BreezeACCESS Version 4.3 System Manual
BreezeACCESS Version 4.3 System Manual
E-16
Parameter
International
Prefix
Unit
SU with
voice
Range
Default
RunTime
Updated
One phone key-pad digit
(0-9, *, #, A, B, C, D) and X
(no prefix).
Yes
Registration TTL SU with
voice
0 (not active), 1 – 65535
No
DTMF Relay
SU with
voice
Disable, Enable, Enable
Proprietary
Enable
No
Parameter
Unit
Range
Default
RunTime
Updated
Endpoint Type
SU with
voice
Terminal, Gateway
Terminal
No
Fax Relay Option SU with
voice
Disable, Enable
Disable
No
Fax Relay
redundancy
SU with
voice
0–5
No
Batter Polarity
SU with
voice
(Voice card
rev. D and
higher)
Forward Battery,
Forward Battery No
Reverse Battery,
Forward->Reverse Battery,
Reverse->Forward Battery
Caller ID
SU with
voice
(Voice card
rev. D and
higher)
Disable,
ETSI 300659-1 DT-AS,
ETSI 300659-1 RP-AS,
ETSI 300659-1 Ringing,
Bellcore 202 MDMF,
Bellcore 202 SDMF
Disable
Yes
Stop dialing
Timeout
SU with
voice
3 – 60 seconds
5 seconds
Yes
Stop Dialing
Indicator
SU with
voice
Disable, Enable
Disable
Yes
Overlap Sending
SU with
voice
Disable, Enable
Disable
No
Manual Revision: 3.0
Appendix E
E-17
Telephony Signals
Parameter
Unit
Range
Default
RunTime
Updated
Telephony
SU with
Country Standard voice
Proprietary, Germany,
Sweden, France, United
Kingdom, Belgium, USA,
Chile
USA
No
Frequency 1
SU with
voice
0 – 3000Hz
Dial Tone: 350 No
Ring Back: 440
Busy: 480
Congestion: 480
Error: 480
High Level
Error: 20
Frequency 1
SU with
voice
0 – 3000Hz
Dial Tone: 350 No
Ring Back: 440
Busy: 480
Congestion: 480
Error: 480
High Level
Error: 0
Ring
Frequency: 20
Level 1
SU with
voice
-32 to +3 (dBm)
Dial Tone: -13 No
Ring Back: -19
Busy: -14
Congestion: -24
Error: -24
High Level
Error: 0
Ring
Frequency: Null
Level 2
SU with
voice
-32 to +3 (dBm)
Dial Tone: -13 No
Ring Back: -19
Busy: -14
Congestion: -24
Error: -24
High Level
Error: 0
Ring
Frequency: Null
BreezeACCESS Version 4.3 System Manual
BreezeACCESS Version 4.3 System Manual
E-18
Parameter
Unit
Range
Default
RunTime
Updated
Cadence On
SU with
voice
100-10,000 milliseconds
Dial Tone:
Ring Back:
1000
Busy: 500
Congestion:
1000
Error: 200
High Level
Error: 0
Ring
Frequency:
1000
Parameter
Unit
Range
Default
Yes
Cadence Off
SU with
voice
100-10,000 milliseconds
Dial Tone:
Ring Back:
3000
Busy: 500
Congestion:
1000
Error: 200
High Level
Error: 0
Ring
Frequency:
3000
No
Duration
SU with
voice
0 – 10,000 seconds
Dial Tone: 15
Ring Back: 60
Busy: 15
Congestion: 0
Error: 0
High Level
Error: 0
Ring
Frequency: 60
No
Min. Flash Detect SU with
Timeout
voice
0-2,000 milliseconds
120
No
Max. Flash
Detect Timeout
SU with
voice
0-2,000 milliseconds
1000
No
Disconnect
Timeout
SU with
voice
0-2,000 milliseconds
1000
No
Inter-Digit
Timeout
SU with
voice
0-2,000 milliseconds
100
No
Called Party
Release Timeout
SU with
voice
0-10,000 milliseconds
No
Manual Revision: 3.0
Appendix E
E-19
Hopping Parameters
Parameter
Unit
Range
Default
RunTime
Updated
Number of
Hopping
Frequencies
GU
2-151
No
Automatic
Recovery Option
GU
Disable, Enable
Enable
Yes
Automatic
Recovery Interval
GU
5 – 1440 (minutes)
15 (minutes)
Yes
ACSE Option
AU and
GU
Disable, Enable
Disable
No
Dwell Time
AU and
GU
32, 64, 128
128
No
Alarm Parameters
Parameter
Unit
Range
Default
RunTime
Updated
Alarm In Names
GU
Up to 31 printable ASCII Alarm In 1
characters
through Alarm
In 4
Yes
Alarm Out Names
GU
Up to 31 printable ASCII Alarm Out 1
characters
through Alarm
Out 3
Yes
Automatic Alarm
Out Definition
GU
1 -10, N (None), A (Any) N (None) for all Yes
3 Alarm Outs
Alarm Out Control GU
On, Off, Automatic
Automatic – for Yes
all 3 Alarm Outs
BreezeACCESS Version 4.3 System Manual
E-20
Manual Revision: 3.0
BreezeACCESS Version 4.3 System Manual
Appendix F:
Hopping Sequences
Hopping Standard: Australia
Each hopping sequence is comprised of 60 channels in the frequency band from
2402 MHz to 2461 MHz (channels 2 to 80).
Basic Hopping Sequence: Hopping Set=1, Hopping Sequence = 1
Index
Channel
Index
Channel
Index
Channel
21
29
41
39
53
22
42
47
19
23
31
43
56
58
24
17
44
12
16
25
30
45
32
50
26
22
46
38
13
27
47
27
34
28
43
48
11
23
29
61
49
26
10
15
30
41
50
40
11
46
31
24
51
33
12
37
32
14
52
25
13
48
33
42
53
54
14
55
34
35
54
36
15
20
35
55
21
16
60
36
18
56
10
17
52
37
28
57
18
38
51
58
44
19
49
39
57
59
20
59
40
60
45
BreezeACCESS Version 4.3 System Manual
F-2
Actual Frequency: (2400+Channel) MHz
Calculating the operational hopping sequence:
IF [Pi(1, 1)+(S-1)x3+(H-1)]>61, than Pi(H, S) = Pi(1, 1)+(S-1)x3+(H-1)-60,
else Pi(H, S) = Pi(1, 1)+(S-1)x3+(H-1)
Where:
S=Hopping Set. Range: 1-3
H=hopping Sequence. Range: 1-20
i =Index. Range: 1-60
Pi(H, S) = Channel with index i in operational sequence with Hopping Set S and
Hopping sequence H.
Pi(1, 1) = Channel with index i in the basic sequence (Hopping Set 1, Hopping
sequence 1).
