PCI Vendor and Device Lists. Returning 1. 79 matches for: . Robotics 8. 02. 1. Wireless Turbo PC Card 0x. CTexas Instruments. BUSB Ralink Wireless LAN0x. DSony Corporation. Winbond W8. 9C3. 3 m. PCI 8. 02. 1. 1 Wireless LAN Adapter. Winbond Electronics Corp. Com. 11a/b/g Wireless PCI Adapter 0x. B7. 3Com Corporation. F1. FAir. Connect Wireless LAN PCI Card. B7. 3Com Corporation. Air. Connect Wireless PCI0x. B7. 3Com Corporation. Realtek 8. 18. 0 Extensible 8. Wireless Device. 0x. ECRealtek Semiconductor Corp. Realtek RTL8. 19. SE Wireless LAN 8. PCI- E NIC0x. 10. ECRealtek Semiconductor Corp. This section covers the Cisco 3700 Series Access Points theory of operation and installation as part of a Cisco wireless LAN (WLAN) solution. Device Search Results. Returning 179 matches for: "wireless" Sorted by: Device ID. Wireless and mobility solutions provide highly secure access to network resources so you can be more productive and responsive. Network & Internet Linux Network Drivers - is the primary site for information on and updates to the Linux Ethernet device drivers. HP Networking's support lookup tool. EC0x. 10. ECRealtek Semiconductor Corp. Single- Chip IEEE 8. T2. R WLAN Controller with PCI Express Interface. ECRealtek Semiconductor Corp. Realtek RTL8. 18. CE Wireless LAN 8. PCI- E NIC0x. 10. ECRealtek Semiconductor Corp. ASUS PCE- N1. 5 Wireless LAN PCI- E Card. ECRealtek Semiconductor Corp. Realtek 8. 19. 1SE Wireless LAN0x. ECRealtek Semiconductor Corp. B7. 23. Realtek RTL8. BE Wireless LAN 8. PCI- NIC #4. 0x. 10. ECRealtek Semiconductor Corp. PCI- Cardbus Wireless LAN Adapter. VIA Technologies, Inc. Wireless Network Adaptor. Atmel Corp. 0x. 60. ACPI\VEN. Robotics. Dual Band Wireless N USB Network Adapter. Link. Sys. 0x. 22. Generic IEEE 8. 02. Wireless LAN Card. FEINPROCOMM0x. 02. Wireless- G PCI adapter. Ralink Technology, Corp. Ralink RT2. 56. 1 Wireless- G PCI0x. Ralink Technology, Corp. Ralink RT2. 56. 1 Wireless- G PCI0x. Ralink Technology, Corp. Chipset in D- Link DWL- G5. Ralink Technology, Corp. Ralink MIMO RT 2. Wireless 5. 4 Mbps. Ralink Technology, Corp. Ralink Technology, Corp. Wireless 8. 02. 1. PCI- e. 0x. 18. 14. Ralink Technology, Corp. Wireless LAN0x. 18. Ralink Technology, Corp. Ralink RT2. 50. 0 Wireless Lan Card. Ralink Technology, Corp. Ralink corp. RT3. Wireless 8. 02. 1. PCI adapter. 0x. 18. Ralink Technology, Corp. Ralink RT3. 09. 0 Wireless Lan Card with Bluetooth. Ralink Technology, Corp. Wireless LAN a/b/g/n plus Bluetooth 3. Ralink Technology, Corp. Wireless Lan Card - Asus X5. V - Win 7 6. 4bit - Foxconn Wireless. Ralink Technology, Corp. C1. 9USB < => Wireless N 1. Adapter. 0x. 20. 01. Temporal Research Ltd. Cisco Aironet Series 1. Access Points Deployment Guide. Abstract. This section covers the Cisco 3. Series Access Points theory of operation and installation as part of a Cisco wireless LAN (WLAN) solution. Subjects related include: Choosing the right Access Point (AP). Differences between AP 3. AP 3. 60. 0. Feature module and Client. Link support. Physical/Hardware details, mounting options, bracket choices, and installation considerations. Antenna options, radiation patterns, and external antenna deployments. Understanding spatial streams, MCS rates and beam- forming (8. Primer). Review of 8. Wave- 1 module for AP 3. Understanding 8. 02. Wave- 1 for the AP 3. Best Practices–Understanding Channel usage, 8. MHz, and available 1. This document is intended for trained and experienced technical personnel familiar with the existing Cisco Wireless Networking Group (WNG) product line and features. Choosing the Right Access Point Models. The Cisco 3. 70. 0 Series Access Point (AP 3. The AP 3. 70. 0 embodies Client. Link 3. 0, an innovative antenna technology comprising four transmit radios and four receive radios called 4. X4 in a Multiple Input Multiple Output (MIMO) configuration supporting 3 spatial streams (3. SS) together referenced as 4x. Using this type of antenna system along with additional Modulation Coding Schemes (MCS rates supporting up to 2. QAM) and 8. 0 MHz channel bonding, rates of up to 1. Gbps can be supported. Client. Link 3. 0–using these features along with an additional antenna (N+1)–allows for beam- forming for all 8. Client. Link 2. 