FRC Internet BSMAX250 CBS 2.5GHz User Manual BSmanual 250
FRC Internet Products LLC CBS 2.5GHz BSmanual 250
user manual
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| Document ID | 1954767 |
| Application ID | x7jUMMuEE9I7iFHN0FrrhA== |
| Document Description | user manual |
| Short Term Confidential | No |
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| Document Type | User Manual |
| Display Format | Adobe Acrobat PDF - pdf |
| Filesize | 200.51kB (2506397 bits) |
| Date Submitted | 2013-05-01 00:00:00 |
| Creation Date | 2013-04-23 02:53:49 |
| Producing Software | Mac OS X 10.8.2 Quartz PDFContext |
| Document Lastmod | 2013-04-23 02:53:49 |
| Document Title | BSmanual-250 |
| Document Creator | Word |
FRC BSMAX-250
WIMAX BASE STATION
User Manual
Rev 1.0
FRC Group Proprietary and Confidential
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
Legal
Rights
©
Copyright
2011
FRC
Internet
Products,
LLC.
All
rights
reserved.
The
material
contained
herein
is
proprietary,
privileged,
and
confidential
and
owned
by
FRC
Internet
Products,
LLC
(“FRC”),
its
affiliates
or
its
third
party
licensors.
No
disclosure
thereof
shall
be
made
to
third
parties
without
the
express
written
permission
of
FRC.
FRC
reserves
the
right
to
alter
the
equipment
specifications
and
descriptions
in
this
publication
without
prior
notice.
No
part
of
this
publication
shall
be
deemed
to
be
part
of
any
contract
or
warranty
unless
specifically
incorporated
by
reference
into
such
contract
or
warranty.
Trade
Names
FRC®,
The
Blue
Zone®,
The
BlueZone™,
CPEMax™,
BSMax™
and/or
other
products
and/or
services
referenced
herein
are
either
registered
trademarks
or
service
marks
of
FRC
Group.
All
other
names
are
or
may
be
the
trademarks
of
their
respective
owners.
“WiMAX
Forum”
is
a
registered
trademark
of
the
WiMAX
Forum.
“WiMAX,”
the
WiMAX
Forum
logo,
“WiMAX
Forum
Certified,”
and
the
WiMAX
Forum
Certified
logo
are
trademarks
of
the
WiMAX
Forum.
Statement
of
Conditions
The
information
contained
in
this
manual
is
subject
to
change
without
notice.
FRC
shall
not
be
liable
for
errors
contained
herein
or
for
incidental
or
consequential
damages
in
connection
with
the
furnishing,
performance,
or
use
of
this
manual
or
equipment
supplied
with
it.
Warranties
and
Disclaimers
All
FRC
products
purchased
from
FRC
or
through
any
of
FRC's
authorized
resellers
are
subject
to
the
following
warranty
and
product
liability
terms
and
conditions.
Exclusive
Warranty
(a)
FRC
warrants
that
the
Product
hardware
it
supplies
and
the
tangible
media
on
which
any
software
is
installed,
under
normal
use
and
conditions,
will
be
free
from
significant
defects
in
materials
and
workmanship
for
a
period
of
twelve
(12)
months
from
the
date
of
shipment
of
a
given
Product
to
Purchaser
(the
"Warranty
Period").
FRC
will,
at
its
sole
option
and
as
Purchaser's
sole
remedy,
repair
or
replace
any
defective
Product
in
accordance
with
FRC'
standard
R&R
procedure.
(b)
With
respect
to
the
Firmware,
FRC
warrants
the
correct
functionality
according
to
the
attached
documentation,
for
a
period
of
twelve
(12)
month
from
invoice
date
(the
"Warranty
Period")".
During
the
Warranty
Period,
FRC
may
release
to
its
Customers
firmware
updates,
which
include
additional
performance
improvements
and/or
bug
fixes,
upon
availability
(the
"Warranty").
Bug
fixes,
temporary
patches
and/or
workarounds
may
be
supplied
as
Firmware
updates.
Additional
hardware,
if
required,
to
install
or
use
Firmware
updates
must
be
purchased
by
the
Customer.
FRC
will
be
obligated
to
support
solely
the
two
(2)
most
recent
Software
major
releases.
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
Page
2
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
FRC
SHALL
NOT
BE
LIABLE
UNDER
THIS
WARRANTY
IF
ITS
TESTING
AND
EXAMINATION
DISCLOSE
THAT
THE
ALLEGED
DEFECT
IN
THE
PRODUCT
DOES
NOT
EXIST
OR
WAS
CAUSED
BY
PURCHASER'S
OR
ANY
THIRD
PERSON'S
MISUSE,
NEGLIGENCE,
IMPROPER
INSTALLATION
OR
IMPROPER
TESTING,
UNAUTHORIZED
ATTEMPTS
TO
REPAIR,
OR
ANY
OTHER
CAUSE
BEYOND
THE
RANGE
OF
THE
INTENDED
USE,
OR
BY
ACCIDENT,
FIRE,
LIGHTNING
OR
OTHER
HAZARD.
Disclaimer
(a)
The
Software
is
sold
on
an
"AS
IS"
basis.
FRC,
its
affiliates
or
its
licensors
MAKE
NO
WARRANTIES,
WHATSOEVER,
WHETHER
EXPRESS
OR
IMPLIED,
WITH
RESPECT
TO
THE
SOFTWARE
AND
THE
ACCOMPANYING
DOCUMENTATION
FRC
SPECIFICALLY
DISCLAIMS
ALL
IMPLIED
WARRANTIES
OF
MERCHANTABILITY
AND
FITNESS
FOR
A
PARTICULAR
PURPOSE
AND
NON-‐INFRINGEMENT
WITH
RESPECT
TO
THE
SOFTWARE.
UNITS
OF
PRODUCT
(INCLUDING
ALL
THE
SOFTWARE)
DELIVERED
TO
PURCHASER
HEREUNDER
ARE
NOT
FAULT-‐TOLERANT
AND
ARE
NOT
DESIGNED,
MANUFACTURED
OR
INTENDED
FOR
USE
OR
RESALE
IN
APPLICATIONS
WHERE
THE
FAILURE,
MALFUNCTION
OR
INACCURACY
OF
PRODUCTS
CARRIES
A
RISK
OF
DEATH
OR
BODILY
INJURY
OR
SEVERE
PHYSICAL
OR
ENVIRONMENTAL
DAMAGE
("HIGH
RISK
ACTIVITIES").
HIGH
RISK
ACTIVITIES
MAY
INCLUDE,
BUT
ARE
NOT
LIMITED
TO,
USE
AS
PART
OF
ON-‐LINE
CONTROL
SYSTEMS
IN
HAZARDOUS
ENVIRONMENTS
REQUIRING
FAIL-‐SAFE
PERFORMANCE,
SUCH
AS
IN
THE
OPERATION
OF
NUCLEAR
FACILITIES,
AIRCRAFT
NAVIGATION
OR
COMMUNICATION
SYSTEMS,
AIR
TRAFFIC
CONTROL,
LIFE
SUPPORT
MACHINES,
WEAPONS
SYSTEMS
OR
OTHER
APPLICATIONS
REPRESENTING
A
SIMILAR
DEGREE
OF
POTENTIAL
HAZARD.
FRC
SPECIFICALLY
DISCLAIMS
ANY
EXPRESS
OR
IMPLIED
WARRANTY
OF
FITNESS
FOR
HIGH
RISK
ACTIVITIES.
(b)
PURCHASER'S
SOLE
REMEDY
FOR
BREACH
OF
THE
EXPRESS
WARRANTIES
ABOVE
SHALL
BE
REPLACEMENT
OR
REFUND
OF
THE
PURCHASE
PRICE
AS
SPECIFIED
ABOVE,
AT
FRC'S
OPTION.
TO
THE
FULLEST
EXTENT
ALLOWED
BY
LAW,
THE
WARRANTIES
AND
REMEDIES
SET
FORTH
IN
THIS
AGREEMENT
ARE
EXCLUSIVE
AND
IN
LIEU
OF
ALL
OTHER
WARRANTIES
OR
CONDITIONS,
EXPRESS
OR
IMPLIED,
EITHER
IN
FACT
OR
BY
OPERATION
OF
LAW,
STATUTORY
OR
OTHERWISE,
INCLUDING
BUT
NOT
LIMITED
TO
WARRANTIES,
TERMS
OR
CONDITIONS
OF
MERCHANTABILITY,
FITNESS
FOR
A
PARTICULAR
PURPOSE,
SATISFACTORY
QUALITY,
CORRESPONDENCE
WITH
DESCRIPTION,
NON-‐INFRINGEMENT,
AND
ACCURACY
OF
INFORMATION
GENERATED.
ALL
OF
WHICH
ARE
EXPRESSLY
DISCLAIMED.
FRC'
WARRANTIES
HEREIN
RUN
ONLY
TO
PURCHASER,
AND
ARE
NOT
EXTENDED
TO
ANY
THIRD
PARTIES.
FRC
NEITHER
ASSUMES
NOR
AUTHORIZES
ANY
OTHER
PERSON
TO
ASSUME
FOR
IT
ANY
OTHER
LIABILITY
IN
CONNECTION
WITH
THE
SALE,
INSTALLATION,
MAINTENANCE
OR
USE
OF
ITS
PRODUCTS.
Limitation
of
Liability
(a)
FRC
SHALL
NOT
BE
LIABLE
TO
THE
PURCHASER
OR
TO
ANY
THIRD
PARTY,
FOR
ANY
LOSS
OF
PROFITS,
LOSS
OF
USE,
INTERRUPTION
OF
BUSINESS
OR
FOR
ANY
INDIRECT,
SPECIAL,
INCIDENTAL,
PUNITIVE
OR
CONSEQUENTIAL
DAMAGES
OF
ANY
KIND,
WHETHER
ARISING
UNDER
BREACH
OF
CONTRACT,
TORT
(INCLUDING
NEGLIGENCE),
STRICT
LIABILITY
OR
OTHERWISE
AND
WHETHER
BASED
ON
THIS
AGREEMENT
OR
OTHERWISE,
EVEN
IF
ADVISED
OF
THE
POSSIBILITY
OF
SUCH
DAMAGES.
(b)
TO
THE
EXTENT
PERMITTED
BY
APPLICABLE
LAW,
IN
NO
EVENT
SHALL
THE
LIABILITY
FOR
DAMAGES
HEREUNDER
OF
FRC
OR
ITS
EMPLOYEES
OR
AGENTS
EXCEED
THE
PURCHASE
PRICE
PAID
FOR
THE
PRODUCT
BY
PURCHASER,
NOR
SHALL
THE
AGGREGATE
LIABILITY
FOR
DAMAGES
TO
ALL
PARTIES
REGARDING
ANY
PRODUCT
EXCEED
THE
PURCHASE
PRICE
PAID
FOR
THAT
PRODUCT
BY
THAT
PARTY
(EXCEPT
IN
THE
CASE
OF
A
BREACH
OF
A
PARTY'S
CONFIDENTIALITY
OBLIGATIONS).
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
Page
3
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
Electronic
Emission
Notices
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
and
to
EN
301
489-‐1
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
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.
Operation
is
subject
to
the
following
two
conditions:
1.
This
device
may
not
cause
harmful
interference.
2.
This
device
must
accept
any
interference
received,
including
interference
that
may
cause
undesired
operation.
Radio
Frequency
Interference
Statement
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
and
to
EN
301
489-‐1
rules.
These
limits
are
designed
to
provide
reasonable
protection
against
harmful
interference
when
the
equipment
is
operated
in
a
residential
environment
notwithstanding
use
in
commercial,
business
and
industrial
environments.
This
equipment
generates,
uses,
and
can
radiate
radio
frequency
energy
and,
if
not
installed
and
used
in
accordance
with
the
instruction
manual,
may
cause
harmful
interference
to
radio
communications.
