Trango Systems M5830SSU 5Ghz Wireless Internet Access Point Subscriber Uni User Manual 5830 Manual032803
Trango Systems Inc 5Ghz Wireless Internet Access Point Subscriber Uni 5830 Manual032803
Contents
Users Manual
Access5830™
Wireless Broadband System
USER MANUAL
[draft]
Access5830™ User Manual
2
Table of Contents
Overview 3
FCC Information 3
Warranty Information 3
Getting to Know Your Radio 4
Contents 4
Ethernet and Serial Ports 5
Antennas 5
AP/SU Operational Overview 5
Getting Started 7
Connections and Power 7
Basic Configuration 8
Opmode Concept 8
HTTP Browser Interface 9
Logging On to your Radio via Telnet. 9
Access Point Set Up and Configuration 10
AP System Information 10
AP Subscriber Unit Database 12
Subscriber Unit Set Up and Configuration 13
SU System Information 14
Establishing a Wireless Link 16
Access Point 16
Subscriber Unit 16
Association Concept (AP to SU communications) 16
Basic Diagnostics 17
Deployment 18
Site Selection 19
Site Survey 19
Channel Planning 19
Installation 20
SU Installation and Antenna Alignment 21
Link Test 22
Managing your Access5830 Network 22
Network Setup 22
Command Line Interface 22
Telnetting into remote SU 23
Managing AP from SU side of Network 23
Troublshooting 23
Specifications 24
Appendix 1 -- Access5830™ Command Line Interface (CLI) 25
Appendix 2 – HTTP Browser Interface 33
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Overview
This manual covers basic configuration and installation of the Access5830 Wireless Broadband System and
applies to the following radio part numbers:
M5830S-AP-60 Access Point with internal sectoral patch antenna
M5830S-SU Subscriber Unit with internal patch antenna
Note: The installation of the M5830S-SU requires professional installation due to FCC limits on output
power settings when using the 5.3 GHz U-NII band. Contact your sales person for more information
regarding the definition of “Professional Installation”.
FCC Information
This device complies with Part 15 of FCC Rules and Regulations. Operation is subject to the following two
conditions: (1) This device may not cause harmful interference and (2) this device must accept any
interference received, including interference that may cause undesired operation.
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 these instructions, may cause harmful interference
to radio communications. However, there is no guarantee that interference will not occur in any 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 correct the interference by one of
more of the following measures:
1) Reorient the antenna;
2) Increase the separation between the affected equipment and the unit;
3) Connect the affected equipment to a power outlet on a different circuit from that which the receiver is
connected to;
4) Consult the dealer and/or experienced radio/TV technician for help.
FCC ID: NCYM5830SAP
FCC ID: NCYM5830SSU
Canada: XXXXXXXXXX
IMPORTANT NOTE:
Intentional or unintentional changes or modifications must not be made unless under the express consent of
the party responsible for compliance. Any such modifications could void the user’s authority to operate the
equipment and will void the manufacturer’s warranty. To comply with FCC RF exposure requirements, the
following antenna installation and device operating configurations must be satisfied. The antenna for this
unit must be fixed and mounted on outdoor permanent structures with a separation distance of at least two
meters from all persons. Furthermore, it must not be co-located or operating in conjunction with any other
antenna or transmitter.
Warranty Information
Radios from Trango Broadband Wireless are warranted from one year from date of purchase. Please see
www.trangobroadband.com for complete description of warranty coverage and limitations
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Welcome!
Your Trango Broadband Access5830 radio system provides the latest innovations in high speed fixed
wireless broadband. The Access 5830 is a point-to-multipoint (PMP) system which provides network
connectivity at speeds up to 10 Mbps with a range of 10 miles or beyond depending on antenna
configuration. The Access5830 is unique in that it can operate in either the 5.8 GHz ISM band or the 5.3
GHz U-NII band.
The Access5830 system consists of two types of radios: Access Points (AP) and Subscriber Units (SU).
The AP will deliver wireless broadband service to one or more SU’s according to a proprietary polling
algorithm called SMARTPolling™. Each AP can associate with and deliver service to up to 512 SU’s.
With careful channel planning, (and adequate spacing and shielding) network operators can co-locate up to
22 AP’s at a single cell site.
The AP and SU conform to maximum radiated power limits as established by the FCC.
Band AP Max EIRP Approximate max range (AP to SU)
5.8 GHz ISM Band 36 dBm 6 Miles (allowing for 10 dB fade margin)
5.3 GHz U-NII Band 30 dBm 2 Miles (allowing for 10 dB fade margin)
In this document and within the radio configuration itself, the designators of “ISM” and “U-NII” are used
to distinguish between the two bands.
Getting to Know Your Radio
Contents
Each Access 5830 radio comes equipped with the radio itself, a power-over-Ethernet (POE) J-Box, an AC
adapter, and mounting hardware. The Access5830 AP (part # M5830S-AP-60) also comes with a serial
programming cable. Dual-polarized internal antennas are included within the radome of the AP and the
short range SU (Part #M5830S-SU).
Radio (AP or SU)
J Box (Power over Ethernet Injector)
Serial Programming Cable
(AP Only)
Power Supply (120 VAC – 20 VDC)
Mounting Hardware
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Ethernet and Serial Ports
At the bottom of the Access5830 are two access ports: a twist-on weatherproof cable port for RJ-45
Ethernet (and POE), and an access cover (with two screws) for RJ-11 serial port. Most configuration and
management tasks can be performed through the Ethernet jack. The access cover also contains a small
window which reveals three LEDs. These LEDs provide RF link-status information and will be discussed
later in this text.
Antennas
The Access5830 AP and SU each include dual polarized patch antennas built in behind the plastic radome
cover. These antennas can be electronically switched between horizontal (H) or vertical (V) polarization.
AP/SU Operational Overview
The Access5830 AP is a sophisticated broadband wireless device that provides a host of comprehensive
tools and functions. The AP resides at the center of the point-to-multipoint (PMP) network and performs
all management functions including the allocation of bandwidth allocation for all associated SU’s. As
such, we refer to The Access5830 is an “AP-Centric” system.