0) and now beamforms to 1. Figure 1 Access Point Portfolio Placement. Access Points are available in three models: Internal antennas version labeled “i” have captured antennas (part of the housing and not removable). The “i” series is designed for indoor Enterprise installations, where office aesthetics are a primary concern. External antennas version labeled “e” are more rugged and designed for industrial use in locations, such as hospitals, factories, warehouses, and anywhere a need exists for external antennas and/or extended operating temperatures. The “e” version also supports mounting inside NEMA enclosures for use in the most demanding environments. Access Points for Professional Installations are labeled “p” series and may be used in outdoor applications. Figure 2 AP 3. 70. Models and Eco- Packs. Figure 3 AP 3. 60. Models and Eco- Packs. Differences between the AP 3. AP 3. 60. 0The mechanical front of the AP 3. AP 3. 60. 0 are similar in physical appearance with the exception of the “industrial cuts” along the edges of the 3. This allows for easy visual identification of the different AP device types. Figure 4 AP 3. 70. AP 3. 60. 0 (External Antenna Models)Figure 5 AP 3. AP 3. 60. 0 (Backside Identical)The AP 3. Wave- 1) native. This frees the feature module slot for additional functionality while also permitting external antenna connections for 8. AP 3. 70. 0e). Figure 6 Identifying APs Physically. Feature Module Support. AP 3. 70. 0 and AP 3. The goal in supporting a modular design is to offer a product that can provide longevity and true flexibility as technology changes. This provides a real value protection for customers. It also provides Cisco with an opportunity to introduce new features and functionality into a current stable platform. The Wireless Security and Spread Spectrum Intelligence (WSSI) module adds new functionality to the AP to future- proof customers' investment. This module provides a dedicated monitor radio to scan the full spectrum (not just the channel on which the AP is operating). It will offload complete monitoring and security services to the monitor module including Clean. Air, WIDS/WIPS, Context- aware Location, Rogue Detection, and Radio Resource Management (RRM). This module allows for full spectrum analysis on all channels on both the 2. GHz bands. Having a WSSI module avoids having the need to deploy a separate, dedicated overlay network for full spectrum monitoring and eliminates the need for an extra cable pull and additional infrastructure costs (Figure 7). There is also an option module for the AP 3. Wave- 1) functionality. This option cannot be used on the AP 3. Wave- 1) integrated. This option module for the AP 3. GHz and allow the AP 3. Wave- 1 functionality supports a 1. Gbps PHY / ~1 Gbps MAC (throughput) using 3 spatial streams, 8. MHz, and 2. 56 QAM. The option module does not support Client. Link 2. 0 but rather supports the Explicit beamforming specification that is part of the 8. Use of option modules may require local power supply, Cisco power injector. Po. E+, or the use of Cisco Enhanced Po. E, as the module typically increases the power draw to greater than 1. W (. 3af). Note Cisco Enhanced Po. E was created by Cisco and is the forerunner to 8. Po. E+. Figure 7 Feature Module of the Bottom of the AP 3. AP 3. 60. 0Beamforming – Understanding Client. Link. The AP 3. 70. Client. Link 3. 0” and is able to beamform to 8. It also supports all Client. Link 2. 0 functionality with legacy 1. The AP 3. 60. 0 supports Client. Link 2. 0 which beamforms to legacy 1. Client. Link 3. 0 (Cisco beamforming method to 1. Both the AP 3. 70. AP 3. 60. 0 with module supports the 8. ECBF (Explicit Compressed Beam Forming)–a new IEEE method of beamforming that is emerging but not yet fully supported in 1. Cisco Client. Link is similar but can work with all clients today including 1. Client. Link also takes advantage of the extra transceiver in the AP, so it beamforms to clients with 3 spatial streams. Figure 8 Client. Link Feature Comparison. Both AP 3. 70. 0 and AP 3. However, AP 3. 60. AC clients beyond 7 clients at a time. But, AP 3. 70. 0 can beamform 1. Table 1 Feature Comparison between AP 3. AP 3. 70. 0 Feature Comparison. AP 3. 60. 0. AP 3. Max. Data Rate. 45. Mbps. 1. 3 Gbps – 1. Module. 1. 