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Copyright
Copyright
2012 by PLANET Technology Corp. All rights reserved. No part of this publication may be reproduced, transmitted, transcribed, stored in a retrieval system, or translated into any language or computer language, in any form or by any means, electronic, mechanical, magnetic, optical, chemical, manual or otherwise, without the prior written permission of PLANET.
PLANET makes no representations or warranties, either expressed or implied, with respect to the contents hereof and specifically disclaims any warranties, merchantability or fitness for any particular purpose. Any software described in this manual is sold or licensed "as is". Should the programs prove defective following their purchase, the buyer (and not this company, its distributor, or its dealer) assumes the entire cost of all necessary servicing, repair, and any incidental or consequential damages resulting from any defect in the software. Further, this company reserves the right to revise this publication and to make changes from time to time in the contents hereof without obligation to notify any person of such revision or changes.
All brand and product names mentioned in this manual are trademarks and/or registered trademarks of their respective holders.
Federal Communication Commission 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 FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
1. Reorient or relocate the receiving antenna.
2. Increase the separation between the equipment and receiver.
3. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
4. Consult the dealer or an experienced radio technician for help.
FCC Caution:
To assure continued compliance, (example-use only shielded interface cables when connecting to computer or peripheral devices) any changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment.
This device complies with Part 15 of the FCC Rules. Operation is subject to the Following two conditions:
(1) This device may not cause harmful interference
(2) This Device must accept any interference received, including interference that may cause undesired operation.
Any changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment.
I
Federal Communication Commission (FCC) Radiation Exposure Statement
This equipment complies with FCC radiation exposure set forth for an uncontrolled environment. In order to avoid the possibility of exceeding the FCC radio frequency exposure limits, human proximity to the antenna shall not be less than 20 cm (8 inches) during normal operation.
CE Mark Warning
This is a Class B product. In a domestic environment, this product may cause radio interference, in which case the user may be required to take adequate measures.
Energy Saving Note of the Device
This power required device does not support Standby mode operation.
For energy saving, please remove the DC-plug to disconnect the device from the power circuit.
Without remove the DC-plug, the device still consuming power from the power circuit. In the view of
Saving the Energy and reduce the unnecessary power consuming, it is strongly suggested to remove the DC-plug for the device if this device is not intended to be active.
Protection requirements for health and safety – Article 3.1a
Testing for electric safety according to EN 60950 has been conducted. These are considered relevant and sufficient.
Protection requirements for electromagnetic compatibility – Article 3.1b
Testing for electromagnetic compatibility according to EN 301 489-1, EN 301 489-17 and EN 55024 has been conducted. These are considered relevant and sufficient.
Effective use of the radio spectrum – Article 3.2
Testing for radio test suites according to EN 300 328-2 has been conducted. These are considered relevant and sufficient.
CE in which Countries where the product may be used freely:
Germany, UK, Italy, Spain, Belgium, Netherlands, Portugal, Greece, Ireland, Denmark, Luxembourg,
Austria, Finland, Sweden, Norway and Iceland.
France: except the channel 10 through 13, law prohibits the use of other channels.
R&TTE Compliance Statement
This equipment complies with all the requirements of DIRECTIVE 1999/5/CE OF THE EUROPEAN
PARLIAMENT AND THE COUNCIL OF 9 March 1999 on radio equipment and telecommunication terminal Equipment and the mutual recognition of their conformity (R&TTE).
The R&TTE Directive repeals and replaces in the directive 98/13/EEC (Telecommunications
Terminal Equipment and Satellite Earth Station Equipment) As of April 8, 2000.
Safety
This equipment is designed with the utmost care for the safety of those who install and use it.
However, special attention must be paid to the dangers of electric shock and static electricity when
II
working with electrical equipment. All guidelines of this and of the computer manufacture must therefore be allowed at all times to ensure the safe use of the equipment.
WEEE regulation
To avoid the potential effects on the environment and human health as a result of the presence of hazardous substances in electrical and electronic equipment, end users of electrical and electronic equipment should understand the meaning of the crossed-out wheeled bin symbol. Do not dispose of WEEE as unsorted municipal waste and have to collect such WEEE separately.
Revision
User’s Manual for PLANET 802.11a/n Wireless Outdoor Access Point
Model: WNAP-7350
Rev: 1.0 (October, 2012)
Part No. EM-WNAP-7350_v1.0 (2081-E10510-000)
III
CONTENTS
IV
V
VI
User Manual of WNAP-7350
Chapter 1. Product Introduction
1.1 Package Contents
Thank you for choosing PLANET WNAP-7350. Before installing the AP, please verify the contents inside the package box.
WNAP-7350 Wireless AP Quick Installation Guide CD-ROM
PoE Injector & Power Cord Mounting Kit x 1
(User Manual included)
RJ-45 Waterproof Kit x 2
If there is any item missed or damaged, please contact the seller immediately.
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1.2 Product Description
User Manual of WNAP-7350
High Power Outdoor Wireless Coverage
PLANET Technology introduces the latest high power outdoor wireless LAN solution - the 300Mbps outdoor wireless AP, WNAP-7350. It provides higher transmit power, better performance, widely coverage and
stable connection than standard outdoor wireless AP. As an IEEE 802.11a/n compliant wireless device, the
WNAP-7350 is able to give stable and efficient wireless performance for long distance application; while designed with IEEE 802.11n standard and 2T2R MIMO technology makes it possible to deliver six times faster data rate up to 300Mbps than normal 802.11a wireless device. It also features adjustable output power up to
500mW to extend higher coverage in outdoor long range application.
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Multiple Operating & Wireless Modes
The WNAP-7350 supports multiple wireless communication connectivity (AP / Client CPE / WDS PtP / WDS
PtMP / Repeater) allowing for various application requirements and thus it gives users more comprehensive experience when using the WNAP-7350. It helps users to easily build a wireless network and extend the wireless range of existing wireless network.
The WNAP-7350 also supports WISP mode, so CPE users could easily connect to Internet via WISP provider or connect to a wired network.
Advanced Security and Management
In aspect of security, besides 64/128- bit WEP encryption, the WNAP-7350 integrates WPA / WPA2,
WPA-PSK / WPA2-PSK and 802.1x authority to secure and protect your wireless LAN. The wireless MAC filtering and SSID broadcast control consolidate the wireless network security and prevent unauthorized wireless connection. To fulfill enterprise and various applications demand, the WNAP-7350 enhances security and management features such as providing multiple SSID support.
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Perfect Solution for Outdoor Environment
The WNAP-7350 is perfectly suitable in outdoor environments and exposed locations. By designing with IP67 and aluminum rugged strong housing, the WNAP-7350 can perform normally under rigorous weather conditions including heavy rain, wind and snow. Moreover, the WNAP-7350 is rated to operate at the temperature from -30 to 75 Degree C; thus it can operate more stably than general outdoor equipments. It is the best way using the WNAP-7350 to build outdoor wireless access applications between buildings on campuses, business, rural areas and etc.
Flexible Deployment with PoE Feature
Compliant with IEEE 802.3af Power over Ethernet standard, the WNAP-7350 can be powered by PSE (Power
Sourcing Equipment) via a single UTP cable. It thus reduces the needs of extra cables and dedicated electrical outlets on the wall, ceiling or any other places where are difficult to reach. Furthermore, the WNAP-7350 is also suitable to be integrated with PoE Solar Power System to offer farther Wireless service in remote areas. It enables the wireless LAN deployment becomes more flexible and worries free from the power outlet locations.
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Easy Installation & Management
With user-friendly Web UI and step by step Setup Wizard, the WNAP-7350 is easier to install, even for users who never experience setting up a wireless network. Furthermore, with SNMP-Based management interface, the WNAP-7350 is convenient to be managed and configured remotely.
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1.3 Product Features
Industrial Compliant Wireless LAN & LAN
Compliant with IEEE 802.11n wireless technology capable of up to 300Mbps data rate
Backward compatible with 802.11a standard
Equipped with 10/100Mbps RJ-45 Ports for LAN & WAN, Auto MDI/ MDI-X supported
Fixed-network Broadband AP
Supported connection types: Dynamic IP / Static IP / PPPoE / PPTP / L2TP / IPSec
Supports Virtual Server, DMZ for various networking applications
Supports DHCP Server, UPnP, Dynamic DNS
RF Interface Characteristics
Built-in two N-Type Female Antenna connectors
High Output Power up to 500mW with multiple adjustable transmit power control
Outdoor Environmental Characteristics
Aluminum Housing, IP67 Protection Grade
IEEE 802.3af Power over Ethernet design
Operating Temperature: -30~75 Degree C
Multiple Operation & Wireless Mode
Multiple Operation Modes: Bridge, Gateway, WISP
Multiple Wireless Modes: AP, Client CPE (WISP), WDS PtP, WDS PtMP, Repeater
Supports Dual-SSID allowing users to access different networks through one single AP
Supports WMM (Wi-Fi Multimedia)
Secure Network Connection
Supports Software Wi-Fi Protected Setup (WPS)
Advanced security: 64/128-bit WEP, WPA / WPA2, WPA-PSK / WPA2-PSK (TKIP/AES), and
802.1x Authentication
Supports NAT firewall features, with SPI function to protect against DoS attacks
Supports IP / Protocol-based access control and MAC Filtering
Easy Installation & Management
Web-Based UI and Quick Setup Wizard for easy configuration
Remote Management allows configuration from a remote site
SNMP-Based management interface
System status monitoring includes DHCP Client, System Log
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User Manual of WNAP-7350
1.4 Product Specification
Product
WNAP-7350
5GHz 300Mbps 802.11a/n Wireless Outdoor Access Point
Hardware Specifications
Standard support
Memory
Interface
IEEE 802.11a/n Wireless LAN
IEEE 802.11i Wireless Security
IEEE 802.3 10Base-T Ethernet
IEEE 802.3u 100Base-TX Ethernet
IEEE 802.3x Flow Control
IEEE 802.3af Power over Ethernet / PD
32 Mbytes DDR SDRAM
8 Mbytes Flash
Wireless IEEE 802.11a/n, 2T2R
LAN: 1 x 10/100Base-TX, Auto-MDI/MDIX, IEEE 802.3af PoE/PD port
WAN: 1 x 10/100Base-TX, Auto-MDI/MDIX, Passive PoE/PSE port up to 7W
N-Type Female connectors x 2
Antenna
Wireless RF Specifications
Wireless Technology
Modulation
Frequency Band
IEEE 802.11a
IEEE 802.11n
Data Rate
IEEE 802.11a: 54, 48, 36, 24, 18, 12, 9 and 6Mbps
IEEE 802.11n (20MHz): up to 150Mbps
IEEE 802.11n (40MHz): up to 300Mbp
Media Access Control
CSMA / CA
Transmission / Emission Type: OFDM
Data modulation type: OFDM with BPSK, QPSK, 16-QAM, 64-QAM
5.180GHz ~ 5.825GHz
Operating Channel
5.180GHz CH36 5.580GHz CH116
5.200GHz CH40 5.600GHz CH120
5.220GHz CH44 5.620GHz CH124
5.240GHz CH48 5.640GHz CH128
5.260GHz CH52 5.660GHz CH132
5.280GHz CH56 5.680GHz CH136
5.300GHz CH60 5.700GHz CH140
5.320GHz CH64 5.745GHz CH149
RF Output Power
5.500GHz CH100 5.765GHz CH153
5.520GHz CH104 5.785GHz CH157
5.540GHz CH108 5.805GHz CH161
5.560GHz CH112 5.825GHz CH165
*The above 24 channels are defined in theory. The actual application will vary depends on the regulation in different regions and countries.
IEEE 802.11a: 27 ± 1dBm
IEEE 802.11n: 24 ± 1dBm
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User Manual of WNAP-7350
Receiver Sensitivity
IEEE 802.11a: -91dBm
IEEE 802.11n: -92dBm
Output Power Control
3~27dBm
Software Features
LAN
WAN
Operating Mode
Firewall
Wireless Mode
Channel Width
Wireless Isolation
Built-in DHCP server supporting static IP address distributing
Supports 802.1d STP (Spanning Tree)
Static IP
Dynamic IP
PPPoE
PPTP
L2TP
IPSec
Bridge
Gateway
WISP
NAT firewall with SPI (Stateful Packet Inspection)
Built-in NAT server supporting Virtual Server and DMZ
Built-in firewall with Port / IP address / MAC / URL filtering
AP
Client
WDS PTP
WDS PTMP
WDS Repeater (AP+WDS)
20MHz / 40MHz
Enable it to isolate each connected wireless clients from communicating with each other mutually.
