Siemens Canada 703702 Base station transceiver User Manual
Siemens Canada Limited Base station transceiver
User manual
M/N:
Version: 4.4
Revision: 1.2
Date: April 2008
User Manual &Installation Guide for:
WiN7000 Compact Base Station (cBST)
Family
WiNetworks
Win
-
MAX
TM
802.16e
THE SPECIFICATIONS AND INFORMATION REGARDING THE PRODUCTS IN THIS MANUAL ARE SUBJECT TO
CHANGE WITHOUT NOTICE. ALL STATEMENTS, INFORMATION, AND RECOMMENDATIONS IN THIS MANUAL
ARE BELIEVED TO BE ACCURATE BUT ARE PRESENTED WITHOUT WARRANTY OF ANY KI ND, EXPRESSED
OR IMPLIED. USERS MUST TAKE FULL RESPONSIBILITY FOR THEIR APPLICATION OF ANY PRODUCTS.
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THE INFORMATION PACKET SHIPPED WITH THE PRODUCT AND ARE INCORPORATED HEREIN BY THIS
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WINETWORKS AND WIN-MAX™ ARE REGISTERED TRADEMARKS OF WINETWORKS AND/OR ITS AFFILIATES
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BETWEEN WINETWORKS AND ANY OTHER COMPANY.
WiN7000 cBST Introduction | 3
Table of Contents
Introduction....................................................................................................... 6
1.1
About this Manual .............................................................................................................. 7
1.2
General Description ............................................................................................................ 7
1.3
Package Components and Unpacking ............................................................................. 9
1.4
Safety Information ............................................................................................................ 10
Product Description ........................................................................................ 14
2.1
Introduction ....................................................................................................................... 15
2.2
IEEE 802.16e Mobile WiMAX Compliance ................................................................... 15
2.3
Block Diagram ................................................................................................................... 15
2.4
Features .............................................................................................................................. 17
2.4.1
Mobile WiMAX Wave 2 MIMO Features ........................................................... 17
2.4.2
Security ................................................................................................................... 18
2.4.3
Time Division Duplexing (TDD) ......................................................................... 21
2.4.4
Coding Rate ............................................................................................................ 21
2.4.5
Modulation ............................................................................................................. 21
2.4.6
Error Code Correction .......................................................................................... 21
2.4.7
Time Synchronization ........................................................................................... 22
2.5
Deployment Models ......................................................................................................... 22
2.5.1
PMP Deployment .................................................................................................. 22
2.5.2
Non Line-of-Sight .................................................................................................. 22
2.5.3
Channelization ....................................................................................................... 23
2.6
Service Flows ..................................................................................................................... 23
2.6.1
Service Flow Classification ................................................................................... 23
2.6.2
Dynamic Service Addition ................................................................................... 23
2.6.3
Default Service Flows ........................................................................................... 24
2.6.4
Scheduling .............................................................................................................. 24
2.7
Physical Description ......................................................................................................... 25
Mounting ......................................................................................................... 27
3.1
General ............................................................................................................................... 28
3.2
Site Survey ......................................................................................................................... 29
3.3
Pole Mounting ................................................................................................................... 30
WiN7000 cBST Introduction | 4
3.4
Wall Mounting .................................................................................................................. 30
3.5
Tower Mounting ............................................................................................................... 30
Installation Procedures .................................................................................. 31
4.1
Safety Hazards .................................................................................................................. 32
4.2
Installation Tools............................................................................................................... 32
4.3
Installing the WiN7000..................................................................................................... 32
4.3.1
Pole Mount ............................................................................................................. 34
4.3.2
Wall Mount............................................................................................................. 37
4.3.3
Tower Mount ......................................................................................................... 38
4.3.4
Cable Connections ................................................................................................. 39
4.3.5
Power Cable ........................................................................................................... 40
4.3.6
Console Cable ........................................................................................................ 40
4.3.7
Antenna Cable ....................................................................................................... 41
4.4
Power Connections ........................................................................................................... 42
4.5
Multi-sector Base Station Daisy Chain ........................................................................... 43
Equipment Configuration and Monitoring .................................................... 44
5.1
Configuring WiN7000 ...................................................................................................... 45
5.1.1
Basic Configuration ............................................................................................... 45
5.1.2
Monitoring .............................................................................................................. 49
5.2
Configuring WiN7000 for MIMO ................................................................................... 51
5.3
Configuring the ASN Gateway ....................................................................................... 52
5.4
Monitoring ......................................................................................................................... 53
Management .................................................................................................. 54
6.1
General ............................................................................................................................... 55
6.2
SW Download/Upgrade .................................................................................................. 55
6.3
Web-Based Management ................................................................................................. 55
6.4
SNMP Management ......................................................................................................... 56
cBST WEB Manager ......................................................................................... 57
7.1
Overview............................................................................................................................ 58
7.2
Audience ............................................................................................................................ 58
7.3
Using the Command Set .................................................................................................. 58
7.4
Commands by Functional Area ...................................................................................... 59
7.4.1
Security ................................................................................................................... 59
WiN7000 cBST Introduction | 5
7.4.2
Logs ......................................................................................................................... 59
7.4.3
Misc ......................................................................................................................... 59
7.4.4
UnicastServiceFlow ............................................................................................... 60
7.4.5
SS .............................................................................................................................. 60
7.4.6
Statistics .................................................................................................................. 60
7.4.7
MacFrame ............................................................................................................... 61
7.4.8
FWD ........................................................................................................................ 61
7.4.9
Config ...................................................................................................................... 61
7.4.10
Private ..................................................................................................................... 61
7.4.11
Other........................................................................................................................ 62
7.5
Command Reference ........................................................................................................ 65
Appendix A –Specifications ........................................................................ 160
List of Acronyms............................................................................................ 161
WiN7000 cBST Introduction | 6
1
Introduction
WiN7000 cBST Introduction | 7
1.1 About this Manual
This manual describes the WiN7000 Outdoor Compact Base Station (cBST). It is designed for
installers and operators.
WiN7013-2 and WiN7035-2 will be referred in this manual as WiN7000 from now on.
WiN7000 is a member of the Win-Max™ E family, a line of mobile WiMAX broadband
wireless access systems based on the 802.16e mobile WiMAX standard. The Win-Max™ E
family is described in the System Description manual of WiNetworks.
This manual assumes that users working knowledge of WiMAX technologies and procedures.
While some safety precautions are reviewed here, this manual assumes that installers have
been trained in safe installation practices. Users, who are new to WiMAX technologies and
service procedures, should not rely on this manual for comprehensive guidance.
1.2 General Description
The Base Station unit provides the full base station functionality necessary for serving a single
sector. The Base Station is powered by 48VDC.
The functions of the cBST includes:
• All outdoor, one-box Compact Base Station solution
• IEEE802.16e Wave2 Standard Compliance
• Backbone Ethernet connectivity via a 10/100 Base-T network interface
• Supports fixed and mobile CPEs
WiN7000 cBST Introduction | 8
• Supports 5MHz,7MHz and 10MHz channel bandwidth
• Supports different RF options including 1.x, 3.x GHz bands
• MIMO (2x2) support
• Traffic classification and connection establishment initiation
• Policy-based data switching
• Quality of Service (QoS) management
• Alarms management
• An SNMP agent incorporated into the unit enables extensive In-Band (IB) management
of the Base Station and all its registered CPEs
• R6 interface to ASN GW profile C
The WiNetworks WiN7000 is a member of the Win-MAX E family, a line of mobile WiMAX
broadband wireless access systems based on the 802.16e mobile WiMAX standard. Win-MAX
E systems are designed for robustness and simplicity, offering feature-rich services with low
deployment and operation costs, for unmatched operator competitiveness and fast ROI.
The WiN7000 compact base station is an ideal, cost-effective solution for wireless access
services designed for point-to-multipoint broadband wireless access applications in various
conditions and locations.
The WiN7000 is a one-sector base station which supports up to 800 subscriber units. By
adding switch routing units, the system can be extended to as many sectors as required and
can support additional subscribers and bandwidths.
The WiN7000 provides all the functionality necessary to communicate with fixed and mobile
subscriber units according to the service criteria and customer Service Level Agreements
(SLA), and to connect to the backbone of the Service Provider, supporting the necessary end-
to-end Quality of Service (QoS).
The system uses OFDMA radio technology, which is robust in adverse channel conditions
and enables Non-Line-Of-Sight (NLOS) operation. This allows for improved coverage, while
maintaining a high level of spectral efficiency. Modulation and coding are continuously
adapted to prevailing link conditions, ensuring an optimal balance between robustness and
efficiency. The use of STC/MRC and MIMO radio technologies optimizes link performance to
ensure enhance bandwidth and service coverage.
WiNetworks WiN7000 is a full outdoor base station, especially designed for simple
installation and mounting on various poles, street lamps or walls. The WiN7000 includes
various network interfaces for flexible integration into the operator’s backbone.
The WiN7000 is supported by WiNetworks Power System - WiNPS – and by WiNetworks
Management system – WiNMS.
WiN7000 cBST Introduction | 9
1.3 Package Components and Unpacking
Check that the package contains:
1. WiN7000 Compact Base Station (cBST).
2. Integral 2 x omni-directional antennas (optional 90
0
or 120
0
single sector dual slant
antenna including 2 x 1m antenna cables).
3. cBST pole/wall mounting kit hardware.
4. Antenna pole/wall mounting kit hardware.
5. Single Sector Power Supply (optional Multi Sector WiNPS).
6. 30m 48VDC + ETH WiN cable (optional 80m).
7. Internal GPS receiver and GPS antenna and 1m GPS antenna cable (optional IEEE1588
module).
In case of damage, contact the shipping company.
WiN7000 cBST Introduction | 10
1.4 Safety Information
General
Read this User Manual and follow all operating and safety instructions.
The base station and antenna must be installed by a professional installer.
The power requirements are indicated on the product-marking label. Do not exceed the
described limits.
Power supply Requirements
The power supply unit should be safety-certified according to national rules Class 2 power
supply with a maximum output current of 10A.
The output voltage of the power supply should not exceed 60VDC.
The output voltage should not be below 42VDC.
The disconnecting device is defined for the following modes of power connections:
- The appliance coupler of the AC/DC power supply is regarded as the main disconnecting
device for the base station power when connected to the power through an AC/DC
power supply.
- Circuit breaker double poles, rated 10Amp 60Vdc, shall be defined as a disconnecting
device when the base station is connected to the power through batteries form a central
office.
The unit is considered connected to a centralized DC power system. That is the reason that
the power line should be grounded. The unit should be permanently connected to Ground
with 16AWG cable or less. See figures below showing two method for power grounding
(from the UL 60950-1 standard; acc. to UL 60950-22). When the unit is connected to a
centralized DC Power System, the "+" side of the supply should be grounded, as per
UL60950-1 and UL 60950-22 requirements, as shown in the diagrams below.
WiN7000 cBST Introduction | 11
WiN7000 cBST Introduction | 12
Equipment Installation
The equipment should be installed in accordance with the National Electrical Code (NEC),
ANSI/NFPA 70, the Canadian Electrical Code (CEC), Part 1, CSA C22.1; and when applicable,
the National Electrical Safety Code IEEE C2. And unless marked or otherwise identified, the
Standard for the Protection of Electronic Computer/Data Processing Equipment, ANSI/NFPA
75.
RF Exposure
WiN7000 is compliant with the requirements set forth in CFR 47 section 1.1307, addressing RF
Exposure from radio frequency devices as defined in OET Bulletin 65. The outdoor base
station should be positioned more than 0.6 feet (20 cm) from humans.
Lightning Protection
When WiN7000 is installed in an outdoor location, all indoor components (Ethernet, power
supply) should be connected through a lightning protector.
The purpose of the lightning protection is to protect people and equipment located indoors
from lightning that might strike WiN7000 or its outdoor cables. Therefore, the lightning
protector device should be installed indoors, as close as possible to the point where the cables
enter the building. The lightning protector can also be installed outdoors, as long as the cables
that go from it indoors are well protected from lightning between the box and the building
entrance.
Power Cord Protection
Route all power supply cords so that people cannot walk on them, or place objects on or
against them. This can damage the cords.
Servicing
Do not open the cover of this product and attempt service unless instructed by a WiNetworks
certified technician. Refer all repairs to qualified service personnel. Removing the covers or
modifying any part of this device voids its warranty.
WiNetworks does not endorse or support the use of proprietary third-party outdoor cable
assemblies that were not supplied by WiNetworks.
Keep out of electric power lines.
You can be killed if the antennas are in close proximity to electric power lines. Carefully read
and follow all instructions in this manual. By nature of the installation, you may be exposed
to hazardous environments and high voltage. Use caution when installing the outdoor
system.
Antenna Grounding Requirements
The antenna installation must be as per Article 810 of the NEC. Of particular note is the
requirement that the grounding conductor not be less than 10 AWG (Cu). The scheme should
be either in accordance with UL 96 and 96A. Lightning Protection Components and
Installation Requirements for Lightning Protection Systems, or tested in accordance with UL
50 and UL 497.
WiN7000 cBST Introduction | 13
Outdoor Grounding System
Verify that the base station is grounded.
The system must be properly grounded to protect against power surges and accumulated
static electricity. It is the installer responsibility to install this device in accordance with the
local electrical codes.
User ports and power supply
If length of communication lines outdoor exposed wiring greater that 40 m (140 feet) is
applicable, these lines must be treated as TNV-1 circuits. The installer must ensure that the
power supply and network ports are designed for full compliance with TNV-1
telecommunication network.
Caution
To reduce the risk of fire , use only no. 26AWG or larger telecommunication line cord.
NOTE:
This equipment has been tested and found to comply with the limits for a Class B digital
device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable
protection against harmful interference in a residential installation. This equipment generates,
uses and can radiate radio frequency energy and, if not installed and used in accordance with
the instructions, may cause harmful interference to radio communications. However, there is
no guarantee that interference will not occur in a particular installation. If this equipment
does cause harmful interference to radio or television reception, which can be determined by
turning the equipment off and on, the user is encouraged to try to correct the interference by
one or more of the following measures:
- Reorient or relocate the receiving antenna.
- Increase the separation between the equipment and receiver.
- Connect the equipment into an outlet on a circuit different from that to which the receiver is
connected.
- Consult the dealer or an experienced radio/TV technician for help.
Changes or modifications to this equipment not expressly approved by WiNetworks Ltd.
could void the user’s authority to operate the equipment.
WiN7000 cBST Product Description | 14
2
Product Description
WiN7000 cBST Product Description | 15
2.1 Introduction
The WiN7000 base station is an IEEE 802.16-2005 compliant wireless device designed for the
deployment of point-to-multipoint (PMP) network architectures.
The WiN7000 base station is an outdoor device. Each Win-Max
TM
network segment is
comprised of a WiN7000 base station and one or more WiMAX Forum 802.16e Wave 2
Certified subscribers. Each subscriber registers and establishes a bi-directional data link with
the sector controller of the base station.
WiN7000 base station is part of the 802.16e Access Service Networ (ASN). It functions as a
central hub or concentrator, connected to a Core Services Network (CSN) through the Access
Service Network Gateway (ASN-GW), managing wireless links for fixed, nomadic and
mobile subscribers. The WiN7000 base station enforces the Quality of Service (QoS) settings
by controlling all uplink and downlink traffic scheduling, providing non-contention based
traffic with predictable transmission characteristics.
2.2 IEEE 802.16e Mobile WiMAX Compliance
The IEEE 802.16-2005 specifications describe a PMP broadband wireless access standard for
systems. This standard includes descriptions for both the Media Access Control (MAC) and
the physical (PHY) layers.
The WiN7000 base station is compliant to IEEE 802.16-2005 WiMAX forum Wave 2 profile.
Note
802.16e standards are subject to amendment, and Win-Max
TM
product family design
compliance applies to a specific revision of the standard. The Win-Max
TM
product family
does not support mesh communication (direct subscriber-to-subscriber).
WiNetworks is an active member of the WiMAX Forum™ and participates in interoperability
testing in the WiMAX Forum.
2.3 Block Diagram
WiN7000 consists of the followings modules:
1. Base-Band Board – including the WiMAX 16e MIMO Base-Band SoC plus the network
interface (Gb-ETH Switch) plus the analog front-end that interface to the RF module.
2. Timing Module – Clock source for the BST modules. Can be either GPS receiver or
IEEE1588 (IP packet sync).
3. CPU Module – High performance CPU with its memories, that runs the WiMAX 16e
MAC plus the Layer 3 - Networking stacks that runs above the WiMAX MAC. The CPU
is responsible for the management (control, configuration and maintenance) of all the BS
modules.
WiN7000 cBST Product Description | 16
4. 2 x RF Board – Each board consists of single transmit/receive module that modulate the
analog WiMAX signal input from the Base-Band modem to the high frequency RF
output. Several RF modules exist - each supporting different frequency band.
5. 2 x PA Board – Power Amplifier module that amplifies the RF signal from the RF output
to the desired transmit output power. Several modules exist, supporting the different
frequencies and several transmit levels.
6. Power Supply – DC/DC power supply. Converts the 48VDC to the various voltages that
are feeding the Digital and the RF modules.
7. Chassis: 140W power dissipating aluminum box.
8. Antennas: Two Antennas to support the MIMO schemes. Several antennas option exists
(e.g. External 65/90/120 Sectors, Integral Omni).
Timing
Base-Band
CAT5
-48VDC
To GPS Antenna
(Option)
CPU
Figure
2-1: WiN7000- Block Diagram
WiN7000 cBST Product Description | 17
2.4 Features
2.4.1 Mobile WiMAX Wave 2 MIMO Features
Multiple-Input, Multiple-Output (MIMO) describes systems that use more than one radio and
antenna system at each end of the wireless link. In the past, it was too costly to incorporate
multiple antennas and radios in a subscriber terminal. Recent advances in radio
miniaturization and integration technology makes it feasible and cost-effective. Combining
two or more received signals has the immediate benefit of improving received signal
strength, but MIMO also enables transmission of parallel data streams or greater throughput.
For example, in a 2 x 2 MIMO (two transmit and two receive elements), dual polarization
point-to-point system, the carrier’s allocated frequency can be used twice, effectively
doubling the throughput data rate.
In point-to-multipoint systems employing MIMO, each base station antenna transmits a
different data stream and each subscriber terminal receives various components of the
transmitted signals with each of its subscriber antennas as illustrated in the figure below. By
using appropriate algorithms, the subscriber terminal is able to separate and decode the
simultaneously received data streams.