3 Gbps. Radio. Dual Radio, 2. GHz. Dual Radio, 2. GHz. RF Design (MIMO: SS)4. The mounting options and bracket configurations are identical and interchangeable. Figure 9 Mechanical Drawing of APs 1. Figure 1. 0 3. 70. Mechanical Drawing. There are many different installation options available depending upon the requirements of the customer. Brackets are available from Cisco as well as third- party companies. During the ordering process, the customer may choose one of two brackets (but not both). Each bracket is a zero- dollar ($0) option at the time of configuration. If the customer does not choose a bracket, the selection default is AIR- AP- BRACKET- 1, which is the most popular for ceiling installations. The other choice is a universal bracket that carries part number AIR- AP- BRACKET- 2 (). Figure 1. 1 Access Point Bracket Choices - If You Are Using the AP 3. Module, We Recommend AIR- AP- Bracket- 2. If the AP needs to be mounted directly to a ceiling on the gridwork, then AIR- AP- BRACKET- 1 is mounted flush and has the lowest profile. However, if the AP is mounted to an electrical box or other wiring fixture, or inside a NEMA enclosure or perhaps wall mounted, then AIR- AP- BRACKET- 2 is a better choice. The extra space in the bracket allows for wiring, and the extra holes line up with many popular electrical boxes. When mounting the bracket to the ceiling gridwork, some ceiling tiles are recessed. For this reason, two different styles of ceiling clips, recessed and flush rails, are available (Figure 1. Figure 1. 2 Different Clips are Available for Attaching to Ceiling Grid Work. Channel Rail Adapters - Cisco Part Number AIR- CHNL- ADAPTER When mounting APs to ceiling channel rails such as the ones shown in Figure 1. AIR- CHNL- ADAPTER. It comes in a two- pack and attaches to the ceiling grid clip shown above. Refer to Figure 1. Figure 1. 4. Figure 1. Example of Channel Rails. Figure 1. 4 AIR- CHNL- ADAPTER (left) Slides Onto the Rails. Figure 1. 5 AIR- CHNL- ADAPTER Mounted to Rail Clip (left) and Finished Installation (right)Mounting an AP Directly Into the Tile Using Optional AIR- AP- BRACKET- 3. Many hospitals and other carpeted enterprise environments prefer a more streamlined look and wish to install the AP directly into the tile. This can be done using the optional Cisco AIR- AP- BRACKET- 3 (Figure 1. When using this bracket, the “beauty ring” is used as the template to cut the tile, which can be cut using a carpet knife or an electric tool such as a rotary cutting tool, e. Dremel. Cisco does not offer custom cut tiles because there are simply too many different styles and the tiles are easy to cut. The AP is fully supported above the tile with a metal rail that extends the length of the tile. This supports the AP should the tile become wet or otherwise fail. A mechanical set screw pulls the AP tight to the ceiling and locks it into the bracket. Additionally, physical security of the AP can be maintained by the use of a Kensington style lock, but once installed it is difficult to remove the AP without removing the tile because the AP will not slide out from the front side of the tile. Figure 1. 6 Optional AIR- AP- BRACKET- 3 Used to Install the AP Directly Into the Tile. Note This bracket will fit the 1. APs. Wall Mounting the APWhen wall mounting is desired, the installer should understand that walls can be a physical obstacle to the wireless signal; therefore, maintaining 3. If the wall is an outside wall and/or the goal is to send the signal in a 1. AP 3. 60. 0e is used. Avoid wall- mounting APs with internal antennas, such as the AP 3. Oberon right- angle mount (Figure 1. The internal antenna model was designed to mount to a ceiling to provide 3. If wall- mounted in a non- ceiling orientation, the signal may penetrate the floor above and below causing unintended coverage that could result in additional and needless roaming access when a mobility client, e. Wi- Fi phone, walks by on an adjacent floor. Instead, use the AP 3. AP 3. 60. 0i or AP 3. Note APs with internal antennas such as the AP 3. AP 3. 70. 0i that are wall mounted should use the Oberon mounting bracket unless roaming is not an issue, for example, hotspot, kiosk, or small venue scenario.
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