Category: Fiber Transceivers

Optical transceivers, Active Optic Cables, data center switches, and cable management in data centers.

WHAT ARE THE ADVANTAGES AND DISADVANTAGES OF FIBER OPTIC CABLING

by http://www.fiber-mart.com

Fiber optic cabling consists of strands of purified glass, or even plastic, rods that conduct specific wavelengths of light, analogous to the electrons carried along a Copper Cable. However, light traveling through glass or plastic is not susceptible to the same problems that metal conductors are; The electromagnetic radiation that results from current traveling through a wire is not present in optical conductors, and optical conductors can be made much smaller than metal ones.
Advantages of Fiber Optic Cabling
There are four advantages of fiber optic cabling, these advantages explain why fiber is becoming the preferred network cabling medium for high bandwidth, long-distance applications:
1. Immunity to Electromagnetic Interference (EMI)
All copper cable network media sharing a common problem: they are susceptible to electromagnetic interference (EMI), fiber optic cabling is immune to crosstalk because optical fiber does not conduct electricity and uses light signals in a glass fiber, rather than electrical signals along a metallic conductor to transmit data. So it cannot produce a magnetic field and thus is immune to EMI.
2. Higher Possible Data Rates
Because light is immune to interference, can be modulated at very high frequencies, and travels almost instantaneously to its destination, much higher data rates are possible with fiber optic cabling technologies than with traditional copper systems. Data rates far exceeding the gigabit per second (Gbps) range and higher are possible, and the latest IEEE standards body is working on 100Gbps fiber based applications over much longer distances than copper cabling. Multimode is preferred fiber optic type for 100-550 meters seen in LAN network, and since single mode fiber optic cables are capable of transmitting at these multi-gigabit data rates over very long distances, they are the preferred media for transcontinental and oceanic applications.
3. Longer Maximum Distances
Typical copper media data transmission by the distance limits the maximum length of less than 100 meters. Because they do not suffer from the electromagnetic interference problems of traditional copper cabling and because they do not use electrical signals that can dramatically reduce the long distance, single-mode fiber optic cables can span 75 kilometers (about 46.6 miles) without using signal-boosting repeaters.
4. Better Security
The Copper cable transmission media is susceptible to eavesdropping through taps. A tap (short for wiretap) is a device that punctures through the outer jacket of a copper cable and touches the inner conductor. The tap intercepts signals sent on a LAN and sends them to another (unwanted) location. Electromagnetic (EM) taps are similar devices, but rather than puncturing the cable,they use the cable’s magnetic fields, which are similar to the pattern of electrical signals. Because fiber optic cabling uses light instead of electrical signals, it is immune to most types of eavesdropping. Traditional taps won’t work because any intrusion on the cable will cause the light to be blocked and the connection simply won’t function. EM taps won’t work because no magnetic field is generated. Because of its immunity to traditional eavesdropping tactics, fiber optic cabling is used in networks that must remain secure, such as government and research networks.
Disadvantages of Fiber Optic Cabling
With all of its advantages, many people use fiber optic cabling. However, fiber optic cabling does have a couple of disadvantages:
1. Higher Cost
The higher cost of fiber optic cabling has little to do with the cable these days. Increases in available Fiber Optic Cable manufacturing capacity have lowered cable prices to levels comparable to high end UTP on a per-foot basis, and the cables are no harder to pull. Ethernet hubs, switches, routers, NICs, and patch cords for UTP are very inexpensive. A high quality UTP-based 10/100/1000 auto-sensing Ethernet NIC for a PC can be purchased for less than $25. A fiber optic NIC for a PC costs at least four times as much. Similar price differences exist for hubs, routers, and switches. For an IT manager who has several hundred workstations to deploy and support, that translates to megabucks and keeps UTP a viable solution. The cost of network electronics keeps the total system cost of fiber-based networks higher than UTP, and ultimately, it is preventing a mass stampede to fiber-to-the-desk.
2. Installation
The other main disadvantage of fiber optic cabling is that it can be more difficult to install. Copper cable ends simply need a mechanical connection, and those connections don’t have to be perfect. Fiber optic cable can be much trickier to make connections for mainly because of the nature of the glass or plastic core of the fiber cable. When you cut or cleave (in fiber optic terms) the fiber, the unpolished end consists of an irregular finish of glass that diffuses the light signal and prevents it form guiding into the receiver correctly. The end of the fiber must be polished and a special polishing tools to make it perfectly flat so that the light will shine through correctly.

