Månadsvis arkiv: maj 2018
With increasing privacy awareness and demand for security monitoring, IP surveillance has been widely used in the current society: in public supermarket, hotel, enterprise and even home. PoE network switch is used to provide both power and data connection to IP cameras in surveillance system. For small and medium-sized business or home application, 8 port PoE switch is a good choice.
Figure 1: Using FS 8 port PoE switch for IP surveillance.
Why Use 8 Port PoE Switch for IP Surveillance?
Usually, 8 port PoE switch is used for supply power to powered devices (PD) for placing flexibility, including IP phones, IP phones and wireless access points (WAP). Some vendors like FS provide 8 port PoE switch with high resistance to electromagnetic interference and severe environment adaptability. This guarantee the smooth operation of weather-proof IP cameras and the stability of the whole IP surveillance system. Moreover, with all IP surveillance components centralized together with PoE switch, it is more convenient for management and control.
What Are the Considerations for Choosing 8 Port PoE Switch?
For an IP surveillance system with very few IP cameras, one can simply add a PoE injector (midspan) between the non-PoE Ethernet switch and IP cameras. This is a cost-effective solution for elementary IP surveillance system because an 8 port PoE switch is usually more expensive than a PoE injector. However, what about more than 4 IP connections are required? In this case, PoE switch 8 port is absolutely a better way to go. Here are some considerations one should refer to while selecting a proper 8 port PoE switch for IP surveillance.
Knowing the power consumption of each IP camera helps to choose an 8 port PoE switch with corresponding per port power consumption and the total power budget. The power consumption of PoE IP cameras can reach up to 20W (PTZ IP cameras RLC-423), and be as low as 3 or 4W. Just remember that your 8 port PoE switch should be able to provide power for each IP camera and won’t exceed its total power budget.
There are two PoE standards: IEEE802.3af and IEEE802.3at. IEEE802.3af PoE standard can deliver 15.4W maximum power on each port of the switch, and 12.95W power available at PDs. IEEE802.3at is a PoE+ standard with 30W per port and 25.5W available for transmission. Each PoE switch has power consumption specifications for per port and as a whole. For example, FS S1130-8T2F 8 port PoE switch complies with both IEEE802.3af and IEEE802.3at. Per port maximum power consumption is 30W and total budget of the PoE switch is 130W. For higher power budget, FS S1250-8T2F 8 port PoE switch can reach up to 250W. Make sure the maximum power supply of the whole switch is more than your IP cameras’ budget, or some of your IP cameras may won’t be provided with enough power. This is also the cause for poor performance and video loss.
Unmanaged 8 port PoE switch is a “dumb” plug-and-play one with fixed configuration, which runs in the most basic form with no management functionality. Managed one is an advanced version with superior functionality, configuration customization and remote security control. For heavy-workload networks with management requirement, managed 8 port PoE switch is obviously a future-proof way to go. It is noted that smart partly-managed PoE switch is a choice for functional and cost-efficient concerns. But for IP surveillance, choosing managed 8 port PoE switch is and will continue to be a future-proof solution.
There are other factors one may concern about, such as 1U form factor for space budget and stackable one for network expansion. Customized demand may be required for some special occasions. For instance, a fanless design is important for silent operation in libraries, classrooms and laboratories. FS S1130-8T2F 8 port PoE switch can meet the need. The best way is to list all those points you care about, then check each one for the targeted PoE switch.
How to Install 8 Port PoE Switch in IP Surveillance System?
An IP surveillance system comprises PoE switch, IP cameras, NVR and Ethernet cabling. To illustrate how to use PoE switch for IP surveillance, we’ll take FS S1130-8T2F 8 port PoE switch as example. This PoE+ switch has 8 x 10/100/1000Base-T RJ45 Ethernet ports and 2 x gigabit SFP ports, with IEEE 802.3af/at compatible, which means it supports 30W maximum power consumption.
To set up an 8 port PoE switch for IP surveillance, you can refer to the following tips. First connect all IP cameras and NVRs with RJ45 ports on PoE switch. Then connect LAN/WAN with SFP ports. It is noted that for non-PoE cameras, a splitter is required as a medium to connect PoE switch with IP camera. The following picture shows the detail information for installation.
Figure 2: Installing FS S1130-8T2F 8 port PoE switch for IP Surveillance.
