SendFar Technology OAP-02002 Wireless Access Point User Manual AP 8110 MENU

SendFar Technology Co., Ltd. Wireless Access Point AP 8110 MENU

Contents

Users Manual Revised

A
Outdoor
Wireless Access Point
User’s Manual
Before operating the unit, please read this manual thoroughly, and
retain it for future reference.
i
Contents
CHAPTER 1. HARDWARE INSTALLATION ........................................... 1
1.1 BEFORE YOU START ............................................................................. 1
1.2 LOCATE THE ACCESS POINT AND INLINE POWER INJECTOR PORTS.......... 2
1.3 INSTALLING THE ANTENNAS ................................................................... 3
1.4 INSTALLING THE CONSOLE PORT CABLE................................................. 3
1.5 CONNECTING THE POWER SUPPLY AND ETHERNET CABLE ....................... 4
1.6 OUTDOOR INSTALLATION ....................................................................... 5
CHAPTER 2. NETWORK TOPOLOGIES................................................. 6
2.1 WIRELESS ACCESS BRIDGE................................................................... 7
2.2 WIRELESS ACCESS ROUTER WITH PPPOE ETHERNET CONNECTION ....... 8
2.3 WIRELESS ACCESS ROUTER WITH DYNAMIC IP ETHERNET CONNECTION.. 9
2.4 WIRELESS ACCESS ROUTER WITH STATIC IP ETHERNET CONNECTION... 10
CHAPTER 3. WEB ACCESS.................................................................. 11
CHAPTER 4. CONFIGURATION............................................................ 15
4.1 INTRODUCTION ................................................................................... 15
4.1.1 Basic Configuration Steps........................................................... 15
4.2 SYSTEM SETUP................................................................................... 16
AFTER THAT, CLICK FINISH AT THE BOTTOM OF THIS PAGE TO COMPLETE THE
MODIFICATION OF THIS PAGE. ......................................................................... 20
AFTER THAT, CLICK FINISH AT THE BOTTOM OF THIS PAGE TO COMPLETE THE
MODIFICATION OF THIS PAGE.TCP/IP PROTOCOL CONFIGURE ......................... 20
TCP/IP PROTOCOL CONFIGURE .................................................................... 21
4.2.1 Virtual Server Mapping................................................................ 21
4.3 CONFIGURE DHCP SERVER ................................................................ 23
4.3.1 General DHCP Server Parameter............................................... 24
4.3.2 Fixed Host Entries ....................................................................... 24
4.4 CONFIGURE SNMP............................................................................. 26
4.4.1 Configure Community Pool ......................................................... 26
4.4.2 Configure Trap Host Pool............................................................ 27
4.5 CONFIGURE WIRELESS RELATED PARAMETERS..................................... 29
4.6 SECURITY........................................................................................... 31
4.6.1 IEEE 802.1x Access Control ....................................................... 31
4.6.2 MAC based Access Control ........................................................ 32
4.7 UTILITY............................................................................................... 33
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4.7.1 Software Upgrade ....................................................................... 33
4.7.2 Administration.............................................................................. 34
CHAPTER 5. STATUS MONITOR.......................................................... 35
5.1 SYSTEM INFORMATION ........................................................................ 36
5.2 DHCP INFORMATION .......................................................................... 37
5.3 STATION INFORMATION........................................................................ 38
5.4 STATISTIC INFORMATION ..................................................................... 39
CHAPTER 6. SPECIFICATIONS ............................................................ 40
CHAPTER 7. DEFAULT SETTINGS ...................................................... 42
7.1 GENERAL CONFIGURATION .................................................................. 42
7.1.1 System......................................................................................... 42
7.1.2 Virtual Server Mapping................................................................ 43
7.1.3 DHCP .......................................................................................... 44
7.1.4 SNMP .......................................................................................... 45
7.1.5 Wireless LAN............................................................................... 47
7.2 UTILITY............................................................................................... 48
7.2.1 Software Upgrade ....................................................................... 48
7.2.2 Administration.............................................................................. 48
CHAPTER 8. REGULATORY COMPLIANCE INFORMATION ............. 49
1
Chapter 1. Hardware Installation
This chapter describes the procedures for installing the SendFar Outdoor
Access Point.
1.1 Before You Start
After unpacking the system, make sure the following items are present and
in good condition.
1. Access Point
2. Inline Power Injector
3. AC Power Cord
4. MIL-C-5015 style RS232 Console Port Cable
5. Grounding Wire
6. Cross over Ethernet Cable
7. Two rubber dipole antenna
7. 30M MIL-C-5015 style Ethernet Cable
8. Mast Mounting Kit
10. Wall Mounting Kit
11. User’s Manual Disk
12. Simple Spanner
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3
4
5
6
8
9
10
11
12
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2
1.2 Locate the Access Point and Inline Power
Injector Ports
z Special Ethernet port 1 for connecting the MIL-C-5015 style Ethernet
Cable
z Special serial port 2 for connecting the MIL-C-5015 style RS-232
console port cable
z Grounding port 3.
z Special N-Type connector 4 for connecting the antenna or RF cable.
z Power & Data output port 5 for connecting the other of the MIL-C-
5015 style Ethernet Cable
z Data input port 6 for connecting the Ethernet Cable to a Hub Switch
Router or a PC.