CISCO GLC-LH-SM SFP TRANSCEIVER MODULES

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SFP module(Small form factor pluggable) is prefered to easier to change and easier for maintenance rather than traditional modules and is expected to perform at data speeds of up to five gigabits per second (5 Gbps), and possibly higher.
SFP interfaces between communication devices like switches, routers and fiber optic cables, and performs conversions between optical and electrical signals. SFP transceivers support communications standards including synchronous optical networking (SONET)/synchronous digital hierarchy (SDH), gigabit ethernet and fiber channel. They also allow the transport of fast Ethernet and gigabit Ethernet LAN packets over time-division-multiplexing-based WANs, as well as the transmission of E1/T1 streams over packet-switched networks.
SFP Transceivers have a wide range of detachable interfaces to multimode/single-mode fiber optics, which allows users to select the appropriate transceiver according to the required optical range for the network. Signal transmitting rate of SFP modules range from 100Mbps up to 4Gbps or more, working distance of these SFP transceiver modules can be from 500 meters to 100 kilo meters, working wavelength of different SFP modules are typically 850nm, 1310nm and 1550nm, there are also CWDM type SFP transceivers available. There are SFP product numbers below:
GLC-ZX-SM SFP, SFP-GE-F, SFP-GE-S, SFP-GE-L, SFP-GE-Z, GLC-SX-MM, GLC-LH-SM, GLC-T, CWDM-SFP-1470, CWDM-SFP-1490, CWDM-SFP-1510, CWDM-SFP-1530, CWDM-SFP-1550, CWDM-SFP-1570, CWDM-SFP-1590, CWDM-SFP-1610.
GLC LH SM is the Cisco 1000Base LX/LH SFP transceiver module, it is one of the most commonly use SFP. SFP units like the GLC-LH-SM in general have different transmitter and receiver types that allow the consumer to select the best option for their specific situation. Its primary function is to interface with a networking cable and increase the connectivity between two network devices such as mother boards, routers and media converters.
There are many options when it comes to finding a GLC-LH-SM. The GLC-LH-SM SFP Transceiver from the reseller is a Cisco brand mini-GBIC but can be used to work with anyone that builds SFP ports such as HP, Finistar, and Juniper among many others. Finding a compatible transceiver can eat up valuable time for IT pros who are upgrading networks and T3 systems provides the best value and support.
GLC-LH-SM SFP transceiver is a tool utilized to join Cisco machines like wan interfaces or network switches that make use of sfp transceiver module technological expertise. It is characterized by an LC type interface with a higher density as well as a smaller fiber optic connecter. It is suitable for both single and multimode use and has a working distance of 10 kilometers or 550 meters over MMF. It is compliant to IEEE standards in line with Gigabit Ethernet and comes in a variety of styles to ensure users have the exact choice for their needs.
The GLC-LH-SM is a SFP fiber optic transceiver works at a 1300nm wavelength. When utilized as GLC-SX-MM SFP, the unit has a tier-one laser of 1,300nm for medium range fiber applications. In MMF configuration, the maximum distance is 1,800 ft and on SMF the max distance is 10 Km (6.2 miles).