Manual Revision: 3.0
Appendix F
F-3
Hopping Standards: Canada,
Mexico
Each hopping sequence is comprised of 30 channels in the frequency band
from 2452 MHz to 2481 MHz (channels 2 to 80).
Basic Hopping Sequence: Hopping Set=1, Hopping Sequence = 1
Index
Channel
Index
Channel
52
16
70
58
17
81
72
18
62
80
19
73
63
20
60
76
21
66
53
22
56
67
23
78
54
24
65
10
64
25
75
11
79
26
55
12
71
27
69
13
59
28
77
14
74
29
68
15
61
30
57
Actual Frequency: (2400+Channel)MHz
Calculating the operational hopping sequence:
IF [Pi(1, 1)+(S-1)x3+(H-1)]>81, than Pi(H, S) = Pi(1, 1)+(S-1)x3+(H-1)-30,
else Pi(H, S) = Pi(1, 1)+(S-1)x3+(H-1)
Where:
S=Hopping Set. Range: 1-3
H=hopping Sequence. Range: 1-10
i =Index. Range: 1-30
Pi(H, S) = Channel with index i in operational sequence with Hopping Set S and
Hopping sequence H.
Pi(1, 1) = Channel with index i in the basic sequence (Hopping Set 1, Hopping
sequence 1).
BreezeACCESS Version 4.3 System Manual
BreezeACCESS Version 4.3 System Manual
F-4
Hopping Standards: Europe ETSI,
US FCC, International
Each hopping sequence is comprised of 79 channels in the frequency band
from 2402 MHz to 2480 MHz (channels 2 to 80).
Basic Hopping Sequence: Hopping Set=1, Hopping Sequence = 1
Index
Channel
Index
Channel
Index
Channel
28
54
41
25
29
39
55
15
64
30
12
56
35
10
31
36
57
67
45
32
68
58
52
18
33
59
58
73
34
70
60
49
35
77
61
50
21
36
62
17
10
63
37
62
63
11
78
38
29
64
19
12
31
39
14
65
13
61
40
27
66
69
14
24
41
16
67
51
15
54
42
59
68
42
16
65
43
43
69
17
28
44
76
70
30
18
79
45
34
71
57
19
33
46
72
72
37
20
47
11
73
55
21
20
48
60
74
26
22
13
49
80
75
46
23
38
50
47
76
53
24
74
51
22
77
40
25
56
52
75
78
32
26
71
53
66
79
48
27
23
Actual Frequency: (2400+Channel)MHz
Manual Revision: 3.0
Appendix F
F-5
Calculating the operational hopping sequence:
IF [Pi(1, 1)+(S-1)x3+(H-1)]>80, than Pi(H, S) = Pi(1, 1)+(S-1)x3+(H-1)-79,
else Pi(H, S) = Pi(1, 1)+(S-1)x3+(H-1)
Where:
S=Hopping Set. Range: 1-3
H=hopping Sequence. Range: 1-26
i =Index. Range: 1-79
Pi(H, S) = Channel with index i in operational sequence with Hopping Set S and
Hopping sequence H.
Pi(1, 1) = Channel with index i in the basic sequence (Hopping Set 1, Hopping
sequence 1).
BreezeACCESS Version 4.3 System Manual
BreezeACCESS Version 4.3 System Manual
F-6
Hopping Standards: France
Each hopping sequence is comprised of 35 channels in the frequency band
from 2448 MHz to 2482 MHz (channels 28 to 82).
Basic Hopping Sequence: Hopping Set=1, Hopping Sequence = 1
Index
Channel
Index
Channel
65
19
76
53
20
62
66
21
73
80
22
48
71
23
56
55
24
49
64
25
63
52
26
51
61
27
59
10
81
28
78
11
74
29
72
12
58
30
57
13
79
31
75
14
68
32
67
15
77
33
50
16
70
34
69
17
60
35
82
18
54
Actual Frequency: (2400+Channel)MHz
Calculating the operational hopping sequence:
IF [Pi(1, 1)+(S-1)x3+(H-1)]>82, than Pi(H, S) = Pi(1, 1)+(S-1)x3+(H-1)-35,
else Pi(H, S) = Pi(1, 1)+(S-1)x3+(H-1), where:
S=Hopping Set. Range: 1-3
H=hopping Sequence. Range: 1-11
i =Index. Range: 1-35
Pi(H, S) = Channel with index i in operational sequence with Hopping Set S and
Hopping sequence H.
Pi(1, 1) = Channel with index i in the basic sequence (Hopping Set 1, Hopping
sequence 1).
Manual Revision: 3.0
Appendix F
F-7
Hopping Standards: Israel
Each hopping sequence is comprised of 35 channels in the frequency band
from 2421 MHz to 2455 MHz (channels 21 to 55).
Basic Hopping Sequence: Hopping Set=1, Hopping Sequence = 1
Index
Channel
Index
Channel
38
19
49
26
20
35
39
21
46
53
22
21
44
23
29
28
24
22
37
25
36
25
26
24
34
27
32
10
54
28
51
11
47
29
45
12
31
30
30
13
52
31
48
14
41
32
40
15
50
33
23
16
43
34
42
17
33
35
55
Actual Frequency: (2400+Channel)MHz
Calculating the operational hopping sequence:
IF [Pi(1, 1)+(S-1)x3+(H-1)]>55, than Pi(H, S) = Pi(1, 1)+(S-1)x3+(H-1)-35,
else Pi(H, S) = Pi(1, 1)+(S-1)x3+(H-1)
Where:
S=Hopping Set. Range: 1-3
H=hopping Sequence. Range: 1-11
i =Index. Range: 1-35
Pi(H, S) = Channel with index i in operational sequence with Hopping Set S and
Hopping sequence H.
Pi(1, 1) = Channel with index i in the basic sequence (Hopping Set 1, Hopping
sequence 1).
BreezeACCESS Version 4.3 System Manual
BreezeACCESS Version 4.3 System Manual
F-8
Hopping Standards: Japan
Each hopping sequence is comprised of 23 channels in the frequency band
from 2473 MHz to 2495 MHz (channels 73 to 95).
Calculating the operational hopping sequence:
Step Size D is defined as D(H, S) = 6 + (S-1) x 3 + (H-1)
Where:
S=Hopping Set. Range: 1-3
H=hopping Sequence. Range: 1-4
D(H, S) = Step Size for Hopping Set H and Hopping Sequence S.
Channel calculation:
Pi(H, S) = [(i-1) x D (H, S)]modulu23 + 73
Pi(H, S) = Channel with index i in operational sequence with Hopping Set S and
Hopping sequence H.
