AWK-3252A Series

Industrial IEEE 802.11a/b/g/n/ac wireless AP/bridge/client

Features and Benefits

  • IEEE 802.11a/b/g/n/ac Wave 2 AP/bridge/client
  • Concurrent dual-band Wi-Fi with aggregated data rates up to 1.267 Gbps
  • Latest WPA3 encryption for enhanced wireless network security
  • Universal (UN) models with configurable country or region code for more flexible deployment
  • Easy network setup with Network Address Translation (NAT)
  • Millisecond-level Client-based Turbo Roaming
  • Built-in 2.4 GHz and 5 GHz band pass filter for more reliable wireless connections
  • -40 to 75°C wide operating temperature range (-T models)
  • Integrated antenna isolation

Certifications

Description

Introduction

The AWK-3252A Series 3-in-1 industrial wireless AP/bridge/client is designed to meet the growing need for faster data transmission speeds through IEEE 802.11ac technology for aggregated data rates of up to 1.267 Gbps. The AWK-3252A is compliant with industrial standards and approvals covering operating temperature, power input voltage, surge, ESD, and vibration. The two redundant DC power inputs increase the reliability of the power supply, and the AWK-3252A can be powered via PoE to facilitate flexible deployment. The AWK-3252A can operate concurrently on both the 2.4 and 5 GHz bands and is backwards-compatible with existing 802.11a/b/g/n deployments to future-proof your wireless investments.

Advanced 802.11ac Industrial Wireless Solution

  • 802.11a/b/g/n/ac compliant AP/bridge/client for flexible deployment

  • DFS channel support allows a wider range of 5 GHz channel selection to avoid interference from existing wireless infrastructure

Advanced Wireless Technology

  • Seamless roaming with client-based Turbo Roaming for < 150 ms roaming recovery time between APs (Client Mode)

Industrial Ruggedness

  • Integrated antenna isolation designed to provide protection against external electrical interference

  • -40 to 75°C wide operating temperature models (-T) provided for smooth wireless communication in harsh environments