PoE switch provides placement flexibility, space and cost saving, and management convenience to IP surveillance system. For buying 8 port PoE switch, one should concern about power consumption of IP cameras and PoE switch, managed one for superior functionality and other customized requirements. Generally an 8 port PoE switch can satisfy a small sized IP surveillance system. For medium and bigger sized systems, FS also provides managed PoE switch with 24 and 48 port. Welcome to visit our official website for more detail information.
In data centers, there are a lot of electrical devices and each one requires a power supply cable and at least one connection wire for transmission. It’s a disaster to see all those wires scattering all over the floor and tangling together. To introduce Power over Ethernet technology, we can cut down the number of wire drops and simplify the management control. So what’s the practical methods for adding PoE to your network? Read the following passage, to learn about the two solutions: adopting PoE switch or PoE injector.
Overview of PoE Implement Method
PoE requires PoE-enabled networking devices for power supply on the Ethernet cable. To realize this technology, there are two types of power sourcing equipment (PSE) for adopting: endspan (IEEE 802.3af refers to it as “endpoint”) and midspan. Endspan is an Ethernet switch that has built-in PoE data transmission circuitry. A midspan is an intermediary device between a non-PoE switch and powered devices (PD). Thereinto PoE injector is a frequently used available external midspan device.
Adding PoE by PoE Switch (Endspan)
When you need to set up a new Ethernet network with power over Ethernet technology or you want to upgrade system and replace older non- PoE switches, employing endspan is a good choice. How to add PoE to your network by PoE switch? Just connect it to other network devices, and the switch itself will figure whether they are PoE supportable devices and control power automatically. There are various types of PoE switch available, ranging from “dumb” unmanaged one, smart partly managed one and fully managed one with advanced management. It is also various from port quantity, such as 8, 16, 24 and 48 port.
It is noted that the PoE+ switch is a PoE plus switch for providing up to 30W power consumption. For example, FS S1130-8T2F 8 port PoE switch is a managed PoE+ switch with 2 SFP port, IEEE 802.3at complied and IEEE 802.3af backward compatible. It has maximum power supply of 130W and switching capacity of 20Gbps. FS S1130-8T2F supports various PoE devices and is best fit for network equipment such as wireless APs, IP phones and weather-proof IP cameras.
Adding PoE by PoE Injector (Midspan)
If you don’t want to discard your already used network switch and only PoE capability is needed to be added, you can simply adopt midspans. PoE injector is a device that can add electrical power while receiving signal from one end of the cable, and then deliver both the data signal and the power via the other end of the cable. Instead of PoE switch, midspan can also be used as an economical and functional solution where only a few PoE ports are in demand. How to add PoE to your existing LAN by PoE injector? First, power on PoE injector and non-PoE Ethernet switch respectively, next connect them via an Ethernet cable. Then connect PDs such as IP phones with PoE injector and finally the system can run as a whole.
In the case of older end devices are not PoE-ready, a splitter can be helpful for adding PoE to your network. To apply a splitter onto the end of the Ethernet cable will enable signal and power to be split into two different lines.
This figure shows the installation of PoE switch vs PoE injector for adding PoE to network.
PoE Switch or PoE Injector: Which to Employ?
After diving into each respectively, we made a comparison of PoE switch vs PoE injector for concerning about adding PoE to network.
|PoE Switch||PoE Injector|
|Management and Control||Easy for management (power and transmission)||Requiring separate two wires for powering on switch and PoE injector|
|Implement Method||Upgrade to PoE network by replacing the old Ethernet switch with PoE switch||Install PoE injector to add PoE capability to the existing non-PoE switch|
|Emergency Reaction||Potential chance of the whole system’s outage||Only one device be affected|
For most concerns about cost-efficiency and PoE capability required, you can go for PoE injector. However, for upgrading system and future-proof superior functionality concern, PoE switch is obviously a better choice.
Both PoE switch and PoE injector are power sourcing equipment for adding PoE to a network. PoE switch is an endspan, naturally fitting for new set-up or upgrade-needed network. PoE injector is a midspan, better fitting for existing non-PoE network without switch replacement requirement. For PoE switch purchase, FS.COM is a reliable vendor providing a wide rage of types for different demands. Any other information to know, just visit our official website and blog.
Catching a glance of the modern network devices, one will see different ports are built in for different connection. For instance, we got USB interfaces in cellphones and RJ45 ports in copper switch. But how about SFP port? SFP port is built-in interface in various devices including gigabit switch, SFP switch, network interface card (NIC). This article will focus on the understanding of SFP ports on SFP switch.
What Are SFP Ports on SFP Switch?
