215868_BreezeMAX_3000_Rel2.0_Product_Manual_Subscriber_110620.pdf

BreezeMAX® Si 3000 and BreezeMAX PRO 3000

User ManualRelease: 2.0June 2011P/N 215868

Document History

Document History

Changed Item Description Date

This is the document’s first publication. June 2009

BreezeMAX PRO 3000 CPEs - “Overview” on page 2

Added models with 3.6-3.8 GHz January 2010

General Changed 3.3-3.6 to 3.4-3.6 January 2010

“BreezeMAX PRO 3000 CPE Specifications” on page 6

Removed 3.5 MHz Bandwidth January 2010

“Regulatory Specifications” on page 8

3.65-3.675 - Added FCC p90 January 2010

“Authentication” on page 42 Added encryption information to the Phase 1 description.

January 2010

General Added outdoor CPE Models: 2.3-2.4; 3.3-3.6; 3.4-3.7 3.6-3.8 GHz

Release 2.0 November 2010

“Radio Frequency Interference Statement” on page vi

Added Canada rules information

Distance from the Si unit - 50 cm


Safety information Added “Outdoor Units Environmental Evaluation and Exposure Limit” on page viii


“Scanner” on page 39 Window and functions changed Release 2.0 November 2010

“Authentication” on page 42 Elaborated on authentication details. Release 2.0 November 2010

“DHCP Server” on page 45 New Release 2.0 November 2010

“Miscellaneous Settings” on page 55

New Release 2.0 November 2010

BreezeMAX Si 3000 and BreezeMAX PRO 3000 Product Manual ii

Document History

General Restructured manual to include separate chapters.

Added “About This Manual” on page x

Added “What’s New in This Release” on page xi

Added a list of Basic Parameters (Table 3-2).

Release 2.0 March 2011

PRO CPE “Regulatory Specifications” on page 8

Si CPE “Regulatory Specifications” on page 10

Changed to paragraphs

Personalization > “Date” on page 36

NTP Server:

Parameters are read-only

“Scanner” on page 39 Updated - Some of the elements in the page have changed. The parameters are read-only for the subscriber.


BreezeMAX Si 3000 and BreezeMAX PRO 3000 Product Manual iii

Document History

“Authentication” on page 42 Added option “Provisioning enable” for both TLS and TTLS, default is disable

Table 4-7 (“Authentication Parameters” on page 42) - restructured

Identity - no default in this field

Release 2.0 March 2011

MaxTxP New tab

“Configuring Networking Parameters” on page 44

Removed DDNS tab and page

Replaced all screenshots to reflect DDNS removal

Bridge/NAT mode tab is now accessible to Operators only

“DHCP Server” on page 45 Updated - Some of the elements in the page have changed

Table 4-13 Service line parameters

Added information and explanations to some of the parameters.

“Firewall” on page 44, “Port Forwarding” on page 47 and “Port Trigger” on page 48

All parameters are read-only.

“TR-069” on page 54 TR-069 Certificate File Upload- is displayed for the subscriber

“Log” Removed

“Glossary” on page 57 Extended

“Viewing Status Details” on page 32

Added details to status parameters

Table 4-14 Moved the note regarding Option 43 to ACS Server URL


BreezeMAX Si 3000 and BreezeMAX PRO 3000 Product Manual iv

Legal Rights

Legal Rights

© Copyright 2011 Alvarion Ltd. All rights reserved.

The material contained herein is proprietary, privileged, and confidential and owned by Alvarion or its third party licensors. No disclosure thereof shall be made to third parties without the express written permission of Alvarion Ltd.

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.

Trade Names

Alvarion®, BreezeCOM®, WALKair®, WALKnet®, BreezeNET®, BreezeACCESS®, BreezeLINK®,

BreezeMAX®, BreezeLITE®, 4Motion®, and/or other products and/or services referenced here in are either registered trademarks, trademarks or service marks of Alvarion Ltd.

All other names are or may be the trademarks of their respective owners.

“WiMAX Forum” is a registered trademark of the WiMAX Forum. “WiMAX”, the WiMAX Forum logo, “WiMAX Forum Certified”, and the WiMAX Forum Certified logo are trademarks of the WiMAX Forum.

Statement of Conditions

The information contained in this manual is subject to change without notice. Alvarion Ltd. 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 and 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

(a) 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 R&R procedure.

(b) With respect to the Firmware, Alvarion warrants the correct functionality according to the attached documentation, for a period of fourteen (14) month from invoice date (the “Warranty Period”). During the Warranty Period, Alvarion may release to its Customers firmware updates, which include additional performance improvements and/or bug fixes, upon availability (the “Warranty”). Bug fixes, temporary patches and/or workarounds may be supplied as Firmware updates.

Additional hardware, if required, to install or use Firmware updates must be purchased by the Customer. Alvarion will be obligated to support solely the two (2) most recent Software major releases.

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.

BreezeMAX Si 3000 and BreezeMAX PRO 3000 Product Manual v

Legal Rights

Disclaimer

(a) THE SOFTWARE IS SOLD ON AN “AS IS” BASIS. ALVARION, ITS AFFILIATES OR ITS LICENSORS MAKE NO WARRANTIES, WHATSOEVER, WHETHER EXPRESS OR IMPLIED, WITH RESPECT TO THE SOFTWARE AND THE ACCOMPANYING DOCUMENTATION. ALVARION SPECIFICALLY DISCLAIMS ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT WITH RESPECT TO THE SOFTWARE. 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.

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).

Radio Frequency Interference Statement

The equipment has been tested and found to comply with the limits for a class B digital device, pursuant to ETSI EN 301 489-1 rules and Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a residential environment notwithstanding use in commercial, business and industrial environments. 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.

This device also complies with RSS-197 and RSS-192 of the Industry Canada Rules (for 3.x GHz bandwidth). Operation is subject to the following two conditions: (1) This device may not cause harmful

BreezeMAX Si 3000 and BreezeMAX PRO 3000 Product Manual vi

Legal Rights

interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.

Industry Canada

Users can obtain Canadian information on RF exposure and compliance from the

Canadian Representative:

David MacDonald

[email protected]

Radiation Hazard Warning

Indoor CPE - To comply with FCC RF exposure requirements in Section 1.1307and 2.1091 of FCC Rules, the antenna used for this transmitter must be kept at a separation distance of at least 20 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter.

Outdoor CPE - To comply with FCC RF exposure requirements in Section 1.1307 and 2.1091 of FCC Rules and Canada radiation exposure limits, the antenna used for this transmitter must be fixed-mounted on outdoor permanent structures with a separation distance of at least 50 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter.

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 - General

For the following safety considerations, “Instrument” means the BreezeMAX units' components and their cables.

Caution

To avoid electrical shock, do not perform any servicing unless you are qualified to do so.

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.

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 Units and Antennas Installation and Grounding

Ensure that outdoor units, antennas and supporting structures are properly installed to eliminate any physical hazard to either people or property. 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. Even where grounding is not mandatory according to applicable regulation and national codes, it is highly recommended to ensure that the outdoor unit and the antenna mast (when using external antenna) are grounded and suitable lightning protection devices are used so as to provide protection against voltage surges and static charges. In any event, Alvarion is not liable for any injury, damage or regulation violations associated with or caused by installation, grounding or lightning protection.

BreezeMAX Si 3000 and BreezeMAX PRO 3000 Product Manual vii

Legal Rights

Outdoor Units Environmental Evaluation and Exposure Limit

According to FCC part 1, 1.1307, 1.1310:

The limit for power density for general population/uncontrolled exposure is 1(mW/cm2) or 10 (W/m2).

The power density calculation is S = (Pt*DC /4π r2)

Where:

» Pt - The average transmitted power (EIRP) (mW)

» r - The distance from the unit. (cm)

» DC -maximum transmitter duty-cycle

The limit 1(mW/cm2) can be calculated from the above based on the following data:

» Pt- the transmitted power which is equal to the output power 27dBm plus internal antenna gain

15 dBi and 30% Duty-cycle.

» The maximum average EIRP = 36.8 dBm = 4755 mW

» Maximum allowed distance “r”, where RF exposure limit may not be exceeded, = SQRT(4755/4π).

This distance is at least 19.45 cm from the antenna (for the installer). For the public this distance

is 50 cm.

Disposal of Electronic and Electrical Waste

Disposal of Electronic and Electrical Waste

Pursuant to the WEEE EU Directive electronic and electrical waste must not be disposed of with unsorted waste. Please contact your local recycling authority for disposal of this product.

BreezeMAX Si 3000 and BreezeMAX PRO 3000 Product Manual viii

Important Notice

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 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, including opening of the equipment not expressly

approved by Alvarion Ltd. will void equipment warranty and any repair thereafter shall be charged for.

It could also void the user's authority to operate the equipment.

BreezeMAX Si 3000 and BreezeMAX PRO 3000 Product Manual ix

About This Manual

About This Manual

This document describes and explains how to install and manage the BreezeMAX PRO 3000 CPE and BreezeMAX Si 3000 CPE units. In this manual, BreezeMAX PRO 3000 CPE and BreezeMAX Si 3000 CPE are referred to as either “BreezeMAX PRO” and “BreezeMAX Si”, or simply as “PRO” and “Si”.

This document contains the following chapters:

Chapter 1 - Product description: Describes the PRO CPE and the Si CPE, and their specifications.

Chapter 2 - Installation: Describes how to install the PRO CPE and the Si CPE.

Chapter 3 - Commissioning: Describes how to configure basic parameters, and validate unit

operation.

Chapter 4 - Operation: Describes how to use the web application for configuring parameters,

checking system status and monitoring performance.

Glossary - A list of commonly used terms.

