DUAL BAND WI-FI 6 POE WIRELESS ACCESS POINT
The Aruba AP-505 is a wireless access point (AP) manufactured by Aruba Networks, a leading provider of enterprise networking solutions. The AP-505 access point is designed to provide reliable, high performance wireless communication in a wide variety of environments.
Below are some key features commonly associated with Aruba AP-505.
Wireless Connectivity: AP-505 supports the latest Wi-Fi standards such as Wi-Fi 6 (802.11ax) for faster speeds, increased capacity and better performance than previous generations. Provides wireless connectivity to devices such as laptops, smartphones, tablets, and IoT devices.
Dual radio operation: AP-505 typically operates with two radios and supports 2.4 GHz and 5 GHz frequency bands. This allows you to connect to multiple channels simultaneously, reducing congestion and providing a better user experience.
High Performance: The AP-505 is designed to work in high density environments such as offices, schools, healthcare facilities and public places. This includes advanced antenna technologies and features such as beamforming and multi-user MIMO (MU-MIMO) for improved performance and coverage.
Power over Ethernet (PoE): The AP-505 is typically powered by PoE, simplifying installation and eliminating the need for a separate power adapter. Receive power and transmit data over a single Ethernet cable, making your deployment more flexible.
security and management. Aruba access points, including the AP-505, are often integrated with Aruba central management platforms such as Aruba Central and Aruba AirWave. These platforms provide administrators with centralized control, monitoring, and security features to efficiently manage wireless networks. Security features may include encryption, authentication, role-based access control and threat detection.
Scalable: The AP-505 is designed to be deployed as part of a larger Aruba Wireless network infrastructure. Can be integrated with Wi-Fi.
Mounting Options: The Aruba AP-505 offers versatile mounting options to suit a variety of deployment scenarios. With mounting brackets and optional accessories, it can be mounted on a ceiling, wall, or placed on a table. This flexibility ensures optimal placement and coverage under varying conditions.
Seamless Roaming: The AP-505 supports seamless roaming, providing uninterrupted connectivity for users who roam between access points within the network. This feature is especially useful in environments where mobility is essential, such as large offices or hotels.
Guest access and captive gates. With built-in guest access capabilities, the AP-505 allows organizations to provide secure and controlled Wi-Fi access to temporary visitors and users. Administrators can set up an approval portal that requires guests to approve or agree to terms of service before accessing the network.
Quality of Service (QoS): AP-505 incorporates QoS mechanisms to prioritize critical applications and provide a consistent user experience. Quality of Service (QoS) features allow administrators to allocate bandwidth on wireless networks and prioritize certain types of traffic, such as voice and video.
Integration with the Aruba ecosystem. The AP-505 integrates seamlessly with Aruba’s broader networking ecosystem. Integrate with Aruba switches, controllers and security solutions to create a complete and secure network infrastructure.
Cloud management capabilities: Aruba AP-505 can be managed using Aruba cloud management platforms such as Aruba Central. Cloud management provides simplified deployment, monitoring and troubleshooting capabilities, allowing administrators to efficiently manage multiple access points from a central interface.
Please note that the above features and specifications are generic and may vary depending on the specific firmware version and Aruba AP-505 configuration. more information and
Learn more about poe
Power over Ethernet (PoE) is a technology that allows electrical power to be transmitted over the same Ethernet cable that is used for data transmission. This eliminates the need for a separate power cable for each device, which can simplify installation and reduce costs.
PoE is achieved by adding two additional pairs of wires to the standard Ethernet cable. These pairs are used to transmit DC voltage to the device. The voltage is typically 48 volts, but there are also PoE standards that support higher voltages.
PoE devices are classified into two types: power sourcing equipment (PSE) and powered devices (PD). PSE devices are the devices that provide power to the PDs. PSE devices can be switches, injectors, or midspans.
PDs are the devices that receive power from the PSE devices. PDs can be anything from wireless access points to IP phones to security cameras.
PoE is a popular technology for a number of reasons. It can simplify installation, reduce costs, and improve flexibility. PoE is also a very reliable technology, and it can be used to power devices in remote or difficult-to-reach locations.
Here are some of the benefits of using PoE:
- Simplified installation: PoE eliminates the need for a separate power cable for each device, which can simplify installation and reduce labor costs.
- Reduced costs: PoE can reduce the overall cost of installing and maintaining a network by eliminating the need for separate power supplies and power outlets.
- Improved flexibility: PoE allows devices to be installed in locations where power outlets are not available, such as on ceilings or in walls. This can improve the flexibility of network design and deployment.
- Reliability: PoE is a very reliable technology, and it is backed by a number of industry standards. This makes it a good choice for powering critical devices, such as security cameras and VoIP phones.
PoE is used in a wide variety of environments, including schools, hospitals, offices, and retail stores. It is also used in industrial and outdoor environments.
Some common applications for PoE include:
- Wireless access points
- IP phones
- Security cameras
- VoIP phones
- LED lighting
- Digital signage
- Point-of-sale systems
- Industrial automation equipment
- Outdoor devices, such as streetlights and traffic signals
Learn more about ACCESS POINT
An access point (AP) is a networking device that allows wireless devices to connect to a wired network. APs are typically used to extend the range of a wireless network or to provide wireless access in areas where there is no wired network available.
APs work by broadcasting a radio signal that wireless devices can connect to. Once a device is connected to an AP, it can access the network resources that are available to wired devices, such as the Internet, shared files, and printers.
APs are available in a variety of shapes and sizes, and they can be used to create both indoor and outdoor wireless networks. Some APs are designed for use in small businesses and homes, while others are designed for use in large enterprises and public spaces.
Here are some of the benefits of using APs:
- Extended range: APs can be used to extend the range of a wireless network, allowing wireless devices to connect to the network even if they are far away from the router.
- Improved performance: APs can help to improve the performance of a wireless network by reducing congestion and interference.
- Increased reliability: APs can help to improve the reliability of a wireless network by providing a backup connection in case the router fails.
- Enhanced security: APs can be used to enhance the security of a wireless network by providing features such as encryption and authentication.
APs are an essential part of many wireless networks, and they can be used to improve the performance, reliability, and security of those networks.
Here are some common applications for APs:
- Small businesses and homes: APs can be used to extend the range of a wireless network in a small business or home, allowing wireless devices to connect to the network even if they are far away from the router.
- Large enterprises and public spaces: APs can be used to create large-scale wireless networks in large enterprises and public spaces, such as schools, hospitals, and airports.
- Outdoor wireless networks: APs can be used to create outdoor wireless networks, such as those used in parks and stadiums.