Encryption Type
Wireless Security
64/128-bits WEP, WPA, WPA-PSK, WPA2, WPA2-PSK, 802.1X
Provides wireless LAN ACL (Access Control List) filtering
Wireless MAC address filtering
Supports WPS (WIFI Protected Setup )
Multiple SSID
Enable / Disable SSID Broadcast
Up to 2
Max. Wireless Client
40
Max. WDS AP
8
Max. Wired Client
60
WMM
Supports Wi-Fi Multimedia
QoS
NTP
Supports Quality of Service for bandwidth control
Network Time Management
Management
Diagnostic tool
Mechanical & Power
Web UI, DHCP Client, Configuration Backup & Restore, Dynamic DNS, SNMP
System Log, Ping Watchdog
IP Rate
Material
IP67
Aluminum
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User Manual of WNAP-7350
Dimension (W x D x H)
239 x 269 x 80mm
Weight
2.4kg
Installation
Power Requirements
Pole mounting or Wall mounting
AP: IEEE 802.3af PoE / 48VDC input (PoE Injector included)
PoE Injector: 100~240VAC
Power Consumption
7.68W
Environment & Certification
Operation Temperature
-30~75 C
Operating Humidity
Regulatory
Accessory
10~95% non-condensing
CE / RoHS
Standard Accessories
48VDC 802.3af PoE injector & Power cord x 1
Mounting Kit x 1
Waterproof RJ-45 Connector Kit x 2
Quick Installation Guide x 1
CD (User’s Manual, Quick Installation Guide) x 1
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User Manual of WNAP-7350
Chapter 2. Hardware Installation
Please follow the instructions below to connect WNAP-7350 to the existing network devices and your computers.
2.1 Hardware Description
Dimension: 269 x 239 x 80mm (W x D x H)
Figure 2-1 Three-way View
2.1.1 The Rear Panel
The rear panel provides the physical connectors connected to the power adapter and any other network devices.
Figure 2-2 shows the rear panel of WNAP-7350.
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User Manual of WNAP-7350
Rear Panel
Figure 2-2 Rear Panel
Interface
LAN
(802.3af PoE/PD port)
N-Type (F)
WAN / LAN
(Passive PoE/PSE port)
Description
10/100Mbps RJ-45 port , Auto MDI/ MDI-X & 802.3af PoE supported
Connect LAN port to the PoE injector or PoE switch to power on the device.
N-Type Female Antenna Connectors.
Connect N-Type (F) Antenna Connectors with Outdoor Antenna through the N-Type (Male) to N-Type (Male) RF cable.
10/100Mbps RJ-45 port , Auto MDI/ MDI-X & Passive PoE supported.
Connect this port to the xDSL modem in AP mode.
Connect this port to the network equipment in bridge mode.
※
This port has Passive PoE 18V DC out (pin#4/5 +; pin#7/8 -; output max. 6W), please Do Not connect the WAN/LAN port to any Passive
PoE injector when the device is already powered on by Standard
802.3af PSE device through the LAN port.
Table 2-1 The Interface indication
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User Manual of WNAP-7350
Chapter 3. Connecting to the AP
3.1 Preparation before Installation
3.1.1 Professional Installation Required
Please seek assistance from a professional installer who is well trained in the RF installation and knowledgeable in the local regulations.
3.1.1 Safety Precautions
1. To keep you safe and install the hardware properly, please read and follow these safety precautions.
2. If you are installing WNAP-7350 for the first time, for your safety as well as others’, please seek assistance from a professional installer who has received safety training on the hazards involved.
3. Keep safety as well as performance in mind when selecting your installation site, especially where there are electric power and phone lines.
4. When installing WNAP-7350, please note the following things:
Do not use a metal ladder;
Do not work on a wet or windy day;
Wear shoes with rubber soles and heels, rubber gloves, long sleeved shirt or jacket.
5. When the system is operational, avoid standing directly in front of it. Strong RF fields are present when the transmitter is on.
3.2 Installation Precautions
Users MUST use a proper and well-installed surge arrestor and grounding kit with WNAP-7350; otherwise, a random lightening could easily cause fatal damage to WNAP-7350. EMD (Lightning)
DAMAGE IS NOT COVERED UNDER WARRANTY.
Users MUST use the “Power cord & PoE Injector” shipped in the box with the WNAP-7350. Use of other options will cause damage to the WNAP-7350.
Users MUST power off the WNAP-7350 first before connecting the external antennas to it; otherwise, damage might be caused to the WNAP-7350 itselfOne Cable/xDSL Modem that has an RJ-45 connector (not necessary if the AP is connected directly to the Ethernet.)
2. device is already powered on by Standard 802.3af PSE device through the LAN
(802.3af) port.
The WAN/LAN port supports Passive PoE 18V DC [Pin 4, 5(+), Pin 7,8(-)], DO NOT connects to other option of the PoE if you need to power on by Passive PoE Injector through the WAN/LAN port.
(MAKE SURE the LAN (802.3af) is not connected to the power source before power on by WAN/LAN port.)
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User Manual of WNAP-7350
OUTDOOR INSTALLATION WARNING
!
IMPORTANT SAFETY PRECAUTIONS:
LIVES MAY BE AT RISK! Carefully observe these instructions and any special instructions that are included with the equipment you are installing.
CONTACTING POWER LINES CAN BE LETHAL. Make sure no power lines are anywhere where possible contact can be made. Antennas, masts, towers, guy wires or cables may lean or fall and contact these limes.
People may be injured or killed if they are touching or holding any part of equipment when it contacts electric lines. Make sure there is NO possibility that equipment or personnel can come in contact directly or indirectly with power lines.
Assume all overhead lines are power lines.
The horizontal distance from a tower, mast or antenna to the nearest power line should be at least twice the total length of the mast/antenna combination. This will ensure that the mast will not contact power if it falls either during installation or later.
TO AVOID FALLING, USE SAFE PROCEDURES WHEN WORKING AT HEIGHTS ABOVE GROUND.
Select equipment locations that will allow safe, simple equipment installation.
Don’t work alone. A friend or co-worker can save your life if an accident happens.
Use approved non-conducting lasers and other safety equipment. Make sure all equipment is in good repair.
If a tower or mast begins falling, don’t attempt to catch it. Stand back and let it fall.
If anything such as a wire or mast does come in contact with a power line, DON’T TOUCH IT OR ATTEMPT TO
MOVE IT. Instead, save your life by calling the power company.
Don’t attempt to erect antennas or towers on windy days.
MAKE SURE ALL TOWERS AND MASTS ARE SECURELY GROUNDED, AND ELECTRICAL CABLES CONNECTED TO
ANTENNAS HAVE LIGHTNING ARRESTORS. This will help prevent fire damage or human injury in case of lightning, static build-up, or short circuit within equipment connected to the antenna.
The base of the antenna mast or tower must be connected directly to the building protective ground or to one or more approved grounding rods, using 1 OAWG ground wire and corrosion-resistant connectors.
Refer to the National Electrical Code for grounding details.
IF A PERSON COMES IN CONTACT WITH ELECTRICAL POWER, AND CANNOT MOVE:
DON’T TOUCH THAT PERSON, OR YOU MAY BE ELECTROCUTED.
Use a non-conductive dry board, stick or rope to push or drag them so they no longer are in contact with electrical power.
Once they are no longer contacting electrical power, administer CPR if you are certified, and make sure that emergency medical aid has been requested.
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User Manual of WNAP-7350
3.3 Installing the AP
Please install the AP according to the following steps. Don't forget to pull out the power plug and keep your hands dry.
Step 1. Plug the N-Type (M) to N-Type (M) RF cables into the antenna connectors of the WNAP-7350, and then connect the N-Type (F) antennas to the other side of the RF cables.
Figure 3-1
Step 2. Plug the RJ-45 Ethernet cable into the LAN Port of WNAP-7350 through the waterproof kit.
Figure 3-2
Step 3. Take out the power cord and PoE injector, plug the power cord into the DC port and plug the other side of the RJ-45 cable into the POE port of the PoE injector.
Figure 3-3
Step 4. Plug the other waterproof kit to the WAN/LAN port to complete the installation.
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User Manual of WNAP-7350
Figure 3-4
Step 5a. Pole Mounting:
(a.1) Attach the mounting bracket to the back of the device by using four screws and flat washers.
(a.2) Assemble the M bracket to the outside of the mounting bracket by using four screws and flat washers.
(a.3)Install the antenna assembly to the pole by using the toothed bracket, and then tighten it by four long screws.
Figure 3-5
※
Pole diameter less than 5cm may require the use of hex nuts to lock the long screws to the suitable location.
Step 5b. Wall Mounting:
(b.1) Attach the mounting bracket to the back of the device by using four screws and flat washers.
(b.2) Assemble the M bracket to the wall by using four screws and flat washers.
(b.3) Install the mounting bracket assembly inside the M bracket mounted in the wall by using four screws and flat washers.
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User Manual of WNAP-7350
Figure 3-6
Step 5. Connect the power cord to the power socket on the PoE injector, and the other end into an electrical outlet. Then power on the AP.
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User Manual of WNAP-7350
Chapter 4. Quick Installation Guide
This chapter will show you how to configure the basic functions of your Wireless AP using Easy Setup within minutes.
A computer with wired Ethernet connection to the Wireless AP is required for the first-time configuration.
4.1 Manual Network Setup - TCP/IP Configuration
The default IP address of the WNAP-7350 is
192.168.1.1
. And the default Subnet Mask is 255.255.255.0. These values can be changed as you desire. In this guide, we use all the default values for description.
Connect the WNAP-7350 with your PC by an Ethernet cable plugging in LAN port of PoE injector in one side and in LAN port of PC in the other side. Please power on the WNAP-7350 by PoE from PoE injector or PoE switch.
In the following sections, we’ll introduce how to install and configure the TCP/IP correctly in Windows XP. And the procedures in other operating systems are similar. First, make sure your Ethernet Adapter is working, and refer to the Ethernet adapter’s manual if needed.
4.1.1 Configure the IP Address Manually
Summary:
Set up the TCP/IP Protocol for your PC.
Configure the network parameters. The IP address is 192.168.1.xxx ("xxx" is any number from 2 to
254), Subnet Mask is 255.255.255.0, and Gateway is 192.168.1.1 (The AP's default IP address)
1 Select Use the following IP address radio button.
2 If the AP's LAN IP address is 192.168.1.1, enter IP address 192.168.1.x (x is from 2 to 254), and Subnet
mask 255.255.255.0.
3
Select Use the following DNS server addresses radio button. In the Preferred DNS Server field, you can enter the DNS server IP address which has been provided by your ISP
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User Manual of WNAP-7350
Figure 4-1
Now click OK to save your settings.
Now, you can run the Ping command in the command prompt to verify the network connection between your
PC and the AP. The following example is in Windows XP OS. Please follow the steps below:
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User Manual of WNAP-7350
Figure 4-2
2. In the run box type “cmd” and click OK. (Windows Vista users type “cmd” in the Start .Search box.)At the prompt.
Figure 4-3
Open a command prompt, and type ping 192.168.1.1, and then press Enter.
If the result displayed is similar to Figure 4-4 , it means the connection between your PC and the AP has been established well.
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User Manual of WNAP-7350
Figure 4-4 Success result of Ping command
If the result displayed is similar to
Figure 4-5 , it means the connection between your PC and the AP has failed.
Figure 4-5 Failure result of Ping command
If the address is 0.0.0.0, check your adapter installation, security settings, and the settings on your AP. Some firewall software programs may block a DHCP request on newly installed adapters.
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User Manual of WNAP-7350
4.2 Starting Setup in the Web UI
It is easy to configure and manage the WNAP-7350 with the web browser.
Step 1. To access the configuration page, open a web-browser and enter the default IP address http://192.168.1.1
in the web address field of the browser.
Figure 4-6 Login the AP
After a moment, a login window will appear. Enter admin for the User Name and Password, both in lower case letters. Then click the OK button or press the Enter key.
Figure 4-7 Login Window
Default IP Address: 192.168.1.1
Default User name: admin
Default Password: admin
If the above screen does not pop up, it may mean that your web-browser has been set to a proxy. Go to Tools menu>Internet Options>Connections>LAN Settings, in the screen that appears, cancel the Using Proxy checkbox, and click OK to finish it.
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User Manual of WNAP-7350
After entering the username and password, the Status page screen appears as Figure 4-8
Figure 4-8 WNAP-7350 Web UI Screenshot
Step 2. Go to “Easy Setup” to choose an Operation Mode. Please refer to the instructions in the next chapter for configuring the other Operation Modes.
Figure 4-9 Choose Operation Mode
Step 3. Please enter the SSID, configure your Encryption Settings, Pre-Shared Key and etc. Then click Done button to make the configuration take effect immediately.
Figure 4-10 Configure Wireless Settings
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User Manual of WNAP-7350
Chapter 5. Configuring the AP
This chapter delivers a detailed presentation of AP’s functionalities and features under 3 main menus (Status,
Easy Setup, and Advanced) below, allowing you to manage the AP with ease.
Figure 5-1
5.1 Status
In this page, you can view information about the current running status of WNAP-7350, including WAN interface,
LAN interface, Wireless interface, and firmware version information.
Status
This section allows you to view the AP’s System info listed below:
Figure 5-1-1
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User Manual of WNAP-7350
Object
Internet Configuration
Connected Type
Description
Connected Status
Displays current Internet connection type.