Figure
2-2: MiMo Antenna System
MiMo
MiMo
WiN7000 cBST Product Description | 18
2.4.1.1 Space-Time Coding
Space-time coding (STC) is a technique for implementing transmission diversity. Mobile
WiMAX uses transmit diversity in the downlink direction to provide spatial diversity that
enhances the signal quality to a specific subscriber located anywhere within the range of the
antenna beam. Although providing less signal gain than beam-forming, transmit diversity is
more robust for mobile users since it does not require prior knowledge of the path
characteristics of a subscriber’s particular frequency channel. One such STC technique,
known as the Alamouti Code, was published in 1998[4] and has been incorporated into the
WiMAX 16e standard.
2.4.2 Security
Security was a key failing of older broadband wireless systems of the past. The why of it is
easy to comprehend---any network that transmits its data across wireless signals rather than
wires is inherently more open to interference, intrusion or assault. This does not mean solid
broadband wireless security is impossible, just much more difficult.
As broadband wireless networks have matured security features have improved. With the
advent of WiMAX, the security toolsets available to broadband wireless service providers
have reached all time highs of functionality. Today's WiMAX networks can be secured more
effectively than ever before.
WiMAX and IEEE 802.16 Security Sub layer provides for privacy, authentication and
confidentiality across the broadband wireless network. Defined initially by IEEE 802.16-2004
and then corrected and amended by Corrigendum 1 and IEEE 802.16e-2005 respectively, the
Security Sub layer now supports Fixed and Mobile operation.
There are two major differences between the standards. The first difference is that the security
mechanism of the IEEE 802.16-2004 is based on the DOCSIS standard. In the 802.16e-2005
many changes have been made in the security mechanisms. The second difference is in the
flexibility of SS's connection characteristics with the BST. The IEEE 802.16-2004 only supports
fixed access. In fixed access, an SS cannot mitigate to the air interface of a new Base Station
(BST) without performing the network entry again after a connection termination. The IEEE
802.16e-2005 supports mobile access. Mobile access enables an SS to move between various
BST cells while keeping the connection established.
There are five primary aspects of WiMAX security that should be considered when designing
a security plan for a WiMAX network. These range from mitigation techniques at the physical
layer to improved wireless authentication and encryption to intrusion protection and data
transport security. At each level, choices in implementation and security levels can be made;
although in the case of the physical layer options are limited.
2.4.2.1 Physical Layer Security
There are two basic types of attacks that can affect the physical layer of WiMAX. One is
jamming and the other is packet scrambling. The first is relatively straightforward, and is
sometimes the result of interference rather than an attack. Jamming consists of a stronger
signal than the WiMAX network overwhelming network data feeds either in intermittent
bursts or with sustained carrier waves.
WiN7000 cBST Product Description | 19
Since most WiMAX network services are delivered over licensed bands (currently 3.5 GHz
internationally and 2.5 GHz both internationally and in the US), this offers spectrum
relatively quiet from accidental interference. Accidental interference in licensed spectrum
cannot always be completely discounted as there is a possibility of second and third harmonic
interference waves, for example, from much lower frequency signals if those are in close
proximity to the WiMAX antenna systems or that cross them with a signal close enough in
physical proximity to locally overload the WiMAX signal. In practice, this is rare.
Packet scrambling is an attack that occurs when control packets in the respective downlink
and uplink subframes are sniffed then scrambled and returned to the network. This attack is
much harder to mount than a jamming attack. Since most WiMAX networks today use time
division duplexing (TDD), to include the Win-Max™ system, an attacker can parse this
timing sequence and capture control data, the preamble and map, scramble them and send
them back with correct timing to interrupt legitimate signal, resulting in slowdowns and
effectively lowered bandwidth. Intercepted and scrambled packets are possible with
frequency division duplexing (FDD) as well which transmits both the uplink and downlink
simultaneously, but it is even harder to exploit this attack than with TDD systems.
While it may seem the physical layer is inherently most vulnerable as the security elements of
WiMAX are located at higher layers, the fact is hackers can often find lower hanging fruit in
terms of useful exploits higher in the stack, because as WiMAX supports multiple selections
on what service providers can choose to implement in terms of authentication, sometimes the
door can be left open for them by the choices made.
2.4.2.2 Authentication
Traditionally the first level of security authentication for older broadband wireless
technologies has been MAC authentication and WiMAX supports this, although providers do
not settle for this method. This technique allowed service providers to log permitted MAC
device addresses and allow only those addresses to access the network. Hackers long ago
figured out how to spoof these. If a base station is not set up with adequate authentication
measures, an attacker can capture control packets and pose as a legitimate subscriber even
with older MAC device authentication enabled.
A second, newer and much better choice, embraced by the Win-Max™ system, is the built in
support for X.509 device certificates embedded with the use of extensible authentication
protocol---transport layer security (EAP-TTLS) method, added with the 802.16e standard and
WiMAX Forum.
Enter the EAP-TLTS authentication method. This technique allows both the subscriber and
the base station to authenticate each other using an X.509 method for both, in addition to a
subscriber authentication which is based on well-known subscriber authentication techniques
such PAP and MS-CHAP. MAC control headers are never encrypted in WiMAX, however
with EAP carriers can choose to authenticate them (but they don't necessarily have to). This
capability adds an additional layer of authentication confirmation. It's an operator specific
guideline decision and is tunable in the Win-Max™ system.
WiN7000 cBST Product Description | 20
2.4.2.3 Encryption
Clearly the first layer of defense for WiMAX operators is to authenticate a legitimate user on
its network. However, WiMAX, with its 802.16e ratification, offers top line tools for
encryption of data. Older wireless iterations used the data encryption standard (DES) which
relied on a 56-bit key for encryption. This is largely considered obsolete. WiMAX 802.16e
certainly supports DES (3DES) but it also adds support for the Advanced Encryption
Standard (AES), which supports, 128-bit, 192-bit or 256-bit encryption keys. Also AES meets
the Federal Information Processing Standard (FIPS) 140-2 specification, required by
numerous governmental branches. This technology, which requires dedicated processors on
board base stations, is robust and highly effective.
Traffic encryption may be employed per 802.16 Service Flow and is subject to operator policy.
The relevance of encryption to the network operator deployment is questionable. In the past,
for example, many cellular carriers focused on authentication and mostly ignored encryption.
Whether that will change as mobile service providers ramp up more broadband applications
is an open question.
The downside to these heavy computing tasks (i.e. authentication and encryption) is that all
of this requires processor cycles, which may affect the performance of the system.
Nevertheless, the Win-Max™ system and especially, the SS and BST which are the entities
that take active role in heavy security-related computations, were built bottom to top with a
design goal of offloading heavily computing tasks from the host processor to a specific circuit.
Consequently, no performance degradation is neglected.
2.4.2.4 Third-Party Intrusion Protection
We examined WiMAX authentication schemes, which are a major component of a secure
network. And we also spoke of data encryption. Clearly, WiMAX possesses solid tools
already built in. But there are considerations beyond just good security that can drive a
migration to third party intrusion detection and protection tools---namely business case
elements. Intrusion protection is however, not data protection. These are two different classes
of solution. Certainly a good third party intrusion protection can monitor and secure a
network's authentication. However, many solutions also offer worm protection, Trojan horse
protection, defenses against viruses, backdoor exploits and denial of service attacks to name a
few. Some of these elements are almost a business necessity for a wireless service provider
and may justify the cost of an additional security suite initially. For other companies, a
migration strategy to enhanced tools makes the most cost effective sense.
A good place to start is examining market and service scenarios. If your customer base is
highly sensitive to data integrity (financial sector or hospital customers) third party intrusion
prevention systems can help segment customers from each other better as well as secure them
from outside attack.
Or in another example, a mobile network that offers just Internet access and voice may wish
to abrogate responsibility for data encryption and use session initiation protocol (SIP)
signaling for its VoIP and WiMAX native authentication tools.
Referring to encryption, clearly an AES supported data encryption system gives WiMAX
excellent security in this regard. However, additional solutions that meet customer needs
WiN7000 cBST Product Description | 21
such as virtual private networks may enhance the business model and provide additional
source of revenue.
In the following two clauses, two revolutionary applications targeted at specific market
segments are described. These applications of WiMAX for DBS & DVB-T operators and
WiMAX for Cable operators distinguish WiNetworks from other players in the WiMAX
industry.
Network Access Providers can easily provide fast Internet and advanced data service to their
deployed network by using the WiNetworks WiMAX-based technology solution.
2.4.3 Time Division Duplexing (TDD)
The WiN7000 base station uses time division duplexing (TDD) to transmit and receive on the
same RF channel. This is a non-contention based method for providing an efficient and
predictable two-way PMP cell deployment. All uplink and downlink transmission scheduling
is managed by the base station. The base station sends data traffic to subscribers, polls for
grant requests, and sends grant acknowledgements based on the total of all traffic to all
subscribers.
2.4.4 Coding Rate
Each burst of data transmitted over the wireless interface is padded with redundant
information, making it more resistant to potential over-the-air errors. The coding rate is the
ratio of user data to the total data transmitted including the redundant error correction data.
The base station supports coding rates of 1/2, 2/3, and 3/4.
2.4.5 Modulation
The modulation technique specifies how the data is coded within the OFDMA carriers. The
base station supports QPSK, 16 Quadarature Amplitude Modulation (QAM), and 64 QAM
modulations.
2.4.6 Error Code Correction
Error correction techniques have been incorporated into WiMAX to reduce the system signal
to noise ratio requirements. Strong Reed Solomon FEC, convolutional encoding, and
interleaving algorithms are used to detect and correct errors to improve throughput. These
robust error correction techniques help to recover erroneous frames that may have been lost
due to frequency selective fading or burst errors. Automatic repeat request (ARQ) is used to
correct errors that cannot be corrected by the FEC, by having the erroneous information
resent. This significantly improves the bit error rate (BER) performance for a similar threshold
level.
The WiN7000 supports two Forward Error Correction (FEC) types: CC and CTC.
WiN7000 cBST Product Description | 22
Convolution Coding (CC) error correction is enabled for all traffic rates. This low-level
process can correct bursts of errors in received messages and reduce the number of
retransmissions.
Convomotional Turbo Code (CTC) error correction is supported for all traffic rates. The CTC
has better performance than the CC.
2.4.7 Time Synchronization
When operating two or more collocated base stations, transmitter operations MUST be
synchronization to minimize inter-sector interference and inter sites interferences due to the
TDD use. Each base station sector has a GPS receiver or optionally IEEE1588 compliant
synchronization module. External GPS antenna must be connected to the GPS port located on
the connector panel when a GPS receiver option is used.
2.5 Deployment Models
The base station supports point to multipoint (PMP) deployment scenario.
2.5.1 PMP Deployment
When deployed in a PMP configuration the base station establishes bi-directional links to
more than one subscriber. PMP deployments typically use a wide beam (sector) antenna at
the base station and a narrow beam antenna at the subscriber. Service flows are used to police
service-level agreements for each subscriber.
2.5.2 Non Line-of-Sight
The Win-Max
TM
product family supports line-of-sight (LOS) and non line-of-sight (NLOS)
operation. A clear LOS link has no obstacles within 60% of the first Fresnel zone of the direct
path.
A wireless link is considered non-LOS if natural or man-made structures block the visible
path between the base station and the subscriber. In this case, a wireless link can be
established only if a reflective path can be established between the base station and
subscriber.
WiN7000 cBST Product Description | 23
2.5.3 Channelization
The base station is a frequency-specific system, with the frequency band defined by the PHY
unit. The use of the operating band must be in accordance with local regulation requirements.
The base station divides the available frequency band into channels. Allocation of channels
during deployment is dependent on spectrum availability in the licensed band and local
licensing requirements and conditions. Channel selection allows planners to obtain the
maximum geographic coverage, while avoiding frequency contention in adjacent sectors.
2.6 Service Flows
Service flows are a key feature of the 802.16e standard.
A service flow represents a unidirectional data flow. Transmitting bidirectional traffic
requires that two service flows be defined: one for the uplink, and another for the downlink.
These service flows can have different QoS settings.
The base station allows multiple service flows to be configured for each subscriber in a sector.
This allows service providers to offer different services, and segregate traffic flows having
different QoS requirements.
A service flow is partially characterized by the following attributes:
1. A 32-bit Service Flow ID (SFID) is assigned to all existing service flows. The SFID serves
as the principal identifier for the Service Flow and has an associated direction.
2. A 16-bit Connection ID (CID) is associated with each active SFID (connection active).
3. A set of QoS parameters specifying the required resources. The principal resource is
bandwidth, but the specification may also include latency requirements.
4. A set of QoS parameters defining the level of service being provided.
2.6.1 Service Flow Classification
Data packets are forwarded based on classification rules. Classification rules require
examining each packet for pattern matches such as destination address, source address or IP
TOS. All classification is defined at the base station and the classification parameters are
downloaded to the subscriber.
2.6.2 Dynamic Service Addition
Service flows are defined and stored in the base station. For each service flow to be
established, the base station sends a setup message to the subscriber specifying the required
set of QoS parameters. The subscriber responds to each request by accepting or rejecting the
setup message.
WiN7000 cBST Product Description | 24
A service flow may be pre-provisioned or can be dynamically created and deleted without
service outage. This is useful for supporting multiple subscribers in a single sector. New
subscribers can be added and existing subscribers can be removed or have service levels
modified.
Setup messages are sent by the base station following any subscriber power-cycle, loss and
recovery of the wireless link to a subscriber, or any service flow add/delete operation at the
base station.
2.6.3 Default Service Flows
Default UL/DL service flows are created automatically for each registered subscriber.
These service flows are used to pass all traffic not matching any user-defined service flow
(such as broadcast ARP) between the base station and subscribers. The default service flow
capacity is limited for each subscriber.
2.6.4 Scheduling
The base station scheduling algorithm uses two scheduling passes. On the first pass, the
scheduler attempts to allocate bandwidth to meet the minimum rates for all active service
flows. If there is available bandwidth remaining at the end of the first pass, the scheduler
executes a second pass and attempts meet all specified maximum rates. During both passes,
bandwidth allocations are assigned based on the following order of assessment:
1. Priority of the scheduling service type, from highest to lowest (rtPS first, and then BE).
2. Traffic Priority setting when multiple service flows have the same service type.
Wireless transmission bandwidth is optimized by granting allocations based only on traffic
available for immediate transmission: only the required bandwidth is allocated, and idle
service flow channels do not receive any bandwidth allocation
The base station enforces QoS settings for each service flow by controlling all uplink and
downlink traffic scheduling. This provides non-contention based traffic model with
predictable transmission characteristics. By analyzing the total of requests of all subscribers,
the base station ensures that uplink and downlink traffic conforms to the current service level
agreements (SLAs). Centralized scheduling increases predictability of traffic, eliminates
contention, and provides the maximum opportunity for reducing overhead.
A regular period is scheduled for subscribers to register with the base station. These
subscribers may be newly commissioned or have been deregistered due to service outage or
interference on the wireless interface. This is the only opportunity for multiple subscribers to
transmit simultaneously.
Real-Time Polling Service (rt-PS)
The base station schedules a continuous regular series of transmit opportunities for the
subscriber to send variable size data packets. The grant size is based on the current data
transfer requirement. Typical applications include streaming MPEG video or VOIP with
WiN7000 cBST Product Description | 25
silence suppression. This is efficient for applications that have a real-time component and
continuously changing bandwidth requirements.
Extended Real-Time Polling Service (ert-PS)
The base station schedules a continuous series of transmit opportunities for the subscriber to
send variable size data packets. This schedule supports real-time applications including VoIP
with silence suppression. The dynamically scheduled grants guarantee reserved bandwidth
and reduce latency introduced by repetitive grant requests. The service flow will not transmit
packets larger than nominal grant interval.
Non-Real-Time Polling Service (nrt-PS)
The base station schedules regular transmit opportunities for the subscriber to send variable
size data packets. Typical applications may include high bandwidth FTP. The polling period
may typically be one second or less, even during periods of network congestion.
Best Effort (BE)
The base station schedules transmit opportunities for the subscriber to send traffic based on
unused bandwidth after all higher-level traffic-scheduling requirements are serviced.
Typical applications may include Internet access and email. Best effort service flows can be
assigned a priority of 0 to 7.
Unsolicited Grant Service (UGS)
The base station schedules a continuous series of transmit opportunities for the subscriber to
send fixed size data packets. This schedule supports real-time applications including VoIP or
TDM transport. The UGS pre-scheduled grants guarantee reserved bandwidth and reduce
latency introduced by repetitive grant requests. The service flow will not transmit packets
larger than nominal grant interval.
2.7 Physical Description
The WiN7000 outdoor base station is packed in a waterproof metal housing. Mounting
bracket and mounting kit supplied with the equipment support ease of installation at various
sites.
WiN7000 cBST Product Description | 26
WiN7000 with 2 Omni-
directional Antennas
WiN7000 with External Antennas
Figure
2-3: WiN7000 Outdoor Base Station Mounted – General View
The WiN7000 housing holds the connection panel detailed below.
Figure
2-4: WIN7000 – Top View
Dimensions: 60cm x 27cm x 10cm
Weight: <15 Kg
The interconnection panel holds the external connectors used to connect the equipment to the
network, power supply and antennas as illustrated below. The interconnection panel holds 6
connectors. Detailed description of these connectors can be found in Section 4 of this
document.
Figure
2-5: WiN7000 Interconnection Panel
WiN7000 cBST Mounting | 27
3
Mounting
WiN7000 cBST Mounting | 28
3.1 General
When choosing mounting locations for the antenna, consider the available mounting
structures and antenna clearance. WiN7000 should be mounted downward to provide better
weather protection.
The cBST is equipped with a mounting kit, which allows for several mounting options such
as the following examples:
1. Poles
2. Towers
3. Walls
The following antenna options are provided:
1. 2 x Integrated Omni-directional antenna (default)
2. External Sector dual slant ±45º antenna (optional)
The following figure illustrates various mounting options.
Pole Installation
1 Base Station with integrated 2
x omni-directional antennas
Tower Installation
3 Base Stations with 3
external sector antennas
Wall Installation
1 Base Station with integrated 2 x omni-
directional antennas
WiN7000 cBST Mounting | 29
3.2 Site Survey
Due to variations in component configuration, placement, and physical environment, each
installation is unique. Before installing the WiN7000, perform a site survey to determine the
optimum placement of units for maximum range, coverage, and network performance.
Consider the following factors when performing a site survey:
•
Data rates—Sensitivity and range are inversely proportional to data bit rates. The
maximum radio range is achieved at the lowest workable data rate. A decrease in receiver
threshold sensitivity occurs as radio data rate increases.
•
Antenna type and placement—Proper antenna configuration is a critical factor in
maximizing radio range. As a rule, range increases in proportion to antenna height and
gain.