I = index. Range: 1-23
Example: H=1, S=3
Step Size Calculation: D (1, 3) = 6 + (3-1) x 3 + (1-1) = 12
Hopping sequence channels calculation:
P1(1, 3) = [(1-1) x 12]mod23 + 73 = 0 mod23 + 73 = 0 + 73 = 73
P2(1, 3) = [(2-1) x 12]mod23 + 73 = 12 mod23 + 73 = 12 + 73 = 85
P3(1, 3) = [(3-1) x 12]mod23 + 73 = 24 mod23 + 73 = 1 + 73 = 74
P4(1, 3) = [(4-1) x 12]mod23 + 73 = 36 mod23 + 73 = 13 + 73 = 86
P5(1, 3) = [(5-1) x 12]mod23 + 73 = 48 mod23 + 73 = 2 + 73 = 75
P6(1, 3) = [(6-1) x 12]mod23 + 73 = 60 mod23 + 73 = 14 + 73 = 87
P7(1, 3) = [(7-1) x 12]mod23 + 73 = 72 mod23 + 73 = 3 + 73 = 76
P8(1, 3) = [(8-1) x 12]mod23 + 73 = 84 mod23 + 73 = 15 + 73 = 88
P9(1, 3) = [(9-1) x 12]mod23 + 73 = 96 mod23 + 73 = 4 + 73 = 77
P10(1, 3) = [(10-1) x 12]mod23 + 73 = 108 mod23 + 73 = 16 + 73 = 89
P11(1, 3) = [(11-1) x 12]mod23 + 73 = 120 mod23 + 73 = 5 + 73 = 78
P12(1, 3) = [(12-1) x 12]mod23 + 73 = 132 mod23 + 73 = 17 + 73 = 90
P13(1, 3) = [(13-1) x 12]mod23 + 73 = 144 mod23 + 73 = 6 + 73 = 79
P14(1, 3) = [(14-1) x 12]mod23 + 73 = 156 mod23 + 73 = 18 + 73 = 91
P15(1, 3) = [(15-1) x 12]mod23 + 73 = 168 mod23 + 73 = 7 + 73 = 80
P16(1, 3) = [(16-1) x 12]mod23 + 73 = 180 mod23 + 73 = 19 + 73 = 92
Manual Revision: 3.0
Appendix F
F-9
P17(1, 3) = [(17-1) x 12]mod23 + 73 = 192 mod23 + 73 = 8 + 73 = 81
P18(1, 3) = [(18-1) x 12]mod23 + 73 = 204 mod23 + 73 = 20 + 73 = 93
P19(1, 3) = [(19-1) x 12]mod23 + 73 = 216 mod23 + 73 = 9 + 73 = 82
P20(1, 3) = [(20-1) x 12]mod23 + 73 = 228 mod23 + 73 = 21 + 73 = 94
P21(1, 3) = [(21-1) x 12]mod23 + 73 = 240 mod23 + 73 = 10 + 73 = 83
P22(1, 3) = [(22-1) x 12]mod23 + 73 = 252 mod23 + 73 = 22 + 73 = 95
P23(1, 3) = [(23-1) x 12]mod23 + 73 = 264 mod23 + 73 = 11 + 73 = 84
Hopping sequence channels for Hopping Sequence 3 in Hopping Set 1:
73, 85, 74, 86, 75, 87, 76, 88, 77, 89, 78, 90, 79, 91, 80, 92, 81, 93, 82, 94, 83,
95, 84.
Actual Frequency: (2400+Channel)MHz
BreezeACCESS Version 4.3 System Manual
BreezeACCESS Version 4.3 System Manual
F-10
Hopping Standards: Korea
Each hopping sequence is comprised of 23 channels in the frequency band
from 2430 MHz to 2452 MHz (channels 30 to 52)
Calculating the operational hopping sequence:
Step Size D is defined as D(H, S) = 6 + (S-1) x 3 + (H-1)
Where:
S=Hopping Set. Range: 1-3
H=hopping Sequence. Range: 1-4
D(H, S) = Step Size for Hopping Set H and Hopping Sequence S.
Channel calculation:
Pi(H, S) = [(i-1) x D (H, S)]modulu23 + 30
Pi(H, S) = Channel with index i in operational sequence with Hopping Set S and
Hopping sequence H.
I = index. Range: 1-23
Example: H=1, S=3
Step Size Calculation: D (1, 3) = 6 + (3-1) x 3 + (1-1) = 12
Hopping sequence channels calculation:
P1(1, 3) = [(1-1) x 12]mod23 + 30 = 0 mod23 + 30 = 0 + 30 = 30
P2(1, 3) = [(2-1) x 12]mod23 + 30 = 12 mod23 + 30 = 12 + 30 = 42
P3(1, 3) = [(3-1) x 12]mod23 + 30 = 24 mod23 + 30 = 1 + 30 = 31
P4(1, 3) = [(4-1) x 12]mod23 + 30 = 36 mod23 + 30 = 13 + 30 = 43
P5(1, 3) = [(5-1) x 12]mod23 + 30 = 48 mod23 + 30 = 2 + 30 = 32
P6(1, 3) = [(6-1) x 12]mod23 + 30 = 60 mod23 + 30 = 14 + 30 = 44
P7(1, 3) = [(7-1) x 12]mod23 + 30 = 72 mod23 + 30 = 3 + 30 = 33
P8(1, 3) = [(8-1) x 12]mod23 + 30 = 84 mod23 + 30 = 15 + 30 = 45
P9(1, 3) = [(9-1) x 12]mod23 + 30 = 96 mod23 + 30 = 4 + 30 = 34
P10(1, 3) = [(10-1) x 12]mod23 + 30 = 108 mod23 + 30 = 16 + 30 = 46
P11(1, 3) = [(11-1) x 12]mod23 + 30 = 120 mod23 + 30 = 5 + 30 = 35
P12(1, 3) = [(12-1) x 12]mod23 + 30 = 132 mod23 + 30 = 17 + 30 = 47
P13(1, 3) = [(13-1) x 12]mod23 + 30 = 144 mod23 + 30 = 6 + 30 = 36
P14(1, 3) = [(14-1) x 12]mod23 + 30 = 156 mod23 + 30 = 18 + 30 = 48
P15(1, 3) = [(15-1) x 12]mod23 + 30 = 168 mod23 + 30 = 7 + 30 = 37
P16(1, 3) = [(16-1) x 12]mod23 + 30 = 180 mod23 + 30 = 19 + 30 = 49
Manual Revision: 3.0
Appendix F
F-11
P17(1, 3) = [(17-1) x 12]mod23 + 30 = 192 mod23 + 30 = 8 + 30 = 38
P18(1, 3) = [(18-1) x 12]mod23 + 30 = 204 mod23 + 30 = 20 + 30 = 50
P19(1, 3) = [(19-1) x 12]mod23 + 30 = 216 mod23 + 30 = 9 + 30 = 39
P20(1, 3) = [(20-1) x 12]mod23 + 30 = 228 mod23 + 30 = 21 + 30 = 51
P21(1, 3) = [(21-1) x 12]mod23 + 30 = 240 mod23 + 30 = 10 + 30 = 40
P22(1, 3) = [(22-1) x 12]mod23 + 30 = 252 mod23 + 30 = 22 + 30 = 52
P23(1, 3) = [(23-1) x 12]mod23 + 30 = 264 mod23 + 30 = 11 + 30 = 41
Hopping sequence channels for Hopping Sequence 3 in Hopping Set 1:
30, 42, 31, 43, 32, 44, 33, 45, 34, 46, 35, 47, 36, 48, 37, 49, 38, 50, 39, 51, 40,
52, 41.