Disconnected: Indicates that the Ethernet cable from your
ISP side is / is not correctly connected to the WAN port on the AP or the AP is not logically connected to your ISP.
Connecting: Indicates that the WAN port is correctly connected and is requesting an IP address from your ISP.
Connected: Indicates that the AP has been connected to your ISP.
Displays WAN IP address.
Displays WAN subnet mask.
WAN IP
Subnet Mask
Default Gateway
Primary Domain Name
Server
Secondary Domain
Name Server
MAC Address
LAN Configuration
LAN IP Address
LAN Netmask
MAC Address
System Info
Displays WAN gateway address.
Displays WAN DNS address.
Displays WAN DNS address.
Displays AP’s WAN MAC address.
Displays LAN IP address.
Displays LAN subnet mask.
Displays AP’s LAN MAC address.
Firmware Version
System Time
Displays current F/W version.
Displays the System Time.
Operation Mode Displays current Operation Mode.
Wireless MAC Address
Displays AP’s Wireless MAC address.
Statistics
This section allows you to view the AP’s Statistics listed below:
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User Manual of WNAP-7350
Figure 5-1-2
Object
Memory
Memory Left/
Memory Total
WAN/LAN
WAN Rx packets
WAN Rx bytes
WAN Tx packets
WAN Tx bytes
LAN Rx packets
LAN Rx bytes
LAN Tx packets
LAN Tx bytes
DHCP Clients
Description
Displays the retain memory and total memory.
Displays the real-time packets received from WAN port.
Displays the real-time bytes received from WAN port.
Displays the real-time packets transmitted from WAN port.
Displays the real-time bytes transmitted from WAN port.
Displays the real-time packets received from LAN port.
Displays the real-time bytes received from LAN port.
Displays the real-time packets transmitted from LAN port.
Displays the real-time bytes transmitted from LAN port.
This section displays a DHCP dynamic client list, which includes MAC address, IP address, and lease time info.
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Object
MAC address
IP Address
Expires in
Station List
User Manual of WNAP-7350
Figure 5-1-3
Description
Displays MAC address of a given host.
Displays IP address(es) that client(s) obtained from the DHCP server.
Remaining time for a corresponding IP address lease.
This section allows you to view the Station List. The Station List submenu is only available in AP mode.
Figure 5-1-4
Object
MAC address
Rate
Expires in
Description
Displays MAC address of a connected client.
Displays connection speed of a connected client.
Displays the signal strength of a connected client.
5.2 Easy Setup
The Easy Setup helps you configure the basic functions of your Wireless AP within minutes.
Please refer to the Step 2 in the section “
4.2 Starting Setup in the Web UI
” for the detail procedure.
Figure 5-2-1
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User Manual of WNAP-7350
5.3 Advanced
“Advanced” includes the following four submenus (Advanced, Firewall Settings, Network Settings, and Wireless
Settings). Clicking any of them enters corresponding interface for configuration. Below explains, in details, each such feature.
5.3.1 Advanced - Management
Figure 5-3-1
This section allows you to manage the Wireless AP.
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5.3.1.1.
Web Interface Settings (Password)
User Manual of WNAP-7350
Figure 5-3-2
Object
User Name
Password
Description
Display the User Name info.
Enter the new password that you prefer for login.
Re-enter to confirm
Re-enter the new password to confirm.
If you changed the login password, you must enter the new one in the next login.
5.3.1.2.
Firmware Upgrade
Figure 5-3-3
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User Manual of WNAP-7350
Click the “Browse…” button to select the new firmware for upgrading.
Object Description
Software Version
Display the current Software Version info.
Location
Upload
Click the “Browse…” button to select the new firmware in this field.
Click the “Upload” button to upgrade the new firmware.
!
IMPORTANT SAFETY PRECAUTIONS:
Do Not Turn off the power or close the browser during upgrade process!
5.3.1.3.
Configuration
Figure 5-3-4
Click the “Export” button to backup the configuration of the Wireless AP, and click “Import” to restore the configuration.
Object
Export
Browse…
Import
Description
Click the “Export” button to backup the configuration.
Click the “Browse…” button to select the configuration file in this field for restoring settings.
Click the “Import” button to restore the configuration.
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5.3.1.4.
Load Factory Defaults
User Manual of WNAP-7350
Figure 5-3-5
Click the “Load Default” button to reset it to factory default settings.
5.3.1.5.
Reboot System
Figure 5-3-6
Click the “Reboot Now!” button to restart the Wireless AP.
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5.3.1.6.
Scheduling Reboot
User Manual of WNAP-7350
Figure 5-3-7
Select “Enable” to configure the system auto reboot according to the Duration Time (Time interval).
Object
Enable Scheduling
Reboot
Duration Time
(hh:mm)
Description
Enable: select it to enable the Scheduling Reboot.
Disable: select it to disable the Scheduling Reboot.
Configure the particular time interval for the system auto reboot.
hh: means hours
mm: means minutes
5.3.2 Advanced – Advanced Settings
This section allows you to configure advanced settings of the Wireless AP.
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5.3.2.1.
Time Zone Settings
User Manual of WNAP-7350
Figure 5-3-8
The page includes the following fields:
Object
Current Time
Sync with host
Time Zone
Description
Display the current Time.
Click it to sync your PC’s time to the device.
Select your current time zone.
SNTP Server
SNTP Synchronization
(minutes)
Configure your SNTP Server.
Determines a time length when device periodically updates its time and date info from Internet.
5.3.2.2.
DDNS Settings
The page includes the following fields:
Object Description
Figure 5-3-9
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User Manual of WNAP-7350
Dynamic DNS Provider
Select your Dynamic DNS Provider.
Host Name
User Name
Enter the host name or domain name provided by your DDNS service provider.
Enter the name of your DDNS account.
Password Password: Enter the password of the DDNS account.
Example of Planet DDNS Settings:
Please go to http://www.planetddns.com/ to register a Planet DDNS account.
Please refer to the FAQ ( http://www.planetddns.com/index.php/faq ) for how to register a free account.
Please refer to the procedure listed as following to configure using Planet DDNS service.
Step 1. Select “planetddns.com” to choose Planet DDNS service.
Step 2. Configure the DDNS account that has been registered in Planet DDNS website.
Host Name: Enter your DDNS host (format: xxx.planetddns.com
, xxx is the registered domain name)
User Name: Enter your DDNS account
Password: Enter your DDNS account’s password
Figure 5-3-10
Step 3. Go to “Advanced-> Firewall Settings-> Firewall” to allow remote access from WAN port.
Figure 5-3-11
Step 4. Go to “Advanced-> Network Settings-> WAN” to configure WAN Connection using Static (Fixed IP).
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User Manual of WNAP-7350
Figure 5-3-12
Step 5. Apply the settings, and connect your WAN port of the Wireless AP to the internet by Ethernet cable.
Step 6. In a remote computer, enter the DDNS host name as the figure shown as below. Then, you should beable to login the WNAP-7350 remotely.
Please remember to enter the remote management port number that you have configured in Step 3.
Figure 5-3-13
You can go to
My Devices
page of Planet DDNS website to check if the “Last Connection IP” is displayed.
This indicates your DDNS service is work properly.
5.3.2.3.
UPNP Settings
Select “Enable” to enable the UPNP function.
Figure 5-3-14
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User Manual of WNAP-7350
Figure 5-3-15
In the computer connected with WNAP-7350, go to “Network” to check the WNAP-7350 is displayed in the list.
Double-click it to logon the Web UI of WNAP-7350.
Figure 5-3-16
5.3.2.4.
SNMP Settings
Enable SNMP function will allow the network management station to retrieve statistics and status from the
SNMP Agent in the device.
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Figure 5-3-17
The page includes the following fields:
Object
SNMP Settings
Get Community
Set Community
Description
Choose Enable to open this function if you want to have remote control through SNMPv1/v2 agent.
Choose Disable to close this function.
Enter the community name that allows Read-Only access to the Device's SNMP information. The community name can be considered a group password. The default setting is public.
Enter the community name that allows Read/Write access to the Device's SNMP information. The community name can be considered a group password. The default setting is private.
5.3.3 Advanced – Operation Mode
There are 4 operation modes (AP Router, AP Bridge, Client Router, Client Bridge) can be configured to meet various applications.
5.3.3.1.
AP Router (AP+Router)
In the Access Point Mode with Router Function, WNAP-7350 acts as central connection point, which wireless clients can connect to. The DHCP & NAT is enabled, so the clients wirelessly connected to WNAP-7350 can share the internet connection by connecting WNAP-7350 to a DSL/Cable modem.
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1. Connect the LAN port of WNAP-7350 to the POE port of the PoE Injector with an Ethernet cable.
2. Connect the DSL/Cable Modem to the WAN port of the WNAP-7350.
3. Plug one end of the power cord into the PoE Injector, and the other end in electrical socket.
4. Go to “Advanced-> Operation Mode” to configure it to AP Router Mode.
Figure 5-3-18
In this mode, the LAN2 of the WNAP-7350 works as the WAN port.
To configure the Wireless Settings of AP Router Mode, please refer to the section
5.3.3.2.
AP Bridge (AP+WDS)
In the Access Point Mode with WDS Function, WNAP-7350 function likes a central connection for any stations or clients. Stations and Client must configure the same SSID and Security Password to associate within the range.
WNAP-7350 supports 2 different SSIDs to separate different clients at the same time.
1. Connect the LAN port of WNAP-7350 to the POE port of the PoE Injector with an Ethernet cable.
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2. Connect the PC to the LAN port of the PoE Injector with an Ethernet cable.
3. Plug one end of the power cord into the PoE Injector, and the other end in electrical socket.
4. Go to “Advanced-> Operation Mode” to configure it to AP Bridge Mode.
Figure 5-3-19
In this mode, the Wireless interface of the WNAP-7350 works as the WAN port.
To configure the Wireless Settings of AP Bridge Mode, please refer to the section
.
5.3.3.3.
Client Router (WISP)
In the Client Router Mode, the WNAP-7350 has DHCP Server build inside that allows many LANs automatically generate an IP address to share the same Internet. Connect an AP/WISP Wirelessly and connect to LANs via wired. Client Router Mode is act completely opposite to the AP Router Mode.
1. Connect the LAN port of WNAP-7350 to the POE port of the PoE Injector with an Ethernet cable.
2. Connect the PC to the LAN port of the PoE Injector with an Ethernet cable.
3. Plug one end of the power cord into the PoE Injector, and the other end in electrical socket.
4. Go to “Advanced-> Operation Mode” to configure it to Client Router Mode.
Figure 5-3-20
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WISP Setup Procedure:
Step 1. Go to Advanced-> Wireless Settings-> Profile Settings.
User Manual of WNAP-7350
Figure 5-3-21
Step 2. Click “Site Survey” to discover the Wireless Internet Service Provider.
Step 3. Select the WISP’s AP, and the click “Select”.
Figure 5-3-22
Step 4. Enter the Passphrase, and then click “Add” to add this setting to the profile.
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Figure 5-3-23
Step 5. The profile should be listed in the Profile List as the figure shown as below.
Figure 5-3-24
Step 6. Go to “Advanced-> Network Settings-> LAN” to enable DHCP Server.
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User Manual of WNAP-7350
Figure 5-3-25
Step 7. Go to “Advanced-> Network Settings-> WAN” to configure the WAN Connection.
Figure 5-3-26
Step 8. Configure the wired client’s TCP/IP setting to “Obtain an IP address automatically”.
Figure 5-3-27
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User Manual of WNAP-7350
After got the IP assigned by the WNAP-7350, ping the DNS server to check whether internet connection is reachable.
5.3.3.4.
Client Bridge (Slave AP Bridge)
In the Client Bridge Mode, the WNAP-7350 function likes a wireless adapter. Connected to an Access Point wirelessly and surf internet whenever you want. Using Site Survey to scan all the Access Point within the range and configure its SSID and Security Password to associate with it.
1. Connect the LAN port of WNAP-7350 to the POE port of the PoE Injector with an Ethernet cable.
2. Connect the PC to the LAN port of the PoE Injector with an Ethernet cable.
3. Plug one end of the power cord into the PoE Injector, and the other end in electrical socket.
4. Go to “Advanced-> Operation Mode” to configure it to Client Bridge Mode.
Figure 5-3-28
To configure the Wireless Settings of Client Bridge Mode, please refer to the section
5.3.4 Advanced – System Log
Choose menu “Advanced-> System Log” to view the logs of the Wireless AP.
Click “Refresh” to update the system log.
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Click “Clear” to erase the current system log.
User Manual of WNAP-7350
Figure 5-3-29
5.3.5 Advanced – Tools
The Tools included Ping, Traceroute, and Throughput can help user diagnostic the network connection.
5.3.5.1.
Ping
Ping is a network tool used to test whether a particular host is reachable across an IP network.
Enter the IP, Ping Count, and click “Start” to diagnostic your internet connection.
Figure 5-3-30
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5.3.5.2.
Traceroute
Traceroute is a computer network diagnostic tool for displaying the route (path) and measuring transit delays of packets across an Internet Protocol (IP) network. It can help identify connection problems.
