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Information carried in the form of light provides a vast array of features and benefits. _x000D__x000D_Superior Transmission Distance_x000D_It is not unusual for optical systems to go over 100 kilometres (km), or about 62 miles. _x000D__x000D_Enhanced Security_x000D_It is impossible to remotely detect a signal being transmitted within a fibre cable. The only way to do so is by actually accessing the optical fibre itself. This makes fibre extremely attractive to governmental bodies, banks and other businesses with major security concerns._x000D__x000D_No Metallic Components_x000D_Fibre optic cable can be installed in areas with electromagnetic interference (EMI). This includes areas around utility lines, power-carrying lines and railroad tracks. Fibre is also ideal for areas of high lightning-strike incidence.

Information carried in the form of light provides a vast array of features and benefits. _x000D__x000D_Superior Transmission Distance_x000D_It is not unusual for optical systems to go over 100 kilometres (km), or about 62 miles. _x000D__x000D_Enhanced Security_x000D_It is impossible to remotely detect a signal being transmitted within a fibre cable. The only way to do so is by actually accessing the optical fibre itself. This makes fibre extremely attractive to governmental bodies, banks and other businesses with major security concerns._x000D__x000D_No Metallic Components_x000D_Fibre optic cable can be installed in areas with electromagnetic interference (EMI). This includes areas around utility lines, power-carrying lines and railroad tracks. Fibre is also ideal for areas of high lightning-strike incidence.

Information carried in the form of light provides a vast array of features and benefits. _x000D__x000D_Superior Transmission Distance_x000D_It is not unusual for optical systems to go over 100 kilometres (km), or about 62 miles. _x000D__x000D_Enhanced Security_x000D_It is impossible to remotely detect a signal being transmitted within a fibre cable. The only way to do so is by actually accessing the optical fibre itself. This makes fibre extremely attractive to governmental bodies, banks and other businesses with major security concerns._x000D__x000D_No Metallic Components_x000D_Fibre optic cable can be installed in areas with electromagnetic interference (EMI). This includes areas around utility lines, power-carrying lines and railroad tracks. Fibre is also ideal for areas of high lightning-strike incidence.

Information carried in the form of light provides a vast array of features and benefits. _x000D_ _x000D_ Superior Transmission Distance_x000D_ It is not unusual for optical systems to go over 100 kilometres (km), or about 62 miles. _x000D_ _x000D_ Enhanced Security_x000D_ It is impossible to remotely detect a signal being transmitted within a fibre cable. The only way to do so is by actually accessing the optical fibre itself. This makes fibre extremely attractive to governmental bodies, banks and other businesses with major security concerns._x000D_ _x000D_ No Metallic Components_x000D_ Fibre optic cable can be installed in areas with electromagnetic interference (EMI). This includes areas around utility lines, power-carrying lines and railroad tracks. Fibre is also ideal for areas of high lightning-strike incidence.

Superior Transmission DistanceIt is not unusual for optical systems to go over 100 kilometers (km), or about 62 miles.Enhanced SecurityIt is impossible to remotely detect a signal being transmitted within a fiber cable. The only way to do so is by actually accessing the optical fiber itself. This makes fiber extremely attractive to governmental bodies, banks and other businesses with major security concerns.No Metallic ComponentsFiber optic cable can be installed in areas with electromagnetic interference (EMI). This includes areas around utility lines, power-carrying lines and railroad tracks. Fiber is also ideal for areas of high lightning-strike incidence.

Information carried in the form of light provides a vast array of features and benefits. _x000D_ _x000D_ Superior Transmission Distance_x000D_ It is not unusual for optical systems to go over 100 kilometres (km), or about 62 miles. _x000D_ _x000D_ Enhanced Security_x000D_ It is impossible to remotely detect a signal being transmitted within a fibre cable. The only way to do so is by actually accessing the optical fibre itself. This makes fibre extremely attractive to governmental bodies, banks and other businesses with major security concerns._x000D_ _x000D_ No Metallic Components_x000D_ Fibre optic cable can be installed in areas with electromagnetic interference (EMI). This includes areas around utility lines, power-carrying lines and railroad tracks. Fibre is also ideal for areas of high lightning-strike incidence.