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1.3 Installing the Antennas
Step 1: With the unit powered off, attach the dipole antenna to the antenna
connector as shown in Figure 1.3.
NOTE: Do not over-tighten; finger tight is sufficient. Position the antenna
vertically for best omni-directional signal reception.
Figure 1.3.
Before installing your WLAN system, we recommend that you test the
Access Point using the dipole antenna included in your package. Once
testing is completed, install your Access Point for use with the appropriate
antenna for your application.
1.4 Installing the Console Port Cable
Step 2: Attach the Console Port cable to the Serial Port. Attach the other
cable end to the Serial Port on a PC running a terminal emulation program,
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and set the terminal to 15200 Baud, No-Parity, 8 data bits, 1 Stop bit, and
ANSI compatible.
NOTE: This connection is required for setting up initial configuration
information.
After configuration is completed, this cable may be removed until additional
configuration is required via the Serial Port.
1.5 Connecting the power supply and Ethernet
cable
Step 3 Plug the female end of the power cord into the Inline Power Injector,
and then plug the male end of the power cord into a power outlet or power
strip. The Power LED on the front of the Inline Power Injector will light up.
Step 4 Run the cross over Ethernet cable (included in your package) from
Data Input Port (on the front of the Inline Power Injector) to the Ethernet
Port on the PC we mentioned above.
NOTE: This connection is required for setting up initial configuration
information. After configuration is completed, this cable will be removed,
and then you should run an Ethernet cable from Data Input Port (on the
front of the Inline Power Injector) to the LAN connection (such as a hub or
concentrator).
Step 5 Plug the MIL-C-5015 style Ethernet connector into the Special
Ethernet port on the back of the access point.
Step 6 Plug the RJ-45 Ethernet connector (the other end of the Special
Ethernet cable) into the Power & Data Output Port on the front of the Inline
Power Injector. When the Access Point receives power over the Ethernet
cable, the Access Point will start its boot sequence and the Active LED on
the front of the Inline Power Injector will light up.
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1.6 Outdoor Installation
Outdoor Access Point device can be mounted on the side of a
building or mounted to an mast as shown in following:
A wall (side) mount allows for mounting the Outdoor AP on the side of
a building. This will provide a convenient mounting location when the
roof overhang is not excessive and/or the location is high enough to
provide a clear line of sight.
Grounding
A safety grounding system is necessary to protect your outdoor
installation from lightning strikes and the build-up of static electricity.
So direct grounding of the antenna mast, Outdoor AP and
Surge Arrester is very important. And so mounting the Outdoor AP on
the antenna mast, you have to connect the Outdoor AP to the same
grounding system with the AC wall outlet.
The grounding system must comply with the National Electrical Code
and safety standards that apply in your country. Always check with a
qualified electrician if you are in doubt as to whether your outdoor
installation is properly grounded.
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Chapter 2. Network Topologies
This chapter describes several main types of installations commonly
implemented using the Outdoor Wireless Access Point (OWAP). This is
by no means intended to be an exhaustive list of all possible configurations,
but rather shows examples of some of the more common implementations
(as shown in following figuration).
The OWAP can perform in router or bridge modes. In a wireless topology,
all communication between network stations is done through a centralized
Access Point. To show some possibilities of wireless topologies, the
following examples are provided:
1. Wireless Access Bridge
2. Wireless Access Router with PPPoE Ethernet connection
3. Wireless Access Router with dynamic IP address Ethernet
4. Wireless Access Router with static IP address Ethernet
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2.1 Wireless Access Bridge
1. Set the OWAP as a bridge (bridge IP address is 192.168.2.1).
2. Set Wireless parameters on OWAP: Channel (1) and SSID
(wireless)
3. Set Wireless parameters on client stations PC1, PC2 and PC3:
SSID (wireless).
4. Left side stations are transparent to the right side network.
5. DHCP server assigns IP address to PC1, PC2 and PC3.
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2.2 Wireless Access Router with PPPoE
Ethernet connection
1. Set the OWAP as a Router (Wireless Interface IP is 192.168.1.1,
Ethernet Interface IP is 192.168.2.1, must turn on NAT on Ethernet
Interface, default route is 0.0.0.0).
2. Choose the PPPoE connection mode and specify that your
personal ISP provided PPPoE Username and PPPoE Password to
enable ADSL broadband access.
3. Set Wireless parameters on OWAP: Channel (1) and SSID
(wireless)
4. Turn on DHCP server on the OWAP and assign IP address to PC1,
PC2 and PC3.
5. Set Wireless parameters on client stations PC1, PC2 and PC3:
SSID (wireless).
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2.3 Wireless Access Router with dynamic IP
Ethernet connection
1. Set the OWAP as a Router (Wireless Interface IP is 192.168.1.1, must
turn on NAT on Ethernet Interface).