FCC
Radiation
Hazard
Warning
To
comply
with
FCC
and
ETSI
RF
exposure
requirement,
the
antenna
used
for
this
equipment
must
be
fixed-‐mounted
on
outdoor
permanent
structures
with
a
separation
distance
of
at
least
100
centimeters
from
all
persons.
R&TTE
Compliance
Statement
This
equipment
is
confirmed
to
comply
with
the
requirements
set
in
the
Council
Directive
of
the
Approximation
of
the
laws
of
the
Member
States
relating
to
R&TTE
Directive
(1999/5/EC)
that
include
the
Electromagnetic
Compatibility
Directive
(2004/108/EC)
and
Low
Voltage
Directive
(2006/95/EC).
Caution
To
avoid
electrical
shock,
do
not
perform
any
servicing
unless
you
are
qualified
to
do
so.
Line
Voltage
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
Page
4
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
Before
connecting
this
instrument
to
the
power
line,
make
sure
that
the
voltage
of
the
power
source
matches
the
requirements
of
the
instrument.
The
unit
must
be
connected
to
an
earthed
(grounded)
outlet
to
comply
with
international
safety
standards.
Radio
The
instrument
transmits
radio
energy
during
normal
operation.
To
avoid
possible
harmful
exposure
to
this
energy,
do
not
stand
or
work
for
extended
periods
of
time
in
front
of
its
antenna.
The
long-‐term
characteristics
or
the
possible
physiological
effects
of
Radio
Frequency
Electromagnetic
fields
have
not
been
yet
fully
investigated.
Outdoor
Unit
and
Antenna
Installation
and
Grounding
Ensure
that
outdoor
units,
antennas
and
supporting
structures
are
properly
installed
to
eliminate
any
physical
hazard
to
either
people
or
property.
Make
sure
that
the
installation
of
the
outdoor
unit,
antenna
and
cables
is
performed
in
accordance
with
all
relevant
national
and
local
building
and
safety
codes.
Even
where
grounding
is
not
mandatory
according
to
applicable
regulation
and
national
codes,
it
is
highly
recommended
to
ensure
that
the
outdoor
unit
and
the
antenna
mast
(when
using
external
antenna)
are
grounded
and
suitable
lightning
protection
devices
are
used
so
as
to
provide
protection
against
voltage
surges
and
static
charges.
In
any
event,
FRC,
The
Supplier,
is
not
liable
for
any
injury,
damage
or
regulation
violations
associated
with
or
caused
by
installation,
grounding
or
lightning
protection.
Disposal
of
Electronic
and
Electrical
Waste
Pursuant
to
the
WEEE
EU
Directive
electronic
and
electrical
waste
must
not
be
disposed
of
with
unsorted
waste.
Please
contact
your
local
recycling
authority
for
disposal
of
this
product.
Important
Notice
This
user
manual
is
delivered
subject
to
the
following
conditions
and
restrictions:
-‐
This
manual
contains
proprietary
information
belonging
to
FRC.
Such
information
is
supplied
solely
for
the
purpose
of
assisting
properly
authorized
users
of
the
respective
FRC
products.
-‐
No
part
of
its
contents
may
be
used
for
any
other
purpose,
disclosed
to
any
person
or
firm
or
reproduced
by
any
means,
electronic
and
mechanical,
without
the
express
prior
written
permission
of
FRC.
-‐
The
text
and
graphics
are
for
the
purpose
of
illustration
and
reference
only.
-‐
The
specifications
on
which
they
are
based
are
subject
to
change
without
notice.
-‐
The
software
described
in
this
document
is
furnished
under
a
license.
The
software
may
be
used
or
copied
only
in
accordance
with
the
terms
of
that
license.
-‐
Information
in
this
document
is
subject
to
change
without
notice.
-‐
FRC
reserves
the
right
to
alter
the
equipment
specifications
and
descriptions
in
this
publication
without
prior
notice.
No
part
of
this
publication
shall
be
deemed
to
be
part
of
any
contract
or
warranty
unless
specifically
incorporated
by
reference
into
such
contract
or
warranty.
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
Page
5
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
-‐
The
information
contained
herein
is
merely
descriptive
in
nature,
and
does
not
constitute
an
offer
for
the
sale
of
the
product
described
herein.
-‐
Any
changes
or
modifications
of
equipment,
including
opening
of
the
equipment
not
expressly
approved
by
FRC
will
void
equipment
warranty
and
any
repair
thereafter
shall
be
charged
for.
It
could
also
void
the
user's
authority
to
operate
the
equipment.
Some
of
the
equipment
provided
by
FRC
and
specified
in
this
manual,
is
manufactured
and
warranted
by
third
parties.
All
such
equipment
must
be
installed
and
handled
in
full
compliance
with
the
instructions
provided
by
such
manufacturers
as
attached
to
this
manual
or
provided
thereafter
by
FRC
or
the
manufacturers.
Non-‐compliance
with
such
instructions
may
result
in
serious
damage
and/or
bodily
harm
and/or
void
the
user's
authority
to
operate
the
equipment
and/or
revoke
the
warranty
provided
by
such
manufacturer.
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
Page
6
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
GLOSSARY
This
section
defines
or
identifies
technical
terms,
abbreviations,
and
acronyms
used
throughout
this
document.
100BASE-‐TX
IEEE
802.3u
specification
for
100
Mbps
Fast
Ethernet
over
two
pairs
of
Category
5
or
better
UTP
cable.
10BASE-‐T
IEEE
802.3
specification
for
10
Mbps
Ethernet
over
two
pairs
of
Category
3
or
better
UTP
cable.
Administrator
An
administrator
performs
the
service
of
maintaining
a
network.
In
the
case
of
this
device,
the
person
who
sets
up
the
device
and
makes
changes
to
the
settings.
Advanced
Encryption
Standard
(AES)
cryptography.
Authentication
strong
encryption
algorithm
that
implements
symmetric
key
The
process
to
verify
the
identity
of
a
client
requesting
network
access.
Auto-‐negotiation
Signaling
method
allowing
each
node
to
select
its
optimum
operational
mode
(speed
and
duplex
mode)
based
on
the
capabilities
of
the
node
to
which
it
is
connected.
Base
Station
A
WIMAX
service
provider’s
equipment
that
is
installed
at
a
fixed
location
to
provide
network
connectivity
for
subscriber
stations
within
a
defined
service
area.
Client
A
computer
on
the
network
that
uses
the
services
of
the
Router,
such
as
the
automatic
DHCP
server
and
Firewall.
Customer
Premise
Equipment
(CPE)
Customer
Premise
Equipment:
Communications
equipment
that
resides
on
the
customer's
premises.
In
FRC
Wimax
system,
this
also
referred
to
as
Subscriber
station
(SS)
or
Mobile
station
(MS).
Demilitarized
Zone
(DMZ)
can
be
placed
in
the
DMZ.
virtual
zone
in
the
router
that
is
not
protected
by
The
Router's
firewall.
One
computer
Domain
Name
System
(DNS)
A
system
used
for
translating
host
names
for
network
nodes
into
IP
addresses.
DNS
allows
Internet
host
computers
to
have
a
domain
name
(such
as
belkin.com)
and
one
or
more
IP
addresses
(such
as
192.34.45.8).
A
DNS
server
keeps
a
database
of
host
computers
and
their
respective
domain
names
and
IP
addresses,
so
that
when
a
domain
name
is
requested
(as
in
typing
easyDNS.com
into
an
Internet
browser),
the
user
is
sent
to
the
proper
IP
address.
The
DNS
server
address
used
by
the
computers
on
the
home
network
is
the
location
of
the
DNS
server
the
ISP
has
assigned.
Dynamic
Host
Control
Protocol
(DHCP)
Dynamic
Host
Configuration
Protocol:
Provides
a
framework
for
passing
configuration
information
to
hosts
on
a
TCP/IP
network.
DHCP
is
based
on
the
Bootstrap
Protocol
(BOOTP),
adding
the
capability
of
automatic
allocation
of
reusable
network
addresses
and
additional
configuration
options.
Dynamic
IP
An
IP
address
that
is
automatically
obtained
from
a
DHCP
server.
Ethernet
popular
local
area
data
communications
network,
which
accepts
transmission
from
computers
and
terminals.
A
standard
for
computer
networks.
Ethernet
networks
are
connected
by
special
cables
and
hubs,
and
move
data
around
at
up
to
10
gigabits
per
second
(Gbps).
FRC
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FRC
WiMAX
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Operation
and
Configuration
Manual
Encryption
Data
passing
between
a
base
station
and
clients
can
use
encryption
to
protect
from
interception
and
eves-‐dropping.
Extensible
Authentication
Protocol
(EAP)
An
authentication
protocol
used
to
authenticate
network
clients.
EAP
is
combined
with
IEEE
802.1X
port
authentication
and
a
RADIUS
authentication
server
to
provide
“mutual
authentication”
between
a
client,
the
access
point,
and
the
a
RADIUS
server
File
Transfer
Protocol
(FTP)
File
Transfer
Protocol:
A
TCP/IP
protocol
used
for
file
transfer.
Firewall
network.
An
electronic
boundary
that
prevents
unauthorized
users
from
accessing
certain
files
or
computers
on
a
Firmware
Software
stored
in
memory.
Essential
programs
that
remain
even
when
the
system
is
turned
off.
Firmware
is
easier
to
change
than
hardware
but
more
permanent
than
software
stored
on
a
disk.
Hypertext
Transfer
Protocol
(HTTP)
Hypertext
Transfer
Protocol:
HTTP
is
a
standard
used
to
transmit
and
receive
all
data
over
the
World
Wide
Web.
IEEE
802.16e
A
standard
that
provides
mobile
broadband
wireless
access
using
Scalable
Orthogonal
Frequency
Division
Multiple
Access
(SOFDMA).
IP
Address
IP
stands
for
Internet
Protocol.
An
IP
address
consists
of
a
series
of
four
numbers
separated
by
periods,
that
identifies
a
single,
unique
Internet
computer
host.
Example:
192.34.45.8.
ISP
Internet
Service
Provider.
An
ISP
is
a
business
that
provides
connectivity
to
the
Internet
for
individuals
and
other
businesses
or
organizations.
ISP
Gateway
Address
(see
ISP
for
definition).
The
ISP
Gateway
Address
is
an
IP
address
for
the
Internet
router
located
at
the
IPS's
office.
This
address
is
required
when
using
a
cable,
DSL
or
wireless
modem.
Local
Area
Network
(LAN)
A
LAN
is
a
group
of
computers
and
devices
connected
together
in
a
relatively
small
area
(such
as
a
house
or
an
office).
A
home
network
is
considered
a
LAN.
MAC
Media
Access
Control:
The
lower
of
the
two
sub-‐layers
of
the
data
link
layer
defined
by
the
IEEE.
The
MAC
sub-‐
layer
handles
access
to
shared
media,
such
as
whether
token
passing
or
contention
will
be
used.
MAC
Address
Standardized
data
link
layer
address
that
is
required
for
every
port
or
device
that
connects
to
a
LAN.
Other
devices
in
the
network
use
these
addresses
to
locate
specific
ports
in
the
network
and
to
create
and
update
routing
tables
and
data
structures.
MAC
addresses
are
six
bytes
long
and
are
controlled
by
the
IEEE.
Orthogonal
Frequency
Division
Multiplexing
(OFDM)
Orthogonal
Frequency
Division
Multiplexing:
OFDM
allows
multiple
users
to
transmit
in
an
allocated
band
by
dividing
the
bandwidth
into
many
narrow
bandwidth
carriers.
Power
over
Ethernet
(PoE)
Power
over
Ethernet:
A
specification
for
providing
both
power
and
data
to
low-‐power
network
devices
using
a
single
Category
5
Ethernet
cable.
PoE
provides
greater
flexibility
in
locating
network
devices,
and
significantly
decreased
installation
costs.