Information carried in the form of light provides a vast array of features and benefits. _x000D__x000D_Superior Transmission Distance_x000D_It is not unusual for optical systems to go over 100 kilometres (km), or about 62 miles. _x000D__x000D_Enhanced Security_x000D_It is impossible to remotely detect a signal being transmitted within a fibre cable. The only way to do so is by actually accessing the optical fibre itself. This makes fibre extremely attractive to governmental bodies, banks and other businesses with major security concerns._x000D__x000D_No Metallic Components_x000D_Fibre optic cable can be installed in areas with electromagnetic interference (EMI). This includes areas around utility lines, power-carrying lines and railroad tracks. Fibre is also ideal for areas of high lightning-strike incidence.

Information carried in the form of light provides a vast array of features and benefits. _x000D_ _x000D_ Superior Transmission Distance_x000D_ It is not unusual for optical systems to go over 100 kilometres (km), or about 62 miles. _x000D_ _x000D_ Enhanced Security_x000D_ It is impossible to remotely detect a signal being transmitted within a fibre cable. The only way to do so is by actually accessing the optical fibre itself. This makes fibre extremely attractive to governmental bodies, banks and other businesses with major security concerns._x000D_ _x000D_ No Metallic Components_x000D_ Fibre optic cable can be installed in areas with electromagnetic interference (EMI). This includes areas around utility lines, power-carrying lines and railroad tracks. Fibre is also ideal for areas of high lightning-strike incidence.

Information carried in the form of light provides a vast array of features and benefits. _x000D_ _x000D_Superior Transmission Distance _x000D_It is not unusual for optical systems to go over 100 kilometres (km), or about 62 miles. _x000D_ _x000D_Enhanced Security _x000D_It is impossible to remotely detect a signal being transmitted within a fibre cable. The only way to do so is by actually accessing the optical fibre itself. This makes fibre extremely attractive to governmental bodies, banks and other businesses with major security concerns. _x000D_ _x000D_No Metallic Components _x000D_Fibre optic cable can be installed in areas with electromagnetic interference (EMI). This includes areas around utility lines, power-carrying lines and railroad tracks. Fibre is also ideal for areas of high lightning-strike incidence.

The benefits of Passive Direct Attach Copper (DAC) cable over fiber optic and RJ45 cablesThe Direct Attach Copper (DAC) cable is becoming increasingly popular in the network industry. Our passive SFP+ 10G DAC Twinax cable is an energy-efficient, low-latency and cost-effective alternative to fiber optic and RJ45 cabling. It's an excellent choice for short-distance structured cabling between switches and routers on one end and servers or storage on the other, be it in Top of Rack (ToR), adjacent rack, stacking of 10GbE switches or similar applications.Close to zero power consumption and a wide temperature rangeSFP+ DAC is comprised of a twinax copper cable terminated with SFP+ connectors on both ends, which can provide an electrical connection directly into active equipment. Consuming less than 0.15 W due to its thermal design, this passive cable helps decrease your operating expenses. Its zero-heat production during operation makes it more versatile and usable in wider temperature ranges up to 70°C (158°F), which is particularly valuable in data centers.Lower cost and simpler to deploy than fiber opticsDAC cabling has a relatively simple internal structure with fewer components than fiber cables. This cable structure helps lower the purchase price for applications in high-bandwidth data transmission and saves you from having to buy separate transceivers. This, in turn, makes DAC cables a lot simpler to deploy since there are fewer parts to match to complete setup. Used versions of this cable are also more convenient to keep on hand because you do not have to clean and inspect them before plugging them in again. When you make upgrades or replacements to your network, the cable's seamless Hot Swapping capability makes quick work of connecting new equipment (note that passive DAC cables are not suitable for long-range applications; at 7 m (23 ft.), they reach their transmission limit).Lower latency than RJ45 twisted-pair patch cablesLike "regular" Cat6a and Cat7 copper cables, this Direct Attach Copper twinax cable supports data transfer rates up 10 Gbps, but its unique structure and signal transmission offers lower latency. Please note: This SFP+ 10G Passive DAC Twinax Cable is MSA-compliant and therefore designed, programmed and tested to work with compatible switches and routers from Cisco, Intellinet Network Solutions, ZyXEL, TP-Link, Ubiquiti, D-Link, Edimax, Allnet, Allied Telesis, Digitus, KTI Networks, LevelOne, PLANET, Tenda, TRENDnet, ZTE, Avaya, Mikrotik, Enterasys, Finisar, Dell Force10, Riverstone, Fortinet and more.