Actual Frequency: (2400+Channel)MHz
BreezeACCESS Version 4.3 System Manual
BreezeACCESS Version 4.3 System Manual
F-12
Hopping Standards: Spain
Each hopping sequence is comprised of 27 channels in the frequency band
from 2447 MHz to 2473 MHz (channels 47 to 73).
Basic Hopping Sequence: Hopping Set=1, Hopping Sequence = 1
Index
Channel
Index
Channel
60
14
69
51
15
56
71
16
68
65
17
47
52
18
53
59
19
61
50
20
48
57
21
67
72
22
54
10
66
23
63
11
55
24
49
12
70
25
58
13
62
26
64
27
73
Actual Frequency: (2400+Channel)MHz
Calculating the operational hopping sequence:
IF [Pi(1, 1)+(S-1)x3+(H-1)]>73, than Pi(H, S) = Pi(1, 1)+(S-1)x3+(H-1)-27,
else Pi(H, S) = Pi(1, 1)+(S-1)x3+(H-1)
Where:
S=Hopping Set Number (1-3)
H=hopping Sequence Number (1-9)
i =Index
Pi(H, S) = Channel with index i in operational sequence with Hopping Set S and
Hopping sequence H.
Pi(1, 1) = Channel with index i in the basic sequence (Hopping Set 1, Hopping
sequence 1).
Manual Revision: 3.0
Index
1-1
Index
Access Link Parameter
Access to DHCP Parameter
Access to Network Management Parameter
Access Units
AU-A/E-NI
Accounting Interval
Accounting Option
Accounting Parameters Menu
Acknowledge Delay Limit Parameter
ACSE Number Of Retransmissions For Data Parameter
ACSE Number Of Retransmissions For Voice Parameter
ACSE Option
ACSE Option Parameter
ACSE Parameters Parameter
Add Forwarding VLAN ID Parameter
Add Relaying VLAN ID Parameter
Advanced Configuration Menu
Air Interface Parameters
Air Interface Parameters Menu
AL In and AL OUT Connectors
Alarm Parameters
Alarm Parameters Menu
Alarms In Names And Status Parameter
Alarms In Names Menu
Alarms Out Control Menu
Alarms Out Names Menu
Alarms Out Names, Definitions, Control and Status Parameter
Alternate Gatekeeper IP Address Parameter
Alternate Gatekeeper Option Parameter
Antenna
Connection
Antenna Diversity
Antenna Polarization
Antenna Recovery
Antenna Seal
ARP Broadcast Override Filter Parameter
Association Tests
AU Alarms
AU Alarms Option Parameter
AU MAC Address Parameter
..Book 4, 2-59
..Book 4, 2-37
..Book 4, 2-53
. Book 1, 2-10
..Book 4, 2-80
..Book 4, 2-79
..Book 4, 2-79
..Book 4, 2-48
..Book 4, 2-51
..Book 4, 2-51
..Book 4, 2-97
..Book 4, 2-51
..Book 4, 2-50
..Book 4, 2-62
..Book 4, 2-62
..Book 4, 2-36
..Book 4, E-4
..Book 4, 2-37
..Book 3, 3-2
..Book 4, E-19
..Book 4, 2-99
..Book 4, 2-101
..Book 4, 2-100
..Book 4, 2-101
..Book 4, 2-100
..Book 4, 2-101
..Book 4, 2-85
..Book 4, 2-85
. Book 2, 1-12
..Book 2, 2-4,
Book 2, 3-4
..Book 2, 2-4,
Book 2, 3-5
..Book 4, 2-97,
Book 4, 2-98
..Book 2, 2-4,
Book 2, 3-5
..Book 4, 2-66
..Book 4, 2-35
..Book 4, 2-24
..Book 4, 2-33
..Book 4, 2-4
BreezeACCESS Version 4.3 System Manual
1-2
AU Rx Power Decrease Threshold Parameter
AU Transmission Rate Control (SU only)
AU-A/E-BS
Packing List
AU-A/E-NI
Packing List
AU-I/I-D
Installation
Packing List
AU-NI
Installation
Authentication Algorithm Parameter
Authentication Option
Authentication Parameters Menu
Automatic Alarms Out Definition Menu
Automatic Prefix Parameter
Automatic Recovery Interval
Automatic Recovery Option
Bad fragments received Parameter
Base Station Equipment
Basic Configuration Menu
Battery Polarity Parameter
Best AU Parameters in SU Parameter
Best AU Selection Parameters
Best AU Support Parameter
BreezeACCESS
Introduction
BreezeCONFIG
BreezeMANAGE
Bridge Aging Time Parameter
Bridge Parameters
Bridge Parameters Menu
Broadcast Relaying Parameter
BS-AU
Installation
BS-PS
Installation
Packing List
BS-PS-AC
Installation
Packing List
BS-SH
Installation
Packing List
BS-SH-AC
Manual Revision: 3.0
BreezeACCESS Version 4.3 Index
...Book 4, 2-34
...Book 4, 2-48
..Book 2, 1-2
...Book 1, 2-10
..Book 2, 1-3
..Book 2, 3-7
..Book 2, 3-2
..Book 2, 1-13
...Book 4, 2-81
...Book 4, 2-79
...Book 4, 2-79
...Book 4, 2-100
...Book 4, 2-86
...Book 4, 2-99
...Book 4, 2-98
...Book 4, 2-18
...Book 1, 2-6
...Book 4, 2-13
...Book 4, 2-89
...Book 4, 2-41
...Book 4, 2-41
...Book 4, 2-41
..Book 1, 1-2
...Book 1, 2-14
...Book 1, 2-13
...Book 4, 2-67
...Book 4, 2-56,
Book 4, E-9
...Book 4, 2-56
...Book 4, 2-67
..Book 2, 1-18
..Book 2, 1-16
..Book 2, 1-3
..Book 2, 1-17
..Book 2, 1-3
..Book 2, 1-15
..Book 2, 1-2
Index
1-3
Packing List
Busy Tone Parameter
. Book 2, 1-2
..Book 4, 2-91
Cadence Off
Cadence Off Parameter
Cadence On
Cadence On Parameter
Call Aging Time Parameter
Called Party Release Timeout Parameter
Carrier Sense Level Parameter
Carrier to Interference Difference Level
Change Password Parameter
Change Unit Name Parameter
CIR - AU to SU Parameter
CIR - SU to AU Parameter
Commissioning
AL IN and AL OUT Connectors
Aligning External SU-I-D Antenna
Aligning External SU-R Antennas
Aligning SU-A/E Antenna
GU-A-BS
Maximum Data Rate
