Category: Fiber Transceivers

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

100GBASE-SR10 CXP 850nm 150m Transceiver for MMF

CXP-100G85-1M

100GBASE-SR10 CXP form factor transceiver module for multi mode fiber, short wavelength over 10 lanes, in the 850nm wavelength window, MPO/MTP connector with up to 100m on OM3 and 150m on OM4 reach per IEEE 802.3ba requirements. 100GBASE-SR10 CXP transceiver modules are designed for use in up to 100 Gigabit per second links over multimode fiber. They are compliant with the CXP Specification and CPPI interfaces.

Key Feature

 

  • Hot Pluggable CXP footprint
  • 1.06Gb/s to 10.5Gb/s per channel
  • Short wavelength over 10 lanes, 840 to 850nm
  • VCSEL array transmitter and PIN array receiver
  • Up to 100m on OM3 and 150m on OM4 MMF
  • Utilizes a standard MPO/MTP Connector
  • Unretimed CPPI electrical interface
  • Requires 3.3V power supply only
  • Low power dissipation: <3.5W
  • Operating case temperature: 0°C to +70°C
  • Built-in digital diagnostic functions

 

 

Applications

 

  • Data center
  • 100GBASE-SR10 100G Ethernet
  • Multiple 4G/8G/10G Fibre Channel

 

 

Ordering Information

Part No. Data Rate (Gbps) Wavelength (nm) Transmission Distance Fiber Type Connector Type Temp. Range Digital Diagnostics
CXP-100G31-1M 105G 850nm 100m(OM3) MMF MPO/MTP 0~70 Yes
CFP-100G85-1M 103G Ten lanes 840 to 860 100m(OM3)
150m(OM4)		 MMF MPO/MTP 0~70 Yes
CFP-100G31-10 103G Four lanes:
1295.6, 1300.1, 1304.6, 1309.1		 10km SMF LC 0~70 Yes

Notes

  • xx means compatible brand. (For example: CO= Cisco, JU=Juniper, FD=Foundry, EX=Extreme, NE=Netgear,etc.)

 

 

Packaging

 

  • Antistatic bag
  • Packed on pallets in a box(Default Customer Options)
  • Specific Labels as Request
  • Seperate white Box for each transceiver

 

 

OEM and ODM

Combining our extensive design and engineering capability in optical transceiver industry, with our competitive advantages from integrated manufacturing capability, internal supply chain, and cost competitive and scalable operation infrastructure, Fiber-Mart provides OEM, ODM, and contract manufacturing service to world leading customers with our manufacturing facilities in China.We are also mainly engaged in providing complete sets of optoelectronic device solutions to gain more brand extensions and influence for Fiber-Mart in the world.

  • OEM/ODM order is available
  • We can supply CXP-100G85-1M according to your requirements, and design CXP-100G85-1M label and packaging for your company. We welcome any inquiry for customized 100G optical transceiver.

 

XFP Loopback

XFP Loopback

 

XFP Electrical Loopbacks from Fiber-Mart provides a method for port operation testing in board, hub, system and applications. The XFP Loopback supports various 10G application standards, it is capable of achieving up to 10Gbps data transfer rate. The dual integrated LED indicator light ensures the loopback is properly seated, powered and performance status. XFP Loopbacks are hot swappable, constructed of die cast for EMI performance. They are compliant with the industry standard XFP MSA (Multi-Source Agreement).

Key Features

  • Support 9.95Gbps to 10.7Gbps data rate
  • Operating temperature -40C to +85°C
  • Front dual LED status indicator
  • 3W power consumption, 2.5W/2W/1.5W/Customer optional
  • No reference clock required
  • Built-in digital diagnostic functions and memory organized to meet XFP MSA Ver4.5
  • Electrical loopback and with CDR version optional
  • Suitable for chamber testing
  • Automatically shutdown & self-protection

Applications

  • Test & measurement
  • 10Gbps applications
  • Board and system level testing
  • 10 Gigabit Ethernet
  • 10 Gigabit Fiber ChannelSONET OC-192, SDH STM-64

Packaging

  • Antistatic bag
  • Packed on pallets in a box(Default Customer Options)
  • Specific Labels as Request
  • Seperate white Box for each transceiver

OEM and ODM

Combining our extensive design and engineering capability in optical transceiver industry, with our competitive advantages from integrated manufacturing capability, internal supply chain, and cost competitive and scalable operation infrastructure, Fiber-Mart provides OEM, ODM, and contract manufacturing service to world leading customers with our manufacturing facilities in China.We are also mainly engaged in providing complete sets of optoelectronic device solutions to gain more brand extensions and influence for Fiber-Mart in the world.