2. Enable DHCP client on the Ethernet Interface of the OWAP (This
OWAP will got IP / Gateway / DNS from the DHCP server).
3. Set Wireless parameters on the OWAP: Channel (1) and SSID
(wireless)
4. Turn on DHCP server on the OWAP and assign IP address to PC1,
PC2 and PC3.
6. Set Wireless parameters on client stations PC1, PC2 and PC3:
SSID (wireless).
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2.4 Wireless Access Router with static IP
Ethernet connection
1. Set the OWAP as a Router (Wireless Interface IP is 192.168.1.1,
Ethernet Interface IP is 192.1682.1, must turn on NAT on Ethernet
Interface, default route is 192.168.2.254).
2. Set Wireless parameters on OWAP: Channel (1) and SSID
(wireless)
3. Turn on DHCP server on the OWAP and assign IP address to PC1,
PC2 and PC3.
4. Set Wireless parameters on client stations PC1, PC2 and PC3:
SSID (wireless).
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Chapter 3. Web Access
Web Connection
The SendFar Wireless Access Point (OWAP) supports access to the
configuration system through the use of an HTTP Interface (web browser).
Before configuring the OWAP, you need to know the IP Address assigned
to the unit.
When shipped from the factory, the IP Address (192.168.2.1) was assigned
to the OWAP by default. To start a web connection use:
http://192.168.2.1/
Identify the IP Address assigned to the unit
However, the IP Address may be changed and you cannot connect the unit
using the default IP Address. In this case, you must identify the OWAP IP
Address before configuration. To identify the IP Address, you can use the
Serial Port to gain access the current network status. To start a Serial Port
connection:
1. Attach a serial data (RS-232) cable to the Serial Port Adapter.
Connect the other cable end to a terminal or a PC running a terminal
emulation program. Use a 9-pin female to 9-pin female NULL Modem
cable.
2. Set the terminal to 115200 Baud, No-Parity, 8 data bits, 1 Stop bit,
and ANSI compatible.
Note: Running a terminal emulation program on your PC, such as
HyperTerminal, and then set the following connection properties:
z Click the Start icon > Program > Accessories >
Communication > Terminal.
z Create a new connection file, and then select a Com Port
<COM1, COM2, etc., depending on your PC> with 115200bps /
8-bits / 1-stop.
z Click the properties icon in the Tool Bar > setting > select
Emulation terminal VT100 > ok.
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3. Reboot or turn on your OWAP
4. When the OWAP is powered up, the “Current Network Status” will be
displayed.
Figure 3-1 Current Network Status
Web Access Procedure
Once you identify the IP Address assigned to your OWAP, use your web
browser to configure the OWAP through the HTTP Interface.
The following procedure explains how to configure each item.
1. Open your browser and enter the IP Address
2. Press ENTER and the OWAP Login screen appear.
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Figure 3-2 Login Screen
3. Enter
root in the User Name and the Password fields. And then the
web configuration user interface screen appears.
Figure 3-3 Web User Interface
Web Configuration Structure
The web configuration user interface be grouped in a tree structure, and
contains the following settings or information:
General Configuration
System
TCP/IP
Virtual Server
DHCP
SNMP
Wireless
Security
802.1x Access Control
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MAC Filter
Running Status
System Info
DHCP Info
Station Info
Statistic Info
Utility
Software Upgrade
Administration
Move through the tree by clicking on an icon to expand or collapse the tree.
The nodes on the tree represent web pages that allow you to view and
modify the parameters.
Figure 3-4 Web Configuration Structure
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Chapter 4. Configuration
4.1 Introduction
What you Need to Know
Since each network is unique, the OWAP must be configured to operate in
your network environment. Before configuring the OWAP, you need to
know the role of the OWAP on your network.
The OWAP can be configured into four operation modes:
1. Wireless Access Bridge
2. Wireless Router with PPPoE Client Ethernet connection
3. Wireless Router with DHCP Client Ethernet connection
4. Wireless Router with Static IP Ethernet connection
4.1.1 Basic Configuration Steps
Modify the Default Settings and Apply the New
This section will describe a 5-step configuration to setup your Outdoor
Wireless Access Point (OWAP) workable.
1. Select an operation mode for your OWAP on the web page “/General
Config/System/”, and click FINISH to refresh this page.
2. Modify the factory-set default parameters on the web page “/General
Config/System/”page, and click FINISH to save your changes.
3. Modify the factory-set default parameters on the web page “/General
Config/Wireless/”page, and click FINISH to save your changes.
4. (Optional) Modify others parameters on the web page “/General
Config/”page, and click FINISH to save your changes.
5. Move on page “/Utility/Administration/”, select the Save then Restart
and then click FINISH to take effect the previous configuration
changes.
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4.2 System Setup
When setting up a SendFar Wireless Access Router (OWAP), you must
decide which operation mode that your OWAP works. This feature is
available in the “/General Config/System/” page.
Figure 4-1 & 4-2 show the “General Configuration – System Setup”
page.