MTU
Maximum
Transmission
Unit.
The
largest
unit
of
data
that
can
be
transmitted
on
any
particular
physical
medium.
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FRC
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Operation
and
Configuration
Manual
NAT
Network
Address
Translation.
This
process
allows
all
of
the
computers
on
the
home
network
to
use
one
IP
address.
Using
the
NAT
capability
of
the
Home-‐Connect
home
network
gateway,
access
is
available
to
the
Internet
from
any
computer
on
the
home
network
without
having
to
purchase
more
IP
addresses
from
the
ISP.
Port
A
logical
channel
that
is
identified
by
its
unique
port
number.
Applications
listen
on
specific
ports
for
information
that
may
be
related
to
it.
PPPoE
Point-‐to-‐Point
Protocol
over
Ethernet.
Point-‐to-‐Point
Protocol
is
a
method
of
secure
data
transmission
originally
created
for
dial-‐up
connections;
PPPoE
is
for
Ethernet
connections.
PPTP
Point-‐to-‐Point
Tunneling
Protocol.
A
version
of
PPP
(Point-‐to-‐Point
Protocol)
that
has
the
ability
to
encapsulate
packets
of
data
formatted
for
one
network
protocol
in
packets
used
by
another
protocol.
This
tunneling
technique
allows
TCP/IP
data
to
be
transmitted
over
a
non-‐TCP/IP
network.
PPTP
can
be
used
to
join
different
physical
networks
using
the
Internet
as
an
intermediary.
SNTP
Simple
Network
Time
Protocol.
A
communication
standard
that
allows
for
the
transmission
of
real
time
information
over
a
network
or
the
Internet.
SPI
Stateful
Packet
Inspection.
SPI
is
the
type
of
corporate-‐grade
Internet
security
provided
by
a
HomeConnect
home
network
gateway.
Using
SPI,
the
gateway
acts
as
a
firewall,
protecting
the
network
from
computer
hackers.
Static
IP
An
IP
address
that
is
manually
configured
and
never
changes.
Subnet
Mask
A
subnet
mask,
which
may
be
a
part
of
the
TCP/IP
information
provided
by
the
ISP,
is
a
set
of
four
numbers
configured
like
an
IP
address.
It
is
used
to
create
IP
address
numbers
used
only
within
a
particular
network
(as
opposed
to
valid
IP
address
numbers
recognized
by
the
Internet,
which
must
assigned
by
Inter-‐NIC).
Subscriber
Station
base
station.
general
term
for
a
customer’s
WIMAX
terminal
equipment
that
provides
connectivity
with
a
TCP
Transmission
Control
Protocol.
The
most
common
Internet
transport
layer
protocol.
TCP
is
connection-‐oriented
and
stream-‐oriented,
and
provides
for
reliable
communication
over
packet-‐switched
networks.
TCP
/
IP
Transmission
Control
Protocol
over
Internet
Protocol.
This
is
the
standard
protocol
for
data
transmission
over
the
Internet.
Trivial
File
Transfer
Protocol
(TFTP)
Trivial
File
Transfer
Protocol:
A
TCP/IP
protocol
commonly
used
for
software
downloads.
UDP
User
Datagram
Protocol.
Communications
protocol
for
the
Internet
Network
layer,
transport
layer,
and
session
layer,
which
makes
it
possible
to
send
a
datagram
message
from
one
computer
to
an
application
running
in
another
computer.
Unlike
TCP,
UDP
is
connectionless
and
does
not
guarantee
reliable
communication;
the
application
itself
must
process
any
errors
and
check
for
reliable
delivery.
UTP
Unshielded
twisted-‐pair
cable.
WAN
Wide
Area
Network.
A
network
that
connects
computers
located
in
Geographically
separate
areas,
(i.e.,
different
buildings,
cities,
countries).
The
Internet
is
a
wide
area
network.
FRC
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Bsmax250_manual
–
rev
1.0
Page
9
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
WAN
IP
Address
The
IP
address
assigned
to
the
router
by
the
ISP.
WLAN
Wireless
Local
Area
Network.
A
local
area
network
that
connects
Computers
close
together
via
radio
(such
as
802.11b)
FRC
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Bsmax250_manual
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Page
10
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
Contents
Glossary
..........................................................................................................................................................................................................................
7
1.
2.
3.
Base
station
introduction
&
installation
.............................................................................................................................................
12
1.1
General
introduction
..........................................................................................................................................................................
12
1.2
Product
Specification
.........................................................................................................................................................................
13
1.3
Connectors
.............................................................................................................................................................................................
14
1.4
Installing
Base
Station
.......................................................................................................................................................................
14
1.5
Network
Architecture
.......................................................................................................................................................................
18
Configuration
access
....................................................................................................................................................................................
19
2.1
Configuration
Parameters
...............................................................................................................................................................
19
2.2
Factory
Default
Parameter
Values
...............................................................................................................................................
21
2.3
Web
Access
............................................................................................................................................................................................
22
2.4
CLI
Access
...............................................................................................................................................................................................
24
Configuration
Commands
..........................................................................................................................................................................
25
3.1
Admin
Commands
...............................................................................................................................................................................
25
4.
Files
and
Environment
................................................................................................................................................................................
35
5.
Upgrading
Firmware
...................................................................................................................................................................................
36
6.
MIB
Table
Configuration
with
MG-‐SOFT
............................................................................................................................................
36
6.1
Entering
data
to
Read-‐Create
tables
...........................................................................................................................................
36
6.2
Filling
the
wmanBsPriEventLogTable
........................................................................................................................................
41
6.3
Saving
Private
MIBs
...........................................................................................................................................................................
41
6.4
Event
Logging
and
Traps
.................................................................................................................................................................
41
6.5
Provisioned
Service
Flows
..............................................................................................................................................................
43
7.
Startup
scripts
................................................................................................................................................................................................
44
8.
MIMO
operation
.............................................................................................................................................................................................
46
9.
R6
Operation
with
ASN-‐GW
.....................................................................................................................................................................
47
9.1
Operation
without
Authentication
..............................................................................................................................................
47
9.2
Operation
with
Authentication
.....................................................................................................................................................
47
9.3
Re-‐authentication
................................................................................................................................................................................
47
FRC
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Bsmax250_manual
–
rev
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Page
11
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
1. BASE
STATION
INTRODUCTION
&
INSTALLATION
1.1
GENERAL
INTRODUCTION
The
FRC
Wimax
Base
station
BSMax-‐250
is
an
all-‐outdoor
micro-‐level
WiMax
base
station
that
complies
with
WiMax
standard
IEEE
802.16e-‐2005
and
operates
in
the
frequency
range
of
2497.75~2688.25MHz.
Below
are
pictures
(front
view
and
back
view)
of
the
base
station
set
with
antenna.
Figure
1:
BSMax-‐250
and
antenna,
front
view
FRC
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FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
Figure
2:
BSMax-‐250
and
antenna,
back
view
1.2
PRODUCT
SPECIFICATION
Table
below
is
a
list
of
hardware
specifications
of
the
base
station.
System
Standard
RF
band
Channel
sizes
Duplexing
Transmit
power
RF
Dynamic
range
Transmit
power
accuracy
Frame
length
MIMO
support
Multiple
antenna
support
Certification
compliance
Power
surge
protection
Power
supply
FRC
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Bsmax250_manual
–
rev
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IEEE
802.16e
2497.75~2688.25MHz
3.5,
5,7
and
10MHz
(512
and
1024
FFT
size
for
OFDMA
signal)
TDD
Up
to
32dbm
Tx
>
20db,
Rx
>
70db
Within
+/-‐
1db
5ms
Tx,
2Rx
UL
MRC,
UL
Matrix
A,
DL
Matrix
A/B
*being
applied*
>4KV
Via
-‐48VDC
Power-‐over-‐Ethernet
or
Page
13
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
Waterproof
Operating
temperature
Operating
humidity
standalone
-‐48VDC
IP
65
-‐40
to
+55
degree
Celcius
to
95%
(non-‐condensing)
Table
1:
Base
station
specification
1.3
CONNECTORS
There
are
2
antenna
connectors
(N-‐type
male)
used
to
connect
to
antenna(s)
on
the
top
of
the
base
station:
Connector
1
to
MIMO
antenna
1
or
SISO
antenna;
Connector
2
to
MIMO
antenna
2
or
RF
termination.
The
RF
termination
needs
to
have
at
least
2W
RF
power
tolerance
in
the
frequency
range
of
operation
(3400-‐3800MHz).
For
the
bottom
of
the
base
station,
left
to
right,
the
connectors/indicators
are
(as
shown
in
figure
1):
-‐
-‐
-‐
-‐
Ethernet
input
(Power
of
Ethernet)
with
cover
LED
status
indicator
1PPS
signal
input
(TNC
connector)
with
cover
-‐48VDC
input
with
cover
The
label
showing
product
model,
serial
number
and
MAC
address
is
also
placed
on
the
bottom
of
the
base
station.
1.4
INSTALLING
BASE
STATION
The
following
steps
are
to
be
followed
when
installing
the
base
station.
Step
1.
Fasten
base
station
unit
on
to
the
pole
with
mounting
brackets
and
wing
bolts(screws,
washers
and
nuts),
as
shown
in
figure
below.
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FRC
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BSMax-‐250
Operation
and
Configuration
Manual
Figure
3:
Install
base
station
on
pole
Step
2.
Install
antennas
and
connect
RF
coaxial
cable
to
base
station,
as
shown
in
figure
below.
The
RF
coaxial
cable
needs
to
be
as
short
as
possible
to
minimize
loss.
Step
3.
Install
weather-‐proof
CAT-‐5e
cable
to
Ethernet
port
of
base
station,
as
shown
in
figure
below.
FRC
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FRC
WiMAX
Base
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BSMax-‐250
Operation
and
Configuration
Manual
Step
4.
Install
weather-‐proof
TNC
cable
between
GPS
port
of
base
station
and
GPS
receiver
(optional),
as
shown
in
figure
below.
Step
5.
Install
grounding
cable
to
“TO
GND”
port
of
base
station,
as
shown
in
figure
below.
Step
6.
Install
weather-‐proof
power
cable
to
“DC
48V
IN”
port
of
base
station,
as
shown
in
figure
below.
Figure
4:
Connecting
antennas
Step
7.
Sealing
connectors,
wrapping
RF
ports
of
base
station
and
antenna
by
rubber
splicing
tape,
as
shown
in
figure
below.
FRC
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–
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FRC
WiMAX
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BSMax-‐250
Operation
and
Configuration
Manual
Figure
5:
Sealing
connectors
and
RF
cables
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FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
1.5 NETWORK
ARCHITECTURE
The
WiMAX
network
structure
involving
base
station
can
be
explained
in
the
figure
below.
The
reference
points
(R1-‐R6)
as
seen
in
figure
are
conceptual
links
that
connects
two
functional
entities.
The
reference
points
are:
R1:
Reference
point
between
SS
and
BS:
implements
IEEE
802.16e-‐2005.
R2:
Reference
point
between
MS
and
ASN-‐GW
or
CSN:
logical
interface
used
for
authentication,
authorization,
IP
host
configuration
and
mobility
management.
R3:
Reference
point
between
ASN
and
CSN:
supports
AAA,
policy
enforcement,
and
mobility
–management
capabilities.
Implements
tunnel
between
ASN
and
CSN.
R4:
Reference
point
between
ASN
and
ASN:
used
for
MS
mobility
across
ASNs.
R5:
Reference
point
between
CSN
and
CSN:
used
for
internetworking
between
home
and
visited
network.
FRC
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Bsmax250_manual
–
rev
1.0
Page
18
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
R6:
Reference
point
between
BS
and
ASN:
implements
intra-‐ASN
tunnels
and
used
for
control
plane
signaling.
2. CONFIGURATION
ACCESS
2.1 CONFIGURATION
PARAMETERS
The
basic
configuration
parameters,
categorized
into
logical
groups
according
to
the
system
functionality
are
listed
below.
