Aruba 570 Series Outdoor Access Points

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570 Series

  • High-performance Wi-Fi 6 outdoor access point
  • Built in BLE and Zigbee support
  • Ideal for high-density outdoor environments
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Description

Maximum density. Highest performance.

Withstands harsh outdoor weather conditions, providing fast speed, high density, and reliable connectivity outdoors in large open areas, such as stadiums and parking lots.

High performance, in any weather

Ensures predictable, secure, and optimized connectivity with 2.69 Gbps maximum speed and Wi-Fi 6 support for large, outdoor, harsh weather events and environments.

IoT-ready Bluetooth 5 and 802.15.4/Zigbee

Simplifies deploying and managing IoT location services, asset-tracking services, security solutions, and IoT sensors.

Dynamic Segmentation and policy enforcement-firewalls

Enforces (automatically) consistent policies across all networks, keeping users and devices secure.

AI-powered Wi-Fi RF management and automation with AirMatch

Utilizing AI learning, Air Match provides automated RF optimization and looks at analytics across the entire network.

Air Slice for SLA-grade performance

Guarantees a predictable user experience, prioritizing traffic and arrival of time-sensitive data with Air Slice application.

AP_575_408x436px Aruba access point

Hardware Variants
  • AP-574
    • 5 GHz: Four Nf connectors for external antenna operation
    • 2.4 GHz: Two Nf connectors for external antenna operation
    • BLE/Zigbee: Integrated omnidirectional antenna and peak gain of 4.2dBi
  • AP-575
    • Built in Omni Directional Antennas
    • 5 GHz: Antennas 5 dBi
    • 2.4 GHz: Antennas 3.4 dBi
    • BLE/Zigbee: Integrated omnidirectional antenna and the peak gain of 6dBi
  • AP-577
    • Built in 90°H x 90°V Directional Antennas
    • 5 GHz: Antennas 5.6 dBi
    • 2.4 GHz: Antennas 6.8 dBi
    • BLE/Zigbee: Integrated omnidirectional antennas with peak gain of 8.4dBi
Wi-Fi Radio Specifications
  • AP type:
    • Outdoor Hardened, Wi-Fi 6 dual radio, 5 GHz 4x4 MIMO and 2.4 GHz 2x2 MIMO
  • Software-configurable dual radio supports 5 GHz (Radio 0) and 2.4 GHz (Radio 1)
  • 5GHz:
    • Four spatial stream Single User (SU) MIMO for up to 4.8 Gbps wireless data rate to individual 4SS HE160 Wi-Fi 6 client device (max)
    • Two spatial stream Single User (SU) MIMO for up to 1.2 Gbps wireless data rate to individual 2SS HE80 Wi-Fi 6 client device (typical)
    • Four spatial stream Multi User (MU) MIMO for up to 4.8 Gbps wireless data rate to up to four 1SS or two 2SS HE160 Wi-Fi 6 DL-MU-MIMO capable client devices simultaneously (max)
    • Four spatial stream Multi User (MU) MIMO for up to 2.4 Gbps wireless data rate to up to four 1SS or two 2SS HE80 Wi-Fi 6 DL-MU-MIMO capable client devices simultaneously (typical)
  • 2.4GHz:
    • Two spatial stream Single User (SU) MIMO for up to 575 Mbps wireless data rate to individual 2SS HE40 Wi-Fi 6 client device (max)
    • Two spatial stream Single User (SU) MIMO for up to 287 Mbps wireless data rate to individual 2SS HE20 Wi-Fi 6 client device (typical)
    • Support for up to 512 associated client devices per radio, and up to 16 BSSIDs per radio
    • Supported frequency bands (country-specific restrictions apply):
      • 2.400 to 2.4835 GHz (ISM)
      • 5.150 to 5.250 GHz (U-NII-1)
      • 5.250 to 5.350 GHz (U-NII-2A)
      • 5.470 to 5.725 GHz (U-NII-2C)
      • 5.725 to 5.850 GHz (U-NII-3/ISM)
      • 5.850 to 5.875 GHz (U-NII-4)
    • Available channels: Dependent on configured regulatory domain
    • Dynamic frequency selection (DFS) optimizes the use of available RF spectrum.
    • Supported radio technologies:
      • 802.11b: Direct-sequence spread-spectrum (DSSS)
      • 802.11a/g/n/ac: Orthogonal frequency-division multiplexing (OFDM)
      • 802.11ax: Orthogonal frequency-division multiple access (OFDMA) with up to 16 resource units (RU)
    • Supported modulation types:
      • 802.11b: BPSK, QPSK, CCK
      • 802.11a/g/n: BPSK, QPSK, 16-QAM, 64-QAM, 256-QAM (proprietary extension)
      • 802.11ac: BPSK, QPSK, 16-QAM, 64-QAM, 256-QAM,1024-QAM (proprietary extension)
      • 802.11ax: BPSK, QPSK, 16-QAM, 64-QAM, 256-QAM, 1024-QAM
    • 802.11n high-throughput (HT) support: HT 20/40
    • 802.11ac very high throughput (VHT) support: VHT 20/40/80/160
    • 802.11ax high efficiency (HE) support: HE20/40/80/160
    • Supported data rates (Mbps):
      • 802.11b: 1, 2, 5.5, 11
      • 802.11a/g: 6, 9, 12, 18, 24, 36, 48, 54
      • 802.11n (2.4GHz): 6.5 to 300 (MCS0 to MCS15, HT20 to HT40)
      • 802.11n (5GHz): 6.5 to 600 (MCS0 to MCS31, HT20 to HT40)
      • 802.11ac: (5 GHz): 6.5 to 3,467 (MCS0 to MCS9, NSS = 1 to 4 for VHT20 to VHT160)
      • 802.11ax (2.4GHz): 8.6 to 574 (MCS0 to MCS11, NSS = 1 to 2, HE20 to HE40)
      • 802.11ax (5GHz): 8.6 to 4803 (MCS0 to MCS11, NSS = 1 to 4, HE20 to HE160)
    • 802.11n/ac packet aggregation: A-MPDU, A-MSDU
    • Transmit power: Configurable in increments of 0.5 dBm
    • Maximum (conducted) transmit power (limited by local regulatory requirements):
      • 2.4 GHz band: +22 dBm per chain , +25dBm aggregate (2x2)
      • 5 GHz band: +22 dBm per chain , +28dBm aggregate (4x4)
      • Note: conducted transmit power levels exclude antenna gain.
    • Maximum EIRP (limited by local regulatory requirements):
      • 2.4 GHz band:
        • AP-574: 25 + Antenna Gain + TxBF Gain
        • AP-575: 29.0 dBm EIRP
        • AP-577: 34.4 dBm EIRP
      • 5 GHz band:
        • AP-574: 28 + Antenna Gain + TxBF Gain
        • AP-575: 32.6 dBm EIRP
        • AP-577: 36 dBm EIRP
    • Advanced Cellular Coexistence (ACC) minimizes interference from cellular networks.
    • Maximum ratio combining (MRC) for improved receiver performance.
    • Cyclic delay/shift diversity (CDD/CSD) to enable the use of multiple transmit antennas.
    • Short guard interval for 20-MHz, 40-MHz, 80-MHz and 160-MHz channels.
    • Space-time block coding (STBC) for increased range and improved reception.
    • Low-density parity check (LDPC) for high-efficiency error correction and increased throughput.
    • Transmit beam-forming (TxBF) for increased signal reliability and range.
  • 802.11mc Fine Timing Measurement (FTM):
    • for precision distance ranging