  • OEM/ODM order is available
  • We can supply XFP loopback according to your requirements, and design XFP loopback label and packaging for your company. We welcome any inquiry for customized XFP loopback optical transceiver.

Order Procedure

Please contact us with any special requirements you may have, we can help you create a custom solution to meet almost any application. Our engineer will review the project and provide a quotation within 1-2 business days.
a. Email (sales@fiber-mart.com) us a rough sketch to a detailed drawing.
b. Our engineer will review the project and provide a quotation within 24 hours.
c. We can arrange production as low as 1 piece and as high as 1,000 pieces in 1~4 business days once an order is placed.

 

Shipment

International Express: Fedex, DHL, UPS, TNT and EMS.If you have another preferred carrier, please notify us in advance.
FedEx Overnight: It will take 1-3 business days (weekends and holidays excepted) for delivery.
DHL: It will take 2-4 business days (weekends and holidays excepted) for delivery. For Spain, Italy, Brazil and some other countries, items will take longer time to arrive due to customs clearance period.

Save Cost By Buying XFP loopback From Original Manufacturer Fiber-Mart Directly.

Fiber-Mart is an professional manufacturer & supplier of XFP loopback transceivers. All of our XFP loopback transceivers are tested in-house prior to shipping to guarantee that they will arrive in perfect physical and working condition. We guarantee XFP loopback transceivers to work in your system and all of our XFP loopback transceivers come with a lifetime advance replacement warranty. If you have questions about XFP loopback optics, please feel free to contact us at sales@fiber-mart.com.

Fiber Optic Adapters – the Bridge between Fiber optic Connectors

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

Definition of Fiber Optic Adapter
Fiber optic adapter is a device used to connect two fiber optic connectors in the fiber optic cabling system. It seems like a bridge to connect the gap between two same styles connectors, even the different connectors. Due to its fuction, there is a specific situations of fiber optic adapter. If two fiber assemblies to be connected have the same style fiber connectors, it is called coupler. If the two fiber assemblies to be connected have different style connectors then we always call adapter. We can see an example in the following picture. The adapter connected ST connector to ST connector, both sides are the same style, in this time, we call coupler. Otherwise, we call adapter.
adapter-and-coupler
Types of Fiber Optic Adapter
According to the diversity of the fiber optic connectors, there are many types of fiber optic adapters. Adapters are available to join like connectors SC-to-SC, ST-to-ST, or FC-to-FC–and different styles of connectors. The latter devices are called hybrid adapters and are used, for instance, to join ST and SC connectors. We can see the following pictures to know more about different types of fiber optic adapters.
fiber-optic-adapter
How do Fiber Optic Adapters work?
As we known, the key to a fiber connection is the precise alignment of each fiber core, so traditional connection method, such as the soldering is defective. Inside each fiber optic adapter, there is the alignment sleeve. The aligment sleeve is the most critical component of a fiber optic adapter. Bronze sleeves are more durable but the precision is not as good as ceramic. Ceramic ferrules offer a more precise alignment, but they are somewhat less durable. Bronze alignment sleeves are commonly used in multimode applications where precision alignment is not as critical. The performance of the adapter, defined as how well it aligns two connector ferrules, is determined by the amount of spring force in, and the tolerances of, the split sleeve. It needs a very professional technology to make it a reality.
alignment-sleeve
Fiberstore’s Fiber Optic Adapters Solutions
Fiberstore offers a variety of fiber optic adapters with types including single mode and multimode, LC, SC, ST, MU, FC, MTRJ, E2000, SMA, etc. All the fiber optic adapters have reliable performance and are on sale with good discount. We also welcome any inquiry for customized adapters.