FTP
Parameters
This
set
of
parameters
is
used
when
the
system
is
trying
to
boot
from
the
network
upon
failure
to
load
from
the
primary
and
secondary
images
on
flash
as
well
as
to
perform
software
upgrades.
•
FTP
Host
IP
address:
The
IP
address
of
the
server
which
contains
the
firmware
upgrades.
•
User
name:
The
user
name
by
which
the
system
can
access
the
FTP
server.
•
Password:
The
password
by
which
the
user
specified
by
the
user
name
can
access
the
FTP
server.
SW
Upgrade
Parameters
This
set
of
parameters
is
used
to
control
the
SUH
operation.
•
File
path:
The
path
on
which
the
firmware
upgrades
exist.
•
Filename:
The
name
of
the
firmware
package
and
its
extension.
•
Auto-‐upgrade
time:
The
interval
between
auto-‐upgrades.
•
Auto-‐upgrade
enabled
flag:
Indicates
whether
the
auto-‐upgrade
feature
is
enabled
or
not.
Network
Parameters
This
set
of
parameters
is
used
to
configure
the
target
network
settings
in
order
to
be
able
to
access
the
network.
•
BS
IP
address:
The
IP
address
of
the
Ethernet
interface
through
which
the
BS
communicates
with
the
network
for
FTP
upgrades,
TFTP
configurations
download
and
booting
from
network
image
upon
failure.
•
BS
Subnet
mask:
The
subnet
mask
associated
with
the
IP
address.
•
BS
Default
Gateway:
The
gateway
IP
address
through
which
the
BS
can
communicate
with
external
networks.
•
System
log
IP
server:
The
IP
address
of
the
log
server
to
which
the
BS
sends
its
logs.
FRC
Group
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Bsmax250_manual
–
rev
1.0
Page
19
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
•
DHCP
Server
for
SU:
The
IP
address
of
the
DHCP
server
which
assigns
the
IP
addresses
to
SUs
associated
with
the
BS.
Administration
Parameters
This
set
of
parameters
is
used
for
administrative
purposes.
•
Sector
Name:
The
name
of
the
sector
represented
by
this
instance
of
BS.
•
Sector
ID:
The
identifier
of
the
sector
•
Sector
Location:
A
descriptive
name
of
the
location
where
the
BS
exists.
•
Network
Name:
The
name
of
the
owner
of
the
network
to
which
this
BS
belongs.
•
Cell
Name:
The
name
of
the
cell
covered
by
this
BS
sector
•
Admin
system
name:
The
name
of
the
administrator
of
this
BS
•
Admin
system
contact:
The
contact
information
of
the
admin
•
Admin
system
location:
The
location
of
the
admin
•
System
log
enabled
flag:
This
indicates
whether
sending
logs
to
the
log
server
is
enabled
or
not.
Credentials
Parameters
This
set
of
parameters
is
used
to
provide
secure
access
to
the
system
through
the
different
interfaces
supported
by
the
system.
•
CLI
user
name:
The
user
name
used
to
access
the
CLI
remotely
through
telnet.
•
CLI
password:
The
password
used
by
the
CLI
user
name
to
remotely
access
the
CLI
through
telnet.
•
Web
user
name:
The
user
name
used
to
access
the
web
interface.
•
Web
password:
The
password
used
by
the
web
user
to
access
the
web
interface.
•
Read
Community:
The
community
string
which
allows
network
management
systems
to
retrieve
MIB
values
from
the
BS.
•
Write
Community:
The
community
string
which
allows
network
management
systems
to
set
MIB
values
to
the
BS.
Operating
Parameters
This
set
of
parameters
is
used
by
the
system
to
configure
the
MAC
operating
parameters.
FRC
Group
Proprietary
and
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Bsmax250_manual
–
rev
1.0
Page
20
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
•
Uplink
frequency:
The
frequency
used
in
the
uplink
•
Downlink
frequency:
The
frequency
used
in
the
downlink
•
Uplink
modulation:
The
modulation
and
FEC
used
for
the
first
uplink
burst
profile.
(UIUC-‐1)
•
Downlink
modulation:
The
modulation
and
FEC
used
for
the
first
downlink
burst
profile
(DIUC-‐1)
•
TDD
split:
The
time
division
duplexing
ratio
between
the
downlink
and
uplink.
•
Bandwidth:
The
channel
bandwidth.
2.2 FACTORY
DEFAULT
PARAMETER
VALUES
For
the
parameters
listed
in
the
previous
section,
the
factory
default
values
are:
Id
Configuration
Parameter
name
ftpHostIpAddr
userName
Passwd
filePath
Filename
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
Description
Value
192.168.0.10
isAutoUpgradeEnabled
autoUpgradeTime
BsIpAddr
BsSubnetMask
BsDefaultGateway
readCommunity
writeCommunity
sysLogIpAddress
sectorName
sectored
sectorLocation
dhcpServerForSu
IP
address
of
the
server
containing
the
SW
version
to
be
dowloaded
User
name
required
to
access
the
server
Password
required
to
access
the
server
The
complete
path
to
the
SW
images
Name
of
the
SW
image
with
the
extension
but
without
the
version
Set
to
TRUE
to
automatically
upgrade
the
SW
Periodicity
of
automatic
upgrade
(in
seconds)
IP
address
of
the
Base
Station
Subnet
Mask
of
the
Base
Station
Default
Gateway
of
the
Base
Station
The
community
string
used
for
Get
Requests
The
community
string
used
for
Set
Requests
IP
address
of
the
system
log
server
Descriptive
name
of
the
Sector
unique
identifier
of
the
sector
ranging
from
1~6
Descriptive
location
IP
address
of
the
DHCP
server
for
SU
AdminSysName
AdminSysContact
AdminSysLocation
networkName
cellName
cliUserName
cliPassword
webUserName
webPassword
isSysLogEnabled
ulFrequency
Name
of
the
administrator
of
the
system
Administrator
Contact
Location
Name
of
the
network
owner
Name
of
the
cell
The
user
name
used
to
access
the
CLI
through
telnet
The
password
used
to
access
the
CLI
through
telnet
The
user
name
used
to
access
the
web
interface
The
password
used
to
access
the
web
interface
Enables
and
disables
sending
logs
to
the
log
server.
UL
central
frequency
in
Hz
AB-‐FRC
frc@frccorp.com
WiMAXCity
FRC
Cell-‐1
frccli
frccli2009
frcweb
frcweb2009
FALSE
255000
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
frcwimax
frcwimax
samba
FRC_WIMAX_BS_.Z
TRUE
86400
192.168.0.20
255.255.255.0
192.168.0.1
public
private
192.168.0.10
CBS_S1
WiMAXCity
192.168.0.10
Page
21
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
29
dlFequency
30
ulModulation
31
dlModulation
32
33
34
35
36
37
38
39
40
41
42
Bandwidth
tddSplit
r6bsaddr2
r6gwaddr=10.1.3.1
r6gwaddr2=10.1.3.1
r6bsport
r6gwport=2231
r6dataportnexthopmacaddr
NAI
authmode
suppworkaround
DL
central
frequency
in
Hz
The
first
uplink
burst
profile
(modulation
and
FEC
scheme)
The
first
downlink
burst
profile
(modulation
and
FEC
scheme)
The
channel
bandwidth
The
time
division
duplexing
split
R6
BS
address
2
R6
gateway
address
R6
gateway
address
2
R6
BS
port
R6
gateway
port
R6
data
port
next
hop
MAC
address
NAI
Authentication
mode
Supplicant
workaround
255000
qam64-‐cc-‐3/4
qam64-‐cc-‐3/4
10
75
192.168.0.20
10.1.3.1
10.1.3.1
2231
2231
00:1c:ae:6f:3f:21
@thebluezone.com
2.3 WEB
ACCESS
The
base
station’s
software
configuration
can
be
accessed
via
web
browser
through
HTTP
protocol.
The
following
options
can
be
configured:
-‐
Current
settings
and
status
query
-‐
Configuring
parameters
of
MAC
and
PHY
layers
-‐
Network
setting
changes
-‐
Security
setup
-‐
Base
station
access
credentials
-‐
Configuration
settings
backup
-‐
Default
settings
reset
-‐
Firmware
updates
To
log
in
to
the
web
interface:
-‐
Set
host
computer
(the
computer
that
controls/configures
the
base
station)
connected
to
the
base
station
via
Ethernet
(power
over
Ethernet)
and
host
computer’s
IP
address
configured
to
an
address
within
the
same
BsSubnetMask
of
BsIpAddr.
-‐
Enter
http://192.168.0.20
in
the
web
browser
and
the
following
log
in
page
will
be
displayed:
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
Page
22
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
Figure
6:
Web
log
in
In
the
username
and
password
field,
enter
frcweb
and
frcweb2009
respectively.
Click
on
“sign
in”
button
to
log
into
the
administration
page,
shown
in
figure
below.
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
Page
23
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
Figure
7:
Web
administration
The
administration
interface
is
categorized
into
8
groups:
MII,
Unicast
service
flow,
SS,
Statistics,
Mac
frame,
Private,
Admin
and
other,
listed
on
the
top
frame
of
the
page.
After
clicking
on
a
certain
group,
the
commands
available
will
be
listed
in
the
left
frame
of
the
page.
For
each
command,
once
clicked,
the
execution
page
including
command
name,
description,
argument
name,
argument
type,
and
possible
argument
values
will
be
displayed
in
the
main
frame
of
the
page.
To
execute
a
certain
command,
fill
in
the
arguments
that
need
to
be
changed
in
the
field
to
the
right,
then
click
on
“call”
button.
To
log
out
from
web
interface,
click
on
“sign
out”
button
in
the
bottom
frame.
The
detailed
information
of
each
command
can
be
found
in
chapter
3
of
this
document.
2.4 CLI
ACCESS
Software
configuration
command
prompt
interface
can
be
accessed
through
Telnet.
To
access:
-‐
Set
host
computer
connected
to
the
base
station
via
Ethernet
and
host
computer’s
IP
address
configured
to
an
address
within
the
same
BsSubnetMask
of
BsIpAddr.
-‐
Telnet
connection
can
be
established
to
base
station’s
default
IP
address:
telnet
192.168.0.20.
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
Page
24
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
-‐
Enter
the
log
in
credential:
frccli
and
frccli2009.
Software
configuration
prompt
is
entered
once
telnet
connection
is
established.
The
following
table
lists
the
basic
commands
of
the
base
station
command
prompt;
the
syntax
will
follow
VxWorks
6.6
(the
operating
system
of
the
base
station):
Command name
function
cd
“”
Change
active
directory
to
.
E.g.
cd
“host:”
enters
the
root
directory
of
the
FTP
server;
cd
“/tffs/”
enters
the
root
directory
of
the
on
board
flash
List
the
content
of
Execute
.
Some
commands
do
not
require
arguments,
whereas
some
commands
may
require
arguments
to
be
input.
To
understand
what
arguments
are
supported
in
a
configuration
type
command,
use
cbe
“help
”.
For
the
commands
with
arguments,
the
format
to
use
will
be
cbe
“
=
=
…
“.
Show
the
current
working
directory
Execute
script
Copy
file
ls
“”
or
ll
“”
cbe
“”
pwd
cp
“”
“”
rm
“”
ping
“”
reboot
remove
file
ICMP
ping
reboots
the
base
station
Table
2:
CLI
command
syntax
cbe
commands
have
the
same
functionality
of
the
commands
of
web
interface
described
in
previous
section.
For
detailed
explanation
of
the
commands,
please
refer
to
Chapter
3
of
this
document.
3. CONFIGURATION
COMMANDS
The
details
of
the
configuration
commands
mentioned
in
web
and
CLI
access
are
explained
in
this
chapter.
3.1 ADMIN
COMMANDS
loadImage
loadImage
Arguments
Description
Represents
which
image
will
be
loaded.
