SFP+ DAC Twinax Cable
SFP+ DAC twinax cable is a copper interconnect using a twinax cable assembly that connects directly into the SFP+ housing. SFP+ copper twinax cable has become an optimized choice for modern short-range, high-speed 10 Gigabit Ethernet applications. Although it has a distance limitation of 10 m, 10G SFP+ DAC twinax cable is commonly used in intra-rack and inter-rack connections: including interconnection of top-of-rack switches with servers and storage devices within a rack or in adjacent racks.
What to Notice When Buying a SFP+ DAC Twinax Cable?
A qualified SFP+ twinax copper cable is vital to ensure reliable link performance, helping to improve network uptime. Here are some factors to pay attention to when buying a SFP+ DAC twinax cable.
Branded or Compatible SFP+ DAC Twinax Cable?
As OEM or vendor branded SFP+ copper twinax cables are rather cost-prohibitive, users are more inclined to choose compatible SFP+ DAC twinax cable made with the same industry standard, but at only a fraction of the cost. As long as picking a trustworthy vendor, you can expected to get SFP+ twinax copper cable with the same performance as branded ones. FS.COM SFP+ to SFP+ copper twinax cable is tested and proven compatible with equipment from major vendors. We also specially design SFP+ DAC twinax cable assemblies with different-brands compatible housing at two sides, and you can customize according to your needs. In this way, connecting switches from multiple vendor is no more an obstacle.
Read Product Details of the SFP+ DAC Twinax Cable
To make the purchase meeting with your specific needs, buyers should be fully aware of the ROHS compliance, storage temperature and MSA compliance features in regard to the SFP+ DAC twinax cables. This is important for the proper running of your network system.
AWG Is Also an Important Factor
Another important factor related to SFP+ DAC copper cables is the AWG. There exist various options of SFP+ DAC twinax cable length and wire gauges, like 24AWG, 28AWG and 30AWG. Always remember a rule when choosing the AWG—the longer the distance, the lower the AWG rating should be.