Comparison Ubiquiti EdgeRouter X SFP vs Ubiquiti EdgeRouter X

How the router connects to the Internet or other external network.

Almost all modern routers have ethernet network connectors for this purpose, however, in addition to them, other connection options can be provided — both wired ( ADSL, SFP / SFP + optics) and wireless (mobile access via 3G / 4G modem or SIM card). Here are the features of each option:

— Ethernet. A standard LAN network cable connector (“twisted pair”) is the most popular modern wired connection format in computer networks. Widely used both in "local" and to provide access to the Internet. This standard is somewhat inferior to SFP / SFP + (see below) in terms of speed and noise immunity, but it is much cheaper. The speed of work in modern versions of Ethernet can reach 10 Gbps (see "Connection speed of WAN ports"), theoretically, a further increase in throughput is possible.

— SFP / SFP + (optics). A connector for transmitting network traffic over a fiber optic cable. The main advantage of such a cable is complete insensitivity to electromagnetic interference. And data transfer rates can reach 2.7 Gbps in the original SFP and 16 Gbps in SFP+. At the same time, maintaining this standard is not cheap, and the benefits mentioned are not often needed in fact. Therefore, SFP / SFP + is found mainly...in mid-range and top-level routers.

— ADSL. Connecting to the Internet through a fixed telephone network using ADSL technology. The key advantage of this connection is the ability to use existing networks without laying additional wires; at the same time, Internet access is completely separated from telephone communication and traffic does not interfere with voice calls. On the other hand, the bandwidth of ADSL is very low by modern standards (less than 24 Mbps), moreover, the data transmission speed is noticeably lower than the reception speed. This can create problems for video communication and some other specific tasks. So nowadays ADSL is used less and less.

— 3G/4G modem (USB). Internet connection via mobile network using a separate 3G or 4G modem connected to the USB port. This feature can be useful where there is no full-fledged wired connection (for example, in rural areas), and also as a fallback option in case the main communication channel fails. And the type of network supported depends mainly on the modem used (the compatibility of the router with different models needs to be specified separately, but most often there are no problems with this). As for specific types of networks, most 3G modems work in UMTS networks (the same ones that are massively used by mobile phones); the data transfer rate in such networks can reach 75 Mbit / s (however, usually it is much lower). Less common are 3G modems for EV-DO networks based on CDMA — this standard has lower speeds (up to 14.7 Mbps) and not as extensive coverage as UMTS, however, both the equipment and the connection itself can be cheaper. And the designation "4G" means only one type of networks — LTE; it provides speeds up to 173 Mbps, but is not as widespread as 3G.

— SIM card. Another option for connecting to the Internet via mobile networks is its own SIM card slot provided in the design of the router. This option is convenient because you do not need to buy an additional device (modem) for mobile Internet — you just need to purchase an operator's SIM card. On the other hand, due to the built-in mobile communication modules, such routers themselves are more expensive than analogues for USB modems. In addition, the connectivity options in them are limited by the characteristics of the module: for example, a router for 3G networks will not be able to fully use 4G networks (whereas a USB modem can usually be changed to a more advanced one). As a result, this option is relatively rare in modern equipment.

The standard for the PoE input provided in the device.

By itself, PoE (Power over Ethernet) technology makes it possible to transfer not only data over an Ethernet network cable, but also energy to power network devices. And the presence of a PoE input allows the router itself to receive power in a similar way. Note that there are special devices - the so-called PoE injectors - that allow you to add power to a regular network signal (that is, add PoE support to equipment that does not initially have such a function).

As for the PoE standards, they determine both the power supply and the main possibilities for coordinating the power source with the consumer - both must support the same standard, otherwise normal operation will be impossible. At the same time, formats that are marked like “802.3*” are called active; their common feature is that when a load is connected, the power source first “interrogates” it, checking whether the powered device complies with the requirements of the corresponding standard, and if so, what kind of power should be supplied to it. There is no such feature in the passive standard. And here is a more detailed description of specific options:

— 802.3at. A standard originally released back in 2009 and known as PoE +, or PoE type 2. The standard power received at this input is 25.5 W, with a voltage of 42.5 to 57 V and a pair power of up to 600 mA.

— 802.3af/at. This...marking means that the PoE input supports both the 802.3at standard described above and the earlier 802.3af (PoE type 1). The second format is noticeably more modest in terms of capabilities: it provides power at the power input up to 13 W, input voltage 37 - 57 V and power in a pair of power wires up to 350 mA. Despite their "venerable age", many devices with 802.3af outputs are still in use today; so for the power input of the router, compatibility with this standard may not be superfluous. We only note that 802.3af covers as many as four so-called power classes (from 0 to 3), which differ in the specific number of watts at the output and input. So when connecting power from a device with this PoE standard, it does not hurt to further clarify compatibility by power class.

