Техническая Спецификация для Cisco Aironet 1522HZ AIR-LAP1522HZ-E-K9
Модели
AIR-LAP1522HZ-E-K9
Data Sheet
© 2010 Cisco Systems, Inc. All rights reserved. This document is Cisco Public Information.
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Central Network Management
Cisco Wireless Control System (WCS) is the industry-leading platform for wireless LAN planning, configuration, and
management. Cisco WCS provides a powerful foundation that allows IT managers to design, control, and monitor
wireless networks from a centralized location, simplifying operations and reducing the total cost of ownership. The
Cisco WCS works in conjunction with Cisco Aironet Lightweight Access Points, Cisco Wireless LAN Controllers, and
the Cisco Wireless Location Appliance. With Cisco WCS, network administrators have a single solution for RF
prediction, policy provisioning, network optimization, troubleshooting, security monitoring, and wireless LAN systems
management. Robust graphical interfaces make wireless LAN deployment and operations simple and cost-effective.
Robust Unified Security
The Cisco mesh solution addresses wireless network security as part of a unified wired and wireless solution. Cisco
Wireless Network Security
offers the highest level of network security, which helps ensure that data remains private
and secure and that the network is protected from unauthorized access. The Cisco intrusion prevention system (IPS)
protects your entire network by identifying, classifying, and preventing known and unknown threats to your network.
Flexible, High-Performance Mesh Solution
All of the Cisco Aironet 1520 Series Lightweight Outdoor Access Points provide high-performance device access
through improved 802.11b/g radio sensitivity and range performance with maximal ratio combining (MRC)
technology. Flexible deployability and multiple uplink options and power options are available. The 802.3af-
compliant, Power-over-Ethernet (PoE) interface makes it easy to connect IP devices, such as IP video cameras.
NEMA Type 4X enclosures help ensure a robust system that can withstand rough weather conditions. The Cisco
Aironet 1520 Series Access Points are Federal Information Processing Standards (FIPS 140-2) certifiable for
applications that require this standard. To help ensure uptime for crucial applications even in the event that electrical
power becomes unavailable, the 1520 Series offers an internal battery for backup power.
Cisco Aironet 1522 Lightweight Access Point
The Cisco Aironet 1522 Lightweight Outdoor Mesh Access Point is a dual-radio system with dual-band radios that
are compliant with IEEE 802.11a (5-GHz) and 802.11b/g standards (2.4-GHz). Where service providers have already
invested in a broadband cable network, the Cisco mesh can seamlessly extend network connectivity with the Cisco
Aironet 1522CV access point, by connecting to its integrated cable modem backhaul (DOCSIS 2.0). Designed for the
most demanding environments, the Cisco Aironet 1522HZ has been classified for hazardous locations (Class 1,
Zone 2/ Div 2) such as petroleum refineries and utility gas plants.
Cisco Aironet 1524SB Lightweight Access Point
The Cisco Aironet 1524SB Lightweight Outdoor Access Point is a multiple-radio system with dual-backhaul IEEE
802.11a (5-GHz) radios, where each radio is dedicated to transmitting data either upstream or downstream, provide
greater throughput for bandwidth-intensive applications such as video surveillance. The third radio is dedicated to
client access. With uncompromised throughput and latency, the Cisco 1524SB enables a reliable and high-
performance mesh network.
Cisco Aironet 1524PS Lightweight Access Point
The Cisco Aironet 1524PS Lightweight Outdoor Mesh Access Point has been specifically designed for public safety
applications, providing a flexible and secure outdoor wireless LAN that scales to meet demands for public safety and
mobility services. The Cisco Aironet 1524PS Access Point is a multiple-radio mesh access point, preconfigured with
three radios that comply with IEEE 802.11a, 802.11b/g, and 4.9-GHz public safety standards. By dedicating multiple
separate radios to access, it creates a robust and secure mesh infrastructure capable of supporting public and
private applications simultaneously.