•
Physical environment—Clear or open areas provide better radio range than closed or
filled areas. The less cluttered the operating environment, the greater the range.
•
Electric power considerations
•
Regulations (Max Power, EIRP)
Most wireless networks include many CPEs and BSTs installed in various locations in an
overlapping radio-cell pattern. It is important to select carefully each CPE’s location and radio
channels. Therefore, a site survey becomes an essential first step before physically deploying
the WiMAX solution.
Installation of the CPEs requires a backhaul to interface the corporate network or Internet.
This backhaul connection can be an Ethernet-wired connection, a wireless–connection, or a
third party solution.
The site survey should conclude a detailed planning of the WiMAX system deployment. The
system deployment plan should include mounting points and the routes for the power and
backhaul cables.
Recommended Site Requirements
It is highly recommended that the WiN7000 BSTs be mounted near the edge of the roof of a
tall building. The WiN7000 BSTs should be pointed in the direction of the area to be covered.
To provide maximum coverage, multiple WiN7000 BSTs can be installed on the same rooftop.
However, it is important to leave some distance between each unit in order to prevent
interference between the units themselves. When choosing the ideal location, it is also
important to take into consideration the overall area topology.
WiN7000 cBST Mounting | 30
3.3 Pole Mounting
Select a mounting location. You can attach the WiN7000 to any pipe or pole with diameter
1.75” to 10"
3.4 Wall Mounting
Select a mounting location. You can attach the WiN7000 to any wall that can support the load
of the WiN7000 cBST.
3.5 Tower Mounting
Select a mounting location. You can attach the WiN7000 to any tower that can support the
load of the WiN7000 cBST. The tower mounting is analogous to wall mounting.
WiN7000 cBST Installation Procedures | 31
4
Installation Procedures
WiN7000 cBST Installation Procedures | 32
4.1 Safety Hazards
Warning:
Installing WiN7000 can pose a serious hazard. Be sure to take precautions to avoid the
following:
Exposure to high voltage lines during installation
Falling when working at heights or with ladders
Injuries from dropping tools
Contact with AC wiring (power system connection)
Antenna Grounding Requirements: The antenna installation must be as per Article 810 of the
NEC. Of particular note is the requirement that the grounding conductor not be less than 10
AWG (Cu). The scheme should be either in accordance with UL 96 and 96A. Lightning
Protection Components and Installation Requirements for Lightning Protection Systems, or
tested in accordance with UL 50 and UL 497.
4.2 Installation Tools
1. Screwdriver
2. Wrench
3. Driller
4. Hammer
4.3 Installing the WiN7000
Important
The equipment should be installed in accordance with the National Electrical Code (NEC),
ANSI/NFPA 70, the Canadian Electrical Code (CEC), Part 1, CSA C22.1; and when
applicable, the National Electrical Safety Code IEEE C2. And unless marked or otherwise
identified, the Standard for the Protection of Electronic Computer/Data Processing
Equipment, ANSI/NFPA 75.
The installation involves the WiN7000 device and the mounting bracket. The mounting
bracket should be installed first, followed by WiN7000, which should be inserted into it, as
explained below.
WiN7000 cBST Installation Procedures | 33
Figure
4-1: Mounting Bracket
Figure
4-2: WiN7000
Use the connecting panel on the lower side of the WiN7000 to attach cables to the device. See
Section 4.3.4 for details
Figure
4-3: Connecting Panel
WiN7000 cBST Installation Procedures | 34
4.3.1 Pole Mount
Figure
4-4: Pole Mount: Base station fully mounted – rear view
Figure
4-5: Pole Mount: upper connections
WiN7000 cBST Installation Procedures | 35
Figure
4-6: Pole Mount: lower connections
The following table lists the required parts.
To install the WiN7000 on a pole:
1. Select a mounting location on the pole.
2. Attach the mounting bracket at this location using the fastening brackets and the
MSH00011 screws.
3. Lift the base station by its round bolts (ears) and place it on the mounting bracket’s base.
WiN7000 cBST Installation Procedures | 36
4. Attach the top mounting bracket with the two bolts.
WiN7000 cBST Installation Procedures | 37
4.3.2 Wall Mount
Figure
4-7: WiN7000 – Wall Mount
To install the WiN7000 on a wall:
1. Select a mounting location on the wall.
2. Place the mounting bracket on the wall and mark the location of four holes (two at the
top and two at the bottom).
3. Drill the four holes for the fastening inserts (use 5/16 inch drill).
4. Insert the fastening inserts type NC ¼ into the holes.
5. Insert four flat washers, four spring washers, four screws type NS1/4 X ½ HEX via the
holes on the mounting bracket.
6. Attach the mounting bracket at this location.
7. Fasten the screws.
8. Hold the WiN7000 by the ears on both sides and slide it into the mounting bracket with
care.
9. The ears should match the ridge of the mounting bracket.
WiN7000 cBST Installation Procedures | 38
10. Insert the nuts (at both sides of the mounting bracket) until it matches the treads of the
WiN7000 enclosure.
11. Insert the nuts and fasten them using a wrench,
Figure
4-8: WiN7000 –Wall Mount - Assembled
4.3.3 Tower Mount
Follow the same procedure as wall mounting. Make sure that the tower can hold the load of
the cBST.
WiN7000 cBST Installation Procedures | 39
4.3.4 Cable Connections
The following illustration shows the connectors on the lower panel of the WiN7000.
Figure
4-9: Interconnection Panel
Table
4-1: List of Connectors and Cables
No. Design. Connector
Type
Cable Type Function Connected to
1 GND 2 screws
ETSI
#10 AWG bare
copper wire
Grounding Central earth ground,
Tower or pole chassis
2 ANT1 N type
Female
RG 214/U Connected to external antenna
or screw omni-directional
antenna
Antenna
3 GPS TNC
Female
Base Station Synchronization GPS antenna
4 DC + ETH Proprietary WiN
cable
48 VDC/ Return / 5A +
Ethernet Cat5
power supply +
Network/Router/Switch
5 Console 3-pin RS-232 Low level CLI for technicians PC
6 DC + ETH Proprietary WiN
cable
48 VDC/ Return / 5A +
Ethernet Cat5
Optional Multi sector
base station Daisy
Chaining
7 ANT2 N type
Female
RG 214/U Connected to external antenna
or screw omni-directional
antenna
Antenna
1 2 3 4 5 6
7
WiN7000 cBST Installation Procedures | 40
4.3.5 Power Cable
The pin-out of the power cable is shown below:
Pin Number Type
1 NC
2 48VDC (RTN)
3 +TX Ethernet
4 - TX Ethernet
5 +RX Ethernet
6 48VDC (+)
7 NC
8 NC
9 - RX Ethernet
Figure
4-10: Power Cable Pin-out
4.3.6 Console Cable
Important
The console connector should be closed in normal condition and may be used only
occasionally by an authorized technician.
The chassis has a 3-pin maintenance female connector, used by a technician to connect a
“console”.
The port is used by a maintenance person to communicate with the processor when the
normal management interfaces cannot be used. The console port is based on RS-232 serial
standard and support a standard terminal connection.
WiN7000 cBST Installation Procedures | 41
The technician can configure and monitor the base station through CLI (Command Language
Interface) for low level debug.
The connector is shown in the following figure:
Figure
4-11: Console Connector
The maintenance connector pin out is listed in the following table:
Table
4-2: Maintenance connector
Pin Number Type
1 TX
2 RX
3 GND
Cable type: 3 wires 28AWG
Cable connectors: DB9F, proprietary 3 pin console connector
Cable length: 2m
The cable is supplied by Winetworks.
4.3.7 Antenna Cable
Important
The part of antenna that is connected to the central pin of antenna connector should be
covered by isolation material which is sufficiently resistant to degradation by ultra-violet
(UV) radiation.
WiN7000 cBST Installation Procedures | 42
4.4 Power Connections
WiN7000 is supplied with +48/-48VDC via an external power system.
The power system type can be indoors or outdoors.
The power system can be supplied by WiNetworks (WiNPS) or by the operator.
Refer to power system’s user manual for specific power connection to the main (AC) local
power outlet.
Connect the WiNPS power system DC + ETH output to the WiN cable connector (supplied by
WiNetworks).
Connect the other side of the WiN cable connector to the DC + ETH connector of WiN7000.
For more information, olease refer to WiNPS specification and user manual.
The illustration below shows the physical connection between the WiN7000 cBST, the power
system and to the AC power source.
Figure
4-12: cBST Power Connection
WiN7000 cBST Installation Procedures | 43
4.5 Multi-sector Base Station Daisy Chain
The cBST supports daisy chain architecture for low-cost modular multi-sector base station
sites.
The cBST chassis has 2 x Power and Ethernet (marked: DC + Eth) combo connections
supporting a multi-sector base station daisy chain architecture.
The two combo connections have the same functionality and both can serve as input to the
base station or output from the base station towards the next daisy chained base station. The
chassis has no means of protection (fuses, switches etc.) for the power channeled to the
chained unit.
One combo connector should be connected to the power source and the Ethernet aggregator
(WiNPS). The other combo connector in the first BS should be connected to the combo
connector on the other BS, and so on.
The maximum length of all parts of the daisy chain cables should not exceed 100m.
Figure 4-13 shows the physical daisy chain connection between 3 x WiN7000 cBSTs. The
length of A+ B + C should not exceed 100m.
Figure
4-13: cBST Daisy Cain Connection
WiN7000 cBST Equipment Configuration and Monitoring | 44
5
Equipment Configuration and
Monitoring
WiN7000 cBST Equipment Configuration and Monitoring | 45
5.1 Configuring WiN7000
5.1.1 Basic Configuration
WiN7000 cBST can be monitored and controlled with a standalone PC or through a
management system (WiNMS) using the backhaul interface.
1. Use your Web browser to access 192.168.100.100.
2. In the Login window, enter username= vendor, password= vendorpass.
3. Choose the Private tab and select "setIPAddr" to set the data and management IP
addresses.
Figure
5-1: setIPAddr Screen
The base station has a data and a management interface, each having a dedicated IP
address. In Management, enter 0 (in-band – the management IP is included in the data
network), or 1 (out of band, management IP external to the data network).
Note
In "out of band" mode, the Management IP address must be from the same IP
address block as the IP address of the SNMP Server (WiNMS). In addition, the Auto
Manager IP address must be from the same IP block as the IP address of the
Management Interface.
In Data_Type, specify whether the Data IP address is static (0) or dynamic (1). The
Management IP address is always static.
If you selected to work with static IP addresses, in the Data_... and Management_... fields
enter the relevant information.
WiN7000 cBST Equipment Configuration and Monitoring | 46
4. Check the entered information through the "showIPAddr" menu.
5. Choose the Mac tab and select "setMacUl".
6. In the frequency field set the frequency of the uplink transmission (CPE to base station)
in KHz.
Figure
5-2: setMacUI Screen
Leave all other fields blanks (default).
Note
The frequency of the UL should match the frequency of the DL configuration
7. Select the "setMacDl" command.
Figure
5-3: setMacDl Screen
WiN7000 cBST Equipment Configuration and Monitoring | 47
In the frequency field, set the same frequency as the uplink frequency for downlink
transmissions (base station to CPE).
In the tx-power field, set the transmission power (in dBm).
Leave all other fields blanks (default).
Note
The frequency of the UL should match the frequency of the DL configuration
8. Choose "SetMacFrame", to set the bandwidth of the channel.
Figure
5-4: SetMacFrame Screen
Follow these steps:
a. In the started field set the value to "0" to stop the WIMAX protocol messages.
b. Then, in the bandwidth field set the bandwidth of the channel to one of the pre-
defined values.
c. Lastly, in the started field set the value to "1" to start the transmission.
d. Leave all other fields blanks (default).
Note
The frequency and bandwidth configuration should be the same in both cBST and CPE
9. SNMP management: (in the Tools tab).
Select "addSNMPAccess". Set the Read community to "public" and the Write community
to "private".
WiN7000 cBST Equipment Configuration and Monitoring | 48
Figure
5-5: addSNMPAccess Screen
In User Level, select 1 (Manager) to grant Manager rights to users wishing to work with
SNMP. Choose the User Level ( 1-Manager), and press "CALL".
Select "addAuthorizedManager" and set the IP address of the computer authorized to
access SNMP.
Figure
5-6: addAuthorizedManager Screen
You can define more than one authorized computer: Click the Call button and enter
another IP address. Repeat this step as many times as needed.
10. From the Tools tab, select the restart command and click on the Call button to reboot the
base station.
WiN7000 cBST Equipment Configuration and Monitoring | 49
Figure
5-7: Restart Screen
5.1.2 Monitoring
1. The "showSs" command is designed to display read-only information about a CPE.
Select the SS tab and then select the "showSs" command.
Figure
5-8: showSs Screen
2. Do one of the following:
Just click on Call to see all of the CPEs connected to the base station.
You can access the details of a specific CPE by entering its MAC address or its CID, and
clicking on Call.
3. Enter 1 in the verbose field to see the full details of the CPEs. Enter 0 to see concise
details.
Figure
5-9: Verbose CPE query
4. Use the "showSsPhyStatUl" and "showSsPhyStatDl" commands (SS menu) to display
physical statistics on the uplink and on the downlink respectively.
WiN7000 cBST Equipment Configuration and Monitoring | 50
Figure
5-10: showSsPhyStatUl
screen
5. Do one of the following:
Just click on Call to see the physical statistics of all of the CPEs connected to the base
station.
You can access the physical statistics of a specific CPE by entering its MAC address or its
CID, and clicking on Call.
Figure
5-11: showSsPhyStatUl
,
showSsPhyStatDl physical statistics display
6. The status of the service flows can be monitored using the "showSF" command.
Figure
5-12: showSF Screen
7. Do one of the following:
Just click the Call button to display a list of SFs.
Enter an sfID or a CID to focus on a specific SF.
WiN7000 cBST Equipment Configuration and Monitoring | 51
Note
Entering 1 in the verbose field displays detailed information. Enter 0 to display concise
information.
5.2 Configuring WiN7000 for MIMO
The Multiple In, Multiple Out technology allows the base station and the CPEs to process
incoming and outgoing signals from multiple transmitters and receivers simultaneously in
order to increase bandwidth without expanding the available resources. This section explains
how to configure the base station for MIMO.
The system can work in MIMO and non-MIMO mode simultaneously.
1. First, you need to enable MIMO. Select the "AddDlZone" command.
Figure
5-13: addDlZone command screen
You can define multiple zones.
Specify the stc and the matrix-indicator and click on the Call button. This creates a zone
and automatically assigns the next available number in after-zone-id (the first zone
carries the number 0). If you need to define more zones, repeat this step.
2. You need to specify the resources to be allocated to MIMO mode (to a zone). In the
private tab, select the dmsbSetZoneProperties command.
Figure
5-14: addDlZone command screen
In zone-id enter the sequence number of the zone to which you want to allocate
resources for MIMO mode.
WiN7000 cBST Equipment Configuration and Monitoring | 52
In min-slot and max-slot fields specify the minimum and maximum number of slots to
allocate to MIMO. Entering 100 means that your system will work in MIMO mode only.
3. In the ss tab select setSsPhyDl and set the relevant parameters for transmissions on the
downlink.
5.3 Configuring the ASN Gateway
The ASN gateway is the point of access of the base station to the wide area network. Traffic to
and from the base station passes through the ASN gateway.
The ASN gateway also mediates between the base station and the authentication server. It
passes registration requests to the authentication server and returns results to the base
station.
This section explains how to configure the ASN gateway.
1. Under the tools tab select setIPAddr and make sure that the data IP address and the
physical IP address of the ASN gateway are in the same subnet.
2. Select SetOperationMode.
Figure
5-15: SetOperationMode command screen
In OperationMode enter 1 (ASN gateway).
In AsnIpAddress enter the virtual template (IP address) of the ASN gateway (currently
192.168.103.1).
In AutthenticationEnable specify whether you want the ASN gateway to pass requests to
the authentication server.
3. After clicking the Call button, the base station resets itself. Make sure that the reset
procedure has succeeded and that the base station is in working order (the base station
resets itself also after changing the mode from ASN gateway to Standalone).
4. Use the ShowOperationMode command to display the operation details of the ASN
gateway.
WiN7000 cBST Equipment Configuration and Monitoring | 53
Figure
5-16: ShowOperationMode command screen
5.4 Monitoring
1. Check if any CPE is up by choosing "showSs" in the "SS" tab.
2. Leaving all the fields blank will show a list of associated SS
3. Choose a specific CPE by writing its MAC address and the value "1" in the "verbose"
field.
4. The CPE DL and UL RF parameters can be seen in "showSsPhyStatUl", and
"showSsPhyStatDl", in the SS menu.
5. Define the specific CPE ID or MAC address in the relevant field.
6. The status of the service flows can be monitored in the "showSF" menu.
7. Leaving the fields blank will show a list of SFs. It is possible to choose a specific SF by
choosing its sfid or bcid, and the value "1" in the "verbose" field.
WiN7000 cBST Management | 54
6
Management
WiN7000 cBST Management | 55
6.1 General
The WiN7000 cBST can be monitored and controlled with a standalone PC or through a
management system (WiNMS) using the backhaul interface. The monitoring and control
capabilities are similar in both cases but the interface may be different. This chapter describes
the monitoring and control capabilities.
The local PC can connect to the internal web server using HTTP.
The management of the WiN7000 cBST device uses SNMP. The WiN7000 cBST has a standard
MIB II and propriety MIB.
There are no local displays on the BS. All the indications will have to be monitored via the
management system (WiNMS).
6.2 SW Download/Upgrade
The software can be loaded into the WiN7000 cBST using one of the following methods:
• Using a local PC (connected to the nearby switch) that has an FTP server running on it;
• Through remote SNMP (over the backhaul interface), using the WiNMS.
The WiN7000 cBST supports a complete rollback option to be used in case the upgrade fails.
1. In the HostIpAddress field, enter the FTP server IP address.
2. In the FileDirectory field, enter the directory in which the new SW files are located.
This directory should contain a <filename>.pkg file.
3. In the PackageFileName field, enter in the file name of the .pkg file.
4. Enter in the username and password of the FTP server in the appropriate fields.
5. Click the "call" button.
6. Wait for the upgrade process to complete.
6.3 Web-Based Management
The monitored and controlled parameters are available through a web interface.
Please refer to the Equipment Configuration and Monitoring chapter for a description of the
basic configuration and monitoring screens.
For details see cBST WEB Manager chapter.