One of the major advantages of the Access5830 system is the ability of the AP to handle multiple
SU connections and share the 10 Mbps data throughput very efficiently. Bandwidth allocation is
managed by the AP’s SMARTPolling algorithm according to provisioning rules set up by the
system administrator.
The AP unit acts as a hub in a star configuration wireless multipoint network supporting up to 512
subscriber units. The AP unit, hardwired to a network point of presence, polls each subscriber
unit SU in a round robin format to determine if the SU has data to transfer. The SU only transmits
the data “upstream” to the AP when the AP gives authorization via a “transmit grant”. The SU
parses every “downstream” data packet from the AP and identifies packets intended for it.
In order for an SU to communicate with an AP, the system administrator must first add the MAC
address and ID number of the SU to the user database in the AP.
APs and SUs look identical. The only way to
tell them apart is by the model number printed
on the backside product label. This label also
contains the MAC ID of the radio as well as the
serial #.
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When power is first applied to a properly installed SU, it will scan all the channels in its scantable,
searching for an AP that is sending transmit grants for this particular SU. The SU will then stop
on that channel and respond to the AP using maximum RF power. Before the AP can add the SU
to the polling list, it must authenticate the SU by verifying the MAC address, and performing a
ranging operation to the SU. This process involves sending a special command to the SU and
getting an instantaneous reply from the SU.
Upon successfully locating and ranging the SU, The AP will then add the SU to the normal polling
list and level the RF transmit power level from the SU to set a good signal-to-noise ratio at the AP.
The AP uses several parameters to determine how often each SU is polled for data, and the
conditions of any data transfer, as follows:
1) Committed Information Rate (CIR)
2) Maximum Information Rate (MIR)
3) Priority
4) Poll response timeout
All the above parameters are set in the AP by the system administrator and cannot be controlled at
the SU. It should also be noted that the MAC table located in the AP is dynamic and stores up to
2000 entries. There is no limitation on the number of IP addresses or hardware devices that an
individual SU may have physically connected to it.
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Getting Started
First unpack your AP and at least one SU. It is recommended that novice users first provision and test the
radios on the bench before deploying in the field.
Connections and Power
Note: Connection and powering of radios is the same for AP’s and SU’s.
• Connect a Cat-5 (straight through) Ethernet cable (we recommend shielded twisted pair) between
the ODU (out door unit) port of the J-box and the RJ-45 connector on the radio. Note that this
cable will carry power over Ethernet (PoE). See appendix for PoE pinout diagram for this J-Box
to radio connection.
• If connecting to a COMPUTER, use a Cross-Over Ethernet cable from the NET port of the J-box
to the computer’s Ethernet port.
If connecting to a HUB, SWITCH, or ROUTER, use a Straight-Thru cable.
• Plug the AC adapter into an AC outlet.
POWER ODU
POWER
ODUNET
LED Indicates
power to J-Box
LED Indicates
power to Radio
AP or SU
AC Power
CAT-5
Straight-Thru
Cable
20 V
Power
Supply
Network
or
PC
CAT-5
Use cross-over
cable if to PC
Power over Ethernet
J-Box
Use straight-thru cable
if to hub, switch
or router
Both green LED’s on the J-box should be lit, indicating power is present at the J-box as well as the radio.
You are now ready to configure the radio via the Ethernet port.
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Note: If you cannot access the radio management functions via the Ethernet port, use the Serial
Programming cable (supplied with AP) and attach to RJ-11 located behind access cover on bottom of radio.
Basic Configuration
The Access5830 can be configured using either the Command Line Interface (CLI) or the Web Browser
(HTTP) interface. Although both methods are comprehensive and powerful, the CLI method provides
slightly more functionality. Regardless of which method is chosen, it is important to gain a good
understanding of the major CLI commands available. The entire CLI Command Set Reference is available
in a separate document. This user manual focuses on the CLI for radio configuration and management.
The CLI is accessible via telnet session (through Ethernet port) or via the serial port using Hyper-terminal.
If you would like to use the Hyperterminal via PC serial port, use settings 8-N-1 Flow control: None.
Opmode Concept
Before logging on to a radio, it is important to understand the “opmode” concept of the Access5830. AP’s
can be in one of two opmodes; “OFF” opmode, or “AP” opmode. When in “OFF” opmode the radio is not
radiating RF energy, and it is not attempting to associate with SU’s. “AP” opmode is the normal operating
mode of the AP which is used when radiating RF energy and associating with SU’s.
Similarly, SU’s have two opmodes: “SU” opmode or “OFF” opmode.
Opmode is important to understand for the following reason:
You can log onto an AP via Ethernet port (telnet or http browser) regardless of Opmode. However, you
can only log onto an SU (via the Ethernet port) when it is in Opmode “OFF”. Factory default opmode is
“SU”, however, while booting, the SU will wait 30 seconds before entering opmode “SU”. During this 30
second window, you can log onto the SU while it is in opmode “OFF”. Once you log onto the SU, the
progression to opmode “SU” will stop, and the unit will remain in opmode “OFF”. If accessing the SU via
the serial programming cable, you can log onto the unit weather it is in opmode “OFF” or opmode “SU”.
Also, certain commands, such as the site survey command (ssurvey) and the SU RSSI command (ssrssi)
can only be performed while the radio is in opmode “OFF”. See Appendix 1 Command Set Reference l for
a complete listing of commands, and the appropriate opmode(s) for each command.
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HTTP Browser Interface
The HTTP browser interface is an easy-to-use configuration and management tool. In order to use the
browser interface – simply connect the radio to a PC, and type the radio’s IP address into the web browser
(i.e. Microsoft Internet Explorer). This will bring up a logon screen.
Type the password (default trango) and continue. This will bring up a screen similar to the following:
For more information on the HTTP browser interface, please see Appendix 3, or refer to the online
HELP button on the browser screen.
Logging On to your Radio via Telnet.
Open a command prompt (DOS) session on your PC. Open a Telnet session by typing
telnet [ip address of radio]
You will be greeted with current hardware and firmware information and prompted for a password. Type
in the password and press enter.