Possible
values
are:
primary
:
loads
the
primary
image
image
secondary:
loads
the
secondary
image
network:
loads
image
from
network
Load
the
base
station
software
image.
FRC
Group
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and
Confidential
Bsmax250_manual
–
rev
1.0
Page
25
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
Output
Output
Description
Example
Error
Messages
Loading
primary
image...
OR
Loading
secondary
image...
OR
Loading
image
from
network...
The
messages
indicate
which
image
is
being
loaded.
loadImage
primary
loadImage
secondary
loadImage
network
Mandatory
Field
is
missing
Invalid
Image
type.
Possible
values
:
primary,
secondary,
network
showSwVersions
showSwVersions
Arguments
Represents
which
image
will
be
loaded.
Possible
values
are:
primary
:
loads
the
primary
image
secondary:
loads
the
secondary
image
Get
the
version
of
specified
primary,
secondary
or
both
images
software.
Primary
image
version
is:
OR
Secondary
image
version
is:
OR
The
two
messages
together
if
user
didn't
specify
image
type
The
messages
indicate
the
specified
image
version
and
if
user
didn't
specify
image
type
it
will
indicates
the
primary
and
secondary
images
versions.
showSwVersions
showSwVersions
primary
showSwVersions
secondary
Invalid
Image
type.
Possible
values
:
primary,
secondary
Failed
to
get
primary
image
version
Failed
to
get
secondary
image
version
primary
image
version
is
corrupted
the
default
will
be
used
secondary
image
version
is
corrupted
the
default
will
be
used
image
Description
Output
Output
Description
Example
Error
Messages
setOperatingParameters
setOperatingParameters
Arguments
ulFrequency
dlFrequency
bandwidth
ulModulation
FRC
Group
Proprietary
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Bsmax250_manual
–
rev
1.0
The
uplink
frequency.
The
downlink
frequency
The
BS
bandwidth.
Possible
values
for
bandwidth
are:
3MHz
3.5MHz
4.375MHz
5MHz
6MHz
7MHz
8.75MHz
10MHz
The
uplink
modulation
type.
Possible
values
for
modulation:
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
Page
26
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
dlModulation
tddsplit
The
downlink
modulation
type.
Time
division
duplexing
split
Represents
which
image
will
be
loaded.
Possible
operatingImage
values
are
:
primary,
secondary,
network
save
Save
operating
parameters
to
configuration
file
Description
Set
one
or
more
of
the
operating
parameters
and
also
give
the
option
to
save
them
to
flash
Output
If
user
specifies
save
as
1:
Operating
Parameters
has
been
saved
successfully
The
changes
you
have
made
will
take
effect
after
reboot.
You
can
use
loadImage
command
to
reboot.
If
user
didn't
specify
save
or
specifies
it
as
0:
Operating
Parameters
has
been
updated
successfully
The
changes
you
have
made
will
take
effect
after
saving
and
reboot
You
can
use
this
command
to
save
and
loadImage
command
to
reboot
Output
Description
None
Example
setOperatingParameters
ulModulation=qam64-‐ctc-‐3/4
tddsplit=15
dlFrequency=250000
save=1
setOperatingParameters
bandwidth=3MHz
If
all
the
configuration
values
are
to
be
specified
then
no
need
to
write
the
parameter
name
but
they
must
be
entered
in
order.
Error
Messages
Please
enter
at
least
one
value
Invalid
UL
Frequency
value
value.
UL
Frequency
should
have
value
in
range
-‐>
only.
Invalid
UL
Frequency
value
value.
UL
Frequency
should
have
value
in
range
-‐>
only.
Invalid
bandwidth
value.
Possible
Values:
3MHz,
3.5MHz,
4.375MHz,
5MHz,
6MHz,
7MHz,
8.75MHz,
10MHz.
Invalid
TDDSPLIT
value.
TDDSPLIT
should
have
values
53-‐>75
only.
Invalid
UL
Modulation
value.
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
Invalid
UL
Modulation
value.
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
The
type
of
operating
image.
Possible
Values:
primary,
secondary,
network
Failed
to
save
operating
parameters
values
to
flash
setTFTPAddress
setTFTPAddress
Arguments
ipAddress
configFilePath
removeAndReboot
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
Represents
the
IP
address
of
the
TFTP
server
Represents
the
configuration
file
full
path
Represents
whether
to
remove
the
existing
configuration
file
and
reboot
the
system
to
get
it
Page
27
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
Description
Output
Output
Description
Example
Error
Messages
again
from
TFTP
server
or
not.
Set
the
TFTP
IP
address
and
Configuration
file
path
and
also
give
the
option
to
remove
the
existing
file
and
reboot
the
system.
TFTP
Host
IP
Address
has
been
set
successfully
Configuration
File
Path
has
been
set
successfully
The
System
will
now
remove
the
configuration
file
and
reboot
The
message
indicates
the
status
of
set
operation
of
specified
parameters
and
if
system
will
reboot.
setTFTPAddress
ipAddress=192.168.0.10
removeAndReboot=1
setTFTPAddress
configFilePath=
00_26_19/2E/bsconfig.conf
Invalid
TFTP
IP
address
format.
IPv4
format
is
x.x.x.x
Please
enter
at
least
one
argument.
upgradeSw
upgradeSw
Arguments
image
version
hostIP
path
username
password
reboot
Description
Output
Represents
which
image
will
be
upgraded.
Possible
values
are:
primary:
upgrades
the
primary
image
secondary
:
upgrades
the
secondary
image
String
representing
the
version
which
is
used
in
the
upgrade.
The
version
consists
of
the
major.minor.revision
Ex:
v1.0.7
The
IP
address
of
the
FTP
server
on
which
upgraded
software
is
placed.
If
hostIP
is
not
specified,
the
default
host
IP
configured
in
the
BS
is
used.
The
full
path
to
the
software
image
on
the
FTP
server.
If
path
is
not
specified,
the
default
path
configured
in
the
BS
is
used.
The
user
name
to
login
to
the
FTP
server
to
get
the
software
image.
If
the
user
name
is
not
specified
the
username
configured
in
the
BS
is
used.
The
password
to
login
to
the
FTP
server
to
get
the
software
image.
If
the
user
name
is
not
specified
the
password
configured
in
the
BS
is
used.
Specify
whether
to
make
reboot
for
system
or
not.
Upgrade
the
SW
on
the
BS.
Performing
software
upgrade
to
Version
=
x.x.x
If
user
didn't
specify
reboot
option
or
specified
it
as
0
"Software
upgrade
succeeded.
The
updates
will
take
effect
after
reboot.
You
can
use
loadImage
command
to
reboot"
message
will
be
displayed.
If
user
specified
reboot
option
as
1
"
Software
upgrade
succeeded.
System
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
Page
28
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
will
reboot
now"
message
will
be
displayed.
System
indicates
that
upgrade
is
being
performed
with
the
specified
version.
upgradeSw
primary
v1.0.15
upgradeSw
secondary
v2.171.0
169.15.171.1
upgrades/rev1
Version
is
a
mandatory
field
Invalid
IP
address
format.
IPv4
format
is
x.x.x.x
No
Software
Upgrade
can
be
performed
now;
system
init
is
not
yet
completed.
No
Software
Upgrade
can
be
performed
now;
another
upgrade
instance
is
in
progress.
Please
try
again
later.
Software
Upgrade
failed
Failed
to
Upgrade
Software.
Failed
to
log
in
to
FTP.
Failed
to
Upgrade
Software.
FTP
transfer
incomplete.
Failed
to
Upgrade
Software.
Flash
Error
occurred.
Failed
to
Upgrade
Software.
File
read
error.
Failed
to
Upgrade
Software.
Invalid
version
format.
Failed
to
Upgrade
Software.
Incomplete
HW
version.
Failed
to
Upgrade
Software.
Incomplete
SW
version.
Failed
to
Upgrade
Software.
Invalid
Image
Type.
Failed
to
Upgrade
Software.
Failed
to
allocate
memory.
Failed
to
Upgrade
Software.
Invalid
package
length.
Failed
to
Upgrade
Software.
Image
size
is
too
big.
No
Software
Upgrade
can
be
performed
now;
another
upgrade
instance
is
in
progress.
Please
try
again
later.
Failed
to
Upgrade
Software.
Invalid
SW
Upgrade
State.
Failed
to
Upgrade
Software.
Output
Description
Example
Error
Messages
showSystemConfiguration
showSystemConfiguration
Arguments
displayType
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
Represents
which
category
to
be
displayed.
Possible
values
are:
general:
displays
the
configuration
parameters
in
the
General
category.
account:
displays
the
configuration
parameters
in
the
Account
category.
snmp:
displays
the
configuration
parameters
in
the
SNMP
category.
sysLog:
displays
the
configuration
parameters
in
the
SysLog
category.
files:
displays
the
configuration
parameters
in
the
Files
Names
category.
upgrade:
displays
the
configuration
parameters
in
the
Upgrade
category.
sector:
displays
the
configuration
parameters
in
the
Sector
category.
admin:
displays
the
configuration
parameters
in
the
Administrator
Information
category.
Page
29
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
Description
Output
Output
Description
operatingParams:
displays
the
operating
parameters
of
the
system.
all
:
upgrades
the
primary
image
Displays
the
system
configurations.
BS
SYSTEM
CONFIGURATION
General
BS
IP
Address
BS
Subnet
Mask
BS
MAC
Address
BS
Default
Gateway
Network
Name
TFTP
Host
IP
Address
FTP
Host
IP
Address
DHCP
Server
IP
Address
Account
User
Name
Password
SNMP
Read
Community
Write
Community
SysLog
SysLog
Server
IP
address
Is
SysLog
Enabled
Files
Names
File
Path
File
Name
Configuration
File
Full
Path
Upgrade
Is
Auto
Upgrade
Enable
Auto
Upgrade
Time
in
days
Sector
Sector
Name
Sector
ID
Sector/System
Location
Cell
Name
Administrator
Information
System
Administrator
Name
System
Administrator
Contact
System
Administrator
Location
Operating
Parameters
Uplink
Frequency
Downlink
Frequency
Bandwidth
Uplink
Modulation
Downlink
Modulation
Time
Division
Duplexing
Split
Operating
Image
The
system
lists
all
the
values
of
the
configuration
parameters
categorized
into
logical
groups
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
Page
30
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
Example
Error
Messages
showSystemConfiguration
showSystemConfiguration
all
showSystemConfiguration
general
showSystemConfiguration
operatingParams
Failed
to
retrieve
System
Configurations
Invalid
display
type.
Possible
Values:
general,
account,
snmp,
sysLog,
files,
upgrade,
sector,
admin,
operatingParams,
all.
setSystemConfiguration
setSystemConfiguration
Arguments
bsIp
The
BS
IP
address
subnetMask
The
BS
Subnet
mask
defaultGateWay
The
BS
default
gateway
fTPHostIp
IP
address
of
the
FTP
host
dHCPServerIp
IP
address
of
the
DHCP
server
networkName
The
name
of
the
network
userName
User
name
used
for
FTP
access
password
Password
used
for
FTP
access
cliUserName
User
name
used
for
CLI
authentication
cliPassword
Password
used
for
CLI
authentication
webUserName
User
name
used
for
Web
authentication
webPassword
Password
used
for
Web
authentication
readCommunity
SNMP
Requests’
Read
Community
writeCommunity
SNMP
Requests’
Write
Community
sysLogServerIp
IP
Address
of
the
SysLog
Server
isSysLogEnabled
Specify
whether
the
System
logs
enabled
or
not
filePath
Full
path
to
the
upgrade
software
directory
on
FTP
fileName
Filename
of
the
BS
software
autoUpgrade
Specify
if
the
Auto
Upgrade
is
enabled
autoUpgradeTime
The
Auto
Upgrade
Time
in
Days
sectorId
The
Sector
ID
cellName
The
Cell
Name
adminName
The
System
Administrator
Name
adminContact
The
System
Administrator
Contact
adminLocation
The
System
Administrator
Location
save
Save
configurations
to
configuration
file
Description
Set
one
or
more
of
the
system
configurations
and
also
give
the
option
to
save
these
configurations
to
flash.