Guide To Fiber Optic Polishing

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

Optical fibers require end-surface treatment for proper light propagation and that includes polishing their ends. Polishing is essential for almost all glass-based fibers with cladding diameters larger than 200 microns. Furthermore, all fiber connectors require polishing. The process of fiber optic polishing can occur in the field or in a technical lab, it employs a range of tools and products used to create precision fits and finishes in the delicate glass ends.
There is typical fiber optic polisher for fiber optic polishing. Fiber Optic Polishing Machines are used to polish the end faces of fiber optic products (cables, connectors, adapters, etc.) in order to minimize signal losses due to scattering. Polishing machines can increase productivity by providing rapid polishing of many different connector styles.
When selecting a fiber polishing machine, there are several features to consider, including adjustable pressure, changeable holders, a timer, and the ability to request custom specifications. Most polishing machines do not offer the flexibility of speed adjustment. This is partially due to the fact that most users only need to handle one type of ferrule material such as zirconia. A slight speed variation does not have significant impact on connector polish result. However, a versatile polisher should have the capability to change speed according the ferrule and polishing film material.
The polishing job typically involves fusion splicer, among other network crimping tool and connectors are needed. It also requires 99% isopropyl alcohol, polishing (lapping) film and pad, a polishing puck, and epoxy or adhesive. Some technicians also find needle, syringe, and piano wire useful.
Several Different Polish Options On Fiber Connectors
The different polish of the fiber optic connector ferrules result in different performance of them, mainly on the back reflection (return loss). Generally, PC type is required at least 40dB return loss or higher, UPC is 50dB or higher, APC is 60dB or higher. (As we know, the higher the return loss, the better the performance). Insertion loss of them all should be less than at least 0.3dB, the lower the insertion loss the better the performance.
Things You Need To Mind During Fiber Optic Polishing
It is important not to dwell on any polishing film longer than necessary. Too much polishing can result in undesirable ferrule length, unnecessary polish film wear, and degraded polish finish due to particle accumulation. Make proper adjustments to the recommended polishing time in each step in case they are less than ideal.
Eye protection is always necessary to protect against powerful industrial lasers used in long-distance single-mode networks. Supporting tools may include a visual fault locater to troubleshoot fiber faults and breaks. A fiber-optic inspection microscope permits precision analysis of hair-fine fibers. Additionally, technicians rely upon jacket strippers, cutters, cable slitters, and fusion splicers.
Conclusion
Fiber polishing is a science but much like an art. The science of polishing is crystallized in a well designed machine while the art of polishing reside in the procedure and the continuous effort for improvement by the individual user. The procedure and the training are just as valuable as the polishing machine.

Guide To Fiber Optic Polishing

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

Optical fibers require end-surface treatment for proper light propagation and that includes polishing their ends. Polishing is essential for almost all glass-based fibers with cladding diameters larger than 200 microns. Furthermore, all fiber connectors require polishing. The process of fiber optic polishing can occur in the field or in a technical lab, it employs a range of tools and products used to create precision fits and finishes in the delicate glass ends.
There is typical fiber optic polisher for fiber optic polishing. Fiber Optic Polishing Machines are used to polish the end faces of fiber optic products (cables, connectors, adapters, etc.) in order to minimize signal losses due to scattering. Polishing machines can increase productivity by providing rapid polishing of many different connector styles.
When selecting a fiber polishing machine, there are several features to consider, including adjustable pressure, changeable holders, a timer, and the ability to request custom specifications. Most polishing machines do not offer the flexibility of speed adjustment. This is partially due to the fact that most users only need to handle one type of ferrule material such as zirconia. A slight speed variation does not have significant impact on connector polish result. However, a versatile polisher should have the capability to change speed according the ferrule and polishing film material.
The polishing job typically involves fusion splicer, among other network crimping tool and connectors are needed. It also requires 99% isopropyl alcohol, polishing (lapping) film and pad, a polishing puck, and epoxy or adhesive. Some technicians also find needle, syringe, and piano wire useful.
Several Different Polish Options On Fiber Connectors
The different polish of the fiber optic connector ferrules result in different performance of them, mainly on the back reflection (return loss). Generally, PC type is required at least 40dB return loss or higher, UPC is 50dB or higher, APC is 60dB or higher. (As we know, the higher the return loss, the better the performance). Insertion loss of them all should be less than at least 0.3dB, the lower the insertion loss the better the performance.
Things You Need To Mind During Fiber Optic Polishing
It is important not to dwell on any polishing film longer than necessary. Too much polishing can result in undesirable ferrule length, unnecessary polish film wear, and degraded polish finish due to particle accumulation. Make proper adjustments to the recommended polishing time in each step in case they are less than ideal.
Eye protection is always necessary to protect against powerful industrial lasers used in long-distance single-mode networks. Supporting tools may include a visual fault locater to troubleshoot fiber faults and breaks. A fiber-optic inspection microscope permits precision analysis of hair-fine fibers. Additionally, technicians rely upon jacket strippers, cutters, cable slitters, and fusion splicers.
Conclusion
Fiber polishing is a science but much like an art. The science of polishing is crystallized in a well designed machine while the art of polishing reside in the procedure and the continuous effort for improvement by the individual user. The procedure and the training are just as valuable as the polishing machine.