All Trango radios (AP and SU) come factory pre-configured with a default IP address
192.168.100.100. The default password is trango.
Prior to deployment you will want to change the password and assign a unique IP address to each radio.
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Access Point Set Up and Configuration
It is recommended to set up the AP prior to setting up the SU’s.
In the process of configuring the AP, you will:
1. Review and modify basic system information such as Base ID, RF Channel, etc.
2. Add SU’s to the Subscriber Unit Database (SUDB).
Logon to the AP and to receive a comprehensive snapshot of the system’s status, type the command
sysinfo. The result appear similar to:
Many of these parameters can be changed by the user. A description of each of these changeable
parameters, along with the related command is shown in the table below. Please note that in order to save
any changes to persistent storage, you must type the command: updateflash systemsetting. If you do not
update the flash, settings will be reset after reboot.
AP SYSINFO PARAMETERS AND RELATED COMMANDS
Parameter Description Related CLI Command
Device ID Mac ID of AP N/A
Base ID Specifies the cell or cluster that
the AP belongs to. Base ID is
one of three key pieces of
information, along with active
channel, and subscriber database
information for the link
establishment between the AP
and SU’s
set baseid <baseid>
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AP SYSINFO PARAMETERS AND RELATED COMMANDS
Parameter Description Related CLI Command
AP ID Informational parameter used to
provide a unique number for
each AP, useful for AP sector
planning. Please note that AP
ID is not used by the system for
SU authentication.
set apid <apid>
Opmode Current Opmode of radio opmode ap to change the opmode from OFF
to AP.
Note: in order to change radio from opmode
AP to opmode OFF, you must change the
default opmode to OFF reboot the radio.
Default opmode Determines the opmode (“AP”
or “OFF”) of the radio after
reboot/power cycle. When the
parameter is set to “AP”, the
radio will progress into “AP”
opmode automatically after
reboot/power cycle.
set defaultopmode <ap or off>
Opmode Start Determines the amount of time
the radio will remain in opmode
OFF after reboot before
progressing to the default
opmode.
set default opmode <time (secs)>
[IP]
[Subnet]
[gateway]
IP, Subnet, and Gateway address
of radio
ipconfig [<new ip> <new subnet mask>
<new gateway>]"
Tftpd status Tftpd status (on or off). ). Tftpd
should be turned on to import
file into radio (such as new
firmware). Default is off.
tftpd on tftpd off
Service Radius User specified estimate of the
distance of the furthest SU this
AP will serve. Based on this
information, the AP will
determine the maximum wait
time for an SU to respond to a
poll before it starts to poll the
next one. Note: This parameter
has NO effect on the actual
coverage radius of the radio.
set serviceradius [ism|unii><miles>]
MIR Threshold (or or
off)
Enable/Disable the Maximum
Information Rate (MIR)
threshold.
set mir [on|off]
MIR Threshold kbps User specified MIR threshold to
determine total throughput level
at which AP serves only CIR
(committed information rate) to
associated SU’s.
When MIR Threshold is disabled,
the AP will serve MIR for all its
SU’s.
When MIR Threshold is
Set mir threshold <kbps>
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AP SYSINFO PARAMETERS AND RELATED COMMANDS
Parameter Description Related CLI Command
activated, and the network traffic
exceeds the MIR threshold, the
AP will only serve CIR for all its
SU’s.
When MIR Threshold is
activated, and the network traffic
does NOT exceed the MIR
threshold, the AP will still serve
MIR for all its SU’s.
Active Channel Current RF channel and
polarization (v)ertical or
(h)orizontal.
Freq writescan <ch#><v|h>
RF Rx Threshold Specifies the receiver sensitivity
of the AP. It is a powerful tool
when the radio is in a noisy
environment. AP will block out
any signal received which is
below the RF Rx threshold.
Separate settings exist for bot
ISM and UNII bands.
rfrxth <ism|unii><-90|-85|-80|-75|-70|-65>
example: rfrxth ism -70
RF Tx Power Current transmit power of the
AP not including antenna gain.
Power <setism|senunii> <min|max|<dBm>>
Example: power setism 10
Channel Table Lists each of the assigned
frequencies to each channel.
Note that default channels 1-6
are assigned to ISM band and
channels 7-11 are assigned to
U-NII band. All channels may
be re-assigned as desired by
the user.
Freq writechannel [<ch#><freq>]
Broadcast Packet This switch (0) enables/disables
the blocking of Ethernet control
packet except ICMP and ARP to
reduce the amount of
unnecessary overhead
introduced to the wireless link
Sw 0 [on|off] (default is on)
Remarks User definable radio information
(i.e. customer name, address of
installation, and so on).
Maximum 28 characters can be
stored.
Remarks [remarks]
AP Subscriber Unit Database
Once you are familiar with the AP’s basic system information presented above, it is time to add one or
more SU’s to the SU database (sudb). There are three basic commands related to the SU database: sudb
add, sudb view, and updateflash sudb.
To add an SU to the sudb database, you will need to know the following information:
1. SU ID (an integer which uniquely identifies the SU within this AP’s SU database)
2. MAC ID of SU (printed on the back of the SU)
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3. Polling priority; either PRIORITY or REGULAR. Note SU’s designated as PRIORITY will get
polled more often by the AP.
4. CIR (Committed Information Rate – or minimum bandwidth this SU will be delivered from the
AP.
5. MIR (Maximum Information Rate – or maximum bandwidth this SU will be delivered from the
AP.
To add and SU to the SUDB database, use the following command and syntax:
sudb add <suid>[pr|reg]<cir><mir><device id>
<suid>: SU identification (1~8190)
pr: priority user
reg: regular user
<cir>: confirmed information rate (0~9999)
<mir>: maximum information rate (0~9999)
<device id>: xx xx xx xx xx xx in hexadecimal
Example: sudb add 4 pr 9999 9999 f3 3c 50 67 89 d4
Add up to 2000 entries in the SU database. It is recommended that users not enter any more SU’s than
necessary since excessive numbers of inactive SU’s in the database will negatively impact system
performance.