BreezeMAX Si 3000 and BreezeMAX PRO 3000 Product Manual x

What’s New in This Release

What’s New in This Release

The following CPE models are now available:

» Outdoor CPEs: 1D; 2.3 WCS; 2.3-2.4 GHz, 2.5-2.7 GHz, 3.3-3.6G, 3.6-3.8 GHz; Integrated

Antennas

» Indoor Si CPE – 1D; 2.5-2.7 GHz

New band: 2.3 GHz

New Features

» ETHCS mode support

» IP CS Bridge mode support

» DSCP classification for PPPoE

» Extended ND&S

BreezeMAX Si 3000 and BreezeMAX PRO 3000 Product Manual xi

Contents

Contents

Chapter 1 - Product Description............................................................................. 1

1.1 Overview..............................................................................................................2

1.2 BreezeMAX PRO 3000...........................................................................................3

1.3 BreezeMAX Si 3000 ..............................................................................................4

1.3.1 Top Panel LEDs ....................................................................................................4

1.3.2 Rear Panel ...........................................................................................................5

1.4 Specifications ......................................................................................................6

1.4.1 BreezeMAX PRO 3000 CPE Specifications............................................................6

1.4.2 Si 3000 CPE Specifications...................................................................................9

Chapter 2 - Installation ....................................................................................... 12

2.1 Installing the BreezeMAX PRO 3000 ....................................................................13

2.2 Installing the BreezeMAX Si 3000 .......................................................................14

2.2.1 Package Content ...............................................................................................14

2.2.2 Additional Installation Requirements ................................................................14

2.2.3 Guidelines for Positioning the Si CPE.................................................................14

2.2.4 Connecting the Si CPE........................................................................................14

Chapter 3 - Commissioning .................................................................................. 15

3.1 Commissioning Steps .........................................................................................16

3.2 Configuring Basic Parameters .............................................................................17

3.2.1 Configuration Tools ...........................................................................................17

3.2.2 Using the Web Configuration Server .................................................................17

3.2.3 The Basic Parameters ........................................................................................19

3.3 Configuring the CPE Using the Auto-Configuration Tool.......................................23

BreezeMAX Si 3000 and BreezeMAX PRO 3000 Product Manual xii

Contents

Chapter 4 - Operation ......................................................................................... 26

4.1 Introduction.......................................................................................................27

4.2 Logging In ..........................................................................................................28

4.3 The Main Window...............................................................................................29

4.4 Rebooting ..........................................................................................................31

4.5 Viewing Status Details........................................................................................32

4.5.1 WiMAX Status ....................................................................................................32

4.5.2 Network Status .................................................................................................33

4.5.3 Device Status.....................................................................................................35

4.6 Personalization of CPE Settings ..........................................................................36

4.6.1 Account .............................................................................................................36

4.6.2 Date...................................................................................................................36

4.6.3 Language ...........................................................................................................37

4.7 Configuring WiMAX Settings ...............................................................................39

4.7.1 Scanner..............................................................................................................39

4.7.2 Authentication...................................................................................................42

4.7.3 MaxTxP - Maximum Transmission Power ...........................................................43

4.8 Configuring Networking Parameters...................................................................44

4.8.1 LAN ....................................................................................................................44

4.8.2 Firewall ..............................................................................................................44

4.8.3 DHCP Server.......................................................................................................45

4.8.4 Port Forwarding.................................................................................................47

4.8.5 Port Trigger........................................................................................................48

4.8.6 Service Line .......................................................................................................49

4.9 Configuring Management Settings ......................................................................54

4.9.1 TR-069 ...............................................................................................................54

4.9.2 Miscellaneous Settings ......................................................................................55

Glossary............................................................................................................. 57

BreezeMAX Si 3000 and BreezeMAX PRO 3000 Product Manual xiii

Figures

Figures

Figure 1-1: BreezeMAX PRO 3000...................................................................................................3

Figure 1-2: BreezeMAX Si CPE.........................................................................................................4

Figure 1-3: BreezeMAX Si 3000 Front Panel ...................................................................................5

Figure 3-1: Login Window.............................................................................................................18

Figure 3-2: Installation Setup Wizard Window..............................................................................23

Figure 3-3: Choose Your ISP Window............................................................................................24

Figure 3-4: Ready To Install Window ............................................................................................24

Figure 3-5: Installing Window .......................................................................................................25

Figure 3-6: Installation Complete .................................................................................................25

Figure 4-1: Login Window.............................................................................................................28

Figure 4-2: Example of Web Page .................................................................................................29

Figure 4-3: Page Showing Reboot Icon.........................................................................................31

Figure 4-4: WiMAX Status Page ....................................................................................................32

Figure 4-5: Network Status ..........................................................................................................34

Figure 4-6: Device Status..............................................................................................................35

Figure 4-7: Account Page..............................................................................................................36

Figure 4-8: Date Page ...................................................................................................................37

Figure 4-9: Language Page ...........................................................................................................38

Figure 4-10: Scanner Page - Configured List ................................................................................39

Figure 4-11: Scanner Page - Full Scan Type..................................................................................40

Figure 4-12: Scanner Page - Last Used Channel Type...................................................................41

Figure 4-13: Authentication Page (EAP TTLS Type) ......................................................................42

Figure 4-14: MaxTxP Page.............................................................................................................43

Figure 4-15: LAN Page ..................................................................................................................44

Figure 4-16: Firewall Page ............................................................................................................45

Figure 4-17: DHCP Server Enabled ................................................................................................46

Figure 4-18: Port Forwarding........................................................................................................47

BreezeMAX Si 3000 and BreezeMAX PRO 3000 Product Manual xiv

Figures

Figure 4-19: Port Trigger Page......................................................................................................48

Figure 4-20: Service Line window .................................................................................................50

Figure 4-21: TR-069 Page .............................................................................................................54

Figure 4-22: Misc. Page.................................................................................................................56

BreezeMAX Si 3000 and BreezeMAX PRO 3000 Product Manual xv

Tables

Tables

Table 1-1: BreezeMAX 3000 CPE Models ........................................................................................2

Table 1-2: Front Panel LED Indicators.............................................................................................4

Table 1-3: PRO 3000 CPE Radio Specifications ...............................................................................6

Table 1-4: PRO 3100 CPE Power Specification................................................................................7

Table 1-5: PRO 3000 CPE Environmental Specifications .................................................................7

Table 1-6: PRO 3000 CPE Interface Specifications..........................................................................8

Table 1-7: PRO 3000 CPE Reliability Specifications.........................................................................8

Table 1-8: Si 3000 CPE Radio Specifications ...................................................................................9

Table 1-9: Si 3000 CPE Power Specification..................................................................................10

Table 1-10: Si 3000 CPE Environmental Specifications .................................................................10

Table 1-11: Si 3000 CPE Interface Specifications..........................................................................10

Table 1-12: Si 3000 CPE Reliability Specifications.........................................................................11

Table 3-1: Connectivity Parameters..............................................................................................19

Table 3-2: CPE Basic Parameters...................................................................................................19

Table 4-1: Icons and Buttons........................................................................................................29

Table 4-2: WiMAX Status Details ..................................................................................................32

Table 4-3: Network Status Details................................................................................................34

Table 4-4: Device Status Details ...................................................................................................35

Table 4-5: Date Parameters..........................................................................................................37

Table 4-6: Scanner Parameters.....................................................................................................40

Table 4-7: Authentication Parameters..........................................................................................42

Table 4-8: MaxTxP Parameters......................................................................................................43

Table 4-9: Firewall Parameters (read-only) ..................................................................................45

Table 4-10: DHCP Server Parameters............................................................................................46

BreezeMAX Si 3000 and BreezeMAX PRO 3000 Product Manual xvi

Tables

Table 4-11: Port Forwarding Parameters......................................................................................47

Table 4-12: Port Trigger Parameters.............................................................................................49

Table 4-13: Service Line Parameters.............................................................................................51

Table 4-14: TR-069 Parameters ....................................................................................................54

BreezeMAX Si 3000 and BreezeMAX PRO 3000 Product Manual xvii

Chapter 1 - Product Description

In this Chapter

“Overview” on page 2

“BreezeMAX PRO 3000” on page 3

“BreezeMAX Si 3000” on page 4

“Specifications” on page 6

Chapter 1 - Product Description Overview

1.1 Overview

The IEEE 802.16e Wave II standard WiMAX-compatible BreezeMAX PRO 3000 CPE and BreezeMAX Si

3000 CPE Subscriber Units (SUs) serve as an efficient platform for a wide range of services, providing

basic WiMAX connectivity and bridge functionality.

The BreezeMAX Si 3000 (indoor unit) is available at 2.5-2.7 GHz.

The BreezeMAX PRO 3000 (outdoor unit) is available at 2.3-2.4 GHz, 2.5 GHz, 3.3-3.6 GHz, 3.4-3.7 GHz

and 3.6-3.8 GHz bands.

The following table summarizes the available units:

Table 1-1: BreezeMAX 3000 CPE Models

CPE Type Frequency Band (GHz)

Model Name

BreezeMAX Si 3000 (indoor unit)

2.5 - 2.7 4M-K2-CPE-Si-1D-2.5

BreezeMAX PRO 3000 (outdoor unit)

2.3 - 2.4 4M-CPE3000-PRO-1D-2.3

2.5 4M-K2-CPE-PRO-ODU-1D-2.5

3.3 - 3.6 4M-K2-CPE-PRO-ODU-1D-3.3

3.4 - 3.7 4M-CPE3000-PRO-1D 3.4-3.7

3.6 - 3.8 4M-CPE3000-PRO-1D-3.6

BreezeMAX Si 3000 and BreezeMAX PRO 3000 Product Manual 2

Chapter 1 - Product Description BreezeMAX PRO 3000

1.2 BreezeMAX PRO 3000

The PRO 3000 CPE comprises an Outdoor Unit (ODU) and an Indoor Unit (IDU).