SFP port (mini-GBIC port), a small form-factor hot pluggable interface, is designed for high speed and density SFP connection. It is typically built in 10Gb switch with SFP+ uplinks. Different from RJ45 ports for copper connection only, SFP ports on SFP switch support both copper and optical links. When SFP ports on SFP switches are inserted into SFP modules with electrical ports, Ethernet copper cables (Cat5e/Cat6/Cat7) are needed for data transmission. When SFP ports are plugged by SFP optical modules with optical ports, fiber patch cables are required for data transmission. Counting to this feature, SFP ports empower SFP switches the switching function to connect various Ethernet and fiber cables through the network. For the fiber one, single mode fiber (SMF) and multimode fiber (MMF), 1GE and 10 GE speed are all compatible. Moreover, it contributes to the adaptability of either short distance transmission by deploying RJ45 SFP or long distance transmission by fiber SFP.
Figure 1: This is a demonstration of SFP ports on FS SFP switch plugged by fiber SFP modules, then connect single mode fibers for data transmission.
SFP Ports Advantages on SFP Switch
Compared with early GBIC module port, SFP port for SFP module has much lower volume ratio. This small-sized optimization enables 2 times the density for SFP ports configuration on the same patch panel. Thus also expands the whole data capacity. Besides, SFP port is an I/O device, which is hot-swappable. Moreover, SFP ports on SFP switches can be exchanged with different port types, such as 1000Base-SX, 1000Base-LX/LH, 1000Base-ZX and 1000BX10-DU.
Fiber SFP plugged into SFP port on SFP switch usually connects with a fiber cable, which delivers data in light rather than electrical signal. First, for reliability concern, it largely diminished data loss and electromagnetic interference. Second, for security concern, fiber jumpers are less likely to catch on a fire than copper cables in severe environment. Sensitive data information is also more difficult to be illegally filched.
Gigabit switch often has built-in SFP ports and SFP+ ports. They can support the load blancing of redundant links. Even though currently you only need 1GE network, for the concern of later system upgrade and future-proof technology, 10GE SFP+ ports are necessary for SFP switch.
How to Use SFP Ports on a SFP switch?
To illustrate the usage of SFP ports on a SFP switch, taking FS S5800-48F4S 10gb switch as an example. FS S5800-48F4S 48 port gigabit SFP switch comes with 48 x 1GbE SFP ports and 4 x 10GbE SFP+ ports. It has a 176Gbps switching capacity with low latency in a cmpact of 1U form factor. It is a 10GbE L2/L3 carrier access switch designed for a variety of data center enterprise Ethernet networks, including MPLS, IPv4/IPv6, sFLOW, PIM-SM, PIM-SSM. To use SFP ports on FS S5800-48F4S SFP switch, there are two solutions for network application.
S5800-48F4S can not only provide access points for high density GE servers, but also 4 x 10GE uplink points to Aggregation or Core switches.
Figure 2: Using S5800-48F4S for data center access network topology as ToR access devices.
S5800-48F4S is ideal for service provider Metro Ethernet access deployment, allowing providers to offer convergent application portfolio to their enterprise or individual users. Typically S5800-48F4S SFP switch is installed in a building basement, which serves many customers in the branch building or at the head office. To use SFP switch, corresponding modules are required for connecting cables with SFP ports. Table below lists the FS supported SFP and SFP+ modules for S5800-48F4S SFP switch SFP ports and SFP+ ports.
From the above illustration, SFP port on SFP switch is a port type to cater for high-capacity long-reach networks. It can be either connected to Ethernet copper cable with RJ45 SFP module, or optical fiber cable with fiber SFP module. Thus it supports both short and long reach distance. It also owns the pros of small size, hot-pluggable capability, high reliability and security. FS S5800/S5850/S8085 series SFP switches are high compatible with mainstream band switches such as Cisco and Juniper. If you have any need in SFP switch, FS.COM can be a good choice.
Among all the port types of Ethernet switch, the 24 port gigabit switch plays a really important role in expanding both enterprise and home network. For enterprise network, deploying several 24 port switch versus 48 port switch not only saves you money, but also provides you backup switches in network outages and separate placing flexibility. As for home network, 24 port switch offers you more spare ports for upgrade and expansion even though currently you only has less than 16 drops. This article will recommend you four 24 port switches in terms of managed or unmanaged and PoE or non-PoE for various demands.