Figure 4-1 General Configuration – System Setup-1
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Figure 4-2 General Configuration – System Setup-2
Host Information
- Host Name. The Host Name is not an essential setting, but it helps
identify the device in network. Use this setting to assign a name to the
device.
Operation Mode
The First Thing You Have To Do
Select an operation mode, and click FINISH to refresh this page.
Wireless Access Bridge
Select the Wireless Access Bridge mode. And then set the corresponding
parameters.
- Bridge IP Address. Use this setting to assign or change the bridge’s IP
address.
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- Bridge Subnet Mask. Enter an IP subnet mask to identify the sub
network so the IP address can be recognized on the LAN.
Default Route IP
- IP Address. Enter the default Gateway IP Address.
After that, click FINISH at the bottom of this page to complete the
modification of this page.
Wireless Router with PPPoE Client Ethernet connection
If you are an ADSL subscriber, you need to specify that you personal ISP
PPPoE Username and Password to enable ADSL broadband access.
- PPPoE User Name. This setting allows you to enter the user name that
your ISP assigns to your account.
- PPPoE Password. Enter the password that your ISP assigns to your
account.
- Password Confirm. Enter the PPPoE Password once more again.
Wireless Interface Address
- IP Address. Use this setting to assign or change the wireless interface’s
IP address.
- Subnet Mask. Enter an IP subnet mask to identify the sub network so the
IP address can be recognized on the WLAN.
Ethernet Interface Address
- IP Address. Use this setting to assign or change the Ethernet interface’s
IP address
- Subnet Mask. Enter an IP subnet mask to identify the sub network so the
IP address can be recognized on the WAN.
NAPT performs on which interface?
There are three interfaces. You can select one to use or select "None"
to disable it.
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Default Route IP
- IP Address. Enter the default Gateway IP Address.
DNS Server IP
- Primary DNS Server IP. Enter the Primary Domain Name Server IP
Address.
- Secondary DNS Server IP. Enter the Secondary Domain Name Server
IP Address.
After that, click FINISH at the bottom of this page to complete the
modification of this page.
Wireless Router with DHCP Client Ethernet connection
Wireless Interface Address
- IP Address. Use this setting to assign or change the wireless interface’s
IP address.
- Subnet Mask. Enter an IP subnet mask to identify the sub network so the
IP address can be recognized on the WLAN.
NAPT performs on which interface?
There are three interfaces. You can select one to use or select "None"
to disable it.
Default Route IP
- IP Address. Enter the default Gateway IP Address.
DNS Server IP
- Primary DNS Server IP. Enter the Primary Domain Name Server IP
Address.
- Secondary DNS Server IP. Enter the Secondary Domain Name Server
IP Address.
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After that, click FINISH at the bottom of this page to complete the
modification of this page.
Wireless Router with static IP Ethernet connection
Wireless Interface Address
- IP Address. Use this setting to assign or change the wireless interface’s
IP address.
- Subnet Mask. Enter an IP subnet mask to identify the sub network so the
IP address can be recognized on the WLAN.
Ethernet Interface Address
- IP Address. Use this setting to assign or change the Ethernet interface’s
IP address
- Subnet Mask. Enter an IP subnet mask to identify the sub network so the
IP address can be recognized on the WAN.
NAPT performs on which interface?
There are three interfaces. You can select one to use or select "None"
to disable it.
Default Route IP
- IP Address. Enter the default Gateway IP Address.
DNS Server IP
- Primary DNS Server IP. Enter the Primary Domain Name Server IP
Address.
- Secondary DNS Server IP. Enter the Secondary Domain Name Server
IP Address.
After that, click FINISH at the bottom of this page to complete the
modification of this page.
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TCP/IP Protocol Configure
4.2.1 Virtual Server Mapping
Sometimes, the operator can expose the internal servers on the local
intranet to the public Internet. For this, you must create the Virtual Server
Mapping for these invisible internal servers.
Select the “/General Config/ Virtual Server/”, and then the General
Configuration - Virtual Server screen appears. Figure 4-3 show the
current virtual server entry table. (Default Virtual Server Mapping pool is
empty)
Figure 4-3 General Configuration - Virtual Server
1. Click
Add . The Virtual Server Entry Edit page Figure 4-4 appears.
2. To edit the Virtual Server Entry, specify all the entry fields to allow
Internet user to access the Internal servers.
Service Name: Alias name of this internal server, such as FTP.
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Access Interface: Indicate the translation occurs on which interface
(Wireless interface / Ethernet interface), such as Ethernet.
Protocol: Indicate which protocol (TCP/UDP) you want to translate
from outside to internal server, such as TCP.
Public Access Port number: Indicate which socket port (1 ~ 65535)
you want to translate from outside to internal server, such as 21.
Virtual Server IP address: Specify the private IP address of the
internal server, such as 192.168.1.100.
Virtual Server Port number: Specify the socket port (1 ~ 65535) of the
internal server, such as 21.
3. Click
OK . The Virtual Server Entry Table appears with the entries list.