To view the entries in the SU database, type the command sudb view.
Other important SU database related commands are sudb delete and sudb modify. See Appendix 1 for
detailed descriptions of these commands.
Important! After updating the SU database, type the command updateflash sudb to save the SU database.
If you do not update flash, the sudb file will revert back to its previous state after power cycle or reboot.
Subscriber Unit Set Up and Configuration
In the process of configuring an SU, you will:
1. Review and modify basic system information such as Base ID, RF Channel, etc.
2. Add SU’s to the Subscriber Unit Database (SUDB).
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SU System Information
Logon to the SU (while it is in opmode “OFF”) and to receive a comprehensive snapshot of the system’s
configuration info and status, type the command sysinfo.
Many of these parameters can be changed by the user. A description of each of these parameters, along
with related commands are shown in the table below. Please note that in order to save any changes to
persistent storage, you must type the command: updateflash systemsetting. If you do not update the flash,
settings will be reset after reboot.
SU SYSINFO PARAMETERS AND RELATED COMMANDS
Parameter Description Related CLI Command
Device ID Mac ID of AP N/A
Base ID Specifies the cell or cluster that of
the associated AP.
set baseid <baseid>
AP ID Informational parameter used to
provide a unique number for the
SU’s associated AP. Please note
that AP ID is not used by the
system for SU authentication.
set apid <apid>
Opmode Current Opmode of radio opmode su to change the opmode from
OFF to SU.
Default opmode Determines the opmode (“SU” or
“OFF”) of the radio after
reboot/power cycle. When the
parameter is set to “SU”, the
radio will progress into “SU”
opmode automatically after
reboot/power cycle.
set defaultopmode <su or off>
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SU SYSINFO PARAMETERS AND RELATED COMMANDS
Parameter Description Related CLI Command
Opmode Start Determines the amount of time
the radio will remain in opmode
OFF after reboot before
progressing to the default
opmode.
set default opmode <time (secs)>
[IP]
[Subnet]
[gateway]
IP, Subnet, and Gateway address
of radio
ipconfig [<new ip> <new subnet
mask> <new gateway>]"
Tftpd Tftpd status (on or off). Tftpd
should be turned on to import file
into radio (such as new
firmware). Default is off.
tftpd on tftpd off
Active Channel Current RF channel and
polarization (v)ertical or
(h)orizontal.
Freq writescan <ch#><v|h>
RF Tx Power Current transmit power of the SU
not including antenna gain. This
setting will be overwritten during
the su powerleveling process.
Power <setism|senunii>
<min|max|<dBm>>
Channel Table Lists each of the assigned
frequencies to each channel.
freq writechannel [<ch #> freq>]…*
Channel Scan Sequence Shows the various channels (in
sequence) which the SU will scan
while search for an AP.
Freq writescan [<ch #> <h|v>…
<ch #>=1..30
Broadcast Packet This switch (switch 0)
enables/disables the blocking of
Ethernet control packet except
ICMP and ARP to reduce the
amount of unnecessary overhead
introduced to the wireless link.
Sw 0 [on|off] (default is on)
AP Autoscan This switch (switch 1) is to turn
AP autoscan on or off.
Sw 1 [on|off] (default is on)
TCP/IP for AP This switch (switch 2) when on,
allows users at the AP side of the
network to telnet or http into the
SU.
Sw 2 [on|off] (default is off)
Remarks User definable radio information
(i.e. customer name, address of
installation, and so on).
Maximum 28 characters can be
stored.
Remarks [remarks]
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Establishing a Wireless Link
Once an SU is added to the SU database, you are ready to establish a wireless link. In order to establish a
wireless link, the following parameters must be true.
1. Base ID in AP and SU must match.
2. SU ID and MAC ID in AP’s SU database and SU must match.
3. AP’s RF Channel and Polarization must exist in the SU’s channel scan table.
4. AP must be in opmode “AP”.
5. SU must be in opmode “SU”.
6. Adequate signal strength received at each radio.
If all of these parameters are met, and if the AP and SU are within range - and properly aligned, the
wireless link will automatically establish itself and Ethernet traffic will begin to pass between the radios.
To ensure each of these parameters is met, perform the following steps, or use default settings:
Access Point
1. Telnet into radio.
2. Set Base ID (or use default 1) (set baseid X)
3. Set IP, subnet, and gateway (ipconfig IP address subnet gateway)
4. Set channel and polarization (freqwritescan ch pol)
5. Set default opmode to AP (set defaultopmode AP)
6. Set opmode to AP (opmode AP)
7. Set the AP’s power to an acceptable level. For bench testing it is recommended to use the lowest
power setting, -8 dBm. (power set –8)
8. Update system setting flash memory (updateflash systemsetting)
9. Add SU to SU database (sudb add ……..)
10. Update SU database flash memory (updateflash sudb)
11. Verify all system settings by typing sysinfo and sudb view.
At this point the AP will begin actively searching for any SU in its SU database. Once an active SU is
detected, the authentication and association process will begin. The RED LED on the bottom of the AP
should be lit, indicating that the radio is in opmode “AP” and is radiating RF energy.
Subscriber Unit
1. Telnet into radio (must be while opmode is “OFF”).
2. Set Base ID (or use default 1) (set baseid X)
3. Set SU ID (set suid X)
4. Set IP, subnet, and gateway (ipconfig ip, subnet, gateway)
5. Set channel and polarization (freqwritescan X X)
6. Set default opmode to SU (set defaultopmode SU)
7. Update system setting flash memory (updateflash systemsetting)
8. Verify all system settings by typing sysinfo.
9. Reboot radio to activate the default opmode “SU” (reboot). Note: this command will
automatically terminate your Telnet session.
At this point the SU will reboot itself and proceed into its “SU” opmode. If the two radios are generally
aligned, authentication and SU association will occur.
Association Concept (AP to SU communications)
The Access5830 uses the concept of “association” to indicate that AP’s and SU’s are communicating.