Managed 24 Port Switch Recommendation
FS S3800-24T4S 24 port gigabit stackable managed switch comes with 24 x 100/1000Base-T ports, 4 x 10GE SFP+ uplinks, 1 x console port and 2 x power supplies to allow dual power. If dual power is redundant, you can go for this mode’s single power version, which will save you 30 dollars. The switching capacity for a single S3800-24T4S switch is up to 128Gbps. Morever, the 4 SFP+ ports allow up to 4 S3800-24T4S switches stacked together as a whole. Thus proving up to 512 Gbps total switching capacity to your network and rackspace saving. It is designed to meet the demand of cost-effective gigabit access and aggregation for enterprise networks and operators. FS S3800-24T4S 24 port switch can be managed by both GUI command and web user interface, which is really user-friendly for concerns of interface as well as setting.
FS S1400-24T4F 24 port gigabit PoE+ managed switch , 400W comes with 24 x 10/100/1000Base-T RJ45 Ethernet ports, 1 x console port, 2 x combo ports and 2 x gigabit SFP (mini-GBIC) slots. This L2+ fully managed 24 port PoE switch features optimized intelligent function to improve key business application availability, sensitive data security and transmission efficiency. Besides, FS S1400-24T4F 24 port switch complies with PoE+ standard for higher power capacity than PoE standard. It is best fit for SMB, entry-level enterprise and home network to power devices such as wireless APs, IP cameras and VoIP phones.
Unmanaged 24 Port Switch Recommendation
Cisco SG112-24 24 port unmanaged switch has 24 x 10/100/1000 ports and 2 x combo gigabit SFP ports. It is a fixed-configuration switch with auto-negotiation, auto-uplink and cable diagnostics function. For any SMBs who just need the network to run automatically, this unmanaged non-PoE rack mountable 24 port switch will be a good choice. However, it is noted that for concerns of customized setting, security control and heavy load adaptability, you should avoid this version and go for the managed one.
Figure 1: Cisco SG112-24 24 port unmanaged switch with 2 SFP ports.
Cisco SG 110-24HP 24 port unmanaged PoE gigabit switch comes with 12 x 10/100/1000Base ports, 12 x PoE ports and 2 x gigabit SFP ports. The 24 port PoE switch has a switching capacity of 48 Gbps and forwarding capacity of 35.7 mpps with 100W PoE power budget. The 12 PoE ports support various powered devices such as APs and IP phones. This 24 port switch is a natural fit for anyone who wants to save the configuration trouble and requires for PoE features.
Figure 2: Cisco SG 110-24HP 24 port unmanaged PoE switch with 2 SFP ports.
This article is dedicated to recommend different types of 24 port gigabit switch for various demands, based on concerns of managed or unmanaged, PoE or non-PoE. It takes the managed one from FS.COM and unmanaged one from Cisco System as examples to offer reference for 24 port switch selection. Generally speaking, managed PoE one is more expensive than unmanaged non-PoE one for superior function. For most concerns of optimized performance and customization management, just go for FS managed 24 port switch, which is cost-effective with both PoE and non-PoE available.
Related article: Recommendations for 48 Port Switches
For the issue of choosing an optimal Ethernet switch, one usually refers to its demand for network capacity (1G, 10G, 40G or 100G) and port quantity. As for gigabit switch, a 16, 24 or 48 port switch is commonly used for small and medium sized enterprises (SMEs) to achieve both high performance and cost-efficiency. But how about 8 port gigabit switch? Are there any recommendations for it? This article will recommend 4 different 8 port gigabit switches for you in terms of managed or unmanaged and PoE or non-PoE.
Managed 8 Port Gigabit Switch Recommendation
DGS-1210-10 comes with 8 x 10/100/1000 Mbps gigabit ports and 2 x SFP ports. It is the latest generation of D-Link gigabit web smart non-PoE switch, characterized by D-Link Green 3.0 technology to save energy under non performance sacrifice. Moreover, for concerns of management and security, DGS-1210-10 8 port gigabit switch centralizes the pros of easy management, D-view 6.0 system and auto monitor VLAN (ASV) capability. This partly managed smart switch takes one step above “dumb” switch as well one step behind fully managed switch, thus it has absorbed both strengths. As a compromised gigabit switch, it is specially designed for SMEs.
Figure 1: D-Link DGS-1210-10 managed 8 port gigabit switch.