The ODU includes the modem, radio, data processing and management components of the SU. It also

includes an integral high-gain flat antenna. The ODU connects to the IDU and to the user's equipment

through a 10/100BaseT Ethernet port.

The IDU is powered from the mains and connects to the ODU via a Category 5E Ethernet cable carrying

the Ethernet data between the two units, as well as power (-54 VDC) and control signals to the ODU

and status indications from the ODU.

Figure 1-1: BreezeMAX PRO 3000

ODU IDU


Chapter 1 - Product Description BreezeMAX Si 3000

1.3 BreezeMAX Si 3000

The Self Install Si CPE is a compact Subscriber Unit (SU) that is intended for indoor installations.

1.3.1 Top Panel LEDs

See Figure 1-3.

Figure 1-2: BreezeMAX Si CPE

Table 1-2: Front Panel LED Indicators

Name Functionality

Power On - Power on

Off - Power off

LAN On - Connected

Off - Disconnected

Blinking - Data transmission

Red ONLY Blinking - Synchronization

On - Weak signal (CINR<8dB)

Off

Yellow ONLY Blinking - Authentication

On - Medium signal strength (8dB<CINR<15dB)

Off

Green ONLY Blinking - Synchronization with base station

On - Good signal strength (15dB<CINR)

Off


Chapter 1 - Product Description BreezeMAX Si 3000

1.3.2 Rear Panel

Power jack: DC 12V / 1.5A

LAN port: 10/100Base-TX

Reset button: To reset the CPE to factory default settings

Figure 1-3: BreezeMAX Si 3000 Front Panel

PowerLAN

Signal Strength:

Red Yellow Green


Chapter 1 - Product Description Specifications

1.4 Specifications

1.4.1 BreezeMAX PRO 3000 CPE Specifications

1.4.1.1 Radio Specifications

Table 1-3: PRO 3000 CPE Radio Specifications

Item Details

General

Frequency Band (GHz)

Frequencies (GHz)

Channel Bandwidth (MHz)

2.3 2.3 - 2.4 5 / 10

2.5 2.496 - 2.690 5 / 10

3.4 3.475 - 3.675 5 / 10

3.5 3.3 - 3.6 5/ 7/ 10

3.6 3.6 - 3.8 5/ 7/ 10

Channel Step Size In 125kHz steps

Synchronization Shall be referenced to the WiMax BTS Timing Module.

Frequency Accuracy MRCT Compliant

Air Interface IEEE 802.16e Wireless MAN-OFDMA

Standards compliance IEEE 802.16e and Standard for Conformance to IEEE

Standard (Radio Compliance Test) Wave1/ Wave2

TDD Duty Cycle (Tx/Rx) Rx up to 75%, Tx up to 50%

SISO or MIMO MIMO (1Tx, 2Rx)

Regulatory Compliance Comply with major regional regulatory requirements

Frame duration 5 msec.

RF Transmitter Specifications

Maximum output power 2.496 - 2.69 GHz 2.3 - 2.4 GHz 3.3 - 3.6 GHz / 3.6 -3.8 GHz

Typical 27 dBm

3.65-3.675 GHz for US

19 dBm

RF dynamic range 45 dB minimum



1.4.1.2 Power Specification

1.4.1.3 Environmental Specifications

Transmit Power Control Relative Accuracy

mRCT compliant

Transmit and Receive Switching Gap 50uS

RF Receiver Specifications

Impedance 50 ohms nominal

Input return loss 10 dBi

RX Sensitivity Typical 3dB better than mRCT in SISO mode, and 6 dB better in MRC or MIMO mode.

Adjacent Channel Rejection Meet mRCT requirement (Typical 3 dB better)

Non-Adjacent Channel Rejection Meet mRCT requirement (Typical 3 dB better)

Antenna Specifications

Antenna Polarization Type Directional Dual Polarization Patch Ant

Antenna Gain Typical 15 dBi

Antenna Connectors Two internal MCX ANT connectors. No external connectors.

Table 1-4: PRO 3100 CPE Power Specification

Item Details

Power Consumptions Outdoor CPE: 12.9W Maximum

Power Adapter Input of 100 VAC - 240 VAC 50 Hz to 60 Hz

Power over Ethernet 48V DC

Table 1-5: PRO 3000 CPE Environmental Specifications

Item Details

Operating Temperature -40°C ~ 60°C

Storage Temperature -40°C ~ 70°C

Operating and Storage Humidity 5% - 95%

Table 1-3: PRO 3000 CPE Radio Specifications (Continued)

Item Details



1.4.1.4 Interface

1.4.1.5 Regulatory Specifications

Standards for all PRO CPE frequency bands:

EMC:

» EN 301 489-1/-4

» FCC p15 (excluding 2.3 GHz bandwidth)

Radio:

» EN 302 326

» EN 302 544-2

» FCC p27

» FCC p90z

Safety:

» EN 60950-1

» UL 60950-1

1.4.1.6 Reliability Specifications

Table 1-6: PRO 3000 CPE Interface Specifications

Item Details

RJ-45 Ethernet connection: one RJ-45 connector

Buzzer Signal Strength

Table 1-7: PRO 3000 CPE Reliability Specifications

Item Details

MTBF The MTBF for CPE is not less than 200,000 hours.



1.4.2 Si 3000 CPE Specifications

1.4.2.1 Radio Specifications

Table 1-8: Si 3000 CPE Radio Specifications

Item Details

General

Frequency Band Frequencies (GHz) Channel Bandwidth

2.5 GHz 2.496 - 2.690 5 / 10 MHz

Channel Step Size In 125 KHz steps

Synchronization Shall be referenced to the WiMax BTS Timing Module.

Frequency Accuracy MRCT Compliant

Air Interface IEEE 802.16e Wireless MAN-OFDMA

Standards compliance IEEE 802.16e and Standard for Conformance to IEEE

Standard (Radio Compliance Test) Wave1/ Wave2

TDD Duty Cycle (Tx/Rx) Rx up to 75%, Tx up to 50%

SISO or MIMO MIMO (1TX, 2RX) / 3.xGHz support 2Tx in future upgrade

Regulatory Compliance Comply with major regional regulatory requirements

Frame duration 5 msec.

RF Transmitter Specifications

Maximum output power 2.496 - 2.69 Typical 27 dBm

RF dynamic range 45dB minimum

Transmit Power Control Relative Accuracy

mRCT compliant

Transmit and Receive Switching Gap

50uS

RF Receiver Specifications

Impedance 50 ohms nominal

Input return loss 10dBi

RX Sensitivity Typical 3dB better than mRCT in SISO mode, and 6 dB better in MRC or MIMO mode.

Adjacent Channel Rejection

Meet mRCT requirement (Typical 3 dB better)



1.4.2.2 Power Specification

1.4.2.3 Environmental Specifications

1.4.2.4 Interface

1.4.2.5 Regulatory Specifications

Standards for Si CPEs 2.5 ~ 2.7GHz:

Non-Adjacent Channel Rejection

Meet mRCT requirement (Typical 3 dB better)

Antenna Specifications

Antenna Polarization Type Embedded Dipole

Antenna Gain Typical 5dBi

Antenna Connectors None. Embedded IPEX

Table 1-9: Si 3000 CPE Power Specification

Item Details

Power Consumption 12W Maximum

Power Adapter Input of 100 VAC - 240 VAC 50 Hz to 60 Hz

Table 1-10: Si 3000 CPE Environmental Specifications

Item Details

Operating Temperature 0°C ~ 45°C

Storage Temperature -5°C ~ 70°C

Operating and Storage Humidity 5% - 95%

Table 1-11: Si 3000 CPE Interface Specifications

Item Details

RJ 45 Ethernet connection: 1 RJ 45

Reset Signal Button

LEDs Signal Strength: 3 LEDs

Power: 1 LED

LAN: 1 LED

Table 1-8: Si 3000 CPE Radio Specifications (Continued)

Item Details



EMC:

» EN 301 489-1/-4

» FCC p15

Radio:

» EN 302 326

» EN 302 544-2

» FCC p27

Safety:

» EN 60950-1

» UL 60950-1

1.4.2.6 Reliability Specifications

Table 1-12: Si 3000 CPE Reliability Specifications

Item Details

MTBF The MTBF for CPE is not less than 100,000 hours.


Chapter 2 - Installation

In this Chapter

“Installing the BreezeMAX PRO 3000” on page 13

“Installing the BreezeMAX Si 3000” on page 14

Chapter 2 - Installation Installing the BreezeMAX PRO 3000

2.1 Installing the BreezeMAX PRO 3000

The BreezeMAX PRO 3000 CPE is installed by the operator's installation technicians.

The following items are included in the BreezeMAX PRO 3000 package:

BreezeMAX PRO 3000 Outdoor Unit (ODU)

Power Injector - Indoor Unit (IDU) Power Over Ethernet 802.3af compliant with LAN port:

10/100Base-TX

Crossed Ethernet cable with two RJ-45 connectors for connecting the IDU power injector to a

PC/HUB/switch.

Power Cable

Sealing package

Pole mounting kit

CAUTION ONLY experienced installation professionals who are familiar with local building and safety codes and, wherever applicable, are licensed by the appropriate government regulatory authorities should install outdoor units and antennas.

Failure to do so may void the product warranty and may expose the end user or Service Provider to legal and financial liabilities. Alvarion and its resellers or distributors are not liable for injury, damage or regulation violations associated with the installation of Outdoor Units or antennas.


