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Comparison Ubiquiti UniFi Switch 48 PoE vs Aruba Instant On 1830-48G-4SFP 24P-PoE

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Ubiquiti UniFi Switch 48 PoE
Aruba Instant On 1830-48G-4SFP 24P-PoE
Ubiquiti UniFi Switch 48 PoEAruba Instant On 1830-48G-4SFP 24P-PoE
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Main
Cloud management, mobile app available.
Typemanaged 2 level (L2)managed 2 level (L2)
Mountrack-mountrack-mount
Bandwidth104 Gbps104 Gbps
MAC address table size16K
Ports
Gigabit Ethernet4848
SFP (optics)44
Uplink4
Uplink typeSFP
Features
Control
Web interface
SNMP
Web interface
SNMP
Basic features
Link Aggregation
VLAN
loop protection
access rate limit
Link Aggregation
VLAN
loop protection
 
PoE
PoE (output)802.3af/at802.3af/at
PoE outputs3224
PoE output power32 W30 W
Total PoE power195 W370 W
General
PSUbuilt-inbuilt-in
Supply voltage100 – 240 В100 – 240 В
Power consumption45 W462 W
Operating temperature-5 °C ~ +40 °C0 °C ~ +40 °C
Dimensions (WxDxH)442x285x44 mm443x351x44 mm
Weight4520 g4940 g
Added to E-Catalogaugust 2023january 2023
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Ubiquiti UniFi Switch USW-48-POE Fanless

(48) Gigabit Ethernet ports including (32) 802.3at PoE + (4) 1G-SFP ports Works with UniFi Network Controller
Amazon.co.uk
Delivery: to United Kingdom
Report
£611.08

Ubiquiti Networks UniFi USW-48-POE network switch Managed USW-48-PoE

USW-48-PoE...
Senetic.co.uk
Delivery: to United Kingdom
Report
£550.24

Ubiquiti UniFi USW-48-PoE 48-Port Cloud Managed Rackmount Gigabit PoE+ Swi

Expand and power your network with the UniFi® PoE Switch, part of the Ubiquiti® UniFi Enterprise System.
Awd-it.co.uk
Delivery: to United Kingdom
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£639.99

Ubiquiti UniFi USW-48-POE network switch Managed L2 Gigabit Ethernet (

Ubiquiti UniFi USW-48-POE network switch Managed L2 Gigabit Ethernet (10/100/1000) Power over Ethernet (PoE) 1U Stainless steel
Smartteck.co.uk
Delivery: to United Kingdom
Report
£545.30

Ubiquiti KILUBQSWI0033

A 48-Port, Layer 2 Poe Switch With A Silent, Fanless Cooling System.Features:- Gbe, Poe+ Rj45 Ports- Gbe Rj45 Ports- 1g Sfp P... moreorts- 195w Total Poe Availability- 1.3´´ Lcm Color Touchscreen With Ar Switch ManagementSpecifications:Mechanical:- Dimensions: 442.4 X 285 X 43.7 Mm (17.42 X 11.22 X 1.72´´)- Weight: Without: Rackmount Brackets4.52 Kg (9.97 Lb)- With Rackmount Brackets: 4.61 Kg (10.16 Lb)Hardware:- Networking Interface: (48) 10/100/1000 Rj45 Ports- (4) 1g Sfp Ethernet Ports- Management Interface: Ethernet In-Band- Total Non-Blocking Throughput: 52 Gbps- Switching Capacity: 104 Gbps- Forwarding Rate: 77.38 Mpps- Power Method: 100-240vac, 50/60 Hz, Universal Input- Power Supply: Ac/Dc, Internal, 240w- Supported Voltage Range: 100 To 240vac- Max. Power Consumption- (Excluding Poe Output): 45wLeds:- Rj45 Data Ports- Sfp Data Ports: - Poe, Speed/Link/Activity- Link/Activity- Esd/Emp Protection: Air: ± 16 Kv, Contact: ± 12 Kv- Shock And Vibration: Etsi300-019-1.4 Standard- Operating Temperature: -5 To 40° C (23 To 104° F)- Operating Humidity: 10 To 90% Noncondensing- Certifications: Ce, Fcc, IcPoe:- Total Available Poe: 195w- Poe Interfaces- Ports 1-32: - Poe/Poe+ (Pins 1, 2+, 3, 6-)- Max. Poe Wattage Per Port By Pse- Poe+: - 32w- Voltage Range Poe Mode: 44-57v- Voltage Range Poe+ Mode: 50-57v
Tradeinn.com
Delivery: in United Kingdom
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£693.49
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MAC address table size

The maximum number of MAC addresses that can be stored in the Switch's memory at the same time. Specified in thousands, for example, 8K — 8K.