Enter the IP or Hostname, and click “Start” to diagnostic your internet connection.
Figure 5-3-31
5.3.5.3.
Throughput
Click “VISIT THE SITE TO TEST SPEED” button to go http://www.speedtest.net/ to test the internet connection speed.
Figure 5-3-32
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5.4 Firewall Settings
5.4.1 MAC/IP/Port Filtering
User Manual of WNAP-7350
Figure 5-4-1
The page includes the following fields:
Object Description
MAC/IP/Port Filtering
Select Enable to enable the MAC/IP/Port Filtering function.
Default Policy
MAC Address
Destination IP address
(DIP)
Source IP address
Select a policy for filtering rule.
Fill in the MAC address of source NIC, to restrict data transmission.
Fill in the IP address of destination, to restrict data transmission.
Fill in the IP address of source, to restrict data transmission.
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User Manual of WNAP-7350
(SIP)
Protocol
Destination Port Range
Source Port Range
Select the protocol that you want to restrict. There are four options: None, TCP, UDP and ICMP.
Fill in the start-port and end-port number of destination, to restrict data transmission.
Fill in the start-port and end-port number of source, to restrict data transmission.
Action
Select Accept or Drop to specify the action of filtering policies.
Comment Make a comment for the filtering policy.
5.4.2 Virtual Server
The page includes the following fields:
Figure 5-4-2
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Object
Virtual Server
IP address
Private Port
Public Port
Protocol
Comment
5.4.3 DMZ
User Manual of WNAP-7350
Description
Select Enable to enable the Virtual Server function.
To forward data packets coming from WAN to a specific IP address that hosted in local network behind the NAT firewall, fill in the IP address.
To forward data packets coming from WAN to a specific IP address that hosted in local network behind the NAT firewall, fill in the private port.
To forward data packets coming from WAN to a specific IP address that hosted in local network behind the NAT firewall, fill in the public port.
The protocol used for this application, either of TCP, UDP, or
TCP&UDP (all protocols are supported by the Device.).
Make a comment to help identify the setting.
Figure 5-4-3
The page includes the following fields:
Object
DMZ Settings
DMZ IP Address
Description
Select Enable to enable the DMZ function.
To support DMZ in your firewall design, fill in the IP address of
DMZ host that can be access from the WAN interface.
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5.4.4 Firewall
User Manual of WNAP-7350
Figure 5-4-4
The page includes the following fields:
Object
Remote Management
(via WAN)
Remote Management
Port
Description
Select Deny or Allow for remote management function.
Configure the port for remote management.
Ping from WAN Filter
Select Deny or Allow for Ping permit from WAN.
SPI Firewall
Network Address
Translation
PPPoE Passthrough
Select Disable or Enable for SPI firewall function.
Enable it to let the LAN devices connect to the internet.
All computers must be assigned with a public IP address to get connected to the Internet without NAT. However, Internet Service
Providers only provide very few IP addresses to every user.
Therefore it is necessary to use NAT to share a single public IP address to multiple computers on local network, so everyone can get connected to the Internet.
Enable it to allow Multiple PPP connections on remote hosts.
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5.4.5 QoS
Quality of Service provides an efficient way for clients on the network to share the bandwidth with a promised quality of Internet service. Without QoS, all computers and devices on the network will compete with each other to get the bandwidth, and some applications which require guaranteed bandwidth (like video streaming and network telephone) will be affected. With this function, you can limit the maximum bandwidth or give a guaranteed bandwidth for a specific computer, to avoid such unpleasing result from happening.
Figure 5-4-5
The page includes the following fields:
Object
QoS Setup
Upload Bandwidth
Description
Select Enable to enable the QoS function.
Set the limit of total upload bandwidth in kbits. To disable upload bandwidth limitation, input ‘0’ here.
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Download Bandwidth
Target
Source IP
Destination IP
Application
Protocol
Ports
Number of Bytes
5.4.6 Content Filtering
User Manual of WNAP-7350
Set the limit of total download bandwidth in kbits. To disable download bandwidth limitation, input ‘0’ here.
Set the target of QoS rule.
Specify the local (source) IP address that will be affected by this rule. Please input the starting IP address in the left field, and input the end IP address in the right field to define a range of IP addresses, or just input the IP address in the left field to define a single IP address.
Specify the remote (destination) IP address that will be affected by this rule. Please input the starting IP address in the left field, and input the end IP address in the right field to define a range of IP addresses, or just input the IP address in the left field to define a single IP address.
Select the pre-defined application for this rule.
Please select the protocol type of this rule. If you don’t know what protocol your application uses, please try ‘TCP’ first, and switch to ‘UDP’ if this rule doesn’t seems to work.
Fill out the ports for this rule.
Fill out the max. Number of bytes for this rule.
There are two types (Webs URL Filter Settings and Web Host Filter Settings) of content filtering.
5.4.6.1.
Webs URL Filter Settings
The Webs URL Filter option allows you to set up a list of Web sites you would like to deny through your network.
Please enter a URL for filtering.
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Figure 5-4-6
5.4.6.2.
Web Host Filter Settings
The Webs Host Filter option allows you to set up a list of keyword you would like to deny through your network.
Please enter a Host (keyword) for filtering.
Figure 5-4-7
5.5 Network Settings
5.5.1 WAN
There are 5 submenus under the Network menu: WAN, LAN, VLAN, Advanced Routing and IPv6. Click any of them, and you will be able to configure the corresponding function.
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WAN Connection Types:
5.5.1.1.
Static (Fixed IP)
If your ISP provides a static or fixed IP Address, Subnet Mask, Gateway and DNS setting, select Static
(Fixed IP). The Static IP settings page will appear as the figure shown as below.
Figure 5-5-1
The page includes the following fields:
Object
WAN Connections
Description
Select Static (Fixed IP) from the list.
IP Address
Subnet Mask
Default Gateway
Primary DNS Server
Secondary DNS Server
Enter the IP address in dotted-decimal notation provided by your ISP.
Enter the subnet Mask in dotted-decimal notation provided by your ISP, usually is 255.255.255.0
(Optional) Enter the gateway IP address in dotted-decimal notation provided by your ISP.
(Optional) Enter the DNS IP address in dotted-decimal notation provided by your ISP.
(Optional) Enter another DNS IP address in dotted-decimal notation provided by your ISP.
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5.5.1.2.
Cable/Dynamic IP (DHCP)
If your ISP provides the DHCP service, please choose Cable/Dynamic IP (DHCP) type, and the AP Router will automatically obtain IP parameters from your ISP. You can see the page shown as the below.
Figure 5-5-2
The page includes the following fields:
Object
WAN Connections
Description
Select Cable/Dynamic IP (DHCP) from the list.
Host Name
This option specifies the Host Name of the AP Router.
Primary DNS Server
Secondary DNS Server
(Optional) Enter the DNS IP address in dotted-decimal notation provided by your ISP.
(Optional) Enter another DNS IP address in dotted-decimal notation provided by your ISP.
5.5.1.3.
PPPoE (ADSL)
If local ISP provides a PPPoE connection, choose PPPoE (ADSL) and fill the necessary parameters below.
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Figure 5-5-3
The page includes the following fields:
Object
WAN Connections
Description
Select PPPoE (ADSL) from the list.
Host Name
User Name / Password
Verify Password
This option specifies the Host Name of the AP Router.
Enter the User Name and Password provided by your ISP.
These fields are case-sensitive.
Enter the same password entered above for the confirmation.
Operation Mode
Keep Alive: Being constantly connected.
Keep Alive Mode
MTU
Primary DNS Server
Secondary DNS Server
Set up the redial period after the disconnection.
The default setting is "60 seconds".
Please input the MTU value of your network connection here. If you don’t know, please keep the default value.
(Optional) Enter the DNS IP address in dotted-decimal notation provided by your ISP.
(Optional) Enter another DNS IP address in dotted-decimal notation provided by your ISP.
5.5.1.4.
IPSEC
If your ISP provides IPSEC connection, please select IPSEC. And enter the following parameters.
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Figure 5-5-4
Figure 5-5-5
The page includes the following fields:
Object
WAN Connections
Description
Select IPSEC from the list.
Primary DNS Server
Secondary DNS Server
(Optional) Enter the DNS IP address in dotted-decimal notation provided by your ISP.
(Optional) Enter another DNS IP address in dotted-decimal notation provided by your ISP.
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Connection address
family
For an IPSec connection, all host addresses must be of the same
Address Family (IPv4 and IPv6 use different Address Families).
IPSec Operation Mode
Select the IPSec Operation Mode from the drop-down list.
This field allows you to set the connection type to any of the following:
Select Tunnel to specify a Host to Host, Host to Subnet (Road
Warrior), or Subnet to Subnet Tunnel. This is by far the most common connection type.
Select Transport to specify a Host to Host Transport mode tunnel. This connection type is much less common, and would generally only be used if you are attempting to establish and IPSec connection to another host which specifically requires this mode.
IPSec Connection Type
Select Passthrough to disable IPSec processing on packets associated with the tunnel. We can't imagine a scenario where you would use this connection type. I mean seriously, if you don't allow IPSec to process the packets then you don't really have a tunnel, right? Still, the underlying protocol supports this mode, and so here we are.
PFS|DH Group
Select Drop to cause the kernel to drop IPSec packets associated with the tunnel.
Select Reject to cause the kernel to reject IPSec packets associated with the tunnel.
Perfect Forward Secrecy (PFS)—PFS ensures that a given IPSec SA key was not derived from any other secret, like some other keys. In other words, if someone breaks a key, PFS ensures that the attacker is not able to derive any other key. If PFS is not enabled, someone can potentially break the IKE SA secret key, copy all the IPSec protected data, and then use knowledge of the IKE SA secret in order to compromise the IPSec SAs setup by this IKE SA. With PFS, breaking
IKE does not give an attacker immediate access to IPSec. The attacker needs to break each IPSec SA individually.
Diffie-Hellman (DH) key exchange protocol allows two parties without any initial shared secret to create one securely. The following Modular
Exponential (MODP) and Elliptic Curve (EC2N) Diffie-Hellman (also known as "Oakley") Groups are supported:
Diffie-Hellman Group Name Reference
Group 1 768 bit MODP group RFC 2409
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Group 2 1024 bits MODP group RFC 2409
Group 3
Group 4
EC2N group on GP(2^155)
EC2N group on GP(2^185)
RFC 2409
RFC 2409
Group 5 1536 bits MODP group
IPSec Authentication
The AP supports SHA1 & MD5 authentication algorithms.
RFC 3526
IPSec Encryption
SA connection Life
Time
The AP supports DES, 3DES, AES, Blowfish, Twofish, Camellia
Encryption methods.
DES - 56-bit DES-CBC encryption algorithm
3DES - 168-bit DES encryption algorithm
AES - 128, 192 and 256-bit key AES-CBC encryption algorithm
Blowfish - added since v4.5
Twofish - added since v4.5
Camellia - 128, 192 and 256-bit key Camellia encryption algorithm added since v4.5
This value describes the timeframe in hours for which the IKE SA is valid and when the next rekeying should take place.
IKE Key Tries
Local IP Address
Peer IP Address
Local Subnet
Peer Subnet
Local Gateway
Peer Gateway
The field is used to specify the retry times of IKE Key.
This field is used to configure the IP address of the Untangle server on the network configured in the Local Network field.
This field should contain the public IP address of the host to which the
IPSec VPN will be connected.
This field is used to configure the local network that will be reachable from hosts on the other side of the IPSec VPN.
This field is used to configure the remote network that will be reachable from hosts on the local side of the IPSec VPN.
This field is used to configure the Gateway of the Untangle server on the network configured in the Local Network field.
This field should contain the public Gateway of the host to which the
IPSec VPN will be connected.
IPSec Tunnel Name
IPSec Secret Key
IPSec Key Life time
This field should contain a short name or description.
This field should contain the shared secret or PSK (pre-shared key) that is used to authenticate the connection, and must be the same on both sides of the tunnel for the connection to be successful. Because the PSK is actually used as the encryption key for the session, using long strings of a random nature will provide the highest level of security.
Lifetime settings determine when a new key is generated. Any time a key lifetime is reached, the associated SA is also renegotiated. The process
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NAT Traversal
Perfect Forward
Secrets
IPSec Compression
IPSec Conn. Keep
Alive
IPSec Tunnel UP
User Manual of WNAP-7350
of generating new keys at intervals is called dynamic rekeying or key regeneration. Lifetimes allow you to force the generation of a new key after a specific interval. For example, if the communication takes 12 hours and you specify the key lifetime as 1 hour, 12 keys will be generated (one every 1 hour) during the exchange.
NAT Traversal also known as UDP encapsulation allows traffic to get to the specified destination when a device does not have a public address.
This is usually the case if your ISP is doing NAT, or the external interface of your firewall is connected to a device that has NAT enabled.
Select the checkbox to enable PFS (Perfect Forward Secrets).
Select the checkbox to enable compression of content on the connection.
When the firewall is located behind a NAT device, it sends keep alive packets to maintain the connection. You can also force it to send keep alive packets for all NAT-T connections.