Positioning SU-I Antennas
Positioning SU-R Antennas
Compression Efficiency Parameter
Configuring
Basic Parameters
GU-A-BS units
RSSI and Maximum Data Rate
Congestion Tone Parameter
Connecting the unit to the power supply
..Book 4, 2-93
..Book 4, 2-92
..Book 4, 2-92
..Book 4, 2-92
..Book 4, 2-49
..Book 4, 2-93
..Book 4, 2-70
..Book 4, 2-73
..Book 4, 2-10
..Book 4, 2-9
..Book 4, 2-76
..Book 4, 2-76
. Book 3, 3-2
. Book 3, 2-6
. Book 3, 2-6
. Book 3, 2-3
. Book 3, 1-6
. Book 3, 2-2
. Book 3, 2-5
. Book 3, 2-5
..Book 4, 2-83
. Book 3, 1-5
. Book 3, 1-6
. Book 3, 2-2
..Book 4, 2-91
..Book 2, 2-6,
Book 2, 3-11
Connectors
AL IN and AL OUT
Console Speed Parameter
. Book 3, 3-2
..Book 4, 2-4,
Book 4, 2-10
..Book 4, 2-20
Continuous Link Quality Display
Counters
Ethernet
Per-Rate
Wireless Link
CRC Error Rate Parameters
Current Number of Associations Parameter
. Book 4, 2-15
. Book 4, 2-23
. Book 4, 2-16
..Book 4, 2-33
..Book 4, 2-4
Default Gateway Address Parameter
Default Key ID Parameter
..Book 4, 2-36
..Book 4, 2-82
BreezeACCESS Version 4.3 System Manual
1-4
Defaults Settings Parameter
Delete a Network Management IP Address Parameter
Delete a User Filtering Entry Parameter
Delete All Network Management IP Addresses Parameter
Delete All User Filtering Entries Parameter
Destination IP Address Parameter
DHCP Broadcast Override Filter Parameter
DHCP Client Parameter
DHCP Options Parameter
Dial Tone Parameter
Dialing Parameters
Dialing Parameters Menu
Dialing Prefix Option Parameter
Dialing Prefix Parameter
Disconnect Timeout Parameter
Display Association Info Parameter
Display Bridging & Association Info
Display Bridging & Association Info Parameter
Display CIR/MIR Info Parameter
Display Counters Parameter
Display Event Log Parameter
Dropped Frames Rate Parameters
DTMF Relay Parameter
Duplicate frames discarded Parameter
Duplicate Frames Rate Parameters
Duration
Duration Parameter
Dwell Time Parameter
BreezeACCESS Version 4.3 Index
...Book 4, 2-6
...Book 4, 2-54
...Book 4, 2-74
...Book 4, 2-54
...Book 4, 2-74
...Book 4, 2-19
...Book 4, 2-66
...Book 4, 2-37
...Book 4, 2-37
...Book 4, 2-91
...Book 4, E-15
...Book 4, 2-84
...Book 4, 2-87
...Book 4, 2-87
...Book 4, 2-93
...Book 4, 2-21
...Book 4, 2-20
...Book 4, 2-20
...Book 4, 2-22
...Book 4, 2-18
...Book 4, 2-11
...Book 4, 2-33
...Book 4, 2-88
...Book 4, 2-18
...Book 4, 2-33
...Book 4, 2-93
...Book 4, 2-92
...Book 4, 2-72,
Book 4, 2-97
Echo Cancellation Parameter
Endpoint Type Parameter
Erase Event Log Parameter
Error Tone Parameter
ESSID Parameter
ESSID Parameters
Ethernet Broadcast Filtering
Ethernet Counters
Ethernet Port Control
Event Log Menu Parameter
Event Log Policy Parameter
...Book 4, 2-83
...Book 4, 2-88
...Book 4, 2-11
...Book 4, 2-92
...Book 4, 2-40
...Book 4, 2-40
...Book 4, 2-65
...Book 4, 2-15
...Book 4, 2-68
...Book 4, 2-10
...Book 4, 2-11
Fast Start Parameter
Fax Relay Option Parameter
Fax Relay Parameter
Fax Relay Redundancy Parameter
...Book 4, 2-86
...Book 4, 2-89
...Book 4, 2-89
...Book 4, 2-89
Manual Revision: 3.0
Index
1-5
Filter Options Parameter
Flash Memory Control Parameter
Flash Type Parameter
Flash Versions Parameter
Frames dropped (too many retries) Parameter
Frequency 1 Parameter
Frequency 2 Parameter
G711A-law Frames Per Packet Parameter
G711u-law Frames Per Packet Parameter
G723 Frames Per Packet Parameter
G729 Frames Per Packet Parameter
Gatekeeper Option Parameter
GateKeeper/GateWay IP Address Parameter
General RADIUS Parameters Menu
GPS and Alarms System
Installation
GPS and Alarms system
Graceful Degradation Limit Parameter
GU-A-BS
Configuring
Installation
Packing List
GU-BS
AL IN and AL OUT Connectors
H323 Terminal ID Parameter
High Level Error Tone Parameter
Hopping Parameters
Hopping Parameters Menu
Hopping Sequence
Hopping Sequences
Hopping Set
Hopping Standard
Australia
Canada, Mexico
Europe ETSI, US FCC, International
France
Israel
Japan
Korea
Spain
Hopping Sync
Hybrid Link Parameter
..Book 4, 2-66
..Book 4, 2-10
..Book 4, 2-3
..Book 4, 2-3
..Book 4, 2-16
..Book 4, 2-92
..Book 4, 2-92
..Book 4, 2-84
..Book 4, 2-84
..Book 4, 2-84
..Book 4, 2-84
..Book 4, 2-84
..Book 4, 2-85
..Book 4, 2-78
. Book 2, 1-21
..Book 1, 2-8
..Book 4, 2-76
..Book 1, 2-8
. Book 3, 1-6
. Book 2, 1-21
. Book 2, 1-3
. Book 3, 3-2
..Book 4, 2-85
..Book 4, 2-92
..Book 4, E-19
..Book 4, 2-97
..Book 4, 2-37
..Book 4, F-1
..Book 4, 2-38
. Book 4, F-1
. Book 4, F-3
. Book 4, F-4
. Book 4, F-6
. Book 4, F-7
. Book 4, F-8
. Book 4, F-10
. Book 4, F-12
..Book 4, 2-39
..Book 4, 2-61
BreezeACCESS Version 4.3 System Manual
1-6
Info Screens Menu
Information Transfer Capability Parameter
Installation
AU-I/I-D
Connecting the Antenna Cable
GU-A-BS GPS and Alarms System