JUNIPER NETWORKS SFP MODULE EX-SFP-10GE-SR

by http://www.fiber-mart.com

With the rapid development of fiber optic technologies, 10G Ethernet products are coming to fit the increasing demand for bandwidth. SFP plus is the 10G fiber optic transceiver used for 10G Ethernet and other high speed transmissions.
SFP plus is the upgraded version of the former SFP transceivers (MINI GBIC), SFP is with higher data rate and new industrial standards. SFP is with more compact size compared with the former 10G transceivers X2 and Xenpak, it has greater ability for density installations.
Juniper SFP transceivers are the most cost-effective standards-based optical modules fully compatible with Juniper Switches & Routers. The Juniper SFP modules are tested in-house prior to shipment to guarantee that they will arrive in perfect physical and working condition before delivered worldwide. Fiberstore provides Juniper compatible SFP transceivers which can be equivalent to EX-SFP-10GE-SR, EX-SFP-10GE-LR, SFPP-10GE-SR, EX-SFP-10GE-ER, etc. And today, let me introduce Juniper EX SFP 10GE SR first.
Juniper EX SFP 10GE SR Brief Information
This Juniper compliant EX-SFP-10GE-SR is a 10GBASE SR SFP 850nm 300m transceiver module. The EX SFP 10GE SR transceiver module combines quality with low cost and gives you an ideal alternative except for the high price transceivers. The EX SFP 10GE SR is 100% compatible with all Juniper series switches and modules which support SFP transceivers.
Key Features
Operating data rate up to 10.3Gbps
850nm VCSEL Transmitter
TX Power :-6~-1dBm
Receiver Sensitivity:-11.1dBm
Distance up to 300m @50 / 125 um MMF
Single 3.3V Power supply and TTL Logic Interface
Duplex LC Connector Interface, Hot Pluggable
Compliant with MSA SFP+ Specification SFF-8431
Compliant with IEEE 802.3ae 10GBASE-SR/SW
Power Dissipation < 1.0W
Built-in Digital Diagnostic Function
Applications
10GBASE-SW at 9.953Gbps
10GBASE-SR at 10.3125Gbps
Other Optical Link
Juniper EX-SFP-10GE-SR
This SFP (mini-GBIC) transceiver module is designed for use with Juniper Networks network equipment and is equivalent to Juniper Networks part number EX-SFP-10GE-SR. This transceiver is built to meet or exceed the specifications of the OEM and to comply with Multi-Source Agreement (MSA) standards. This product is 100% functionally tested, and compatibility is guaranteed. The transceiver is hot-swappable input/output device which allows a 10 Gigabit Ethernet port to link with a fiber optic network. OEM specific configuration data is loaded on to the EEPROM of the transceiver at the factory, allowing this transceiver to initialize and perform identically to an OEM transceiver. This transceiver may be mixed and deployed with other OEM or third party transceivers and will deliver seamless network performance. A list of compatible network equipment is available on the Specs tab of this page.
fiberstore.com have a large quantity in stock transceivers and can ship in the Juniper EX SFP 10GE SR transceivers, you will find the cost effective modules here and you will find our Juniper EX SFP 10GE SR beyond your expectation, All of our module transceivers are tested in house prior to shipping to insure that they will arrive in perfect physical and working condition. Contact us today to save the time and cost by buying from original manufacturer directly. And now fiberstore is making a discount of 30% of the price about Juniper SFP.

10G Modules —XENAKIS Module, X2 optical module,10G XFP optical module,10G SFP+ optical module

10 gigabit Ethernet is a telecommunication technology that offers data speeds up to 10 billion bits per second. 10 gigabit Ethernet (10-Gigabit Ethernet) is also known as 10GE, 10GbE or 10 GigE.10G SFP+ transceivers are multi-purpose optical modules for 10Gbit/s data.

10 gigabit Ethernet is a telecommunication technology that offers data speeds up to 10 billion bits per second. 10 gigabit Ethernet (10-Gigabit Ethernet) is also known as 10GE, 10GbE or 10 GigE.10G SFP+ transceivers are multi-purpose optical modules for 10Gbit/s data.

 

Module Types

 

XENPAK – the original 10GbE pluggable optics.  Presents SC connectors

X2 – the successor to the XENPAK.  Presents SC connectors

XFP – the first of the small form factor 10GbE optics.  Presents LC connectors

SFP+ – a 10GbE optics using the same physical form factor as a gigabit SFP.  Because of this, many of the small SFP+ based 10GbE switches use 1G/10G ports, giving an added degree of flexibility.  Presents LC connectors.

 

10G Modules–XENAKIS Module

XENPAK became the new standard transceiver with increased support across longer distances and for multiple wavelengths. Unlike GBIC transceivers that sent information across either copper or fiber optic channels, XENPAKs included support for both networks, creating a better, more flexible module. And unlike the bigger GBIC transceivers, XENPAKs were capable of conveying data across short and long distances due to their configuration settings located inside the devices. When utilizing a single-mode configuration, networks create a single ray of light to send data across a long distance, while they use a multimode setup to transmit information across short distances. Both single and multimode fiber optics were utilized by networks, creating the XENPAK device ideal.