Chapter 2 - Installation Installing the BreezeMAX Si 3000

2.2 Installing the BreezeMAX Si 3000

2.2.1 Package Content

Si CPE

Power adapter and mains power cable

2m Ethernet cable

2.2.2 Additional Installation Requirements

Mains plug adapter or termination plug (if the power plug on the supplied AC power cable does not

fit local power outlets)

PC with an Ethernet card

2.2.3 Guidelines for Positioning the Si CPE

The unit can be placed on a desktop or a shelf.

It is recommended to position the unit near a window facing the direction of the BTS, with the

selected antenna aimed at the direction of the BTS. Do not cover the unit. Leave free space of at least

50 cm around the unit. Do not place any object between the selected antenna and the window

towards which the antenna is directed.

Avoid metal obstacles such as metal window frames or metal film anti-glare windows in the

transmission path.

Position the unit away from electrical equipment, including the data equipment, monitor etc., metal

furniture, and moving metal objects such as metal fans or doors.

For 2.5 GHz models - Position the unit at least 6.5 feet/2 meter away from any WiFi device (if used),

to avoid interference.

2.2.4 Connecting the Si CPE

1 Connect the Power cable to the power jack located on the rear panel of the Si CPE. Connect the

other end of the power cord to the AC mains.

2 Connect the 10/100 Base-T Ethernet connector to the PC/network equipment.

3 Verify that the unit is working properly via the LED indications (see “Top Panel LEDs” on page 4).

4 Proceed with commissioning of the CPE.


Chapter 3 - Commissioning

In this Chapter:

“Commissioning Steps” on page 16

“Configuring Basic Parameters” on page 17

“Configuring the CPE Using the Auto-Configuration Tool” on page 23

Chapter 3 - Commissioning Commissioning Steps

3.1 Commissioning Steps

After completing the installation process, as described in the preceding chapter, several actions should

be performed to ensure connectivity with a BTS and provisioning of services. After the CPE is connected

with a BTS, it can be fully managed via the wireless link:

1 The basic parameters must be configured to ensure that the unit operates correctly and can

communicate with a BTS.

2 Proper operation should be verified, including data connectivity.


Chapter 3 - Commissioning Configuring Basic Parameters

3.2 Configuring Basic Parameters

3.2.1 Configuration Tools

The CPEs include a Web Configuration Server, providing a web-based GUI for local configuration and

monitoring. The Web Configuration Server can be accessed using a PC/Notebook with a web browser.

The CPE may be delivered with the operator’s default settings already configured in the FLASH memory.

The only parameters that should be configured (if necessary) are the end user’s credentials (User Name

and User Password).

3.2.2 Using the Web Configuration Server

By default, the CPE enables a DHCP server and computers or network devices connected to a LAN port

to automatically get an IP address from the CPE. If the CPE's DHCP server is disabled, you can set the IP

address, netmask, and gateway manually using the following parameters:

IP address: 192.168.254.x (1 < x < 253, excluding 251)

Netmask: 255.255.255.0

Gateway: 192.168.254.251

If you are using an NG_VG device, refer to the second procedure below (“To configure the CPE with

NG_VG using the Web Configuration Server:” on page 18).

1 Connect a PC/Notebook with a web browser to the Ethernet port of the CPE, using a straight

Ethernet cable.

2 Configure the PC's IP parameters to enable connectivity with the unit. The IP address of the CPE for

local management access is 192.168.254.251. The Subnet Mask is 255.255.255.0. The

recommended IP address for the PC is 192.168.254.250, as this is also the default TFTP Sever IP

Address (required for downloading SW versions and for downloading/uploading configuration files).

3 Open a web browser, and connect to http://192.168.254.251. The login window is displayed

(Figure 3-1).

To configure the CPE using the Web Configuration Server:


http://192.168.254.251


4 Enter the username and password and click Login. The Device Status window is displayed. The

default credentials are:

» Username: subscriber

» Password: subscriber

5 The Main window of the Web Configuration Server is displayed, enabling access to the required

parameters configuration and performance monitoring options. Refer to Chapter 4 for instructions

on using the Web Configuration Server and detailed information on the various parameters and other

features supported.

6 Configure the basic parameters listed in Table 3-2.

7 Reset the unit to apply the new settings and enable synchronization with a BTS.

1 Connect a PC/Notebook to the LAN port of the NG_VG, using the supplied Ethernet cable.

2 Ensure that the NG_VG has a WAN Data Service configured with NAT enabled and with all NG_VG

LAN ports grouped to it (Refer to the NG-VG manual for details).

3 By default, the CPE has a DHCP server enabled. In this case, ensure that the NG_VG WAN Data

Service is configured to receive its IP by DHCP from the CPE. If the DHCP server of the CPE is disabled, for the WAN Data Service on the NG_VG you can manually

set a static IP address, netmask, and gateway according to your CPE model (refer to the table below):

Figure 3-1: Login Window

To configure the CPE with NG_VG using the Web Configuration Server:



4 From a PC connected to the NG_VG open a web browser, and connect to http://192.168.254.251.

The login window is displayed (Figure 3-1).

5 Enter the username and password and click Login. The Device Status window is displayed. The

default credentials are:



6 The Main window of the Web Configuration Server is displayed, enabling access to the required

parameters configuration and performance monitoring options. Refer to Chapter 4 for instructions

on using the Web Configuration Server and detailed information on the various parameters and other

features supported.

3.2.3 The Basic Parameters

Most of the basic parameters are already configured within the CPE and are read-only for the end-user.

Usually the only parameter that should be specified in the CPE is the username and password in the

Authentication page.

Once the basic parameters are configured, the unit should be reset in order to activate the new

configuration. (refer to Section 4.4 for more details).

Table 3-1: Connectivity Parameters

Model Name Basic Connectivity Parameters

4M-K2-CPE-Si-1D-2.5 IP address: 192.168.254.x, 1 < x < 253, excluding 251

Netmask: 255.255.255.0

Gateway: 192.168.254.251

4M-CPE3000-PRO-1D-2.3

4M-K2-CPE-PRO-ODU-1D-2.5

4M-K2-CPE-PRO-ODU-1D-3.3

4M-CPE3000-PRO-1D-3.6

4M-CPE3000-PRO-1D 3.4-3.7 IP address: 192.168.209.x, 2 < x < 253

Netmask: 255.255.255.0

Gateway: 192.168.209.1

Table 3-2: CPE Basic Parameters

Parameter Default Value Comment

Web Login User Name subscriber

Web Login Password subscriber

Authentication User Name CPE mac [email protected] Should be supplied by system administrator


http://192.168.254.251


Authentication User Password

quickynikynyoky Should be supplied by system administrator

Authentication Phase 1 EAP-TTLS

Authentication Phase 2 MSCHAPV2 encoding

Preferred BS ID priority1 0.0.0.0.0.0

Preferred BS Mask 0.0.0.0.0.0

Preferred BS-ID priority2 0.0.0.0.0.0

Preferred BS Mask 0.0.0.0.0.0

Mobile Mode Nomadic

Full Scanning- Channel BW For bands 2.3, 2.5: 10, 5 MHz

For bands 3.3, 3.6: 10, 7, 5 MHz

Full Scanning- Start/End frequency

Bands:

WCS: 2305-2360 MHz

2.3: 2300-2400 MHz

2.5: 2496-2690 MHz

3.5: 3300-3600 MHz

3.6: 3600-3800 MHz

Full Scanning- Main Step 1,750@BW=n*3.5/1,250@BW=n*5 KHz

Full Scanning- Intermediate Step

0, 125, 250, 375, 500, 625, 750, 875/1250 KHz

Re-scan 15 min to 65535 min 65535 means never scan

WAN IP type Enable for DHCP

WAN IP address by DHCP

WAN IP netmask by DHCP

WAN gateway by DHCP

LAN IP address 192.168.254.251

LAN IP netmask 255.255.255.0

WAN MTU 1400

Data Service Operation Mode

NAT

Enable/Disable DHCP Server Enable

DHCP Start IP address 192.168.254.1

Table 3-2: CPE Basic Parameters (Continued)




DHCP End IP address 192.168.254.5

DHCP DNSs from ISP

Domain Name Enable

Max Lease Time 86400

Permanent Host Configuration

Enable

NG/VG Association - NG/VG destination IP address

192.168.254.61

Data DSCP ID 0

MGMT DSCP ID 6

IP CS Service Lines Service Line ID: 1

InVlanId: 4096 = Untagged

InVlanPriority: 8 = Untagged

MulticastDuplicationFlag: Enable

DscpStartValue: 0

DscpStopValue: 63

DscpRemarkingEnable: Disable

Eth CS Service Lines Service Line ID: 1

InPppoE: Disable

InVlanIdStartValue: 1

InVlanIdStopValue: 4096

InVlanPriorityStartValue: 0

InVlanPriorityStopValue: 8

OutVlanId: 4096=Transparent

OutVlanPriority: 8=Transparent

MulticastDuplicationFlag: Enable

DscpStartValue: 64

DscpStopValue: 64

DscpRemarkingEnable: Disable





TR-069 Enable/Disable TR-069: Enable

ACS URL

ACS Username: [email protected]

ACS Password: quickynikynyoky

Periodic Inform Enable/Disable: Enable

Periodic Inform Interval: 60 min

Connection Request Username: [email protected]

Connection Request Password: quickynikynyoky

TR-069 Certificate File Upload: Enable




Chapter 3 - Commissioning Configuring the CPE Using the Auto-Configuration Tool

3.3 Configuring the CPE Using the Auto-Configuration Tool

This section explains how to use the default configuration file to automatically configure a CPE, with or

without an NG_VG device.