Indoor Units
Modular Base Station Equipment
Outdoor Units
Pole Mounting Outdoor Units
SU-I/I-D
SU-NI and AU-NI
SU-R
SU-R Guidelines
Installation Guidelines
SU-I/I-D
Inter-Digit Timeout Parameter
Interference Avoidance Parameters
Internally discarded MIR/CIR Parameter
International Prefix Parameter
Inter-Regional Prefix Parameter
Introducing BreezeACCESS
IP Address Parameter
IP Dialing Indicator Parameter
IP Dialing Option Parameter
IP Parameters
IP Parameters Menu
LAN to Wireless Link Bridging Mode Parameter
Learning Period Parameter
Level 1 Parameter
Level 2 Parameter
Lightning Protection
Locating Units
AU-RA
AU-RE
IF Cable
Indoor Equipment
SU-RA
SU-RE
Log Out Timer Parameter
MAC Address Black List
Manual Revision: 3.0
BreezeACCESS Version 4.3 Index
...Book 4, 2-3
...Book 4, 2-86
..Book 2, 3-7
..Book 2, 1-12
..Book 2, 1-21
..Book 2, 1-13
..Book 2, 1-15
..Book 2, 1-7
..Book 2, 1-9
..Book 2, 3-7
..Book 2, 1-13
..Book 2, 2-5
..Book 2, 2-3
..Book 2, 3-4
...Book 4, 2-93
...Book 4, 2-72
...Book 4, 2-18
...Book 4, 2-87
...Book 4, 2-87
...Book 1, 1-2
...Book 4, 2-36
...Book 4, 2-85
...Book 4, 2-85
...Book 4, E-3
...Book 4, 2-36
...Book 4, 2-67
...Book 4, 2-33
...Book 4, 2-92
...Book 4, 2-92
...Book 2, 2-4,
Book 2, 3-5
..Book 2, 1-5
..Book 2, 1-5
..Book 2, 1-6
..Book 2, 1-6
..Book 2, 1-5
..Book 2, 1-5
...Book 4, 2-10
...Book 4, 2-7,
Book 4, 2-52
Index
1-7
MAC Address Database
Main Menu
Management Systems
BreezeCONFIG
BreezeMANAGE
Max. Flash Detect Timeout Parameter
Maximum ACSE Voice Sessions Parameter
Maximum Burst Duration Parameter
Maximum Data Rate
Configuring
Maximum Data Rate Parameter
Maximum Delay Parameter
Maximum Multicast Rate Parameter
Maximum Number of Associations Parameter
Maximum RSSI Level
Maximum Voice Sessions Parameter
Menus
Advanced Configuration
Air Interface Parameters
Alarm Parameters
Alarms In Names
Alarms Out Control
Alarms Out Names
Automatic Alarms Out Definition
Basic Configuration
Bridge Parameters
Dialing Parameters
Ethernet Broadcast Filtering
Hopping Parameters
Info Screens
IP Parameters
Main
Network Management Parameters
Performance Parameters
Security Parameters
Service Parameters
Show Advanced Parameters
Show Alarm Parameters
Show All Parameters
Show Basic Parameters
Show Unit Status
Site Survey
Telephony Signals
Unit Control
Voice Parameters
Micro-Cell Access Unit
Min. Flash Detect Timeout Parameter
Minimum Average Number Of SUs Parameter
..Book 4, 2-20
..Book 4, 2-2
..Book 1, 2-12
. Book 1, 2-14
. Book 1, 2-13
..Book 4, 2-93
..Book 4, 2-51
..Book 4, 2-76
. Book 3, 2-2
..Book 4, 2-47
..Book 4, 2-76
..Book 4, 2-70
..Book 4, 2-48
..Book 4, 2-46
..Book 4, 2-49
. Book 4, 2-36
. Book 4, 2-37
. Book 4, 2-99
. Book 4, 2-100
. Book 4, 2-101
. Book 4, 2-100
. Book 4, 2-100
. Book 4, 2-13
. Book 4, 2-56
. Book 4, 2-84
. Book 4, 2-65
. Book 4, 2-97
. Book 4, 2-3
. Book 4, 2-36
. Book 4, 2-2
. Book 4, 2-53
. Book 4, 2-69
. Book 4, 2-81
. Book 4, 2-73
. Book 4, 2-5
. Book 4, 2-101
. Book 4, 2-5
. Book 4, 2-5
. Book 4, 2-3
. Book 4, 2-15
. Book 4, 2-91
. Book 4, 2-6
. Book 4, 2-83
..Book 1, 2-10
..Book 4, 2-93
..Book 4, 2-35
BreezeACCESS Version 4.3 System Manual
1-8
Minimum Contention Window Parameter
Minimum Number Of SUs
Minimum RSSI Level
MIR - AU to SU Parameter
MIR - SU to AU Parameter
MIR and CIR Parameters
MIR/CIR Option Parameter
Multi-Rate Decision Window Size Parameter
Multi-Rate Support Parameter
BreezeACCESS Version 4.3 Index
...Book 4, 2-70
...Book 4, 2-27
...Book 4, 2-46
...Book 4, 2-75
...Book 4, 2-75
...Book 4, 2-74,
Book 4, 2-89,
Book 4, 2-90
...Book 4, 2-75
...Book 4, 2-71
...Book 4, 2-71
Network Management Filtering Parameter
Network Management Parameters
...Book 4, 2-53
...Book 4, 2-53,
Book 4, E-7
Network Management Parameters Menu
...Book 4, 2-53
Networking Equipment
...Book 1, 2-12
No. of Pings Parameter
...Book 4, 2-19
Noise Floor
...Book 4, 2-73
Number of Associations Since Last Reset Parameter
...Book 4, 2-4
Number of Dwells to Retransmit Parameter
...Book 4, 2-69
Number of Failures in Multi-Rate Decision Window Parameter ..Book 4, 2-71
Number of Hopping Frequencies Parameter
...Book 4, 2-97
Number of Retransmissions Parameter
...Book 4, 2-69
Number of Retransmissions to Decrease Rate Parameter
...Book 4, 2-69
Number of Scanning Attempts Parameter
...Book 4, 2-41
Operator ESSID Parameter
Outdoor Units
Bottom Panel
Installation
Pole Mounting
Overlap Sending
..Book 2, 1-7
..Book 2, 1-7
..Book 2, 1-9
...Book 4, 2-90
Packing Lists
AU-A/E-BS
AU-A/E-NI
AU-I/I-D
BS-PS
BS-PS-AC
BS-SH
BS-SH-AC
GU-A-BS
SU-A/E
SU-I/I-D
..Book 2, 1-2
..Book 2, 1-3
..Book 2, 3-2
..Book 2, 1-3
..Book 2, 1-3
..Book 2, 1-2
..Book 2, 1-2
..Book 2, 1-3
..Book 2, 1-2
..Book 2, 3-2