10G XENPAK

10G Modules—X2 optical module

 

X2 is a kind of optical transceiver module specified for 10-Gigabit Ethernet and 10G Fibre Channel applications.X2 defines a smaller form-factor 10 Gb/s pluggable fiber optic transceiver optimized for 802.3ae Ethernet,ANSI/ITUT OC192/STM- 64 SONET/SDH interfaces,ITUT G.709,OIF OC192 VSR,INCITS/ANSI 10GFC (10 Gigabit Fibre Channel) and other 10 Gigabit applications.X2 is initially centered on optical links to 10 kilometers and is ideally suited for Ethernet,Fibre Channel and telecom switches and standard PCI (peripheral component interconnect) based server and storage connections. X2 is physically smaller than XENPAK but maintains the mature electrical I/O specification based on the XENPAK MSA and continues to provide robust thermal performance and electromagnetic shielding. The 10GB X2 fiber optic transceivers series include X2-10GB-SR, X2-10GB-LR, X2-10GB-ER and X2-10GB-ZR, they are designed based on the X2 MSA and IEEE802.3ae. They’re created for the integrated systems solution provide, fiber optics distributor along with other IT distributors.

10G X2.jpg

 

10G Modules— XFP optical module

 

XFP is a standard for the transceivers. This type of transceiver is not dependent on the protocol. Generally, it operates at optical wavelengths corresponding to 850nm, 1310nm or 1550nm. Principal applications include 10 Gigabit Ethernet, 10 Gbit/s Fibre Channel, synchronous optical networking (SONET) at OC-192 rates, synchronous optical networking STM-64, 10 Gbit/s Optical Transport Network (OTN) OTU-2, and parallel optics links. They can operate over a single wavelength or use dense wavelength-division multiplexing techniques. The modules belonging to the XFP are hot swappable which means that the function of replacing the computer system components can be performed without shutting down the system. They include digital diagnostics that provide management which were added to the SFF-8472 standard. XFP modules make use of an LC fiber connector type to achieve high density.

10GBASE XFP.jpg

10G ModulesSFP+ optical module

 

SFP+ can be referred to as an expansion of the SFP standard. It has the capability to support speeds of 10 Gbps or even higher over fiber. The SFP+ product family includes cages, connectors, and copper cable assemblies. It is also similar to the performance requirements of SFF-8431 and also supports 8G Fiber Channel and 10G Ethernet applications. SPF+ comes with various advantages. It is a more compact factor package than compared to that of XFP.

10GBASE SFP+

 

Summary

10G fiber transceiver is designed for 10G or 10Gbit/s data transmission applications including 10 Gigabit Ethernet, 10 Gbit/s Fiber Channel, Synchronous optical networking. Fiber-Mart manufactures and supplies a complete range of 10G transceiver modules which can be Customized. For more information, welcome to www.fiber-mart.com or contact us by E-mail: service@fiber-mart.com

 

 