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The amber light on the bottom of the SU should be lit, either steadily, or blinking, to indicate that the AP
and SU have successfully associated. A steady light indicates strong signal strength. A blinking light
indicates less signal strength. If no amber light appears, then the AP and SU are not associated
Basic Diagnostics
In establishing the link between AP and SU(s), there are a few commands which are especially useful. All
of these commands are performed at the AP. A summary of these commands follows:
su - Displays the status of all SU’s in the AP’s. SU’s in the SU database will appear
by SU ID, classified into one of the following status categories: Associated,
Associating, and OFF.
su live - Displays a list of SU’s that are currently associating with the AP (by SU ID).
su ping <su#> - AP will sends 10 RF pings to the designated SU ID. The response from each
ping will indicate the strength (RSSI) of the signal received back from the SU
for each of the 10 pings. Note this command will also tell you the distance
from the AP to the SU.
Example:
su status <su #> AP will poll the SU for SU’s current status and will provide information such as
SU range from AP, signal strength received at SU from AP, SU temperature,
etc. .
Example:
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su testrflink <su#> This command is to check the integrity of the wireless link from the standpoint
of packet loss. AP will send 20 large packets to the SU and the SU will in turn
send the same 20 packets back to the AP. The expected result of an error free
link is 20..20..20, indicating (in the following sequence) 20 packets sent from
AP, 20 packets received back at AP, 20 packets received at SU. Any results
other than 20..20..20 indicate lost packets, most likely due to interference or
inadequate signal to noise ratio.
The “r” is used in this command to repeat the rf link test repeatedly until the user
terminates the test by hitting SPACE ENTER.
Example:
As another example, a result of 20..10..18 would indicate 20 packets sent from AP, 18 packets
received at SU, 10 packets received back at the AP.
For thorough results it is recommended you run the command repeatedly for at least 1 minute or
more to determine if packets are passing without error consistently over time.
Deployment
Once you are familiar with the basic operation of the radios you are ready for deployment in the field. The
deployment process consists of the following steps:
• Site Selection
• Site Survey at AP and SU sites.
• Channel planning
• AP installation
• SU installation and antenna alignment
• Link test
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Site Selection
Proper site selection for your AP will help ensure a successful deployment. Site selection will depend on a
wide variety of factors, but from the radio’s performance standpoint, please consider the following:
• Path from AP to SU should provide unobstructed line-of-sight, thus it is advisable to place AP as
high as possible on a tall building or tower.
• Ethernet cable limit is 100 M from Ethernet device (router, switch) to radio.
• Radios require grounding for optimal performance
• AP provides sector coverage of 60 degrees.
• Consider nearby sources of interference that could degrade performance of radio. Mount radios as
far from sources of interference as possible.
Site Survey
Both the AP and SU provide a powerful on-board site survey tool. This tool will tell you if there is
interference present in the 5.8 GHz or 5.3 GHz band.
The survey command is accessible from the Telnet command line in both the AP and SU. In order to use
the survey command, the radio must be in opmode “OFF”. The survey can be performed for any specified
amount of time (in seconds) and for either the horizontal or vertical polarization.
Prior to performing the site survey, place the radio in the installation spot, and aim the radio in the desired
direction.
An example of the site survey command is as follows:
ssurvey 30 h
This command will perform the site survey for 30 seconds for the horizontal polarization.
After the specified period, the results of this command will provide you with a listing of each frequency
within the band (in 2 Mhz increments), the average signal received, and the maximum signal received
during the survey period.
In general you will be looking for frequencies with signal strength of –85 dBm or lower. If interference is
present on various channels, it is recommended that you chose clean channels or alternate polarizations for
your deployment. If it is not possible to use a clean channel/polarization combination, there are various
methods available to mitigate the affects of interference. These methods include the use of the RFRX
THRESHOLD settings, or the use of external shields on the AP
Channel Planning
For installations involving co-location of APs, channel planning is of paramount importance. For
maximum AP co-location quantities, it is important to assign frequencies of maximum spacing and
alternating polarizations for adjacent APs. Use of the 5.3 spectrum as well as the 5.8 spectrum will allow
maximum co-location potential. For very dense deployments of multiple APs, it may be necessary to use
the optional AP Shielding kit in order to mitigate interference from nearby APs.
Various AP channel plans can be implemented and many of the factors will depend on the unique
circumstances at each particular site. See www.trangobroadband.com for additional information on
channel planning schemes.
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Installation
Mounting Hardware
Once the site survey is completed, you are ready to install your radios. It is recommended that AP’s be
installed first. The reason for this is that the SU has a built-in RSSI tool that will help you properly aim the
SU at the AP to achieve maximum signal strength.
Both AP’s and SU’s are equipped with a universal mounting bracket that can be used for wall or pole
installations. See diagram below from proper use of the mounting bracket.
Mounting of the Access5830 AP and SU
20.00°
UP/DOWN TILT MAX
.50" - 3.00" DIAM. MAST
FOR MAST SIZES SMALLER
THAN 2.00" BRACKET MUST
BE INVERTED (SEE DETAIL 'A' BELOW)
40.00°
UP/DOWN TILT MAX
INVERTED BRACKET
SMALL DIAM. MAST
70.00° SWIVEL
IF MOUNTED NEAR
WALL
90.00° SWIVEL
IF MOUNTED ON
CORNER
POLE MOUNT
WALL MOUNT
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Cabling and Weather Considerations
Shielded twisted pair Cat-5 cable is recommended for all installations. The shield within the Cat-5 cable
does not need to be grounded if the radio itself is grounded. It is important consider that most Cat-5 cable
will deteriorate over time if exposed to the weather (especially direct sunlight). It is recommended that
installers place all Cat-5 cables inside conduit. Plastic or conduit is sufficient. If metal conduit is used, it is
not necessary to use shielded Cat-5 cable.
It is imperative that the radio be COMPLETELY SEALED at the both the Ethernet port as well as
the Serial Port access cover. The contracting weather-proofing clamp at the bottom of the Ethernet port
must be securely tightened around the cable if conduit is not used. Proper sealing of the radio will ensure
that moisture will not enter the enclosure of the radio. Without proper sealing, moisture may enter the
radio and potentially cause damage which will not be covered under warranty.