Manual Revision: 3.0
...Book 4, 2-40
Index
1-9
SU-R
Per Hop Statistics
Per Trap Control
Performance Parameters
Performance Parameters Menu
Per-Rate Counters
Physical Specifications
Ping Frame Length Parameter
Ping Frame Timeout Parameter
Ping Test
Ports Control Parameter
Power Level Parameter
PPPoE Broadcast Override Filter Parameter
Precautions
Preferred AU MAC Address Parameter
Pulse Dialing Parameter
. Book 2, 2-2
..Book 4, 2-18
..Book 4, 2-55
..Book 4, 2-69
..Book 4, 2-69
..Book 4, 2-23
..Book 1, 3-7
..Book 4, 2-19
..Book 4, 2-19
..Book 4, 2-19
..Book 4, 2-68
..Book 4, 2-45
..Book 4, 2-66
..Book 2, 3-6
..Book 4, 2-42
..Book 4, 2-84
RADIUS Parameters
RADIUS Parameters Menu
RADIUS Record Structure
RADIUS Server Accounting IP Address
Radius Server Accounting Port
RADIUS Server Authentication IP Address
Radius Server Authentication Port
Rate Parameter
Receive Attenuation Control Parameter
Registration TTL Parameter
Remove Forwarding VLAN ID Parameter
Remove Relaying VLAN ID Parameter
Reset Counters Parameter
Reset Unit Parameter
Retransmissions Rate Parameters
Ring Frequency Parameter
Ring-Back Tone Parameter
Ringer Frequency Parameter
RSSI Display Option
RSSI Memory Factor
RTS Threshold Parameter
..Book 4, E-13
..Book 4, 2-77
..Book 4, 2-80
..Book 4, 2-80
..Book 4, 2-80
..Book 4, 2-79
..Book 4, 2-79
..Book 4, 2-70
..Book 4, 2-50
..Book 4, 2-88
..Book 4, 2-62
..Book 4, 2-62
..Book 4, 2-18
..Book 4, 2-6
..Book 4, 2-33
..Book 4, 2-92
..Book 4, 2-91
..Book 4, 2-92
..Book 4, 2-23
..Book 4, 2-46
..Book 4, 2-69
Save Current Configuration As Operator Defaults Parameter
Security Parameters
Security Parameters Menu
Send AU Aging Trap
Send AU Alarms Trap
Send AU Loss Of Sync Trap
..Book 4, 2-9
..Book 4, 2-81,
Book 4, E-13
..Book 4, 2-81
..Book 4, 2-55
..Book 4, 2-56
..Book 4, 2-55
BreezeACCESS Version 4.3 System Manual
1-10
Send AU Wireless Quality Trap
Send GPS Alarm In Trap
Send GPS Alarm Out Trap
Send Monitor Status Trap
Send Parameter Changed Trap
Send Power Up From Reset Trap
Send Roaming SNAP
Send SNMP Traps Parameter
Send SU Associated AU Trap
Send SU Associated Trap
Send UTC Status Trap
Service Parameters
Service Parameters Menu
Set Factory Defaults Parameter
Set Full Operator Defaults Parameter
Set Network Management IP Addresses Parameter
Set Partial Factory Defaults Parameter
Set Partial Operator Defaults Parameter
Set User Filter Address Parameter
Set User Filter Mask Parameter
Set User Filter Range Parameter
Shared Secret
Show Advanced Parameters Menu
Show Alarm Parameters Menu
Show All Parameters Menu
Show All User Filtering Parameters Parameter
Show Basic Parameters Menu
Show IP Parameters Parameter
Show Ping Test Values Parameter
Show Unit Status Menu
Site Survey Menu
Site Survey Parameters
SNMP Traps Community Parameter
SNMP Traps IP Destination
SNMP Traps IP Destination Parameter
SNMP Traps Parameter
Specifications
AU-A/E-NI
AU-I/I-D
Configuration and Managemen
Data Communication
Environmental
GU-RA GPS Radio
GU-RA to BS-GU Communication
IF Indoor Outdoor Communication
Modular Base Station Equipmen
Physical
Manual Revision: 3.0
BreezeACCESS Version 4.3 Index
...Book 4, 2-55
...Book 4, 2-55
...Book 4, 2-55
...Book 4, 2-55
...Book 4, 2-55
...Book 4, 2-55
...Book 4, 2-53
...Book 4, 2-55
...Book 4, 2-55
...Book 4, 2-55
...Book 4, 2-55
...Book 4, 2-73
...Book 4, 2-73
...Book 4, 2-6
...Book 4, 2-9
...Book 4, 2-54
...Book 4, 2-6
...Book 4, 2-9
...Book 4, 2-74
...Book 4, 2-74
...Book 4, 2-74
...Book 4, 2-78
...Book 4, 2-5
...Book 4, 2-101
...Book 4, 2-5
...Book 4, 2-74
...Book 4, 2-5
...Book 4, 2-37
...Book 4, 2-20
...Book 4, 2-3
...Book 4, 2-15,
Book 1, D-2
...Book 4, E-2
...Book 4, 2-56
...Book 4, 2-55
...Book 4, 2-56
...Book 4, 2-55
..Book 1, 3-8
..Book 1, 3-12
..Book 1, 3-5
..Book 1, 3-3
..Book 1, 3-6
..Book 1, 3-5
..Book 1, 3-5
..Book 1, 3-4
..Book 1, 3-9
..Book 1, 3-7
Index
1-11
Radio and Modem
Standards Compliance, General
SU-A/E
SU-I/I-D
SU-R
Telephony
Voice/Fax
Start Sending Parameter
Statistics
Per Hop
Traffic
Voice
Stop Sending Parameter
SU Rx Power Decrease Threshold Parameter
SU-A/E
Aligning Antenna
Packing List
Subnet Mask Parameter
Subscriber Units
SU-A/E
SU-R
SU-I
Positioning Antennas
SU-I/I-D
Installation
Installation Guidelines
Packing List
SU-I-D
Aligning External Antennas
SU-NI
Installation
Support All (AU only)
SU-R
Aligning External Antenna
Installation
Installation Guidelines
Packing List
Positioning Antennas
SUs
System Specifications
Telephone Number Parameter
Telephony Country Standard Parameter
Telephony Signals
Telephony Signals Menu
Test
. Book 1, 3-2
. Book 1, 3-6
. Book 1, 3-7
. Book 1, 3-11
. Book 1, 3-13
. Book 1, 3-4
. Book 1, 3-4
..Book 4, 2-20
. Book 4, 2-18
. Book 4, 2-15