This field indicates the IPSec Tunnel is UP and running.
5.5.1.5.
PPTP
If your ISP provides PPTP connection, please select PPTP. And enter the following parameters.
Figure 5-5-6
The page includes the following fields:
Object
WAN Connections
Server IP
Description
Select PPTP from the list.
Enter the IP address of the PPTP server.
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User Name / Password
Address Mode
IP Address
Subnet Mask
Enter the User Name and Password provided by your ISP.
These fields are case-sensitive.
Static IP/ Dynamic IP: Choose either as you are given by your
ISP and If you choose static IP and enter the domain name, you should also enter the DNS assigned by your ISP. And click the Save button.
Enter the User Name and Password provided by your ISP.
These fields are case-sensitive.
Enter the subnet Mask in dotted-decimal notation provided by your ISP, usually is 255.255.255.0
Operation Mode
Keep Alive: Being constantly connected.
Keep Alive Mode
Primary DNS Server
Secondary DNS Server
Set up the redial period after the disconnection.
The default setting is "60 seconds".
(Optional) Enter the DNS IP address in dotted-decimal notation provided by your ISP.
(Optional) Enter another DNS IP address in dotted-decimal notation provided by your ISP.
5.5.1.6.
L2TP
If your ISP provides L2TP connection, please select L2TP. And enter the following parameters.
Figure 5-5-7
The page includes the following fields:
Object Description
WAN Connections
Select L2TP from the list.
Server IP
Enter the IP address of the L2TP server.
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User Name / Password
Address Mode
IP Address
Subnet Mask
Enter the User Name and Password provided by your ISP.
These fields are case-sensitive.
Static IP/ Dynamic IP: Choose either as you are given by your
ISP and If you choose static IP and enter the domain name, you should also enter the DNS assigned by your ISP. And click the Save button.
Enter the User Name and Password provided by your ISP.
These fields are case-sensitive.
Enter the subnet Mask in dotted-decimal notation provided by your ISP, usually is 255.255.255.0
Operation Mode
Keep Alive: Being constantly connected.
Keep Alive Mode
Primary DNS Server
Secondary DNS Server
Set up the redial period after the disconnection.
The default setting is "60 seconds".
(Optional) Enter the DNS IP address in dotted-decimal notation provided by your ISP.
(Optional) Enter another DNS IP address in dotted-decimal notation provided by your ISP.
5.5.2 LAN
Figure 5-5-8
The page includes the following fields:
Object
MAC Address
IP Address
Subnet Mask
Description
Display the LAN port MAC address of the Wireless AP.
The Wireless AP’s LAN IP.
The default is 192.168.1.1. You can change it according to your need.
Enter the subnet mask of the LAN IP.
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5.5.2.1.
DHCP Server
Figure 5-5-9
The page includes the following fields:
Object
DHCP Server
Local Domain Name
(Optional)
Start IP Address
Description
Select DHCP Server to enable DHCP server feature.
(Optional) Input the domain name of your network.
Enter the starting IP address for the DHCP server’s IP assignment.
End IP Address Enter the ending IP address for the DHCP server’s IP assignment.
Lease Time
The length of time for the IP address lease. Configuring a proper lease time improves the efficiency for the DHCP server to reclaim disused IP addresses.
To benefit from the DHCP server feature, you must set all LAN PCs to DHCP clients by selecting the “Obtain an
IP Address Automatically” radio buttons thereon.
5.5.2.2.
DHCP Relay
Figure 5-5-10
The page includes the following fields:
Object
DHCP Server
DHCP Relay
Description
Select DHCP Relay to enable DHCP relay feature.
A DHCP relay agent is any host that forwards DHCP packets between clients and servers.
Configure the IP address of DHCP Relay host.
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5.5.3 VLAN
User Manual of WNAP-7350
Figure 5-5-11
The page includes the following fields:
Object
VLAN Setup
Description
Check this box to enable the VLAN function.
Management VLAN ID
Configure a specified VLAN to be the management VLAN.
Enable Management
VLAN ID
Check this box to enable the Management VLAN function.
VLAN ID
The ID of a VLAN. Only in the same VLAN can a wireless PC and a wired PC communicate with each other. The value can be between 1 and 4095. If the VLAN function is enabled, when AP forwards packets, the packets out from the LAN port will be added with an
IEEE 802.1Q VLAN Tag, whose VLAN ID is just the ID of the VLAN where the sender belongs.
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5.5.4 Advanced Routing
User Manual of WNAP-7350
Figure 5-5-12
The page includes the following fields:
Object
Destination
Type
Gateway
Interface
Comment
Dynamic Routing
Protocol
Description
The IP address of packets that can be routed.
Defines the type of destination. ( Host: Signal IP address / Net: Portion of Network )
Defines the packets destination next hop
Select interface to which a static routing subnet is to be applied
Help identify the routing
Enable or disable the RIP (Routing Information Protocol) for the
WAN or LAN interface.
It supports RIP v1 and v2.
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5.5.5 IPv6
Use this section to configure your IPv6 Connection type. If you are unsure of your connection method, please contact your Internet Service Provider.
Figure 5-5-13
The page includes the following fields:
Object
IPv6 Connection Mode
Description
Choose the mode to be used by the AP/Router to the IPv6 Internet.
There are 7 connection modes available:
Static, SLAAC, DHCPv6, 6to4 Tunnel, 6in4 Tunnel, PPPoE, and
Pass Through.
DNS Address Server
Setting
Prefix Delegation
Setting
Enter the IPv6 Primary DNS & IPv6 Secondary DNS to this section.
LAN IPv6 Address
Setting
LAN Address Auto
Enter the IPv6 Prefix Delegation information provided by your
Internet Service Provider (ISP).
Use this section to configure the internal network settings of your
AP/Router. If you change the LAN IPv6 Address here, you may need to adjust your PC network settings to access the network again.
IPv6 offers two types of autoconfiguration: Stateful (DHCPv6) &
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configuration
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Stateless (RADVD).
Stateful (DHCPv6):
This type of configuration is suitable for small organizations and individuals. It allows each host to determine its address from the contents of received user advertisements. It makes use of the IEEE
EUI-64 standard to define the network ID portion of the address.
5.6 Wireless Settings
Stateless(RADVD):
With Stateless Autoconfiguration, a host gains an address via an interface automatically "leasing" an address and does not require the establishment of an server to delve out address space.
You could configure the minimum number of Wireless settings for communication, such as Network Name (SSID) and Channel. The Access Point can be set simply with only the minimum setting items.
5.6.1 Basic
5.6.1.1.
Wireless Mode – Access Point
Figure 5-6-1
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The page includes the following fields:
Object
Wireless Mode
Multiple SSID
Country Code
Frequency (Channel)
Site Survey
Network Mode
Extension Channel
Distance
ACK/CTS Timeout
Network Name (SSID)
Description
Click to select Wireless Mode from pull down menu.
There are 4 options available:
Access Point:
This mode allows wireless clients or Stations(STA) to access
WDS Access Point:
This mode enables the wireless interconnection of Access Point in an
IEEE802.11 network .and accept wireless clients at the same time.
WDS Repeater:
Set to this mode to enable the wireless access point repeat the signal of root access point using WDS.
WDS Client:
Set to this mode to enable wireless client using WDS to connect to the WDS Access Point.
There is one more SSID available. Select the checkbox to enable it, enter the descriptive names that you want to use.
Set your country code by clicking the “Set Country Code”.
Set the channel you would like to use. The channel range will be changed by selecting different domain.
Click “Site Survey” button to observe the signal of remote sites.
Select the operating channel width to WiFi 11na (mixed), HT20 or
HT40MHz.
An extension channel is a secondary channel used to bond with the primary channel to increase this range to 40MHz. Bonded channels allow for greater bandwidth on the local network.
To decrease the chances of data retransmission at long distance, the
IEEE 802.11a/n Wireless Outdoor CPE can automatically adjust proper ACK timeout value by specifying distance of the two nodes.
ACK/CTS Timeout settings are for long distance links. It is important to tweak settings to achieve the optimal result based on requirement.
The device’s default settings should be sufficient for most applications.
The value is auto determined by distance between the radios, data rate of average environment.
It is the wireless network name. The SSID can be 32 bytes long.
User can use the default SSID or change it.
The default SSID is WNAP-7350.
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WPS Choice
Encryption Settings
WPA Algorithms
Key Renewal Interval
(Seconds)
Pre-Shared Key
User Manual of WNAP-7350
Enable it to use WPS associating with AP or Client device.
Select the encryption type that you would like to use.
Select the WPA Algorithms that you would like to use.
The key renewal time is the period of time that the AP uses the same key before a new one is generated.
Data encryption and key are required for wireless authentication.
5.6.1.2.
Wireless Mode – WDS Access Point
Figure 5-6-2
The page includes the following fields:
Object
Wireless Mode
Description
Click to select Wireless Mode from pull down menu.
There are 4 options available:
Access Point:
This mode allows wireless clients or Stations(STA) to access
WDS Access Point:
This mode enables the wireless interconnection of Access Point in an
IEEE802.11 network .and accept wireless clients at the same time.
WDS Repeater:
Set to this mode to enable the wireless access point repeat the signal
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Country Code
Frequency (Channel)
Site Survey
Network Mode
Extension Channel
Distance
ACK/CTS Timeout
Network Name (SSID)
Encryption Settings
WPA Algorithms
Key Renewal Interval
(Seconds)
Pre-Shared Key
User Manual of WNAP-7350
of root access point using WDS.
WDS Client:
Set to this mode to enable wireless client using WDS to connect to the WDS Access Point.
Set your country code by clicking the “Set Country Code”.
Set the channel you would like to use. The channel range will be changed by selecting different domain.
Click “Site Survey” button to observe the signal of remote sites.
Select the operating channel width to WiFi 11na (mixed), HT20 or
HT40MHz.
An extension channel is a secondary channel used to bond with the primary channel to increase this range to 40MHz. Bonded channels allow for greater bandwidth on the local network.
To decrease the chances of data retransmission at long distance, the
IEEE 802.11a/n Wireless Outdoor CPE can automatically adjust proper ACK timeout value by specifying distance of the two nodes.
ACK/CTS Timeout settings are for long distance links. It is important to tweak settings to achieve the optimal result based on requirement.
The device’s default settings should be sufficient for most applications.
The value is auto determined by distance between the radios, data rate of average environment.
It is the wireless network name. The SSID can be 32 bytes long.
User can use the default SSID or change it.
The default SSID is WNAP-7350.
Select the encryption type that you would like to use.
Select the WPA Algorithms that you would like to use.
The key renewal time is the period of time that the AP uses the same key before a new one is generated.
Data encryption and key are required for wireless authentication.
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5.6.1.3.
Wireless Mode – WDS Repeater
User Manual of WNAP-7350
Figure 5-6-3
The page includes the following fields:
Object
Wireless Mode
Root AP MAC Address
(optional)
Country Code
Description
Click to select Wireless Mode from pull down menu.
There are 4 options available:
Access Point:
This mode allows wireless clients or Stations(STA) to access
WDS Access Point:
This mode enables the wireless interconnection of Access Point in an
IEEE802.11 network .and accept wireless clients at the same time.
WDS Repeater:
Set to this mode to enable the wireless access point repeat the signal of root access point using WDS.
WDS Client:
Set to this mode to enable wireless client using WDS to connect to the WDS Access Point.
Fill out the Root AP’s MAC Address enable it to connect to the Root
AP using WDS.
Set your country code by clicking the “Set Country Code”.
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Frequency (Channel)
Site Survey
Network Mode
Extension Channel
Distance
ACK/CTS Timeout
Network Name (SSID)
Root AP SSID
Encryption Settings
WPA Algorithms
Key Renewal Interval
(Seconds)
Pre-Shared Key
User Manual of WNAP-7350
Set the channel you would like to use. The channel range will be changed by selecting different domain.
Click “Site Survey” button to observe the signal of remote sites.
Select the operating channel width to WiFi 11na (mixed), HT20 or
HT40MHz.
An extension channel is a secondary channel used to bond with the primary channel to increase this range to 40MHz. Bonded channels allow for greater bandwidth on the local network.
To decrease the chances of data retransmission at long distance, the
IEEE 802.11a/n Wireless Outdoor CPE can automatically adjust proper ACK timeout value by specifying distance of the two nodes.
ACK/CTS Timeout settings are for long distance links. It is important to tweak settings to achieve the optimal result based on requirement.
The device’s default settings should be sufficient for most applications.
The value is auto determined by distance between the radios, data rate of average environment.
It is the wireless network name of itself. The SSID can be 32 bytes long.
User can use the default SSID or change it.
The default SSID is WNAP-7350.
It is the wireless network name of Root AP.
The SSID must be the same with Root AP so that the connection can be established successfully.
Select the encryption type that you would like to use.
Select the WPA Algorithms that you would like to use.
The key renewal time is the period of time that the AP uses the same key before a new one is generated.
Data encryption and key are required for wireless authentication.
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5.6.1.4.