FS S1130-8T2F PoE+ managed 8 port gigabit switch comes with 8 x 10/100/1000 MbpsBase-T RJ45 Ethernet ports, 1 x console port and 2 x SFP ports. This fully managed PoE+ switch features long transmission distance of up to 120km, strong resistance to electromagnetic interference and superior performance stability. Besides, for concerns of noise, it is whisper-quite designed with no fans. It can easily placed in a rack, on a wall or on desktop, and is best fit for PDs such as WAP, IP phones and weather-proof IP cameras. FS S1130-8T2F has a maximum power consumption of 130W. If higher power budget is in demand, you can go for FS S1250-8T2F 8 port gigabit switch, which is up to 250W for your network expansion while only $30 extra cost is offed by FS.COM.
Unmanaged 8 Port Gigabit Switch Recommendation
Netgear GS108 is an auto-switching 10/100/1000 Mbps Ethernet switch, targeted at business with plug-and-play and no-configuration demand. Netgear GS108 comes with 8 switched ports for PCs, severs and switches and a sturdy metal enclosure, with IEEE802.3az support for power savings and traffic optimization. It is also fanless designed to ensure silent and reliable operation. Though this desktop 8 port gigabit switch costs a little more than Linksys SE3008 ($35.99), the advantage of ProSAFE Lifetime Warrenty does makes it worth that.
Figure 2: Netgear GS108 unmanaged 8 port gigabit switch.
TL-SG 1008P unmanaged PoE 8 port gigabit switch comes with 8 x 10/100/1000 Mbps RJ45 ports and 4 PoE ports with maximum power budget of 55W. It is featured with no configuration need, overload arrangement, fanless design, high efficiency and limited lifetime warranty. The 4 PoE ports can supply powered devices (PD) such as wireless access points (WAP), IP cameras and IP phones with one single cable for both power and data transmission. It is best fit for expanding home and office network.
Figure 3: TL-SG 1008P unmanaged 8 port gigabit PoE switch.
This article focused on the recommendation of 8 port gigabit switch for different requirements: unmanaged non-PoE switch, unmanaged PoE switch, managed non-PoE switch and managed PoE switch. Each one has its features in terms of different switch types and vendor characteristics. For managed PoE 8 port gigabit switch consideration, FS.COM will be a good place to go.
Related article: How to Choose 8 Port Gigabit Switch?
In network setups we see everything is plugged into a switch, but before that fiber cables are also connected to another supply – patch panel. Thus one question is often confusing: patch panel vs switch: What’s the difference and what’s the significant function of them respectively?
What Is Patch Panel?
Patch panel (fiber optic patch panel, fiber optic enclosure) is a terminate unit of network ports centralized together. It is a cable management solution component used to organize fiber cables and keep everything neat for a clean wiring closet. In data centers, a mass of cable wires scattering all over and mixed together can be bothersome, in this case a patch panel is indispensable and rather helpful. It not only offers ease of management, but also protect the terminations from being knocked. Besides the fiber optic patch panel, other cable management accessories including cable ties and cable labels are also used to keep cables tidy and easy for identification.
Figure 1: This photo shows the application of patch panel by FS.COM for cable management in a data center.
What Is Switch?
Switch, commonly known as network switch, is an appliance in a data center that connects all devices (such as PCs and servers) as a whole to achieve intercommunication and data sharing between different network devices. It channels the incoming data from multiple input ports to the specific output port so as to deliver the data toward its destination. In Ethernet LAN or WAN, modern network switch usually determines which output port to use by network address.
Figure 2: This photo shows the application of network switch by FS.COM in a data center.
Patch Panel vs Switch: What’s the Difference?
Table below shows the main difference of patch panel vs switch.
Comparing patch panel vs switch, we can make the following conclusion. Patch panel is nothing but an essential cable management tool, which exerts no functional influence to the performance of data transmission. However, a switch is an irreplaceable functional supply in network setups.
Why Patch Panel Is Commonly Set Up in Network Installation?
As mentioned above, patch panel has no effect on the data transmission process. Can it be omitted in fiber optic cabling? Or can wires just directly plugged to a switch? The answer is yes when you just deal with several fiber cables. However, Ethernet patch panel is a must in data centers where there are a large number of Ethernet drops. No doubt you don’t want to see all the things tangled together. A patch panel in place provide ease management of classification, maintenance, repair, installation and upgrades.
This article gave an brief introduction to patch panel and switch respectively and then discussed the differences between them. Patch panel vs switch : what’s the difference, and why is a patch panel commonly set up in network installation whereas a switch is already used? Can you answer these questions now? Simply put, patch panel is an essential cable management tool whereas network switch is a significant functional supply in data center. Both of them play important role in their respective positions.