4. To modify or delete a virtual server entry, click the select button beside
the entry index number and click Modify or Delete .
5. To add another entry to the Virtual Server Mapping Pool, repeat step 1
through step 3.
6. When you have included all the entries you need, click FINISH .
Figure 4-4 Add Virtual Server Entry
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4.3 Configure DHCP server
Sometimes, the operator want to managing a large TCP/IP network
requires maintaining accurate and up-to-date IP address and domain name
information. In this situation, it needs manually configure and enable the
DHCP server service. Select the “/General Config/ DHCP/”, and then the
General Configuration – DHCP Parameter screen appears. Figure 4-5
shows the general DHCP parameters and the fixed host entry table.
(Default fixed host entry pool is empty).
Figure 4-5 DHCP Parameter
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4.3.1 General DHCP Server Parameter
- Trigger DHCP Service. Select Enable to allow the OAP to assign
IP Addresses from IP Pool Table. Select Disable to prevent IP Address
assignment from the OAP
- Default Gateway. Enter the default Gateway IP Address.
- Subnet Mask. Configure the subnet for the client.
- Name Server 1, 2, 3. Configure the DNS servers IP for the client.
- DHCP Start IP address. Enter the starting IP Address for this IP Pool
Table.
- DHCP End IP address. Enter the ending IP Address for this IP Pool
Table.
- Apply Interface. Enable DHCP server service on Wireless or Ethernet
interface.
4.3.2 Fixed Host Entries
Figure 4-5 shows the general DHCP parameters and the fixed host entry
table. (Default fixed host entry pool is empty).
1. Click
Add . The Fixed Host Entry Edit page Figure 4-6 appears.
2. To edit the Fixed Host Entry, specify the Ethernet and Internet Address
fields.
- Ethernet Address. Enter the MAC address for a fixed IP user.
- Internet Address. Assign a fixed IP Address to this special user.
3. Click
OK . The Fixed Host Entry Table appears with the entries list.
4. To modify or delete a fixed host entry, click the select button beside the
entry index number and click Modify or Delete .
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5. To add another entry to the Fixed Host Mapping Pool, repeat step 1
through step 3.
6. When you have included all the entries you need, click FINISH .
Figure 4-6 Add Fixed Host Entry
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4.4 Configure SNMP
Click General Config, SNMP, and then the General Configuration – SNMP
Community Parameter screen appears. Figure 4-7 shows the current
SNMP community pool and trap host pool.
Figure 4-7 General Configuration – SNMP Community Parameter
4.4.1 Configure Community Pool
The SNMP Community Pool has five entries.
1. To modify a entry, click the select button beside the entry index
number and then click Modify , the configuration page Figure 4-8
appears.
2. Specify the Validity, Access Right and Community field.
- Validity. Select Enable or Disable to control this community.
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- Access Right. Select a command from the pull down menu for this field.
- Community. Enter the password related the Access Right in this field.
3. Click
OK . To refresh the current community pool.
4. To modify another community entry to the current community pool,
repeat step 1 through step 3.
5. When you have modified all the entries you need, click FINISH .
Figure 4-8 Modify SNMP Community Parameter
4.4.2 Configure Trap Host Pool
The Trap Host Pool has five entries.
1. To modify a entry, click the select button beside the entry index
number and click Modify . The configuration page Figure 4-9
appears.
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2. Specify the Version, IP Address and Community field.
- Version. Select Disable, Version 1 or Version 2 to control this trap host.
- IP Address. Enter the Trap Host IP Address.
- Community. Enter the password in this field.
3. Click
OK . To refresh the current trap host pool.
4. To modify another trap host entry to the current trap host pool, repeat
step 1 through step 3.
5. When you have modified all the entries you need, click FINISH .
Figure 4-9 Modify SNMP Trap Host Parameter
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4.5 Configure Wireless related parameters
Click General Cofig, Wireless. The Wireless LAN information page Figure
4-10 appears. In here, enter the Channel (default is 1), rts Threshold
(default is 1600), frag Threshold (default is 1600), SSID (default is
wireless) and Station Name (default is ap) that are suitable for your radio
network and then you can clicked radio button to disable WEP or enable
64/128 bit WEP services (default is disable), if WEP is enabled, you must
input corresponded Default Key index and WEP Key and then click
KeyGen to generate the WEP64 & WEP128 key patterns. After that, click
FINISH at the bottom of this page to complete the modification.
Figure 4-10
- Channel. The factory setting is Radio Channel 1 transmitting at 2412 MHz.
The channel set appears on the screen installed on your access. Each
channel covers 22 MHz. The bandwidth for channels 1, 6, and 11 does not
overlap, so you can set up multiple access point in the same vicinity without
causing interference.
- RTS Threshold. This setting determines the packet size at which the
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bridge issues a request to send (RTS) before sending the packet. A low
RTS Threshold setting can be useful in areas where many client devices
are associating with the access point, or in areas where the clients are far
apart and can detect only the bridge and not each other. Enter a setting
ranging from 0 to 2339 bytes.