WiN7000 cBST Management | 56
6.4 SNMP Management
Two MIBs are available in the WiN7000 cBST:
•
The standard MIB II (RFC 1213)
•
The private MIB
Table 6-1 describes the cBST Managed Parameters
Table
6-1: BS Parameters
Parameter Description MIB Type Remarks
Location site +
Contact details
MIB II
Cell ID Private
Data Interface
Status
Activity
(Connected/Disconnected),
Speed (10/100/1000),
Duplex (Full/Half), IP
Address,
MIB II
Temperature temperature inside the
cBST case
Private
Software Version all Modules software’s
versions
Private
Uptime on time from power up Private
Number of
registered CPEs
Private
CPE MAC Addresses Private
CPE Type Fix CPE ODU, PC Card,
Self installed
Private
Radio Status Transmit: On/Off
Frequency: configured
radio frequency
Configured BW/FFT
Transmit power
Private
TX Counter Number of transmit
packets
Private
RX Counter Number of receive packets Private
WiN7000 cBST cBST WEB Manager | 57
7
cBST WEB Manager
WiN7000 cBST cBST WEB Manager | 58
7.1 Overview
This chapter covers the Base Station configuration, monitoring and management commands.
The commands are accessed via a Web-based application.
7.2 Audience
This manual is designed for development and maintenance persons responsible for handling
the Winetworks Compact Base Station.
7.3 Using the Command Set
The commands are grouped under tabs. Clicking a tab displays the related commands in the
navigation pane on the left.
To activate a command:
7. Open your browser and connect to the IP address delivered to you.
8. In the page that appears now, enter your user name and password and log in.
9. Click the tab under which the command is classified.
Figure
7-1
10. In the navigation pane, click the command you want to activate.
11. If necessary, enter the command parameters.
Some commands do not have parameters. They show a status or perform an action when
you click Submit.
WiN7000 cBST cBST WEB Manager | 59
12. Click the Submit button.
7.4 Commands by Functional Area
This section presents the commands classified by functional areas. Each area corresponds to a
tab in cBST WEB Manager.
7.4.1 Security
createStaticSa Creates a static Security Association.
deleteStaticSa Deletes a static Security Association.
resetSsAuth Resets authorization for an MS, PKM V1 only.
showPkm Displays PKM settings.
showPkmCs Displays PKM settings related to crypto suites.
showSa Displays security association.
showSsAuth Displays MS authorization.
7.4.2 Logs
addLogFilter Adds an MS to a log filter.
showLog Displays the logging state for the specified module.
removeLogFilter Removes an MS from a log filter.
setLogFilter Enables or disables the filter log.
clearLogFilter Clears all MS from a log filter.
showLogFilter Displays MS in a log filter.
7.4.3 Misc
phyPing Pings an MS.
showMacAddress Displays the Station MAC address.
showVersion Displays the system version.
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7.4.4 UnicastServiceFlow
changeSf Changes a service flow in the local service flow database.
createSf Creates a service flow.
deleteSf Deletes a service flow.
setSfEnable Enables or disables a service flow in the local service flow
database.
showSf Displays information about a given service flow.
7.4.5 SS
createProvSf Adds an MS to a provisioned service flow.
deleteProvSf Deletes all provisioned service flows for an MS.
deregisterSs De-registers an MS.
resetSs Resets an MS.
setSsPhyDl Configures MS downlink parameters.
setSsPhyUl Sets MS uplink physical parameters.
showCaps Displays global capabilities.
showProvSf Displays the provisioned Service Flows.
showSs Displays MS information.
showSsCaps Displays the negotiated capabilities of an MS.
7.4.6 Statistics
resetPacketFlow Resets the counters holding the statistical data shown by
showPacketFlow.
showPacketFlow Displays the quantity of packets flowing on the downlink and
the uplink, as well as the packet flow rate.
showSsPhyStatsDl Displays downlink MS physical statistics.
showSsPhyStatsUl Displays uplink MS physical statistics.
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7.4.7 MacFrame
addDlZone Adds a downlink zone.
removeDlZone Removes a downlink zone.
setMacDl Changes the downlink channel descriptor configuration.
setMacFrame Changes the frame channel descriptor configuration.
setMacUl Changes the uplink channel descriptor configuration.
setSchedulerTdd Configures the TDD split.
showMacDl Displays the current downlink channel descriptor
configuration.
showMacFrame Displays the frame channel descriptor content.
showMacUl Displays the uplink channel descriptor configuration.
showSchedulerMac Displays the MAC scheduler configuration.
7.4.8 FWD
resetFwdEntries Removes the entries stored in the Forwarding Table.
7.4.9 Config
setTimeSync Timeout for synchronization attempt.
showTimeSyncLockStatus Indicates whether the base station is synchronized.
showTimeSyncParams Shows the configured values of setTimeSync.
7.4.10 Private
cmdHelp Displays all the commands and their description.
sniffShowState Shows the current parameters controlling the packet sniffer.
pkmbShowPkm Shows the current configuration controlling PKM.
WiN7000 cBST cBST WEB Manager | 62
7.4.11 Other
addAuthrorizedManager Adds a user authorized to access the cBST Web Manager
and issue commands at administrator level.
AddIpAddress Assigns an IP address to one of the system’s network
interface cards.
addSsToMcastSf Adds an MS to a multicast service flow.
AddUser Adds a user authorized to access the cBST Web Manager
and issue commands at user level.
changeFwdFilter Changes a filter in the forwarding database.
changeNeighborBs Changes a Neighbor BS in the database.
createFwdArEntry Creates an entry in the Address Resolution table.
createFwdEntry Adds a static entry in the forwarding database.
createFwdFilter Adds a new filter in the forwarding database.
createNeighborBs Creates a neighbor BS.
createSc Creates a service class.
DeleteAllSnmpAccess Removes all SNMP access permissions.
deleteAuthrorizedManager Deletes an authorized administrator that has been added
using the addAuthorizedManager command.
DeleteChangesFile Deletes the changes file. See UpdateChangesFile. You may
want to delete it so that at the next reset the base station
reads only the configuration file.
deleteFwdArEntry Removes an Address Resolution entry.
deleteFwdEntry Removes a forwarding entry.
deleteFwdFilter Removes a forwarding filter.
DeleteIpAddress Deletes an IP address assigned using the addIpAddress
command.
deleteNeighborBs Deletes a neighbor BS from the database.
deleteSc Deletes a service class.
enableFwdFilters Enables or disables the filtering functionality.
FileDownload Copies a file from the network to the base station’s Flash
memory.
FileList Displays the files currently stored in the base station’s Flash
memory.
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FileUpload Copies a file from the base station’s Flash memory to the
network.
removeSsFromMcastSf Removes an MS from a multicast service flow.
resetFwdStats Resets the forwarding statistics.
Restart Restart the base station.
RunMainPkgFile Software upgrades are supplied in packages containing the
upgrade files and installed on the base station’s flash
memory. This command runs the package defined as
primary package.
RunSecondaryPkgFile Same as RunMainPkgFile but runs the package defined as
secondary.
setFwdPort Configures the setting of the port.
setIpAddr Modifies an IP address assigned with addIpAddress.
setLinkAdaptationDl Configures DL link adaptation.
setMcastPhyDl Sets multicast service flow PHY parameters.
setQosDl Configures downlink QoS.
setQosHRateDl Configures a DL HQoS parameter set.
setQosHrateSsDl Associates an MS to a DL HQoS parameters set.
setQosHrateSsUl Associates an MS to a UL HQoS parameters set.
setQosHRateUl Configures a UL HQoS parameter set.
setQosRedDl Enables and disables the downlink RED and sets the
maximum RED latency.
setQosRedDlProfile Configures the downlink RED drop profile.
setQosShapingDl Enables and disable DL shaping.
SetSecondaryAsMain Switches the definition of the main and secondary base
station software packages. The secondary becomes main
and the main becomes secondary.
showFwdAgeingTimeout Displays entry timeout.
showFwdArEntry Displays the address resolution forwarding entry.
showFwdEntries Displays forwarding entries.
showFwdFilter Displays forwarding filters.
showFwdInterface Displays forwarding interface configuration.
showFwdPort Displays port configuration.
WiN7000 cBST cBST WEB Manager | 64
showFwdStats Displays forwarding statistics.
showIpAddr Displays an IP address assigned with addIpAddress.
showLinkAdaptationDl Displays DL link adaptation parameters.
showMcastPhyDl Displays multicast service flow physical parameters.
showMcastSfList Displays the list of multicast service flows.
showMcastSsList Displays the list of MS registered to a multicast service flow.
showMii Displays the MII configuration.
showNeighborAdvertisement Displays neighbor advertisement parameters.
showNeighborBs Displays a neighbor BS descriptor from the handover
database.
ShowPkgFiles Lists the files contained in the main and secondary
packages.
showQosDl Displays the downlink QoS parameters.
showQosHrateDl Displays a downlink hierarchical QoS parameter set.
showQosHrateUl Displays an uplink hierarchical QoS parameter set.
showRfRx Displays the RF frequency in Rx.
showRfTx Displays the RF frequency in Tx.
ShowTrap Lists the SNMP traps currently defined.
SoftwareUpgrade Copies the upgrade package from the network to the flash
memory of the base station.
SoftwareUpgradeStatus Shows the current status of the upgrade performed via the
SoftwareUpgrade command.
SysUptime Shows the time that elapsed since the last time the base
station has been reset.
TrapConfig Allows you to define SNMP traps.
TrapEnable Enables traps defined via the TrapConfig command.
TrapGetActive Sends from the base station all active traps.
TrapIpAddress Specifies the IP address to which traps are sent.
UpdateChangesFile When you modify the base station configuration, the
changes are written to a separate changes file. The next
time the base station resets, it also reads the changes file.
This command allows you to apply the changes made after
the last reset (instead of resetting the station).
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UpdateSnmpAccess Updates the SNMP user authorizations with the details of
the newly added users.
UserLogIn Logs the user in to the base station.
UserLogOut Logs the user out of the base station.
7.5 Command Reference
The following is an alphabetic reference to all cBST WEB Manager commands.
activatePsc
Other tab.
Activates a Power Saving Class.
Parameters
pscId
Power saving class identifier.
Integer in the range [0..255].
Required parameter.
ssId
MS identifier.
Integer in the range [0..65535].
startFrameDelay
Start frame delay in frame quantity.
Integer in the range [0..255].
Required parameter.
addAuthrorizedManager
Other tab.
Adds a user authorized to access the cBST Web Manager and issue commands at
administrator level.
Parameters
IpAddress
Manager IP address.
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addChannelToScanner
Other tab.
Adds a new channel to the scanning list.
Parameters
bandwidth
Radio channel bandwidth.
Possible values: [3.5MHz | 5HMz | 7MHz | 8.75MHz].
frequency
A valid RF frequency.
Integer, expressed in kHz.
Required parameter.
Example for 2.5 GHz: frequency=2500000
duration
Frame duration.
Possible value: [5ms]
id
Channel ID.
Integer in the range [0..128].
addDcdTrigger
Other tab.
Adds a DCD trigger.
Parameters
metric
Metric used for trigger. Enum in [CINR | RSSI | RTD].
This is a required parameter.
duration
Averaging duration in frames number. Integer in [1..255].
This is a required parameter.
value
Value used for trigger. This parameter is metric-dependant. Refer to
IEEE802.16e section for encoding description.
This is a required parameter.
WiN7000 cBST cBST WEB Manager | 67
function
Function used for trigger.
Enum in [NBS_GREATER_ABS_VALUE | NBS_LESS_ABS_VALUE |
NBS_GREATER_REL_VALUE | NBS_LESS_REL_VALUE |
SBS_GREATER_ABS_VALUE | SBS_LESS_ABS_VALUE].
This is a required parameter.
action
Action to be performed. Enum in [REPORT | HANDOVER | SCANNING].
This is a required parameter.
addDlZone
Other tab.
Adds a downlink zone.
Parameters
after-zone-id
Insert the new zone after this one.
Integer.
use-all-subchannels
Use all the subchannels.
Integer with the following values:.
The default status is disabled.
dl-permbase
Downlink permbase.
Integer in range [0..31].
By default, the value of this parameter is the IdCell number.
prbs-id
PRBS identifier.
Integer in range [0..2]
By default, the value of this parameter is the segment number.
stc
STC Type.
Possible values: [none | stc-2].
matrix-indicator
Matrix indicator. This parameter is only relevant when using STC.
WiN7000 cBST cBST WEB Manager | 68
Possible values: [matrix-a | matrix-b].
mac-domain
MAC domain.
Integer in range [0..2]. Default value is 0.
[ 0 ] Disabled.
[ 1 ] Enabled.
AddIpAddress
Other tab.
Assigns an IP address to one of the system’s network interface cards.
Parameters
Specify the ID address, the network mask and the default gateway.
addLogFilter
Logs tab.
Adds an MS to a log filter.
Parameters
mac
Selects a mobile station with the given MAC address.
cid
Selects a mobile station with the given CID.
Integer in the range [1..65535].
addPagingGroup
Other tab.
Adds a paging group.
Parameters
id
Paging group ID.
Integer in the range [0..65535].
Required parameter.
WiN7000 cBST cBST WEB Manager | 69
cycle
Paging group cycle.
Integer in the range [0..65535].
Required parameter.
offset
Paging group cycle.
Integer in the range [0..65535].
Required parameter.
interval
Paging group interval.
Integer in the range [2..5].
Required parameter.
addSsToMcastSf
Other tab.
Adds an MS to a multicast service flow.
Parameters
macSs
MAC address of the selected mobile station.
String.
Exclusive required parameter.
cidSs
Basic CID of the selected, already registered, mobile station.
Integer in the range [1..65535].
Exclusive required parameter.
sfidMcast
SFID of the selected service flow.
Integer.
Exclusive required parameter.
cidMcast
CID of the selected service flow.
Integer in the range [1..65535.
Exclusive required parameter.
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addSsToStaticSa
Other tab.
Adds an MS to a static Security Association.
Parameters
cidSs
Selects the mobile station with this CID. Integer in range [1..65535].
Required parameter.
said
SAID of the static SA. Integer.
Required parameter.
addUlZone
Other tab.
Adds an uplink zone.
Parameters
after-zone-id
Inserts the new zone after the one with the zoneId specified.
Integer in the range [0..6].
use-all-subchannels
Enables the use of all subchannels, concerns PUSC only.
Integer with the following values:
ul-permbase
Uplink permbase.
Integer in the range [0..127].
The default value of this parameter is the uplink permbase in the UCD.
subchannel-rotation
Enable subchannel rotation.
Integer in range [0..1]. Default value is 1 (true).
mac-domain
MAC domain.
Integer in range [0..2]. Default value is 0.
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AddUser
Other tab.
Adds a user authorized to access the cBST Web Manager and issue commands at user level.
Parameters
User Name
Enter the new user’s username.
Password
Enter the new user’s password.
Verify Password
Enter the password again.
User Level
Select the user’s authorization level.
changeFwdFilter
Other tab.
Changes a filter in the forwarding database.
Parameters
name
Name of the filter, previously used for createFwdFilter.
String.
Required parameter.
enable
Status of the filter.
Possible values: [disable, enable].
action
Action.
Possible values: [filter, forward].
priority
Priority.
Integer in the range [0..255].
Filter priority: filters with higher numerical value priorities are evaluated before those with
lower numerical values.
WiN7000 cBST cBST WEB Manager | 72
port
Port name.
Possible values:
direction
Direction of the filter.
Possible values:
LOCAL Local control/management plane.
RFI Radio Frequency Interface
NSI Network-Side Interface; the MII or the local host interface.
PFGA Packet Flow Generator and Analyzer software module.
[tx] Transmitting to the WiMAX interface (egress).
ethsa
Source MAC address.
ethda
Destination MAC address.
dscprm
Type of Service/Differentiated Services Code Point field range mask.
etherType
Protocol encapsulated in the Ethernet frames.
proto
Protocol encapsulated in the IP diagrams.
ipsrc
Source IP address.
String.
ipdst
Destination IP address.
String.
spr
Source TCP/UDP port range.
Example: 31233 - 31234.
dpr
Destination TCP/UDP port range.
Example: 31233 - 31234.
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changeNeighborBs
Other tab.
Changes a Neighbor BS in the database.
Parameters
handle
Handle of the BS in the database.
Integer. This is a required parameter.
mac
Neighbor BS MAC address.
String.
fa-index
Neighbor BS Frequency Assignment index.
Integer in [0..255]
preamble-index
Neighbor BS Preamble index.
Integer in [0..113]
changeSf
Other tab.
UnicastServiceFlow tab.
Changes a service flow in the local service flow database.
Parameters
sfid
SFID of the service flow to change in the database.
Integer.
Exclusive required parameter.
cid
Connection identifier of the service flow to change in the database.
Integer in the range [0..65535].
Exclusive required parameter.
state
State of the service flow.
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Possible values [ provisioned | admitted | active]
maxrate
Maximum rate of the service flow in bits per second.
Integer.
minrate
Minimum rate of the service flow in bits per second.
Integer.
maxlatency
Maximum latency of the service flow in milliseconds.
Integer.
priority
Traffic priority of the service flow.
Integer in the range [0..7].
grant-interval
Grant period for UGS/eRTPS, in ms.
Integer.
polling-interval
Polling period for rtPS and nrtPS, in ms.
Integer.
delete-all-classifier
Deletes all classifiers of the service flow.
Integer with the following values:.
classifier1
First classifier.
classifier2
Second classifier.
classifier3
Third classifier.
classifier4
Fourth classifier.
clearLogFilter
Logs tab.
Clears all MS from a log filter.
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Parameters
None.
clearScannerChannels
Other tab.
Resets all scanner channels.
Parameters
None.
clearSnifferFilters
Other tab.
Clears all sniffer filters.
Parameters
None.
cmdHelp
Private tab.
Displays all the commands and their description.
Parameters
commandName
'Module::command' name to display the usage
createFwdArEntry
Other tab.
Creates an entry in the Address Resolution table.
Parameters
mac
String. Ethernet MAC address.
This is a required parameter.
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ip
String. IP Address
This is a required parameter.
createFwdEntry
Other tab.
Adds a static entry in the forwarding database.
Parameters
mac
MAC address.
Required parameter.
port
Port that you use to access the above MAC address.
Required parameter.
Possible values:
If the MAC address is a multicast or broadcast address, you can use a comma-separated list of
ports. Do not use the space character in the list.
cid
CID of the MS, in case of RFI interface.
Integer in the range [0..65535].
createFwdFilter
Other tab.
Adds a new filter in the forwarding database.
Parameters
name
Name of the filter.
String.
Required parameter.
enable
State of the filter.
Possible values: [disable | enable].
action
Action.
WiN7000 cBST cBST WEB Manager | 77
Possible values: [filter | forward].
priority
Priority.