The cable ports are purposely located at the bottom of the radio to minimize the risk of water intrusion. Do
not mount the radios upside down.
Note: The J-Box is not a weatherized device and must be located either indoors or in a weather-
protected cabinet.
SU Installation and Antenna Alignment
Once the AP is installed, and aligned in the correct general direction, it is time to install the SU. The
hardware installation of the SU is identical to the AP, including considerations for line-of-site, cable
distances, cable type, weather sealing, and grounding.
Once the SU is installed and aimed in the general direction of the AP, it is time to perform an RSSI test to
determine the signal strength from the AP, and to precisely align the SU antenna for maximum signal
strength.
SU Antenna Alignment Procedure
1. Ensure AP is in opmode AP
2. Telnet into the SU (while in opmode “OFF”) or access the radio via hyperterminal/serial port.
3. Type command RSSI <channel> <polarization> - Example RSSI 3 V (chan. 3, vertical
polarization)
4. Telnet session screen will begin a continuous readout of the received signal strength.
5. As you read the RSSI reading, move the antenna in the horizontal and vertical planes until the
maximum RSSI reading is achieved. For short links you can expect an RSSI of –60 dBm or
better. For longer links and RSSI of –75 dBm is acceptable. Any RSSI of less than –80 dBm may
be too weak for the radios to reliably associate and pass data.
Grounding
Proper mounting of the radio includes consideration for
grounding. Please note that if the radio is attached to a metal
pole which is earth-grounded, no other grounding is necessary.
If the radio is not earth-grounded via the mounting bracket, yo
u
must attach a grounding wire to the grounding stud on the back
of the radio as per the adjacent diagram.
Access5830™ User Manual
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6. If it is not possible to receive an adequate RSSI reading, it may be necessary to reorient the AP
(up/down, left/right), to increase the output power of the AP, or to move the SU to a location with
better line-of-sight conditions to the AP.
Once you are satisfied with the RSSI reading, tighten down the SU in the optimum position. To stop the
RSSI continuous readout, hit SPACE ENTER.
Note: The amber light on the bottom of the SU will also indicate RSSI according to the following
parameters:
RSSI< -80dBm not lit
RSSI > -80dBm blinking.
RSSI ≥ -65dBm solid. (blink rate increases with signal strength.)
Link Test
Ensure the SU’s default opmode is “SU” and that all configuration parameters are correct.
Reboot the radio. Once the radio enters opmode “SU”, the authentication process will occur with the AP,
and the two radios will begin to associate. From the AP side, use the basic diagnostics commands such as
su ping, su status, and su testrflink to ensure that a reliable RF link has been established. It may take one
minute or more for the association process to complete. This process may take longer if there are many
SU’s in the sector.
If all tests show favorable results, the wireless link will automatically begin passing Ethernet traffic
between the radios.
Managing your Access5830 Network
Network Setup
The Access5830 is an “AP”centric system, meaning that the AP controls most functions of its associated
SU’s. For this reason it is important to consider that you will manage your Access5830 system
management primarily through the AP.
Network management can be performed by three methods
• Command Line Interface
• Http interface - See Appendix 2, HTTP Interface
• SNMP Manager - See the Access5830 SNMP Guide for more details.
Command Line Interface
Most management functions of the SU can be performed by issuing commands from the AP. Presented
below are a few examples of these commands:
Change SU’s password for a single SU or all SU’s in sector: su password <all|suid> <pwd> <pwd>
Example: su password 7 hello hello : to change the password on SU#7 to “hello”
Change the SU’s IP, subnet, and gateway: su ipconfig <new ip> <new subnet> <new gateway>
Example: su ipconfig 192.168.10.10 255.255.255.0 255.255.0.0
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Broadcast a new channel/scan table to su: bcastscant <all|suid><ch #> <h|v>…
Example: bcastscant all 5 v 2 h
In this example, the AP will transmit a new channel scan table (channel 5 vertical, 2 horizontal) to all
associated SU’s. This command will broadcast the table every second for 60 minutes.. To stop the
broadcast sooner, type the command bcastscant stop.
Note: SU commands issued from the AP will automatically update the SU’s flash memory.
A complete description of these commands and many others can be found in Appendix 1, Command Line
Interface Summary – Command Set Summary.
Telnetting into a remote SU
It is also possible to telnet into an SU from the AP side of the network. In order to telnet into an SU via the
AP side of the network, it is necessary to turn on switch 2 (TCP/IP for AP switch) at the SU.
To turn on switch 2 (while logged onto AP)
su sw <su-id|all> 2 on
Example: su sw 2 all on : to turn on swich 2 for all associated SU’s.
While switch 2 is on, you can also access the SU via HTTP interface (from the AP side of the network.)
Managing AP from SU side of Network
As a security feature, the Access5830 was designed to prevent users on the SU side of the network from
accessing the AP via telnet or HTTP interface. If it is necessary for network administrators to access an AP
from the SU side of the network the user must first telnet into a router located behind the AP – and then
telnet from the router into the AP.
Troublshooting
For a comprehensive guide to troubleshooting, download the Access58XX Troubleshooting Guide from
www.trangobroadband.com/techsupport.
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Specifications
[add specifications here.]
Access5830™ User Manual
25
Appendix 1
Access5830™ Command Line Interface (CLI)
Command Set Summary
Notes:
OPMODE: s - indicates command can be executed via serial port (Hyperterminal)
e - indicates command can be performed via Ethernet (telnet) session.
OFF indicates command can be performed in opmode OFF
AP indicates command can be performed in opmode AP
SU indicates command can be performed in opmode SU
<su-id> = 1..8190
* New / Changed from M5800 series
+ indicates command may not work properly through http’s command console.
OPMODE
Command Description
OFF AP SU
AP or
SU?
Remarks
!+ redo the last command s s s both
? display complete help pages se se se both
? <command> search and display command’s help se se se both
_password <new password> <new
password>
specify new password (max 15 octs) se se se both
apsearch <sec> <ch #> <v | h> <ch #>
<v | h>….*+
monitor traffic from all APs se both
baud [9600 | 115200] display or set console baud rate se se se both default = 9600 bps
bcastscant <all | suid> <ch#> <h | v>
….
broadcast scan and channel frequency table to
single or all SU
se AP - up to 31 channel and
polarization
- it will broadcast
p
acket ever
y
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OPMODE
Command Description
OFF AP SU
AP or
SU?
