Realtek driver for RTL8188EE and Windows 10 64bit. A complete list of available wireless device drivers for Realtek RTL8188EE.On this page, you will find all available drivers listed by release date for the Windows 10 64bit operating system. Wireless LAN routers offer strong benefits in the home and small office setting. For example, you can subscribe to a cable modem service that provides a single IP address through DHCP to the router, and the router then provides IP addresses through DHCP to clients on your local network. The package provides the installation files for Realtek RTL8188EE 802.11 bgn Wi-Fi Adapter Driver version 2023.35.517.2016. If the driver is already installed on your system, updating (overwrite-installing) may fix various issues, add new functions, or just upgrade to the available version.
Introduction
A wireless local area network (WLAN) is a local areanetwork (LAN) that doesn't rely on wired Ethernetconnections. A WLAN can be either an extension to a current wirednetwork or an alternative to it.
WLANs have data transfer speeds ranging from 1 to 54Mbps, with somemanufacturers offering proprietary 108Mbps solutions. The 802.11nstandard can reach 300 to 600Mbps.
Tora driver download for windows. Because the wireless signal is broadcast so everybody nearby canshare it, several security precautions are necessary to ensure onlyauthorized users can access your WLAN.
A WLAN signal can be broadcast to cover an area ranging in sizefrom a small office to a large campus. Most commonly, a WLAN accesspoint provides access within a radius of 65 to 300 feet.
WLAN types
Private home or small business WLAN
Commonly, a home or business WLAN employs one or two access pointsto broadcast a signal around a 100- to 200-foot radius. You can findequipment for installing a home WLAN in many retail stores.
With few exceptions, hardware in this category subscribes to the802.11a, b, or g standards (also known as Wi-Fi); some homeand office WLANs now adhere to the new 802.11n standard. Also, becauseof security concerns, many home and office WLANs adhere to the Wi-FiProtected Access 2 (WPA2) standard.
Enterprise class WLAN
An enterprise class WLAN employs a large number of individualaccess points to broadcast the signal to a wide area. The accesspoints have more features than home or small office WLAN equipment,such as better security, authentication, remote management,and tools to help integrate with existing networks. These accesspoints have a larger coverage area than home or small officeequipment, and are designed to work together to cover a much largerarea. This equipment can adhere to the 802.11a, b, g, or n standard,or to security-refining standards, such as 802.1x and WPA2.
WLAN standards
Several standards for WLAN hardware exist:
| WLAN standard | Pros | Cons |
|---|---|---|
| 802.11a |
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| 802.11b |
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| 802.11g |
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| 802.11n | The 802.11n standard was recently ratified by theInstitute of Electrical and Electronics Engineers (IEEE), as compared to theprevious three standards. Though specifications may change, it isexpected to allow data transfer rates up to 600Mbps, and may offerlarger ranges. | |
Security standards
The 802.11x standards provide some basic security, but are becomingless adequate as use of wireless networking spreads. Following aresecurity standards that extend or replace the basic standard:
WEP (Wired Equivalent Privacy)
WEP encrypts data traffic between the wireless access point and theclient computer, but doesn't actually secure either end of thetransmission. WEP's encryption level is relatively weak (only 40 to128 bits). Many analysts consider WEP security to be weakand easy to crack.
WPA (Wi-Fi Protected Access)
WPA implements higher security and addresses the flaws in WEP, butis intended to be only an intermediate measure until further 802.11isecurity measures are developed.
802.1x
This standard is part of a full WPA security standard. WPA consistsof a pair of smaller standards that address different aspects ofsecurity:
- TKIP (Temporal Key Integrity Protocol encryption), which encryptsthe wireless signal
- 802.1x, which handles the authentication of users to the network
Commonly, wireless systems have you log into individual wirelessaccess points or let you access the wireless network, but then keepyou from accessing network data until you provide furtherauthentication (e.g., VPN).
802.1x makes you authenticate to the wireless network itself, notan individual access point, and not to some other level, such asVPN. This boosts security, because unauthorized traffic can be deniedright at the wireless access point.
WPA2/802.11i
The Wi-Fi Alliances coinedthe term 'WPA2' for easy use by manufacturers, technicians, and endusers. However, the IEEE name of the standard itself is802.11i. The encryption level is so high that it requires dedicatedchips on the hardware to handle it.
In practical use, WPA2 devices have interoperability with WPAdevices. When not interfacing with older WPA hardware, WPA2 deviceswill run strictly by the 802.11i specifications.
WPA2 consists of a pair of smaller standards that address differentaspects of security:
- WPA2-Personal, which uses a pre-shared key (similar to a single password available to groups of users, instead of a single individual); the pre-shared key is stored on the access point and the end user's computer
- WPA2-Enterprise, which authenticates users against a centralizedauthentication service
IU Secure, the new IU wireless network for students,faculty, and staff, uses WPA2 Enterprise for authentication.
The information in this document was adapted from the Wireless LAN Association web page.
A wireless local area network (WLAN or wireless LAN) consists of two or more computers that communicate wirelessly via radio waves. This is contrasted to a wired LAN, in which each computer in the network is physically tethered with an Ethernet cable to the server's network switch or hub.
The basic structure of all networks consists of a main computer or server, along with connected machines known as clients. The server typically has two Ethernet network interface cards (NICs) installed and software that can support the network. Microsoft Windows operating systems have featured built-in networking capability since Windows 98 Special Edition (SE), but third party networking software is also available. In the case of a simple home wireless LAN, a desktop might be the server while a laptop could be the client.
Let's assume that the desktop has a digital subscriber line (DSL) connection -- high-speed Internet service. In order to share the Internet connection via a wireless LAN, the desktop will be physically connected to a wireless DSL modem. The wireless DSL modem might also have a built-in network switch or router. These two devices keep data flowing to the proper machine on the network. If they are not built into the modem, they will have to be purchased separately.
The connections from the desktop server to the DSL modem, switch and router are made with physical Ethernet cables. The clients, however, do not require cabling. Instead, each machine must have a wireless NIC installed. Download windows 10. This might be a PCMCIA NIC, a USB device or even an internal wireless NIC. Many, but not all, wireless NICs feature a small antenna.
Once the wireless LAN has been set up on the server and client, the machines can communicate by sending and receiving data via radio waves. This makes a wireless LAN very convenient because the client can remain mobile anywhere within the broadcasting range of the network. One can work on a laptop in any room in the house -- even the backyard in most cases -- and still share the network connection from the server.
Setting Up A Wireless Lan Network
At the office, a wireless LAN provides instant connectivity to mobile personnel. It also avoids the costly expense of running Ethernet cable throughout a building, providing easy, effortless desktop connectivity between clients. Because there are no wires running to the clients, one of the main advantages of a wireless LAN is easy installation. Wireless LANs also provide more flexibility than wired LANs and are less expensive.
Hp Wireless Card Driver Update
Two disadvantages of the wireless LAN are that it requires a few more steps to secure it from intrusion; and it can be slower and, if interference is present, less reliable than a wired network. However, dependency speeds are always improving as technology improves. Some configurations of wireless LANs can compete with wired networks.
Wireless Lan Network Setup
Standards of wireless technology are indicated by letter designations. The wireless 'g' standard delivers speeds of 54 megabits per second (mbps). With augmented technology like the latest varieties of multiple input multiple output (MIMO), rates can reach 100 mbps. This is about the speed of an average DSL connection and hard-wired network. Previous wireless LAN standards 'a' and 'b' are slower technologies.