- Frag Threshold. This setting determines the size at which packets are
fragmented (sent as several pieces instead of as one block). Enter a setting
ranging from 256 to 2338 bytes. Use a low setting in areas where
communication is poor or where there is a great deal of radio interference.
- SSID. The Service Set ID (SSID) can be any alphanumeric, case-
sensitive entry from two to 32 characters long. This string functions as a
password to joint the radio network.
- Hide SSID. You use this setting to choose whether devices that do not
specify an SSID are allowed to associate with the access point. With Yes
selected, the SSID used by other devices must match exactly the AP’s
SSID.
- Deny Any. You use this setting to choose whether devices that specify
the well define SSID keyword ‘ANY’ or ‘any’ are allowed to associate
with the access point. With Yes selected, the SSID ‘ANY’ or ‘any’ used by
other devices are not allowed to associate with the access point
- Station Name. Enter any alphanumeric, case-sensitive entry.
- WEP Key. Enter 1~15 characters for 64 and 128 bits WEP KEY
encryption, and then click KeyGen to generate the WEP64 & WEP128
key patterns.
- WEP. Disable or enable 64/128 bit WEP services.
- Default Key. Select an encryption key from the pull down menu.
- WEP64 Key1~4 & WEP128 Key1~4. The keys in these fields can be
generated automatically by KeyGen function. For 40-bit encryption, enter
10 hexadecimal digits; for 128-bit encryption, enter 26 hexadecimal digits.
Hexadecimal digits include the numbers 0 through 9 and the letters A
through F. Your 40-bit WEP keys can contain any combination of 10
of these characters; your 128-bit WEP keys can contain any combination of
26 of these characters. The letters are not case-sensitive.
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4.6 Security
4.6.1 IEEE 802.1x Access Control
You can configure Authenticator on AP:
1. Click General Config, select 802.1x Access Control page, and choice
the IEEE 802.1x services is Enable or Disable (as shown in Figure 4-
11).
Figure 3-11
2. The OWAP supporting authentication which based on two kinds of user
information base, Local User Database or Remote Radius Servers.
You can specify which user database you want to use.
3. You can specify the username/password of an accessible 802.1x
user. All user information entries in the Local User Database are
permitted to connect into the OWAP. You can also click ADD,
DELETE, MODIFY button to maintain this User Information table.
4. Some Radius server implements EAP authentication, like Microsoft
Windows 2000 server or Cisco ACS. To set up the Radius server and
OWAP for authentication, you must specify the Radius server IP
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address, Share key between OWAP and Radius server,
authentication port and accounting port on this Radius server.
5. Click FINISH at the bottom of this page to complete the modification of
this page.
4.6.2 MAC based Access Control
1. Click Basic Config, select MAC Filter page, and choice the MAC Filter
services is Enable or Disable (as shown in Figure 4-12).
2. You can specify the MAC address of a wireless client station. All MAC
entries in the MAC address table are permitted to connect into the
OWAP. You can also click ADD, DELETE, MODIFY button to maintain
this MAC address table. After that, click FINISH at the bottom of this
page to complete the modification of this page.
Figure 4-12
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4.7 Utility
4.7.1 Software Upgrade
1. Click Utility, select Software Upgrade page (as shown in Figure 4-
13), and then you can use TFTP to upgrade your AP. In here, you must
specify the TFTP server IP and select which file you want to upgrade it
(Program image, Web image), then click OK button to start the TFTP
upgrade process.
2. If the upgrade process is success, the AP will apply the new settings
and start rebooting right away.
Hint: You must set up a TFTP server and this server must contain one
latest new image.
Figure 4-13
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4.7.2 Administration
Click Utility, Administration. Figure 4-14 shows the Utility – Administration
page.
Figure 4-14 Utility – Administration
Supervisor Account
Change the supervisor’s user name & password in the Supervisor Account
field, and Click FINISH. To take effect the previous configuration changes.
Apply the New Settings
1. Click Utility, Administration, select the Save then Restart to apply
the new configuration settings.
2. Click FINISH. To take effect the previous configuration changes.
Hint: It takes about 10 seconds, to complete the restart process.
35
Chapter 5. Status Monitor
You can see the system running status and the some information on this
windows. Click the Running Status link on the left window (as shown in
Figure 5-1), you can choose which function that you want to monitor.
Figure 5-1 Running Status
36
5.1 System Information
Click Running Status, System Info. Figure 5-2 shows the System
Information page.
Figure 5-2 Running Status – System Info
In this page, you can see the system information and most running
parameters.
General System Information This block displayed the Product Model,
Host Name, Software Version, Build, Boot Code Version, Web Version, AP
Firmware version and System Uptime.
General System Status This block displayed the Operation Mode,
Interface IP/Net mask and brief wireless parameters, if the operator turn on
the DHCP or PPPoE services, you can also see the related information on
here.
Services Information This block displayed which service is turn on or not.
It is includes the NAPT, DHCP server, SNMP, 802.1x access control, MAC
Filter and WEP encryption.
