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Shenzhen Time In Top Technology Co, Ltd
Osoite:Room 2602, International Science Technology Building,
3007 Shennan Rd., Futian, Shenzhen 518000, China
Puhelin:+86-755-83686434 +86-755-83664959
E-Mail:support@rrdn.netOta nyt
Aruba AP-635  Tri-radio 2x2:2 802.11ax Wi-Fi 6E Internal Antennas Campus AP

Aruba AP-635 Tri-radio 2x2:2 802.11ax Wi-Fi 6E Internal Antennas Campus AP

  • Brand:Aruba
  • Model:AP-635
  • Unlocks the 6 GHz band to more than double the available capacity
  • Comprehensive tri-band coverage across 2.4 GHz, 5 GHz, and 6 GHz to deliver 3.9 Gbps maximum aggregate data rate
  • Up to seven 160 MHz channels in 6 GHz support low-latency, bandwidth-hungry applications like high-definition video and augmented reality/virtual reality applications
  • Unique Ultra Tri-Band (UTB) filtering enables 5 GHz and 6 GHz to operate without restrictions or interference
  • High availability with 2.5 Gbps dual ethernets port for hitless failover of Ethernet and power


The 630 Series APs are designed to take advantage of the 6 GHz band, which translates into far greater speeds, wider channels for multi-gigabit traffic, and less interference. It delivers 3.9 Gbps maximum aggregate data rates Tri-radio, 2x2:2 MIMO in all three bands (3.9 Gbps aggregate peak).

Advantages of 6GHz
Wi-Fi 6E provides up to 1200 MHz in the 6 GHz band for higher throughput and improved application performance. With up to seven 160 MHz channels, Wi-Fi 6E can better support low-latency, bandwidth hungry applications like high-definition video and artificial reality/virtual reality applications. Only Wi-Fi 6E capable devices can use the 6 GHz band so there is no interference or slowdowns due to legacy devices.

Device class support
The 630 Series APs are part of the low power indoor (LPI) device class. This fixed indoor-only class uses lower power levels and does not require an Automated Frequency Coordination service (AFC) to manage incumbent outdoor services which is required for standard class APs.


630 Series Access Points include Aruba’s ultra tri-band filtering, which enables enterprises to take advantage of the high end of 5 GHz with the lower end of 6 GHz without experiencing interference. Since there is only 50 MHz between 5 GHz and the 6 GHz, without advanced filtering, enterprises would likely experience problems between the bands and would therefore be limited in the number of channels available. By applying advanced filtering capabilities, enterprises can take full use of available spectrum without creating coverage gaps or islands.


The Series 630 APs provide high availability with two HPE Smart Rate ethernet ports for hitless failover for both data and power. Configurable to 1 or 2.5 Gbps, these dual ports provide business continuity for mission critical applications.


The 630 Series APs are based on the 802.11ax standard, which means that all its efficiency and security enhancements are also available on the 6 GHz band. Wi-Fi 6 features such as Orthogonal Frequency Division Multiple Access (OFDMA), BSS coloring etc. are fully supported on the Aruba Wi-Fi 6E access points as well.

Advantages of OFDMA
This capability allows Aruba’s APs to handle multiple 802.11ax capable clients on each channel simultaneously, regardless of device or traffic type. Channel utilization is optimized by handling each transaction via smaller sub-carriers or resource units (RUs), which means that clients are sharing a channel and not competing for airtime and bandwidth.

Client optimization
Aruba’s patented AI-powered ClientMatch technology eliminates sticky client issues by steering a client to the AP where it receives the best radio signal. Client Match steers traffic from the noisy 2.4 GHz band to the preferred 5 GHz or 6 GHz band depending on client capabilities. ClientMatch also dynamically steers traffic to load balance APs to improve the user experience.

Automated Wi-Fi radio frequency management To optimize the user experience and provide greater stability, Aruba AirMatch allows organization to automate network optimization using machine learning. AirMatch provides dynamic bandwidth adjustments to support changing device density, enhanced roaming using an even distribution of Effective Isotropic Radiated Power (EIRP) to radios, and real-time channel assignments to mitigate co-channel interference.

Application Assurance
With Air Slice, organizations can provide application assurance to their users that goes beyond the traditional capabilities of airtime fairness. After the SLAs are configured, Air Slice monitors network usage, automatically allocates radio resources, and dynamically adjusts radio resources as new users connect and applications sessions begin or end.

Aruba Advanced Cellular Coexistence (ACC)
Unique to Aruba, Advanced Cellular Coexistence uses built-in filtering to automatically minimize the impact of interference from cellular networks, distributed antenna systems (DAS), and commercial small cell or femtocell equipment.

