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Categories | DAC Cables(Direct Attach Cable) |
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Brand Name: | SONBORN |
Model Number: | SN-25GDAC-1 |
Certification: | CE FCC ROHS |
Place of Origin: | CHINA |
MOQ: | 1PC |
Price: | Please contact us |
Payment Terms: | T/T |
Supply Ability: | 5000PCS |
Delivery Time: | 5~8 Workdays |
Packaging Details: | Cartons |
Connector Type: | SFP28 to SFP28 |
Max Data Rate: | 25Gbps |
Wire AWG: | 30AWG |
Jacket Material: | PVC |
Protocols: | IEEE 802.3, SFP28 MSA, SFF-8402, Infiniband, EIA 364-1000 |
Cable Length: | 1m (3ft) |
Power Supply: | 3.3V |
Compatible Devices: | Switch, Server, Router, Network Adapter, Intel |
Application: | 25G Ethernet, Data Center, 5G Wireless |
Company Info. |
Sonborn Technology Co., Ltd |
View Contact Details |
Product List |
25GbE SFP28 DAC Twinax Cable, 1Meter 25GBASE-CR SFP28 Passive Copper Cable, Compatible for Cisco
SONBORN's SN-25GDAC-1 25G SFP28 Passive Direct Attach Copper Twinax Cable is designed for use in 25GBASE Ethernet. This cable is compliant with IEEE P802.3by Ethernet standard and SFP28 MSA Compliant. Each SFP28 connector comprises an EEPROM providing product information which can be read by the host system. With these features, this easy to install, high speed, cost-effective direct attach copper twinax Cable is suitable for short-distance connectivity within a rack or between adjacent racks in data centers.
Features
Application
Ordering information
Model | Product Description |
SN-25GDAC-05 | SFP28 to SFP28 Direct Attach Passive Cable (10GSFP+Cu), 0.5m, AWG:30 , 0ºC ~ +70ºC |
SN-25GDAC-1 | SFP28 to SFP28 Direct Attach Passive Cable (10GSFP+Cu), 1m, AWG:30 , 0ºC ~ +70ºC |
SN-25GDAC-2 | SFP28 to SFP28 Direct Attach Passive Cable (10GSFP+Cu), 2m, AWG:30 , 0ºC ~ +70ºC |
SN-25GDAC-3P | SFP28 to SFP28 Direct Attach Passive Cable (10GSFP+Cu),3m, AWG:24, 0ºC ~ +70ºC |
SN-25GDAC-5 | SFP28 to SFP28 Direct Attach Passive Cable (10GSFP+Cu), 5m, AWG:24 , 0ºC ~ +70ºC |
SN-25GDAC-7 | SFP28 to SFP28 Direct Attach Passive Cable (10GSFP+Cu), 7m, AWG:24 , 0ºC ~ +70ºC |
SN-25GDAC-10 | SFP28 to SFP28 Direct Attach Passive Cable (10GSFP+Cu), 10m, AWG:24 , 0ºC ~ +70ºC |
Note: You can be customized diameter and distance.
Cost Saving and Improvement
Helping save your budget in short reach environment and improve the stability and durability without interface exposed and repeated plug and removal.
DAC cables and AOC cables are widely used in HPC network cabling systems in data centers due to their low-latency, low-power, and low-cost advantages.DAC cables and AOC cables are available in a variety of configurations to meet network needs. Each is available in 10G SFP+, 25G SFP28, 40G QSFP+ and 100G QSFP28 data rates with additional options from 40G to 4x10G or 100G to 4x25G variants.
Direct Attach Cable (DAC) consists of a biaxial copper cable with SFP+/SFP28/QSFP+/QSFP56/QSFP28 connectors terminated at both ends, which can provide a direct electrical connection to an active device.DAC cables can be classified into two categories: passive DACs and active DACs.Both passive and active DAC cables can transmit electrical signals directly through the copper cable. The former can transmit without signal conditioning, while the latter has electronics inside the transceiver to enhance the signal. Generally, DAC cables are used to connect switches, servers, and storage devices within racks.
Active Optical Cable (AOC) consists of multimode fiber with SFP-type connectors terminated at both ends. It requires an external power supply to complete the conversion of electrical signals to optical signals, from electrical signals to optical signals and finally to electrical signals. Generally speaking, AOC cables are mainly used to connect switches, servers and storage between different racks within a data center.
DAC/AOC Cable Comparison
DAC cables are mainly used to connect switches, servers, and
storage within a rack, and AOC cables are mainly used to connect
switches, servers, and storage between different racks within a
data center. In addition to this, DAC AOC cables differ in the
following ways.
Power Consumption
Under normal circumstances, the power consumption of AOC cables is higher than that of DAC cables, which is 1 ~ 2 w. The power consumption of DAC active cables is less than 1 w. Passive cables, due to the heat dissipation design of direct-attachment copper cables, consume almost zero power and are less than 0.15 w. Therefore, when the DAC option is used, the operating cost of power consumption will be reduced.
Transmission Distance
AOC cables use fiber optic technology for transmission distances of up to 100m, while DAC cable link length is limited to 10m (Passive DAC: 7m; In summary, the DAC cabling option is suitable for short-distance transmission, and the AOC cabling option is suitable for long-distance networking.
Note:Max. Signal distance that can be transmitted over DAC cable depends on the data rate. The link length decreases as the data rate increases, e.g. 100G DAC cable can only transmit up to 5 meters.
Cost
Roughly speaking, DACs have simpler internals and fewer components, and copper cables are much cheaper than fiber optics. When implemented in large data centers, a large number of DAC cables will save money compared to AOC options. For short distance applications, DAC does offer a cost-effective solution over aoc, but for remote applications, it is wise to list the overall cost by comparing the two options.
The primary use of the 10G SFP+ dac is to connect switches/servers to switches inside or adjacent to the rack. In other words, these 10G direct-attach cables can be used as an alternative to ToR (top-of-rack) interconnections between 10G ToR switches and servers or 10GbE switch stacking. Since 10G SFP+ DACs typically support link lengths of 7 meters with low power consumption, low latency and low cost, this option is ideal for such short distance server-to-switch connections.
Typical Applications for 10G SFP+ AOC Cables
Since there are no strict link length limitations, 10G SFP+ aoc is typically used in multiple locations in the data center such as ToR, EoR (end of row) and MoR (middle of row). As with dac, all servers are connected to top-of-rack Ethernet switches, and each server has one or two Ethernet connections to the switch; these connections can be patched by using AOC cables.
Additionally, the utilization of 10G aoc in the data center can be implemented in several major network areas (e.g., Spine, Leaf, or Core switching areas). Interconnections are typically achieved by employing these 10G SFP+ aocs, which have a theoretical maximum reach of 100 meters