Integer in the range [0..255].
Filter priority: filters with higher numerical values are evaluated before those with lower
numerical values.
port
Port name.
Required parameter.
Possible values:
direction
Direction of the filter.
LOCAL Local control/management plane.
RFI Radio Interface
NSI Network-Side Interface; the MII or the local host interface.
NSI is replaced with MII in host mode over MII.
SDIO interface might exist in host mode over SDIO.
PFGA Packet Flow Generator and Analyzer software module.
Required parameter.
Possible values:
ethsa
Source MAC address.
ethda
Destination MAC address.
dscprm
Type of Service/Differentiated Services Code Point field range mask.
etherType
Protocol encapsulated in the Ethernet frames.
proto
Protocol encapsulated in the IP diagrams.
ipsrc
Source IP address.
String.
ipdst
Destination IP address.
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String.
spr
Source TCP/UDP port range.
Example: 31233 - 31234.
dpr
Destination TCP/UDP port range.
Example: 31233 - 31234.
createHandoverMs
Other tab.
Provisions an MS for handover.
Parameters
mac
MAC address of the MS.
String.
Required parameter.
createMcastSf
Other tab.
Creates a multicast service flow.
Parameters
sfid
SFID of the service flow.
Unique ID.
Integer.
Exclusive required parameter.
mac
Associates the created SF with the specified MAC address.
String.
Exclusive required parameter.
maxrate
Maximum rate of the service flow in bits per second.
Integer.
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minrate
Minimum rate of the service flow in bits per second.
Integer.
priority
Traffic priority of the service flow.
Integer in the range [0..7].
longFsn
Specifies whether to enable the long 11-bit FSN subheader.
Integer with the following values:.
The default status is enabled.
fragmentation
Specifies whether fragmentation is enabled on the connection.
[ 0 ] Disabled.
[ 1 ] Enabled.
Integer with the following values:
The default status is enabled.
phs
Specifies whether PHS is enabled on the connection.
Integer with the following values:.
packing
Specifies whether packing is enabled on the connection.
Integer with the following values:.
crc
Specifies whether IEEE 802.16 CRC is enabled on the connection.
Integer with the following values:.
said
Security Association ID of the service flow.
Integer.
encryption
Encryption type.
Enumeration, possible values: [des, aes]. Default value is aes.
createNeighborBs
Other tab.
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Creates a neighbor BS.
Parameters
mac
Neighbor BS’s MAC address.
frequency
Neighbor BS’s frequency in MHz.
preamble-index
Neighbor BS’s preamble index
subchannel-bitmap
Uplink subchannels bitmap (hex). Enter 0 to activate all subchannels.
dcdCount
Neighbor BS’s DCD count.
ucdCount
Neighbor BS’s UCD count.
ip
Neighbor BS’s IP address.
createProvSf
SS tab.
Adds an MS to a provisioned service flow.
Parameters
mac
MAC address.
String.
Required parameter.
sfid
SFID of the provisioned service flow.
Unique integer.
Required parameter.
direction
Direction of the provisioned service flow.
Enumeration, possible values: [uplink | downlink].
Required parameter.
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maxrate
Maximum rate of the provisioned service flow.
Integer in bits per second.
minrate
Minimum rate of the provisioned service flow.
Integer in bits per second.
maxlatency
Maximum latency of the service flow.
Integer in milliseconds.
priority
Traffic priority of the provisioned service flow.
Integer in the range [0..7].
scheduling
Type of scheduling.
Possible values: [besteffort | nrtps | rtps | ugs].
grant-interval
Grant period for UGS.
Integer in milliseconds.
polling
Polling period for RTPS and nRTPS.
Integer in milliseconds.
longFsn
Enables the long FSN subheader (11 bits).
Integer with the following values:
The default status is enabled.
broadcast-bwr
Enables the broadcast bandwidth requests on the connection.
Integer with the following values:
The default status is enabled.
multicast-bwr
Enables the multicast bandwidth requests on the connection.
Integer with the following values:
The default status is enabled.
piggyback-bwr
Enables the piggyback bandwidth requests on the connection.
Integer with the following values:
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[ 0 ] Disabled.
[ 1 ] Enabled.
The default status is enabled.
fragmentation
Enables the fragmentation on the connection.
Integer with the following values:
The default status is enabled.
phs
Enables the PHS on the connection.
Integer with the following values:
The default status is disabled.
packing
Enables the packing on the connection.
Integer with the following values:
The default status is enabled.
crc
Enables the 802.16 CRC on the connection.
Integer with the following values:
The default status is enabled.
arq
Enables the ARQ feature.
Integer with the following values:
[ 0 ] Disabled.
[ 1 ] Enabled.
The default status is disabled.
arq-window-size
ARQ window size in block quantity.
Integer in the range [1..1024]. Default value is 512.
arq-block-size
ARQ block size in number of bytes.
Integer in the range [4..10], must be a power of 2. Default value is 256.
arq-transmitter-delay
ARQ transmitter delay in ms.
Integer in the range [1..655]. Default value is 35 ms.
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arq-receiver-delay
ARQ receiver delay in ms.
Integer in the range [1..655]. Default value is 35 ms.
arq-block-lifetime
ARQ block lifetime in ms.
Integer in the range [0..655]. Default value is 250 ms.
arq-sync-loss-timeout
ARQ Sync Loss Timeout in ms.
Integer in the range [0..655]. Default value is 300 ms.
arq-rx-purge-timeout
ARQ Rx purge timeout in ms.
Integer in the range [0..655]. Default value is 150 ms.
harq
Enables the Hybrid ARQ feature.
Integer with the following values:
The default status is disabled.
harq-acids
Bitmap of Hybrid ARQ ACIDs to use
Integer in the range [0..65535]. Default value is 0xFFFF.
harq-latency
Maximum latency for Hybrid ARQ retransmissions in ms.
Integer in the range [0..1000]. Default value is 0 ms.
harq-pdu-sn
H-ARQ PDU SN type to use.
Possible values are [none | short | long]
[ 0 ] Disabled.
[ 1 ] Enabled.
classifier1
First classifier.
Required parameter.
classifier2
Second classifier.
classifier3
Third classifier.
classifier4
Fourth classifier.
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createPsc
Other tab.
Creates a Power Saving Class.
Parameters
pscId
Identifier of the Power Service Class.
Integer in range [0..63].
ssId
MS identifier.
Integer in range [0..65535.
direction
Direction of the associated service flow.
Possible values: [undefined, downlink, uplink]. Default value is undefined.
tir
Traffic Indication required flag.
Possible values: [0..1]. Default value is 1 (true).
ttwf
Traffic triggered wakening flag.
Possible values: [0..1]. Default value is 0 (false).
initSleepWindow
Initial Sleep window, in frame quantity.
Integer in range [0..255].
Required parameter.
listenWindow
Listening window, in frame quantity.
Integer in range [0..255].
Required parameter.
finalSleepWindowBase
Final Sleep window base, in frame quantity.
Integer in range [0..1023].
Required parameter.
finalSleepWindowExp
Final Sleep window exponent.
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Integer in range [0..7].
Required parameter.
cidQty
CID quantity.
Integer in range [0..7].
Required parameter.
cidList
CID list.
String.
startFrameDelay
Start frame delay (in number of frames).
Integer in range [0..255].
Required parameter.
createSc
Other tab.
Creates a service class.
Parameters
scid
Unique ID of the service class.
Maximum 32-bit integer defined by the user, must be unique.
Required parameter.
name
Unique name of the service class.
String defined by the user, must be unique.
Required parameter.
scheduling
Type of scheduling (uplink only): [besteffort | nrtps | rtps | ugs]
priority
Traffic priority of the service class.
Integer, default value is 0.
max-sustained-rate
Maximum sustained rate of the service class, in bit/s.
Integer, default value is 0.
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max-traffic-burst
Maximum traffic burst of the service class.
Integer, default value is 0.
min-reserved-rate
Minimum reserved rate of the service class.
Integer in bits per second.
tolerated-jitter
Minimum rate of the service flow.
Integer in bits per second.
max-latency
Maximum latency of the service class, in bit/s.
Integer in bits per second.
grant-interval
Grant period for UGS in ms. (not available in the current release of S-Cube)
Integer.
polling-interval
Polling period for RTPs and nRTPs in ms.
Integer.
createSf
UnicastServiceFlow tab.
Creates a service flow.
Parameters
sfid
Unique ID of the service flow.
Maximum 32-bit integer defined by the user, must be unique (within a given MS).
Required parameter.
bcid
Basic connection ID for this service flow.
Integer in the range [0..65535].
direction
Direction of the service flow.
Enumeration, possible values: [uplink | downlink].
Required parameter.
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state
State of the service flow.
Possible values [ provisioned | admitted | active]
maxrate
Maximum rate of the service flow.
Integer in bits per second.
minrate
Minimum rate of the service flow.
Integer in bits per second.
createSf S-Cube 4.4.0
maxlatency
Maximum latency of the service flow in milliseconds.
Integer.
priority
Traffic priority of the service flow.
Integer in the range [0..7].
serviceClass
Service Class Name.
String.
scheduling
Type of scheduling: [besteffort | nrtps | rtps | ugs]
grant-interval
Grant period for UGS/eRTPS in ms. (Not available in the current release of S-
Cube).
Integer.
polling-interval
Polling period for RTPs and nRTPs in ms.
Integer.
broadcast-bwr
Enables broadcast BWR on the connection.
Integer with the following values:.
The default status is enabled.
multicast-bwr
Enables multicast BWR on the connection.
Integer with the following values:.
The default status is enabled.
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piggyback-bwr
Enables piggyback BWR on the connection.
Integer with the following values:
[ 0 ] Disabled.
[ 1 ] Enabled.
The default status is enabled.
fragmentation
Enables fragmentation on the connection.
Integer with the following values:
The default status is enabled.
phs
Enables PHS is enabled on the connection.
Integer with the following values:
The default status is disabled.
packing
Enables packing on the connection.
Integer with the following values:
The default status is enabled.
crc
Enables IEEE 802.16 CRC on the connection.
Integer with the following values:
The default status is enabled.
arq
Enables the ARQ feature.
Integer with the following values:
[ 1 ] Enabled.
[ 0 ] Disabled.
The default status is disabled.
arq-window-size
ARQ window size in block quantity.
Integer in the range [0..1024]. The default value is 512.
arq-block-size
ARQ block size in byte quantity.
Power of two integer in the range [4..10]. The default value is 8.
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arq-transmitter-delay
ARQ transmitter delay in ms.
Integer in the range [0..655]. The default value is 35.
arq-receiver-delay
ARQ receiver delay in ms.
Integer in the range [0..655]. The default value is 35.
arq-block-lifetime
ARQ block lifetime in ms.
Integer in the range [0..655]. The default value is 250.
arq-sync-loss-timeout
ARQ Sync Loss Timeout in ms.
Integer in the range [0..655]. The default value is 0.
arq-rx-purge-timeout
ARQ Rx purge timeout in ms.
Integer in the range [0..655]. The default value is 250.
harq
Enables the HARQ feature.
Integer with the following values:
harq-acids
Bitmap of HARQ ACIDs to use.
Integer in the range [1..65535].
Default value is 0xFFFF.
harq-latency
Maximum latency for HARQ retransmissions in milliseconds.
Integer in the range [0..1000].
[ 0 ] Disable.
[ 1 ] Enable. Default value.
Default value is 0.
<li>harq-pdu-sn (enum: none, short, long): HARQ PDU SN type to use</li>
classifier1
First classifier.
Required parameter.
classifier2
Second classifier.
classifier3
Third classifier.
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classifier4
Fourth classifier.
createSnifferFilter
Other tab.
Adds a filter to the sniffer.
Parameters
cid
The CID of the actual connection on which you want to sniff packets. The CID can be any
kind of CID, for example basic CID, primary CID, or data CID.
Integer in the range [0..65535]
error
Specifies whether to sniff only packets with errors.
Integer with the following values:
[ 0 ] Do not sniff only packets with errors.
[ 1 ] Sniff only packets with errors.
type
Specifies whether you want this filter to sniff data or MAC packets.
Enumeration, possible values: [data | mac]. Default value is mac.
mac-filter
Sniffs MAC management packets with the specified type.
Filter, syntax is as follows:
mac-filter=([+-]NAME[*])+
Name: MAC management names, To select from possible string values, perform the
following steps:
1. In the directory /src/cbe, open the file cbeMisc.cc.
2. Search for the following line: Sniffer interface.
3. Select from the MAC filter values in the list.
Example: mac-filter=+DL_MAP-UL_MAP+DCD-UCD
See also IEEE 802.16e-2005, Table 14, for a list of MAC filter string values.
Note: Sequans uses only underscores [_] in MAC filter string values, whereas the IEEE
standard uses underscores and hyphens [-].
Examples:
Sequans: UL_MAP, MOB_NBR_ADV
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IEEE: UL-MAP, MOB_NBR-ADV
The default value is -*, in other words no sniffing.
direction
Specifies a transmission or reception filter.
Possible values:
The default value is rx.
createStaticSa
Security tab.
Creates a static Security Association.
Parameters
said
Selects the SAID. Integer in range [0..65535].
Required parameter.
encryption
Encryption type.
Possible value: [aes-keywrap]. The default value is aes-keywrap.
deactivatePsc
Other tab.
Deactivates a Power Saving Class for an MS.
Parameters
pscId
Power Saving Class identifier.
Integer in range [0..255].
Required parameter.
ssId
MS identifier.
Integer in range [0..65535].
DeleteAllSnmpAccess
Other tab.
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Removes all SNMP access permissions.
Parameters
deleteAuthrorizedManager
Other tab.
Deletes an authorized administrator that has been added using the addAuthorizedManager
command.
Parameters
IpAddress
Enter the manager’s IP address.
DeleteChangesFile
Other tab.
Deletes the changes file. See UpdateChangesFile. You may want to delete it so that at the next
reset the base station reads only the configuration file.
Parameters
None.
deleteFwdArEntry
Other tab.
Removes an Address Resolution entry.
Parameters
id
IP Address.
String. This is a required parameter.
deleteFwdEntry
Other tab.
Removes a forwarding entry.
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Parameters
mac
MAC address to be deleted.
String.
Required parameter.
deleteFwdFilter
Other tab.
Removes a forwarding filter.
Parameters
name
The name of the filter that you want to remove.
String.
Required parameter.
deleteNeighborBs
Other tab.
Deletes a neighbor BS from the database.
Parameters
handle
Neighbor BS’s handle in the database.
deletePagingGroup
Other tab.
Removes a paging group.
Parameters
id
Paging group ID.
Integer in the range [0..65535].
Required parameter.
offset
Paging group offset.
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Integer in the range [0..65535].
Required parameter.
deleteProvSf
SS tab.
Deletes all provisioned service flows for an MS.
Parameters
mac
MAC address of the MS.
String.
Required parameter.
deletePsc
Other tab.
Deletes a Power Saving Class.
Parameters
pscId
Identifier of the PSC.
Integer in range [0..63].
Required parameter.
deleteSc
Other tab.
Deletes a service class.
Parameters
name
Name of the service class.
String.
Required parameter.
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deleteSf
UnicastServiceFlow tab.
Deletes a service flow.
Parameters
sfid
ID of the service flow to be deleted.
Integer.
Required parameter.
cid
Connection identifier for this service flow.
Integer in the range [0..65535].
Required parameter.
deleteSnifferFilter
Other tab.
Deletes a sniffer filter.
Parameters
id
Identifier of the sniffer filter to delete.
Integer in the range [0..65535].
Required parameter. The ID of a filter is automatically attributed. You can
find it by calling the showSniffer command.
deleteStaticSa
Security tab.
Deletes a static Security Association.
Parameters
said
Selects the SAID. Integer in range [0..65535].
Required parameter.
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deregisterSs
SS tab.
De-registers an MS.
Parameters
mac
MAC address of the selected MS.
String.
Exclusive required parameter.
cid
CID of the selected MS.
Integer in range [0..65535].
Exclusive required parameter.
action
Selects the message action code.
Enumeration, possible values:
[leave | transmit | listen | return | terminate].
disableLog
Other tab.
Disables trace logging for a software module.
Parameters
name
Selects the software module for which you want to disable logging traces.
Refer to the list of software modules in the S-Cube Architecure Guide.
String.
Required parameter.
name has the following syntax:
module/submodule
where:
module
Selects the module for which you want to disable logging traces. You can set this parameter
to *.
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String.
submodule
Optional parameter reserved for Sequans internal use. This parameter selects the software
submodule for which you want to disable logging software traces.
You can set this parameter to * to indicate all logs.
String.
disableSniffer
Other tab.
Disables packet sniffing.
Parameters
None.
enableFwdFilters
Other tab.
Enables or disables the filtering functionality.
Parameters
enable
State of the filtering feature.
Enumeration, possible values: [disable, enable].
Required parameter.
enableLog
Other tab.
Enables trace logging for a software module.
Parameters
name
Selects the software module for which you want to enable logging traces.
Refer to the list of software modules in the S-Cube Architecture Guide.
Required parameter.
String.
name has the following syntax:
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module/submodule
where:
module
Selects the module for which you want to enable logging traces. You can set this parameter to
*.
String.
submodule
Optional parameter reserved for Sequans internal use. This parameter selects the software
submodule for which you want to enable logging software traces. You can set this parameter
to *.
String.
enableSdc
Other tab.
Enables Switched Diversity Combining.
SQN1110 only.
Parameters
state
Requires state for SDC.
Enum in range [ disable | enable ].
Required parameter.
enableSniffer
Other tab.
Enables packet sniffing.
Parameters
qty
Quantity of packets to sniff.
Integer, default value infinite.
FileDownload
Other tab.
Copies a file from the network to the base station’s Flash memory.
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Parameters
HostIpAddress
Select the base station’s IP address.
FileDirectory
Select the original location of the file.
FileName
Select the file.
UserName
Specify the username needed to perform the operation.
Password
Specify the password needed to perform the operation.
FileList
Other tab.
Displays the files currently stored in the base station’s Flash memory.
Parameters
None.
FileUpload
Other tab.
Copies a file from the base station’s Flash memory to the network.
Parameters
HostIpAddress
Select the base station’s IP address.
FileDirectory
Select the destination directory.
FileName
Select the file.
UserName
Specify the username needed to perform the operation.
Password
Specify the password needed to perform the operation.
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filterLog
Other tab.
Filters logging.
Parameters
+
Specifies that the specified module or set of modules should be logged
-
Specifies that the specified module or set of modules should not be logged
module
Selects the software module for which you want to start logging traces.
Refer to software modules list in document S-Cube User Guide.
String.
