MikroTik

RouterBOARD 5009UPr+S+IN with Marvell Armada ARMv8 CPU, 1GB DDR4 RAM, 1GB NAND storage, 1x 2.5GLAN, 7x 1GLAN (802.3af/at PoE-Out & PoE-In), 1x SFP+ port, RouterOS L5, metal desktop case, PSU. Sale price while supplies last

Part Number: RB5009UPr+S+IN

List Price: $299.00

(Request quote for discounted pricing)

In Stock: 10 Available

Quantity

- +

RB5009UPr+S+INEmpowering the smaller ISPs!

This version of the RB5009 has all the bells and whistles of the previous model: Gigabit Ethernet, 2.5 Gigabit Ethernet, and a 10 Gigabit SFP+ cage for fiber connectivity. It has the speed, the power, and the durability. But this time, we have added PoE-in & PoE-out on all eight Ethernet ports. Combined with the 2-pin connector and the DC jack, you’re getting 10 separate ways of powering. Dual redundant power supplies would usually take your uninterrupted uptime to the next level. RB5009UPr+S+IN takes it one step above that!

All power options support a wide voltage range of 24 – 57 V. However, you can not mix the voltages. If you’re using PoE-out to power other devices, the board will choose the source with the highest voltage (DC jack or the 2-pin connector) to power those.

Each PoE-out port can supply up to 25W of power. All the ports combined are limited to 130W, which should be enough for most setups. You can specify maximum available power from your power sources manually, if necessary. When it comes to PoE-out features, the new RB5009 can trade blows with our legendary PoE switches: CRS354 & CRS328. In the smallest possible form-factor and for the best price on the market!

Protect your uptime, protect your tranquility!

So, what exactly happens if there is a problem with one of your power sources? Here’s a quick example: you have 24V on the DC jack, 48V on the 2-pin connector, and 57V on the PoE-in. The board itself gets powered by the highest voltage input – the PoE-in. If there’s a problem, RB5009 will fall back to the second highest voltage – the 2-pin connector. And if that fails – there’s the 24V option on the DC jack.

What about the PoE-out devices? Once again – the highest voltage wins. PoE-out devices will draw power from the 48V source on the 2-pin connector. If that fails – the 24V on the DC jack come into play. The board will always reserve 20 watts to power itself. If there is not enough power for all the PoE-out ports, it will start disabling the ones with the lowest priority. You can set the port priority manually.