X-Micro Tech IEEE 802.11b user manual Are Continuous, Connect on Demand and Manual three

Page 28

USER’S MANUAL OF X-MICRO WLAN 11b BROADBAND ROUTER

Version: 2.6

 

 

 

 

PPPoE

Click to select PPPoE support on WAN interface. There

 

are user name, password, connection type and idle time

 

settings need to be done.

 

 

User Name

If you select the PPPoE support on WAN interface, fill in

 

the user name and password to login the PPPoE server.

Password

If you select the PPPoE support on WAN interface, fill in

 

the user name and password to login the PPPoE server.

Connection Type

Select the connection type from pull-down menu. There

 

are Continuous, Connect on Demand and Manual three

 

types to select.

 

 

 

Continuous connection type means to setup the

 

 

 

connection through PPPoE protocol whenever this

 

X-Micro WLAN 11b Broadband Router is powered on.

 

Connect on Demand connection type means to setup the

 

connection through PPPoE protocol whenever you send

 

the data packets out through the WAN interface; there are

 

a watchdog implemented to close the PPPoE connection

 

while there are no data sent out longer than the idle time

 

set.

 

 

 

Manual connection type means to setup the connection

 

through the PPPoE protocol by clicking the Connect

 

button manually, and clicking the Disconnect button

 

manually.

 

 

Idle Time

If you select the PPPoE and Connect on Demand

 

connection type, fill in the idle time for auto-disconnect

 

function. Value can be between 1 and 1000 minutes.

MTU Size

Fill in the mtu size of MTU Size. The default value is

 

1400. Refer to 4.22 What is Maximum Transmission

 

 

 

 

 

 

Unit (MTU) Size?

 

 

Attain DNS

Click to select getting DNS address for PPPoE support.

Automatically

Please select Set DNS Manually if the PPPoE support is

 

selected.

 

 

Set DNS Manually

Click to select getting DNS address for Static IP support.

DNS 1

Fill in the IP address of Domain Name Server 1.

 

 

DNS 2

Fill in the IP address of Domain Name Server 2.

 

 

DNS 3

Fill in the IP address of Domain Name Server 3.

 

 

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Contents Ieee 802.11b Wlan 11b Broadband Router Ieee 802.11b Trademarks Terminology Table of Contents Frequently Asked Questions FAQ Package contents Product SpecificationsProduct Features Front Panel DescriptionWAN ACT LED Antenna Reset WAN LAN Power Rear Panel DescriptionHardware Installation Software InstallationSoftware configuration For OS of Microsoft Windows NT Connect to the X-Micro Wlan 11b Broadband Router DescriptionBssid Wireless Basic Settings Wireless Advanced Settings Shared Key or Auto selectionWireless Security Setup Click to select the Long Preamble or Short PreambleTKIP? Screen snapshot Set WEP Key Wireless Access Control ItemDescriptionWDS Setup LAN Interface Setup Screen snapshot LAN Interface Setup WAN Interface Setup Static IPDNS Address assigned automatically from a Dhcp server Are Continuous, Connect on Demand and Manual three If you select the PPPoE and Connect on DemandPPTPOnly in Firmware-1.6x Firewall Port Filtering Protocol CommentsFirewall IP Filtering Firewall MAC Filtering Firewall Port Forwarding Port Range Firewall DMZComment Statistics DMZ Host IP AddressUpgrade Firmware Sent PacketsSave/ Reload Settings Select FilePassword Setup User Name What and how to find my PC’s IP and MAC address? What is Wireless LAN?How does wireless networking work? What are ISM bands?What is BSSID? What is ESSID?What are the Open System and Shared Key authentications? What is WEP?What is RTS Request To Send Threshold? What is Beacon Interval?What is Ssid Broadcast? What is Preamble Type?What is Wi-Fi Protected Access WPA? What is 802.1x Authentication? What is Temporal Key Integrity Protocol TKIP?What is Advanced Encryption Standard AES? What is Inter-Access Point Protocol IAPP?What is Maximum Transmission Unit MTU Size? What is Universal Plug and Play uPNP?What is Clone MAC Address?

IEEE 802.11b specifications

X-Micro Tech's IEEE 802.11b standard represents a significant advancement in wireless networking technology, forming part of the IEEE 802.11 family designated for wireless local area networks (WLAN). Introduced in the late 1990s, the 802.11b standard was a precursor to modern wireless technologies, bringing considerable improvements in speed, range, and reliability.

One of the main features of IEEE 802.11b is its data transmission capability, achieving speeds of up to 11 Mbps. While this may seem modest by today's standards, it was a groundbreaking advancement that allowed users to access the internet and share files wirelessly at previously unattainable speeds. Additionally, 802.11b supports lower data rates—5.5 Mbps and 2 Mbps—which enhance reliability and range, allowing devices further from the access point to maintain connections.

The technology operates in the 2.4 GHz frequency band, a characteristic that facilitates better penetration through walls and physical barriers. However, this frequency band is also shared with other appliances, such as microwaves and Bluetooth devices, which can lead to interference. Despite this, the standard incorporates a robust form of modulation, specifically complementary code keying (CCK), which enhances its resilience against such interference.

Another significant aspect of IEEE 802.11b is its capacity for extended range. Under optimal conditions, devices can communicate over distances of up to 300 feet indoors and up to 1,000 feet outdoors. This extended range was particularly useful in homes and offices, promoting seamless integration of devices into networks without the cumbersome wiring typically associated with traditional networking.

Security has always been a critical concern in wireless communications. IEEE 802.11b introduced Wired Equivalent Privacy (WEP) for basic data protection. However, limitations in WEP led to the development of more secure protocols such as WPA and WPA2 in later iterations of wireless standards.

In summary, X-Micro Tech's IEEE 802.11b standard laid the groundwork for modern wireless networking. Its key features, such as a maximum data rate of 11 Mbps, compatibility with the 2.4 GHz frequency band, and extended range capabilities, revolutionized network access in homes and businesses. Even as technology has evolved, the impact of 802.11b can still be felt, serving as a building block for subsequent wireless advancements, making it a significant milestone in the history of networking technology.
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