— Passive. The most simple and inexpensive standard, designed to be used mainly in entry-level equipment (since the implementation of active PoE standards is generally expensive). As mentioned above, the key difference from the formats described above is that the power supply supplies energy "as is" - with a strictly fixed voltage and power, without checking the characteristics of the load and without adjusting to it. This is what ensures low price and availability. On the other hand, when using a passive PoE input, care must be taken to ensure that the voltage and power of the power supply match the characteristics of the router; and such coordination can be quite difficult in light of the fact that the passive standard does not have strictly defined standards even for voltage, not to mention power. At the same time, the inconsistency leads to the fact that in the best case (if the output voltage / power is lower than tech required for the load), the power simply will not work, and in the worst case (with excess voltage / power), there is a high probability of overloads, overheating, and even breakdowns with fires - moreover such troubles may not occur immediately, but after a fairly considerable time. So you should pay attention to this option first of all in cases where simplicity and accessibility are more important than advanced power supply standards. At the same time, we note that some switches, which, in addition to the passive input, also have a passive PoE output, allow “cascade” connection - in the form of a serial chain of several devices powered by one external source (the main thing is that this source has enough power).

Separately, we emphasize that you should not try to connect an active power source to a passive input, and even more so vice versa. In the first case, the device simply will not pass the test that is carried out before power is applied, and the power will not turn on. And in the second case, serious failures and even accidents are possible: a passive power source supplies energy immediately, without checking the characteristics of the powered device, which creates the risk of overloads if the operating parameters do not match.

The PoE output(s) standard used by the router.

By itself, PoE (Power over Ethernet) technology allows you to transfer not only data over an Ethernet network cable, but also energy to power network devices. And the presence of a PoE output (outputs) makes it possible to power such devices from the network connectors of the device. This eliminates the need to lay additional wires or use independent power sources, which is especially important for some equipment, such as external IP surveillance cameras. And when using the so-called splitters - devices that divide the PoE cable signal into purely network data and power power - using such outputs, you can also power equipment that does not initially support PoE (the main thing is that their power characteristics correspond to the capabilities of the switch).

As for PoE standards, they determine not just the overall power supply, but also compatibility with specific devices: the consumer must support the same standard as the router, otherwise normal operation will be impossible. Nowadays, including in the connectors of "switches", you can find two types of such standards - active (802.3af, 802.3at, 802.3bt) and passive (one, that's what it's called). The main difference between these varieties is that active PoE provides for matching the power source and load in terms of voltage and power, while passive PoE does not have such functions, and energy is supplied “as is”, wi...thout adjustments. And here is a more detailed description of specific standards:

— 802.3af. The oldest active PoE power format in use today. It provides power at the power output up to 15 W (at the input of the consumer - up to 13 W), output voltage 44 - 57 V (at the input - 37 - 57 V) and power in a pair of supply wires up to 350 mA. Despite the "venerable age", it still continues to be widely used; so there are still quite a lot of routers that work only with 802.3af on sale (as of the end of 2021). However, it is worth considering that this standard immediately covers 4 so-called power classes (from 0 to 3), which differ in the maximum number of watts at the output and input. So when using 802.3af, it doesn't hurt to make sure that the output power will be sufficient for the selected load.

— 802.3af/at. A combination of two standards at once - the 802.3af described above and the newer 802.3at. The latter allows you to supply power up to 30 W (up to 25.5 W at the input of the powered device), uses a voltage of 50 - 57 V (42.5 - 57 V at the input), while the power in a pair of wires does not exceed 600 mA. Such a combination is relatively inexpensive, while it makes it possible to power a wide variety of external devices; so at the end of 2021, it is this type of PoE outputs that is most popular in routers.

— 802.3af/at, bt. Combination of 802.3af/at above with 802.3bt (PoE++, PoE type 3 or type 4). 802.3bt is the newest PoE power format; unlike earlier ones, it uses not 2, but 4 power wires, which allows you to supply very solid power to external devices - up to 71 V (at 90 W at the power output). Such capabilities are indispensable when supplying power to equipment with increased consumption - for example, external surveillance cameras, supplemented by heating systems. On the other hand, support for the 802.3bt standard significantly affects the cost of the device, and such a connection puts forward special requirements for the quality of cables. In addition, you need to keep in mind that this standard also includes the UPoE format created by Cisco and used in its equipment; and this standard (it is known as PoE type 3) has a more modest power - up to 60 W at the output (up to 51 W at the consumer's input). Yes, and the general standard 802.3bt includes two power classes - class 8, at which maximum performance is achieved, and class 7, where 75 watts are supplied to the output, and about 62 watts reach the consumer. So if you plan to use 802.3bt equipment, when choosing a router from this category, you must make sure that the power supply is enough for the connected devices to work properly.

— Passive. As already mentioned, the key difference between passive PoE and the active standards described above is that in this case the power output produces a strictly fixed power, without any automatic adjustments and adjustments for a specific device. The main advantage of this standard is its low cost: its implementation is much cheaper than active PoE, so such ports can be found even in entry-level routers. On the other hand, the aforementioned lack of auto-tuning makes it much more difficult to coordinate the equipment with each other - especially in light of the fact that different devices can differ markedly in the output / consumption of voltage and power (power). Because of this, when using passive PoE, you need to pay special attention to the compatibility of the source and load in these parameters. If there is no match, then in the best case (if the output voltage / power is lower than required), the power simply will not work, and in the worst case (with excess voltage / power), there is a high probability of overloads, overheating, and even breakdowns with fires - and such troubles may not occur immediately, but after a fairly long time. And it is definitely impossible to connect devices with active inputs to passive PoE outputs - for the same reasons.

In conclusion, it should be said that if the router has both an input with PoE support and several outputs with this function, then all the possibilities of such outputs, as a rule, can only be realized when the switch itself is powered from the outlet, and not from the PoE input. See "PoE Outputs" for details.