Output
Configurations
updated
successfully
Output
Description
None
Example
setSystemConfiguration
cellName=Cell1
If
all
the
configuration
values
are
to
be
specified
then
no
need
to
write
the
parameter
name
but
they
must
be
entered
in
order.
Error
Messages
Invalid
BS
IP
address
format.IPv4
format
is
x.x.x.x
Invalid
subnet
mask
address
format.IPv4
format
is
x.x.x.x
Invalid
BS
default
Gateway
address
format.IPv4
format
is
x.x.x.x
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
Page
31
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
Invalid
DHCP
Server
IP
address
format.IPv4
format
is
x.x.x.x
Invalid
SysLog
IP
address
format.IPv4
format
is
x.x.x.x
Invalid
FTP
Host
IP
address
format.IPv4
format
is
x.x.x.x
Please
enter
at
least
one
value.
Invalid
Sector
ID
value.
Sector
ID
should
have
values
1-‐>6
only
CLI
User
Name
and
Password
Must
be
set
together
Web
User
Name
and
Password
Must
be
set
together
Failed
to
Set
FTP
Host
IP
Failed
to
set
Is
SysLog
enabled.
Failed
to
Set
User
Name
Failed
to
Set
Password
Failed
to
set
CLI
User
Name
and
Password
Failed
to
set
WEB
User
Name
and
Password
Failed
to
Set
Software
File
Path
Failed
to
Set
Software
File
Name
Failed
to
save
network
parameters
values
to
flash.
Failed
to
save
configuration
values
to
flash.
getMIB
getMIB
Arguments
module
name
index1
index2
index3
index4
index5
The
module
of
the
MIB
variable
The
Name
of
the
MIB
variable
Key
to
get
the
specified
MIB
from
a
table
Key
to
get
the
specified
MIB
from
a
table
Key
to
get
the
specified
MIB
from
a
table
Key
to
get
the
specified
MIB
from
a
table
Key
to
get
the
specified
MIB
from
a
table
The
object
identifier
of
the
MIB
variable.
The
OID
value
oid
should
contain
the
required
indices
of
the
table
for
accessing
a
specific
entry
in
a
table.
Description
Get
the
value
of
the
specified
MIB.
If
the
MIB
module
is
specified,
a
MIB
name
should
also
be
specified;
otherwise
the
MIB
OID
should
be
specified.
If
the
index
is
a
MAC
address
it
should
be
entered
in
a
dotted
decimal
format.
Output
The
Value
of
is:
Output
Description
The
output
specifies
the
value
of
the
MIB
specified
by
the
OID.
Example
getMIB
oid
=
1.0.8802.16.2.1.3.1.1.3
getMIB
module
=
WMAN-‐DEV-‐MIB
name
=
wmanDevBsCurrentSwVersion
index1
=
1
Error
Messages
You
must
enter
MIB
module
and
name
or
object
ID.
Wrong
module
or
MIB
name.
You
should
enter
1
key(s)
to
get
wmanDevBsCurrentSwVersion
MIB
variable.
Invalid
Object
ID
Failed
to
get
MIB
value.
No
such
object.
No
such
instance.
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
Page
32
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
End
of
MIB.
Unknown
data
type.
Value
=
setMIB
setMIB
Arguments
Description
Output
Output
Description
Example
Error
Messages
module
name
index1
index2
index3
index4
index5
oid
The
module
of
the
MIB
variable
The
Name
of
the
MIB
variable
Key
to
get
the
specified
MIB
from
a
table
Key
to
get
the
specified
MIB
from
a
table
Key
to
get
the
specified
MIB
from
a
table
Key
to
get
the
specified
MIB
from
a
table
Key
to
get
the
specified
MIB
from
a
table
The
object
identifier
of
the
MIB
variable
The
type
of
the
assigned
MIB
value.
Possible
values
are:
:
integer
value
c:
counter
value
g:
gauge
value
type
a:
IP
address
value
s:
String
value
t:
Time
Ticks
value
h:
hex
value
representing
a
bitmap
value
The
value
assigned
to
the
MIB
Set
the
value
of
specific
MIB.
If
the
MIB
module
is
specified,
a
MIB
name
should
also
be
specified;
otherwise
the
MIB
full
OID
should
be
specified.
If
the
index
is
a
MAC
address
it
should
be
entered
in
a
dotted
decimal
format.
For
hexadecimal
format,
two
digits
should
be
entered
for
each
byte,
i.e.
a
value
of
0
in
a
byte
must
be
entered
as
00.
MIB
Value
has
been
Set
Successfully
"MIB
Value
has
been
Set
Successfully"
is
displayed
when
the
system
succeeded
to
set
the
MIB
value
setMIB
oid=1.0.8802.16.2.1.3.1.1.1
type=i
value=5
setMIB
module
=
WMAN-‐IF2F-‐BS-‐MIB
name
=
wmanIf2fBsSfDirection
index1
=
1
index2
=
0.1.2.3.4.5
index3
=
2
type=i
value=5
setMIB
oid=1.0.8802.16.2.1.3.1.1.1
type=h
value=01A437BC00
You
must
enter
MIB
module
and
name
or
object
ID.
Wrong
module
or
MIB
name.
You
should
enter
3
key(s)
to
set
wmanIf2fBsSfDirection
MIB
variable.
Invalid
Object
ID
Failed
to
set
MIB
value
getNextMIB
getNextMIB
Arguments
module
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
The
module
of
the
MIB
variable
Page
33
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
Description
Output
Output
Description
Example
Error
Messages
name
The
Name
of
the
MIB
variable
index1
Key
to
get
the
specified
MIB
from
a
table
index2
Key
to
get
the
specified
MIB
from
a
table
index3
Key
to
get
the
specified
MIB
from
a
table
index4
Key
to
get
the
specified
MIB
from
a
table
index5
Key
to
get
the
specified
MIB
from
a
table
oid
The
object
identifier
of
the
MIB
variable
Get
the
value
of
the
MIB
after
the
specified
one.
If
the
MIB
module
is
specified,
a
MIB
name
should
also
be
specified;
otherwise
the
MIB
OID
should
be
specified.
If
the
index
is
a
MAC
address
it
should
be
entered
in
a
dotted
decimal
format.
The
Value
of
is:
Displays
the
OID
next
to
the
specified
OID
along
with
its
value.
getNextMIB
oid=1.0.8802.16.2.1.3.1.1.3
getNextMIB
module
=
WMAN-‐DEV-‐MIB
name
=
wmanDevBsCurrentSwVersion
index1
=
1
You
must
enter
MIB
module
and
name
or
object
ID.
Wrong
module
or
MIB
name.
You
should
enter
1
key(s)
to
get
wmanDevBsCurrentSwVersion
MIB
variable.
Invalid
Object
ID
Failed
to
get
MIB
value
No
such
object.
No
such
instance.
End
of
MIB.
Unknown
data
type.
Value
=
getBulk
getBulk
Arguments
module
The
module
of
the
MIB
variable
name
The
Name
of
the
MIB
variable
index1
Key
to
get
the
specified
MIB
from
a
table
index2
Key
to
get
the
specified
MIB
from
a
table
index3
Key
to
get
the
specified
MIB
from
a
table
index4
Key
to
get
the
specified
MIB
from
a
table
index5
Key
to
get
the
specified
MIB
from
a
table
oid
The
object
identifier
of
the
MIB
variable
maxRepetitions
The
max
repetition
value
in
the
get
bulk
request
Description
Gets
a
bulk
of
MIBs
starting
at
the
specified
OID.
Output
The
Value
of
is:
Output
Description
Displays
all
the
MIBs
starting
from
the
specified
OID
until
the
maximum
number
of
MIBs
has
been
reached.
Example
getBulk
oid=1.0.8802.16.2.1.3.1.1
maxRepetitions=
15
getBulk
module
=
WMAN-‐DEV-‐MIB
name
=
wmanDevBsCurrentSwVersion
index1
=
1
maxRepetitions
=
10
Error
Messages
You
must
enter
MIB
module
and
name
or
object
ID.
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
Page
34
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
Wrong
module
or
MIB
name.
You
should
enter
1
key(s)
to
get
wmanDevBsCurrentSwVersion
MIB
variable.
Invalid
Object
ID
Failed
to
get
MIB
value.
No
such
object.
No
such
instance.
End
of
MIB.
Unknown
data
type.
Value
=
4. FILES
AND
ENVIRONMENT
The
lists
of
files
required
for
correct
operation
of
the
BS
are
listed
below
categorized
by
the
location
in
which
they
are
saved.
Files
on
flash
(ls
“/tffs/”)
/tffs/vxWorks1.Z
–
The
OS
image
considered
as
the
primary
image.
/tffs/appb1.Z.out
–
The
BS
application
image
considered
as
the
primary
BS
application.
/tffs/primary.sh
–
The
startup
script
that
is
run
after
the
primary
OS
image
loading
to
load
the
primary
BS
application.
The
startup
script
should
contain
the
correct
path
of
the
primary
application.
/tffs/vxWorks2.Z
–
The
OS
image
considered
as
the
secondary
image.
/tffs/appb2.Z.out
–
The
BS
application
image
considered
as
the
secondary
BS
application.
/tffs/secondary.sh
–
The
startup
script
that
is
run
after
the
secondary
OS
image
loading
to
load
the
secondary
BS
application.
The
startup
script
should
contain
the
correct
path
of
the
secondary
application.
/tffs/bsconfig.conf
–
The
configuration
file
downloaded
by
the
BS
from
the
TFTP
server.
The
file
path
and
name
of
the
upgrade
software
are
specified
in
the
configuration
file
bsconfig.conf
and
can
be
modified
through
the
CLI
commands.
Files
on
Network
Server
samba/vxWorks.Z
–
The
OS
image
placed
on
the
network
server.
samba/appb.Z.out
–
The
BS
application
image
on
the
network
server.
samba/net.sh
–
The
startup
script
that
is
run
after
the
OS
image
loading
to
load
the
BS
application.
The
startup
script
should
contain
the
correct
path
of
the
application.
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
Page
35
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
5. UPGRADING
FIRMWARE
The
following
parameters
should
be
set
correctly
in
the
BS
configurations
either
in
the
configuration
file
or
in
the
runtime
configurations
using
CLI
commands
or
specified
in
the
upgradeSw
command:
§
FTP
Server
IP
address
§
FTP
user
name
§
FTP
password
§
File
path
§
File
name
Upgrade
files
are
to
be
placed
in
FTP
server,
as
described
in
previous
chapter.
If
any
of
the
configuration
parameters
are
not
correct,
the
system
will
use
the
default
values
for
configurations.
If
the
system
can’t
find
a
newer
version
or
fails
to
find
the
specified
version
the
system
will
keep
running
with
the
old
SW
version.
The
minimum
auto-‐upgrade
time
that
can
be
configured
is
3
minutes,
if
the
configuration
file
contains
a
value
less
than
3
minutes,
the
system
will
ignore
the
value
specified
and
wait
for
3
minutes
before
autoupgrade.
6. MIB
TABLE
CONFIGURATION
WITH
MG-‐SOFT
This
chapter
explains
how
to
configure
MIB
tables
via
SNMP
protocol
using
MG-‐Soft
MIB
browser.
To
obtain
MG-‐
SOFT
MIB
Browser
software,
refer
to
http://www.mg-‐soft.com/download.html.
6.1 ENTERING
DATA
TO
READ-‐CREATE
TABLES
The
system
supports
the
following
read-‐create
MIB
tables:
wmanIf2fBsProvServiceFlowTable
wmanIf2fBsProvClassifierRuleTable
wmanDevCmnSnmpV1V2TrapDestTable
The
read-‐create
tables
are
empty
by
default
and
their
entries
are
filled
by
the
NMS.