Required parameter.
submodule
Optional parameter reserved for Sequans internal use. This parameter selects the software
submodule that starts logging its software traces.
String.
*
Wildcard character.
modifyProvisionedPsc
Other tab.
Update parameter of a Power Saving Class.
Parameters
direction
Direction of the associated service flow.
Possible values: [undefined, downlink, uplink]. Default value is undefined.
tir
Traffic Indication required flag.
Possible values: [0..1]. Default value is 1 (true).
ttwf
Traffic triggered wakening flag.
Possible values: [0..1]. Default value is 0 (false).
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initSleepWindow
Initial Sleep window, in frame quantity.
Integer in range [0..255].
listenWindow
Listening window, in frame quantity.
Integer in range [0..255].
finalSleepWindowBase
Final Sleep window base, in frame quantity.
Integer in range [0..1023].
finalSleepWindowExp
Final Sleep window exponent.
Integer in range [0..7].
cidQty
CID quantity.
Integer in range [0..7].
Required parameter.
cidList
CID list.
String.
modifyPsc
Other tab.
Modifies the parameters of a Power Saving Class.
Parameters
pscId
PSC identifier.
Integer in range [0..255]. Required parameter.
direction
Direction of the associated service flow.
Possible values: [undefined, downlink, uplink].
initSleepWindow
Initial Sleep window, in frame quantity.
Integer in range [0..255].
listenWindow
Listening window, in frame quantity.
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Integer in range [0..255].
finalSleepWindowBase
Final Sleep window base, in frame quantity.
Integer in range [0..1023].
finalSleepWindowExp
Final Sleep window exponent.
Integer in range [0..7].
cidQty
CID quantity.
Integer in range [0..7].
cidList
CID list.
String.
performHandover
Other tab.
Performs a small cell jump to a neighbor BS.
Parameters
bs-index
BS index in neighbor database.
Integer in the range [0..268435455].
Required parameter.
phyPing
Misc tab.
Pings an MS.
Parameters
grant-length
Minimal length of the grant, in number of slots.
Integer in the range [1..40]. Default value is 10.
cid
Selects a mobile station with the given CID.
Integer in the range [1..65535].
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Required parameter.
pkmbShowPkm
Private tab.
Shows the current configuration controlling PKM.
Parameters
None.
removeChannelFromScanner
Other tab.
Removes a channel from the scanning list.
Parameters
id
Channel ID, representing the index of the channel to remove from the
scanning list.
Integer in the range [0..128].
Required parameter.
removeDcdTrigger
Other tab.
Removes a DCD trigger.
Parameters
metric
Index of the trigger to remove. Integer in [0..15].
Required parameter.
removeDlZone
Other tab.
Removes a downlink zone.
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Parameters
zone-id
The identifier of the zone to remove.
Integer in the range [1..7].
Required parameter.
mac-domain
MAC domain.
Integer in range [0..2]. Default value is 0.
removeLogFilter
Logs tab.
Removes an MS from a log filter.
Parameters
mac
Selects a mobile station with the given MAC address.
Required parameter.
cid
Selects a mobile station with the given CID.
Integer in the range [1..65535].
Required parameter.
removeSsFromMcastSf
Other tab.
Removes an MS from a multicast service flow.
Parameters
macSs
MAC address of the selected mobile station.
String.
Required parameter.
cidSs
CID of the selected mobile station.
Integer in the range [1..65535].
Required parameter.
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sfidMcast
SFID of the selected multicast service flow.
Integer.
Required parameter.
cidMcast
CID of the selected multicast service flow.
Integer in the range [1..65535].
Required parameter.
removeSsFromStaticSa
Other tab.
Removes an MS from a static Security Association.
Parameters
cidSs
Selects the MS with the given connection ID.
Integer in the range [1..65535].
Required parameter.
said
SAID of the static SA.
Integer.
Required parameter.
removeUlZone
Other tab.
Removes an uplink zone.
Parameters
zone-id
The zone ID of the zone to remove.
Integer in the range [1..7].
Required parameter.
mac-domain
MAC domain.
Integer in range [0..2]. Default value is 0.
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requestPowerModeChange
Other tab.
Request a power control mode change.
Parameters
cid
CID of the selected mobile station.
Integer in the range [1..65535].
Required parameter on the BS.
mode
New power control mode.
Possible values: [closed-loop | open-loop].
resetFwdEntries
FWD tab.
Removes the entries stored in the Forwarding Table.
Parameters
None.
resetFwdStats
Other tab.
Resets the forwarding statistics.
Parameters
None.
resetPacketFlow
Statistics tab.
Resets the counters holding the statistical data shown by showPacketFlow.
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resetSa
Other tab.
Resets a Security Association.
Parameters
said
Selects the security association ID.
Integer range [0..65535].
Required parameter.
bcid
Specifies the MS by its base connection ID.
Integer in the range [0..65535].
send-tek-invalid
Specifies the action when resetting. The action is sent with the message
parameter.
Integer with the following values:.
message
Specifies the message to send with a TEK invalid.
String. This parameter does not support spaces.
resetSs
SS tab.
Resets an MS.
Parameters
No parameters for the MS.
For the BS:
mac
Selects a mobile station by its MAC address.
String.
Required parameter.
cid
Selects a mobile station by its base connection ID.
Integer in the range [0..65535].
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Required parameter.
action
Selects the message type.
Possible values:
[ local | send-reset-command | send-ranging-abort ]
resetSsAuth
Security tab.
Resets authorization for an MS, PKM V1 only.
Parameters
mac
MAC address of the MS for which you want to reset the authorization.
String.
Required parameter.
cid
Base connection ID of the MS for which you want to reset the
authorization.
Integer in the range [0..65535].
Required parameter.
action
BS specific.
Specifies the action when resetting the MS authorization.
Possible values:
[none | invalidate-auth | send-auth-invalid | auth-invalidate-teks]
message
BS specific.
Message to send with send-auth-invalid action.
Restart
Other tab.
Restart the base station.
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Parameters
None.
RunMainPkgFile
Other tab.
Software upgrades are supplied in packages containing the upgrade files and installed on the
base station’s flash memory. This command runs the package defined as primary package.
Parameters
None.
RunSecondaryPkgFile
Other tab.
Same as RunMainPkgFile but runs the package defined as secondary.
Parameters
None.
setCaps
Other tab.
Sets the global capabilities.
Parameters
pkm-version
Sets the requested authorization policy.
Enumeration, possible values: [none | pkm-v1 | pkm-v2]
pkm-cmac-0
Enables the support of CMAC0.
Integer with the following values:
pkm-cmac
Enables the support of CMAC.
Integer with the following values:
arq
Sets ARQ support.
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Enumeration, possible values: [disabled | enabled]
arq-supported-ack
Bitmap of supported ACK types.
Integer in the range [0..15].
rx-qam64
Sets Rx QAM64 support, MS only.
Enumeration, possible values: [disabled | enabled]
tx-qam64
Sets Tx QAM64 support, BS only.
[ 0 ] Disabled.
[ 1 ] Enabled.
[ 0 ] Disabled.
[ 1 ] Enabled.
Enumeration, possible values: [disabled | enabled]
rx-stc
Sets Rx STC support.
Enumeration, possible values: [disabled | enabled]
phs
Sets PHS support.
Enumeration, possible values: [disabled | enabled]
ertps
Sets eRTPS support. Enum in [disabled | enabled]
rx-ctc
Sets Rx CTC support.
Enumeration, possible values: [disabled | enabled]
tx-ctc
Sets Tx CTC support.
Enumeration, possible values: [disabled | enabled]
rx-harq
Enables Rx chase commbining Hybrid ARQ support.
Integer with the following values:
tx-harq
Enables Tx chase combining Hybrid ARQ support.
Integer with the following values:
rx-max-data-per-frame
Sets Rx maximum MAC level data per frame in bytes, floored to a 256
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multiple. This parameter is for MS only.
Integer in the range: [0..16776960]. A value of 0 means infinite.
tx-max-data-per-frame
Sets Tx maximum MAC level data per frame in bytes, floored to a 256
multiple. This parameter is for MS only.
pcinr-preamble
Enables the support of PCINR measurement on preamble.
[ 0 ] Disabled.
[ 1 ] Enabled.
pcinr-pilot
Enables the support of PCINR measurement on pilot subchannel.
Integer with the following values:
[ 0 ] Disabled.
[ 1 ] Enabled.
ecinr-preamble
Enables the support of ECINR measurement on preamble.
Integer with the following values:
ecinr-pilot
Enables the support of ECINR measurement on pilot subchannel.
Integer with the following values:
concurrent-cqi
Enables the support of concurrent Channel Quality Indicator (CQI) report.
Integer with the following values:
collaborative-sm
Enables the support of collaborative spatial multiplexing.
Integer with the following values:
disabling-of-subc-rotation
Disables the support of subchannel rotation.
Integer with the following values:
[ 0 ] Suppression of subchannel rotation is supported.
[ 1 ] Suppression of subchannel rotation is not supported.
setDebugAsicOutput
Other tab.
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Configures the ASIC debug output signals.
Parameters
output
Output signal identification.
Enumeration
Supported BS values: [none | rxFft | rxChannelEstimation | rxAdc
| rxCic | txIfft | txDac].
Supported MS values: [none | rxFft | rxTimingSynchro |
rxAdc | rxCic | txIfft | txDac].
Required parameter.
chanId
Channel Selection.
Integer with the following values: [0 | 1]
mac-domain
MAC domain. This parameter is for BS only.
Integer in range [0..2]. Default value is 0.
setDefaultMacDomain
Other tab.
Defines the default MAC domain.
Parameters
mac-domain
MAC domain.
Integer, use value 0.
setFwdAgeingTimeout
Other tab.
Sets the fwdtimeout entry.
Parameters
timeOut
Timeout in ms.
Integer in [900000..2147483647]
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setFwdPort
Other tab.
Configures the setting of the port.
Parameters
port
Port name.
String.
Required parameter.
frame-type
Acceptable frame type.
Enumeration, possible values: [any, vlan].
pvid
Port VLAN ID.
Integer in the range [0..4095].
prio
VLAN priority. Integer in the range [0..7].
default-dest
Default destination. This value must be different from port.
String.
replyToArp
Reply to ARP requests.
Enumeration, possible values: [no, yes].
setHandover
Other tab.
Configures handover trigger.
Parameters
mode
Enables scanning and handover triggers.
Enumeration, possible values: [off|scan|scan-and-handover]
scan-threshold
Serving BS CINR threshold in dB to scan neighbor BS.
Float.
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handover-threshold
Serving BS CINR threshold in dB to perform handover.
Float.
handover-hysteresis
CINR hysteresis margin in dB to perform handover.
Float.
setHarqCategory
Other tab.
Declares an HARQ category.
Parameters
dl-category
DL HARQ category to declare.
Integer in the range [1..4].
ul-category
UL HARQ category to declare.
Integer in the range [1..4].
setIdleMode
Other tab.
Starts idle mode.
Parameters
duration
Duration of idle mode in milliseconds.
Integer in the range [1000..1000000].
setIpAddr
Other tab.
Modifies an IP address assigned with addIpAddress.
Parameters
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setLinkAdaptationDl
Other tab.
Configures DL link adaptation.
Parameters
mode
Mode of link adaptation.
Possible values: [manual | automatic]
protection
CINR protection against implementation CINR in dB.
Float.
hysteresis
CINR hysteresis when upgrading the FEC code, in dB.
Float.
report-period
This parameter only applies to the MS.
Period of downlink operation burst profile reporting, in ms.
Integer in range [20..30000].
report-enable
This parameter only applies to the MS.
Enables the periodic report.
Integer with the following values:
manual-mimo-mode
Manual selection of the MIMO mode.
[ 0 ] Disabled.
[ 1 ] Enabled.
Enum in [ matrix-a-pusc-fusc | matric-a-adjacent-subchannel |
matrix-b-pusc-fusc | matric-b-adjacent-subchannel |
matrix-c-pusc-fusc | matric-c-adjacent-subchannel |
antenna-option-0-a1 | antenna-option-1-a2 |
antenna-option-2-a3 | antenna-option-3-b1 |
antenna-option-4-b2 | antenna-option-5-b3 |
antenna-option-6-b4 | antenna-option-7-b5 | reserved-b6 |
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closed-loop-1 | closed-loop-2 | closed-loop-3 |
closed-loop-4]
fec-code
This parameter only applies to the MS.
FEC of the operational downlink burst profile.
Possible values: [qpsk-cc-1/2 | qpsk-cc-3/4 | qam16-cc-1/2 |
qam16-cc-3/4 | qam64-cc-1/2 | qam64-cc-2/3 | qam64-cc-3/4 |
qpsk-ctc-1/2 | qpsk-ctc-3/4 | qam16-ctc-1/2 |
qam16-ctc-3/4 | qam64-ctc-1/2 | qam64-ctc-2/3 |
qam64-ctc-3/4 | qam64-ctc-5/6].
repetition
This parameter only applies to the MS.
The repetition coding.
Possible values: [1 | 2 | 4 | 6].
setLinkAdaptationUl
Other tab.
Defines UL link adaptation parameters.
Parameters
mode
Link adaptation mode.
Value in range [manual | automatic].
protection
CINR protection in dB against implementation CINR.
Float.
hysteresis
CINR hysteresis in dB when upgrading the FEC code.
Float.
setLogFilter
Logs tab.
Enables or disables the filter log.
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Parameters
enable
Enables the log filter.
Integer with the following values:
setMacDl
MacFrame tab.
Changes the downlink channel descriptor configuration.
Parameters
tx-power
BS transmission power in dBm.
Integer.
init-ranging-max-rx-power
Maximum Received Signal Strength at the BS during initial ranging in
dBm.
Integer.
frequency
Frequency of the downlink in kHz.
Integer.
version
Version of the IEEE 802.16 specification: [V1 | V2 | V3 | V4]
bsRestartCount
BS restart count. Integer in [0..255]
bs-id
Specifies the MAC Address of the BS.
String.
iuc0-fec-code
The system FEC code.
Enumeration, see coding described in the Note below.
iuc1-fec-code
FEC code of IUC 1.
Enumeration, see coding described in the Note below.
iuc2-fec-code
FEC code of IUC 2.
Enumeration, see coding described in the Note below.
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iuc3-fec-code
FEC code of IUC 3.
Enumeration, see coding described in the Note below.
iuc4-fec-code
FEC code of IUC 4.
Enumeration, see coding described in the Note below.
iuc5-fec-code
FEC code of IUC 5.
Enumeration, see coding described in the Note below.
iuc6-fec-code
FEC code of IUC 6.
Enumeration, see coding described in the Note below.
iuc7-fec-code
FEC code of IUC 7.
Enumeration, see coding described in the Note below.
iuc8-fec-code
FEC code of IUC 8.
Enumeration, see coding described in the Note below.
iuc9-fec-code
FEC code of IUC 9.
Enumeration, see coding described in the Note below.
iuc10-fec-code
FEC code of IUC 10.
Enumeration, see coding described in the Note below.
iuc11-fec-code
FEC code of IUC 11.
Enumeration, see coding described in the Note below.
iuc12-fec-code
FEC code of IUC 12.
Enumeration, see coding described in the Note below.
harq-max-retries
Maximum number of HARQ retransmissions. Integer in [0..255].
mac-domain
MAC domain.
Integer in range [0..2]. Default value is 0.
Note: FEC codes are represented by an enumeration with the following possible values:
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[qpsk-cc-1/2, qpsk-cc-3/4, qam16-cc-1/2, qam16-cc-3/4,
qam64-cc-1/2, qam64-cc-2/3, qam64-cc-3/4, qpsk-ctc-1/2,
qpsk-ctc-3/4, qam16-ctc-1/2, qam16-ctc-3/4, qam64-ctc-1/2,
qam64-ctc-2/3, qam64-ctc-3/4, qam64-ctc-5/6, none]
setMacFrame
MacFrame tab.
Changes the frame channel descriptor configuration.
Parameters
started
Channel start state.
Integer with the following values:
bandwidth
Channel bandwidth.
Possible values:
[3.5MHz | 5MHz | 7MHz | 8.75MHz | 10MHz].
Note: bandwidth=8.75MHz is the only value supported in the current release.
cp
G-ratio of the cyclic prefix start.
Possible values: [1/4 | 1/8 | 1/16 | 1/32].
Note: cp=1/8 is the only value supported in the current release.
duration
Frame duration.
Possible values: [5ms, 10ms].
fft-size
FFT size.
Enumeration, possible values: [512, 1024] .
[ 0 ] Stop
[ 1 ] Start
[5ms] SQN1110 SoC ASIC
[10ms] Preliminary FPGA on QSNx110-P Board
Note: fft-size=1024 is the only value supported in the current release.
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preamble-index
Preamble index, which determines the PUSC segment.
Integer in the range [0..113].
subchannel-bitmap
Subchannel bitmap.
Integer in the range [1..63].
mac-domain
MAC domain.
Integer in range [0..2]. Default value is 0.
setMacUl
MacFrame tab.
Changes the uplink channel descriptor configuration.
Parameters
i-rng-backoff-start
Initial ranging back-off start.
Integer in the range [0..15].
i-rng-backoff-end
Initial ranging back-off end.
Integer in the range [0..15].
p-rng-backoff-start
Periodic ranging back-off start.
Integer in the range [0..15].
p-rng-backoff-end
Periodic ranging back-off end.
Integer in the range [0..15].
bwr-backoff-start
Bandwidth request back-off start.
Integer in the range [0..15].
bwr-backoff-end
Bandwidth request back-off end.
Integer in the range [0..15].
reservation-timeout
Reservation timeout after sending a Bandwidth Request .
Integer in the range [1..32].
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frequency
Frequency of the uplink in kHz.
Integer.
permutation-base
Uplink permutation base parameter, UlPermBase in the IEEE 802.16e-2005
standard.
Integer in the range [0..69].
subchannels-bitmap
Uplink subchannels bitmap.
Hexadecimal string; [0] activates all subchannels.
ranging-code-group-start
Start of the ranging code range.
Parameter S, see the IEEE 802.16e-2005 standard.
Integer in the range [0..255].
ranging-code-irng-qty
Quantity of I-RNG code.
Parameter N, see the IEEE 802.16e-2005 standard.
Integer in the range [1..20].
ranging-code-prng-qty
Quantity of P-RNG code.
Parameter M, see the IEEE 802.16e-2005 standard.
Integer in the range [1..64].
ranging-code-bwr-qty
Quantity of BWR code.
Parameter L, see the IEEE 802.16e-2005 standard.
Integer in the range [1..64].
ranging-code-ho-qty
Quantity of HO code.
Parameter O, see the IEEE 802.16e-2005 standard.