CABLE TIES FOR CABLE BUNDLING SOLUTIONS

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Cable ties are necessary tools for cable or wire organizing or bundling solutions. A cable tie is also known as a zip tie or tie-wrap, it is type of fastener, expecially for binding bulk and organize electronic or fiber cables or wires together. The cable ties are usually made of very strong and durable materials, and they can usually used for multiple purpose such as gardening, decoration or even electrical purpose. Ingellen is one of China’s main fiber optic cable manufacturers providing not only series fiber optic cables but also many other cable management tools, among which are the cable ties available in a wide range of sizes, styles and materials for fastening, bundling, clamping and identifying in a variety of applications throughout the physical infrastructure. Velcro cable ties and Nylon cable ties are two kind of common bundling solutions for fiber optic cable or wires that are available from Ingellen.
Nylon Cable Ties
Nylon cable tie is a common form of cable ties. A nylon cable tie consist of a tape section with triangular teeth that slope in one direction. At the head of the cable tie there is a slot with a flexible pawl that rides up the slope of these teeth when the tape is inserted. The pawl engages the blackside of these teeth to stop removal of the tape. Ingellen nylon cable is made up of Nylon 6.6, which is especially ideal for outdoor use because of its high strength and a wide temperature range. It meet UL 94 V-2 flammability classification and military specification MS 3367, structure with teeth on both sides for enhance strength and is used in continuous or extended exposure to high temperatures up to 250°F.
Magic Velcro Cable Ties
Velcro is known as magic tie. Velcro is the brand name of a company that produces the first commercially marked Velcro cable ties. Velcro tie is actually a hook and loop cable tie. A velcro cable tie wraps around wires, cables and objects and then back onto themselves for a secure hold. Because a velcro cable tie is made using soft and flexible, hook and loop materials, they are gentle on cables. This characteristic is what makes them such a popular choice for securing CAT-5 cables and fiber optic wiring. Velcro cable ties have grown in popularity in part because they are reusable and so easy to use. Ingellen provides Velcro cable ties in different colors including blue, black, gray, red and green and sized with 20 x180, 20 x160 MM hook and loop.
Generally cable ties no matter Velcro cable ties and Nylon cable ties are important components used to secure wire bundles and harness components quickly, they are usually with flexible designs that allows user to slip ties easily under and around cables and harnesses, and they can be used with most standard tensioning/cutoff tools for fast production line fastening. There are now host of cable ties wholesalers or distributers in the markets, choosing the good and reputable ones for your suppliers is very important because it means the cable ties are totally comply with or even exceed the industry standards to delivery the maximum reliability and optimize your cable tie installation safety and speed, and as the result, contributing to lower totally cost.

WHAT IS ARMORED FIBER OPTIC PATCH CABLES

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An armored fiber patch cable is a fiber optic patch cable with stainless armor inside the cable jacket to protect the central unit of the cable. It is considered to be an advanced or structures improved fiber optic patch cable. Because of the special structures that the armored fiber optic patch cable has, it makes the armored fiber patch cord shares some special features compared with the standard fiber patch cables, which can be listed below:
Armored fiber optic patch cable retain all the features of standard patch cord, but they are much more strong and flexible. Because of the stainless steel armor inside, it can be resistant of high tension and pressure, even it is step by an adult person, the armored fiber optic patch cables will not get damaged. It is also almost impossible to be bent or dragged to broken. Armored fiber patch cable also shares anti-rodents features, when they are used for outdoor use, people do not need to worry about the rodent animals like rates may bite the cables and make them broken. Usually the armored fiber optic patch cords are smaller outer diameter than the standard patch cords, this make them space saving and actually light weight. And they can be handled as easily as other electric cables. Armored fiber patch cables are with different jacket colors or jacket types like PVC, PE or OFNR and different types of termination types including SC, ST, FC, LC, MU,SC/APC, ST/APC,FC/APC,LC/APC etc.
Get the summary from the above, the armored fiber optic patch cables are designed for being used in harsh environment, in which the traditional standard fiber optic patch cable can not fit or get good performance. It is made with special strong connector and fiber armored cable, it can protect the cable from damage caused by twist, pressure or rodent bite. Installation procedure and maintenance is also easy when use the armored fiber patch cables, which is actually an ideal choice for people who is looking for fiber optic patch cords with additional durability, protection and light weight features. Ingellen online wholesale platform which ingellen.com supplies ranges of armored fiber optic cables for different application requirements like simplex or duplex SM9/125, OM1 62.5/125, OM2 50/125, 10G OM3 or OM4 fiber patch cables with SC,FC,ST,LC,MU,MTRJ,UPC,APC connector types. 10G OM3 fiber armored optic patch cable with 50/125 multimode is typically used in 10 Gigabit Ethernet to transmit 10G signals and the bandwidth supported is as specified IEEE802.3z. And our OM4 fiber optic patch cable assemblies are ready to meet the requirement for future 40G and 100G fiber optic networks, the flexible, light and compact features of the OM4 armored fiber patch cables makes it an ideal alternative to standard OM4 patch cables where excellent crush and kinking resistance. Buy armored fiber optic cables no matter armored fiber patch cables or fiber armored cables from professional fiber optic cable manufacturer, Ingellen Technology.