Remarks
second for 60 mins
bcastscant stop stop bcastscant se AP
bcastsuimage <all | suid> <hw ver>* broadcast 12.8 Kbytes/sec for 15 mins se AP for M5800S SU only
bcastsuimage stop* stop broadcast AP for M5800S SU only
bye* same as “logout” both
date display current date se se se both
date <mm> <dd> <yy> set current date
<mm> = 1..12 <dd> = 1..31 <yy> = 1..99
se se AP
dloadsufw* display current checksum in broadcast buffer se AP for M5800S SU only
dloadsufw <main | fpga>* download su main or fpga image from tftp
buffer to broadcast buffer
se AP for M5800S SU only
echo [<on|off>] echo input characters in telnet se se se both default = on
exit* same as “logout” both
freq display current channel se se se Both
freq <ch#> <h | v> change current channel and polarization se se se Both
freq channeltable display channel table se se se Both
freq scantable display scan sequence table se se se Both
freq writechannel [<ch #> <freq>]…* build channel and write to flash
<ch #> = 1..30, <freq>= 5260-5340, 5736..5836
se se se Both
freq writescan [<ch #> <h | v>] set active channel and polarization
se se se AP
freq writescan [<ch #> <h | v>]… build scan sequence
<ch #> = 1..30
se se se SU
help display complete help page except “eng” se se se Both
help <command> search and display command’s help se se se Both
ipconfig [<new ip> <new subnet mask>
<new gateway>]*+
assign radio’s ip, subnet mask and gateway ip se se se Both
log display last log entry:
1. time tag (sec)
2. RF receives user payload in Kbytes
3. RF transmits user payload in Kbytes
4. Local Ethernet receives user payload in
Kbytes
se se Both one log entry every min
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OPMODE
Command Description
OFF AP SU
AP or
SU?
Remarks
5. Local Ethernet transmits user payload
in Kbytes
6. rssi (SU only)
7. tx power (su only)
8. temp
log <# of entry, 1..180> display last log entries se se Both up to 3 hours
log sum <# of entry, 1..180> display the sum of last log entries
1. RF receives user payload in Kbytes
2. RF transmits user payload in Kbytes
3. Local Ethernet receives user payload in
Kbytes
4. Local Ethernet transmits user payload
in Kbytes
5. rssi of latest log entry (su only)
6. tx power of latest log entry (su only)
7. temp of latest log entry
se se Both up to 3 hours
logout log out console se se se Both
opmode display current opmode se se se Both
opmode ap [y] set opmode to be ap and use “y” if opmode is
not as same as default
se AP
opmode su [y] set opmode to be su and use “y” if opmode is
not as same as default
se SU
password specify new password (max 15 octs) s s s Both
ping <ip address> ping local Ethernet device se se Both It only works for local Ethernet
devices, not SU or any device
behind SU.
power* display default and current tx power level se se se Both default = +22 dBm (ISM) and
+17 dBm (UNII)
power <setism|setunii>
<min|max|<dBm>>*
specify tx power for both bands se se s Both SU’s power will be adjusted by
AP when associating
reboot reboot unit se se se Both
remarks [<str>] string length should be 1 to 28 characters se se se Both
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OPMODE
Command Description
OFF AP SU
AP or
SU?
Remarks
reset [all | <n1> <n2> ..]* reset radio to be firmware default
for AP: n# = 0..3
for SU: n# = 0..2
se Both AP Defaults:
0 - BASE ID = 1, AP ID = 1
Subnet Mask = 255.255.255.0
Gateway = radio ip
Password = trango
1 - Channel Tables
Active Channel = 1 h
2 - Tx Power = Max
RF Threshold = -90 dBm
Target RSSI = -60 dBm
Service Radius = 10mi for ISM
4 mi UNII
MIR Threshold = off
3 - SNMP Community String
(Read/Write) = (public/private)
SU Defaults:
0 - BASE ID = 1, AP ID = 1
SU ID = 1
Subnet Mask = 255.255.255.0
Gateway = radio ip
Password = trango
1 - Channel Tables
Scan Table = 1 h 7 h
Active Channel = 1 h
2 - Tx Power = Max
RF Threshold = -90 dBm
rfrxth <ism|unii> <-90|-85|-80|-75|-70|-
65>*
specify RF rx threshold se se se Both default = -90 for both bands
rfrxthreshold …* same as “rfrxth” Both
rssi display current Rx rssi se se Both
rssi r + display Rx rssi continuously se se Both
save ….* same as “updateflash” Both
set apid <ap-id> set ap id, <ap-id> = 1..255 se se se Both
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OPMODE
Command Description
OFF AP SU
AP or
SU?
Remarks
set baseid <base-id> set base station id, <base-id> = 1..127 se se se Both
set defaultopmode ap <mins> set default opmode to be ap, <min> = 0..10 se se AP default opmode is off, 0 = 30 sec
set defaultopmode su <mins> set default opmode to be su, <min> = 0..10 se se SU default opmode is off, 0 = 30 sec
set gateway [<ip <addr>]* set or display gateway’s ip se se AP if ip is 0.0.0.0 or 255.255.255.255
then radio will not ping gateway
set httpport [<port #>] set or display HTTPD port number se se s Both default = 80
*set ip <ip address, 4 dec> set ip address se se se Both For M5800 Series only. For
M5830 use IPCONFIG.