1 If you are using NG_VG:

a Connect a PC/Notebook to the LAN port of the NG_VG, using the supplied Ethernet cable.

b Ensure that the NG_VG has a WAN Data Service configured with NAT enabled and with all

NG_VG LAN ports grouped to it (Refer to the NG_VG manual for details). Also, ensure that the

NG_VG WAN Data Service is configured to receive its IP by DHCP from the CPE.

c Check that the NG_VG Data service connection receives an IP.

If you are not using NG_VG:

a Verify that the CPE is connected to power and the blue power LED is on.

b Set the control PC to DHCP mode (automatic mode) in LAN.

2 From the CDROM supplied with the unit, run the CPE Auto Configuration Tool:

CPEAutoConfigTool.exe; The Installation Setup Wizard window is displayed.

To configure the CPE using the Auto-configuration file:

Figure 3-2: Installation Setup Wizard Window



3 Click Next to continue; The Choose Your ISP window is displayed.

4 Choose the ISP (Internet Service Provider) ConfigFile from the list and click Next. The Ready To Install

window is displayed.

5 Click Install. The tool starts the auto-configuration process of the CPE settings. It will change default

configuration by using the *.CONF file, and then run “reset to factory default” by using default

configuration in the file.

Figure 3-3: Choose Your ISP Window

Figure 3-4: Ready To Install Window



6 When the installation is complete, click Finish. The CPE is now configured with the parameters from

the ConfigFile.

7

Figure 3-5: Installing Window

Figure 3-6: Installation Complete


Chapter 4 - Operation

In this Chapter:

“Introduction” on page 27

“The Main Window” on page 29

“Rebooting” on page 31

“Viewing Status Details” on page 32

“Personalization of CPE Settings” on page 36

“Configuring WiMAX Settings” on page 39

“Configuring Networking Parameters” on page 44

“Configuring Management Settings” on page 54

Chapter 4 - Operation Introduction

4.1 Introduction

This chapter describes how to configure BreezeMAX 3000 CPEs Using the Web Configuration

Application in order to connect to the base station.


Chapter 4 - Operation Logging In

4.2 Logging In

By default, the CPE enables a DHCP server and computers or network devices connected to a LAN port

to automatically get an IP address from the CPE. If the CPE's DHCP server is disabled, you can set the IP

address, netmask, and gateway manually using the following parameters:

IP address: 192.168.254.x (1 < x < 253, excluding 251)

Netmask: 255.255.255.0

Gateway: 192.168.254.251

1 Open a web browser and enter the default IP address http://192.168.254.251. Figure 4-1 is displayed.

2 Enter the username and password. The Device Status window is displayed. The default credentials

are:



»

To login:

Figure 4-1: Login Window


Chapter 4 - Operation The Main Window

4.3 The Main Window

Figure 4-2 shows an example of a typical web page. The area at the top of the page includes selection

buttons for the various pages, an icon showing the status of the CPE and the Logout and Reboot

buttons. Clicking a particular button displays tabs of the options available for that page on the left.

Clicking on a tab displays the configuration/status page for the selected tab, with the applicable content

(configurable parameters/options or status information) in the main area.

When the CPE is connected to a BS, a green check mark appears in the Active column of the linked

frequency in the Channel Table section and next to the CPE icon in the top banner. When the CPE is not

connected to a BS, a red X appears next to the CPE icon in the top banner. See also “Rebooting” on

page 31.

The following table describes the icons and common buttons displayed in the application windows:

Figure 4-2: Example of Web Page

Table 4-1: Icons and Buttons

Icon/Button Description

CPE status:

- CPE connected

X - CPE not connected

Tabs

Buttons for Page selection


Chapter 4 - Operation The Main Window

Logout - Click to logout of the system

Reboot - click to restart the system (see “Rebooting” on page 31)

Status Click to open the CPE status page with viewing tabs. See “Viewing Status Details” on page 32.

Personalization Click to open the CPE personalization page with setting or viewing tabs. See “Per-sonalization of CPE Settings” on page 36

WiMAX Click to open the WiMAX page with setting or viewing tabs. See “Configuring WiMAX Settings” on page 39

Networking Click to open the Networking page with setting or viewing tabs. See “Configuring Networking Parameters” on page 44

Management Click to open the CPE Management page with setting or viewing tabs. See “Config-uring Management Settings” on page 54

Undo Click to cancel the last action

Apply Click to save your changes to the settings

Table 4-1: Icons and Buttons (Continued)

Icon/Button Description


Chapter 4 - Operation Rebooting

4.4 Rebooting

Rebooting the system is sometimes necessary in order for the new configuration to take effect.

1 Click the Reboot icon in the top right-hand corner of the page (see Figure 4-3).

2 Click Yes in the dialog box that is displayed to confirm the reboot action.

To reboot the system:

Figure 4-3: Page Showing Reboot Icon

Reboot


Chapter 4 - Operation Viewing Status Details

4.5 Viewing Status Details

Click the Status button to display the status tabs.

4.5.1 WiMAX Status

The WiMAX Status window displays parameters for the WiMAX connection.

The following table describes the WiMAX Status parameters:

Figure 4-4: WiMAX Status Page

Table 4-2: WiMAX Status Details

Parameter Description Comments

System Status

Frequency The unit frequency

Bandwidth Depending on unit model: 5MHz 7MHz, or 10 MHz

BSID Base Station ID Depends on the BS to which the unit is connected

Scanner The method by which the network is scanned

State The status of WiMAX connection

Uptime Duration of device function (xdays yhours zminutes)

Physical Status



4.5.2 Network Status

The Network Status page displays the network parameters and counters. All the parameters are

described further in the configuration screens in the following sections.

RSSI Currently received signal strength indication

CINR Carrier to Interference-plus-Noise Ratio [in decibels (dB)] - a measurement of signal effectiveness. A greater value will improve the connection speed. For reading the correct CINR, use CINR reuse1 or reuse3 (depending on the reuse configuration used on the network).

CINR Reuse1

CINR Reuse3

Zone CINR Channel 0

The CINR of the Pilots in the zone

TxPower Current uplink transmit power

Uplink

Modulation The modulation method:

QPSK

16QAM

64QAM

Data rate The level of available data throughput that can actually be provided to an end-user.

Tx byte Total of uplink transmitted bytes

Downlink

Modulation The modulation method:

QPSK

16QAM

64QAM

Data rate The level of available data throughput that can actually be provided to an end-user.

Rx byte Total of downlink received bytes

Table 4-2: WiMAX Status Details




The following table describes the Network Status parameters:

Figure 4-5: Network Status

Table 4-3: Network Status Details


LAN/WAN

Type Connection mode

IP LAN/WAN IP address, if the Static connection mode was selected. For DHCP mode - IP address acquired on the WAN interface is displayed. Otherwise it is 0.0.0.0

Netmask The IP subnet mask, if the Static connection mode was selected. For DHCP mode - IP Subnet Mask acquired on the WAN interface is displayed. Otherwise it is 0.0.0.0

Gateway (in WAN only)

The IP Default Gateway, if the Static connection mode was selected. For DHCP mode - IP Default Gateway acquired on the WAN interface is displayed. Otherwise it is 0.0.0.0

MAC Address

Rx bytes Total of downlink received bytes

Tx bytes Total of uplink transmitted bytes



4.5.3 Device Status

The Device Status page displays the device information.

The following table describes the Device Status parameters:

Figure 4-6: Device Status

Table 4-4: Device Status Details


Hardware model The model name as set by the manufacturer

Firmware version The current software version

Firmware creation date

Day, <dd, Mon, yyyy>, hour

Bootrom version Boot version of the unit

Bootrom creation date

Frequency range The range of frequencies (MHz) in which the device functions

Serial number The device number from factory


Chapter 4 - Operation Personalization of CPE Settings

4.6 Personalization of CPE Settings

Click the Personalization button to modify the CPE settings.

4.6.1 Account

The Account page is used to change the login password of the account.

Enter the current and new password and confirm the new password.

Click Apply to save the new configuration to the CPE.

4.6.2 Date

The Date page displays date and time parameters of the system and the NTP (Network Time Protocol)

server configurations.

Figure 4-7: Account Page



The Date page includes the following configuration options:

After configuring the fields, click Apply to save the new configuration to the CPE and reboot the system

in order for the new configuration to take effect.

4.6.3 Language

The Language page enables toview the available language.

Figure 4-8: Date Page

Table 4-5: Date Parameters

Parameter Description

System Date The system date should be within the valid range of the uploaded certificate file, otherwise the CPE will not pass authentication from the base station.

To synchronize the system date of a CPE with the PC connected to the LAN port, click the Synchronize with PC button.

NTP Server The system date is automatically updated by synchronizing the time with an NTP server assigned manually or from the DHCP (Dynamic Host Configuration Protocol) server. The fields in this section are read-only.

Time Zone Select a different time zone for different regions

Daylight Saving Select the check-box to automatically update the clock for daylight saving changes



Figure 4-9: Language Page


Chapter 4 - Operation Configuring WiMAX Settings

4.7 Configuring WiMAX Settings

Click the WiMAX button to define or edit the WiMAX parameters.

4.7.1 Scanner

The Scanner page displays parameters for configuring the channel scanning process. The list of

frequencies that participate in the scanning process includes a set of frequencies belonging to the

scanning range and/or a set of up to 10 discrete frequencies.

There are three scanning types available:

Configured List - up to 10 frequencies

Full Scan - Scanning a range of frequencies (the range can be modified)

Last Used Channel - Scanning only the channel that was last used.

