D-Link DEM-CB100QXS 40G QSFP+ to QSFP+ 1 m Direct Attach Stacking Cable
40G QSFP+ to QSFP+ Direct Attach Cable 1m (30AWG)
(edit with the Customer Reassurance module)
(edit with the Customer Reassurance module)
(edit with the Customer Reassurance module)
D-Link DEM-CB100QXS
40G QSFP+ to QSFP+ 1 m Direct Attach Stacking Cable
The 40G Passive QSFP+ Direct Attach Cable is a high performance, high bandwidth and cost-effective connection solution that supports 40G Gigabit Ethernet. The 40G Passive QSFP+ Direct Attach Cable is designed to support high-density connections for switches with 40G interface, much faster than SFP+.
Ideal for High-Bandwidth Operations
The 40G Passive QSFP+ Direct Attach Cable supports speeds of up to 40 Gbps, while having lower crosstalk and power consumption than other cables. This makes it an optimal solution for handling high bandwidth transmission within short distances such as within a rack or between racks inside energy-efficient data centers.
Quad Small Form-factor Pluggable Plus Format
The D-Link 40G Passive QSFP+ Direct Attach Cable uses Quad Small Form-factor Pluggable Plus format (QSFP+) connectors, which integrate four transmitting and four receiving channels. The QSFP+ cable assemblies can replace four standard SFP+ cable assemblies, resulting in higher port density, cost efficiency, and a reduction in power savings compared to standard SFP+.
Save on Costs
The D-Link 40G Passive QSFP+ Direct Attach Cable features QSFP+ connectors on both ends, thus eliminating the need for expensive QSFP+ transceivers. This makes it more cost-effective than fiber cables which must use QSFP+ transceivers.
Specifications :
General
Device Rate
- 40 Gbps Gigabit Ethernet
Connector Type
- QSFP+ Cable Assembly
Cable Length
- 1 metre
Wire AWG
- 30 AWG
Physical
Minimum Cable Bend Radius
- 32 mm (1.26 inches)
Cable Characteristic Impedance
- 100 Ohms
Voltage
- 30 V AC
Current
- 0.5 A
Temperature
- Operating: -40 to 85 °C (-40 to 185 °F)
Certifications
-
SFP MSA (Multi-Source Agreement)
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EIA-364-1000.01
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SFF-8436
-
EIA 364
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UL 94
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SFF-8431