Recall that the MAC address is the unique address of each individual network device used in physical routing (at layer 2 of the OSI network model). Switches of all types work with such addresses. And it is worth choosing a switch according to the size of the table, taking into account the maximum number of devices that are supposed to be used with it (including based on the possible expansion of the network). If the table is not enough, the switch will overwrite new addresses over the old ones, which can noticeably slow down the work.

Uplink

The number of Uplink connectors provided in the design of the switch.

“Uplink” in this case is not a type, but a connector specialization: this is the name of the network interface through which the switch (and network devices connected to it) communicate with external networks (including the Internet) or network segments. In other words, this is a kind of "gate" through which all traffic from the network segment served by the switch is transmitted further. Uplink, in particular, can be used to connect to a similar "switch" (for horizontal network expansion) or to a higher level device (like a core switch).

Accordingly, the number of Uplink connectors is the maximum number of external connections that the switch can provide without using additional equipment. The specific type of such a connector may be different, but this is usually one of the varieties of LAN or SFP; see "Uplink type" for details.

Uplink type

The type of connector(s) used as the Uplink interface on the switch.

For more information about such an interface, see above; Here we note that the same network ports are usually used as Uplink as for connecting individual devices to the switch. Here are the main options for such connectors:

— Fast Ethernet — LAN network connector (for twisted pair cables) supporting speeds up to 100 Mbit/s. This speed is considered low by modern standards, while the Uplink port places increased demands on throughput - after all, traffic from all devices served by the switch passes through it. Therefore, in this role, Fast Ethernet ports are used mainly in inexpensive and outdated models.

— Gigabit Ethernet — LAN connector supporting speeds up to 1 Gbit/s. This speed is often sufficient even for a fairly extensive network, while the connectors themselves are relatively inexpensive.

— 2.5 Gigabit Ethernet — LAN connector supporting speeds up to 2.5 Gbit/s.

— 10Gigabit Ethernet — LAN connector supporting speeds up to 10 Gbit/s. Such features allow you to work comfortably even with very large volumes of traffic, but they significantly affect the price of the switch. Therefore, this option is rare, mainly in high-end models.

— SFP. A connector for a fiber optic cable that supports speeds of about 1 Gbit/s. At the same time, over Gigabit Ethernet, which has a similar throughput, this connector has one noticeable advantage - a...longer connection range (usually up to 550 m).

- SFP+. Development of the SFP standard described above. Switches usually provide a connection speed of 10 Gbit/s; like the original standard, it noticeably exceeds the effective range of an Ethernet connection. On the other hand, the real need for such speeds does not arise so often, and SFP+ is quite expensive. Therefore, the presence of such Uplink connectors is typical mainly for high-end models with a large number of ports.

- SFP28. Another development of SFP with increased throughput up to 25 Gbit/s.

- QSFP / QSFP+. The fastest SFPs up to 40 Gbit/s.

Note also that the connectors described above (except perhaps Fast Ethernet) are rarely used as the only type of Uplink input. Combinations of electrical and fiber optic ports—SFP/Gigabit Ethernet and SFP+/10Gigabit Ethernet—have become noticeably more widespread. This provides versatility in connection, allowing you to use the most convenient type of cable in a given situation; and if necessary, of course, you can use all Uplink inputs at once. However, it is worth considering that in some models, Ethernet and SFP interfaces can be combined in one physical connector. So before purchasing, it doesn’t hurt to clarify this nuance separately.

There are also switches that use a combination of two types of SFP - SFP/SFP+; however, there are few such models and they are mainly of the professional level.

Basic features

DHCP server. A feature that makes it easy to manage the IP addresses of devices connected to the switch. Without its own IP address, the correct operation of the network device is impossible; and DHCP support allows you to assign these addresses both manually and fully automatically. At the same time, the administrator can set additional parameters for the automatic mode (range of addresses, maximum time for using one address). And even in fully manual mode, work with addresses is performed only by means of the switch itself (whereas without DHCP, these parameters would also have to be specified in the settings of each device on the network).

Stacking support. The ability to operate the device in stack mode. A stack consists of several switches that are perceived by the network as one “switch”, with one MAC address, one IP address, and with a total number of connectors equal to the total number of ports in all involved devices. This feature is useful if you want to build an extensive network that lacks the capabilities of a single switch, but do not want to complicate the topology.