set mir [on | off] enable or disable mir threshold se se AP default = off
set mir threshold <kbps> set mir threshold, <kbps> = 1000..9999 se se AP default = 6114 kbps (6 Mbps)
set rssitarget <dB> set Target RSSI threshold
It must be in -45 to -75 and +5 dB higher than
RF Rx Threshold
se se AP
set serviceradius [<ism|unii> <miles>]* set or display service range, <miles> = 0 .. 30 se se AP default ISM = 10 miles
UNII = 4 miles
set snmpcomm [<read|write>] * display or assign snmp community string se se AP
set subnet [<mask>]* set or display subnet mask se se AP if ip is 0.0.0.0 or 255.255.255.255
then radio will not ping gateway
set suid <su-id> specify unit’s su-id se se se SU need to reboot
set telnetport [<port #>] specify telnet port, <port #> = 1..65534 se se s Both default = 23
ssrssi <ch #> <v | h> display rssi on the current channel se Both
su display the su info summery se AP
su <suid> display su payload status se AP
su all display all registered SU se AP
su delete <suid|all>* remove an entry or all entries from su database se se AP
su info <su-id> display request su’s info:
1. H/W version
2. F/W date code
3. FPGA version
4. Image checksum
5. Device ID
6. IP address
7. Scan sequence table
8. packet filter on/off
se AP
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OPMODE
Command Description
OFF AP SU
AP or
SU?
Remarks
9. auto scan ap on/off
10. tcpip for ap on/off
11. httpd on/off
12. remarks
su ipconfig <new ip> <new subnet>
<new gateway>*
assign radio’s ip, subnet mask and gateway ip se AP
su live display all su which are associated se AP
su password <all|suid> <pwd> <pwd> set su’s password remotely se AP
su ping <su-id> request su’s ranging and rssi information se AP
su powerleveling <all | suid> [target –
dB]
calibrate su’s power leveling se AP
su poweroff display all su which are in poweroff group se AP
su priority display all su su which are in priority group se AP
su reboot <su-id> reboot one su se AP
su reboot all reboot all associated su se AP
su restart <su-id> restart one su se AP
su restart all restart all associated su se AP
su rssi <su-id> request su’s rssi se AP
su status <su-id> display request su’s current status:
1. current time mark
2. RF receives user payload in Kbytes
3. RF transmits user payload in Kbytes
4. Local Ethernet receives user payload in
Kbytes
5. Local Ethernet transmits user payload
in Kbytes
6. Current RSSI
7. Current RF Tx Power (dBm)
8. Current temp
se AP
su sw <su-id|all> <sw #> <on | off> set su’s sw # on or off se AP
su testrflink <suid> [r] send 20 1512 bytes long packet payload to
<suid> and listen
r: will repeat until key press
se AP
su testrflink all [r] send 20 1512 b
y
tes lon
g
p
acket to all associated se AP
Access5830™ User Manual
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OPMODE
Command Description
OFF AP SU
AP or
SU?
Remarks
su and listen
su testrflink aptx [<# of pkts, 20..100>] set or display # of pkts per cycle se AP default = 20
su testrflink setlen [<len in bytes>] set or display the length of test packet
<len> = 64 .. 1600 and must be times X4
se AP default len = 1512
sudb add <suid> <pr | reg> <cir>
<mir> <device id>
add new entry to su database se se AP
sudb dload download and interpret su database file from
tftp buffer and write to flash memory
se AP
sudb modify <suid> <cir | mir> <kbps> modify cir or mir setting in one entry se se AP
sudb modify <suid> <su2su> <group-
id, 0..F>
modify group id for su to su communication
group 0: disabled group
se se AP
sudb view display all entries in su database se se AP
sulog display last su log
1. time tag (ms)
2. sample period (1..60 mins)
3. RF receives user payload in Kbytes
4. RF transmits user payload in Kbytes
5. Local Ethernet receives user payload in
Kbytes
6. Local Ethernet transmits user payload
in Kbytes
7. rssi
8. tx power
8. temp
se AP default sample period = 10 mins
sulog <# of entry, 1..18> display last su log entry se AP up to 18 entries (3 hours)
sulog lastmins [<time stamp, sec>] if <time stamp> < current up time stamp, then
display last su log
1. time tag (ms)
2. RF receives user payload in Kbytes
3. RF transmits user payload in Kbytes
4. Local Ethernet receives user payload in
Kbytes
5. Local Ethernet transmits user payload
in Kbytes
se AP
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OPMODE
Command Description
OFF AP SU
AP or
SU?
Remarks
6. rssi
7. tx power
8. temp
else display:
[#Begin]
[#None]
[#End]
sulog sampleperiod [<1..60> set or display sulog sample period se se AP default sample period = 10 mins
survey <sec> spectrum analysis pf the entire band se Both
sw display current sw setting se se se Both
sw 0 [on | off] set sw #0 - packet filter for broadcast/multicast se se se Both default = on
need to update flash
sw 1 [on | off] set sw #1 – su’s scan ap (su only) se se SU default = on
need to update flash
sw 2 [on | off] set sw #2 – su’s TCP/IP service for ap se se SU default = off
need to update flash
sw 3 [on | off] set sw #3 – su to su (ap only) se se AP default = off
need to update flash
sw 4 [on | off] set sw #4 – broadcast time stamp to su (ap only) se se AP default = off
need to update flash
sw 5 [on | off]* httpd enable / disable se se s Both default = on
need to update flash
sysinfo* display system configuration se se se Both
temp display current temperature se se se Both
time display current time se se se Both
time <hh> <mm> <ss> set current time
<hh> = 0..23 <mm> = 0..59 <ss> = 0..59
se se AP
tm display current time mark se se se Both
uniimaxpower [<dBm>]* set max tx power limit s SU
updateflash _loader+ get image from tftp buffer and write to flash
memory at loader image section
se se AP downgrade AP firmware from 1p5
to 1p41
updateflash <mainimage | fpgaimage>
<* | <current checksum>> <* | <new
checksum>>
get image from tftp buffer, verify checksum and
write to flash memory at main or fpga image
section.
se se se Both
Access5830™ User Manual
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OPMODE
Command Description
OFF AP SU
AP or
SU?
Remarks
*: skip checksum verification
updateflash sudb write current su database into flash memory at
sudb section
se se AP
updateflash systemsetting write current configuration into flash memory at
system configuration section
se se se Both
ver* display
1. version number and date code
2. firmware and fpga version code
3. firmware and fpga image checksum
se se se Both
Appendix 2 – HTTP Browser Interface