Read-‐Create
tables
are
controlled
by
a
RowStatus
variable
which
is
defined
to
be
the
last
variable
in
the
entry.
•
•
•
The
entry
can
be
in
any
of
the
following
conceptual
states:
•
Does
not
exist
–
In
this
state
the
entry
has
not
been
yet
created.
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
Page
36
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
•
•
•
Not
ready
–
In
this
state
one
or
more
of
the
entry
data
column
variables
(except
the
Row
Status)
are
filled
with
values
using
the
Set
MIB
command.
Not
in
service
–
In
this
state
all
the
entry
column
variables
(except
the
Row
Status)
are
filled
with
values
using
the
Set
MIB
command.
Active
–
In
this
state
the
entry
data
is
completely
filled
and
the
Row
Status
is
set
to
Active.
The
state
of
the
entry
is
controlled
by
the
values
of
the
RowStatus
variable
which
can
take
one
of
the
following
values:
Create
And
Go
Create
And
Wait
Active
Not
In
Service
Destroy
An
entry
in
the
table
is
thus
defined
by
three
columns
categories:
•
•
•
•
•
•
Indices
Column(s)
–
This
uniquely
identifies
the
entry.
The
indices
columns
are
defined
as
not
accessible
so
no
values
can
be
entered
directly
to
them.
•
Data
Columns
–
Vary
from
one
table
to
the
other
depending
on
the
MIB
variables
maintained
by
the
table
and
are
defined
with
read
write
permissions.
•
Row
Status
Column
–
Indicates
the
status
of
the
entry
and
is
defined
with
read-‐write
permissions.
Entry
Creation:
1. Creating
the
entry:
There
are
3
ways
to
create
an
entry
in
the
table:
•
Enter
a
value
in
one
of
the
data
columns
specifying
the
full
qualified
OID
of
the
column
including
the
indices
values.
•
Set
the
RowStatus
column
to
"Create
And
Go":
To
set
the
RowStatus
column
to
this
value,
all
the
data
columns
should
have
been
filled
with
appropriate
values
otherwise
the
agent
will
refuse
this
action.
This
action
will
trigger
the
system
to
activate
the
entry,
i.e.
start
using
the
values
entered
in
the
data
columns.
The
entry
is
conceptually
in
the
“Does
not
exist”
state
before
this
action
is
triggered
and
moves
to
the
“Active”
state.
Set
the
RowStatus
column
to
"Create
And
Wait":
To
set
the
RowStatus
column
to
this
value,
it
is
not
necessary
to
fill
any
of
the
data
columns
with
appropriate
values.
The
entry
is
conceptually
in
the
“Does
not
exist”
state
before
this
action
is
triggered
and
moves
to
the
“Not
Ready”
or
“Not
in
Service”
states.
2. Setting
the
values
in
data
columns:
•
Once
the
entry
exists,
i.e
the
indices
are
known,
the
data
in
the
data
columns
can
be
entered
and
modified
as
desired.
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
Page
37
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
3. Setting
the
RowStatus
column:
•
Active:
To
set
the
RowStatus
column
to
this
value,
all
the
data
fields
must
have
been
entered.
•
Not
In
Service:
This
value
is
set
when
all
the
data
columns
are
set
but
the
entry
is
not
yet
activated.
Destroy:
Setting
the
RowStatus
to
this
value
will
trigger
a
deletion
of
the
entry.
The
entry
will
be
in
the
“Does
not
exist”
state
after
this
action.
Entry
Modification
after
Creation:
•
There
are
2
ways
to
modify
an
entry
while
the
entry
in
the
"Active"
state:
1. Change
the
RowStatus
to
"Not
in
Service",
change
all
the
needed
data
in
the
data
columns,
and
then
return
the
RowStatus
back
to
"Active".
This
method
is
used
when
many
data
columns
need
to
be
changed.
2. Change
the
value
of
the
date
column
to
the
needed
value.
(Without
changing
the
RowStatus).
This
method
is
used
when
only
one
data
column
needs
to
be
changed.
Dependency
among
Multiple
Tables:
Sometimes
there
is
a
dependency
among
the
data
stored
in
multiple
tables
(for
example,
the
Provisioned
service
flow
data
are
stored
in
the
wmanIf2fBsProvServiceFlowTable
and
the
wmanIf2fBsProvClassifierRuleTable.
In
that
case,
when
the
user
changes
the
RowStatus
in
the
wmanIf2fBsProvServiceFlowTable
to
"Active",
all
the
classifiers
in
the
wmanIf2fBsProvClassifierRuleTable
which
belongs
to
the
same
service
flow
and
with
RowStatus
"Not
in
Service"
are
activated
automatically.
As
well,
when
the
user
changes
the
RowStatus
in
the
wmanIf2fBsProvServiceFlowTable
to
"Not
in
Service",
all
the
classifiers
in
the
wmanIf2fBsProvClassifierRuleTable
which
belongs
to
the
same
service
flow
and
with
RowStatus
"Active"
are
automatically
changed
to
"Not
in
Service".
The
following
example
shows
how
to
set
the
value
of
the
wmanIf2fBsSfDirection
in
the
wmanIf2fBsProvServiceFlowTable.
The
indices
of
the
entry
are:
wmanIf2fBsSsProvMacAddress
=
00.29.11.23.15.11
wmanIf2fBsSfId
=
3
The
value
to
be
set
is:
wmanIf2fBsSfDirection
=
1
1. Expanding
the
entry.
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
Page
38
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
Figure
8:
Expanding
MIB
table
entry
2. Setting
the
first
data
column.
Figure
9:
Setting
data
column
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
Page
39
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
The
NMS
by
default
selects
the
index
zero
as
highlighted
in
the
following
figure.
Figure
10:
Default
index
3. Entering
the
indices
of
the
entry.
4. Setting
the
value.
Figure
11:
Setting
table
entry
value
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
Page
40
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
Please
note
that
the
MG-‐Soft
license
expired,
so
the
current
supported
version
is
only
v1.
Data
types
defined
only
in
v2c
of
the
SNMP
standard
are
not
supported
anymore.
Example
of
these
types
is
COUNTER64.
This
type
affects
the
following
tables
outputs,
however
when
tested
from
both
the
CLI
and
the
linux
snmp
commands,
it
worked
fine.
•
•
•
•
wmanBsPriSuStatisticsTable
wmanBsPriBsSectorLevel
wmanIf2BsOtaUsageDataRecord
wmanIf2BsPacketErrorRate
6.2 FILLING
THE
WMANBSPRIEVENTLOGTABLE
The
wmanBsPriEventLogTable
maintains
the
different
events
that
occur
on
the
BS.
The
implementation
of
the
event
able
provides
two
accessing
functions,
one
to
read
an
event
from
the
table
and
the
other
to
write
an
event
in
the
table
namely
the
eventRead
and
eventWrite
functions.
Any
entity
in
the
system
can
use
the
event
table
to
enter
an
event
in
the
table
using
the
eventWrite
function.
6.3 SAVING
PRIVATE
MIBS
The
private
MIB
variables
can
be
saved
to
flash,
by
setting
the
value
of
the
wmanBsPriSaveConfigurations
to
ONE.
This
is
exactly
equivalent
to
running
the
setSystemConfigurations
command
with
the
save
option
specifed.
6.4 EVENT
LOGGING
AND
TRAPS
The
event
logging
on
the
CPE
is
managed
by
three
MIB
tables:
•
wmanDevCmnEventLogTable:
This
table
contains
the
actual
logs
of
the
system.
All
the
Sequans
logs
and
SDS
logs
have
been
integrated
in
this
table.
•
wmanDevCmnEventLogConfigTable:
This
table
is
responsible
for
the
configurations
of
the
wmanDevCmnEventLogTable,
like
the
number
of
entries
that
shall
be
held
in
it,
whether
or
not
the
entries
wrap
around
when
the
table
is
full,
whether
a
trap
should
be
sent
when
the
table
is
approaching
being
full,
whether
the
logs
should
be
saved
on
a
permanent
storage,
etc…
•
wmanDevCmnEventTable:
This
table
contains
predefined
entries
identifying
the
different
events
that
will
be
logged
in
the
wmanDevCmnEventLogTable.
Each
entry
in
this
table
defines
a
textual
description
of
the
event,
its
severity
level,
whether
or
not
notification
should
be
sent
to
the
management
system
when
this
type
of
event
is
logged,
and
the
OID
of
the
trap
which
will
be
sent
to
the
management
system.
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
Page
41
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
Following
are
the
contents
of
the
predefined
values
in
the
wmanDevCmnEventTable:
EventId
Description
fatal
error
occurred
due
to
a
wrong
condition.
fatal
error
occurred
caused
a
hardware
reset.
fatal
error
occurred
caused
a
hardware
reset.
fatal
error
occurred
caused
a
software
reset.
fatal
error
occurred
caused
a
software
reset.
log
message
log
message
with
arguments
log
message
log
message
with
arguments
10
warning
message
11
warning
message
with
arguments
12
warning
message
13
warning
message
with
arguments
14
Logs
the
entering
of
a
function
with
the
specified
function
name
15
Logs
the
exit
of
a
function
with
the
specified
function
name
16
Logs
the
entering
of
a
function
with
the
specified
function
name
17
Logs
the
exit
of
a
function
with
the
specified
function
name
Severity
Warning
EventNotification
NotificationOID
TRUE
1.3.6.1.4.1.32604.15.1
Emergency
TRUE
1.3.6.1.4.1.32604.15.2
Emergency
TRUE
1.3.6.1.4.1.32604.15.3
Alert
TRUE
1.3.6.1.4.1.32604.15.4
Alert
TRUE
1.3.6.1.4.1.32604.15.5
Informational
Informational
Informational
Informational
Warning
Warning
Warning
Warning
Debug
FALSE
FALSE
FALSE
FALSE
TRUE
TRUE
TRUE
TRUE
FALSE
1.3.6.1.4.1.32604.15.6
1.3.6.1.4.1.32604.15.7
1.3.6.1.4.1.32604.15.8
1.3.6.1.4.1.32604.15.9
1.3.6.1.4.1.32604.15.10
1.3.6.1.4.1.32604.15.11
1.3.6.1.4.1.32604.15.12
1.3.6.1.4.1.32604.15.13
1.3.6.1.4.1.32604.15.14
Debug
FALSE
1.3.6.1.4.1.32604.15.15
Debug
FALSE
1.3.6.1.4.1.32604.15.16
Debug
FALSE
1.3.6.1.4.1.32604.15.17
Table
3:
wmanDevCmnEventTable
In
order
to
enable
logging
on
the
CPE,
the
following
steps
should
be
followed:
•
Adjustments
in
the
wmanDevCmnEventLogConfigTable
Configure
the
wmanDevCmnEventLogEntryLimit
with
the
maximum
number
of
entries
that
should
be
held
in
the
wmanDevCmnEventLogTable
Configure
the
wmanDevCmnEventLifeTimeLimit
with
the
time
after
which
the
events
are
considered
obsolete.
Configure
the
wmanDevCmnEventLogEntryLimitPerEventId
which
defines
how
many
entries
shoukd
exist
in
the
table
for
each
type
of
event
defined
in
wmanDevCmnEventTable.
Configure
the
wmanDevCmnEventLogSeverityThreshold
which
defines
the
minimum
severity
that
should
be
included
in
the
table.
All
logs
of
severities
less
than
the
wmanDevCmnEventLogSeverityThreshold
will
not
be
logged
in
the
table.
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
Page
42
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
•
Configure
the
wmanDevCmnEventLogWrapAroundBuffEnable
to
enable
the
entries
in
the
table
to
be
overwritten
when
the
table
is
full.