Link Aggregation. Switch support for link aggregation technology. This technology allows you to combine several parallel physical communication channels into one logical one, which increases the speed and reliability of the connection. Simply put, a switch with such a fun...ction can be connected to another device (for example, a router) not with one cable, but with two or even more at once. The increase in speed in this case occurs due to the summation of the throughput of all physical channels; however, the total speed may be less than the sum of the speeds — on the other hand, combining several relatively slow connectors is often cheaper than using equipment with a more advanced single interface. And the increase in reliability is carried out, firstly, by distributing the total load over individual physical channels, and secondly, by means of "hot" redundancy: the failure of one port or cable can reduce the speed, but does not lead to a complete disconnection, and when the channel is restored, the channel is switched on automatically.
Note that both the standard LACP protocol and non-standard proprietary technologies can be used for Link Aggregation (the latter is typical, for example, for Cisco switches). In addition, there are quite a few alternative names for this technology — port trunking, link bundling, etc.; sometimes the difference is only in the name, sometimes there are technical nuances. All these details should be clarified separately.

VLAN. Support of the VLAN function by the switch — virtual local area networks. In this case, the meaning of this function is the ability to create separate logical (virtual) local networks within the physical "local area". Thus, it is possible, for example, to separate departments in a large organization, creating for each of them its own local network. The organization of VLAN allows you to reduce the load on network equipment, as well as increase the degree of data protection.

— Protection against loops. The switch has a loop protection function. The loop in this case can be described as a situation where the same signal is launched in the network in an endless loop. This may be due to incorrect cable connection, the use of redundant links and some other reasons, but anyway, such a phenomenon can “put down” the network, which means it is highly undesirable. Security prevents loops, usually by disabling looped ports.

— Limiting the speed of access. The ability to limit the data exchange rate for individual switch ports. Thus, it is possible to reduce the load on the network and prevent the "clogging" of the channel by individual terminals.

Note that the matter is not limited to this list: other features may be found in modern switches.

PoE outputs

The number of PoE-enabled outputs (see above) provided in the design of the switch. This number corresponds to the maximum number of PoE network devices that can be connected to this model at the same time.

PoE output power

The PoE power (see above) provided by the switch to each individual PoE output. This indicator allows you to evaluate whether a particular device can be connected to such an output — the power consumption of the load in peak mode should not exceed the output power of the port. There are three standards EEE 802.3af ( PoE, ~15W), IEEE 802.3at ( PoE+, ~30W) and IEEE 802.3bt ( PoE++, ≥40W)

Note that when connecting several PoE devices at the same time, the total PoE power must also be taken into account — see below for more details.

Total PoE power

The total output power provided by the switch when powering devices using the PoE standard (see above).

This indicator usually corresponds to the sum of the powers of all outputs — that is, the power of one PoE port, multiplied by their total number. However, the power limits for one output and for the entire switch are somewhat different: if a load with a power equal to the output power of the power supply on this connector can be connected to a single connector, then the total power consumption of all devices connected via PoE should ideally not exceed 75% of the total power supply — this gives an additional guarantee in case of malfunctions. In fact, this means that all PoE outputs cannot be used “to the fullest” at the same time. For example, if there are two such outputs, and one is loaded at 100%, then the second can be loaded with a maximum of 50% — the total power consumption in this case will be the same 75% of the total output. Therefore, a large total power is needed when using the device to the maximum.

Power consumption

Power consumed by network equipment during operation. Knowing the indicator of energy consumption, you can, for example, calculate the battery life of equipment from an uninterruptible power supply or choose a suitable “uninterruptible power supply”.

Operating temperature

The range of operating temperatures allowed for the switch, in other words, the air temperature at which the device is guaranteed to remain operational.

All modern switches are able to normally endure conditions that are comfortable for a person. Therefore, you should pay attention to this indicator, first of all, in cases where the conditions at the installation site of the switch will differ markedly from home / office; a typical example is the placement of ISP equipment in the attic of a multi-storey building. At the same time, special attention should be paid to the lower limit of the temperature range — not every device is able to operate at sub-zero temperatures. If we talk about specific numbers, then for an unheated room frost resistance is desirable at least at the level of -5 °C, and ideally — — 20 °C(although, of course, this also depends on the climate).

Also note that, in addition to temperature, most switches have restrictions on the relative humidity of the air; these restrictions are usually specified in the documentation.