Integer in the range [1..64].
max-harq-rep
Maximum number of Hybrid ARQ retransmissions.
Integer in the range [0..255].
harq-max-retries
Maximum number of HARQ retransmissions. Integer in [0..255].
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tx-report-threshold
Tx report threshold, in dB.
Enum in [0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12| 13 | 14 | infinite]
tx-report-period
Tx report period, in frames number.
Enum in [1 | 2 | 4 | 8 | 16 | 32 | 64 | 128 | 256 | 512 | 1024| 2048 | 8192 | 16384 | infinite]
tx-report-alpha
Tx report alpha ratio.
Enum in [1/16 | 2/16 | 3/16 | 4/16 | 5/16 | 6/16 | 7/16 | 8/16 | 9/16 | 10/16 | 11/16| 12/16 |
13/16 | 14/16 | 15/16 |
16/16]
ffb-fec-code
FEC code of IUC 0, fast feedback. See coding described in the Note below.
iuc1-fec-code
FEC code of IUC 1. See coding described in the Note below.
iuc2-fec-code
FEC code of IUC 2. See coding described in the Note below.
iuc3-fec-code
FEC code of IUC 3. See coding described in the Note below.
iuc4-fec-code
FEC code of IUC 4. See coding described in the Note below.
iuc5-fec-code
FEC code of IUC 5. See coding described in the Note below.
iuc6-fec-code
FEC code of IUC 6. See coding described in the Note below.
iuc7-fec-code
FEC code of IUC 7. See coding described in the Note below.
iuc8-fec-code
FEC code of IUC 8. See coding described in the Note below.
iuc9-fec-code
FEC code of IUC 9. See coding described in the Note below.
iuc10-fec-code
FEC code of IUC 10. See coding described in the Note below.
Note: FEC codes are represented by an enumeration with the following possible values:
[qpsk-cc-1/2, qpsk-cc-3/4, qam16-cc-1/2, qam16-cc-3/4, qam64-cc-1/2, qam64-cc-2/3, qam64-cc-
3/4, qpsk-ctc-1/2, qpsk-ctc-3/4, qam16-ctc-1/2, qam16-ctc-3/4, qam64-ctc-1/2, qam64-ctc-2/3,
qam64-ctc-3/4, qam64-ctc-5/6, none]
subchannel-rotation
Enables subchannel rotation on the first Zone.
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Integer in range [0..1]. Default value is 1 (true).
mac-domain
MAC domain.
Integer in range [0..2]. Default value is 0.
setMcastPhyDl
Other tab.
Sets multicast service flow PHY parameters.
Parameters
sfidMcast
SFID of the multicast service flow.
Integer.
Exclusive required parameter.
cidMcast
CID of the multicast service flow.
Integer in the range [1..65535].
Exclusive required parameter.
fec-code
FEC code.
Enumeration, possible values:[qpsk-cc-1/2, qpsk-cc-3/4, qam16-cc-1/2, qam16-cc-3/4, qam64-
cc-1/2, qam64-cc-2/3, qam64-cc-3/4, qpsk-ctc-1/2, qpsk-ctc-3/4, qam16-ctc-1/2, qam16-ctc-3/4,
qam64-ctc-1/2, qam64-ctc-2/3, qam64-ctc-3/4, qam64-ctc-5/6].
Required parameter
repetition
The repetition coding.
Enumeration, possible values:[1 | 2 | 4 | 6].
zone-id
The downlink zone ID.
Integer in the range [0..7].
mimo-kind
The MIMO matrix type.
Possible values: [siso | matrix-a | matrix-b].
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setMii
Other tab.
Sets MII link configuration.
Parameters
speed
Maximum link speed, possible values: [10 | 100].
10: Maximum link speed is 10 Mbps
100: Maximum link speed is 100 Mbps
duplex
Duplex mode [half-duplex | full-duplex]
mtu
Maximum Transfer Unit. Integer in [1526..2048]
setNeighborAdvertisement
Other tab.
Configures neighbor advertisement.
Parameters
enable
Enables database advertisement.
Integer with the following values:
period
Advertisement period in ms.
Integer in the range [1000...10000].
setPkm
Other tab.
Configures PKM settings.
Parameters
auth-lifetime
Lifetime in seconds that the BS assigns to a new authorization key (PKMv1
only).
Integer in the range [0..6048000]. The default value is 7 days, that is value 6048000.
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tek-lifetime
Lifetime in seconds that the BS assigns to a new traffic encryption key (TEK).
Integer in the range [0..604800]. The default value is 12 hours, that is value 43200.
auth-grace-time
Default authorization key grace time, in seconds.
Integer in the range [0..3024000].
tek-grace-time
Default encryption key grace time, in seconds.
Integer in the range [0..302399].
auth-wait-timeout
Default authorization wait timeout, in seconds.
Integer in the range [0..30].
reauth-wait-timeout
Default reauthorization wait timeout, in seconds.
Integer in the range [0..30].
operational-wait-timeout
Default operational wait timeout, in seconds.
Integer in the range [0..10].
rekey-wait-timeout
Default rekey wait timeout, in seconds.
Integer in the range [0..10].
auth-reject-wait-timeout
Default authorization reject wait timeout, in seconds.
Integer in the range [0..600].
setPkmCs
Other tab.
Configures PKM settings related to crypto suites.
Parameters
algo
The data encryption algorithm of the crypto-suite.
Possible values: [none | none-des | des | aes-keywrap].
Required parameter.
rank
New rank of the crypto suite. Integer in the range [1..1000]. The default value is 0.
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enabled
Enabled status of a supported crypto-suite.
Integer with the following values:
By default, the specified crypto-suite is disabled.
setProvisionedPsc
Other tab.
Sets PSC configuration.
Parameters
direction
Direction of the associated service flow.
Possible values: [undefined, downlink, uplink]. Default value is undefined.
tir
Traffic Indication required flag.
Possible values: [0..1]. Default value is 1 (true).
ttwf
Traffic triggered wakening flag.
Possible values: [0..1]. Default value is 0 (false).
initSleepWindow
Initial Sleep window, in frame quantity.
Integer in range [0..255].
Required parameter.
listenWindow
Listening window, in frame quantity.
Integer in range [0..255].
Required parameter.
finalSleepWindowBase
Final Sleep window base, in frame quantity.
Integer in range [0..1023].
Required parameter.
finalSleepWindowExp
Final Sleep window exponent.
Integer in range [0..7].
Required parameter.
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cidQty
CID quantity.
Integer in range [0..7]. Default value is 0, for all the CIDs of the MS.
cidList
CID list.
String.
setQosDl
Other tab.
Configures downlink QoS.
Parameters
above-minrate-mode
Mode when above the minimum rate:
[roundrobin | strict | weightedFair]
where:
roundrobin All DL CIDs are served by the BS one by one in a sequential manner.
Strict Traffic is allocated first to service flows associated with the highest priority
class.
Weighted Fair Scheduling per service flow.
Each scheduling class “i” is associated with a weight wamr(i).
For all CID with traffic, bandwidth BWi is allocated to CID of traffic priority “i”, so that the
ratio BWi/wamr(i) remains equal, under congestion.
This is a required parameter.
below-minrate-mode
Mode when below the minimum rate:
[roundrobin | strict | weightedFair]
Same definitions as for above-minrate-mode (understanding wbmr
instead of wamr).
This is a required parameter.
above-minrate-fairness
Fairness type when above the minimum rate: Integer [0..100], balance between byte and
resource fairness.
0=byte fairness only, 100=resource fairness only
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below-minrate-fairness
Fairness type when below the minimum rate: Integer [0..100], balance between byte and
resource fairness.
0=byte fairness only, 100=resource fairness only.
wamr0 – wamr7
Weight for priorities 0 – 7 above the minimum rate. Integer range [1..255]. The default value
of wamrn is 1.
wbmr0 – wbmr7
Weight for priorities 0 – 7 below the minimum rate. Integer range [1..255]. The default value
of wbmrn is 1.
setQosHRateDl
Other tab.
Configures a DL HQoS parameter set.
Parameters
hrate-index
Index of the parameter set.
Integer in the range [0..255].
Required parameter.
instant-maxrate
MS instantaneous downlink maximum data rate, in bits/s.
Integer in the range [0..100000000]. 0 means None. Default value is 0.
longterm-maxrate
MS long term downlink maximum data rate, in bits/s.
Integer in the range [0..100000000]. 0 means None. Default value is 0.
longterm-initial-credit
Long-term initial credit, in seconds.
Integer in the range [1..86400]. Default value is 1.
setQosHrateSsDl
Other tab.
Associates an MS to a DL HQoS parameters set.
Parameters
mac
Selects the MS with the given MAC address.
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String.
Exclusive required parameter.
cid
Selects the MS with the given CID.
Integer in the range [1..65535].
Exclusive required parameter.
hrate-index
Index of the parameter set.
Integer in the range [-1..255]. Value -1 means None.
Required parameter.
setQosHrateSsUl
Other tab.
Associates an MS to a UL HQoS parameters set.
Parameters
mac
Selects the MS with the given MAC address.
String.
Required parameter.
cid
Selects the MS with the given CID.
Integer in the range [1..65535].
Required parameter.
hrate-index
Index of the parameter set. Integer in range [-1..255]. Value -1 means None.
Required parameter.
setQosHRateUl
Other tab.
Configures a UL HQoS parameter set.
Parameters
hrate-index
Index of the parameter set.
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Integer in the range [0..255].
Required parameter.
instant-maxrate
MS instantaneous Uplink maximum data rate, in bits/s.
Integer in the range [0..100000000]. 0 means None.
longterm-maxrate
MS long term Uplink maximum data rate, in bits/s.
Integer in the range [0..100000000]. 0 means None.
longterm-initial-credit
Long-term initial credit, in seconds.
Integer in the range [1..86400].
setQosRedDl
Other tab.
Enables and disables the downlink RED and sets the maximum RED latency.
Parameters
latency
Maximum DL RED latency in milliseconds. This parameter represents the maximum
buffering time of a downlink packet in the scheduler.
Integer in the range [0..5000].
enable
Enables or disables the downlink RED algorithm.
Integer with the following values:
setQosRedDlProfile
Other tab.
Configures the downlink RED drop profile.
Parameters
l0 – l7
Latency (l) for points 0 – 7, expressed as a percentage.
Integer in the range [0..100].
p0 – p7
Drop probability (p) for points 0 – 7, expressed as a percentage.
Integer in the range [0..100].
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setQosRedUlDefault
Other tab.
Configures congestion control in the uplink for SF without maximum latency.
Parameters
latency
Maximum RED latency in milliseconds.
Integer in the range [0..5000].
setQosRedUlDefaultProfile
Other tab.
Configures the uplink RED drop profile for SF without maximum latency.
Parameters
l0 – l7
Latency (l) for points 0 – 7.
Percentage integer in the range [0..100].
p0 – p7
Drop probability (p) for points 0 – 7.
Percentage integer in the range [0..100].
setQosRedUlMaxLatencyProfile
Other tab.
Configures the uplink RED drop profile for SF with non-null maximum latency.
Parameters
l0 – l7
Latency (l) for points 0 – 7.
Percentage integer in the range [0..100].
p0 – p7
Drop probability (p) for points 0 – 7.
Percentage integer in the range [0..100].
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setQosShapingDl
Other tab.
Enables and disable DL shaping.
Parameters
enable
Enables or disables the downlink shaping function.
Integer with the following values:
The default status is enabled.
Required parameter.
setQosUl
Other tab.
Configures uplink QoS.
Parameters
above-minrate-mode
Mode when above the minimum rate: [roundrobin | strict | weightedFair]
where:
below-minrate-mode
Mode when below the minimum rate: [roundrobin | strict |weightedFair]
Where:
Roundrobin All DL CIDs are served by the BS one by one in a sequential manner.
Strict Traffic is allocated first to service flows associated with the highest
priority class.
weightedFair Scheduling per service flow.
Each scheduling class “i” is associated with a weight wamr(i).
For all CID with traffic, bandwidth BWi is allocated to CID of traffic priority “i”, so that the
ratio BWi/wamr(i) remains equal, under congestion.
above-minrate-fairness
Fairness type when above the minimum rate: Integer [0..100], balance between byte and
resource fairness.
0=byte fairness only, 100=resource fairness only
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below-minrate-fairness
Fairness type when below the minimum rate: Integer [0..100], balance between byte and
resource fairness.
0=byte fairness only, 100=resource fairness only.
wamr0 – wamr7
Weight for priorities 0 – 7 above the minimum rate. Integer range [1..255]. The default value
of wamrn is 1.
wbmr0 – wbmr7
Weight for priorities 0 – 7 below the minimum rate. Integer range [1..255]. The default value
of wbmrn is 1.
setScanning
Other tab.
Configures periodic scanning.
Parameters
enable
Enables periodic scanning.
Integer with the following values:
period
Scanning period in ms.
Integer in the range [50..10000].
duration
Averaging duration in ms.
Integer in the range [10..10000].
window
Averaging window in ms.
Integer in the range [10..10000].
setSchedulerMac
Other tab.
Configures the MAC scheduler.
Parameters
ucd-period
Period in ms of the periodic UCD message sending. Integer.
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ucd-repeat
Quantity of UCD message notification before UCD change.
Integer in the range [1..5].
dcd-period
Period in ms of the periodic DCD message sending.
Integer.
dcd-repeat
Quantity of DCD message notification before DCD change.
Integer in the range [1..5].
ertps-inactive
Behavior of inactive eRTPS (zero bytes requested).
Enum in [no-grant | rtps]
ss-max-distance
Maximum distance of an MS, in meters.
Integer in the range [0..70000].
compressed-map
Enables MAP compression.
Enumeration, possible values: [none | dl | dl-ul].
diuc0-repetition
DL-MAP, UL-MAP, UCD, DCD repeat quantity.
Enumeration, possible values: [1 | 2 | 4 | 6].
mac-domain
MAC domain.
Integer in range [0..2]. Default value is 0.
setSchedulerTdd
MacFrame tab.
Configures the TDD split.
Parameters
split
Size of the downlink sub-frame as a percentage of the frame being split.
Integer range [0..100].
mac-domain
MAC domain.
Integer in range [0..2]. Default value is 0.
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SetSecondaryAsMain
Other tab.
Switches the definition of the main and secondary base station software packages. The
secondary becomes main and the main becomes secondary.
Parameters
None.
setSfEnable
UnicastServiceFlow tab.
Enables or disables a service flow in the local service flow database.
Parameters
sfid
SFID of the service flow.
Integer.
cid
CID of the service flow.
Integer in the range [0..65535].
enable
Specifies whether the selected service flow is enabled or disabled in the
service flow database.
Integer with the following values:
Required parameter.
setSnifferParams
Other tab.
Set debug sniffer parameters.
Parameters
dumpDescr
Enables or disables the packet descriptor dump debug feature.
Integer with the following values:
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setSsPhyDl
SS tab.
Configures MS downlink parameters.
Parameters
mac
Selects a mobile station by its MAC address.
String.
Exclusive required parameter.
cid
Selects a mobile station by its connection ID.
Integer in the range [0..65535].
Exclusive required parameter.
fec-code
FEC code.
Enumeration, possible values: [qpsk-cc-1/2, qpsk-cc-3/4, qam16-cc-1/2, qam16-cc-3/4, qam64-
cc-1/2, qam64-cc-2/3, qam64-cc-3/4, qpsk-ctc-1/2, qpsk-ctc-3/4, qam16-ctc-1/2, qam16-ctc-3/4,
qam64-ctc-1/2, qam64-ctc-2/3, qam64-ctc-3/4, qam64-ctc-5/6]
repetition
The repetition coding.
Enumeration, possible values: [1 | 2 | 4 | 6]
zone-id
The downlink zone identifier.
Integer in the range [0..7].
map-id
The MAP identifier. integer in the range [0..3] with the following signification:
0 DL-MAP
1 First sub-MAP
2 Second sub-MAP
3 Third sub-MAP
mimo-kind
The MIMO Matrix type.
Possible values: [siso | matrix-a | matrix-b].
WiN7000 cBST cBST WEB Manager | 137
harq-fec-code
HARQ FEC code. Enum in [ qpsk-cc-1/2 | qpsk-cc-3/4 |qam16-cc-1/2 | qam16-cc-3/4 | qam64-
cc-1/2 | qam64-cc-2/3 |qam64-cc-3/4 | qpsk-ctc-1/2 | qpsk-ctc-3/4 | qam16-ctc-1/2 |qam16-ctc-
3/4 | qam64-ctc-1/2 | qam64-ctc-2/3 |qam64-ctc-3/4, qam64-ctc-5/6]
harq-repetition
The HARQ repetition coding. Enum in [1 | 2 | 4 | 6]
harq-max-retries
Maximum number of HARQ retransmissions. Integer in [0..255]
setSsPhyUl
SS tab.
Sets MS uplink physical parameters.
Parameters
mac
MAC address of the mobile station.
Exclusive required parameter.
cid
Connection ID of the mobile station.
Integer in the range [0..65535].
Exclusive required parameter.
fec-code
FEC code.
Possible values: [qpsk-cc-1/2 | qpsk-cc-3/4 |
qam16-cc-1/2 | qam16-cc-3/4 | qam64-cc-1/2 | qam64-cc-2/3 |qam64-cc-3/4 | qpsk-ctc-1/2 |
qpsk-ctc-3/4 | qam16-ctc-1/2 |qam16-ctc-3/4 | qam64-ctc-1/2 | qam64-ctc-2/3 | qam64-ctc-3/4
| qam64-ctc-5/6].
repetition
The repetition coding.
Enumeration, possible values: [1 | 2 | 4 | 6]
max-channel
The maximum channel quantity for Uplink bursts.
Integer in the range [1..35].
zone-id
The uplink zone identifier.
Integer in the range [0..7].
WiN7000 cBST cBST WEB Manager | 138
harq-fec-code
The Hybrid ARQ FEC code.
Enumeration, possible values: [qpsk-cc-1/2 | qpsk-cc-3/4 |qam16-cc-1/2 | qam16-cc-3/4 |
qam64-cc-1/2 | qam64-cc-2/3 |qam64-cc-3/4 | qpsk-ctc-1/2 | qpsk-ctc-3/4 | qam16-ctc-1/2
|qam16-ctc-3/4 | qam64-ctc-1/2 | qam64-ctc-2/3 |qam64-ctc-3/4 | qam64-ctc-5/6]
harq-repetition
The Hybrid ARQ repetition coding.
Enumeration, possible values: [1 | 2 | 4 | 6]
harq-max-retries
Maximum number of HARQ retransmissions. Integer in [0..255].
setTimeSync
Config tab.
