A fiber optical transceiver is a photonic and electronic device that transmits and receives data over optical fibers rather than electrical wire. It is also called as an optical module or fiber optic module. Choosing a right fiber optic transceiver for your use is very important. Today’s main local carriers are major efforts to develop residential campus network and enterprise system, so that the number of fiber optic transceiver products is consistently improved to fulfill the needs of the access network building.
Contact us to discuss your requirements of supplier fiber optic. Our experienced sales team can help you identify the options that best suit your needs.
Following are the key 9 points which you should consider when choosing a right Optical Transceiver:
The multi source agreement (MSA) defines the different transceiver form factors. The MSA is an agreement between multiple vendors to manufacture optical transceivers that are used for different networking equipment. There are various types of Form Factors available in the market today. The most popular types include SFP, SFP+, QSFP, and some other types that are uncommonly used such as CFP, CFP2, CFP4, 1×9, SFF, GBIC, XFP, SFF, X2, XENPAK, CSFP and so on. You should choose the right form factors based on your platform and real needs.
Optical fiber’s bandwidth determines the data rate. The transceiver accommodates data rate on the basis of the standards such as Ethernet, Fibre Channel, SONET, SDH and InfiniBand. The emergence of the dual-rate optical transceiver is typical because of the cost consideration from 1G to 10G, 10G to 40G, 40G to 100G and it can be at a higher data rate that means Gigabit Ethernet is very fast. Dual-rate optical transceiver is a cost-effective solution to solve this query.
Fiber optic system is continuously restoring copper network, due to its different favorable circumstances such as high speed, high bandwidth, high density, and etc. Fiber optic cable can support much further distance than that of traditional copper cable like twisted pair wire or coax cable. However, in practice, the exact distance that fiber optic can support is limited by many factors. Transmission distance has become one of the biggest problems in the super fast optical communication. You have to make sense of the maximum distance or link budget needed in your fiber connection systems.
There are two modes to choose from in Fiber Optical Transceiver. Single Mode and Multimode, it is usually designed for systems of moderate to long distance like Metro or any other Long haul networks while on another hand Single mode optical fibers have a small core size which permits single mode or ray of light to be transmitted. Multimode transceiver usually cost less but give a short transmission distance (< 2km), while single mode transceiver allows a much longer distance of 160km at a higher cost.
It is very important to understand Wavelength while choosing fiber optical transceiver, our eyes are sensitive to lights of which wavelength is in the range of 400 nm to 700 nm. But in the fiber optics, lights are used in the infrared region which has wavelengths longer than visible light. Common wavelength usually comes from the range 850 nm to 1610 nm. Multimode fiber is specially designed that operate at 850 nm and 1310 nm, while single mode operates 1310 nm to 1550 nm.
Fiber optic transceivers have different operating temperatures when it is in use. For commercial fiber optic transceivers, it usually works at 0°C to 70°C, while for industrial usage, it works at -40°C. to 85°C.
Compatibility is also a crucial part to check before you buy Fiber Optical Transceiver. It is essential to test the interoperability and compatibility of each fiber optic transceiver. Because there are so many brands of networking equipment, and many brands such as Cisco, HP, Ciena lock the third party transceivers and not allow non-certified module works with their switches. The compatibility is always an issue you face, you have to make an extensive research and ask the vendor to guarantee the same function as brand genuine one. Want to know more about transceiver compatibility? click here.
There are many brands who manufacture or offers Fiber Optical Transceiver, today in the world of Internet, you may probably find the particular model on the various website but it is advisable to check each feature carefully before placing an order for the same.
As we have mentioned, you may find optical transceiver in many brands and many sources. They usually have huge price differences among many different brands, even unbelievable differences between OEM transceiver and third party transceiver. Consider your budget and know how much you would pay, it is advisable to buy from the authentic suppliers at the affordable price.
For more odf connectorinformation, please contact us. We will provide professional answers.
The main consideration when choosing a fiber optic cable is deciding which type you opt for. Single mode vs. multimode fiber cable is a debate you can answer by considering the cable length(s) required as well as the necessary bandwidth. If you are happy with a maximum of 10Gbps bandwidth at lengths under two miles, then you have the choice of OS1 or OM1 and OM2 fiber optic cables. For greater bandwidth over shorter distances, OM3, OM4, and OM5 are valid options, and will likely give you the most cost-effective solution to your networking problem.
If you’re looking for multiple miles of fiber optic cabling, or simply want the most robust networking solutions, then OS2 single mode fiber optic cables are probably your best bet.
That’s not all you should consider, though. There are single mode and multimode cables that come with different jacket ratings for running through walls, or between multiple floors. If you don’t need anything special, look for fiber cables with a standard Optical Fiber Non-conductive riser (OFNR) rating, which should work fine in most instances, including when transiting between floors.
For improved fire protection, plenum-rated fiber optic cables will come with a Low Smoke Zero Halogen (LSZH) jacket type, which means that even if it were to set fire, it would give off very little smoke or halogenic compounds. There are also both simplex and duplex fiber patch cables which have single or dual connectors on each end. If you’re unsure which you need, you can always just buy a duplex cable and use one of the connectors if that’s all you ultimately need.
You should also consider what type of connector your fiber optic cable needs. Unlike copper twisted pair patch cables which almost universally come with RJ45 plugs at the end, fiber optic patch cables can come with a range of headers. There are LC connectors which are the most common and are somewhat smaller than their comparable sibling, SC connectors, and are most commonly found on single mode fiber optic cables.
SC connectors are an older, larger design, but are otherwise comparable and have a locking mechanism, which can make them sturdier. That extra size does make them harder to fit in large numbers in data centers and patch panel cabinets, but they are cheaper and have a more established design.
Less commonly you’ll also find ST fiber optic connectors, which are a similar size to SC connectors but have a twist-bayonet-style mechanism. There’s also the MTP connector which is typically used in data centers and advanced home networks.
For more tips on choosing the right fiber optic cable for you, check out our complete guide to fiber optic cabling.
Ethernet, Networking, Fiber Optic, Cat6
The company is the world’s best what is odf fiber optic supplier. We are your one-stop shop for all needs. Our staff are highly-specialized and will help you find the product you need.