Wireless Mode – WDS Client
User Manual of WNAP-7350
Figure 5-6-4
The page includes the following fields:
Object
Wireless Mode
Root AP MAC Address
(optional)
Country Code
Frequency (Channel)
Description
Click to select Wireless Mode from pull down menu.
There are 4 options available:
Access Point:
This mode allows wireless clients or Stations(STA) to access
WDS Access Point:
This mode enables the wireless interconnection of Access Point in an
IEEE802.11 network .and accept wireless clients at the same time.
WDS Repeater:
Set to this mode to enable the wireless access point repeat the signal of root access point using WDS.
WDS Client:
Set to this mode to enable wireless client using WDS to connect to the WDS Access Point.
Fill out the Root AP’s MAC Address enable it to connect to the Root
AP using WDS.
Set your country code by clicking the “Set Country Code”.
Set the channel you would like to use. The channel range will be changed by selecting different domain.
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Network Mode
Extension Channel
Distance
ACK/CTS Timeout
Root AP SSID
Encryption Settings
WPA Algorithms
Key Renewal Interval
(Seconds)
Pre-Shared Key
User Manual of WNAP-7350
Select the operating channel width to WiFi 11na (mixed), HT20 or
HT40MHz.
An extension channel is a secondary channel used to bond with the primary channel to increase this range to 40MHz. Bonded channels allow for greater bandwidth on the local network.
To decrease the chances of data retransmission at long distance, the
IEEE 802.11a/n Wireless Outdoor CPE can automatically adjust proper ACK timeout value by specifying distance of the two nodes.
ACK/CTS Timeout settings are for long distance links. It is important to tweak settings to achieve the optimal result based on requirement.
The device’s default settings should be sufficient for most applications.
The value is auto determined by distance between the radios, data rate of average environment.
It is the wireless network name of Root AP.
The SSID must be the same with Root AP so that the connection can be established successfully.
Click “Scan” to site survey the Root AP.
Select the encryption type that you would like to use.
Select the WPA Algorithms that you would like to use.
The key renewal time is the period of time that the AP uses the same key before a new one is generated.
Data encryption and key are required for wireless authentication.
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5.6.2 Profile Settings
In Client Bridge and Client Router operation modes, please go to “Advanced-> Wireless Settings-> Profile
Settings” to configure the wireless client function to connect with the wireless AP.
Figure 5-6-5
The page includes the following fields:
Object
Profile Name
Network Type
SSID
Description
Fill out the Root AP’s MAC Address enable it to connect to the Root
AP using WDS.
Set the Network Type that you would like to use.
Infrastructure:
Infrastructure networks consist of the networked devices and the wireless access point or wireless router. Each device must connect to the access point before having access to other computers on the network.
Ad-hoc:
In an ad hoc network, each device's network adapter directly communicates with other devices.
It is the wireless network name of Root AP.
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BSSID (optional)
Encryption Settings
Distance
ACK/CTS Timeout
RTS/CTS
Fragmentation
Threshold
WDS Client
User Manual of WNAP-7350
Indicate the Basic Service Set ID of the associated AP
Select the encryption type that you would like to use.
To decrease the chances of data retransmission at long distance, the
IEEE 802.11a/n Wireless Outdoor CPE can automatically adjust proper ACK timeout value by specifying distance of the two nodes.
ACK/CTS Timeout settings are for long distance links. It is important to tweak settings to achieve the optimal result based on requirement.
The device’s default settings should be sufficient for most applications.
The value is auto determined by distance between the radios, data rate of average environment.
RTS/CTS (Request to Send / Clear to Send) is the optional mechanism used by the 802.11 wireless networking protocol to reduce frame collisions introduced by the hidden node problem.
You can enter a setting ranging from 0 to 2347 bytes.
The fragmentation threshold determines the size at which packets are fragmented (sent as several pieces instead of as one block). Use a low setting in areas where communication is poor or where there is a great deal of radio interference. This function will help you to improve the network performance.
Check it to enable WDS Client function.
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5.6.3 Advanced
User Manual of WNAP-7350
Figure 5-6-6
The page includes the following fields:
Object
Wireless On/Off
AP MAC Address
Packet Aggregate
WMM
Beacon Interval
Description
Click this button to switch the Wireless Radio On or Off.
Display the AP MAC Address of wireless interface.
In a packet-based communications network, packet aggregation is the process of joining multiple packets together into a single transmission unit, in order to reduce the overhead associated with each transmission.
WMM function can guarantee the packets with high-priority messages being transmitted preferentially. It is strongly recommended enabled.
The beacons are the packets sent by the Device to synchronize a wireless network. Beacon Interval value determines the time interval of the beacons. You can specify a value between 20-1000
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milliseconds. The default value is 100.
User Manual of WNAP-7350
DTIM
RTS/CTS
Fragmentation Threshold
Station Control (SSID I)
This value determines the interval of the Delivery Traffic Indication
Message (DTIM). You can specify the value between 1-255
Beacon Intervals. The default value is 1, which indicates the DTIM
Interval is the same as Beacon Interval.
The RTS/CTS mechanism is widely used in wireless networks in order to avoid packet collisions and, thus, achieve high throughput.
This value is the maximum size determining whether packets will be fragmented. Setting the Fragmentation Threshold too low may result in poor network performance since excessive packets. 2346 is the default setting and is recommended.
Fill out the Station Control value of SSID I.
Station Control (SSID II) Fill out the Station Control value of SSID II.
Wireless Isolate
Thresholds, dbm
Isolate all connected wireless stations so that wireless stations cannot access each other through WLAN. This function will be disabled if WDS/Bridge is enabled.
Set the AP to the external LED lights and wireless signal strength received correspondence, when the AP receives the wireless signal, according to the wireless signal strength, the corresponding LED will be lit.
5.6.4 Access Control
Choose menu “Advanced-> Wireless Settings-> Access Control” to configure the filtering rules for the clients would like to associate with Wireless AP.
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Figure 5-6-7
The page includes the following fields:
Object
SSID
Access Control Mode
Description
Select the SSID which you would like to configure access control.
Allow Listed: allow the packets not specified by any access control policy to pass through the AP Router.
Deny Listed: deny the packets not specified by any access control policy to pass through the AP Router.
Configure the MAC Address to apply the access control.
MAC Address
Current Access
Control List
Display the current Access Control List.
5.7 Logout
Select “Logout”, and then click “Yes” to logout the system.
Figure 5-7-1
Figure 5-7-2
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Appendix A: FAQ
A.1 What and how to find my PC’s IP and MAC address?
IP address is the identifier for a computer or device on a TCP/IP network. Networks using the TCP/IP protocol route messages based on the IP address of the destination. The format of an IP address is a 32-bit numeric address written as four numbers separated by periods. Each number can be zero to 255. For example,
191.168.1.254 could be an IP address
The MAC (Media Access Control) address is your computer's unique hardware number. (On an Ethernet LAN, it's the same as your Ethernet address.) When you're connected to the Internet from your computer (or host as the Internet protocol thinks of it), a correspondence table relates your IP address to your computer's physical
(MAC) address on the LAN.
To find your PC’s IP and MAC address,
(1) Open the Command program in the Microsoft Windows.
(2) Type in “ipconfig /all”, then press the Enter button.
(3) Your PC’s IP address is the one entitled IP Address and your PC’s MAC address is the one entitled
Physical Address.
A.2 What is Wireless LAN?
A wireless LAN (WLAN) is a network that allows access to Internet without the need for any wired connections to the user’s machine.
A.3 What are ISM bands?
ISM stands for Industrial, Scientific and Medical; radio frequency bands that the Federal Communications
Commission (FCC) authorized for wireless LANs. The ISM bands are located at 915 +/-13 MHz, 2450 +/-50 MHz and 5800 +/-75 MHz.
A.4 How does wireless networking work?
The 802.11 standard define two modes: infrastructure mode and ad hoc mode. In infrastructure mode, the wireless network consists of at least one access point connected to the wired network infrastructure and a set of wireless end stations. This configuration is called a Basic Service Set (BSS). An Extended Service Set (ESS) is a set of two or more BSSs forming a single sub-network. Since most corporate WLANs require access to the wired LAN for services (file servers, printers, Internet links) they will operate in infrastructure mode.
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Example 1: wireless Infrastructure Mode
Ad hoc mode (also called peer-to-peer mode or an Independent Basic Service Set, or IBSS) is simply a set of
802.11 wireless stations that communicate directly with one another without using an access point or any connection to a wired network. This mode is useful for quickly and easily setting up a wireless network anywhere that a wireless infrastructure does not exist or is not required for services, such as a hotel room, convention center, or airport, or where access to the wired network is barred (such as for consultants at a client site).
Example 2: wireless Ad Hoc Mode
A.5 What is BSSID?
A six-byte address is that distinguish a particular a particular access point from others. Also know as just SSID.
Serve as a network ID or name.
A.6 What is ESSID?
The Extended Service Set ID (ESSID) is the name of the network you want to access. It is used to identify different wireless networks.
A.7 What are potential factors that may causes interference?
Factors of interference:
Obstacles: walls, ceilings, furniture… etc.
Building Materials: metal door, aluminum studs.
Electrical devices: microwaves, monitors and electrical motors.
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Solutions to overcome the interferences:
Minimizing the number of walls and ceilings.
Position the WLAN antenna for best reception.
Keep WLAN devices away from other electrical devices, eg: microwaves, monitors, electric motors…etc.
Add additional WLAN Access Points if necessary.
A.8 What are the Open System and Shared Key authentications?
IEEE 802.11 supports two subtypes of network authentication services: open system and shared key. Under open system authentication, any wireless station can request authentication. The station that needs to authenticate with another wireless station sends an authentication management frame that contains the identity of the sending station. The receiving station then returns a frame that indicates whether it recognizes the sending station. Under shared key authentication, each wireless station is assumed to have received a secret shared key over a secure channel that is independent from the 802.11 wireless network communications channel.
A.9 What is WEP?
An option of IEEE 802.11 function is that offers frame transmission privacy similar to a wired network. The Wired
Equivalent Privacy generates secret shared encryption keys that both source and destination stations can use to alert frame bits to avoid disclosure to eavesdroppers.
WEP relies on a secret key that is shared between a mobile station (e.g. a laptop with a wireless Ethernet card) and an access point (i.e. a base station). The secret key is used to encrypt packets before they are transmitted, and an integrity check is used to ensure that packets are not modified in transit.
A.10 What is Fragment Threshold?
The proposed protocol uses the frame fragmentation mechanism defined in IEEE 802.11 to achieve parallel transmissions. A large data frame is fragmented into several fragments each of size equal to fragment threshold.
By tuning the fragment threshold value, we can get varying fragment sizes. The determination of an efficient fragment threshold is an important issue in this scheme. If the fragment threshold is small, the overlap part of the master and parallel transmissions is large. This means the spatial reuse ratio of parallel transmissions is high. In contrast, with a large fragment threshold, the overlap is small and the spatial reuse ratio is low. However high fragment threshold leads to low fragment overhead. Hence there is a trade-off between spatial re-use and fragment overhead.
Fragment threshold is the maximum packet size used for fragmentation. Packets larger than the size programmed in this field will be fragmented.
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If you find that your corrupted packets or asymmetric packet reception (all send packets, for example). You may want to try lowering your fragmentation threshold. This will cause packets to be broken into smaller fragments.
These small fragments, if corrupted, can be resent faster than a larger fragment. Fragmentation increases overhead, so you'll want to keep this value as close to the maximum value as possible.
A11. What is RTS (Request to Send) Threshold?
The RTS threshold is the packet size at which packet transmission is governed by the RTS/CTS transaction. The
IEEE 802.11-1997 standard allows for short packets to be transmitted without RTS/ CTS transactions. Each station can have a different RTS threshold. RTS/CTS is used when the data packet size exceeds the defined
RTS threshold. With the CSMA/CA transmission mechanism, the transmitting station sends out an RTS packet to the receiving station, and waits for the receiving station to send back a CTS (Clear to Send) packet before sending the actual packet data.
This setting is useful for networks with many clients. With many clients, and a high network load, there will be many more collisions. By lowering the RTS threshold, there may be fewer collisions, and performance should improve. Basically, with a faster RTS threshold, the system can recover from problems faster. RTS packets consume valuable bandwidth, however, so setting this value too low will limit performance.
A12. What is Beacon Interval?
In addition to data frames that carry information from higher layers, 802.11 include management and control frames that support data transfer. The beacon frame, which is a type of management frame, provides the
"heartbeat" of a wireless LAN, enabling stations to establish and maintain communications in an orderly fashion.
Beacon Interval represents the amount of time between beacon transmissions. Before a station enters power save mode, the station needs the beacon interval to know when to wake up to receive the beacon (and learn whether there are buffered frames at the access point).
A13. What is Preamble Type?
There are two preamble types defined in IEEE 802.11 specification. A long preamble basically gives the decoder more time to process the preamble. All 802.11 devices support a long preamble. The short preamble is designed to improve efficiency (for example, for VoIP systems). The difference between the two is in the Synchronization field. The long preamble is 128 bits, and the short is 56 bits.