Timeout for synchronization attempt
Parameters
TimeSync Stop timeout
Enter the TimeSyncStop timeout in seconds.
TimeSync Fatal timeout
Enter the fatal timeout in seconds.
showCaps
SS tab.
Displays global capabilities.
Parameters
supported
Displays supported capabilities.
Integer with the following values:
configured
Displays configured capabilities.
Integer with the following values:
showDcdTrigger
Other tab.
Displays DCD trigger settings.
WiN7000 cBST cBST WEB Manager | 139
Parameters
None
showDhcp
Other tab.
Displays DHCP client configuration.
Parameters
None
showFwdAgeingTimeout
Other tab.
Displays entry timeout.
Parameters
None.
showFwdArEntry
Other tab.
Displays the address resolution forwarding entry.
Parameters
None.
showFwdEntries
Other tab.
Displays forwarding entries.
Parameters
None.
showFwdFilter
Other tab.
Displays forwarding filters.
WiN7000 cBST cBST WEB Manager | 140
Parameters
name
Name of the filter.
String.
showFwdInterface
Other tab.
Displays forwarding interface configuration.
Parameters
None
showFwdPort
Other tab.
Displays port configuration.
Parameters
port
Name of the port.
String.
Required parameter.
showFwdStats
Other tab.
Displays forwarding statistics.
Parameters
None.
showHandover
Other tab.
Displays handover trigger parameters.
Parameters
None.
WiN7000 cBST cBST WEB Manager | 141
showHoAveragingParam
Other tab.
Displays HO averaging parameters.
Parameters
None.
showIpAddr
Other tab.
Displays an IP address assigned with addIpAddress.
Parameters
None.
showLinkAdaptationDl
Other tab.
Displays DL link adaptation parameters.
Parameters
None.
showLinkAdaptationUl
Other tab.
Displays UL link adaptation parameters.
Parameters
None.
showLog
Logs tab.
Displays the logging state for the specified module.
WiN7000 cBST cBST WEB Manager | 142
Parameters
name
Selects the software module for which you want to show logging state.
Refer to the list of software modules in the S-Cube Architecture Guide.
String.
Required parameter. Uses the following syntax:
module/submodule
where:
module Selects the module for which you want to show logging state.
This can be set to *.
String.
Submodule Optional parameter reserved for Sequans internal use. This parameter selects
the software submodule for which you want to show logging state. This can be
set to *.
String.
showLogFilter
Logs tab.
Displays MS in a log filter.
Parameters
None.
showMacAddress
Misc tab.
Displays the Station MAC address.
Parameters
None.
showMacDl
MacFrame tab.
Displays the current downlink channel descriptor configuration.
WiN7000 cBST cBST WEB Manager | 143
Parameters
None.
showMacFrame
MacFrame tab.
Displays the frame channel descriptor content.
Parameters
None.
showMacStatsRx
Other tab.
Displays RF interface reception or management statistics.
Parameters
data
Integer with the following values:
mgt
Integer with the following values:
showMacUl
MacFrame tab.
Displays the uplink channel descriptor configuration.
Parameters
None.
showMcastPhyDl
Other tab.
Displays multicast service flow physical parameters.
Parameters
sfidMcast
Multicast service flow identifier.
Integer.
WiN7000 cBST cBST WEB Manager | 144
cidMcast
CID of the multicast service flow.
Integer in range [1..65535].
showMcastSfList
Other tab.
Displays the list of multicast service flows.
Parameters
verbose
Specifies whether to show detailed information.
Integer with the following values:
showMcastSsList
Other tab.
Displays the list of MS registered to a multicast service flow.
Parameters
cid
CID of the selected service flow.
Integer in the range [1..65535].
Exclusive required parameter.
sfid
SFID of the selected service flow.
Integer in the range [1..65535].
Exclusive required parameter.
verbose
Specifies whether to show detailed information.
Integer with the following values:
showNeighborAdvertisement
Other tab.
Displays neighbor advertisement parameters.
WiN7000 cBST cBST WEB Manager | 145
Parameters
None.
showNeighborBs
Other tab.
Displays a neighbor BS descriptor from the handover database.
Parameters
verbose
Specifies whether to show detailed information about the neighbor BS.
Integer with the following values:
showNeighborBsStat
Other tab.
Displays statistics of a neighbor BS.
Parameters
frequency
Neighbor BS RF frequency in kHz.
Integer in the range [1000000..10000000].
preamble-index
Neighbor BS Preamble index.
Integer in the range [0..113].
showPacketFlow
Statistics tab.
Displays the quantity of packets flowing on the downlink and the uplink, as well as the
packet flow rate.
Parameters
None.
WiN7000 cBST cBST WEB Manager | 146
showPagingGroup
Other tab.
Displays paging groups registered at the BS.
Parameters
pgId
Paging group ID.
Integer in the range [0..65535].
ShowPkgFiles
Other tab.
Lists the files contained in the main and secondary packages.
Parameters
None.
showPkm
Security tab.
Displays PKM settings.
Parameters
None.
showPkmCs
Security tab.
Displays PKM settings related to crypto suites.
Parameters
None.
showProvisionedPsc
Other tab.
WiN7000 cBST cBST WEB Manager | 147
Displays the Power Saving Class characteristics.
Parameters
None.
showProvSf
SS tab.
Displays the provisioned Service Flows.
Parameters
mac
MAC address.
String.
Required parameter.
verbose
Specifies whether to show detailed information.
Integer with the following values:
showPsc
Other tab.
Displays the Power Saving Class information.
Parameters
pscId
power Saving Class identifier.
Integer in range [0..63].
ssId
MS identifier.
Integer in range [0..65535]. This parameter applies only to the BS.
verbose
Integer in range [0..1].
showQosDl
Other tab.
Displays the downlink QoS parameters.
WiN7000 cBST cBST WEB Manager | 148
Parameters
None.
showQosHrateDl
Other tab.
Displays a downlink hierarchical QoS parameter set.
Parameters
hrate-index
Parameter set index.
Integer in the range [0..255].
showQosHrateUl
Other tab.
Displays an uplink hierarchical QoS parameter set.
Parameters
hrate-index
Parameter set index.
Integer in the range [0..255].
showQosUl
Other tab.
Displays UL QoS configuration.
Parameters
None.
showRfRx
Other tab.
Displays the RF frequency in Rx.
BS and MS
WiN7000 cBST cBST WEB Manager | 149
Parameters
mac-domain
MAC domain. This parameter applies to the BS only
Integer in range [0..2]. Default value is 0.
showRfTx
Other tab.
Displays the RF frequency in Tx.
Parameters
mac-domain
MAC domain. This parameter applies to the BS only
Integer in range [0..2]. Default value is 0.
showSa
Security tab.
Displays security association.
Parameters
said
Selects the SA identifier.
Integer in the range [0..65535].
bcid
On the BS, specifies the MS by its base connection ID.
Integer in the range [0..65535].
verbose
Specifies whether to show detailed information.
Integer with the following values:
showSaAuthorizedSs
Other tab.
Displays MS list authorized on a security association.
Parameters
said
Selects the said.
WiN7000 cBST cBST WEB Manager | 150
Integer in the range [0..65535].
showSc
Other tab.
Displays the service class information.
Parameters
scid
SCID of the service class for which you want to display information.
Integer in the range [1..65535].
verbose
Specifies whether to show detailed information.
Integer with the following values:
showScanner
Other tab.
Displays the scanning list.
Parameters
None.
showScanning
Other tab.
Displays periodic scanning parameters.
Parameters
None.
showSchedulerMac
MacFrame tab.
Displays the MAC scheduler configuration.
Parameters
mac-domain
MAC domain.
WiN7000 cBST cBST WEB Manager | 151
Integer in range [0..2]. Default value is 0.
showSf
UnicastServiceFlow tab.
Displays information about a given service flow.
Parameters
verbose
Specifies whether to show detailed information.
Integer with the following values:
sfid
Selects the SF with its SFID.
Integer.
cid
Selects the SF with its CID.
Integer in the range [0..65535].
showSniffer
Other tab.
Displays the sniffer state and filters.
Parameters
None.
showSs
SS tab.
Displays MS information.
Parameters
mac
Selects the mobile station with the specified MAC address.
String.
cid
Selects the mobile station with the specified CID.
Integer in the range [0..65535].
WiN7000 cBST cBST WEB Manager | 152
verbose
Specifies whether to show detailed information.
Integer with the following values:
showSsAuth
Security tab.
Displays MS authorization.
Parameters
mac
Selects the mobile station with the specified MAC address.
cid
Selects the mobile station with the specified CID.
Integer in the range [0..65535].
verbose
Specifies whether to show detailed information.
Integer with the following values:
showSsCaps
SS tab.
Displays the negotiated capabilities of an MS.
Parameters
mac
Selects the mobile station with the specified MAC address.
String.
cid
Selects the mobile station with the specified CID.
Integer in the range [0..65535].
requested
Displays requested capabilities.
Integer with the following values:
operational
Displays negotiated operational capabilities.
Integer with the following values:
WiN7000 cBST cBST WEB Manager | 153
showSsHarqStats
Other tab.
Displays HARQ statistics for a MS.
Parameters
bcid
Basic CID of the MS for which you want to display statistics.
Integer in the range [0..65535].
Exclusive required parameter.
showSsPhyStatsDl
Statistics tab.
Displays downlink MS physical statistics.
Parameters
For the mobile station, this command has no parameters.
For the base station, this command has the following parameters:
mac
Selects a mobile station by its MAC address.
String.
cid
Selects a mobile station by its connection ID.
Integer in the range [0..65535].
alpha
Averaging parameter for global request in 1/32 dB.
Integer in the range [1..16].
type
Type of CINR to be reported.
Possible values: [pcinr | ecinr].
report-type
Feedback Type.
Possible values: [preamble | zone].
permutation
Zone Permutation.
WiN7000 cBST cBST WEB Manager | 154
Possible values: [pusc-sc-0 | pusc-sc-1 | fusc | optional-fusc |
safety-channel | amc].
measure-type
Measurement type.
Possible values: [pilot | data].
zone-type
Zone type.
Possible values: [non-stc | stc | aas | stc-dedicated-pilots].
prbs-id
Zone PRBD_ID.
Integer in the range [0..3].
major-group-bitmap
PUSC Major group bitmap.
Integer in the range [0..63].
reuse
Preamble use.
Possible values: [1 | 3]. Default value is 1.
cinr-alpha
Averaging parameter for Physical CINR request in 1/16 dB.
Integer in the range [1..16].
showSsPhyStatsUl
Statistics tab.
Displays uplink MS physical statistics.
Parameters
mac
MAC address of the MS for which you want to display statistics.
String.
Exclusive required parameter.
cid
Connection ID of the MS for which you want to display statistics.
Integer in the range [0..65535].
Exclusive required parameter.
WiN7000 cBST cBST WEB Manager | 155
showTime
Other tab.
Displays the system current time.
Parameters
None.
showTimeSyncLockStatus
Config tab.
Indicates whether the base station is synchronized.
Parameters
None.
showTimeSyncParams
Config tab.
Shows the configured values of setTimeSync.
Parameters
None.
showTod
Other tab.
Displays the client TOD.
Parameters
None.
ShowTrap
Other tab.
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Lists the SNMP traps currently defined.
Parameters
TrapName
Select the name of the trap to show.
showVersion
Misc tab.
Displays the system version.
Parameters
None.
sniffShowState
Private tab.
Shows the current parameters controlling the packet sniffer.
Parameters
None.
startSs
Other tab.
Starts the IEEE 802.16e MAC software.
Parameters
None.
stopSs
Other tab.
Stops the IEEE 802.16e MAC software.
Parameters
None.
WiN7000 cBST cBST WEB Manager | 157
SysUptime
Other tab.
Shows the time that elapsed since the last time the base station has been reset.
Parameters
None.
TrapConfig
Other tab.
Allows you to define SNMP traps.
Parameters
TrapName
Specify the trap name.
Send
Select 1=Enable or 2=Disable.
Severity
Select 1=Critical 2=Major 3=Minor 4=Warning 5=Info.
Threshold
Enter the trap threshold (PA1Max: 0-1023 PA2Max: 0-1023 PA3Max: 0-1023 Temperature: 0-
800).
CounterThreshold
Enter trap counter threshold.
CounterAutoReset
Select 1=Enable 2=Disable.
CounterReset
Select 1=Enable 2=Disable.
TrapEnable
Other tab.
Enables traps defined via the TrapConfig command.
WiN7000 cBST cBST WEB Manager | 158
Parameters
Trap
Select 1=Enable 2=Disable.
TrapGetActive
Other tab.
Sends from the base station all active traps.
Parameters
None.
TrapIpAddress
Other tab.
Specifies the IP address to which traps are sent.
Parameters
None.
UpdateChangesFile
Other tab.
When you modify the base station configuration, the changes are written to a separate
changes file. The next time the base station resets, it also reads the changes file. This
command allows you to apply the changes made after the last reset (instead of resetting the
station).
Parameters
None.
UpdateSnmpAccess
Other tab.
Updates the SNMP user authorizations with the details of the newly added users.
Parameters
Read Community
WiN7000 cBST cBST WEB Manager | 159
Enter Read Community
Write Community
Enter Write Community
User Level
Enter User Level [0-Developer,1-Mng,2-Tech,3-User]
UserLogIn
Other tab.
Logs the user in to the base station.
Parameters
User Name
Password
UserLogOut
Other tab.
Logs the user out of the base station.
Parameters
User Name
Password
WiN7000 cBST Appendix A –Specifications | 160
Appendix A –Specifications
Radio and Modem:
Frequency
WiN7013-2: 1350 MHz to 1400 MHz
WiN7025-2: 2496 MHz to 2690MHz
WiN7035-2: 3400 MHz to 3600 MHz
WiN7037-2: 3600MHz to 3720MHz
Radio Access Method IEEE802.16-2005 (16e OFDMA)
Compatibility WiMAX Forum Wave 2 Profile
Operation Mode TDD
Channel Bandwidth 3.5Mhz, 5 MHz, 7Mhz, 10 MHz
Frequency Resolution 0.25 MHz
Number of Antenna
ports
2
Antennas Connectors 2x N-Type, 50 ohm, lightning
protected
Diversity Support STC/MIMO
Output Power [P1dB] 2 x 45W;
Output Power
(average)
36 dBm +/-1dB maximum
FFT/Modulation 512/1024 FFT points;
QPSK, 16QAM, 64QAM
FEC Convolution Code and Turbo
Code
TPC 15dB
Synchronization GPS
Network Interfaces:
Network 1. 37-60VDC
2. 10/100BaseT
Half/full Duplex
IEEE 802.3 CSMA/CD
ASN GW Compatibility WiMAX Forum R6
Profile C
Compatible with CISCO ASN-
GW
Ordering Information:
Part Number WiN70XX-2-Y-ZZE-W
XX – Frequency range
Y – Sync. Interface
ZZ – PA peak power
[Watt]
See frequency table for details
G – GPS
45;
Configuration and Management:
Management SNMP
SNMP Agent SNMP ver 2 client: MIB II (RFC
1213), Private Win-Max MIBs
Software Upgrade FTP
Remote Configuration FTP
Mechanical:
Dimensions [HxWxD] 60cm x 27cm x 10cm
Weight <15Kg
Power Interface:
Input 48VDC nominal (37-60VDC)
Power Consumption 140Watt maximum
Environmental:
Operating Temperature -40°C to +55°C
Operating Humidity 5%-95% non condensing,
Weather protected
Standards Compliance:
EMC FCC part 15, subpart B, class
A
ETSI EN 301489-1/4
Safety TUV-UL 60950-1
IEC 60950-1
Environmental
Enclosure
ETS 300 019:
Part 2-1 T 1.2 & part 2-2 T 2.3
Part 2-4 T 4.1E
Type 3R (IP66)
Immunity EN61000-4-2
EN61000-4-4
EN61000-4-5
Radio
ETSI EN302 326
WiN7000 cBST List of Acronyms | 161
List of Acronyms
AAA Authentication Authorization Accounting
AES Advanced Encryption Standard
AMC
A
daptive Modulation and Coding
API Application Programming Interface
ASN
Access Service Network
ASP Application Service Provider
ATPC
Automatic Transmit Power Control
BE
Best Effort
BPSK Binary Phase Shift Keying
BST Base Station
BWA Broadband Wireless Access
cBST Compact Base Station
CPE Customer Premise Equipment
DHCP Dynamic Host Configuration Protocol
DNS Domain Name System
EAP Extensible Authentication Protocol
ErtPS Extended Real-Time Polling Service
FFT Fast Fourier Transfer
FTP File Transfer Protocol
FUSC Fully Used Sub-Channelization
GW Gateway
HA Home Agent
HTTP Hypertext Transport Protocol
ICMP Internet Control Message Protocol
IDU Indoor Units
IEEE Institute of Electronic and Eclectic Engineers
IGMP Internet Group Multicast Protocol
WiN7000 cBST List of Acronyms | 162
IMS IP Multimedia System
IP Internet Protocol
IPSec IP Security
LAN Local Area Network
LOS Line-of-sight
MAC Media Access Control
MAI Multiple Access Interference
MAN Metropolitan Area Network
MGCP Media Gateway Control Protocol
MIMO Multiple-Input, Multiple-Output
MIP Mobile IP
MSG Multi-Service Gateways
NAP Network Access Provider
NMS Network Management System
NLOS Non-line-of-sight
nrtPS Non-Real Time Polling Service
NSP Network Service Provider
OAM Operations and Maintenance
ODU Outdoor Units
OFDM Orthogonal Frequency Division Multiplexing
OFDMA Orthogonal frequency division multiple access
PDA Personal Digital Assistant
PMIP Proxy Media IP
POP Point of Presence
PPTP Point-to-Point Tunneling Protocol
PUSC Partially used sub-channelization
QAM Quadrature Amplitude Modulation
QoS Quality of Service
QPSK Quadrature Phase Shift Keying
RF Radio Frequency
WiN7000 cBST List of Acronyms | 163
rtPS
Real-Time Polling Service
SF
Service Flow
SIP
Session Initiation Protocol
SLA Service Level Agreements
SNMP
Simple Network Management Protocol
SS Subscriber Station
STC Space-time coding
SU Subscriber Unit
TCP Transmission Control Protocol
TDD Time Division Duplex
TFTP Trivial File Transfer Protocol
UDP User Datagram Protocol
UGS Unsolicited Grant Service
VoIP Voice over IP
VPN Virtual Private Network
WAN Wide Area Network
WiMAX Worldwide Interoperability for Microwave Access
Win-MAX™ WiNetworks WiMAX Product Family
WiNMS
WiNetworks Network Management System