Intelligent Power Monitoring (IPM)
For better insights into energy consumption, Aruba APs continuously monitor and report hardware energy usage. Unlike other vendor’s access points, Aruba APs can also be configured to enable or disable capabilities based on available PoE power – ideal when wired switches have exhausted their power budget. Enterprises can deploy Wi-Fi 6E APs and update switching and power at a later if needed based on their actual usage.

Wi-Fi radio specifications
  • AP type: Indoor, tri radio, 2.4GHz, 5GHz and 6GHz (concurrent) 802.11ax 2x2 MIMO
  • 2.4 GHz radio: Two spatial stream Single User (SU) MIMO for up to 574 Mbps wireless data rate with 2SS HE40 802.11ax client devices
  • 5 GHz radio: Two spatial stream Single User (SU) MIMO for up to 1.2 Gbps wireless data rate with 2SS HE80 802.11ax client devices
  • 6 GHz radio: Two spatial stream Single User (SU) MIMO for up to 2.4 Gbps wireless data rate with 2SS HE160 802.11ax client devices Up to 512 associated client devices per radio, and up to 16 BSSIDs per radio (limited to 4 for the 6GHz 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-2
    • 5.470 to 5.725 GHz U-NII-2E
    • 5.725 to 5.850 GHz U-NII-3/ISM
    • 5.850 to 5.895 GHz U-NII-4
    • 5.925 to 6.425 GHz U-NII-5
    • 6.425 to 6.525 GHz U-NII-6
    • 6.525 to 6.875 GHz U-NII-7
    • 6.875 to 7.125 GHz U-NII-8
  • Available bands and channels: Dependent on configured regulatory domain (country)
  • Dynamic frequency selection (DFS) optimizes the use of available RF spectrum in the 5 GHz band
  • 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 8 resource units
  • Supported modulation types:
    • 802.11b: BPSK, QPSK, CCK
    • 802.11a/g/n: BPSK, QPSK, 16-QAM, 64-QAM and 256-QAM (proprietary extension)
    • 802.11ac: BPSK, QPSK, 16-QAM, 64-QAM, 256-QAM and 1024-QAM (proprietary extension)
    • 802.11ax: BPSK, QPSK, 16-QAM, 64-QAM, 256-QAM, 1024-QAM and 4096-QAM (proprietary extension)
  • 802.11n high-throughput (HT) support: HT20/40
  • 802.11ac very high throughput (VHT) support: VHT20/40/80
  • 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: 6.5 to 300 (MCS0 to MCS15, HT20 to HT40), 400 with 256-QAM (proprietary extension)
    • 802.11ac: 6.5 to 867 (MCS0 to MCS9, NSS = 1 to 2, VHT20 to VHT80); 1,083 with 1024-QAM (MCS10 and MCS11, proprietary extension)
    • 802.11ax (2.4GHz): 3.6 to 574 (MCS0 to MCS11, NSS = 1 to 2, HE20 to HE40)
    • 802.11ax (5GHz): 3.6 to 1,201 (MCS0 to MCS11, NSS = 1 to 2, HE20 to HE80)
    • 802.11ax (6GHz): 3.6 to 2,402 (MCS0 to MCS11, NSS = 1 to 2, HE20 to HE160); 2,882 with 4096-QAM (MCS12 and MCS13, proprietary extension)
  • 802.11n/ac packet aggregation: A-MPDU, A-MSDU
  • Transmit power: Configurable in increments of 0.5 dBm
  • Maximum (aggregate, conducted total) transmit power (limited by local regulatory requirements):
    • Per radio/band (2.4 GHz/5 GHz/6 GHz): +21 dBm (18 dBm per chain)
    • Note: conducted transmit power levels exclude antenna gain. For total (EIRP) transmit power, add antenna gain.
  • Advanced Cellular Coexistence (ACC) minimizes the impact of interference from cellular networks
  • Ultra Tri-Band (UTB) enables ultimate flexibility in 5 GHz and 6 GHz channel selection without performance degradation*
  • Maximum ratio combining (MRC) for improved receiver performance
  • Cyclic delay/shift diversity (CDD/CSD) for improved downlink RF performance
  • 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
  • 802.11ax Target Wait Time (TWT) to support low-power client devices

** The UTB feature is not supported on the initial AP-635 hardware, and will be phased in after release

Wi-Fi antennas

  • AP-635: Integrated downtilt omni-directional antennas for 2x2 MIMO with peak antenna gain of 4.6 dBi in 2.4 GHz, 7.0 dBi in 5 GHz and 6.3 dBi in 6 GHz. Built-in antennas are optimized for horizontal ceiling mounted orientation of the AP. The downtilt angle for maximum gain is roughly 30 to 40 degrees.
    • Combining the patterns of each of the antennas of the MIMO radios, the peak gain of the combined, average pattern is 2.9 dBi in 2.4 GHz, 4.9 dBi in 5 GHz and 4.3 dBi in 6 GHz.

