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RB2011LS-IN

2011ls-in 

RB2011LS is our first product with SFP cage for gigabit SFP transceivers and ideal solution for FTTH (Fiber To The Home) implementations.

The RB2011LS has 11 ports: Gigabit SFP cage and five Gigabit Ethernet ports that can be switched together providing affordable wirespeed Fiber-to-Copper converter, and additional five Fast Ethernet ports. Board can be powered by power jack or PoE.

Note that SFP transceiver is NOT included. RB2011LS supports any 1.25G SFP transceivers that is within the SFF Committee specifications for SFP Transceivers. RB2011LS doesn’t have hardware support for PON (Passive Optical Network) - this hardware support MUST be implemented on SFP transceiver itself.

Tested and recommended to use with MikroTik SFP modules: S-85DLC05D, S-31DLC20D and S-35/53LC20D (not included)

It’s powered by the new Atheros next generation 600MHz 74K MIPS network processor and has 64MB of RAM and a Level4 RouterOS license.

RouterBOARD 2011LS-IN comes with desktop enclosure and power supply.

Wall mount kit for network closet is available for purchase as an optional accessory.

Product specifications

Details
Product code RB2011LS-IN
CPU speed 600MHz
RAM 64MB
Architecture MIPS-BE
LAN ports 5
Gigabit 5
MiniPCI 0
PoE 8-30V DC on Ether1
Voltage Monitor No
CPU temperature monitor No
PCB temperature monitor No
Dimensions 214mmx86mm
Operating System RouterOS
Temperature range -35C to +65C
RouterOS License L4
Current Monitor No
CPU AR9344
Max Power consumption 6W
SFP ports 1

Performance test results

RB2011LS-IN 100M + Gigabit Ethernet port test (600Mhz) RouterOS v6.0rc5  
Mode Configuration 64 byte 512 byte 1518 byte
kpps Mbps kpps Mbps kpps Mbps
Bridging none (fast path) 269.6 176.9 232 983.7 122 1499.1
Bridging 25 Bridge filter rules 87.6 57.5 86 364.6 83.6 1027.3
Routing none (fast path) 226.9 148.8 210 890.4 122 1499.1
Routing 25 Simple Queues) 106.6 69.9 103.9 440.5 100.5 1234.9
Routing 25 IP filter rules 60.5 39.7 59.6 252.7 56.8 698.0
  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