Selecting each type changes the displayed parameters on the screen. The following sections describe the

options for configuration of each scanning type.

4.7.1.1 Configured List

The Scanner window with this option lists all the frequency channels that are stored in the channel table,

together with the status associated with the channel used to connect the CPE to a BS. This list is

read-only and cannot be modified.

Figure 4-10: Scanner Page - Configured List

NOTE! The Quick Edit option overwrites existing entries in the channel list.

If the field is empty and you click the button, all entries are deleted.



4.7.1.2 Full Scan

The Full Scan option enables scanning of the entire configured range of frequencies. When you select

this option, the Full Scan Configuration section is displayed.

The Scanner page with the Full Scan option includes the following components (The parameters are

read-only and cannot be modified):

Figure 4-11: Scanner Page - Full Scan Type

Table 4-6: Scanner Parameters


Scanner Type: Full Scan

First Found BS Selection

The first BS that is found during scanning and stop the scanning.

Full Scanner Radio Profile



4.7.1.3 Last Used Channel

The Scanner window with this option displays information on the last channel that was used for

scanning: frequency, band, and scanning time.

Channel Bandwidth 5MHz or 10 MHz; for 3.5 GHz units - also 7 MHz

Start and End Frequencies

Values for defining the frequency range.

Main Step The values by which to skip to the next frequency.

For n*3.5 MHz bandwidth, the range is 125 KHz-3500 KHz, in steps of 125 KHz. The default value is 1750 KHz applicable for 3.x GHz band only.

For n*5 MHz bandwidth, the range is 125 KHz-5000 KHz, in steps of 125 KHz. The default value is 1250 KHz, applicable for 2.x GHz and 3.x GHz bands.

Intermediate Step Check-boxes that define additional frequencies using a detailed resolution.

Full Scanner Frequencies

This section lists the frequencies that are to be scanned according to the full scan configuration. Select 5000 KHz, 7000 KHz or 10000 KHz to view the list for each bandwidth. If the list is longer than one page, you can select the page in the pages drop-down list.

Figure 4-12: Scanner Page - Last Used Channel Type

Table 4-6: Scanner Parameters (Continued)


Scanner Type: Full Scan



4.7.2 Authentication

The Authentication page allows you to set the parameters for the authentication method in order to

secure the access to the WiMAX network.

The Authentication page includes the following components:

After configuring the fields, click Apply to save the new configuration to the CPE and reboot the system

in order for the new configuration to take effect.

Figure 4-13: Authentication Page (EAP TTLS Type)

Table 4-7: Authentication Parameters


Authentication Selection

Phase 1 EAP-TLS -Extensible Authentication Protocol -Transport Layer Security - priced option.

EAP-TTLS (EAP-Tunneled Transport Layer Security) supporting the Microsoft version of the Challenge-handshake authentication protocol, version 2

None - Not Authenticated. The CPE is associated to the ASN-GW in non authenticated mode. Over the air data is not encrypted.

Phase 2 (for EAP TTLS only)

The key encoding method MSCHAPV2 (default), MSCHAP, PAP, CHAP, MD5.

Username and Password (for EAP TTLS only)

The authentication username and password supplied by the service provider.



4.7.3 MaxTxP - Maximum Transmission Power

The CPE maximum output power can be limited in order to support different regulations. The

configuration is done during the unit manufacturing and can be changed only using the configuration

file provided by the manufacturer. The MaxTxP page displays the maximum output power parameters

that are configured in the unit. The parameters are for reference only and cannot be changed.

The MaxTxP page displays the following components:

Figure 4-14: MaxTxP Page

Table 4-8: MaxTxP Parameters


BPSK Biphase Shift Keying - A digital modulation method for transmitting data over a coaxial cable network.

QPSK Quadrature Phase Shift Keying - A specific form of phase modulation that conveys data by changing, or modulating, the phase of a reference signal (the carrier wave).

QAM16 Quadrature amplitude modulation - A modulation scheme that changes digital signals onto a radio-frequency carrier signal involving both amplitude and phase coding. 16QAM allows for 4-bits per symbol of data to be broadcast (giving 16 possible points) 64QAM allows for 6-bits (giving 64).

QAM64


Chapter 4 - Operation Configuring Networking Parameters

4.8 Configuring Networking Parameters

Click the Networking button to define or edit the Networking parameters.

4.8.1 LAN

The LAN page displays the LAN IP address and the LAN netmask of the unit. To edit the settings, modify

the values and click Apply.

4.8.2 Firewall

The BreezeMAX 3000 CPE provides extensive firewall protection by restricting connection parameters to

limit the risk of intrusion and defending against a wide array of common hacker attacks.

Figure 4-15: LAN Page



The Firewall Page includes the following read-only components:

4.8.3 DHCP Server

Figure 4-16: Firewall Page

Table 4-9: Firewall Parameters (read-only)


CPE Access Control Allow Web accessing from WAN - Allow web access to the device from the wireless access network.

Allow Telnet accessing from WAN - Allow Telnet access to the device.

Allow Spanning Tree Protocol (STP) - Prevents bridge loops and ensure broadcast radiation. STP allows the bridges to exchange information so that only one of them handles a given message that is being sent between two computers within the network.

DMZ (Demilitarized Zone)

This section is available only in NAT (Network Address Translation) mode. By enabling and identifying a DMZ host, an external attacker only has access to the DMZ host, rather than the entire private network at the CPE's back end.

Redirect ICMP to the Host (Internet Control Message Protocol) - Redirects only the ICMP packets from WAN CPE interface to LAN CPE interface (host specified in DMZ Host IP); It is used to verify connectivity from WAN PC to LAN PC in NAT mode.

INFORMATION

This DHCP server is for the CPE clients. DHCP server is only applicable when the CPE is in NAT (Network Address Translation) mode.



If DHCP server is enabled in this page, the DHCP server automatically starts up when the CPE is powered

on. The DHCP Server page displays the current configuration of the DHCP server.

The DHCP Server page includes the following components.

Figure 4-17: DHCP Server Enabled

Table 4-10: DHCP Server Parameters


DHCP Server Configuration

DHCP Server Possible values:

Enable - enables DHCP server

Disable - disables DHCP server

DHCP Start IP Address Starting IP address of DHCP pool

DHCP End IP Address Ending IP address of DHCP pool

Primary DNS Enter a primary DNS Server address, or select the check-box to take the address from the ISP (DHCP offer on WAN).

Secondary (and Tertiary) DNS

Enter a secondary (or tertiary) DNS Server address, or select the check-box to take the address from the ISP (DHCP offer on WAN).

Domain name Domain name (optional)

Max lease time (seconds)

Maximum lease time in seconds.

Possible values: 1 to 99999999



Click Apply to save the new configuration to the CPE and reboot the system for the new configurations

to take effect.

4.8.4 Port Forwarding

Port forwarding redirects incoming network traffic from a pre-defined WAN port range to a pre-defined

LAN IP Address and LAN port range.

The Port Forwarding page includes the following components:

Permanent Host Configuration

A specific (static) IP address is assigned by the Operator to a specific MAC address.

INFORMATION

Port forwarding is only applicable when the CPE is in NAT mode.

Figure 4-18: Port Forwarding

Table 4-11: Port Forwarding Parameters


WAN Port

No. The number of the port forwarding rule

Table 4-10: DHCP Server Parameters (Continued)




4.8.5 Port Trigger

The Port trigger dynamically opens port forwarding from a pre-defined WAN forwarding port range to a

pre-defined LAN forwarding port range when a client on the local network makes an outgoing

connection to a predetermined Trigger Port range.

The Port Trigger page includes the following components:

Begin The beginning of the WAN port range

End The end of the WAN port range

LAN IP Address LAN IP address

LAN Port

Begin The beginning of the LAN port range

End The end of the LAN port range

Protocol Communication protocol - Service type of the port to be triggered

Enable The specific port forwarding rule is enabled or disabled.

INFORMATION

Port Trigger is only applicable when the CPE is in NAT mode.

Figure 4-19: Port Trigger Page

Table 4-11: Port Forwarding Parameters (Continued)




4.8.6 Service Line

In the Service Line page you set the rules for data traffic. You can configure rules for Ethernet CS

(Conversion Sublayer) line, IP-CS (IP Conversion Sublayer) line or both. However, you can enable the

rules for only one Service Line type (IPCS or EthCS) at the same time. If both options are enabled at the

same time, traffic will not pass correctly. Up to eight Service Lines can be created for each of the types.

Table 4-12: Port Trigger Parameters


No. The number of port trigger mapping

Name A descriptive name of the port trigger rule

Trigger Port

Begin The beginning of the WAN forwarding port range

End The end of the WAN forwarding port range

Forwarding Port

Begin The beginning of the LAN forwarding port range

End The end of the LAN forwarding port range

Protocol Communication protocol: The Service type of the port to be triggered

Enable The port trigger mapping is enabled or disabled.



4.8.6.1 DSCP Configuration and Service Line Rules

You can configure a range of DSCPs (Differentiated Services Code Point) as a rule. For uplink traffic, if

packets have the DSCP in the specified interval of a rule and are coming from the configured port, then

a match is found and traffic is forwarded towards WAN. For downlink traffic, if the packets have the

DSCP in the specified interval of a rule and the destination is on the configured port then the packets are

forwarded towards LAN.

An active rule (Marking enabled) must have the same value for the start and stop DSCP. For uplink

traffic, when a rule is encountered, the traffic is marked with the corresponding DSCP value, regardless

of the existing DSCP value. For downlink traffic, packets coming from WAN are forwarded to the

configured LAN port only if they have the configured DSCP value. The value of the DSCP field of the first

incoming packet from the specified LAN port are used to mark all the reply packets towards LAN.