. Book 4, 2-18
..Book 4, 2-20
..Book 4, 2-34
..Book 1, 2-2
. Book 3, 2-3
. Book 2, 1-2
..Book 4, 2-36
..Book 1, 2-2
. Book 1, 2-2
. Book 1, 2-6
. Book 3, 2-5
. Book 2, 3-7
. Book 2, 3-4
. Book 2, 3-2
. Book 3, 2-6
. Book 2, 1-13
. Book 4, 2-82
..Book 1, 2-6
. Book 3, 2-6
. Book 2, 2-5
. Book 2, 2-3
. Book 2, 2-2
. Book 3, 2-5
..Book 1, 2-2
..Book 1, 3-2
..Book 4, 2-85
..Book 4, 2-91
..Book 4, E-17
..Book 4, 2-91
BreezeACCESS Version 4.3 System Manual
1-12
Ping
Test Cycle Parameter
Timeouts Parameter
ToS Precedence Threshold Parameter
ToS Priority Parameter
ToS Priority Parameters
Total received data frames Parameter
Total received frames from wireless Parameter
Total received frames via Ethernet Parameter
Total retransmitted frames Parameter
Total submitted frames (bridge) Parameter
Total transmitted frames to wireless Parameter
Total Tx errors Parameter
Traffic Statistics
Transmit Antenna Parameter
Transmit Power Control Algorithm
Transmit Power Control Parameter
Transmitted wireless to Ethernet Parameter
Trap
Send AU Aging
Send AU Loss Of Sync
Send AU Wireless Quality
Send GPS Alarm In
Send GPS Alarm Out
Send Monitor Status
Send Parameter Changed
Send SU Associated
Send SU Disassociated AU
Traps
Send AU Alarms
Trunk Link Parameter
Unicast Relaying Parameter
Unit Control Menu
Unit Control Parameters
Unit Hardware Version Parameter
Unit MAC Address Parameter
Unit Status - GU Parameter
Unit Status - SU Parameter
Unit Type Parameter
Units
Base Station Equipment
Subscriber
User Filtering Option Parameter
User Filtering Parameters
Manual Revision: 3.0
BreezeACCESS Version 4.3 Index
..Book 4, 2-19
...Book 4, 2-33
...Book 4, 2-93
...Book 4, 2-65
...Book 4, 2-65
...Book 4, 2-65
...Book 4, 2-17
...Book 4, 2-17
...Book 4, 2-15
...Book 4, 2-17
...Book 4, 2-16
...Book 4, 2-16
...Book 4, 2-17
...Book 4, 2-15,
Book 4, 2-33
...Book 4, 2-50
...Book 4, 2-45,
Book 4, 2-47
...Book 4, 2-44
...Book 4, 2-15
..Book 4, 2-55
..Book 4, 2-55
..Book 4, 2-55
..Book 4, 2-55
..Book 4, 2-55
..Book 4, 2-55
..Book 4, 2-55
..Book 4, 2-55
..Book 4, 2-55
..Book 4, 2-56
...Book 4, 2-60
...Book 4, 2-67
...Book 4, 2-6
...Book 4, E-1
...Book 4, 2-3
...Book 4, 2-3
...Book 4, 2-5
...Book 4, 2-4
...Book 4, 2-3
..Book 1, 2-6
..Book 1, 2-2
...Book 4, 2-73
...Book 4, 2-73
Index
1-13
User Name
User Password
..Book 4, 2-78
..Book 4, 2-78
VLAN
VLAN Forwarding Parameter
VLAN Forwarding Support Parameter
VLAN ID-Data Parameter
VLAN ID-Management Parameter
VLAN ID-Voice & Management Parameter
VLAN Link Type Parameter
VLAN Parameters
VLAN Priority - Data Parameter
VLAN Priority - Management Parameter
VLAN Priority - Voice Parameter
VLAN Priority Threshold Parameter
VLAN Relaying Parameter
VLAN Relaying Support Parameter
VLAN Support Parameter
VLAN Traffic Priority Parameter
Voice Activity Detection Parameter
Voice Bytes Received Parameter
Voice Bytes Transmitted Parameter
Voice Codec Parameter
Voice Frames Received Parameter
Voice Frames Transmitted Parameter
Voice Hardware Version Parameter
Voice Packets ToS Parameter
Voice Parameters
Voice Parameters Menu
Voice Port Control
Voice Priority Tag Option Parameter
Voice Statistics
Volume Parameter
..Book 4, 2-56
..Book 4, 2-61
..Book 4, 2-62
..Book 4, 2-57
..Book 4, 2-57
..Book 4, 2-58
..Book 4, 2-59
..Book 4, 2-56
..Book 4, 2-63
..Book 4, 2-64
..Book 4, 2-64
..Book 4, 2-64
..Book 4, 2-62
..Book 4, 2-62
..Book 4, 2-56
..Book 4, 2-63
..Book 4, 2-84
..Book 4, 2-18
..Book 4, 2-18
..Book 4, 2-83
..Book 4, 2-18
..Book 4, 2-18
..Book 4, 2-4
..Book 4, 2-65
..Book 4, E-14
..Book 4, 2-83
..Book 4, 2-68
..Book 4, 2-61
..Book 4, 2-18
..Book 4, 2-83
WEP KEY # Parameter
Wireless Link Counters
WLAN Aging Time Parameter
..Book 4, 2-82
..Book 4, 2-16
..Book 4, 2-49
BreezeACCESS Version 4.3 System Manual
1-14
Manual Revision: 3.0
BreezeACCESS Version 4.3 Index

---

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User Access                     : Print, Copy, Fill forms, Extract, Assemble, Print high-res
Modify Date                     : 2003:06:01 20:44:46+03:00
Create Date                     : 2003:06:01 19:18:32Z
Keywords                        : BreezeACCESS 4.3, Version 4.3
Page Count                      : 346
Creation Date                   : 2003:06:01 19:18:32Z
Mod Date                        : 2003:06:01 20:44:46+03:00
Producer                        : Acrobat Distiller 5.0.5 (Windows)
Author                          : Alvarion
Metadata Date                   : 2003:06:01 20:44:46+03:00
Creator                         : Alvarion
Title                           : BreezeACCESS  Version 4.3 System Manual Revision 3.0
Page Mode                       : UseOutlines

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