Other interfaces and features
  • E0, E1: Two Ethernet wired network ports (RJ-45)
    • Auto-sensing link speed (100/1000/2500BASE-T) and MDI/MDX
    • 2.5 Gbps speed complies with NBase-T and 802.3bz specifications
    • PoE-PD: 48Vdc (nominal) 802.3at/bt PoE (class 4 or higher)
    • 802.3az Energy Efficient Ethernet (EEE)
    • Link aggregation (LACP) support between both network ports for redundancy and increased capacity
  •  DC power interface: 12Vdc (nominal, +/- 5%), accepts 2.1mm/5.5mm center-positive circular plug with 9.5mm length
  •  USB 2.0 host interface (Type A connector)
    • Capable of sourcing up to 1A/5W to an attached device
  • Bluetooth Low Energy (BLE5.0) and Zigbee (802.15.4) radio
    • BLE: up to 5 dBm transmit power (class 1) and -100 dBm receive sensitivity (125 kbps)
    • Zigbee: up to 5 dBm transmit power and -97 dBm receive sensitivity (250 kbps)
    • Integrated omnidirectional antenna with roughly 30 to 40 degrees downtilt and peak gain of 3.0 dBi
  • Advanced IoT Coexistence (AIC) allows concurrent operation of multiple radios in the 2.4 GHz band
  • Built-in Trusted Platform Module (TPM) for enhanced security and anti-counterfeiting
  • Visual indicators (four multi-color LEDs): for System (1x) and Radio (3x) status
  • Reset button: factory reset, LED mode control (normal/off)
  • Serial console interface (proprietary, micro-B USB physical jack)
  • Kensington security slot
  • Automatic thermal shutdown and recovery function
Power sources and power consumption
  • The AP supports direct DC power and Power over Ethernet (PoE) on port E0 and/or E1
  • When both DC and PoE power sources are available, DC power takes priority over PoE
  • When PoE power is supplied to both Ethernet ports, either port can be configured as the active power source
  • Inactive/standby PoE power sources can be used to deliver hitless failover
  • Power sources are sold separately; see the 630 Series Ordering Guide for details
  • When powered by DC or 802.3bt (class 5) PoE, the AP will operate without restrictions.
  • When powered by 802.3at (class 4) PoE with the IPM feature disabled, the AP will disable the USB port.
  • Operating the AP with an 802.3af (class 3 or lower) POE source is not supported.
  • With IPM enabled, the AP will start up in unrestricted mode but may dynamically apply restrictions depending on the available power budget and actual consumption. The feature restrictions and order in which these get applied are configurable.
  •  Maximum (worst-case) power consumption (without/with a USB device attached):
    • DC powered: 20.7W/26.4W.
    • PoE powered: 23.8W/29.4W
    • This assumes that up to 5W is supplied to the attached USB device.
  • Maximum (worst-case) power consumption in idle mode: 8.7W/14.2W (DC) or 11.7W/17.2W (PoE).
  • Maximum (worst-case) power consumption in deep-sleep mode: 1.1W (DC) or 1.9W (PoE).
Mounting details
A mounting bracket has been pre-installed on the back of the AP. This bracket is used to secure the AP to any of the mount kits (sold separately); see the 630 Series Ordering Guide for details.

Mechanical specifications
  • Dimensions/weight (AP-635; unit without mount bracket):
    • 220mm (W) x 220mm (D) x 51mm (H)
    • 1300g
  •  Dimensions/weight (AP-635; shipping):
    • 250mm (W) x 240mm (D) x 85mm (H)
    • 1650g
Environmental specifications

  • Operating conditions
    • Temperature: 0C to +50C / +32F to +122F
    • Relative humidity: 5% to 95%
    • ETS 300 019 class 3.2 environments
    • AP is plenum rated for use in air-handling spaces
  • Storage conditions
    • Temperature: -25C to +55C / +13F to +131F
    • Relative humidity: 10% to 100%
    • ETS 300 019 class 1.2 environments
  • Transportation conditions
    • Temperature: -40C to +70C/-40F to +158F
    • Relative humidity: up to 95%
    • ETS 300 019 class 2.3 environments

Shenzhen Time In Top Technology Co., Ltd


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