37
5.2 DHCP Information
Click Running Status, DHCP Info. Figure 5-3 shows the DHCP assigned
IP Information page.
Figure 5-2 Running Status – DHCP Info
In this page, you can see the DHCP server assigned table, includes MAC
address, corresponded IP address and IP assigning type (Dynamic or Fix).
38
5.3 Station Information
Click Running Status, Station Info. Figure 5-3 shows the associated
stations information page.
Figure 5-3 Running Status – Station Info
In this page, you can see how many wireless stations associated to this AP,
this association table includes the associated station MAC address and the
corresponded connection time.
39
5.4 Statistic Information
Click Running Status, Statistic Info. Figure 5-3 shows the statistic of
interface page.
Figure 5-4 Running Status – Statistic Info
In this page, you can see the packet statistic of each interface, Wireless
and Ethernet. This statistic table includes the In Packets, Out Packets, In
Bytes and Out Bytes.
40
Chapter 6. Specifications
General
Compatibility Fully interoperable with IEEE802.11b
compliant products
Regulation Certifications FCC Part 15, ETSI 300/328
Power Supply Output: DC 5V/3A
Input: 100/240 VAC; 50/60 Hz
Temperature Range 0 to 55 (operating)
-20 to 75 (storage)
Humidity (non-condensing) 10% ~ 90%
Interface LAN ports: 3 Switching
(10Base-T/100Base-TX)
WAN port: 1
(10Base-T/100Base-TX)
Console port: RS-232 x 1
Radio
Frequency Band 2.4 – 2.484 GHz
Radio Type Direct Sequence Spread Spectrum
(DSSS)
Modulation CCK (11, 5.5Mbps)
DQPSK (2Mbps)
DBPSK (1Mbps)
Operation Channels 11 for North America, 14 for Japan,
13 for Europe
Receiver Sensitivity -84dBm for 11Mbps @ 8% PER
(Packet Error Rate)
-90dBm for 2Mbps @ 8% PER
(Packet Error Rate)
RF Output Power 19dBm typically (including antenna
gain), ETSI
14.2dBm typically (including antenna
gain), FCC
RF Connector Reversed N Type
41
Network Information
Protocol Supported TCP/IP
NAT/NAPT
Virtual Server
DHCP client
DHCP server
PPPoE
Bridge
Security PPP PAP/CHAP/MS-CHAP
Authentication in Web-Based
manager
IEEE 802.1x Port-Based network
access control
Radius client (Authentication &
Accounting)
MAC address based access control
64-bit, 128-bit WEP encryption
802.11 SSID hidden
Denial 802.11 “Any” station
Management
Local Configuration RS-232 serial port
Remote Configuration HTTP, SNMP
Firmware Upgrade Upgrade via Serial Interface or TFTP
Physical Specifications
Dimensions 211(L) mm x 151(W) mm x 40(H) mm
Weight 1000 g
42
Chapter 7. Default Settings
7.1 General Configuration
7.1.1 System
Parameter Description Default Value
Host Name Host name for the OWAP HWLAN
Operation Mode
1. Wireless Access Bridge
2. Wireless Access Router
with PPPoE client
Ethernet connection
3. Wireless Access Router
with DHCP client
Ethernet connection
4. Wireless Access Router
with Static IP Ethernet
connection
Wireless Access
Bridge
Bridge IP Address 192.168.2.1
Bridge Subnet Mask
For Wireless Access Bridge
Operation Mode 255.255.255.0
PPPoE User Name user
PPPoE Password pass
Password Confirm
For Wireless Access Router
with PPPoE client Ethernet
connection
pass
IP Address 192.168.1.1
Wireless Interface
Address Subnet Mask 255.255.255.0
IP Address 192.168.2.1
Ethernet-WAN Interface
Address Subnet Mask 255.255.255.0
IP Address 192.168.2.1
Ethernet-LAN Interface
Address Subnet Mask 255.255.255.0
NAPT Interface
1. None
2. Wireless LAN
3. Ethernet
4. PPPoE
None
Default Route IP IP address of the gateway for 192.168.2.254
43
default route when TCP/IP
filtering
Primary DNS Server IP 192.168.2.254
Second DNS Server IP
IP addresses of the DNS
Servers of your Local ISP
7.1.2 Virtual Server Mapping
Parameter Description Default Value
Service Name Specify the service for public
access NULL
Protocol Select a protocol for public
access NULL
Interface NULL
Public Access Port Number NULL
IP address NULL
Virtual Server Port Number NULL
Note: (Maximum Entry: 10, Maximum Port Number: 32767)
44
7.1.3 DHCP
Parameter Description Default Value
Trigger DHCP Service
Disable or Enable automatic IP
address assignment to wireless
stations
Disable
Default Gateway
IP address of the gateway for
default route when TCP/IP
filtering
192.168.1.1
Net Mask
Consists of four sets of digits that
help divide a network into sub-
networks and simplify routing and
data transmission
255.255.255.0
Name Server 1: 192.168.2.254
Name Server 2: Null
Name Server 3:
IP address of the DNS host
Null
DHCP Start IP IP starting address 192.168.1.240
DHCP End IP IP ending address 192.168.1.249
Interface 1. Wireless
2. Ethernet Wireless
Ethernet Address
Fixed Host Entries
(Max 10) IP Address Empty
45
7.1.4 SNMP
7.1.4.1 Table of SNMP Community Pool:
Parameter Description Default Value
Index 1 Enable
Index 2 Enable
Index 3 Disable
Index 4 Disable
Index 5
Validity
Enable or disable the function
of the corresponding community
index
Disable
Index 1 Read
Index 2 Write
Index 3 ---
Index 4 ---