THE DIFFERENCE BETWEEN FUSION SPLICING, PATCH CONNECTIONS

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

Insertion loss is one of those fiber-optic challenges that follows all network engineers, no matter where they’re working. Whenever you have a connection of one fiber to another, you will incur insertion loss.
This is the ninth in a fiber-mart.com blog series, entitled The A-B-Cs of Cable Management.Our Product Manager defines insertion loss and demonstrates the difference between loss on patch connections and fiber splices.
Insertion loss and light budgets are problems every engineer works with and figures out solutions for.
Insertion loss, expressed in decibels (dB), is the loss of signal power resulting from the insertion of a device in a transmission line or optical fiber.
The increasing number of fiber connections on hyperscale fiber networks is pushing insertion loss into the priority zone for engineers.
More connections mean higher rates of insertion loss, and higher rates of insertion loss mean trouble on your network.
And then there’s the difference between patch connections and fusion splices.
FUSION SPLICING VS. PATCH CONNECTIONS
Patch connections will have increased insertion loss.
Typically, the loss for a patch connection ranges from 0.05dB to 0.2dB. This may seem like a large amount of signal loss, but patch connections carry the advantage of not being permanent. Technicians can use this advantage for:
Service
Troubleshooting
Cross-connections
Redundancy
These are great advantages, even though you have the larger amounts of insertion loss.
Fusion splice connections offer their own set of advantages. Instead of 0.05dB to 0.2dB of loss with a patch connection, a fusion splice normally incurs only between 0.05dB and 0.1dB of loss.
While you have the advantages of less loss with a fusion splice, there is one large drawback. The connection is permanent … well, sort of.
Yes, you can cut a splice and re-terminate in the field, but this is much more labor intensive than unplugging even the tiniest LC connector. Splicing has its place, but so does a patch connection.
SOLVE THE INSERTION LOSS PUZZLE ON YOUR NETWORK
Most modern telecom, enterprise, government or CATV networks have more than just patch and splice terminations to worry about.
Our customers deal with passive optical devices that incur insertion loss all over their networks. Telecom engineers worry about devices like splitters, CPRI monitoring and TAPs. CATV engineers face concerns about WDM devices and splitters.
These different networks employ devices that have inherent insertion loss.
As a technician or an engineer, it is your duty to work with your colleagues and suppliers to develop the loss budgets for your network. There are many ways you can reduce the loss in your network, such as:
1.Cleaning and maintaining your patch connection’s end faces
2.Using high-quality passive optical devices that have low insertion loss characteristics
3.Implementing ULL connectors that have substantially less theoretical insertion loss characteristics than standard connectors
4.Ensuring you are not creating situations where micro bends, micro fractures and macro bends can hurt your signal strength
At fiber-mart.com, we pride ourselves in our ability to work with our customers to provide high-quality solutions that will reduce the insertion loss of your network and pad your loss budgets. Our high-quality passive optical devices, cables with ULL connectors and our WaveTrax fiber raceway product line are all methods you can employ to reduce the amount of light loss in your network.