Configure
the
wmanDevCmnEventLogResidualBuffThreshold
which
defines
the
limit
after
which
a
trap
will
be
sent
with
each
entry
logged
in
the
table.
Adjustments
in
the
Configuration
parameters
to
save
logs
on
FTP
•
•
The
MIBs
define
whether
or
not
logs
should
be
saved
in
permanent
storage
or
not,
however
it
doesn’t
enable
modifying
this
option
at
runtime.
For
this
purpose
a
configuration
parameter
has
been
added
to
the
configuration
file
to
control
this.
The
IS_WRITING_LOGS_ON_FTP_ENABLED
is
used
for
this
option.
Adjustments
in
the
wmanDevSsNotification
for
sending
traps
The
traps
generally
are
enabled
and
disabled
as
desired.
The
administrator
can
configure
the
traps
to
be
enabled
or
disabled
across
the
whole
system
or
per
trap.
To
enable
or
disable
traps
across
the
whole
system,
the
wmanCpePriTrapGeneration
should
be
configured.
To
enable
or
disable
the
event
logging
traps,
the
wmanDevSsTrapControlRegister
should
be
configured.
The
traps
should
be
sent
to
a
preconfigured
management
system,
in
order
to
do
this
the
details
of
this
management
system
should
be
configured
on
the
wmanDevCmnSnmpV1V2TrapDestTable.
Enabling
logging
To
enable
logging
in
the
module,
select
the
modules
as
desired
and
run
“enableLog”
command.
For
example:
ü cbe
“enableLog
WWW”
ü cbe
“enableLog
PKMB”
6.5 PROVISIONED
SERVICE
FLOWS
The
standard
MIBs
support
provisioning
of
service
flows’
through
NMS.
This
is
done
through
the
following
tables:
•
wmanIf2fBsProvServiceFlowTable
-‐
Each
entry
defines
a
provisioned
service
flow
associated
with
a
certain
SS.
The
entry
contains
the
generic
service
flow
parameters.
•
wmanIf2fBsProvClassifierRuleTable
–
Each
entry
defines
a
provisioned
classifier
rule
associated
with
a
provisioned
SF.
•
wmanIf2fBsProvPhsRuleTable
–
Each
entry
defines
a
provisioned
PHS
rule
associated
with
a
provisioned
classifier.
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
Page
43
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
•
wmanIf2fBsProvServiceClassTable
–
Each
entry
defines
a
provisioned
service
class
defining
a
set
of
QoS
parameters.
The
service
class
is
not
linked
to
a
specific
service
flow,
i.e
the
same
QoS
parameter
set
can
be
used
with
multiple
service
flows.
The
relations
between
the
service
flow,
its
associated
classifiers
and
PHS
rules
are
as
follows:
•
Each
provisioned
service
flow
can
have
one
or
more
provisioned
classifier
rules.
•
Each
provisioned
classifier
rule
can
have
zero
or
one
provisioned
PHS
rule.
•
Each
provisioned
PHS
rule
must
be
associated
with
a
provisioned
classifier
rule.
•
Each
provisioned
service
flow
can
use
zero
or
one
activated
service
class.
The
steps
needed
to
create
a
provisioned
service
flow,
with
one
classifier,
one
PHS
rule
and
uses
a
service
class
is
described
below.
This
example
is
the
general
example;
however
steps
needed
for
the
service
class,
PHS
and
classifier
rules
can
be
omitted.
•
Creation
of
a
provisioned
Service
Flow
-‐
Add
the
parameters
of
the
service
flow
without
changing
the
RowStatus
to
Active.
•
Creation
of
a
provisioned
Classifier
Rule
-‐
Add
the
parameters
of
classifier
rule
without
changing
the
RowStatus
to
Active.
•
Creation
of
provisioned
PHS
Rule
-‐
Add
the
parameters
of
PHS
rule
without
changing
the
RowStatus
to
Active.
•
Creation
and
Activation
of
a
provisioned
Service
Class
–
Add
the
parameters
of
the
service
class
and
activate
it
by
setting
the
RowStatus
column
to
active.
Note
that
this
step
is
independent
of
the
service
flow
activation,
since
the
same
service
class
can
be
used
with
multiple
service
flows.
•
Activation
of
the
Provisioned
Service
Flow
–
Change
the
RowStatus
of
the
service
flow
entry
to
active,
this
will
activate
all
associated
entries
in
the
classifier
and
PHS
tables.
Whenever
the
SS
connects/reconnects
the
service
flow
will
be
added
to
the
SS.
•
Reconfiguring
parameters
while
provisioned
service
Flow
is
active
–
Change
the
RowStatus
of
the
service
flow
to
notInService.
Modify
the
service
flow,
associated
classifier
or
PHS
rules
parameters,
and
then
change
the
RowStatus
of
the
service
flow
to
active.
Whenever
the
SS
reconnects
the
service
flow
will
be
added
to
the
SS.
7. STARTUP
SCRIPTS
default
startup
scripts
used
to
start
the
basic
Wimax
functions
is
provided
in
the
on
board
flash.
This
script
can
be
copied
from
on
board
flash
to
FTP
server,
customized
and
modified,
then
copied
back
to
on
board
flash.
The
content
of
this
default
script
is
as
follows:
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
Page
44
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
#load
WiMAX
application
package
from
flash
ldz
"/tffs/appb.Z.out"
#RF
driver
definition,
not
to
be
changed
APPB_RFC_DRIVER_NAME
=
"PM8850"
#RF
calibration
data
definition,
not
to
be
changed
RFC_PM880X_CALIBRATION_FILE
=
"/tffs/calibration.cfg"
#RF
frequency
support
range,
not
to
be
changed
RFC_PM880X_MIN_FREQ
=
2497750
RFC_PM880X_MAX_FREQ
=
2688250
APPB_RFC_MIN_FREQUENCY
=
RFC_PM880X_MIN_FREQ
APPB_RFC_MAX_FREQUENCY
=
RFC_PM880X_MAX_FREQ
#MIMO/SISO
channel
scheme,
for
MIMO
set
to
2,
for
SISO
set
to
0
wmdDbgChannelScheme
=
0
Set
Ethernet
port
configuration,
not
to
be
changed
APPB_BSP_TO_FORWARDING
=
1
APPB_EXTERNAL_MII
=
1
Set
maximum
number
of
SS
can
be
served
by
the
base
station
APPB_MAX_SS_QTY
=
55
#enable
1pps
synchronization
support,
to
be
removed
if
1pps
is
not
used
appbDbgGpsSynchro
=
1
gpsApplyRfCorrection
=
1
appbDbgGpsLoopFilterValue
=
0.01
#Hardware
system
initialization,
mandatory,
not
to
be
changed
swmSysInit
#Set
mode
for
fatal
error
handling
-‐-‐
reboot
epsSetFatalErrorMode
2
#Set
mode
of
operation
to
be
super
user,
to
enable
access
to
all
commands
cbe
"setuser
super"
#Set
Ethernet
port
speed
to
100Mbps
cbe
"setmii
speed=100"
#Set
MAC
frame
(FFT
size,
channel
size,
number
of
sub
channel,
preamble
index)
cbe
"setMacFrame
fft=1024
band=10
subch=63
preamble-‐index=0"
#Set
downlink
frequency
and
power
level
cbe
"setMacDl
fr=2550000
tx-‐power=0"
#Set
uplink
frequency
FRC
Group
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Bsmax250_manual
–
rev
1.0
Page
45
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
cbe
"setMacUl
fr=2550000"
Disable
HARQ
support
if
no
mobility
is
going
to
be
used
cbe
"createprovsf
mac=FF:FF:FF:FF:FF:FF
dir=uplink
sfid=0
classifier1=any"
cbe
"createprovsf
mac=FF:FF:FF:FF:FF:FF
dir=downlink
sfid=0
classifier1=any"
Set
link
adaptation
mode
cbe
"setlinkadaptationdl
mode=manual"
cbe
"setlinkadaptationul
mode=manual"
Set
PKM
version
cbe
"setcaps
pkm-‐version=none"
#Enables
air
interface
to
accept
connection
request
from
SS
cbe
"setMacFrame
started=1"
Other
commands
can
be
added
to
this
startup
script
to
be
executed
automatically
during
system
boot
up.
8. MIMO
OPERATION
To
use
MIMO
mode
in
the
base
station,
the
steps
listed
below
are
to
be
followed.
a.
modify
startup
script:
set
wmdDbgChannelScheme=2
add
following
commands
immediately
after
swmSysInit:
cbe
“setuser
super”
cbe
“addDlZone
mat=matrix-‐b
st=stc-‐2”
cbe
“setschedulertdd
spli=75”
b.
After
air
interface
is
started,
set
the
size
of
SISO
zone
to
minimum,
the
size
of
MIMO
zone
to
maximum.
cbe
“dmsb:setZoneProperties
zone-‐id=0
min-‐slot=2
max-‐slot=4”
cbe
“dmsb:setZoneProperties
zone-‐id=1
min-‐slot=0
max-‐slot=20”
c.
After
a
SS
has
registered
into
the
base
station
over
the
standard
SISO
zone,
assign
the
SS
to
the
MIMO
zone
cbe
“setssphydl
mimo-‐kind=matrix-‐b
zone=1”
FRC
Group
Proprietary
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Bsmax250_manual
–
rev
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Page
46
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
9. R6
OPERATION
WITH
ASN-‐GW
FRC
BSMax-‐250
supports
R6
interface
as
defined
by
the
Wimax
Forum
NWG.
It
had
been
successfully
tested
with
WiChorus
ASN
GW.
Following
ASN
GW
instructions
are
based
on
a
WiChorus
devcie.
9.1 OPERATION
WITHOUT
AUTHENTICATION
The
CPE
and
BS
start-‐up
scripts
should
contain
the
following
line:
cbe
"setcaps
pkm-‐version=none"
The
ASN-‐GW
should
be
configured
with
null
authentication
as
follows:
#config
t
(config)#null-‐authentication-‐enable
9.2 OPERATION
WITH
AUTHENTICATION
The
CPE
and
BS
start-‐up
scripts
should
contain
the
following
line:
cbe
"setcaps
pkm-‐version=
pkm-‐v2"
The
ASN-‐GW
should
be
configured
with
the
null
authentication
disabled
as
follows:
#config
t
(config)#no
null-‐authentication-‐enable
9.3 RE-‐AUTHENTICATION
The
re-‐authentication
procedure
is
controlled
by
the
following
equation:
x-‐600
=
0.75*x
where
x
is
the
session
timeout
value
configured
on
the
AAA
server.
(x-‐600)
is
the
time
at
which
the
SS
starts
the
re-‐authentication
procedure.
FRC
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Bsmax250_manual
–
rev
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Page
47
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
(0.75*x)
is
the
time
at
which
the
authenticator
(ASN-‐GW)
starts
the
re-‐authentication
procedure.
To
trigger
re-‐authentication
from
the
SS:
600
<
x-‐600
<
0.75*x
-‐>
1200
seconds
<
x
<
2400
seconds
To
trigger
re-‐authentication
from
the
ASN-‐GW:
x-‐600
>
0.75*x
-‐>
x
>
2400
seconds
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
Page
48
FRC
WiMAX
Base
Station
BSMax-‐250
Operation
and
Configuration
Manual
RF
exposure
warning
This
equipment
must
be
installed
and
operated
in
accordance
with
provided
instructions
and
the
antenna(s)
used
for
this
transmitter
must
be
installed
to
provide
a
separation
distance
of
at
least
100
cm
from
all
persons
and
must
not
be
co-‐located
or
operating
in
conjunction
with
any
other
antenna
or
transmitter.
End-‐users
and
installers
must
be
provided
with
antenna
installation
instructions
and
transmitter
operating
conditions
for
satisfying
RF
exposure
compliance.
FRC
Group
Proprietary
and
Confidential
Bsmax250_manual
–
rev
1.0
Page
49
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