Index 5
Access
Right
Select the access right
(Deny/Read/Write/Create) for
SNMP Manager
---
Index 1 public
Index 2 private
Index 3 ---
Index 4 ---
Index 5
Community
Specify the type of community
(public or private) for SNMP
Manager
---
46
7.1.4.2 Table of SNMP Trap Community Host Pool:
Parameter Description Default Value
Index 1 Version1
Index 2 Version2
Index 3 ---
Index 4 ---
Index 5
Version
Select or disable the SNMP
Version
Version 1: MIB1
Version 2: MIB2
---
Index 1 192.168.2.100
Index 2 192.168.2.100
Index 3 ---
Index 4 ---
Index 5
IP Address
Specify the IP address of the
SNMP Manager for SNMP Trap
Report
---
Index 1 public
Index 2 public
Index 3 ---
Index 4 ---
Index 5
Community
Specify the type of community
(public or private) for SNMP
Manager
---
47
7.1.5 Wireless LAN
Parameter Description Default Value
Regulatory Domain Define the regulatory domain to
Which this NIC may be deployed 1
Channel USA: 1~11, Europe: 1~13 1
RTS Threshold Set RTS (Request To Send)
threshold value 1600
Fragmentation
Threshold
Set fragmentation threshold
value 1600
SSID
Wireless LAN service area
identifier of the OWAP (case
sensitive)
wireless
Hide SSID Yes or No No
Deny ANY Yes or No No
Station Name Show the name of the AP ap
WEP Key
Push the “KeyGen” button to
generate the WEP key patterns
automatically
wepkey
WEP
1. WEP128
2. WEP64
3. Disable
Disable
Default Key
Select a WEP key to encrypt
each frame transmitted from
the radio using one the of the 4
Keys from the Key Panel
1
Key Panel
When you use WEP to
communicate with the other
wireless clients, all the wireless
devices in this network must
have the same encryption key
or pass phrase.
Note: each key must consist
of hex digits, it means that
only digit 0 -9 and letters A-F
48
are valid entries. If entered
incorrectly, program will not
write keys to a driver.
7.2 Utility
7.2.1 Software Upgrade
Parameter Description Default Value
TFTP Server IP
Address
Specify the IP address of the
TFTP server to upgrade the
firmware of the OWAP
192.168.2.100
Program Image soho.bin
Upgrade Filename Web Image pfs.img
7.2.2 Administration
Parameter Description Default Value
Supervisor ID Supervisor’s identity code root
Supervisor Password Supervisor’s password root
Password Confirm Confirm the password again root
49
Chapter 8. Regulatory Compliance Information
Radio Frequency Interference Requirements
This device complies with Part 15 of FCC Rules and Canada RSS-210.
Operation is subject to the following conditions:
This device may not cause harmful interference.
This device must accept any interference received, including interference
that may cause undesired operation.
Radiation Exposure Statement
This equipment complies with FCC radiation exposure limits set forth for an
uncontrolled environment. This equipment should be installed and operated
with minimum distance 20 cm between the radiator & your body.
This transmitter must not be co-located or operating in conjunction with any
other antenna of transmitter.
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 Regulation.
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 instruction manual, may cause harmful interference to
nearby TV’s, VCR’s, radio, computers, or other electronic devices. To
minimize or prevent such interference, this equipment should not be placed
or operated near these devices. If interference is experienced, moving the
equipment away from them will often reduce or eliminate the interference.
However, there is no guarantee that interference will not occur in a
particular installation. If the equipment does cause harmful interference to
radio or television reception, which can be determined by turning the
equipment off and on, the user is encouraged to try to correct the
interference by one or more of the following measures:
Re-orient 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 which
the receiver is connected.
Consult the dealer or an experienced radio/TV technician for help.
50
Professional Installation
Per the recommendation of the FCC, the installation of high gain directional
antenna to the system, which are intended to operated solely as a point-to-
point system and whose total power exceeds +30dBm EIRP, require
professional installation. It is the responsibility of the installer and the end
user that the high power systems are operated strictly as a point-to-point
system.
Systems operating as a point-to-multipoint system or use non directional
antennas cannot exceed +30dBm EIRP power requirement under any
circumstances and do not require professional installation.
Information to user
The users manual or instructionmanual for an intentional or unintentional
radiator shall caution the user that changes or modifications not expressly
approve by the party responsible for compliance could void the user's
authority to operatethe equipment

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