A14. What is SSID Broadcast?
Broadcast of SSID is done in access points by the beacon. This announces your access point (including various bits of information about it) to the wireless world around it. By disabling that feature, the SSID configured in the client must match the SSID of the access point.
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Some wireless devices don't work properly if SSID isn't broadcast (for example the D-link DWL-120 USB
802.11b adapter). Generally if your client hardware supports operation with SSID disabled, it's not a bad idea to run that way to enhance network security. However it's no replacement for WEP, MAC filtering or other protections.
A15. What is Wi-Fi Protected Access (WPA)?
Wi-Fi’s original security mechanism, Wired Equivalent Privacy (WEP), has been viewed as insufficient for securing confidential business communications. A longer-term solution, the IEEE 802.11i standard, is under development. However, since the IEEE 802.11i standard is not expected to be published until the end of 2003, several members of the WI-Fi Alliance teamed up with members of the IEEE 802.11i task group to develop a significant near-term enhancement to Wi-Fi security. Together, this team developed Wi-Fi Protected Access.
To upgrade a WLAN network to support WPA, Access Points will require a WPA software upgrade. Clients will require a software upgrade for the network interface card, and possibly a software update for the operating system. For enterprise networks, an authentication server, typically one that supports RADIUS and the selected
EAP authentication protocol, will be added to the network.
A16. What is WPA2?
It is the second generation of WPA. WPA2 is based on the final IEEE 802.11i amendment to the 802.11 standard.
A17. What is 802.1x Authentication?
802.1x is a framework for authenticated MAC-level access control, defines Extensible Authentication Protocol
(EAP) over LANs (WAPOL). The standard encapsulates and leverages much of EAP, which was defined for dial-up authentication with Point-to-Point Protocol in RFC 2284.
Beyond encapsulating EAP packets, the 802.1x standard also defines EAPOL messages that convey the shared key information critical for wireless security.
A18. What is Temporal Key Integrity Protocol (TKIP)?
The Temporal Key Integrity Protocol, pronounced tee-kip, is part of the IEEE 802.11i encryption standard for wireless LANs. TKIP is the next generation of WEP, the Wired Equivalency Protocol, which is used to secure
802.11 wireless LANs. TKIP provides per-packet key mixing, a message integrity check and a re-keying mechanism, thus fixing the flaws of WEP.
A19. What is Advanced Encryption Standard (AES)?
Security issues are a major concern for wireless LANs, AES is the U.S. government’s next-generation cryptography algorithm, which will replace DES and 3DES.
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A20. What is Inter-Access Point Protocol (IAPP)?
The IEEE 802.11f Inter-Access Point Protocol (IAPP) supports Access Point Vendor interoperability, enabling roaming of 802.11 Stations within IP subnet.
IAPP defines messages and data to be exchanged between Access Points and between the IAPP and high layer management entities to support roaming. The IAPP protocol uses TCP for inter-Access Point communication and UDP for RADIUS request/response exchanges. It also uses Layer 2 frames to update the forwarding tables of Layer 2 devices.
A21. What is Wireless Distribution System (WDS)?
The Wireless Distribution System feature allows WLAN AP to talk directly to other APs via wireless channel, like the wireless WDS or repeater service.
A22. What is Universal Plug and Play (UPnP)?
UPnP is an open networking architecture that consists of services, devices, and control points. The ultimate goal is to allow data communication among all UPnP devices regardless of media, operating system, programming language, and wired/wireless connection.
A23. What is Maximum Transmission Unit (MTU) Size?
Maximum Transmission Unit (MTU) indicates the network stack of any packet is larger than this value will be fragmented before the transmission. During the PPP negotiation, the peer of the PPP connection will indicate its
MRU and will be accepted. The actual MTU of the PPP connection will be set to the smaller one of MTU and the peer’s MRU.
A24. What is Clone MAC Address?
Clone MAC address is designed for your special application that request the clients to register to a server machine with one identified MAC address. Since that all the clients will communicate outside world through the
WLAN Broadband Router, so have the cloned MAC address set on the WLAN Broadband Router will solve the issue.
A25. What is DDNS?
DDNS is the abbreviation of Dynamic Domain Name Server. It is designed for user owned the DNS server with dynamic WAN IP address.
A26. What is NTP Client?
NTP client is designed for fetching the current timestamp from internet via Network Time protocol. User can specify time zone, NTP server IP address.
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A27. What is VPN?
VPN is the abbreviation of Virtual Private Network. It is designed for creating point-to point private link via shared or public network.
A28. What is IPSEC?
IPSEC is the abbreviation of IP Security. It is used to transferring data securely under VPN.
A29. What is WLAN Block Relay between Clients?
An Infrastructure Basic Service Set is a BSS with a component called an Access Point (AP). The access point provides a local relay function for the BSS. All stations in the BSS communicate with the access point and no longer communicate directly. All frames are relayed between stations by the access point. This local relay function effectively doubles the range of the IBSS.
A30. What is WMM?
WMM is based on a subset of the IEEE 802.11e WLAN QoS draft standard. WMM adds prioritized capabilities to
Wi-Fi networks and optimizes their performance when multiple concurring applications, each with different latency and throughput requirements, compete for network resources. By using WMM, end-user satisfaction is maintained in a wider variety of environments and traffic conditions. WMM makes it possible for home network users and enterprise network managers to decide which data streams are most important and assign them a higher traffic priority.
A31. What is WLAN ACK TIMEOUT?
ACK frame has to receive ACK timeout frame. If remote does not receive in specified period, it will be retransmitted.
A32. What is Modulation Coding Scheme (MCS)?
MCS is Wireless link data rate for 802.11n. The throughput/range performance of an AP will depend on its implementation of coding schemes. MCS includes variables such as the number of spatial streams, modulation, and the data rate on each stream. Radios establishing and maintaining a link must automatically negotiate the optimum MCS based on channel conditions and then continuously adjust the selection of MCS as conditions change due to interference, motion, fading, and other events.
A33. What is Frame Aggregation?
Every 802.11 packet, no matter how small, has a fixed amount of overhead associated with it. Frame
Aggregation combines multiple smaller packets together to form one larger packet. The larger packet can be sent without the overhead of the individual packets. This technique helps improve the efficiency of the 802.11n radio allowing more end user data to be sent in a given time.
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User Manual of WNAP-7350
A34. What is Guard Intervals (GI)?
A GI is a period of time between symbol transmission that allows reflections (from multipath) from the previous data transmission to settle before transmitting a new symbol. The 802.11n specifies two guard intervals: 400ns
(short) and 800ns (long). Support of the 400ns GI is optional for transmit and receive. The purpose of a guard interval is to introduce immunity to propagation delays, echoes, and reflections to which digital data is normally very sensitive.
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Appendix B: Configuring the PC in Windows 7
In this section, we’ll introduce how to configure the TCP/IP correctly in Windows 7. First make sure your Network
Adapter is working, refer to the adapter’s manual if needed.
1) On the Windows taskbar, click the Start button, and then click Control Panel. side of the screen.
Figure B-1
3) Right click the icon of the network adapter shown in the figure below, and select Properties on the prompt window.
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Figure B-2
4) In the prompt page shown below, double click on the Internet Protocol Version 4 (TCP/IPv4).
Figure B-3
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User Manual of WNAP-7350
by default.
Now you can configure the TCP/IP protocol below:
Setting IP address manually
1
Select Use the following IP address radio button.
2
If the AP's LAN IP address is 192.168.1.1, type in IP address 192.168.1.x (x is from 2 to 254), and Subnet
mask 255.255.255.0.
3 Select Use the following DNS server addresses radio button. In the Preferred DNS Server field you can type the DNS server IP address which has been provided by your ISP
Now click OK to keep your settings.
Figure B-4
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User Manual of WNAP-7350
Appendix C: Use Planet Smart Discovery to find AP
For easily discover the WNAP-7350 in your Ethernet environment, the Planet Smart Discovery Utility from user’s manual CD-ROM is an ideal solution.
The following install instructions guiding you to run the Planet Smart Discovery Utility.
Step 1: Deposit the Planet Smart Discovery Utility in administrator PC.
Step 2: Execute this utility.
Step 3: Click “Refresh” button to update the current connected devices list, the screen is shown as follow.
Figure C-1
Step 3: Select the WNAP-7350 from the list, and then click “Connect to Device” button to login the Web
Management Configuration Page.
The fields in white background can be modified directly, and then you can apply the new setting by clicking the “Update Device” button.
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Appendix D: Specifications
Product
WNAP-7350
5GHz 300Mbps 802.11a/n Wireless Outdoor Access Point
Hardware Specifications
Standard support
Memory
Interface
Antenna
IEEE 802.11a/n Wireless LAN
IEEE 802.11i Wireless Security
IEEE 802.3 10Base-T Ethernet
IEEE 802.3u 100Base-TX Ethernet
IEEE 802.3x Flow Control
IEEE 802.3af Power over Ethernet / PD
32 Mbytes DDR SDRAM
8 Mbytes Flash
Wireless IEEE 802.11a/n, 2T2R
LAN: 1 x 10/100Base-TX, Auto-MDI/MDIX, IEEE 802.3af PoE/PD port
WAN: 1 x 10/100Base-TX, Auto-MDI/MDIX, Passive PoE/PSE port up to 7W
N-Type Female connectors x 2
Wireless RF Specifications
Wireless Technology
Modulation
Frequency Band
IEEE 802.11a
IEEE 802.11n
Data Rate
IEEE 802.11a: 54, 48, 36, 24, 18, 12, 9 and 6Mbps
IEEE 802.11n (20MHz): up to 150Mbps
IEEE 802.11n (40MHz): up to 300Mbp
Media Access Control
CSMA / CA
Transmission / Emission Type: OFDM
Data modulation type: OFDM with BPSK, QPSK, 16-QAM, 64-QAM
5.180GHz ~ 5.825GHz
Operating Channel
5.180GHz CH36 5.580GHz CH116
5.200GHz CH40 5.600GHz CH120
5.220GHz CH44 5.620GHz CH124
5.240GHz CH48 5.640GHz CH128
5.260GHz CH52 5.660GHz CH132
5.280GHz CH56 5.680GHz CH136
5.300GHz CH60 5.700GHz CH140
5.320GHz CH64 5.745GHz CH149
RF Output Power
5.500GHz CH100 5.765GHz CH153
5.520GHz CH104 5.785GHz CH157
5.540GHz CH108 5.805GHz CH161
5.560GHz CH112 5.825GHz CH165
*The above 24 channels are defined in theory. The actual application will vary depends on the regulation in different regions and countries.
IEEE 802.11a: 27 ± 1dBm
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User Manual of WNAP-7350
Receiver Sensitivity
IEEE 802.11n: 24 ± 1dBm
IEEE 802.11a: -91dBm
IEEE 802.11n: -92dBm
Output Power Control
3~27dBm
Software Features
LAN
WAN
Built-in DHCP server supporting static IP address distributing
Supports 802.1d STP (Spanning Tree)
Static IP
Dynamic IP
PPPoE
PPTP
L2TP
IPSec
Operating Mode
Firewall
Wireless Mode
Channel Width
Wireless Isolation
Bridge
Gateway
WISP
NAT firewall with SPI (Stateful Packet Inspection)
Built-in NAT server supporting Virtual Server and DMZ
Built-in firewall with Port / IP address / MAC / URL filtering
AP
Client
WDS PTP
WDS PTMP
WDS Repeater (AP+WDS)
20MHz / 40MHz
Enable it to isolate each connected wireless clients from communicating with each other mutually.
64/128-bits WEP, WPA, WPA-PSK, WPA2, WPA2-PSK, 802.1X
Encryption Type
Wireless Security
Provides wireless LAN ACL (Access Control List) filtering
Wireless MAC address filtering
Supports WPS (WIFI Protected Setup )
Enable / Disable SSID Broadcast
Multiple SSID
Up to 2
Max. Wireless Client
40
Max. WDS AP
8
Max. Wired Client
60
WMM
QoS
NTP
Management
Diagnostic tool
Mechanical & Power
Supports Wi-Fi Multimedia
Supports Quality of Service for bandwidth control
Network Time Management
Web UI, DHCP Client, Configuration Backup & Restore, Dynamic DNS, SNMP
System Log, Ping Watchdog
IP Rate
IP67
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User Manual of WNAP-7350
Material
Aluminum
Dimension (W x D x H)
239 x 269 x 80mm
Weight
Installation
2.4kg
Pole mounting or Wall mounting
Power Requirements
Power Consumption
AP: IEEE 802.3af PoE / 48VDC input (PoE Injector included)
PoE Injector: 100~240VAC
7.68W
Environment & Certification
Operation Temperature
-30~75 C
Operating Humidity
10~95% non-condensing
Regulatory
Accessory
CE / RoHS
Standard Accessories
48VDC 802.3af PoE injector & Power cord x 1
Mounting Kit x 1
Waterproof RJ-45 Connector Kit x 2
Quick Installation Guide x 1
CD (User’s Manual, Quick Installation Guide) x 1
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EC Declaration of Conformity
For the following equipment:
*Type of Product :
5GHz 802.11a/n 300Mbps Wireless LAN Outdoor AP/Router with Industrial IP67 Enclosure (2x N-type connector)
*Model Number :
WNAP-7350
* Produced by:
Manufacturer’s Name : Planet Technology Corp.
