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SXT Lite5 ac

The SXT Lite5 ac is a new low cost device in our 802.11ac product lineup.

Unit is equipped with powerful 650MHz CPU, 64MB RAM, 10/100Mbps Ethernet port and has 5GHz 16dBi 28 degree beamwidth antenna.

The SXT Lite5 ac supports 256-QAM modulation and 80MHz channels, so you get more speed per same frequency width as 802.11 devices. It also supports 802.11a/n, Nv2, Nstreme mode and is compatible with all legacy RouterBOARD devices. New industrial wireless chip QCA-9892 provides support for 5/10 MHz channel width for 802.11an standard.
We have two versions available – RBSXT5HacD2n (International) and RBSXT5HacD2n-US (USA). RBSXT5HacD2n-US (USA) is factory locked for 2412-2462MHz, 5170-5250MHz and 5725-5835MHz frequencies. This lock can not be removed. RBSXT5HacD2n (International) supports 2412-2484MHz and 5150MHz – 5875MHz range.

  • Description
  • Reviews (1)
  • Ethernet test results


Product specifications

Product code RBSXT5HacD2nr2
10/100 Ethernet ports 1
802.11a Yes
802.11n Yes
Antenna gain 16
CPU core count 1
CPU nominal frequency 650 MHz
Dimensions 140x140x56mm
License level 3
Max Power consumption 8W
Number of chains 2
Operating System RouterOS
PoE in Yes
Size of RAM 64 MB
Storage size 16 MB
Storage type FLASH
Supported input voltage 8 V – 30 V
Tested ambient temperature -30 + 70 C
Wireless chip model QCA9892
Wireless secondary chip model QCA9531
Wireless secondary standards 802.11b/g/n
Wireless standards 802.11a/n/ac
Suggested price

1 review for SXT Lite5 ac

  1. 5 out of 5


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RBSXT5HacD2nr2 QCA9531 100M one port test
Mode Configuration 1518 byte 512 byte 64 byte
kpps Mbps kpps Mbps kpps Mbps
Bridging none (fast path) 8.1 98.4 23.5 96.3 173.6 88.9
Bridging 25 bridge filter rules 8.1 98.4 23.5 96.3 70.9 36.3
Routing none (fast path) 8.1 98.4 23.5 96.3 160.8 82.3
Routing 25 simple queues 8.1 98.4 23.5 96.3 90.8 46.5
Routing 25 ip filter rules 8.1 98.4 23.5 96.3 43.2 22.1
  1. All tests are done with Xena Networks specialized test equipment (XenaBay),and done according to RFC2544 (Xena2544)
  2. Max throughput is determined with 30+ second attempts with 0,1% packet loss tolerance in 64, 512, 1518 byte packet sizes
  3. Values in Italic indicate that max throughput was reached without maxing out CPU, but because board interface configuration was maxed out
  4. Test results show device maximum performance, and are reached using mentioned hardware and software configuration, different configurations most likely will result in lower results