For example, if the first coming packet from Ethernet LAN has the DSCP value 3, the second 5 and so

on, and the Service Line rule is configured to mark the Ethernet LAN packets with 10 - all the reply

packets coming from WAN with the DSCP 10 are forwarded to LAN with DSCP 3.

Figure 4-20: Service Line window



Any combination of VLAN ID, VLAN Priority and DSCP Value parameters must be unique over all the

configured service lines. Otherwise the service line configuration is rejected. The set of rules are verified

one by one until a match is found. When a match is found, the other rules are not checked anymore.

The default rule permits all the traffic (DSCP value between 0 and 63).

You cannot configure a rule with a range of DSCPs that contains one of the DSCPs reserved for Data or

MGMT. These values are usually 0 and 6 respectively.

The Service Line page includes the following components. In some sections, click Edit to enable the

configurable options. Some of the parameters are read-only and cannot be modified.

Table 4-13: Service Line Parameters

Parameter Description Remarks

DSCP Configuration

Data DSCP ID A reserved DSCP value for the Data. (Default: 0)

MGMT DSCP ID A reserved DSCP value for Management. (Default: 6)

Multicast flags Allow/disallow multicast packets.

ETHCS Service Line

No. Number of rule

Name Enter a descriptive name for this service line.

VID Start and

VID Stop

VLAN Identification of the data flow in LAN:

Untagged - 4096

Value - range: 1-4094

For VID Start - If you select Untagged, the VLAN ID Stop value, VLAN Priority Start and Stop values will be Untagged.

For VID Stop - This value should be equal or greater than VLAN ID Start value.

VP Stop and

VP Stop

VLAN Priority of the data flow in LAN

Untagged - 8

Value - range: 0-7

Enable Select this check-box to enable this service line type.

If you select this option, do not select Enable in the IPCS Service Line section. Both options cannot be enabled at the same time as traffic will not pass correctly.



PPPoE Select this check-box to enable Point-to-Point Protocol over Ethernet (a network protocol for encapsulating Point-to-Point Protocol (PPP) frames inside Ethernet frames).

OVID Outgoing VLAN ID - VLAN ID of the data flow in WAN:

Transparent - 4096

Value - range:1-4094

Only when VID Start value =VID Stop value = Untagged, OVID can be different from “Transparent”.

The outgoing VLAN ID tagging will be done for all the packets that comply with the DSCP Start and Stop values set in this service line

OVP Outgoing VLAN Priority - VLAN priority of the data flow in WAN:

Transparent - 8

Value - range: 0-7

Only when VLAN Priority Start value = Stop value = Untagged, Outgoing VLAN Priority can be different from “Transparent”.

MultiDupFlag Select Enable/Disable to allow or disallow duplication of multicast packets. When enabled, DL multicast IP packet is duplicated for the specific VLAN ID and priority range configured in this service line.

For future use.

DSCP Start and

DSCP Stop

DSCP values of data flow in LAN:

N/A - 64

Value - range: 0-63

If DSCP Start Value = N/A, the DSCP Stop value should also be N/A

DSCP Marking Select this check-box to tag packets from DSCP to VLAN and vice versa for classification. When the DSCP marking is enabled, the DSCP start value is used to mark all packets coming with the VLAN ID and priority range mentioned above.

DSCP marking cannot be enabled when Outgoing VLAN ID and Priority values are different than Transparent.

IPCS Service Line

VID VLAN ID of the data flow in LAN:

Untagged - 4096

Value - range: 1-4094

VP VLAN Priority of the data flow in LAN:

Untagged - 8

Value - range: 1-7

Table 4-13: Service Line Parameters (Continued)




Click Apply to save the new configuration to the CPE and reboot the system for the new configurations

to take effect.

Enable Select this check-box to enable this service line type.

If you select this option, do not select Enable in the ETHCS Service Line section. Both options cannot be enabled at the same time as traffic will not pass correctly.

MultiDupFlag Select Enable/Disable to allow or disallow duplication of multicast packets. When enabled, DL multicast IP packet is duplicated for the specific VLAN ID and priority range configured in this service line.

For future use.

DSCP Start and

DSCP Stop

DSCP values of data flow in LAN:

N/A - 64

Value - range: 0-63

DSCP Marking Select this check-box to tag packets from DSCP to VLAN and vice versa for classification. When the DSCP marking is enabled, the DSCP start value is used to mark all packets coming with the VLAN ID and priority range mentioned above.

If Start=Stop, Marking can be enabled or disabled. However, if the Start value is less than the Stop value (Start<Stop), only DSCP=Disable is allowed

Insert Add another rule to the list.

Table 4-13: Service Line Parameters (Continued)



Chapter 4 - Operation Configuring Management Settings

4.9 Configuring Management Settings

Click the Management button to view management parameters of the system, for example: TR-069

protocol parameters and NG_VG settings.

4.9.1 TR-069

TR-069 is a bidirectional SOAP/HTTP based protocol that provides the communication between CPE and

Auto Configuration Servers (ACS). It includes both a safe auto configuration and the control of other

CPE management functions within an integrated framework.

The parameters are set by the operator, and the information is displayed in this window as read-only.

The TR-069 page includes the following components:

INFORMATION

Some of the pages are applicable to BreezeMAX PRO 3000 only.

Figure 4-21: TR-069 Page

Table 4-14: TR-069 Parameters


TR-069 Configuration

TR-069 Active Flag If enabled, the TR-069 client automatically starts up when the CPE is operational.



Click Apply to save the new configuration to the CPE. If only the Inform Enable and/or Inform Interval parameters have been changed, the change will take effect during the next inform interval. If other

parameters have been changed, reboot the system for the new configurations to take effect.

4.9.2 Miscellaneous Settings

In this page you view the IP address of the destination NG_VG device.

The NG_VG integrated wireless gateway is a standalone wireless broadband access device and a VoIP

gateway. The NG_VG provides users with broadband internet via the WAN connection and also voice

ACS Server URL The URL to be used by the TR-069 client to connect to the ACS server.

NOTE: This parameter is overwritten if Option-43 is activated in AlvariSTAR Mgmt Service Group (Option 43 provides the ACS URL and is represented by a vendor specific information value). The received ACS URL is restored in the CPE even if it goes offline, unless you change it manually or return to factory defaults.

ACS Username The username to be used by the TR-069 client to connect to the ACS server.

ACS Password The password to be used by TR-069 client to connect to the ACS server.

Inform Enable When enabled, TR-069 client periodically queries the ACS server according to the time defined in the Inform Interval.

Inform Interval (3600 -86400 Seconds)

The time period for the TR-069 client to periodically query the ACS server. The value can range between 3600 and 86400 seconds

Connection Request Username (The ACS server login to CPE)

The username to connect to the CPE and get/set parameters via a connection request mechanism.

Connection Request Password (The ACS server login to CPE)

The password to connect to the CPE and get/set parameters via connection request mechanism.

TR-069 Certificate File Upload

TR-069 Certificate Browse to select a TR-069 certificate required for HTTPS protocol and click Upload to upload the certificate.

NOTE: The only certificate format supported is PEM (Privacy Enhanced Mail, Base64 encoded DER certificate). Confirm the format before uploading.

Table 4-14: TR-069 Parameters (Continued)




over IP, fax, and IEEE 802.11b/g WiFi access. The NG_VG has an external dipole WiFi antenna and

supports TR-069 for remote management.

Setting the IP address enables the discovery of the CPE and its matching NG_VG via the ACS (Access

Control Server). The NG_VG sends a periodic message from its WAN IP address (192.168.254.61) to the

CPE LAN management IP address (192.168.254.251), over a TCP/IP connection, every 60 seconds. The

CPE reports its WAN MAC address and serial number to the NG_VG. The NG_VG then reports the WAN

MAC address and serial number of the CPE to the ACS via the TR069 protocol.

The parameters are set by the operator, and the information is displayed in this window as read-only.

Figure 4-22: Misc. Page


Glossary

Glossary

ACS Access Control Server

Authentication The process to verify the identity of a client requesting network access. IEEE 802.11 specifies two forms of authentication: open system and shared key.

Base Station A WIMAX service provider’s equipment that is installed at a fixed location to provide network connectivity for subscriber stations within a defined service area.

BSID Base Station ID

Biphase Shift Keying (BPSK) A digital modulation method for transmitting data over a coaxial cable network

Channel Allocation Priority Level (CAPL)

CAPL scan list is defined by the customer provisioned list. There are some parameters with CAPL scan: NAPID, priority and RefID.

NAPID is used to filter some BS if the NAPID is not matched.

Priority is the customer defined priority scan order. Higher priority will be scanned first.

RefID is a result of mapping from IDs into a scan list from the channel plan.

CINR Carrier to Interference-plus-Noise Ratio (CINR), expressed in decibels (dBs), is a measurement of signal effectiveness. The carrier is the desired signal, and the interference can either be noise or co-channel interference or both. In order for the signal receiver to be able to decode the signal, the signal must fall into an acceptable CINR range, which differs with the technology used (i.e., CDMA, GSM, etc.).

Customer Premise Equipment (CPE)

Customer Premise Equipment: Communications equipment that resides on the customer's premises.

Dynamic Host Configuration Protocol (DHCP)

A protocol used to assign IP addresses to computers on a Microsoft NT local area network

Domain Name System (DNS) A mechanism used for translating host names for network nodes into IP addresses.

Dynamic Domain Name System (DDNS)

A method, protocol, or network service that provides the capability for a networked device to notify a domain name server to change the active DNS configuration of its configured hostnames, addresses or other information stored in DNS, in real-time.