Manufacturer’s Address: 10F., No.96, Minquan Rd., Xindian Dist.,
New Taipei City 231, Taiwan (R.O.C.) is herewith confirmed to comply with the requirements set out in the Council Directive on the
Approximation of the Laws of the Member States relating to
1999/5/EC R&TTE.
For the evaluation regarding the R&TTE the following standards were applied:
EN 60950-1
EN 301 893 V1.5.1
(2006 + A11: 2009 + A1:2010 + A12:2011)
(2008-12)
EN 301 489-1 V1.8.1 (2008-04)
(2009-05) EN 301 489-17 V2.1.1
Responsible for marking this declaration if the:
Manufacturer
Authorized representative established within the EU
Authorized representative established within the EU (if applicable):
Company Name: Planet Technology Corp.
Company Address: 10F., No.96, Minquan Rd., Xindian Dist., New Taipei City 231, Taiwan
(R.O.C.)
Person responsible for making this declaration
Name, Surname Kent Kang
Position / Title : Product Manager
Taiwan
Place
12 th
Nov., 2012
Date Legal Signature
PLANET TECHNOLOGY CORPORATION
e-mail: [email protected] http://www.planet.com.tw
10F., No.96, Minquan Rd., Xindian Dist., New Taipei City, Taiwan, R.O.C. Tel:886-2-2219-9518 Fax:886-2-2219-9528
User Manual of WNAP-7350
EC Declaration of Conformity
English
Česky
Dansk
Deutsch
Eestikeeles
Ελληνικά
Español
Français
Italiano
Latviski
Hereby, PLANET Technology Corporation, declares that this 300Mbps 802.11a/n Wireless
Outdoor AP/Router is in compliance with the essential requirements and other relevant provisions of Directive 1999/5/EC.
Společnost PLANET Technology Corporation, tímto prohlašuje, že tato 300Mbps 802.11a/n
Wireless Outdoor AP/Router splňuje základní požadavky a další příslušná ustanovení směrnice
1999/5/EC.
PLANET Technology Corporation, erklærer herved, at følgende udstyr 300Mbps 802.11a/n
Wireless Outdoor AP/Router overholder de væsentlige krav og øvrige relevante krav i direktiv
1999/5/EF
Hiermit erklärt PLANET Technology Corporation, dass sich dieses Gerät 300Mbps 802.11a/n
Wireless Outdoor AP/Router in Übereinstimmung mit den grundlegenden Anforderungen und den anderen relevanten
Vorschriften der Richtlinie 1999/5/EG befindet".
(BMWi)
Käesolevaga kinnitab PLANET Technology
Corporation, et see 300Mbps 802.11a/n Wireless
Outdoor AP/Router vastab Euroopa Nõukogu direktiivi 1999/5/EC põhinõuetele ja muudele olulistele tingimustele.
Lietuviškai
Magyar
Malti
Nederlands
Polski
ΜΕ ΤΗΝ ΠΑΡΟΥΣΑ , PLANET Technology
Corporation, ΔΗΛΩΝΕΙ ΟΤΙ ΑΥΤΟ 300Mbps
802.11a/n Wireless Outdoor
AP/RouterΣΥΜΜΟΡΦΩΝΕΤΑΙ ΠΡΟΣ ΤΙΣ
ΟΥΣΙΩΔΕΙΣ ΑΠΑΙΤΗΣΕΙΣ ΚΑΙ ΤΙΣ ΛΟΙΠΕΣ
ΣΧΕΤΙΚΕΣ ΔΙΑΤΑΞΕΙΣ ΤΗΣ ΟΔΗΓΙΑΣ 1999/5/ΕΚ
Por medio de la presente, PLANET Technology
Corporation, declara que 300Mbps 802.11a/n
Wireless Outdoor AP/Router cumple con los requisitos esenciales y cualesquiera otras disposiciones aplicables o exigibles de la Directiva 1999/5/CE
Par la présente, PLANET Technology
Corporation, déclare que les appareils du
300Mbps 802.11a/n Wireless Outdoor AP/Router
sont conformes aux exigences essentielles et aux autres dispositions pertinentes de la directive
1999/5/CE
Con la presente , PLANET Technology
Corporation, dichiara che questo 300Mbps
802.11a/n Wireless Outdoor AP/Router è conforme ai requisiti essenziali ed alle altre disposizioni pertinenti stabilite dalla direttiva
1999/5/CE.
Ar šo PLANET Technology Corporation, apliecina, ka šī 300Mbps 802.11a/n Wireless
Outdoor AP/Router atbilst Direktīvas 1999/5/EK pamatprasībām un citiem atbilstošiem noteikumiem.
Português
Slovensky
Slovensko
Suomi
Svenska
Šiuo PLANET Technology Corporation,, skelbia, kad 300Mbps 802.11a/n Wireless Outdoor
AP/Router tenkina visus svarbiausius 1999/5/EC direktyvos reikalavimus ir kitas svarbias nuostatas.
A gyártó PLANET Technology Corporation, kijelenti, hogy ez a 300Mbps 802.11a/n Wireless Outdoor
AP/Router megfelel az 1999/5/EK irányelv alapkövetelményeinek és a kapcsolódó rendelkezéseknek.
Hawnhekk, PLANET Technology Corporation, jiddikjara li dan 300Mbps 802.11a/n Wireless
Outdoor AP/Router jikkonforma mal-ħtiġijiet essenzjali u ma provvedimenti oħrajn relevanti li hemm fid-Dirrettiva 1999/5/EC
Hierbij verklaart , PLANET Technology orporation, dat 300Mbps 802.11a/n Wireless Outdoor
AP/Router in overeenstemming is met de essentiële eisen en de andere relevante bepalingen van richtlijn
1999/5/EG
Niniejszym firma PLANET Technology Corporation, oświadcza, że 300Mbps 802.11a/n Wireless
Outdoor AP/Router spełnia wszystkie istotne wymogi i klauzule zawarte w dokumencie „Directive
1999/5/EC”.
PLANET Technology Corporation, declara que este
300Mbps 802.11a/n Wireless Outdoor AP/Router está conforme com os requisitos essenciais e outras disposições da Directiva 1999/5/CE.
Výrobca PLANET Technology Corporation, týmto deklaruje, že táto 300Mbps 802.11a/n Wireless
Outdoor AP/Router je v súlade so základnými požiadavkami a ďalšími relevantnými predpismi smernice 1999/5/EC.
PLANET Technology Corporation, s tem potrjuje, da je ta 300Mbps 802.11a/n Wireless Outdoor
AP/Router skladen/a z osnovnimi zahtevami in ustreznimi določili Direktive 1999/5/EC.
PLANET Technology Corporation, vakuuttaa täten että 300Mbps 802.11a/n Wireless Outdoor
AP/Router tyyppinen laite on direktiivin 1999/5/EY oleellisten vaatimusten ja sitä koskevien direktiivin muiden ehtojen mukainen.
Härmed intygar, PLANET Technology Corporation, att denna 300Mbps 802.11a/n Wireless Outdoor
AP/Router står i överensstämmelse med de väsentliga egenskapskrav och övriga relevanta bestämmelser som framgår av direktiv 1999/5/EG.
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Table of contents
- 8 Chapter 1. Product Introduction
- 8 1.1 Package Contents
- 9 1.2 Product Description
- 13 1.3 Product Features
- 14 1.4 Product Specification
- 17 Chapter 2. Hardware Installation
- 17 2.1 Hardware Description
- 17 2.1.1 The Rear Panel
- 19 Chapter 3. Connecting to the AP
- 19 3.1 Preparation before Installation
- 19 3.1.1 Professional Installation Required
- 19 3.1.1 Safety Precautions
- 19 3.2 Installation Precautions
- 21 3.3 Installing the AP
- 24 Chapter 4. Quick Installation Guide
- 24 4.1 Manual Network Setup - TCP/IP Configuration
- 24 4.1.1 Configure the IP Address Manually
- 28 4.2 Starting Setup in the Web UI
- 30 Chapter 5. Configuring the AP
- 30 5.1 Status
- 33 5.2 Easy Setup
- 34 5.3 Advanced
- 34 5.3.1 Advanced - Management
- 35 5.3.1.1. Web Interface Settings (Password)
- 35 5.3.1.2. Firmware Upgrade
- 36 5.3.1.3. Configuration
- 37 5.3.1.4. Load Factory Defaults
- 37 5.3.1.5. Reboot System
- 38 5.3.1.6. Scheduling Reboot
- 38 5.3.2 Advanced – Advanced Settings
- 39 5.3.2.1. Time Zone Settings
- 39 5.3.2.2. DDNS Settings
- 41 5.3.2.3. UPNP Settings
- 42 5.3.2.4. SNMP Settings
- 43 5.3.3 Advanced – Operation Mode
- 43 5.3.3.1. AP Router (AP+Router)
- 44 5.3.3.2. AP Bridge (AP+WDS)
- 45 5.3.3.3. Client Router (WISP)
- 49 5.3.3.4. Client Bridge (Slave AP Bridge)
- 49 5.3.4 Advanced – System Log
- 50 5.3.5 Advanced – Tools
- 50 5.3.5.1. Ping
- 51 5.3.5.2. Traceroute
- 51 5.3.5.3. Throughput
- 52 5.4 Firewall Settings
- 52 5.4.1 MAC/IP/Port Filtering
- 53 5.4.2 Virtual Server
- 54 5.4.3 DMZ
- 55 5.4.4 Firewall
- 56 5.4.5 QoS
- 57 5.4.6 Content Filtering
- 57 5.4.6.1. Webs URL Filter Settings
- 58 5.4.6.2. Web Host Filter Settings
- 58 5.5 Network Settings
- 58 5.5.1 WAN
- 59 5.5.1.1. Static (Fixed IP)
- 60 5.5.1.2. Cable/Dynamic IP (DHCP)
- 60 5.5.1.3. PPPoE (ADSL)
- 61 5.5.1.4. IPSEC
- 65 5.5.1.5. PPTP
- 66 5.5.1.6. L2TP
- 67 5.5.2 LAN
- 68 5.5.2.1. DHCP Server
- 68 5.5.2.2. DHCP Relay
- 69 5.5.3 VLAN
- 70 5.5.4 Advanced Routing
- 71 5.5.5 IPv6
- 72 5.6 Wireless Settings
- 72 5.6.1 Basic
- 72 5.6.1.1. Wireless Mode – Access Point
- 74 5.6.1.2. Wireless Mode – WDS Access Point
- 76 5.6.1.3. Wireless Mode – WDS Repeater
- 78 5.6.1.4. Wireless Mode – WDS Client
- 80 5.6.2 Profile Settings
- 82 5.6.3 Advanced
- 83 5.6.4 Access Control
- 84 5.7 Logout
- 85 Appendix A: FAQ
- 85 A.1 What and how to find my PC’s IP and MAC address?
- 85 A.2 What is Wireless LAN?
- 85 A.3 What are ISM bands?
- 85 A.4 How does wireless networking work?
- 86 A.5 What is BSSID?
- 86 A.6 What is ESSID?
- 86 A.7 What are potential factors that may causes interference?
- 87 A.8 What are the Open System and Shared Key authentications?
- 87 A.9 What is WEP?
- 87 A.10 What is Fragment Threshold?
- 88 A11. What is RTS (Request to Send) Threshold?
- 88 A12. What is Beacon Interval?
- 88 A13. What is Preamble Type?
- 88 A14. What is SSID Broadcast?
- 89 A15. What is Wi-Fi Protected Access (WPA)?
- 89 A16. What is WPA2?
- 89 A17. What is 802.1x Authentication?
- 89 A18. What is Temporal Key Integrity Protocol (TKIP)?
- 89 A19. What is Advanced Encryption Standard (AES)?
- 90 A20. What is Inter-Access Point Protocol (IAPP)?
- 90 A21. What is Wireless Distribution System (WDS)?
- 90 A22. What is Universal Plug and Play (UPnP)?
- 90 A23. What is Maximum Transmission Unit (MTU) Size?
- 90 A24. What is Clone MAC Address?
- 90 A25. What is DDNS?
- 90 A26. What is NTP Client?
- 91 A27. What is VPN?
- 91 A28. What is IPSEC?
- 91 A29. What is WLAN Block Relay between Clients?
- 91 A30. What is WMM?
- 91 A31. What is WLAN ACK TIMEOUT?
- 91 A32. What is Modulation Coding Scheme (MCS)?
- 91 A33. What is Frame Aggregation?
- 92 A34. What is Guard Intervals (GI)?
- 93 Appendix B: Configuring the PC in Windows 7
- 96 Appendix C: Use Planet Smart Discovery to find AP
- 97 Appendix D: Specifications
- 100 EC Declaration of Conformity