/wiki/Name_server

Glossary

(“Demilitarized Zone”) DMZ A server that acts as "neutral zone" and separates an internal network from a public one (in order to prevent outside access to a company's private data.

Data/Digital Signal Processor (DSP)

A system that controls voice quality

Differentiated Services Code Point (DSCP)

A field in the header of IP packets for packet classification purposes.

Ethernet A popular local area data communications network, which accepts transmission from computers and terminals.

Ethernet Conversion Sublayer (ETH CS)

A mode in which transmitted packets contain an 802.3 header

Encryption Data passing between the SU-A-EZ and clients can use encryption to protect from interception and evesdropping.

Extensible Authentication Protocol (EAP)

An authentication protocol used to authenticate network clients. EAP is combined with IEEE 802.1X port authentication and a RADIUS authentication server to provide “mutual authentication” between a client, the access point, and the a RADIUS server

EAP-Tunneled Transport Layer Security (EAP-TTLS)

An EAP protocol that extends TLS. (see “Transport Layer Security (TLS)” on page 62)

File Transfer Protocol (FTP) File Transfer Protocol: A TCP/IP protocol used for file transfer.

Hypertext Transfer Protocol (HTTP)

Hypertext Transfer Protocol: HTTP is a standard used to transmit and receive all data over the World Wide Web.

Internet Control Message Protocol (ICMP)

A protocol used to send control messages and error messages during the transmission of IP-type data packets.

IDU Indoor Unit

IEEE 802.16e A standard that provides mobile broadband wireless access using Scalable Orthogonal Frequency Division Multiple Access (SOFDMA).

IP Conversion Sublayer (IP-CS)

A mode in which transmitted packets contain an 802.3 header

ISP Internet Service Provider

Local Area Network (LAN) Local Area Network: A group of interconnected computer and support devices.

Layer 2 Tunneling Protocol (L2TP)

A tunneling protocol used to support virtual private networks (VPNs).

Media Access Control (MAC) Media Access Control: The lower of the two sub-layers of the data link layer defined by the IEEE. The MAC sub-layer handles access to shared media, such as whether token passing or contention will be used.


/wiki/Transport_Layer_Security

bword://!!ARV6FUJ2JP,tunneling protocol/

bword://!!ARV6FUJ2JP,virtual private network/


Glossary

MAC Address

Standardized data link layer address that is required for every port or device that connects to a LAN. Other devices in the network use these addresses to locate specific ports in the network and to create and update routing tables and data structures. MAC addresses are 6bytes long and are controlled by the IEEE.

Maximum Transmission Unit (MTU)

Largest size of a data packet or frame that can be sent in one complete unit over a packet-based computer network

NDS Network Discovery and Selection

Multiple Input Multiple Output (MIMO)

Using multiple antennas in a Wi-Fi device to improve performance and throughput.

MSCHAPV2 (MS-CHAP. v2) Microsoft version of the Challenge-handshake authentication protocol, version 2. MS-CHAPv2 provides mutual authentication between peers by adding a peer challenge upon the Response packet and an authenticator response on the Success packet.

Network Access Point (NAP) Network exchange point equipped with large-scale switching facilities and serving as a connection point between individual Internet Service Providers

Network Address Translation (NAT)

A system for reusing IP addresses - The process of modifying network address information in datagram packet headers, while in transit, across a router, in order to remap a given address space into another.

NSP Network Service Provider

Network Time Protocol (NTP) NTP is a protocol designed to synchronize the clocks of computers over a network. The time servers operate in a hierarchical-master-slave configuration in order to synchronize local clocks within the subnet and to national time standards via wire or radio.

ODU Outdoor Unit

Orthogonal Frequency Division Multiplexing (OFDM)

Orthogonal Frequency Division Multiplexing: OFDM allows multiple users to transmit in an allocated band by dividing the bandwidth into many narrow bandwidth carriers.

Physical Layer Device (PHY) The term used for a transceiver in Fast Ethernet and Gigabit Ethernet systems.

Open Mobile Alliance (OMA) OMA DM (device Management) is a protocol specified by Open Mobile Alliance (OMA) for Device Management purposes, by the Device Management Working Group and the Data Synchronization (DS) Working Group.


/wiki/Microsoft

/wiki/Challenge-handshake_authentication_protocol

/wiki/Challenge-handshake_authentication_protocol

bword://!!ARV6FUJ2JP,Open Mobile Alliance/

bword://!!ARV6FUJ2JP,Open Mobile Alliance/

Glossary

Power Over Ethernet (PoE) A specification for providing both power and data to low-power network devices using a single Category 5 Ethernet cable. PoE provides greater flexibility in the locating of Wi²s and network devices, and significantly decreased installation costs.

Point-to-Point Protocol over Ethernet (PPPoE)

A network protocol for encapsulating Point-to-Point Protocol (PPP) frames inside Ethernet frames.

Quadrature amplitude modulation (QAM)

A modulation scheme that changes digital signals onto a radio-frequency carrier signal involving both amplitude and phase coding. 16QAM allows for 4-bits per symbol of data to be broadcast (giving 16 possible points) 64QAM allows for 6-bits (giving 64).

Quadrature Phase Shift Keying (QPSK)

A digital modulation scheme that conveys data by changing, or modulating, the digital signals onto a radio-frequency carrier signal using four phase states to code two digital bits.

Received signal strength indication (RSSI)

A measurement of the power present in a received radio signal.

RSSI is generic radio receiver technology metric, which is usually invisible to the user of device containing the receiver, but is directly known to users of wireless networking of IEEE 802.11 protocol family.

Shared Key A shared key can be used to authenticate each client attached to a wireless network. Shared Key authentication must be used along with the 802.11 Wireless Equivalent Privacy algorithm.

Session Initiation Protocol (SIP)

An application-layer control (signaling) protocol for creating, modifying, and terminating sessions with one or more participants. It can be used to create two-party, multiparty, or multicast sessions that include Internet telephone calls, multimedia distribution, and multimedia conferences.

Simple Network Management Protocol (SNMP)

Simple Network Management Protocol: The application protocol in the Internet suite of protocols which offers network management services.

Simple Network Time Protocol (SNTP)

SNTP allows a device to set its internal clock based on periodic updates from a Network Time Protocol (NTP) server. Updates can be requested from a specific NTP server, or can be received via broadcasts sent by NTP servers.

Single Input Single Output (SISO)

A form of antenna technology for wireless communications in which a single antenna at both the transmitter and at the destination (receiver) are used.

Subscriber Station A general term for a customer’s WIMAX terminal equipment that provides connectivity with a base station.


Glossary

Temporal Key Integrity Protocol (TKIP)

Temporal Key Integrity Protocol - a security protocol used in Wi-Fi Protected Access (WPA). Unlike WEP, TKIP provides per-packet key mixing, a message integrity check and a rekeying mechanism. TKIP ensures that every data packet is sent with its own unique encryption key.

TR-069 (Technical Report 069) A DSL Forum technical specification entitled CPE WAN Management Protocol (CWMP). It defines an application layer protocol for remote management of end-user devices.

It provides the communication between CPE and Auto Configuration Servers (ACS).

Trivial File Transfer Protocol (TFTP)

Trivial File Transfer Protocol: A TCP/IP protocol commonly used for software downloads.

Transport Layer Security (TLS)

A cryptographic protocol that provides security for communications over networks such as the Internet. TLS encrypts the segments of network connections at the Transport Layer end-to-end.

Unsolicited Grant Service (UGS)

One of the five QoS service types defined in the IEEE 802.16 WiMAX. It is designed to support real-time service flows that generate fixed-size data packets on a periodic basis, such as T1/E1 and Voice over IP without silence suppression.

User Datagram Protocol (UDP))

Protocol with no connection required between sender and receiver that allows sending of data packets on the Internet (thought unreliable because it cannot ensure the packets will arrive undamaged or in the correct order)

Universal Plug and Play Internet Gateway Device (UPnP IGD)

A set of networking protocols promulgated by the UPnP Forum. The goals of UPnP are to allow devices to connect seamlessly and to simplify the implementation of networks in the home and in corporate environments for simplified installation of computer components.

UTP Unshielded twisted-pair cable.

Wide Area Network (WAN) Communications network intended to connect between remote local area networks

Wired Equivalent Privacy (WEP)

Wired Equivalent Privacy: WEP is based on the use of security keys and the popular RC4 encryption algorithm. Wireless devices without a valid WEP key will be excluded from network traffic.

Wireless Application Protocol (WAP)

Wireless Application Protocol (WAP) is an open international standard for application-layer network communications in a wireless-communication environment. Most use of WAP involves accessing the mobile web from any mobile device or phone.


bword://!!ARV6FUJ2JP,Customer-premises equipment/

/wiki/Protocol_(computing)

/wiki/UPnP_Forum

/wiki/UPnP_Forum

/wiki/Peripheral_device

/wiki/Peripheral_device

/wiki/Computer_network

/wiki/Computer_network

Glossary

Wi-Fi Protected Access (WPA) Wi-Fi Protected Access (WPA and WPA2) is a certification program developed to indicate compliance with the security protocol to secure wireless computer networks. The WPA protocol implements the majority of the IEEE 802.11i standard. WPA2 implements the mandatory elements of the 802.11i standard.

WiFi Protected Access, Pre-Shared Key (WPA PSK)

WPA (see above) utilizes 128-bit encryption keys and dynamic session keys to ensure the wireless network's privacy and enterprise security.

There are two basic forms of WPA:

• WPA Enterprise (requires a Radius server)

• WPA Personal (also known as WPA-PSK)

Virtual Private Network (VPN)

A private communications network that is based on the public network and uses information security and channeling protocol in order to maintain security of information transferred over the general network.



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